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initial commit of transferred code from the old project

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This commit is contained in:
Alexander Bock
2014-01-04 18:24:33 +01:00
parent 2bff81f684
commit 9885f52fd0
2276 changed files with 996697 additions and 0 deletions
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1
.gitignore vendored Normal file
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bin/

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.gitmodules vendored Normal file
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[submodule "ext/ghoul"]
path = ext/ghoul
url = git@openspace.itn.liu.se:ghoul

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CMakeLists.txt Normal file
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#########################################################################################
# #
# OpenSpace #
# #
# Copyright (c) 2014 #
# #
# Permission is hereby granted, free of charge, to any person obtaining a copy of this #
# software and associated documentation files (the "Software"), to deal in the Software #
# without restriction, including without limitation the rights to use, copy, modify, #
# merge, publish, distribute, sublicense, and/or sell copies of the Software, and to #
# permit persons to whom the Software is furnished to do so, subject to the following #
# conditions: #
# #
# The above copyright notice and this permission notice shall be included in all copies #
# or substantial portions of the Software. #
# #
# THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR IMPLIED, #
# INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, FITNESS FOR A #
# PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT #
# HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION OF #
# CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE #
# OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. #
#########################################################################################
#########################################################################################
# General Settings
#########################################################################################
cmake_minimum_required (VERSION 2.8)
project (OpenSpace)
set(OPENSPACE_BASE_DIR "${PROJECT_SOURCE_DIR}")
set(OPENSPACE_EXT_DIR "${OPENSPACE_BASE_DIR}/ext")
set(CMAKE_MODULE_PATH ${CMAKE_MODULE_PATH} ${OPENSPACE_EXT_DIR})
if (APPLE )
set(CMAKE_CXX_FLAGS "${CMAKE_CXX_FLAGS} -std=c++11 -stdlib=libc++")
endif ()
#########################################################################################
# External Third-party software
#########################################################################################
# Ghoul
add_definitions(-DGHL_DEBUG)
set(GHOUL_ROOT_DIR "${OPENSPACE_EXT_DIR}/ghoul")
include_directories("${GHOUL_ROOT_DIR}/include")
add_subdirectory(${GHOUL_ROOT_DIR})
set(DEPENDENT_LIBS ${DEPENDENT_LIBS} Ghoul)
# SGCT (TODO: write cmake script)
#set(SGCT_ROOT_DIR "$ENV{SGCT_ROOT_DIR}")
#set(SGCT_ROOT_DIR "C:/Program Files/SGCT/SGCT_2.0.7")
set(SGCT_ROOT_DIR "C:/Program Files (x86)/SGCT/SGCT_2.0.5_x86")
add_definitions(-D__WIN32__)
include_directories("${SGCT_ROOT_DIR}/include")
set(DEPENDENT_LIBS
${DEPENDENT_LIBS}
optimized "${SGCT_ROOT_DIR}/lib/msvc11/sgct.lib"
debug "${SGCT_ROOT_DIR}/lib/msvc11/sgctd.lib"
)
# GLM
set(GLM_ROOT_DIR "${GHOUL_ROOT_DIR}/ext/glm")
find_package(GLM REQUIRED)
include_directories(${GLM_INCLUDE_DIRS})
# OpenGL
#find_package(OpenGL REQUIRED)
#include_directories(${OPENGL_INCLUDE_DIRS})
#set(DEPENDENT_LIBS ${DEPENDENT_LIBS} ${OPENGL_LIBRARIES})
# GLEW
#find_package(GLEW REQUIRED)
#include_directories(${GLEW_INCLUDE_DIRECTORIES})
#set(DEPENDENT_LIBS ${DEPENDENT_LIBS} ${GLEW_LIBRARIES})
# Lua
set(LUA_ROOT_DIR "${OPENSPACE_EXT_DIR}/lua")
include_directories("${LUA_ROOT_DIR}/include")
add_subdirectory(${LUA_ROOT_DIR})
set(DEPENDENT_LIBS ${DEPENDENT_LIBS} Lua)
# Spice
set(SPICE_ROOT_DIR "${OPENSPACE_EXT_DIR}/spice")
include_directories("${SPICE_ROOT_DIR}/include")
add_subdirectory(${SPICE_ROOT_DIR})
set(DEPENDENT_LIBS ${DEPENDENT_LIBS} Spice)
if (APPLE)
include_directories(/Developer/Headers/FlatCarbon)
find_library(CARBON_LIBRARY Carbon)
find_library(COCOA_LIBRARY Carbon)
find_library(APP_SERVICES_LIBRARY ApplicationServices)
mark_as_advanced(CARBON_LIBRARY COCOA_LIBRARY APP_SERVICES_LIBRARY)
set(DEPENDENT_LIBS ${CARBON_LIBRARY} ${COCOA_LIBRARY} ${APP_SERVICES_LIBRARY})
endif ()
#########################################################################################
# Executable
#########################################################################################
add_subdirectory(src)

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CREDITS Normal file
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Alexander Bock
Patric Ljung
Jonas Strandstedt

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config/single.xml Normal file
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<?xml version="1.0" ?>
<Cluster masterAddress="127.0.0.1">
<Node address="127.0.0.1" port="20401">
<Window fullScreen="false">
<!-- 16:9 aspect ratio -->
<Size x="640" y="360" />
<Viewport>
<Pos x="0.0" y="0.0" />
<Size x="1.0" y="1.0" />
<Viewplane>
<!-- Lower left -->
<Pos x="-1.778" y="-1.0" z="0.0" />
<!-- Upper left -->
<Pos x="-1.778" y="1.0" z="0.0" />
<!-- Upper right -->
<Pos x="1.778" y="1.0" z="0.0" />
</Viewplane>
</Viewport>
</Window>
</Node>
<User eyeSeparation="0.065">
<Pos x="0.0" y="0.0" z="4.0" />
</User>
</Cluster>

1
ext/ghoul Submodule

Submodule ext/ghoul added at 874a5178a8

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cmake_minimum_required(VERSION 2.8.0)
project(Lua)
mark_as_advanced(CMAKE_BACKWARDS_COMPATIBILITY)
if (POLICY CMP0011)
cmake_policy(SET CMP0011 OLD) # or even better, NEW
endif (POLICY CMP0011)
if (NOT LUA_ROOT_DIR)
set(LUA_ROOT_DIR ${PROJECT_SOURCE_DIR})
endif ()
# LUA_USE_APICHECK in full debug mode
set (LUA_SOURCE
${PROJECT_SOURCE_DIR}/src/lapi.c
${PROJECT_SOURCE_DIR}/src/lauxlib.c
${PROJECT_SOURCE_DIR}/src/lbaselib.c
${PROJECT_SOURCE_DIR}/src/lbitlib.c
${PROJECT_SOURCE_DIR}/src/lcode.c
${PROJECT_SOURCE_DIR}/src/lcorolib.c
${PROJECT_SOURCE_DIR}/src/lctype.c
${PROJECT_SOURCE_DIR}/src/ldblib.c
${PROJECT_SOURCE_DIR}/src/ldebug.c
${PROJECT_SOURCE_DIR}/src/ldo.c
${PROJECT_SOURCE_DIR}/src/ldump.c
${PROJECT_SOURCE_DIR}/src/lfunc.c
${PROJECT_SOURCE_DIR}/src/lgc.c
${PROJECT_SOURCE_DIR}/src/linit.c
${PROJECT_SOURCE_DIR}/src/liolib.c
${PROJECT_SOURCE_DIR}/src/llex.c
${PROJECT_SOURCE_DIR}/src/lmathlib.c
${PROJECT_SOURCE_DIR}/src/lmem.c
${PROJECT_SOURCE_DIR}/src/loadlib.c
${PROJECT_SOURCE_DIR}/src/lobject.c
${PROJECT_SOURCE_DIR}/src/lopcodes.c
${PROJECT_SOURCE_DIR}/src/loslib.c
${PROJECT_SOURCE_DIR}/src/lparser.c
${PROJECT_SOURCE_DIR}/src/lstate.c
${PROJECT_SOURCE_DIR}/src/lstring.c
${PROJECT_SOURCE_DIR}/src/lstrlib.c
${PROJECT_SOURCE_DIR}/src/ltable.c
${PROJECT_SOURCE_DIR}/src/ltablib.c
${PROJECT_SOURCE_DIR}/src/ltm.c
${PROJECT_SOURCE_DIR}/src/lundump.c
${PROJECT_SOURCE_DIR}/src/lvm.c
${PROJECT_SOURCE_DIR}/src/lzio.c
)
set (LUA_HEADER
${PROJECT_SOURCE_DIR}/include/lapi.h
${PROJECT_SOURCE_DIR}/include/lauxlib.h
${PROJECT_SOURCE_DIR}/include/lcode.h
${PROJECT_SOURCE_DIR}/include/lctype.h
${PROJECT_SOURCE_DIR}/include/ldebug.h
${PROJECT_SOURCE_DIR}/include/ldo.h
${PROJECT_SOURCE_DIR}/include/lfunc.h
${PROJECT_SOURCE_DIR}/include/lgc.h
${PROJECT_SOURCE_DIR}/include/llex.h
${PROJECT_SOURCE_DIR}/include/llimits.h
${PROJECT_SOURCE_DIR}/include/lmem.h
${PROJECT_SOURCE_DIR}/include/lobject.h
${PROJECT_SOURCE_DIR}/include/lopcodes.h
${PROJECT_SOURCE_DIR}/include/lparser.h
${PROJECT_SOURCE_DIR}/include/lstate.h
${PROJECT_SOURCE_DIR}/include/lstring.h
${PROJECT_SOURCE_DIR}/include/ltable.h
${PROJECT_SOURCE_DIR}/include/ltm.h
${PROJECT_SOURCE_DIR}/include/lua.h
${PROJECT_SOURCE_DIR}/include/lua.hpp.h
${PROJECT_SOURCE_DIR}/include/luaconf.h
${PROJECT_SOURCE_DIR}/include/lualib.h
${PROJECT_SOURCE_DIR}/include/lundump.h
${PROJECT_SOURCE_DIR}/include/lvm.h
${PROJECT_SOURCE_DIR}/include/lzio.h
)
if (WIN32)
add_definitions(-D_CRT_SECURE_NO_WARNINGS)
endif()
add_library(Lua ${LUA_SOURCE})
set (LUA_INCLUDE_DIR "${LUA_HEADER}")
include_directories("${LUA_INCLUDE_DIR}")

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/*
** $Id: lapi.h,v 2.7.1.1 2013/04/12 18:48:47 roberto Exp $
** Auxiliary functions from Lua API
** See Copyright Notice in lua.h
*/
#ifndef lapi_h
#define lapi_h
#include "llimits.h"
#include "lstate.h"
#define api_incr_top(L) {L->top++; api_check(L, L->top <= L->ci->top, \
"stack overflow");}
#define adjustresults(L,nres) \
{ if ((nres) == LUA_MULTRET && L->ci->top < L->top) L->ci->top = L->top; }
#define api_checknelems(L,n) api_check(L, (n) < (L->top - L->ci->func), \
"not enough elements in the stack")
#endif

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/*
** $Id: lauxlib.h,v 1.120.1.1 2013/04/12 18:48:47 roberto Exp $
** Auxiliary functions for building Lua libraries
** See Copyright Notice in lua.h
*/
#ifndef lauxlib_h
#define lauxlib_h
#include <stddef.h>
#include <stdio.h>
#include "lua.h"
/* extra error code for `luaL_load' */
#define LUA_ERRFILE (LUA_ERRERR+1)
typedef struct luaL_Reg {
const char *name;
lua_CFunction func;
} luaL_Reg;
LUALIB_API void (luaL_checkversion_) (lua_State *L, lua_Number ver);
#define luaL_checkversion(L) luaL_checkversion_(L, LUA_VERSION_NUM)
LUALIB_API int (luaL_getmetafield) (lua_State *L, int obj, const char *e);
LUALIB_API int (luaL_callmeta) (lua_State *L, int obj, const char *e);
LUALIB_API const char *(luaL_tolstring) (lua_State *L, int idx, size_t *len);
LUALIB_API int (luaL_argerror) (lua_State *L, int numarg, const char *extramsg);
LUALIB_API const char *(luaL_checklstring) (lua_State *L, int numArg,
size_t *l);
LUALIB_API const char *(luaL_optlstring) (lua_State *L, int numArg,
const char *def, size_t *l);
LUALIB_API lua_Number (luaL_checknumber) (lua_State *L, int numArg);
LUALIB_API lua_Number (luaL_optnumber) (lua_State *L, int nArg, lua_Number def);
LUALIB_API lua_Integer (luaL_checkinteger) (lua_State *L, int numArg);
LUALIB_API lua_Integer (luaL_optinteger) (lua_State *L, int nArg,
lua_Integer def);
LUALIB_API lua_Unsigned (luaL_checkunsigned) (lua_State *L, int numArg);
LUALIB_API lua_Unsigned (luaL_optunsigned) (lua_State *L, int numArg,
lua_Unsigned def);
LUALIB_API void (luaL_checkstack) (lua_State *L, int sz, const char *msg);
LUALIB_API void (luaL_checktype) (lua_State *L, int narg, int t);
LUALIB_API void (luaL_checkany) (lua_State *L, int narg);
LUALIB_API int (luaL_newmetatable) (lua_State *L, const char *tname);
LUALIB_API void (luaL_setmetatable) (lua_State *L, const char *tname);
LUALIB_API void *(luaL_testudata) (lua_State *L, int ud, const char *tname);
LUALIB_API void *(luaL_checkudata) (lua_State *L, int ud, const char *tname);
LUALIB_API void (luaL_where) (lua_State *L, int lvl);
LUALIB_API int (luaL_error) (lua_State *L, const char *fmt, ...);
LUALIB_API int (luaL_checkoption) (lua_State *L, int narg, const char *def,
const char *const lst[]);
LUALIB_API int (luaL_fileresult) (lua_State *L, int stat, const char *fname);
LUALIB_API int (luaL_execresult) (lua_State *L, int stat);
/* pre-defined references */
#define LUA_NOREF (-2)
#define LUA_REFNIL (-1)
LUALIB_API int (luaL_ref) (lua_State *L, int t);
LUALIB_API void (luaL_unref) (lua_State *L, int t, int ref);
LUALIB_API int (luaL_loadfilex) (lua_State *L, const char *filename,
const char *mode);
#define luaL_loadfile(L,f) luaL_loadfilex(L,f,NULL)
LUALIB_API int (luaL_loadbufferx) (lua_State *L, const char *buff, size_t sz,
const char *name, const char *mode);
LUALIB_API int (luaL_loadstring) (lua_State *L, const char *s);
LUALIB_API lua_State *(luaL_newstate) (void);
LUALIB_API int (luaL_len) (lua_State *L, int idx);
LUALIB_API const char *(luaL_gsub) (lua_State *L, const char *s, const char *p,
const char *r);
LUALIB_API void (luaL_setfuncs) (lua_State *L, const luaL_Reg *l, int nup);
LUALIB_API int (luaL_getsubtable) (lua_State *L, int idx, const char *fname);
LUALIB_API void (luaL_traceback) (lua_State *L, lua_State *L1,
const char *msg, int level);
LUALIB_API void (luaL_requiref) (lua_State *L, const char *modname,
lua_CFunction openf, int glb);
/*
** ===============================================================
** some useful macros
** ===============================================================
*/
#define luaL_newlibtable(L,l) \
lua_createtable(L, 0, sizeof(l)/sizeof((l)[0]) - 1)
#define luaL_newlib(L,l) (luaL_newlibtable(L,l), luaL_setfuncs(L,l,0))
#define luaL_argcheck(L, cond,numarg,extramsg) \
((void)((cond) || luaL_argerror(L, (numarg), (extramsg))))
#define luaL_checkstring(L,n) (luaL_checklstring(L, (n), NULL))
#define luaL_optstring(L,n,d) (luaL_optlstring(L, (n), (d), NULL))
#define luaL_checkint(L,n) ((int)luaL_checkinteger(L, (n)))
#define luaL_optint(L,n,d) ((int)luaL_optinteger(L, (n), (d)))
#define luaL_checklong(L,n) ((long)luaL_checkinteger(L, (n)))
#define luaL_optlong(L,n,d) ((long)luaL_optinteger(L, (n), (d)))
#define luaL_typename(L,i) lua_typename(L, lua_type(L,(i)))
#define luaL_dofile(L, fn) \
(luaL_loadfile(L, fn) || lua_pcall(L, 0, LUA_MULTRET, 0))
#define luaL_dostring(L, s) \
(luaL_loadstring(L, s) || lua_pcall(L, 0, LUA_MULTRET, 0))
#define luaL_getmetatable(L,n) (lua_getfield(L, LUA_REGISTRYINDEX, (n)))
#define luaL_opt(L,f,n,d) (lua_isnoneornil(L,(n)) ? (d) : f(L,(n)))
#define luaL_loadbuffer(L,s,sz,n) luaL_loadbufferx(L,s,sz,n,NULL)
/*
** {======================================================
** Generic Buffer manipulation
** =======================================================
*/
typedef struct luaL_Buffer {
char *b; /* buffer address */
size_t size; /* buffer size */
size_t n; /* number of characters in buffer */
lua_State *L;
char initb[LUAL_BUFFERSIZE]; /* initial buffer */
} luaL_Buffer;
#define luaL_addchar(B,c) \
((void)((B)->n < (B)->size || luaL_prepbuffsize((B), 1)), \
((B)->b[(B)->n++] = (c)))
#define luaL_addsize(B,s) ((B)->n += (s))
LUALIB_API void (luaL_buffinit) (lua_State *L, luaL_Buffer *B);
LUALIB_API char *(luaL_prepbuffsize) (luaL_Buffer *B, size_t sz);
LUALIB_API void (luaL_addlstring) (luaL_Buffer *B, const char *s, size_t l);
LUALIB_API void (luaL_addstring) (luaL_Buffer *B, const char *s);
LUALIB_API void (luaL_addvalue) (luaL_Buffer *B);
LUALIB_API void (luaL_pushresult) (luaL_Buffer *B);
LUALIB_API void (luaL_pushresultsize) (luaL_Buffer *B, size_t sz);
LUALIB_API char *(luaL_buffinitsize) (lua_State *L, luaL_Buffer *B, size_t sz);
#define luaL_prepbuffer(B) luaL_prepbuffsize(B, LUAL_BUFFERSIZE)
/* }====================================================== */
/*
** {======================================================
** File handles for IO library
** =======================================================
*/
/*
** A file handle is a userdata with metatable 'LUA_FILEHANDLE' and
** initial structure 'luaL_Stream' (it may contain other fields
** after that initial structure).
*/
#define LUA_FILEHANDLE "FILE*"
typedef struct luaL_Stream {
FILE *f; /* stream (NULL for incompletely created streams) */
lua_CFunction closef; /* to close stream (NULL for closed streams) */
} luaL_Stream;
/* }====================================================== */
/* compatibility with old module system */
#if defined(LUA_COMPAT_MODULE)
LUALIB_API void (luaL_pushmodule) (lua_State *L, const char *modname,
int sizehint);
LUALIB_API void (luaL_openlib) (lua_State *L, const char *libname,
const luaL_Reg *l, int nup);
#define luaL_register(L,n,l) (luaL_openlib(L,(n),(l),0))
#endif
#endif

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/*
** $Id: lcode.h,v 1.58.1.1 2013/04/12 18:48:47 roberto Exp $
** Code generator for Lua
** See Copyright Notice in lua.h
*/
#ifndef lcode_h
#define lcode_h
#include "llex.h"
#include "lobject.h"
#include "lopcodes.h"
#include "lparser.h"
/*
** Marks the end of a patch list. It is an invalid value both as an absolute
** address, and as a list link (would link an element to itself).
*/
#define NO_JUMP (-1)
/*
** grep "ORDER OPR" if you change these enums (ORDER OP)
*/
typedef enum BinOpr {
OPR_ADD, OPR_SUB, OPR_MUL, OPR_DIV, OPR_MOD, OPR_POW,
OPR_CONCAT,
OPR_EQ, OPR_LT, OPR_LE,
OPR_NE, OPR_GT, OPR_GE,
OPR_AND, OPR_OR,
OPR_NOBINOPR
} BinOpr;
typedef enum UnOpr { OPR_MINUS, OPR_NOT, OPR_LEN, OPR_NOUNOPR } UnOpr;
#define getcode(fs,e) ((fs)->f->code[(e)->u.info])
#define luaK_codeAsBx(fs,o,A,sBx) luaK_codeABx(fs,o,A,(sBx)+MAXARG_sBx)
#define luaK_setmultret(fs,e) luaK_setreturns(fs, e, LUA_MULTRET)
#define luaK_jumpto(fs,t) luaK_patchlist(fs, luaK_jump(fs), t)
LUAI_FUNC int luaK_codeABx (FuncState *fs, OpCode o, int A, unsigned int Bx);
LUAI_FUNC int luaK_codeABC (FuncState *fs, OpCode o, int A, int B, int C);
LUAI_FUNC int luaK_codek (FuncState *fs, int reg, int k);
LUAI_FUNC void luaK_fixline (FuncState *fs, int line);
LUAI_FUNC void luaK_nil (FuncState *fs, int from, int n);
LUAI_FUNC void luaK_reserveregs (FuncState *fs, int n);
LUAI_FUNC void luaK_checkstack (FuncState *fs, int n);
LUAI_FUNC int luaK_stringK (FuncState *fs, TString *s);
LUAI_FUNC int luaK_numberK (FuncState *fs, lua_Number r);
LUAI_FUNC void luaK_dischargevars (FuncState *fs, expdesc *e);
LUAI_FUNC int luaK_exp2anyreg (FuncState *fs, expdesc *e);
LUAI_FUNC void luaK_exp2anyregup (FuncState *fs, expdesc *e);
LUAI_FUNC void luaK_exp2nextreg (FuncState *fs, expdesc *e);
LUAI_FUNC void luaK_exp2val (FuncState *fs, expdesc *e);
LUAI_FUNC int luaK_exp2RK (FuncState *fs, expdesc *e);
LUAI_FUNC void luaK_self (FuncState *fs, expdesc *e, expdesc *key);
LUAI_FUNC void luaK_indexed (FuncState *fs, expdesc *t, expdesc *k);
LUAI_FUNC void luaK_goiftrue (FuncState *fs, expdesc *e);
LUAI_FUNC void luaK_goiffalse (FuncState *fs, expdesc *e);
LUAI_FUNC void luaK_storevar (FuncState *fs, expdesc *var, expdesc *e);
LUAI_FUNC void luaK_setreturns (FuncState *fs, expdesc *e, int nresults);
LUAI_FUNC void luaK_setoneret (FuncState *fs, expdesc *e);
LUAI_FUNC int luaK_jump (FuncState *fs);
LUAI_FUNC void luaK_ret (FuncState *fs, int first, int nret);
LUAI_FUNC void luaK_patchlist (FuncState *fs, int list, int target);
LUAI_FUNC void luaK_patchtohere (FuncState *fs, int list);
LUAI_FUNC void luaK_patchclose (FuncState *fs, int list, int level);
LUAI_FUNC void luaK_concat (FuncState *fs, int *l1, int l2);
LUAI_FUNC int luaK_getlabel (FuncState *fs);
LUAI_FUNC void luaK_prefix (FuncState *fs, UnOpr op, expdesc *v, int line);
LUAI_FUNC void luaK_infix (FuncState *fs, BinOpr op, expdesc *v);
LUAI_FUNC void luaK_posfix (FuncState *fs, BinOpr op, expdesc *v1,
expdesc *v2, int line);
LUAI_FUNC void luaK_setlist (FuncState *fs, int base, int nelems, int tostore);
#endif

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/*
** $Id: lctype.h,v 1.12.1.1 2013/04/12 18:48:47 roberto Exp $
** 'ctype' functions for Lua
** See Copyright Notice in lua.h
*/
#ifndef lctype_h
#define lctype_h
#include "lua.h"
/*
** WARNING: the functions defined here do not necessarily correspond
** to the similar functions in the standard C ctype.h. They are
** optimized for the specific needs of Lua
*/
#if !defined(LUA_USE_CTYPE)
#if 'A' == 65 && '0' == 48
/* ASCII case: can use its own tables; faster and fixed */
#define LUA_USE_CTYPE 0
#else
/* must use standard C ctype */
#define LUA_USE_CTYPE 1
#endif
#endif
#if !LUA_USE_CTYPE /* { */
#include <limits.h>
#include "llimits.h"
#define ALPHABIT 0
#define DIGITBIT 1
#define PRINTBIT 2
#define SPACEBIT 3
#define XDIGITBIT 4
#define MASK(B) (1 << (B))
/*
** add 1 to char to allow index -1 (EOZ)
*/
#define testprop(c,p) (luai_ctype_[(c)+1] & (p))
/*
** 'lalpha' (Lua alphabetic) and 'lalnum' (Lua alphanumeric) both include '_'
*/
#define lislalpha(c) testprop(c, MASK(ALPHABIT))
#define lislalnum(c) testprop(c, (MASK(ALPHABIT) | MASK(DIGITBIT)))
#define lisdigit(c) testprop(c, MASK(DIGITBIT))
#define lisspace(c) testprop(c, MASK(SPACEBIT))
#define lisprint(c) testprop(c, MASK(PRINTBIT))
#define lisxdigit(c) testprop(c, MASK(XDIGITBIT))
/*
** this 'ltolower' only works for alphabetic characters
*/
#define ltolower(c) ((c) | ('A' ^ 'a'))
/* two more entries for 0 and -1 (EOZ) */
LUAI_DDEC const lu_byte luai_ctype_[UCHAR_MAX + 2];
#else /* }{ */
/*
** use standard C ctypes
*/
#include <ctype.h>
#define lislalpha(c) (isalpha(c) || (c) == '_')
#define lislalnum(c) (isalnum(c) || (c) == '_')
#define lisdigit(c) (isdigit(c))
#define lisspace(c) (isspace(c))
#define lisprint(c) (isprint(c))
#define lisxdigit(c) (isxdigit(c))
#define ltolower(c) (tolower(c))
#endif /* } */
#endif

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/*
** $Id: ldebug.h,v 2.7.1.1 2013/04/12 18:48:47 roberto Exp $
** Auxiliary functions from Debug Interface module
** See Copyright Notice in lua.h
*/
#ifndef ldebug_h
#define ldebug_h
#include "lstate.h"
#define pcRel(pc, p) (cast(int, (pc) - (p)->code) - 1)
#define getfuncline(f,pc) (((f)->lineinfo) ? (f)->lineinfo[pc] : 0)
#define resethookcount(L) (L->hookcount = L->basehookcount)
/* Active Lua function (given call info) */
#define ci_func(ci) (clLvalue((ci)->func))
LUAI_FUNC l_noret luaG_typeerror (lua_State *L, const TValue *o,
const char *opname);
LUAI_FUNC l_noret luaG_concaterror (lua_State *L, StkId p1, StkId p2);
LUAI_FUNC l_noret luaG_aritherror (lua_State *L, const TValue *p1,
const TValue *p2);
LUAI_FUNC l_noret luaG_ordererror (lua_State *L, const TValue *p1,
const TValue *p2);
LUAI_FUNC l_noret luaG_runerror (lua_State *L, const char *fmt, ...);
LUAI_FUNC l_noret luaG_errormsg (lua_State *L);
#endif

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/*
** $Id: ldo.h,v 2.20.1.1 2013/04/12 18:48:47 roberto Exp $
** Stack and Call structure of Lua
** See Copyright Notice in lua.h
*/
#ifndef ldo_h
#define ldo_h
#include "lobject.h"
#include "lstate.h"
#include "lzio.h"
#define luaD_checkstack(L,n) if (L->stack_last - L->top <= (n)) \
luaD_growstack(L, n); else condmovestack(L);
#define incr_top(L) {L->top++; luaD_checkstack(L,0);}
#define savestack(L,p) ((char *)(p) - (char *)L->stack)
#define restorestack(L,n) ((TValue *)((char *)L->stack + (n)))
/* type of protected functions, to be ran by `runprotected' */
typedef void (*Pfunc) (lua_State *L, void *ud);
LUAI_FUNC int luaD_protectedparser (lua_State *L, ZIO *z, const char *name,
const char *mode);
LUAI_FUNC void luaD_hook (lua_State *L, int event, int line);
LUAI_FUNC int luaD_precall (lua_State *L, StkId func, int nresults);
LUAI_FUNC void luaD_call (lua_State *L, StkId func, int nResults,
int allowyield);
LUAI_FUNC int luaD_pcall (lua_State *L, Pfunc func, void *u,
ptrdiff_t oldtop, ptrdiff_t ef);
LUAI_FUNC int luaD_poscall (lua_State *L, StkId firstResult);
LUAI_FUNC void luaD_reallocstack (lua_State *L, int newsize);
LUAI_FUNC void luaD_growstack (lua_State *L, int n);
LUAI_FUNC void luaD_shrinkstack (lua_State *L);
LUAI_FUNC l_noret luaD_throw (lua_State *L, int errcode);
LUAI_FUNC int luaD_rawrunprotected (lua_State *L, Pfunc f, void *ud);
#endif

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/*
** $Id: lfunc.h,v 2.8.1.1 2013/04/12 18:48:47 roberto Exp $
** Auxiliary functions to manipulate prototypes and closures
** See Copyright Notice in lua.h
*/
#ifndef lfunc_h
#define lfunc_h
#include "lobject.h"
#define sizeCclosure(n) (cast(int, sizeof(CClosure)) + \
cast(int, sizeof(TValue)*((n)-1)))
#define sizeLclosure(n) (cast(int, sizeof(LClosure)) + \
cast(int, sizeof(TValue *)*((n)-1)))
LUAI_FUNC Proto *luaF_newproto (lua_State *L);
LUAI_FUNC Closure *luaF_newCclosure (lua_State *L, int nelems);
LUAI_FUNC Closure *luaF_newLclosure (lua_State *L, int nelems);
LUAI_FUNC UpVal *luaF_newupval (lua_State *L);
LUAI_FUNC UpVal *luaF_findupval (lua_State *L, StkId level);
LUAI_FUNC void luaF_close (lua_State *L, StkId level);
LUAI_FUNC void luaF_freeproto (lua_State *L, Proto *f);
LUAI_FUNC void luaF_freeupval (lua_State *L, UpVal *uv);
LUAI_FUNC const char *luaF_getlocalname (const Proto *func, int local_number,
int pc);
#endif

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/*
** $Id: lgc.h,v 2.58.1.1 2013/04/12 18:48:47 roberto Exp $
** Garbage Collector
** See Copyright Notice in lua.h
*/
#ifndef lgc_h
#define lgc_h
#include "lobject.h"
#include "lstate.h"
/*
** Collectable objects may have one of three colors: white, which
** means the object is not marked; gray, which means the
** object is marked, but its references may be not marked; and
** black, which means that the object and all its references are marked.
** The main invariant of the garbage collector, while marking objects,
** is that a black object can never point to a white one. Moreover,
** any gray object must be in a "gray list" (gray, grayagain, weak,
** allweak, ephemeron) so that it can be visited again before finishing
** the collection cycle. These lists have no meaning when the invariant
** is not being enforced (e.g., sweep phase).
*/
/* how much to allocate before next GC step */
#if !defined(GCSTEPSIZE)
/* ~100 small strings */
#define GCSTEPSIZE (cast_int(100 * sizeof(TString)))
#endif
/*
** Possible states of the Garbage Collector
*/
#define GCSpropagate 0
#define GCSatomic 1
#define GCSsweepstring 2
#define GCSsweepudata 3
#define GCSsweep 4
#define GCSpause 5
#define issweepphase(g) \
(GCSsweepstring <= (g)->gcstate && (g)->gcstate <= GCSsweep)
#define isgenerational(g) ((g)->gckind == KGC_GEN)
/*
** macros to tell when main invariant (white objects cannot point to black
** ones) must be kept. During a non-generational collection, the sweep
** phase may break the invariant, as objects turned white may point to
** still-black objects. The invariant is restored when sweep ends and
** all objects are white again. During a generational collection, the
** invariant must be kept all times.
*/
#define keepinvariant(g) (isgenerational(g) || g->gcstate <= GCSatomic)
/*
** Outside the collector, the state in generational mode is kept in
** 'propagate', so 'keepinvariant' is always true.
*/
#define keepinvariantout(g) \
check_exp(g->gcstate == GCSpropagate || !isgenerational(g), \
g->gcstate <= GCSatomic)
/*
** some useful bit tricks
*/
#define resetbits(x,m) ((x) &= cast(lu_byte, ~(m)))
#define setbits(x,m) ((x) |= (m))
#define testbits(x,m) ((x) & (m))
#define bitmask(b) (1<<(b))
#define bit2mask(b1,b2) (bitmask(b1) | bitmask(b2))
#define l_setbit(x,b) setbits(x, bitmask(b))
#define resetbit(x,b) resetbits(x, bitmask(b))
#define testbit(x,b) testbits(x, bitmask(b))
/* Layout for bit use in `marked' field: */
#define WHITE0BIT 0 /* object is white (type 0) */
#define WHITE1BIT 1 /* object is white (type 1) */
#define BLACKBIT 2 /* object is black */
#define FINALIZEDBIT 3 /* object has been separated for finalization */
#define SEPARATED 4 /* object is in 'finobj' list or in 'tobefnz' */
#define FIXEDBIT 5 /* object is fixed (should not be collected) */
#define OLDBIT 6 /* object is old (only in generational mode) */
/* bit 7 is currently used by tests (luaL_checkmemory) */
#define WHITEBITS bit2mask(WHITE0BIT, WHITE1BIT)
#define iswhite(x) testbits((x)->gch.marked, WHITEBITS)
#define isblack(x) testbit((x)->gch.marked, BLACKBIT)
#define isgray(x) /* neither white nor black */ \
(!testbits((x)->gch.marked, WHITEBITS | bitmask(BLACKBIT)))
#define isold(x) testbit((x)->gch.marked, OLDBIT)
/* MOVE OLD rule: whenever an object is moved to the beginning of
a GC list, its old bit must be cleared */
#define resetoldbit(o) resetbit((o)->gch.marked, OLDBIT)
#define otherwhite(g) (g->currentwhite ^ WHITEBITS)
#define isdeadm(ow,m) (!(((m) ^ WHITEBITS) & (ow)))
#define isdead(g,v) isdeadm(otherwhite(g), (v)->gch.marked)
#define changewhite(x) ((x)->gch.marked ^= WHITEBITS)
#define gray2black(x) l_setbit((x)->gch.marked, BLACKBIT)
#define valiswhite(x) (iscollectable(x) && iswhite(gcvalue(x)))
#define luaC_white(g) cast(lu_byte, (g)->currentwhite & WHITEBITS)
#define luaC_condGC(L,c) \
{if (G(L)->GCdebt > 0) {c;}; condchangemem(L);}
#define luaC_checkGC(L) luaC_condGC(L, luaC_step(L);)
#define luaC_barrier(L,p,v) { if (valiswhite(v) && isblack(obj2gco(p))) \
luaC_barrier_(L,obj2gco(p),gcvalue(v)); }
#define luaC_barrierback(L,p,v) { if (valiswhite(v) && isblack(obj2gco(p))) \
luaC_barrierback_(L,p); }
#define luaC_objbarrier(L,p,o) \
{ if (iswhite(obj2gco(o)) && isblack(obj2gco(p))) \
luaC_barrier_(L,obj2gco(p),obj2gco(o)); }
#define luaC_objbarrierback(L,p,o) \
{ if (iswhite(obj2gco(o)) && isblack(obj2gco(p))) luaC_barrierback_(L,p); }
#define luaC_barrierproto(L,p,c) \
{ if (isblack(obj2gco(p))) luaC_barrierproto_(L,p,c); }
LUAI_FUNC void luaC_freeallobjects (lua_State *L);
LUAI_FUNC void luaC_step (lua_State *L);
LUAI_FUNC void luaC_forcestep (lua_State *L);
LUAI_FUNC void luaC_runtilstate (lua_State *L, int statesmask);
LUAI_FUNC void luaC_fullgc (lua_State *L, int isemergency);
LUAI_FUNC GCObject *luaC_newobj (lua_State *L, int tt, size_t sz,
GCObject **list, int offset);
LUAI_FUNC void luaC_barrier_ (lua_State *L, GCObject *o, GCObject *v);
LUAI_FUNC void luaC_barrierback_ (lua_State *L, GCObject *o);
LUAI_FUNC void luaC_barrierproto_ (lua_State *L, Proto *p, Closure *c);
LUAI_FUNC void luaC_checkfinalizer (lua_State *L, GCObject *o, Table *mt);
LUAI_FUNC void luaC_checkupvalcolor (global_State *g, UpVal *uv);
LUAI_FUNC void luaC_changemode (lua_State *L, int mode);
#endif

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/*
** $Id: llex.h,v 1.72.1.1 2013/04/12 18:48:47 roberto Exp $
** Lexical Analyzer
** See Copyright Notice in lua.h
*/
#ifndef llex_h
#define llex_h
#include "lobject.h"
#include "lzio.h"
#define FIRST_RESERVED 257
/*
* WARNING: if you change the order of this enumeration,
* grep "ORDER RESERVED"
*/
enum RESERVED {
/* terminal symbols denoted by reserved words */
TK_AND = FIRST_RESERVED, TK_BREAK,
TK_DO, TK_ELSE, TK_ELSEIF, TK_END, TK_FALSE, TK_FOR, TK_FUNCTION,
TK_GOTO, TK_IF, TK_IN, TK_LOCAL, TK_NIL, TK_NOT, TK_OR, TK_REPEAT,
TK_RETURN, TK_THEN, TK_TRUE, TK_UNTIL, TK_WHILE,
/* other terminal symbols */
TK_CONCAT, TK_DOTS, TK_EQ, TK_GE, TK_LE, TK_NE, TK_DBCOLON, TK_EOS,
TK_NUMBER, TK_NAME, TK_STRING
};
/* number of reserved words */
#define NUM_RESERVED (cast(int, TK_WHILE-FIRST_RESERVED+1))
typedef union {
lua_Number r;
TString *ts;
} SemInfo; /* semantics information */
typedef struct Token {
int token;
SemInfo seminfo;
} Token;
/* state of the lexer plus state of the parser when shared by all
functions */
typedef struct LexState {
int current; /* current character (charint) */
int linenumber; /* input line counter */
int lastline; /* line of last token `consumed' */
Token t; /* current token */
Token lookahead; /* look ahead token */
struct FuncState *fs; /* current function (parser) */
struct lua_State *L;
ZIO *z; /* input stream */
Mbuffer *buff; /* buffer for tokens */
struct Dyndata *dyd; /* dynamic structures used by the parser */
TString *source; /* current source name */
TString *envn; /* environment variable name */
char decpoint; /* locale decimal point */
} LexState;
LUAI_FUNC void luaX_init (lua_State *L);
LUAI_FUNC void luaX_setinput (lua_State *L, LexState *ls, ZIO *z,
TString *source, int firstchar);
LUAI_FUNC TString *luaX_newstring (LexState *ls, const char *str, size_t l);
LUAI_FUNC void luaX_next (LexState *ls);
LUAI_FUNC int luaX_lookahead (LexState *ls);
LUAI_FUNC l_noret luaX_syntaxerror (LexState *ls, const char *s);
LUAI_FUNC const char *luaX_token2str (LexState *ls, int token);
#endif

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/*
** $Id: llimits.h,v 1.103.1.1 2013/04/12 18:48:47 roberto Exp $
** Limits, basic types, and some other `installation-dependent' definitions
** See Copyright Notice in lua.h
*/
#ifndef llimits_h
#define llimits_h
#include <limits.h>
#include <stddef.h>
#include "lua.h"
typedef unsigned LUA_INT32 lu_int32;
typedef LUAI_UMEM lu_mem;
typedef LUAI_MEM l_mem;
/* chars used as small naturals (so that `char' is reserved for characters) */
typedef unsigned char lu_byte;
#define MAX_SIZET ((size_t)(~(size_t)0)-2)
#define MAX_LUMEM ((lu_mem)(~(lu_mem)0)-2)
#define MAX_LMEM ((l_mem) ((MAX_LUMEM >> 1) - 2))
#define MAX_INT (INT_MAX-2) /* maximum value of an int (-2 for safety) */
/*
** conversion of pointer to integer
** this is for hashing only; there is no problem if the integer
** cannot hold the whole pointer value
*/
#define IntPoint(p) ((unsigned int)(lu_mem)(p))
/* type to ensure maximum alignment */
#if !defined(LUAI_USER_ALIGNMENT_T)
#define LUAI_USER_ALIGNMENT_T union { double u; void *s; long l; }
#endif
typedef LUAI_USER_ALIGNMENT_T L_Umaxalign;
/* result of a `usual argument conversion' over lua_Number */
typedef LUAI_UACNUMBER l_uacNumber;
/* internal assertions for in-house debugging */
#if defined(lua_assert)
#define check_exp(c,e) (lua_assert(c), (e))
/* to avoid problems with conditions too long */
#define lua_longassert(c) { if (!(c)) lua_assert(0); }
#else
#define lua_assert(c) ((void)0)
#define check_exp(c,e) (e)
#define lua_longassert(c) ((void)0)
#endif
/*
** assertion for checking API calls
*/
#if !defined(luai_apicheck)
#if defined(LUA_USE_APICHECK)
#include <assert.h>
#define luai_apicheck(L,e) assert(e)
#else
#define luai_apicheck(L,e) lua_assert(e)
#endif
#endif
#define api_check(l,e,msg) luai_apicheck(l,(e) && msg)
#if !defined(UNUSED)
#define UNUSED(x) ((void)(x)) /* to avoid warnings */
#endif
#define cast(t, exp) ((t)(exp))
#define cast_byte(i) cast(lu_byte, (i))
#define cast_num(i) cast(lua_Number, (i))
#define cast_int(i) cast(int, (i))
#define cast_uchar(i) cast(unsigned char, (i))
/*
** non-return type
*/
#if defined(__GNUC__)
#define l_noret void __attribute__((noreturn))
#elif defined(_MSC_VER)
#define l_noret void __declspec(noreturn)
#else
#define l_noret void
#endif
/*
** maximum depth for nested C calls and syntactical nested non-terminals
** in a program. (Value must fit in an unsigned short int.)
*/
#if !defined(LUAI_MAXCCALLS)
#define LUAI_MAXCCALLS 200
#endif
/*
** maximum number of upvalues in a closure (both C and Lua). (Value
** must fit in an unsigned char.)
*/
#define MAXUPVAL UCHAR_MAX
/*
** type for virtual-machine instructions
** must be an unsigned with (at least) 4 bytes (see details in lopcodes.h)
*/
typedef lu_int32 Instruction;
/* maximum stack for a Lua function */
#define MAXSTACK 250
/* minimum size for the string table (must be power of 2) */
#if !defined(MINSTRTABSIZE)
#define MINSTRTABSIZE 32
#endif
/* minimum size for string buffer */
#if !defined(LUA_MINBUFFER)
#define LUA_MINBUFFER 32
#endif
#if !defined(lua_lock)
#define lua_lock(L) ((void) 0)
#define lua_unlock(L) ((void) 0)
#endif
#if !defined(luai_threadyield)
#define luai_threadyield(L) {lua_unlock(L); lua_lock(L);}
#endif
/*
** these macros allow user-specific actions on threads when you defined
** LUAI_EXTRASPACE and need to do something extra when a thread is
** created/deleted/resumed/yielded.
*/
#if !defined(luai_userstateopen)
#define luai_userstateopen(L) ((void)L)
#endif
#if !defined(luai_userstateclose)
#define luai_userstateclose(L) ((void)L)
#endif
#if !defined(luai_userstatethread)
#define luai_userstatethread(L,L1) ((void)L)
#endif
#if !defined(luai_userstatefree)
#define luai_userstatefree(L,L1) ((void)L)
#endif
#if !defined(luai_userstateresume)
#define luai_userstateresume(L,n) ((void)L)
#endif
#if !defined(luai_userstateyield)
#define luai_userstateyield(L,n) ((void)L)
#endif
/*
** lua_number2int is a macro to convert lua_Number to int.
** lua_number2integer is a macro to convert lua_Number to lua_Integer.
** lua_number2unsigned is a macro to convert a lua_Number to a lua_Unsigned.
** lua_unsigned2number is a macro to convert a lua_Unsigned to a lua_Number.
** luai_hashnum is a macro to hash a lua_Number value into an integer.
** The hash must be deterministic and give reasonable values for
** both small and large values (outside the range of integers).
*/
#if defined(MS_ASMTRICK) || defined(LUA_MSASMTRICK) /* { */
/* trick with Microsoft assembler for X86 */
#define lua_number2int(i,n) __asm {__asm fld n __asm fistp i}
#define lua_number2integer(i,n) lua_number2int(i, n)
#define lua_number2unsigned(i,n) \
{__int64 l; __asm {__asm fld n __asm fistp l} i = (unsigned int)l;}
#elif defined(LUA_IEEE754TRICK) /* }{ */
/* the next trick should work on any machine using IEEE754 with
a 32-bit int type */
union luai_Cast { double l_d; LUA_INT32 l_p[2]; };
#if !defined(LUA_IEEEENDIAN) /* { */
#define LUAI_EXTRAIEEE \
static const union luai_Cast ieeeendian = {-(33.0 + 6755399441055744.0)};
#define LUA_IEEEENDIANLOC (ieeeendian.l_p[1] == 33)
#else
#define LUA_IEEEENDIANLOC LUA_IEEEENDIAN
#define LUAI_EXTRAIEEE /* empty */
#endif /* } */
#define lua_number2int32(i,n,t) \
{ LUAI_EXTRAIEEE \
volatile union luai_Cast u; u.l_d = (n) + 6755399441055744.0; \
(i) = (t)u.l_p[LUA_IEEEENDIANLOC]; }
#define luai_hashnum(i,n) \
{ volatile union luai_Cast u; u.l_d = (n) + 1.0; /* avoid -0 */ \
(i) = u.l_p[0]; (i) += u.l_p[1]; } /* add double bits for his hash */
#define lua_number2int(i,n) lua_number2int32(i, n, int)
#define lua_number2unsigned(i,n) lua_number2int32(i, n, lua_Unsigned)
/* the trick can be expanded to lua_Integer when it is a 32-bit value */
#if defined(LUA_IEEELL)
#define lua_number2integer(i,n) lua_number2int32(i, n, lua_Integer)
#endif
#endif /* } */
/* the following definitions always work, but may be slow */
#if !defined(lua_number2int)
#define lua_number2int(i,n) ((i)=(int)(n))
#endif
#if !defined(lua_number2integer)
#define lua_number2integer(i,n) ((i)=(lua_Integer)(n))
#endif
#if !defined(lua_number2unsigned) /* { */
/* the following definition assures proper modulo behavior */
#if defined(LUA_NUMBER_DOUBLE) || defined(LUA_NUMBER_FLOAT)
#include <math.h>
#define SUPUNSIGNED ((lua_Number)(~(lua_Unsigned)0) + 1)
#define lua_number2unsigned(i,n) \
((i)=(lua_Unsigned)((n) - floor((n)/SUPUNSIGNED)*SUPUNSIGNED))
#else
#define lua_number2unsigned(i,n) ((i)=(lua_Unsigned)(n))
#endif
#endif /* } */
#if !defined(lua_unsigned2number)
/* on several machines, coercion from unsigned to double is slow,
so it may be worth to avoid */
#define lua_unsigned2number(u) \
(((u) <= (lua_Unsigned)INT_MAX) ? (lua_Number)(int)(u) : (lua_Number)(u))
#endif
#if defined(ltable_c) && !defined(luai_hashnum)
#include <float.h>
#include <math.h>
#define luai_hashnum(i,n) { int e; \
n = l_mathop(frexp)(n, &e) * (lua_Number)(INT_MAX - DBL_MAX_EXP); \
lua_number2int(i, n); i += e; }
#endif
/*
** macro to control inclusion of some hard tests on stack reallocation
*/
#if !defined(HARDSTACKTESTS)
#define condmovestack(L) ((void)0)
#else
/* realloc stack keeping its size */
#define condmovestack(L) luaD_reallocstack((L), (L)->stacksize)
#endif
#if !defined(HARDMEMTESTS)
#define condchangemem(L) condmovestack(L)
#else
#define condchangemem(L) \
((void)(!(G(L)->gcrunning) || (luaC_fullgc(L, 0), 1)))
#endif
#endif

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/*
** $Id: lmem.h,v 1.40.1.1 2013/04/12 18:48:47 roberto Exp $
** Interface to Memory Manager
** See Copyright Notice in lua.h
*/
#ifndef lmem_h
#define lmem_h
#include <stddef.h>
#include "llimits.h"
#include "lua.h"
/*
** This macro avoids the runtime division MAX_SIZET/(e), as 'e' is
** always constant.
** The macro is somewhat complex to avoid warnings:
** +1 avoids warnings of "comparison has constant result";
** cast to 'void' avoids warnings of "value unused".
*/
#define luaM_reallocv(L,b,on,n,e) \
(cast(void, \
(cast(size_t, (n)+1) > MAX_SIZET/(e)) ? (luaM_toobig(L), 0) : 0), \
luaM_realloc_(L, (b), (on)*(e), (n)*(e)))
#define luaM_freemem(L, b, s) luaM_realloc_(L, (b), (s), 0)
#define luaM_free(L, b) luaM_realloc_(L, (b), sizeof(*(b)), 0)
#define luaM_freearray(L, b, n) luaM_reallocv(L, (b), n, 0, sizeof((b)[0]))
#define luaM_malloc(L,s) luaM_realloc_(L, NULL, 0, (s))
#define luaM_new(L,t) cast(t *, luaM_malloc(L, sizeof(t)))
#define luaM_newvector(L,n,t) \
cast(t *, luaM_reallocv(L, NULL, 0, n, sizeof(t)))
#define luaM_newobject(L,tag,s) luaM_realloc_(L, NULL, tag, (s))
#define luaM_growvector(L,v,nelems,size,t,limit,e) \
if ((nelems)+1 > (size)) \
((v)=cast(t *, luaM_growaux_(L,v,&(size),sizeof(t),limit,e)))
#define luaM_reallocvector(L, v,oldn,n,t) \
((v)=cast(t *, luaM_reallocv(L, v, oldn, n, sizeof(t))))
LUAI_FUNC l_noret luaM_toobig (lua_State *L);
/* not to be called directly */
LUAI_FUNC void *luaM_realloc_ (lua_State *L, void *block, size_t oldsize,
size_t size);
LUAI_FUNC void *luaM_growaux_ (lua_State *L, void *block, int *size,
size_t size_elem, int limit,
const char *what);
#endif

607
ext/lua/include/lobject.h Normal file
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/*
** $Id: lobject.h,v 2.71.1.1 2013/04/12 18:48:47 roberto Exp $
** Type definitions for Lua objects
** See Copyright Notice in lua.h
*/
#ifndef lobject_h
#define lobject_h
#include <stdarg.h>
#include "llimits.h"
#include "lua.h"
/*
** Extra tags for non-values
*/
#define LUA_TPROTO LUA_NUMTAGS
#define LUA_TUPVAL (LUA_NUMTAGS+1)
#define LUA_TDEADKEY (LUA_NUMTAGS+2)
/*
** number of all possible tags (including LUA_TNONE but excluding DEADKEY)
*/
#define LUA_TOTALTAGS (LUA_TUPVAL+2)
/*
** tags for Tagged Values have the following use of bits:
** bits 0-3: actual tag (a LUA_T* value)
** bits 4-5: variant bits
** bit 6: whether value is collectable
*/
#define VARBITS (3 << 4)
/*
** LUA_TFUNCTION variants:
** 0 - Lua function
** 1 - light C function
** 2 - regular C function (closure)
*/
/* Variant tags for functions */
#define LUA_TLCL (LUA_TFUNCTION | (0 << 4)) /* Lua closure */
#define LUA_TLCF (LUA_TFUNCTION | (1 << 4)) /* light C function */
#define LUA_TCCL (LUA_TFUNCTION | (2 << 4)) /* C closure */
/* Variant tags for strings */
#define LUA_TSHRSTR (LUA_TSTRING | (0 << 4)) /* short strings */
#define LUA_TLNGSTR (LUA_TSTRING | (1 << 4)) /* long strings */
/* Bit mark for collectable types */
#define BIT_ISCOLLECTABLE (1 << 6)
/* mark a tag as collectable */
#define ctb(t) ((t) | BIT_ISCOLLECTABLE)
/*
** Union of all collectable objects
*/
typedef union GCObject GCObject;
/*
** Common Header for all collectable objects (in macro form, to be
** included in other objects)
*/
#define CommonHeader GCObject *next; lu_byte tt; lu_byte marked
/*
** Common header in struct form
*/
typedef struct GCheader {
CommonHeader;
} GCheader;
/*
** Union of all Lua values
*/
typedef union Value Value;
#define numfield lua_Number n; /* numbers */
/*
** Tagged Values. This is the basic representation of values in Lua,
** an actual value plus a tag with its type.
*/
#define TValuefields Value value_; int tt_
typedef struct lua_TValue TValue;
/* macro defining a nil value */
#define NILCONSTANT {NULL}, LUA_TNIL
#define val_(o) ((o)->value_)
#define num_(o) (val_(o).n)
/* raw type tag of a TValue */
#define rttype(o) ((o)->tt_)
/* tag with no variants (bits 0-3) */
#define novariant(x) ((x) & 0x0F)
/* type tag of a TValue (bits 0-3 for tags + variant bits 4-5) */
#define ttype(o) (rttype(o) & 0x3F)
/* type tag of a TValue with no variants (bits 0-3) */
#define ttypenv(o) (novariant(rttype(o)))
/* Macros to test type */
#define checktag(o,t) (rttype(o) == (t))
#define checktype(o,t) (ttypenv(o) == (t))
#define ttisnumber(o) checktag((o), LUA_TNUMBER)
#define ttisnil(o) checktag((o), LUA_TNIL)
#define ttisboolean(o) checktag((o), LUA_TBOOLEAN)
#define ttislightuserdata(o) checktag((o), LUA_TLIGHTUSERDATA)
#define ttisstring(o) checktype((o), LUA_TSTRING)
#define ttisshrstring(o) checktag((o), ctb(LUA_TSHRSTR))
#define ttislngstring(o) checktag((o), ctb(LUA_TLNGSTR))
#define ttistable(o) checktag((o), ctb(LUA_TTABLE))
#define ttisfunction(o) checktype(o, LUA_TFUNCTION)
#define ttisclosure(o) ((rttype(o) & 0x1F) == LUA_TFUNCTION)
#define ttisCclosure(o) checktag((o), ctb(LUA_TCCL))
#define ttisLclosure(o) checktag((o), ctb(LUA_TLCL))
#define ttislcf(o) checktag((o), LUA_TLCF)
#define ttisuserdata(o) checktag((o), ctb(LUA_TUSERDATA))
#define ttisthread(o) checktag((o), ctb(LUA_TTHREAD))
#define ttisdeadkey(o) checktag((o), LUA_TDEADKEY)
#define ttisequal(o1,o2) (rttype(o1) == rttype(o2))
/* Macros to access values */
#define nvalue(o) check_exp(ttisnumber(o), num_(o))
#define gcvalue(o) check_exp(iscollectable(o), val_(o).gc)
#define pvalue(o) check_exp(ttislightuserdata(o), val_(o).p)
#define rawtsvalue(o) check_exp(ttisstring(o), &val_(o).gc->ts)
#define tsvalue(o) (&rawtsvalue(o)->tsv)
#define rawuvalue(o) check_exp(ttisuserdata(o), &val_(o).gc->u)
#define uvalue(o) (&rawuvalue(o)->uv)
#define clvalue(o) check_exp(ttisclosure(o), &val_(o).gc->cl)
#define clLvalue(o) check_exp(ttisLclosure(o), &val_(o).gc->cl.l)
#define clCvalue(o) check_exp(ttisCclosure(o), &val_(o).gc->cl.c)
#define fvalue(o) check_exp(ttislcf(o), val_(o).f)
#define hvalue(o) check_exp(ttistable(o), &val_(o).gc->h)
#define bvalue(o) check_exp(ttisboolean(o), val_(o).b)
#define thvalue(o) check_exp(ttisthread(o), &val_(o).gc->th)
/* a dead value may get the 'gc' field, but cannot access its contents */
#define deadvalue(o) check_exp(ttisdeadkey(o), cast(void *, val_(o).gc))
#define l_isfalse(o) (ttisnil(o) || (ttisboolean(o) && bvalue(o) == 0))
#define iscollectable(o) (rttype(o) & BIT_ISCOLLECTABLE)
/* Macros for internal tests */
#define righttt(obj) (ttype(obj) == gcvalue(obj)->gch.tt)
#define checkliveness(g,obj) \
lua_longassert(!iscollectable(obj) || \
(righttt(obj) && !isdead(g,gcvalue(obj))))
/* Macros to set values */
#define settt_(o,t) ((o)->tt_=(t))
#define setnvalue(obj,x) \
{ TValue *io=(obj); num_(io)=(x); settt_(io, LUA_TNUMBER); }
#define setnilvalue(obj) settt_(obj, LUA_TNIL)
#define setfvalue(obj,x) \
{ TValue *io=(obj); val_(io).f=(x); settt_(io, LUA_TLCF); }
#define setpvalue(obj,x) \
{ TValue *io=(obj); val_(io).p=(x); settt_(io, LUA_TLIGHTUSERDATA); }
#define setbvalue(obj,x) \
{ TValue *io=(obj); val_(io).b=(x); settt_(io, LUA_TBOOLEAN); }
#define setgcovalue(L,obj,x) \
{ TValue *io=(obj); GCObject *i_g=(x); \
val_(io).gc=i_g; settt_(io, ctb(gch(i_g)->tt)); }
#define setsvalue(L,obj,x) \
{ TValue *io=(obj); \
TString *x_ = (x); \
val_(io).gc=cast(GCObject *, x_); settt_(io, ctb(x_->tsv.tt)); \
checkliveness(G(L),io); }
#define setuvalue(L,obj,x) \
{ TValue *io=(obj); \
val_(io).gc=cast(GCObject *, (x)); settt_(io, ctb(LUA_TUSERDATA)); \
checkliveness(G(L),io); }
#define setthvalue(L,obj,x) \
{ TValue *io=(obj); \
val_(io).gc=cast(GCObject *, (x)); settt_(io, ctb(LUA_TTHREAD)); \
checkliveness(G(L),io); }
#define setclLvalue(L,obj,x) \
{ TValue *io=(obj); \
val_(io).gc=cast(GCObject *, (x)); settt_(io, ctb(LUA_TLCL)); \
checkliveness(G(L),io); }
#define setclCvalue(L,obj,x) \
{ TValue *io=(obj); \
val_(io).gc=cast(GCObject *, (x)); settt_(io, ctb(LUA_TCCL)); \
checkliveness(G(L),io); }
#define sethvalue(L,obj,x) \
{ TValue *io=(obj); \
val_(io).gc=cast(GCObject *, (x)); settt_(io, ctb(LUA_TTABLE)); \
checkliveness(G(L),io); }
#define setdeadvalue(obj) settt_(obj, LUA_TDEADKEY)
#define setobj(L,obj1,obj2) \
{ const TValue *io2=(obj2); TValue *io1=(obj1); \
io1->value_ = io2->value_; io1->tt_ = io2->tt_; \
checkliveness(G(L),io1); }
/*
** different types of assignments, according to destination
*/
/* from stack to (same) stack */
#define setobjs2s setobj
/* to stack (not from same stack) */
#define setobj2s setobj
#define setsvalue2s setsvalue
#define sethvalue2s sethvalue
#define setptvalue2s setptvalue
/* from table to same table */
#define setobjt2t setobj
/* to table */
#define setobj2t setobj
/* to new object */
#define setobj2n setobj
#define setsvalue2n setsvalue
/* check whether a number is valid (useful only for NaN trick) */
#define luai_checknum(L,o,c) { /* empty */ }
/*
** {======================================================
** NaN Trick
** =======================================================
*/
#if defined(LUA_NANTRICK)
/*
** numbers are represented in the 'd_' field. All other values have the
** value (NNMARK | tag) in 'tt__'. A number with such pattern would be
** a "signaled NaN", which is never generated by regular operations by
** the CPU (nor by 'strtod')
*/
/* allows for external implementation for part of the trick */
#if !defined(NNMARK) /* { */
#if !defined(LUA_IEEEENDIAN)
#error option 'LUA_NANTRICK' needs 'LUA_IEEEENDIAN'
#endif
#define NNMARK 0x7FF7A500
#define NNMASK 0x7FFFFF00
#undef TValuefields
#undef NILCONSTANT
#if (LUA_IEEEENDIAN == 0) /* { */
/* little endian */
#define TValuefields \
union { struct { Value v__; int tt__; } i; double d__; } u
#define NILCONSTANT {{{NULL}, tag2tt(LUA_TNIL)}}
/* field-access macros */
#define v_(o) ((o)->u.i.v__)
#define d_(o) ((o)->u.d__)
#define tt_(o) ((o)->u.i.tt__)
#else /* }{ */
/* big endian */
#define TValuefields \
union { struct { int tt__; Value v__; } i; double d__; } u
#define NILCONSTANT {{tag2tt(LUA_TNIL), {NULL}}}
/* field-access macros */
#define v_(o) ((o)->u.i.v__)
#define d_(o) ((o)->u.d__)
#define tt_(o) ((o)->u.i.tt__)
#endif /* } */
#endif /* } */
/* correspondence with standard representation */
#undef val_
#define val_(o) v_(o)
#undef num_
#define num_(o) d_(o)
#undef numfield
#define numfield /* no such field; numbers are the entire struct */
/* basic check to distinguish numbers from non-numbers */
#undef ttisnumber
#define ttisnumber(o) ((tt_(o) & NNMASK) != NNMARK)
#define tag2tt(t) (NNMARK | (t))
#undef rttype
#define rttype(o) (ttisnumber(o) ? LUA_TNUMBER : tt_(o) & 0xff)
#undef settt_
#define settt_(o,t) (tt_(o) = tag2tt(t))
#undef setnvalue
#define setnvalue(obj,x) \
{ TValue *io_=(obj); num_(io_)=(x); lua_assert(ttisnumber(io_)); }
#undef setobj
#define setobj(L,obj1,obj2) \
{ const TValue *o2_=(obj2); TValue *o1_=(obj1); \
o1_->u = o2_->u; \
checkliveness(G(L),o1_); }
/*
** these redefinitions are not mandatory, but these forms are more efficient
*/
#undef checktag
#undef checktype
#define checktag(o,t) (tt_(o) == tag2tt(t))
#define checktype(o,t) (ctb(tt_(o) | VARBITS) == ctb(tag2tt(t) | VARBITS))
#undef ttisequal
#define ttisequal(o1,o2) \
(ttisnumber(o1) ? ttisnumber(o2) : (tt_(o1) == tt_(o2)))
#undef luai_checknum
#define luai_checknum(L,o,c) { if (!ttisnumber(o)) c; }
#endif
/* }====================================================== */
/*
** {======================================================
** types and prototypes
** =======================================================
*/
union Value {
GCObject *gc; /* collectable objects */
void *p; /* light userdata */
int b; /* booleans */
lua_CFunction f; /* light C functions */
numfield /* numbers */
};
struct lua_TValue {
TValuefields;
};
typedef TValue *StkId; /* index to stack elements */
/*
** Header for string value; string bytes follow the end of this structure
*/
typedef union TString {
L_Umaxalign dummy; /* ensures maximum alignment for strings */
struct {
CommonHeader;
lu_byte extra; /* reserved words for short strings; "has hash" for longs */
unsigned int hash;
size_t len; /* number of characters in string */
} tsv;
} TString;
/* get the actual string (array of bytes) from a TString */
#define getstr(ts) cast(const char *, (ts) + 1)
/* get the actual string (array of bytes) from a Lua value */
#define svalue(o) getstr(rawtsvalue(o))
/*
** Header for userdata; memory area follows the end of this structure
*/
typedef union Udata {
L_Umaxalign dummy; /* ensures maximum alignment for `local' udata */
struct {
CommonHeader;
struct Table *metatable;
struct Table *env;
size_t len; /* number of bytes */
} uv;
} Udata;
/*
** Description of an upvalue for function prototypes
*/
typedef struct Upvaldesc {
TString *name; /* upvalue name (for debug information) */
lu_byte instack; /* whether it is in stack */
lu_byte idx; /* index of upvalue (in stack or in outer function's list) */
} Upvaldesc;
/*
** Description of a local variable for function prototypes
** (used for debug information)
*/
typedef struct LocVar {
TString *varname;
int startpc; /* first point where variable is active */
int endpc; /* first point where variable is dead */
} LocVar;
/*
** Function Prototypes
*/
typedef struct Proto {
CommonHeader;
TValue *k; /* constants used by the function */
Instruction *code;
struct Proto **p; /* functions defined inside the function */
int *lineinfo; /* map from opcodes to source lines (debug information) */
LocVar *locvars; /* information about local variables (debug information) */
Upvaldesc *upvalues; /* upvalue information */
union Closure *cache; /* last created closure with this prototype */
TString *source; /* used for debug information */
int sizeupvalues; /* size of 'upvalues' */
int sizek; /* size of `k' */
int sizecode;
int sizelineinfo;
int sizep; /* size of `p' */
int sizelocvars;
int linedefined;
int lastlinedefined;
GCObject *gclist;
lu_byte numparams; /* number of fixed parameters */
lu_byte is_vararg;
lu_byte maxstacksize; /* maximum stack used by this function */
} Proto;
/*
** Lua Upvalues
*/
typedef struct UpVal {
CommonHeader;
TValue *v; /* points to stack or to its own value */
union {
TValue value; /* the value (when closed) */
struct { /* double linked list (when open) */
struct UpVal *prev;
struct UpVal *next;
} l;
} u;
} UpVal;
/*
** Closures
*/
#define ClosureHeader \
CommonHeader; lu_byte nupvalues; GCObject *gclist
typedef struct CClosure {
ClosureHeader;
lua_CFunction f;
TValue upvalue[1]; /* list of upvalues */
} CClosure;
typedef struct LClosure {
ClosureHeader;
struct Proto *p;
UpVal *upvals[1]; /* list of upvalues */
} LClosure;
typedef union Closure {
CClosure c;
LClosure l;
} Closure;
#define isLfunction(o) ttisLclosure(o)
#define getproto(o) (clLvalue(o)->p)
/*
** Tables
*/
typedef union TKey {
struct {
TValuefields;
struct Node *next; /* for chaining */
} nk;
TValue tvk;
} TKey;
typedef struct Node {
TValue i_val;
TKey i_key;
} Node;
typedef struct Table {
CommonHeader;
lu_byte flags; /* 1<<p means tagmethod(p) is not present */
lu_byte lsizenode; /* log2 of size of `node' array */
struct Table *metatable;
TValue *array; /* array part */
Node *node;
Node *lastfree; /* any free position is before this position */
GCObject *gclist;
int sizearray; /* size of `array' array */
} Table;
/*
** `module' operation for hashing (size is always a power of 2)
*/
#define lmod(s,size) \
(check_exp((size&(size-1))==0, (cast(int, (s) & ((size)-1)))))
#define twoto(x) (1<<(x))
#define sizenode(t) (twoto((t)->lsizenode))
/*
** (address of) a fixed nil value
*/
#define luaO_nilobject (&luaO_nilobject_)
LUAI_DDEC const TValue luaO_nilobject_;
LUAI_FUNC int luaO_int2fb (unsigned int x);
LUAI_FUNC int luaO_fb2int (int x);
LUAI_FUNC int luaO_ceillog2 (unsigned int x);
LUAI_FUNC lua_Number luaO_arith (int op, lua_Number v1, lua_Number v2);
LUAI_FUNC int luaO_str2d (const char *s, size_t len, lua_Number *result);
LUAI_FUNC int luaO_hexavalue (int c);
LUAI_FUNC const char *luaO_pushvfstring (lua_State *L, const char *fmt,
va_list argp);
LUAI_FUNC const char *luaO_pushfstring (lua_State *L, const char *fmt, ...);
LUAI_FUNC void luaO_chunkid (char *out, const char *source, size_t len);
#endif

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/*
** $Id: lopcodes.h,v 1.142.1.1 2013/04/12 18:48:47 roberto Exp $
** Opcodes for Lua virtual machine
** See Copyright Notice in lua.h
*/
#ifndef lopcodes_h
#define lopcodes_h
#include "llimits.h"
/*===========================================================================
We assume that instructions are unsigned numbers.
All instructions have an opcode in the first 6 bits.
Instructions can have the following fields:
`A' : 8 bits
`B' : 9 bits
`C' : 9 bits
'Ax' : 26 bits ('A', 'B', and 'C' together)
`Bx' : 18 bits (`B' and `C' together)
`sBx' : signed Bx
A signed argument is represented in excess K; that is, the number
value is the unsigned value minus K. K is exactly the maximum value
for that argument (so that -max is represented by 0, and +max is
represented by 2*max), which is half the maximum for the corresponding
unsigned argument.
===========================================================================*/
enum OpMode {iABC, iABx, iAsBx, iAx}; /* basic instruction format */
/*
** size and position of opcode arguments.
*/
#define SIZE_C 9
#define SIZE_B 9
#define SIZE_Bx (SIZE_C + SIZE_B)
#define SIZE_A 8
#define SIZE_Ax (SIZE_C + SIZE_B + SIZE_A)
#define SIZE_OP 6
#define POS_OP 0
#define POS_A (POS_OP + SIZE_OP)
#define POS_C (POS_A + SIZE_A)
#define POS_B (POS_C + SIZE_C)
#define POS_Bx POS_C
#define POS_Ax POS_A
/*
** limits for opcode arguments.
** we use (signed) int to manipulate most arguments,
** so they must fit in LUAI_BITSINT-1 bits (-1 for sign)
*/
#if SIZE_Bx < LUAI_BITSINT-1
#define MAXARG_Bx ((1<<SIZE_Bx)-1)
#define MAXARG_sBx (MAXARG_Bx>>1) /* `sBx' is signed */
#else
#define MAXARG_Bx MAX_INT
#define MAXARG_sBx MAX_INT
#endif
#if SIZE_Ax < LUAI_BITSINT-1
#define MAXARG_Ax ((1<<SIZE_Ax)-1)
#else
#define MAXARG_Ax MAX_INT
#endif
#define MAXARG_A ((1<<SIZE_A)-1)
#define MAXARG_B ((1<<SIZE_B)-1)
#define MAXARG_C ((1<<SIZE_C)-1)
/* creates a mask with `n' 1 bits at position `p' */
#define MASK1(n,p) ((~((~(Instruction)0)<<(n)))<<(p))
/* creates a mask with `n' 0 bits at position `p' */
#define MASK0(n,p) (~MASK1(n,p))
/*
** the following macros help to manipulate instructions
*/
#define GET_OPCODE(i) (cast(OpCode, ((i)>>POS_OP) & MASK1(SIZE_OP,0)))
#define SET_OPCODE(i,o) ((i) = (((i)&MASK0(SIZE_OP,POS_OP)) | \
((cast(Instruction, o)<<POS_OP)&MASK1(SIZE_OP,POS_OP))))
#define getarg(i,pos,size) (cast(int, ((i)>>pos) & MASK1(size,0)))
#define setarg(i,v,pos,size) ((i) = (((i)&MASK0(size,pos)) | \
((cast(Instruction, v)<<pos)&MASK1(size,pos))))
#define GETARG_A(i) getarg(i, POS_A, SIZE_A)
#define SETARG_A(i,v) setarg(i, v, POS_A, SIZE_A)
#define GETARG_B(i) getarg(i, POS_B, SIZE_B)
#define SETARG_B(i,v) setarg(i, v, POS_B, SIZE_B)
#define GETARG_C(i) getarg(i, POS_C, SIZE_C)
#define SETARG_C(i,v) setarg(i, v, POS_C, SIZE_C)
#define GETARG_Bx(i) getarg(i, POS_Bx, SIZE_Bx)
#define SETARG_Bx(i,v) setarg(i, v, POS_Bx, SIZE_Bx)
#define GETARG_Ax(i) getarg(i, POS_Ax, SIZE_Ax)
#define SETARG_Ax(i,v) setarg(i, v, POS_Ax, SIZE_Ax)
#define GETARG_sBx(i) (GETARG_Bx(i)-MAXARG_sBx)
#define SETARG_sBx(i,b) SETARG_Bx((i),cast(unsigned int, (b)+MAXARG_sBx))
#define CREATE_ABC(o,a,b,c) ((cast(Instruction, o)<<POS_OP) \
| (cast(Instruction, a)<<POS_A) \
| (cast(Instruction, b)<<POS_B) \
| (cast(Instruction, c)<<POS_C))
#define CREATE_ABx(o,a,bc) ((cast(Instruction, o)<<POS_OP) \
| (cast(Instruction, a)<<POS_A) \
| (cast(Instruction, bc)<<POS_Bx))
#define CREATE_Ax(o,a) ((cast(Instruction, o)<<POS_OP) \
| (cast(Instruction, a)<<POS_Ax))
/*
** Macros to operate RK indices
*/
/* this bit 1 means constant (0 means register) */
#define BITRK (1 << (SIZE_B - 1))
/* test whether value is a constant */
#define ISK(x) ((x) & BITRK)
/* gets the index of the constant */
#define INDEXK(r) ((int)(r) & ~BITRK)
#define MAXINDEXRK (BITRK - 1)
/* code a constant index as a RK value */
#define RKASK(x) ((x) | BITRK)
/*
** invalid register that fits in 8 bits
*/
#define NO_REG MAXARG_A
/*
** R(x) - register
** Kst(x) - constant (in constant table)
** RK(x) == if ISK(x) then Kst(INDEXK(x)) else R(x)
*/
/*
** grep "ORDER OP" if you change these enums
*/
typedef enum {
/*----------------------------------------------------------------------
name args description
------------------------------------------------------------------------*/
OP_MOVE,/* A B R(A) := R(B) */
OP_LOADK,/* A Bx R(A) := Kst(Bx) */
OP_LOADKX,/* A R(A) := Kst(extra arg) */
OP_LOADBOOL,/* A B C R(A) := (Bool)B; if (C) pc++ */
OP_LOADNIL,/* A B R(A), R(A+1), ..., R(A+B) := nil */
OP_GETUPVAL,/* A B R(A) := UpValue[B] */
OP_GETTABUP,/* A B C R(A) := UpValue[B][RK(C)] */
OP_GETTABLE,/* A B C R(A) := R(B)[RK(C)] */
OP_SETTABUP,/* A B C UpValue[A][RK(B)] := RK(C) */
OP_SETUPVAL,/* A B UpValue[B] := R(A) */
OP_SETTABLE,/* A B C R(A)[RK(B)] := RK(C) */
OP_NEWTABLE,/* A B C R(A) := {} (size = B,C) */
OP_SELF,/* A B C R(A+1) := R(B); R(A) := R(B)[RK(C)] */
OP_ADD,/* A B C R(A) := RK(B) + RK(C) */
OP_SUB,/* A B C R(A) := RK(B) - RK(C) */
OP_MUL,/* A B C R(A) := RK(B) * RK(C) */
OP_DIV,/* A B C R(A) := RK(B) / RK(C) */
OP_MOD,/* A B C R(A) := RK(B) % RK(C) */
OP_POW,/* A B C R(A) := RK(B) ^ RK(C) */
OP_UNM,/* A B R(A) := -R(B) */
OP_NOT,/* A B R(A) := not R(B) */
OP_LEN,/* A B R(A) := length of R(B) */
OP_CONCAT,/* A B C R(A) := R(B).. ... ..R(C) */
OP_JMP,/* A sBx pc+=sBx; if (A) close all upvalues >= R(A) + 1 */
OP_EQ,/* A B C if ((RK(B) == RK(C)) ~= A) then pc++ */
OP_LT,/* A B C if ((RK(B) < RK(C)) ~= A) then pc++ */
OP_LE,/* A B C if ((RK(B) <= RK(C)) ~= A) then pc++ */
OP_TEST,/* A C if not (R(A) <=> C) then pc++ */
OP_TESTSET,/* A B C if (R(B) <=> C) then R(A) := R(B) else pc++ */
OP_CALL,/* A B C R(A), ... ,R(A+C-2) := R(A)(R(A+1), ... ,R(A+B-1)) */
OP_TAILCALL,/* A B C return R(A)(R(A+1), ... ,R(A+B-1)) */
OP_RETURN,/* A B return R(A), ... ,R(A+B-2) (see note) */
OP_FORLOOP,/* A sBx R(A)+=R(A+2);
if R(A) <?= R(A+1) then { pc+=sBx; R(A+3)=R(A) }*/
OP_FORPREP,/* A sBx R(A)-=R(A+2); pc+=sBx */
OP_TFORCALL,/* A C R(A+3), ... ,R(A+2+C) := R(A)(R(A+1), R(A+2)); */
OP_TFORLOOP,/* A sBx if R(A+1) ~= nil then { R(A)=R(A+1); pc += sBx }*/
OP_SETLIST,/* A B C R(A)[(C-1)*FPF+i] := R(A+i), 1 <= i <= B */
OP_CLOSURE,/* A Bx R(A) := closure(KPROTO[Bx]) */
OP_VARARG,/* A B R(A), R(A+1), ..., R(A+B-2) = vararg */
OP_EXTRAARG/* Ax extra (larger) argument for previous opcode */
} OpCode;
#define NUM_OPCODES (cast(int, OP_EXTRAARG) + 1)
/*===========================================================================
Notes:
(*) In OP_CALL, if (B == 0) then B = top. If (C == 0), then `top' is
set to last_result+1, so next open instruction (OP_CALL, OP_RETURN,
OP_SETLIST) may use `top'.
(*) In OP_VARARG, if (B == 0) then use actual number of varargs and
set top (like in OP_CALL with C == 0).
(*) In OP_RETURN, if (B == 0) then return up to `top'.
(*) In OP_SETLIST, if (B == 0) then B = `top'; if (C == 0) then next
'instruction' is EXTRAARG(real C).
(*) In OP_LOADKX, the next 'instruction' is always EXTRAARG.
(*) For comparisons, A specifies what condition the test should accept
(true or false).
(*) All `skips' (pc++) assume that next instruction is a jump.
===========================================================================*/
/*
** masks for instruction properties. The format is:
** bits 0-1: op mode
** bits 2-3: C arg mode
** bits 4-5: B arg mode
** bit 6: instruction set register A
** bit 7: operator is a test (next instruction must be a jump)
*/
enum OpArgMask {
OpArgN, /* argument is not used */
OpArgU, /* argument is used */
OpArgR, /* argument is a register or a jump offset */
OpArgK /* argument is a constant or register/constant */
};
LUAI_DDEC const lu_byte luaP_opmodes[NUM_OPCODES];
#define getOpMode(m) (cast(enum OpMode, luaP_opmodes[m] & 3))
#define getBMode(m) (cast(enum OpArgMask, (luaP_opmodes[m] >> 4) & 3))
#define getCMode(m) (cast(enum OpArgMask, (luaP_opmodes[m] >> 2) & 3))
#define testAMode(m) (luaP_opmodes[m] & (1 << 6))
#define testTMode(m) (luaP_opmodes[m] & (1 << 7))
LUAI_DDEC const char *const luaP_opnames[NUM_OPCODES+1]; /* opcode names */
/* number of list items to accumulate before a SETLIST instruction */
#define LFIELDS_PER_FLUSH 50
#endif

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/*
** $Id: lparser.h,v 1.70.1.1 2013/04/12 18:48:47 roberto Exp $
** Lua Parser
** See Copyright Notice in lua.h
*/
#ifndef lparser_h
#define lparser_h
#include "llimits.h"
#include "lobject.h"
#include "lzio.h"
/*
** Expression descriptor
*/
typedef enum {
VVOID, /* no value */
VNIL,
VTRUE,
VFALSE,
VK, /* info = index of constant in `k' */
VKNUM, /* nval = numerical value */
VNONRELOC, /* info = result register */
VLOCAL, /* info = local register */
VUPVAL, /* info = index of upvalue in 'upvalues' */
VINDEXED, /* t = table register/upvalue; idx = index R/K */
VJMP, /* info = instruction pc */
VRELOCABLE, /* info = instruction pc */
VCALL, /* info = instruction pc */
VVARARG /* info = instruction pc */
} expkind;
#define vkisvar(k) (VLOCAL <= (k) && (k) <= VINDEXED)
#define vkisinreg(k) ((k) == VNONRELOC || (k) == VLOCAL)
typedef struct expdesc {
expkind k;
union {
struct { /* for indexed variables (VINDEXED) */
short idx; /* index (R/K) */
lu_byte t; /* table (register or upvalue) */
lu_byte vt; /* whether 't' is register (VLOCAL) or upvalue (VUPVAL) */
} ind;
int info; /* for generic use */
lua_Number nval; /* for VKNUM */
} u;
int t; /* patch list of `exit when true' */
int f; /* patch list of `exit when false' */
} expdesc;
/* description of active local variable */
typedef struct Vardesc {
short idx; /* variable index in stack */
} Vardesc;
/* description of pending goto statements and label statements */
typedef struct Labeldesc {
TString *name; /* label identifier */
int pc; /* position in code */
int line; /* line where it appeared */
lu_byte nactvar; /* local level where it appears in current block */
} Labeldesc;
/* list of labels or gotos */
typedef struct Labellist {
Labeldesc *arr; /* array */
int n; /* number of entries in use */
int size; /* array size */
} Labellist;
/* dynamic structures used by the parser */
typedef struct Dyndata {
struct { /* list of active local variables */
Vardesc *arr;
int n;
int size;
} actvar;
Labellist gt; /* list of pending gotos */
Labellist label; /* list of active labels */
} Dyndata;
/* control of blocks */
struct BlockCnt; /* defined in lparser.c */
/* state needed to generate code for a given function */
typedef struct FuncState {
Proto *f; /* current function header */
Table *h; /* table to find (and reuse) elements in `k' */
struct FuncState *prev; /* enclosing function */
struct LexState *ls; /* lexical state */
struct BlockCnt *bl; /* chain of current blocks */
int pc; /* next position to code (equivalent to `ncode') */
int lasttarget; /* 'label' of last 'jump label' */
int jpc; /* list of pending jumps to `pc' */
int nk; /* number of elements in `k' */
int np; /* number of elements in `p' */
int firstlocal; /* index of first local var (in Dyndata array) */
short nlocvars; /* number of elements in 'f->locvars' */
lu_byte nactvar; /* number of active local variables */
lu_byte nups; /* number of upvalues */
lu_byte freereg; /* first free register */
} FuncState;
LUAI_FUNC Closure *luaY_parser (lua_State *L, ZIO *z, Mbuffer *buff,
Dyndata *dyd, const char *name, int firstchar);
#endif

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/*
** $Id: lstate.h,v 2.82.1.1 2013/04/12 18:48:47 roberto Exp $
** Global State
** See Copyright Notice in lua.h
*/
#ifndef lstate_h
#define lstate_h
#include "lua.h"
#include "lobject.h"
#include "ltm.h"
#include "lzio.h"
/*
** Some notes about garbage-collected objects: All objects in Lua must
** be kept somehow accessible until being freed.
**
** Lua keeps most objects linked in list g->allgc. The link uses field
** 'next' of the CommonHeader.
**
** Strings are kept in several lists headed by the array g->strt.hash.
**
** Open upvalues are not subject to independent garbage collection. They
** are collected together with their respective threads. Lua keeps a
** double-linked list with all open upvalues (g->uvhead) so that it can
** mark objects referred by them. (They are always gray, so they must
** be remarked in the atomic step. Usually their contents would be marked
** when traversing the respective threads, but the thread may already be
** dead, while the upvalue is still accessible through closures.)
**
** Objects with finalizers are kept in the list g->finobj.
**
** The list g->tobefnz links all objects being finalized.
*/
struct lua_longjmp; /* defined in ldo.c */
/* extra stack space to handle TM calls and some other extras */
#define EXTRA_STACK 5
#define BASIC_STACK_SIZE (2*LUA_MINSTACK)
/* kinds of Garbage Collection */
#define KGC_NORMAL 0
#define KGC_EMERGENCY 1 /* gc was forced by an allocation failure */
#define KGC_GEN 2 /* generational collection */
typedef struct stringtable {
GCObject **hash;
lu_int32 nuse; /* number of elements */
int size;
} stringtable;
/*
** information about a call
*/
typedef struct CallInfo {
StkId func; /* function index in the stack */
StkId top; /* top for this function */
struct CallInfo *previous, *next; /* dynamic call link */
short nresults; /* expected number of results from this function */
lu_byte callstatus;
ptrdiff_t extra;
union {
struct { /* only for Lua functions */
StkId base; /* base for this function */
const Instruction *savedpc;
} l;
struct { /* only for C functions */
int ctx; /* context info. in case of yields */
lua_CFunction k; /* continuation in case of yields */
ptrdiff_t old_errfunc;
lu_byte old_allowhook;
lu_byte status;
} c;
} u;
} CallInfo;
/*
** Bits in CallInfo status
*/
#define CIST_LUA (1<<0) /* call is running a Lua function */
#define CIST_HOOKED (1<<1) /* call is running a debug hook */
#define CIST_REENTRY (1<<2) /* call is running on same invocation of
luaV_execute of previous call */
#define CIST_YIELDED (1<<3) /* call reentered after suspension */
#define CIST_YPCALL (1<<4) /* call is a yieldable protected call */
#define CIST_STAT (1<<5) /* call has an error status (pcall) */
#define CIST_TAIL (1<<6) /* call was tail called */
#define CIST_HOOKYIELD (1<<7) /* last hook called yielded */
#define isLua(ci) ((ci)->callstatus & CIST_LUA)
/*
** `global state', shared by all threads of this state
*/
typedef struct global_State {
lua_Alloc frealloc; /* function to reallocate memory */
void *ud; /* auxiliary data to `frealloc' */
lu_mem totalbytes; /* number of bytes currently allocated - GCdebt */
l_mem GCdebt; /* bytes allocated not yet compensated by the collector */
lu_mem GCmemtrav; /* memory traversed by the GC */
lu_mem GCestimate; /* an estimate of the non-garbage memory in use */
stringtable strt; /* hash table for strings */
TValue l_registry;
unsigned int seed; /* randomized seed for hashes */
lu_byte currentwhite;
lu_byte gcstate; /* state of garbage collector */
lu_byte gckind; /* kind of GC running */
lu_byte gcrunning; /* true if GC is running */
int sweepstrgc; /* position of sweep in `strt' */
GCObject *allgc; /* list of all collectable objects */
GCObject *finobj; /* list of collectable objects with finalizers */
GCObject **sweepgc; /* current position of sweep in list 'allgc' */
GCObject **sweepfin; /* current position of sweep in list 'finobj' */
GCObject *gray; /* list of gray objects */
GCObject *grayagain; /* list of objects to be traversed atomically */
GCObject *weak; /* list of tables with weak values */
GCObject *ephemeron; /* list of ephemeron tables (weak keys) */
GCObject *allweak; /* list of all-weak tables */
GCObject *tobefnz; /* list of userdata to be GC */
UpVal uvhead; /* head of double-linked list of all open upvalues */
Mbuffer buff; /* temporary buffer for string concatenation */
int gcpause; /* size of pause between successive GCs */
int gcmajorinc; /* pause between major collections (only in gen. mode) */
int gcstepmul; /* GC `granularity' */
lua_CFunction panic; /* to be called in unprotected errors */
struct lua_State *mainthread;
const lua_Number *version; /* pointer to version number */
TString *memerrmsg; /* memory-error message */
TString *tmname[TM_N]; /* array with tag-method names */
struct Table *mt[LUA_NUMTAGS]; /* metatables for basic types */
} global_State;
/*
** `per thread' state
*/
struct lua_State {
CommonHeader;
lu_byte status;
StkId top; /* first free slot in the stack */
global_State *l_G;
CallInfo *ci; /* call info for current function */
const Instruction *oldpc; /* last pc traced */
StkId stack_last; /* last free slot in the stack */
StkId stack; /* stack base */
int stacksize;
unsigned short nny; /* number of non-yieldable calls in stack */
unsigned short nCcalls; /* number of nested C calls */
lu_byte hookmask;
lu_byte allowhook;
int basehookcount;
int hookcount;
lua_Hook hook;
GCObject *openupval; /* list of open upvalues in this stack */
GCObject *gclist;
struct lua_longjmp *errorJmp; /* current error recover point */
ptrdiff_t errfunc; /* current error handling function (stack index) */
CallInfo base_ci; /* CallInfo for first level (C calling Lua) */
};
#define G(L) (L->l_G)
/*
** Union of all collectable objects
*/
union GCObject {
GCheader gch; /* common header */
union TString ts;
union Udata u;
union Closure cl;
struct Table h;
struct Proto p;
struct UpVal uv;
struct lua_State th; /* thread */
};
#define gch(o) (&(o)->gch)
/* macros to convert a GCObject into a specific value */
#define rawgco2ts(o) \
check_exp(novariant((o)->gch.tt) == LUA_TSTRING, &((o)->ts))
#define gco2ts(o) (&rawgco2ts(o)->tsv)
#define rawgco2u(o) check_exp((o)->gch.tt == LUA_TUSERDATA, &((o)->u))
#define gco2u(o) (&rawgco2u(o)->uv)
#define gco2lcl(o) check_exp((o)->gch.tt == LUA_TLCL, &((o)->cl.l))
#define gco2ccl(o) check_exp((o)->gch.tt == LUA_TCCL, &((o)->cl.c))
#define gco2cl(o) \
check_exp(novariant((o)->gch.tt) == LUA_TFUNCTION, &((o)->cl))
#define gco2t(o) check_exp((o)->gch.tt == LUA_TTABLE, &((o)->h))
#define gco2p(o) check_exp((o)->gch.tt == LUA_TPROTO, &((o)->p))
#define gco2uv(o) check_exp((o)->gch.tt == LUA_TUPVAL, &((o)->uv))
#define gco2th(o) check_exp((o)->gch.tt == LUA_TTHREAD, &((o)->th))
/* macro to convert any Lua object into a GCObject */
#define obj2gco(v) (cast(GCObject *, (v)))
/* actual number of total bytes allocated */
#define gettotalbytes(g) ((g)->totalbytes + (g)->GCdebt)
LUAI_FUNC void luaE_setdebt (global_State *g, l_mem debt);
LUAI_FUNC void luaE_freethread (lua_State *L, lua_State *L1);
LUAI_FUNC CallInfo *luaE_extendCI (lua_State *L);
LUAI_FUNC void luaE_freeCI (lua_State *L);
#endif

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/*
** $Id: lstring.h,v 1.49.1.1 2013/04/12 18:48:47 roberto Exp $
** String table (keep all strings handled by Lua)
** See Copyright Notice in lua.h
*/
#ifndef lstring_h
#define lstring_h
#include "lgc.h"
#include "lobject.h"
#include "lstate.h"
#define sizestring(s) (sizeof(union TString)+((s)->len+1)*sizeof(char))
#define sizeudata(u) (sizeof(union Udata)+(u)->len)
#define luaS_newliteral(L, s) (luaS_newlstr(L, "" s, \
(sizeof(s)/sizeof(char))-1))
#define luaS_fix(s) l_setbit((s)->tsv.marked, FIXEDBIT)
/*
** test whether a string is a reserved word
*/
#define isreserved(s) ((s)->tsv.tt == LUA_TSHRSTR && (s)->tsv.extra > 0)
/*
** equality for short strings, which are always internalized
*/
#define eqshrstr(a,b) check_exp((a)->tsv.tt == LUA_TSHRSTR, (a) == (b))
LUAI_FUNC unsigned int luaS_hash (const char *str, size_t l, unsigned int seed);
LUAI_FUNC int luaS_eqlngstr (TString *a, TString *b);
LUAI_FUNC int luaS_eqstr (TString *a, TString *b);
LUAI_FUNC void luaS_resize (lua_State *L, int newsize);
LUAI_FUNC Udata *luaS_newudata (lua_State *L, size_t s, Table *e);
LUAI_FUNC TString *luaS_newlstr (lua_State *L, const char *str, size_t l);
LUAI_FUNC TString *luaS_new (lua_State *L, const char *str);
#endif

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/*
** $Id: ltable.h,v 2.16.1.2 2013/08/30 15:49:41 roberto Exp $
** Lua tables (hash)
** See Copyright Notice in lua.h
*/
#ifndef ltable_h
#define ltable_h
#include "lobject.h"
#define gnode(t,i) (&(t)->node[i])
#define gkey(n) (&(n)->i_key.tvk)
#define gval(n) (&(n)->i_val)
#define gnext(n) ((n)->i_key.nk.next)
#define invalidateTMcache(t) ((t)->flags = 0)
/* returns the key, given the value of a table entry */
#define keyfromval(v) \
(gkey(cast(Node *, cast(char *, (v)) - offsetof(Node, i_val))))
LUAI_FUNC const TValue *luaH_getint (Table *t, int key);
LUAI_FUNC void luaH_setint (lua_State *L, Table *t, int key, TValue *value);
LUAI_FUNC const TValue *luaH_getstr (Table *t, TString *key);
LUAI_FUNC const TValue *luaH_get (Table *t, const TValue *key);
LUAI_FUNC TValue *luaH_newkey (lua_State *L, Table *t, const TValue *key);
LUAI_FUNC TValue *luaH_set (lua_State *L, Table *t, const TValue *key);
LUAI_FUNC Table *luaH_new (lua_State *L);
LUAI_FUNC void luaH_resize (lua_State *L, Table *t, int nasize, int nhsize);
LUAI_FUNC void luaH_resizearray (lua_State *L, Table *t, int nasize);
LUAI_FUNC void luaH_free (lua_State *L, Table *t);
LUAI_FUNC int luaH_next (lua_State *L, Table *t, StkId key);
LUAI_FUNC int luaH_getn (Table *t);
#if defined(LUA_DEBUG)
LUAI_FUNC Node *luaH_mainposition (const Table *t, const TValue *key);
LUAI_FUNC int luaH_isdummy (Node *n);
#endif
#endif

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/*
** $Id: ltm.h,v 2.11.1.1 2013/04/12 18:48:47 roberto Exp $
** Tag methods
** See Copyright Notice in lua.h
*/
#ifndef ltm_h
#define ltm_h
#include "lobject.h"
/*
* WARNING: if you change the order of this enumeration,
* grep "ORDER TM"
*/
typedef enum {
TM_INDEX,
TM_NEWINDEX,
TM_GC,
TM_MODE,
TM_LEN,
TM_EQ, /* last tag method with `fast' access */
TM_ADD,
TM_SUB,
TM_MUL,
TM_DIV,
TM_MOD,
TM_POW,
TM_UNM,
TM_LT,
TM_LE,
TM_CONCAT,
TM_CALL,
TM_N /* number of elements in the enum */
} TMS;
#define gfasttm(g,et,e) ((et) == NULL ? NULL : \
((et)->flags & (1u<<(e))) ? NULL : luaT_gettm(et, e, (g)->tmname[e]))
#define fasttm(l,et,e) gfasttm(G(l), et, e)
#define ttypename(x) luaT_typenames_[(x) + 1]
#define objtypename(x) ttypename(ttypenv(x))
LUAI_DDEC const char *const luaT_typenames_[LUA_TOTALTAGS];
LUAI_FUNC const TValue *luaT_gettm (Table *events, TMS event, TString *ename);
LUAI_FUNC const TValue *luaT_gettmbyobj (lua_State *L, const TValue *o,
TMS event);
LUAI_FUNC void luaT_init (lua_State *L);
#endif

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/*
** $Id: lua.h,v 1.285.1.2 2013/11/11 12:09:16 roberto Exp $
** Lua - A Scripting Language
** Lua.org, PUC-Rio, Brazil (http://www.lua.org)
** See Copyright Notice at the end of this file
*/
#ifndef lua_h
#define lua_h
#include <stdarg.h>
#include <stddef.h>
#include "luaconf.h"
#define LUA_VERSION_MAJOR "5"
#define LUA_VERSION_MINOR "2"
#define LUA_VERSION_NUM 502
#define LUA_VERSION_RELEASE "3"
#define LUA_VERSION "Lua " LUA_VERSION_MAJOR "." LUA_VERSION_MINOR
#define LUA_RELEASE LUA_VERSION "." LUA_VERSION_RELEASE
#define LUA_COPYRIGHT LUA_RELEASE " Copyright (C) 1994-2013 Lua.org, PUC-Rio"
#define LUA_AUTHORS "R. Ierusalimschy, L. H. de Figueiredo, W. Celes"
/* mark for precompiled code ('<esc>Lua') */
#define LUA_SIGNATURE "\033Lua"
/* option for multiple returns in 'lua_pcall' and 'lua_call' */
#define LUA_MULTRET (-1)
/*
** pseudo-indices
*/
#define LUA_REGISTRYINDEX LUAI_FIRSTPSEUDOIDX
#define lua_upvalueindex(i) (LUA_REGISTRYINDEX - (i))
/* thread status */
#define LUA_OK 0
#define LUA_YIELD 1
#define LUA_ERRRUN 2
#define LUA_ERRSYNTAX 3
#define LUA_ERRMEM 4
#define LUA_ERRGCMM 5
#define LUA_ERRERR 6
typedef struct lua_State lua_State;
typedef int (*lua_CFunction) (lua_State *L);
/*
** functions that read/write blocks when loading/dumping Lua chunks
*/
typedef const char * (*lua_Reader) (lua_State *L, void *ud, size_t *sz);
typedef int (*lua_Writer) (lua_State *L, const void* p, size_t sz, void* ud);
/*
** prototype for memory-allocation functions
*/
typedef void * (*lua_Alloc) (void *ud, void *ptr, size_t osize, size_t nsize);
/*
** basic types
*/
#define LUA_TNONE (-1)
#define LUA_TNIL 0
#define LUA_TBOOLEAN 1
#define LUA_TLIGHTUSERDATA 2
#define LUA_TNUMBER 3
#define LUA_TSTRING 4
#define LUA_TTABLE 5
#define LUA_TFUNCTION 6
#define LUA_TUSERDATA 7
#define LUA_TTHREAD 8
#define LUA_NUMTAGS 9
/* minimum Lua stack available to a C function */
#define LUA_MINSTACK 20
/* predefined values in the registry */
#define LUA_RIDX_MAINTHREAD 1
#define LUA_RIDX_GLOBALS 2
#define LUA_RIDX_LAST LUA_RIDX_GLOBALS
/* type of numbers in Lua */
typedef LUA_NUMBER lua_Number;
/* type for integer functions */
typedef LUA_INTEGER lua_Integer;
/* unsigned integer type */
typedef LUA_UNSIGNED lua_Unsigned;
/*
** generic extra include file
*/
#if defined(LUA_USER_H)
#include LUA_USER_H
#endif
/*
** RCS ident string
*/
extern const char lua_ident[];
/*
** state manipulation
*/
LUA_API lua_State *(lua_newstate) (lua_Alloc f, void *ud);
LUA_API void (lua_close) (lua_State *L);
LUA_API lua_State *(lua_newthread) (lua_State *L);
LUA_API lua_CFunction (lua_atpanic) (lua_State *L, lua_CFunction panicf);
LUA_API const lua_Number *(lua_version) (lua_State *L);
/*
** basic stack manipulation
*/
LUA_API int (lua_absindex) (lua_State *L, int idx);
LUA_API int (lua_gettop) (lua_State *L);
LUA_API void (lua_settop) (lua_State *L, int idx);
LUA_API void (lua_pushvalue) (lua_State *L, int idx);
LUA_API void (lua_remove) (lua_State *L, int idx);
LUA_API void (lua_insert) (lua_State *L, int idx);
LUA_API void (lua_replace) (lua_State *L, int idx);
LUA_API void (lua_copy) (lua_State *L, int fromidx, int toidx);
LUA_API int (lua_checkstack) (lua_State *L, int sz);
LUA_API void (lua_xmove) (lua_State *from, lua_State *to, int n);
/*
** access functions (stack -> C)
*/
LUA_API int (lua_isnumber) (lua_State *L, int idx);
LUA_API int (lua_isstring) (lua_State *L, int idx);
LUA_API int (lua_iscfunction) (lua_State *L, int idx);
LUA_API int (lua_isuserdata) (lua_State *L, int idx);
LUA_API int (lua_type) (lua_State *L, int idx);
LUA_API const char *(lua_typename) (lua_State *L, int tp);
LUA_API lua_Number (lua_tonumberx) (lua_State *L, int idx, int *isnum);
LUA_API lua_Integer (lua_tointegerx) (lua_State *L, int idx, int *isnum);
LUA_API lua_Unsigned (lua_tounsignedx) (lua_State *L, int idx, int *isnum);
LUA_API int (lua_toboolean) (lua_State *L, int idx);
LUA_API const char *(lua_tolstring) (lua_State *L, int idx, size_t *len);
LUA_API size_t (lua_rawlen) (lua_State *L, int idx);
LUA_API lua_CFunction (lua_tocfunction) (lua_State *L, int idx);
LUA_API void *(lua_touserdata) (lua_State *L, int idx);
LUA_API lua_State *(lua_tothread) (lua_State *L, int idx);
LUA_API const void *(lua_topointer) (lua_State *L, int idx);
/*
** Comparison and arithmetic functions
*/
#define LUA_OPADD 0 /* ORDER TM */
#define LUA_OPSUB 1
#define LUA_OPMUL 2
#define LUA_OPDIV 3
#define LUA_OPMOD 4
#define LUA_OPPOW 5
#define LUA_OPUNM 6
LUA_API void (lua_arith) (lua_State *L, int op);
#define LUA_OPEQ 0
#define LUA_OPLT 1
#define LUA_OPLE 2
LUA_API int (lua_rawequal) (lua_State *L, int idx1, int idx2);
LUA_API int (lua_compare) (lua_State *L, int idx1, int idx2, int op);
/*
** push functions (C -> stack)
*/
LUA_API void (lua_pushnil) (lua_State *L);
LUA_API void (lua_pushnumber) (lua_State *L, lua_Number n);
LUA_API void (lua_pushinteger) (lua_State *L, lua_Integer n);
LUA_API void (lua_pushunsigned) (lua_State *L, lua_Unsigned n);
LUA_API const char *(lua_pushlstring) (lua_State *L, const char *s, size_t l);
LUA_API const char *(lua_pushstring) (lua_State *L, const char *s);
LUA_API const char *(lua_pushvfstring) (lua_State *L, const char *fmt,
va_list argp);
LUA_API const char *(lua_pushfstring) (lua_State *L, const char *fmt, ...);
LUA_API void (lua_pushcclosure) (lua_State *L, lua_CFunction fn, int n);
LUA_API void (lua_pushboolean) (lua_State *L, int b);
LUA_API void (lua_pushlightuserdata) (lua_State *L, void *p);
LUA_API int (lua_pushthread) (lua_State *L);
/*
** get functions (Lua -> stack)
*/
LUA_API void (lua_getglobal) (lua_State *L, const char *var);
LUA_API void (lua_gettable) (lua_State *L, int idx);
LUA_API void (lua_getfield) (lua_State *L, int idx, const char *k);
LUA_API void (lua_rawget) (lua_State *L, int idx);
LUA_API void (lua_rawgeti) (lua_State *L, int idx, int n);
LUA_API void (lua_rawgetp) (lua_State *L, int idx, const void *p);
LUA_API void (lua_createtable) (lua_State *L, int narr, int nrec);
LUA_API void *(lua_newuserdata) (lua_State *L, size_t sz);
LUA_API int (lua_getmetatable) (lua_State *L, int objindex);
LUA_API void (lua_getuservalue) (lua_State *L, int idx);
/*
** set functions (stack -> Lua)
*/
LUA_API void (lua_setglobal) (lua_State *L, const char *var);
LUA_API void (lua_settable) (lua_State *L, int idx);
LUA_API void (lua_setfield) (lua_State *L, int idx, const char *k);
LUA_API void (lua_rawset) (lua_State *L, int idx);
LUA_API void (lua_rawseti) (lua_State *L, int idx, int n);
LUA_API void (lua_rawsetp) (lua_State *L, int idx, const void *p);
LUA_API int (lua_setmetatable) (lua_State *L, int objindex);
LUA_API void (lua_setuservalue) (lua_State *L, int idx);
/*
** 'load' and 'call' functions (load and run Lua code)
*/
LUA_API void (lua_callk) (lua_State *L, int nargs, int nresults, int ctx,
lua_CFunction k);
#define lua_call(L,n,r) lua_callk(L, (n), (r), 0, NULL)
LUA_API int (lua_getctx) (lua_State *L, int *ctx);
LUA_API int (lua_pcallk) (lua_State *L, int nargs, int nresults, int errfunc,
int ctx, lua_CFunction k);
#define lua_pcall(L,n,r,f) lua_pcallk(L, (n), (r), (f), 0, NULL)
LUA_API int (lua_load) (lua_State *L, lua_Reader reader, void *dt,
const char *chunkname,
const char *mode);
LUA_API int (lua_dump) (lua_State *L, lua_Writer writer, void *data);
/*
** coroutine functions
*/
LUA_API int (lua_yieldk) (lua_State *L, int nresults, int ctx,
lua_CFunction k);
#define lua_yield(L,n) lua_yieldk(L, (n), 0, NULL)
LUA_API int (lua_resume) (lua_State *L, lua_State *from, int narg);
LUA_API int (lua_status) (lua_State *L);
/*
** garbage-collection function and options
*/
#define LUA_GCSTOP 0
#define LUA_GCRESTART 1
#define LUA_GCCOLLECT 2
#define LUA_GCCOUNT 3
#define LUA_GCCOUNTB 4
#define LUA_GCSTEP 5
#define LUA_GCSETPAUSE 6
#define LUA_GCSETSTEPMUL 7
#define LUA_GCSETMAJORINC 8
#define LUA_GCISRUNNING 9
#define LUA_GCGEN 10
#define LUA_GCINC 11
LUA_API int (lua_gc) (lua_State *L, int what, int data);
/*
** miscellaneous functions
*/
LUA_API int (lua_error) (lua_State *L);
LUA_API int (lua_next) (lua_State *L, int idx);
LUA_API void (lua_concat) (lua_State *L, int n);
LUA_API void (lua_len) (lua_State *L, int idx);
LUA_API lua_Alloc (lua_getallocf) (lua_State *L, void **ud);
LUA_API void (lua_setallocf) (lua_State *L, lua_Alloc f, void *ud);
/*
** ===============================================================
** some useful macros
** ===============================================================
*/
#define lua_tonumber(L,i) lua_tonumberx(L,i,NULL)
#define lua_tointeger(L,i) lua_tointegerx(L,i,NULL)
#define lua_tounsigned(L,i) lua_tounsignedx(L,i,NULL)
#define lua_pop(L,n) lua_settop(L, -(n)-1)
#define lua_newtable(L) lua_createtable(L, 0, 0)
#define lua_register(L,n,f) (lua_pushcfunction(L, (f)), lua_setglobal(L, (n)))
#define lua_pushcfunction(L,f) lua_pushcclosure(L, (f), 0)
#define lua_isfunction(L,n) (lua_type(L, (n)) == LUA_TFUNCTION)
#define lua_istable(L,n) (lua_type(L, (n)) == LUA_TTABLE)
#define lua_islightuserdata(L,n) (lua_type(L, (n)) == LUA_TLIGHTUSERDATA)
#define lua_isnil(L,n) (lua_type(L, (n)) == LUA_TNIL)
#define lua_isboolean(L,n) (lua_type(L, (n)) == LUA_TBOOLEAN)
#define lua_isthread(L,n) (lua_type(L, (n)) == LUA_TTHREAD)
#define lua_isnone(L,n) (lua_type(L, (n)) == LUA_TNONE)
#define lua_isnoneornil(L, n) (lua_type(L, (n)) <= 0)
#define lua_pushliteral(L, s) \
lua_pushlstring(L, "" s, (sizeof(s)/sizeof(char))-1)
#define lua_pushglobaltable(L) \
lua_rawgeti(L, LUA_REGISTRYINDEX, LUA_RIDX_GLOBALS)
#define lua_tostring(L,i) lua_tolstring(L, (i), NULL)
/*
** {======================================================================
** Debug API
** =======================================================================
*/
/*
** Event codes
*/
#define LUA_HOOKCALL 0
#define LUA_HOOKRET 1
#define LUA_HOOKLINE 2
#define LUA_HOOKCOUNT 3
#define LUA_HOOKTAILCALL 4
/*
** Event masks
*/
#define LUA_MASKCALL (1 << LUA_HOOKCALL)
#define LUA_MASKRET (1 << LUA_HOOKRET)
#define LUA_MASKLINE (1 << LUA_HOOKLINE)
#define LUA_MASKCOUNT (1 << LUA_HOOKCOUNT)
typedef struct lua_Debug lua_Debug; /* activation record */
/* Functions to be called by the debugger in specific events */
typedef void (*lua_Hook) (lua_State *L, lua_Debug *ar);
LUA_API int (lua_getstack) (lua_State *L, int level, lua_Debug *ar);
LUA_API int (lua_getinfo) (lua_State *L, const char *what, lua_Debug *ar);
LUA_API const char *(lua_getlocal) (lua_State *L, const lua_Debug *ar, int n);
LUA_API const char *(lua_setlocal) (lua_State *L, const lua_Debug *ar, int n);
LUA_API const char *(lua_getupvalue) (lua_State *L, int funcindex, int n);
LUA_API const char *(lua_setupvalue) (lua_State *L, int funcindex, int n);
LUA_API void *(lua_upvalueid) (lua_State *L, int fidx, int n);
LUA_API void (lua_upvaluejoin) (lua_State *L, int fidx1, int n1,
int fidx2, int n2);
LUA_API int (lua_sethook) (lua_State *L, lua_Hook func, int mask, int count);
LUA_API lua_Hook (lua_gethook) (lua_State *L);
LUA_API int (lua_gethookmask) (lua_State *L);
LUA_API int (lua_gethookcount) (lua_State *L);
struct lua_Debug {
int event;
const char *name; /* (n) */
const char *namewhat; /* (n) 'global', 'local', 'field', 'method' */
const char *what; /* (S) 'Lua', 'C', 'main', 'tail' */
const char *source; /* (S) */
int currentline; /* (l) */
int linedefined; /* (S) */
int lastlinedefined; /* (S) */
unsigned char nups; /* (u) number of upvalues */
unsigned char nparams;/* (u) number of parameters */
char isvararg; /* (u) */
char istailcall; /* (t) */
char short_src[LUA_IDSIZE]; /* (S) */
/* private part */
struct CallInfo *i_ci; /* active function */
};
/* }====================================================================== */
/******************************************************************************
* Copyright (C) 1994-2013 Lua.org, PUC-Rio.
*
* Permission is hereby granted, free of charge, to any person obtaining
* a copy of this software and associated documentation files (the
* "Software"), to deal in the Software without restriction, including
* without limitation the rights to use, copy, modify, merge, publish,
* distribute, sublicense, and/or sell copies of the Software, and to
* permit persons to whom the Software is furnished to do so, subject to
* the following conditions:
*
* The above copyright notice and this permission notice shall be
* included in all copies or substantial portions of the Software.
*
* THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND,
* EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF
* MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT.
* IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY
* CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT,
* TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION WITH THE
* SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE.
******************************************************************************/
#endif

9
ext/lua/include/lua.hpp Normal file
View File

@@ -0,0 +1,9 @@
// lua.hpp
// Lua header files for C++
// <<extern "C">> not supplied automatically because Lua also compiles as C++
extern "C" {
#include "lua.h"
#include "lualib.h"
#include "lauxlib.h"
}

551
ext/lua/include/luaconf.h Normal file
View File

@@ -0,0 +1,551 @@
/*
** $Id: luaconf.h,v 1.176.1.1 2013/04/12 18:48:47 roberto Exp $
** Configuration file for Lua
** See Copyright Notice in lua.h
*/
#ifndef lconfig_h
#define lconfig_h
#include <limits.h>
#include <stddef.h>
/*
** ==================================================================
** Search for "@@" to find all configurable definitions.
** ===================================================================
*/
/*
@@ LUA_ANSI controls the use of non-ansi features.
** CHANGE it (define it) if you want Lua to avoid the use of any
** non-ansi feature or library.
*/
#if !defined(LUA_ANSI) && defined(__STRICT_ANSI__)
#define LUA_ANSI
#endif
#if !defined(LUA_ANSI) && defined(_WIN32) && !defined(_WIN32_WCE)
#define LUA_WIN /* enable goodies for regular Windows platforms */
#endif
#if defined(LUA_WIN)
#define LUA_DL_DLL
#define LUA_USE_AFORMAT /* assume 'printf' handles 'aA' specifiers */
#endif
#if defined(LUA_USE_LINUX)
#define LUA_USE_POSIX
#define LUA_USE_DLOPEN /* needs an extra library: -ldl */
#define LUA_USE_READLINE /* needs some extra libraries */
#define LUA_USE_STRTODHEX /* assume 'strtod' handles hex formats */
#define LUA_USE_AFORMAT /* assume 'printf' handles 'aA' specifiers */
#define LUA_USE_LONGLONG /* assume support for long long */
#endif
#if defined(LUA_USE_MACOSX)
#define LUA_USE_POSIX
#define LUA_USE_DLOPEN /* does not need -ldl */
#define LUA_USE_READLINE /* needs an extra library: -lreadline */
#define LUA_USE_STRTODHEX /* assume 'strtod' handles hex formats */
#define LUA_USE_AFORMAT /* assume 'printf' handles 'aA' specifiers */
#define LUA_USE_LONGLONG /* assume support for long long */
#endif
/*
@@ LUA_USE_POSIX includes all functionality listed as X/Open System
@* Interfaces Extension (XSI).
** CHANGE it (define it) if your system is XSI compatible.
*/
#if defined(LUA_USE_POSIX)
#define LUA_USE_MKSTEMP
#define LUA_USE_ISATTY
#define LUA_USE_POPEN
#define LUA_USE_ULONGJMP
#define LUA_USE_GMTIME_R
#endif
/*
@@ LUA_PATH_DEFAULT is the default path that Lua uses to look for
@* Lua libraries.
@@ LUA_CPATH_DEFAULT is the default path that Lua uses to look for
@* C libraries.
** CHANGE them if your machine has a non-conventional directory
** hierarchy or if you want to install your libraries in
** non-conventional directories.
*/
#if defined(_WIN32) /* { */
/*
** In Windows, any exclamation mark ('!') in the path is replaced by the
** path of the directory of the executable file of the current process.
*/
#define LUA_LDIR "!\\lua\\"
#define LUA_CDIR "!\\"
#define LUA_PATH_DEFAULT \
LUA_LDIR"?.lua;" LUA_LDIR"?\\init.lua;" \
LUA_CDIR"?.lua;" LUA_CDIR"?\\init.lua;" ".\\?.lua"
#define LUA_CPATH_DEFAULT \
LUA_CDIR"?.dll;" LUA_CDIR"loadall.dll;" ".\\?.dll"
#else /* }{ */
#define LUA_VDIR LUA_VERSION_MAJOR "." LUA_VERSION_MINOR "/"
#define LUA_ROOT "/usr/local/"
#define LUA_LDIR LUA_ROOT "share/lua/" LUA_VDIR
#define LUA_CDIR LUA_ROOT "lib/lua/" LUA_VDIR
#define LUA_PATH_DEFAULT \
LUA_LDIR"?.lua;" LUA_LDIR"?/init.lua;" \
LUA_CDIR"?.lua;" LUA_CDIR"?/init.lua;" "./?.lua"
#define LUA_CPATH_DEFAULT \
LUA_CDIR"?.so;" LUA_CDIR"loadall.so;" "./?.so"
#endif /* } */
/*
@@ LUA_DIRSEP is the directory separator (for submodules).
** CHANGE it if your machine does not use "/" as the directory separator
** and is not Windows. (On Windows Lua automatically uses "\".)
*/
#if defined(_WIN32)
#define LUA_DIRSEP "\\"
#else
#define LUA_DIRSEP "/"
#endif
/*
@@ LUA_ENV is the name of the variable that holds the current
@@ environment, used to access global names.
** CHANGE it if you do not like this name.
*/
#define LUA_ENV "_ENV"
/*
@@ LUA_API is a mark for all core API functions.
@@ LUALIB_API is a mark for all auxiliary library functions.
@@ LUAMOD_API is a mark for all standard library opening functions.
** CHANGE them if you need to define those functions in some special way.
** For instance, if you want to create one Windows DLL with the core and
** the libraries, you may want to use the following definition (define
** LUA_BUILD_AS_DLL to get it).
*/
#if defined(LUA_BUILD_AS_DLL) /* { */
#if defined(LUA_CORE) || defined(LUA_LIB) /* { */
#define LUA_API __declspec(dllexport)
#else /* }{ */
#define LUA_API __declspec(dllimport)
#endif /* } */
#else /* }{ */
#define LUA_API extern
#endif /* } */
/* more often than not the libs go together with the core */
#define LUALIB_API LUA_API
#define LUAMOD_API LUALIB_API
/*
@@ LUAI_FUNC is a mark for all extern functions that are not to be
@* exported to outside modules.
@@ LUAI_DDEF and LUAI_DDEC are marks for all extern (const) variables
@* that are not to be exported to outside modules (LUAI_DDEF for
@* definitions and LUAI_DDEC for declarations).
** CHANGE them if you need to mark them in some special way. Elf/gcc
** (versions 3.2 and later) mark them as "hidden" to optimize access
** when Lua is compiled as a shared library. Not all elf targets support
** this attribute. Unfortunately, gcc does not offer a way to check
** whether the target offers that support, and those without support
** give a warning about it. To avoid these warnings, change to the
** default definition.
*/
#if defined(__GNUC__) && ((__GNUC__*100 + __GNUC_MINOR__) >= 302) && \
defined(__ELF__) /* { */
#define LUAI_FUNC __attribute__((visibility("hidden"))) extern
#define LUAI_DDEC LUAI_FUNC
#define LUAI_DDEF /* empty */
#else /* }{ */
#define LUAI_FUNC extern
#define LUAI_DDEC extern
#define LUAI_DDEF /* empty */
#endif /* } */
/*
@@ LUA_QL describes how error messages quote program elements.
** CHANGE it if you want a different appearance.
*/
#define LUA_QL(x) "'" x "'"
#define LUA_QS LUA_QL("%s")
/*
@@ LUA_IDSIZE gives the maximum size for the description of the source
@* of a function in debug information.
** CHANGE it if you want a different size.
*/
#define LUA_IDSIZE 60
/*
@@ luai_writestring/luai_writeline define how 'print' prints its results.
** They are only used in libraries and the stand-alone program. (The #if
** avoids including 'stdio.h' everywhere.)
*/
#if defined(LUA_LIB) || defined(lua_c)
#include <stdio.h>
#define luai_writestring(s,l) fwrite((s), sizeof(char), (l), stdout)
#define luai_writeline() (luai_writestring("\n", 1), fflush(stdout))
#endif
/*
@@ luai_writestringerror defines how to print error messages.
** (A format string with one argument is enough for Lua...)
*/
#define luai_writestringerror(s,p) \
(fprintf(stderr, (s), (p)), fflush(stderr))
/*
@@ LUAI_MAXSHORTLEN is the maximum length for short strings, that is,
** strings that are internalized. (Cannot be smaller than reserved words
** or tags for metamethods, as these strings must be internalized;
** #("function") = 8, #("__newindex") = 10.)
*/
#define LUAI_MAXSHORTLEN 40
/*
** {==================================================================
** Compatibility with previous versions
** ===================================================================
*/
/*
@@ LUA_COMPAT_ALL controls all compatibility options.
** You can define it to get all options, or change specific options
** to fit your specific needs.
*/
#if defined(LUA_COMPAT_ALL) /* { */
/*
@@ LUA_COMPAT_UNPACK controls the presence of global 'unpack'.
** You can replace it with 'table.unpack'.
*/
#define LUA_COMPAT_UNPACK
/*
@@ LUA_COMPAT_LOADERS controls the presence of table 'package.loaders'.
** You can replace it with 'package.searchers'.
*/
#define LUA_COMPAT_LOADERS
/*
@@ macro 'lua_cpcall' emulates deprecated function lua_cpcall.
** You can call your C function directly (with light C functions).
*/
#define lua_cpcall(L,f,u) \
(lua_pushcfunction(L, (f)), \
lua_pushlightuserdata(L,(u)), \
lua_pcall(L,1,0,0))
/*
@@ LUA_COMPAT_LOG10 defines the function 'log10' in the math library.
** You can rewrite 'log10(x)' as 'log(x, 10)'.
*/
#define LUA_COMPAT_LOG10
/*
@@ LUA_COMPAT_LOADSTRING defines the function 'loadstring' in the base
** library. You can rewrite 'loadstring(s)' as 'load(s)'.
*/
#define LUA_COMPAT_LOADSTRING
/*
@@ LUA_COMPAT_MAXN defines the function 'maxn' in the table library.
*/
#define LUA_COMPAT_MAXN
/*
@@ The following macros supply trivial compatibility for some
** changes in the API. The macros themselves document how to
** change your code to avoid using them.
*/
#define lua_strlen(L,i) lua_rawlen(L, (i))
#define lua_objlen(L,i) lua_rawlen(L, (i))
#define lua_equal(L,idx1,idx2) lua_compare(L,(idx1),(idx2),LUA_OPEQ)
#define lua_lessthan(L,idx1,idx2) lua_compare(L,(idx1),(idx2),LUA_OPLT)
/*
@@ LUA_COMPAT_MODULE controls compatibility with previous
** module functions 'module' (Lua) and 'luaL_register' (C).
*/
#define LUA_COMPAT_MODULE
#endif /* } */
/* }================================================================== */
/*
@@ LUAI_BITSINT defines the number of bits in an int.
** CHANGE here if Lua cannot automatically detect the number of bits of
** your machine. Probably you do not need to change this.
*/
/* avoid overflows in comparison */
#if INT_MAX-20 < 32760 /* { */
#define LUAI_BITSINT 16
#elif INT_MAX > 2147483640L /* }{ */
/* int has at least 32 bits */
#define LUAI_BITSINT 32
#else /* }{ */
#error "you must define LUA_BITSINT with number of bits in an integer"
#endif /* } */
/*
@@ LUA_INT32 is an signed integer with exactly 32 bits.
@@ LUAI_UMEM is an unsigned integer big enough to count the total
@* memory used by Lua.
@@ LUAI_MEM is a signed integer big enough to count the total memory
@* used by Lua.
** CHANGE here if for some weird reason the default definitions are not
** good enough for your machine. Probably you do not need to change
** this.
*/
#if LUAI_BITSINT >= 32 /* { */
#define LUA_INT32 int
#define LUAI_UMEM size_t
#define LUAI_MEM ptrdiff_t
#else /* }{ */
/* 16-bit ints */
#define LUA_INT32 long
#define LUAI_UMEM unsigned long
#define LUAI_MEM long
#endif /* } */
/*
@@ LUAI_MAXSTACK limits the size of the Lua stack.
** CHANGE it if you need a different limit. This limit is arbitrary;
** its only purpose is to stop Lua to consume unlimited stack
** space (and to reserve some numbers for pseudo-indices).
*/
#if LUAI_BITSINT >= 32
#define LUAI_MAXSTACK 1000000
#else
#define LUAI_MAXSTACK 15000
#endif
/* reserve some space for error handling */
#define LUAI_FIRSTPSEUDOIDX (-LUAI_MAXSTACK - 1000)
/*
@@ LUAL_BUFFERSIZE is the buffer size used by the lauxlib buffer system.
** CHANGE it if it uses too much C-stack space.
*/
#define LUAL_BUFFERSIZE BUFSIZ
/*
** {==================================================================
@@ LUA_NUMBER is the type of numbers in Lua.
** CHANGE the following definitions only if you want to build Lua
** with a number type different from double. You may also need to
** change lua_number2int & lua_number2integer.
** ===================================================================
*/
#define LUA_NUMBER_DOUBLE
#define LUA_NUMBER double
/*
@@ LUAI_UACNUMBER is the result of an 'usual argument conversion'
@* over a number.
*/
#define LUAI_UACNUMBER double
/*
@@ LUA_NUMBER_SCAN is the format for reading numbers.
@@ LUA_NUMBER_FMT is the format for writing numbers.
@@ lua_number2str converts a number to a string.
@@ LUAI_MAXNUMBER2STR is maximum size of previous conversion.
*/
#define LUA_NUMBER_SCAN "%lf"
#define LUA_NUMBER_FMT "%.14g"
#define lua_number2str(s,n) sprintf((s), LUA_NUMBER_FMT, (n))
#define LUAI_MAXNUMBER2STR 32 /* 16 digits, sign, point, and \0 */
/*
@@ l_mathop allows the addition of an 'l' or 'f' to all math operations
*/
#define l_mathop(x) (x)
/*
@@ lua_str2number converts a decimal numeric string to a number.
@@ lua_strx2number converts an hexadecimal numeric string to a number.
** In C99, 'strtod' does both conversions. C89, however, has no function
** to convert floating hexadecimal strings to numbers. For these
** systems, you can leave 'lua_strx2number' undefined and Lua will
** provide its own implementation.
*/
#define lua_str2number(s,p) strtod((s), (p))
#if defined(LUA_USE_STRTODHEX)
#define lua_strx2number(s,p) strtod((s), (p))
#endif
/*
@@ The luai_num* macros define the primitive operations over numbers.
*/
/* the following operations need the math library */
#if defined(lobject_c) || defined(lvm_c)
#include <math.h>
#define luai_nummod(L,a,b) ((a) - l_mathop(floor)((a)/(b))*(b))
#define luai_numpow(L,a,b) (l_mathop(pow)(a,b))
#endif
/* these are quite standard operations */
#if defined(LUA_CORE)
#define luai_numadd(L,a,b) ((a)+(b))
#define luai_numsub(L,a,b) ((a)-(b))
#define luai_nummul(L,a,b) ((a)*(b))
#define luai_numdiv(L,a,b) ((a)/(b))
#define luai_numunm(L,a) (-(a))
#define luai_numeq(a,b) ((a)==(b))
#define luai_numlt(L,a,b) ((a)<(b))
#define luai_numle(L,a,b) ((a)<=(b))
#define luai_numisnan(L,a) (!luai_numeq((a), (a)))
#endif
/*
@@ LUA_INTEGER is the integral type used by lua_pushinteger/lua_tointeger.
** CHANGE that if ptrdiff_t is not adequate on your machine. (On most
** machines, ptrdiff_t gives a good choice between int or long.)
*/
#define LUA_INTEGER ptrdiff_t
/*
@@ LUA_UNSIGNED is the integral type used by lua_pushunsigned/lua_tounsigned.
** It must have at least 32 bits.
*/
#define LUA_UNSIGNED unsigned LUA_INT32
/*
** Some tricks with doubles
*/
#if defined(LUA_NUMBER_DOUBLE) && !defined(LUA_ANSI) /* { */
/*
** The next definitions activate some tricks to speed up the
** conversion from doubles to integer types, mainly to LUA_UNSIGNED.
**
@@ LUA_MSASMTRICK uses Microsoft assembler to avoid clashes with a
** DirectX idiosyncrasy.
**
@@ LUA_IEEE754TRICK uses a trick that should work on any machine
** using IEEE754 with a 32-bit integer type.
**
@@ LUA_IEEELL extends the trick to LUA_INTEGER; should only be
** defined when LUA_INTEGER is a 32-bit integer.
**
@@ LUA_IEEEENDIAN is the endianness of doubles in your machine
** (0 for little endian, 1 for big endian); if not defined, Lua will
** check it dynamically for LUA_IEEE754TRICK (but not for LUA_NANTRICK).
**
@@ LUA_NANTRICK controls the use of a trick to pack all types into
** a single double value, using NaN values to represent non-number
** values. The trick only works on 32-bit machines (ints and pointers
** are 32-bit values) with numbers represented as IEEE 754-2008 doubles
** with conventional endianess (12345678 or 87654321), in CPUs that do
** not produce signaling NaN values (all NaNs are quiet).
*/
/* Microsoft compiler on a Pentium (32 bit) ? */
#if defined(LUA_WIN) && defined(_MSC_VER) && defined(_M_IX86) /* { */
#define LUA_MSASMTRICK
#define LUA_IEEEENDIAN 0
#define LUA_NANTRICK
/* pentium 32 bits? */
#elif defined(__i386__) || defined(__i386) || defined(__X86__) /* }{ */
#define LUA_IEEE754TRICK
#define LUA_IEEELL
#define LUA_IEEEENDIAN 0
#define LUA_NANTRICK
/* pentium 64 bits? */
#elif defined(__x86_64) /* }{ */
#define LUA_IEEE754TRICK
#define LUA_IEEEENDIAN 0
#elif defined(__POWERPC__) || defined(__ppc__) /* }{ */
#define LUA_IEEE754TRICK
#define LUA_IEEEENDIAN 1
#else /* }{ */
/* assume IEEE754 and a 32-bit integer type */
#define LUA_IEEE754TRICK
#endif /* } */
#endif /* } */
/* }================================================================== */
/* =================================================================== */
/*
** Local configuration. You can use this space to add your redefinitions
** without modifying the main part of the file.
*/
#endif

55
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@@ -0,0 +1,55 @@
/*
** $Id: lualib.h,v 1.43.1.1 2013/04/12 18:48:47 roberto Exp $
** Lua standard libraries
** See Copyright Notice in lua.h
*/
#ifndef lualib_h
#define lualib_h
#include "lua.h"
LUAMOD_API int (luaopen_base) (lua_State *L);
#define LUA_COLIBNAME "coroutine"
LUAMOD_API int (luaopen_coroutine) (lua_State *L);
#define LUA_TABLIBNAME "table"
LUAMOD_API int (luaopen_table) (lua_State *L);
#define LUA_IOLIBNAME "io"
LUAMOD_API int (luaopen_io) (lua_State *L);
#define LUA_OSLIBNAME "os"
LUAMOD_API int (luaopen_os) (lua_State *L);
#define LUA_STRLIBNAME "string"
LUAMOD_API int (luaopen_string) (lua_State *L);
#define LUA_BITLIBNAME "bit32"
LUAMOD_API int (luaopen_bit32) (lua_State *L);
#define LUA_MATHLIBNAME "math"
LUAMOD_API int (luaopen_math) (lua_State *L);
#define LUA_DBLIBNAME "debug"
LUAMOD_API int (luaopen_debug) (lua_State *L);
#define LUA_LOADLIBNAME "package"
LUAMOD_API int (luaopen_package) (lua_State *L);
/* open all previous libraries */
LUALIB_API void (luaL_openlibs) (lua_State *L);
#if !defined(lua_assert)
#define lua_assert(x) ((void)0)
#endif
#endif

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@@ -0,0 +1,28 @@
/*
** $Id: lundump.h,v 1.39.1.1 2013/04/12 18:48:47 roberto Exp $
** load precompiled Lua chunks
** See Copyright Notice in lua.h
*/
#ifndef lundump_h
#define lundump_h
#include "lobject.h"
#include "lzio.h"
/* load one chunk; from lundump.c */
LUAI_FUNC Closure* luaU_undump (lua_State* L, ZIO* Z, Mbuffer* buff, const char* name);
/* make header; from lundump.c */
LUAI_FUNC void luaU_header (lu_byte* h);
/* dump one chunk; from ldump.c */
LUAI_FUNC int luaU_dump (lua_State* L, const Proto* f, lua_Writer w, void* data, int strip);
/* data to catch conversion errors */
#define LUAC_TAIL "\x19\x93\r\n\x1a\n"
/* size in bytes of header of binary files */
#define LUAC_HEADERSIZE (sizeof(LUA_SIGNATURE)-sizeof(char)+2+6+sizeof(LUAC_TAIL)-sizeof(char))
#endif

44
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@@ -0,0 +1,44 @@
/*
** $Id: lvm.h,v 2.18.1.1 2013/04/12 18:48:47 roberto Exp $
** Lua virtual machine
** See Copyright Notice in lua.h
*/
#ifndef lvm_h
#define lvm_h
#include "ldo.h"
#include "lobject.h"
#include "ltm.h"
#define tostring(L,o) (ttisstring(o) || (luaV_tostring(L, o)))
#define tonumber(o,n) (ttisnumber(o) || (((o) = luaV_tonumber(o,n)) != NULL))
#define equalobj(L,o1,o2) (ttisequal(o1, o2) && luaV_equalobj_(L, o1, o2))
#define luaV_rawequalobj(o1,o2) equalobj(NULL,o1,o2)
/* not to called directly */
LUAI_FUNC int luaV_equalobj_ (lua_State *L, const TValue *t1, const TValue *t2);
LUAI_FUNC int luaV_lessthan (lua_State *L, const TValue *l, const TValue *r);
LUAI_FUNC int luaV_lessequal (lua_State *L, const TValue *l, const TValue *r);
LUAI_FUNC const TValue *luaV_tonumber (const TValue *obj, TValue *n);
LUAI_FUNC int luaV_tostring (lua_State *L, StkId obj);
LUAI_FUNC void luaV_gettable (lua_State *L, const TValue *t, TValue *key,
StkId val);
LUAI_FUNC void luaV_settable (lua_State *L, const TValue *t, TValue *key,
StkId val);
LUAI_FUNC void luaV_finishOp (lua_State *L);
LUAI_FUNC void luaV_execute (lua_State *L);
LUAI_FUNC void luaV_concat (lua_State *L, int total);
LUAI_FUNC void luaV_arith (lua_State *L, StkId ra, const TValue *rb,
const TValue *rc, TMS op);
LUAI_FUNC void luaV_objlen (lua_State *L, StkId ra, const TValue *rb);
#endif

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/*
** $Id: lzio.h,v 1.26.1.1 2013/04/12 18:48:47 roberto Exp $
** Buffered streams
** See Copyright Notice in lua.h
*/
#ifndef lzio_h
#define lzio_h
#include "lua.h"
#include "lmem.h"
#define EOZ (-1) /* end of stream */
typedef struct Zio ZIO;
#define zgetc(z) (((z)->n--)>0 ? cast_uchar(*(z)->p++) : luaZ_fill(z))
typedef struct Mbuffer {
char *buffer;
size_t n;
size_t buffsize;
} Mbuffer;
#define luaZ_initbuffer(L, buff) ((buff)->buffer = NULL, (buff)->buffsize = 0)
#define luaZ_buffer(buff) ((buff)->buffer)
#define luaZ_sizebuffer(buff) ((buff)->buffsize)
#define luaZ_bufflen(buff) ((buff)->n)
#define luaZ_resetbuffer(buff) ((buff)->n = 0)
#define luaZ_resizebuffer(L, buff, size) \
(luaM_reallocvector(L, (buff)->buffer, (buff)->buffsize, size, char), \
(buff)->buffsize = size)
#define luaZ_freebuffer(L, buff) luaZ_resizebuffer(L, buff, 0)
LUAI_FUNC char *luaZ_openspace (lua_State *L, Mbuffer *buff, size_t n);
LUAI_FUNC void luaZ_init (lua_State *L, ZIO *z, lua_Reader reader,
void *data);
LUAI_FUNC size_t luaZ_read (ZIO* z, void* b, size_t n); /* read next n bytes */
/* --------- Private Part ------------------ */
struct Zio {
size_t n; /* bytes still unread */
const char *p; /* current position in buffer */
lua_Reader reader; /* reader function */
void* data; /* additional data */
lua_State *L; /* Lua state (for reader) */
};
LUAI_FUNC int luaZ_fill (ZIO *z);
#endif

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ext/lua/src/lauxlib.c Normal file
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@@ -0,0 +1,959 @@
/*
** $Id: lauxlib.c,v 1.248.1.1 2013/04/12 18:48:47 roberto Exp $
** Auxiliary functions for building Lua libraries
** See Copyright Notice in lua.h
*/
#include <errno.h>
#include <stdarg.h>
#include <stdio.h>
#include <stdlib.h>
#include <string.h>
/* This file uses only the official API of Lua.
** Any function declared here could be written as an application function.
*/
#define lauxlib_c
#define LUA_LIB
#include "lua.h"
#include "lauxlib.h"
/*
** {======================================================
** Traceback
** =======================================================
*/
#define LEVELS1 12 /* size of the first part of the stack */
#define LEVELS2 10 /* size of the second part of the stack */
/*
** search for 'objidx' in table at index -1.
** return 1 + string at top if find a good name.
*/
static int findfield (lua_State *L, int objidx, int level) {
if (level == 0 || !lua_istable(L, -1))
return 0; /* not found */
lua_pushnil(L); /* start 'next' loop */
while (lua_next(L, -2)) { /* for each pair in table */
if (lua_type(L, -2) == LUA_TSTRING) { /* ignore non-string keys */
if (lua_rawequal(L, objidx, -1)) { /* found object? */
lua_pop(L, 1); /* remove value (but keep name) */
return 1;
}
else if (findfield(L, objidx, level - 1)) { /* try recursively */
lua_remove(L, -2); /* remove table (but keep name) */
lua_pushliteral(L, ".");
lua_insert(L, -2); /* place '.' between the two names */
lua_concat(L, 3);
return 1;
}
}
lua_pop(L, 1); /* remove value */
}
return 0; /* not found */
}
static int pushglobalfuncname (lua_State *L, lua_Debug *ar) {
int top = lua_gettop(L);
lua_getinfo(L, "f", ar); /* push function */
lua_pushglobaltable(L);
if (findfield(L, top + 1, 2)) {
lua_copy(L, -1, top + 1); /* move name to proper place */
lua_pop(L, 2); /* remove pushed values */
return 1;
}
else {
lua_settop(L, top); /* remove function and global table */
return 0;
}
}
static void pushfuncname (lua_State *L, lua_Debug *ar) {
if (*ar->namewhat != '\0') /* is there a name? */
lua_pushfstring(L, "function " LUA_QS, ar->name);
else if (*ar->what == 'm') /* main? */
lua_pushliteral(L, "main chunk");
else if (*ar->what == 'C') {
if (pushglobalfuncname(L, ar)) {
lua_pushfstring(L, "function " LUA_QS, lua_tostring(L, -1));
lua_remove(L, -2); /* remove name */
}
else
lua_pushliteral(L, "?");
}
else
lua_pushfstring(L, "function <%s:%d>", ar->short_src, ar->linedefined);
}
static int countlevels (lua_State *L) {
lua_Debug ar;
int li = 1, le = 1;
/* find an upper bound */
while (lua_getstack(L, le, &ar)) { li = le; le *= 2; }
/* do a binary search */
while (li < le) {
int m = (li + le)/2;
if (lua_getstack(L, m, &ar)) li = m + 1;
else le = m;
}
return le - 1;
}
LUALIB_API void luaL_traceback (lua_State *L, lua_State *L1,
const char *msg, int level) {
lua_Debug ar;
int top = lua_gettop(L);
int numlevels = countlevels(L1);
int mark = (numlevels > LEVELS1 + LEVELS2) ? LEVELS1 : 0;
if (msg) lua_pushfstring(L, "%s\n", msg);
lua_pushliteral(L, "stack traceback:");
while (lua_getstack(L1, level++, &ar)) {
if (level == mark) { /* too many levels? */
lua_pushliteral(L, "\n\t..."); /* add a '...' */
level = numlevels - LEVELS2; /* and skip to last ones */
}
else {
lua_getinfo(L1, "Slnt", &ar);
lua_pushfstring(L, "\n\t%s:", ar.short_src);
if (ar.currentline > 0)
lua_pushfstring(L, "%d:", ar.currentline);
lua_pushliteral(L, " in ");
pushfuncname(L, &ar);
if (ar.istailcall)
lua_pushliteral(L, "\n\t(...tail calls...)");
lua_concat(L, lua_gettop(L) - top);
}
}
lua_concat(L, lua_gettop(L) - top);
}
/* }====================================================== */
/*
** {======================================================
** Error-report functions
** =======================================================
*/
LUALIB_API int luaL_argerror (lua_State *L, int narg, const char *extramsg) {
lua_Debug ar;
if (!lua_getstack(L, 0, &ar)) /* no stack frame? */
return luaL_error(L, "bad argument #%d (%s)", narg, extramsg);
lua_getinfo(L, "n", &ar);
if (strcmp(ar.namewhat, "method") == 0) {
narg--; /* do not count `self' */
if (narg == 0) /* error is in the self argument itself? */
return luaL_error(L, "calling " LUA_QS " on bad self (%s)",
ar.name, extramsg);
}
if (ar.name == NULL)
ar.name = (pushglobalfuncname(L, &ar)) ? lua_tostring(L, -1) : "?";
return luaL_error(L, "bad argument #%d to " LUA_QS " (%s)",
narg, ar.name, extramsg);
}
static int typeerror (lua_State *L, int narg, const char *tname) {
const char *msg = lua_pushfstring(L, "%s expected, got %s",
tname, luaL_typename(L, narg));
return luaL_argerror(L, narg, msg);
}
static void tag_error (lua_State *L, int narg, int tag) {
typeerror(L, narg, lua_typename(L, tag));
}
LUALIB_API void luaL_where (lua_State *L, int level) {
lua_Debug ar;
if (lua_getstack(L, level, &ar)) { /* check function at level */
lua_getinfo(L, "Sl", &ar); /* get info about it */
if (ar.currentline > 0) { /* is there info? */
lua_pushfstring(L, "%s:%d: ", ar.short_src, ar.currentline);
return;
}
}
lua_pushliteral(L, ""); /* else, no information available... */
}
LUALIB_API int luaL_error (lua_State *L, const char *fmt, ...) {
va_list argp;
va_start(argp, fmt);
luaL_where(L, 1);
lua_pushvfstring(L, fmt, argp);
va_end(argp);
lua_concat(L, 2);
return lua_error(L);
}
LUALIB_API int luaL_fileresult (lua_State *L, int stat, const char *fname) {
int en = errno; /* calls to Lua API may change this value */
if (stat) {
lua_pushboolean(L, 1);
return 1;
}
else {
lua_pushnil(L);
if (fname)
lua_pushfstring(L, "%s: %s", fname, strerror(en));
else
lua_pushstring(L, strerror(en));
lua_pushinteger(L, en);
return 3;
}
}
#if !defined(inspectstat) /* { */
#if defined(LUA_USE_POSIX)
#include <sys/wait.h>
/*
** use appropriate macros to interpret 'pclose' return status
*/
#define inspectstat(stat,what) \
if (WIFEXITED(stat)) { stat = WEXITSTATUS(stat); } \
else if (WIFSIGNALED(stat)) { stat = WTERMSIG(stat); what = "signal"; }
#else
#define inspectstat(stat,what) /* no op */
#endif
#endif /* } */
LUALIB_API int luaL_execresult (lua_State *L, int stat) {
const char *what = "exit"; /* type of termination */
if (stat == -1) /* error? */
return luaL_fileresult(L, 0, NULL);
else {
inspectstat(stat, what); /* interpret result */
if (*what == 'e' && stat == 0) /* successful termination? */
lua_pushboolean(L, 1);
else
lua_pushnil(L);
lua_pushstring(L, what);
lua_pushinteger(L, stat);
return 3; /* return true/nil,what,code */
}
}
/* }====================================================== */
/*
** {======================================================
** Userdata's metatable manipulation
** =======================================================
*/
LUALIB_API int luaL_newmetatable (lua_State *L, const char *tname) {
luaL_getmetatable(L, tname); /* try to get metatable */
if (!lua_isnil(L, -1)) /* name already in use? */
return 0; /* leave previous value on top, but return 0 */
lua_pop(L, 1);
lua_newtable(L); /* create metatable */
lua_pushvalue(L, -1);
lua_setfield(L, LUA_REGISTRYINDEX, tname); /* registry.name = metatable */
return 1;
}
LUALIB_API void luaL_setmetatable (lua_State *L, const char *tname) {
luaL_getmetatable(L, tname);
lua_setmetatable(L, -2);
}
LUALIB_API void *luaL_testudata (lua_State *L, int ud, const char *tname) {
void *p = lua_touserdata(L, ud);
if (p != NULL) { /* value is a userdata? */
if (lua_getmetatable(L, ud)) { /* does it have a metatable? */
luaL_getmetatable(L, tname); /* get correct metatable */
if (!lua_rawequal(L, -1, -2)) /* not the same? */
p = NULL; /* value is a userdata with wrong metatable */
lua_pop(L, 2); /* remove both metatables */
return p;
}
}
return NULL; /* value is not a userdata with a metatable */
}
LUALIB_API void *luaL_checkudata (lua_State *L, int ud, const char *tname) {
void *p = luaL_testudata(L, ud, tname);
if (p == NULL) typeerror(L, ud, tname);
return p;
}
/* }====================================================== */
/*
** {======================================================
** Argument check functions
** =======================================================
*/
LUALIB_API int luaL_checkoption (lua_State *L, int narg, const char *def,
const char *const lst[]) {
const char *name = (def) ? luaL_optstring(L, narg, def) :
luaL_checkstring(L, narg);
int i;
for (i=0; lst[i]; i++)
if (strcmp(lst[i], name) == 0)
return i;
return luaL_argerror(L, narg,
lua_pushfstring(L, "invalid option " LUA_QS, name));
}
LUALIB_API void luaL_checkstack (lua_State *L, int space, const char *msg) {
/* keep some extra space to run error routines, if needed */
const int extra = LUA_MINSTACK;
if (!lua_checkstack(L, space + extra)) {
if (msg)
luaL_error(L, "stack overflow (%s)", msg);
else
luaL_error(L, "stack overflow");
}
}
LUALIB_API void luaL_checktype (lua_State *L, int narg, int t) {
if (lua_type(L, narg) != t)
tag_error(L, narg, t);
}
LUALIB_API void luaL_checkany (lua_State *L, int narg) {
if (lua_type(L, narg) == LUA_TNONE)
luaL_argerror(L, narg, "value expected");
}
LUALIB_API const char *luaL_checklstring (lua_State *L, int narg, size_t *len) {
const char *s = lua_tolstring(L, narg, len);
if (!s) tag_error(L, narg, LUA_TSTRING);
return s;
}
LUALIB_API const char *luaL_optlstring (lua_State *L, int narg,
const char *def, size_t *len) {
if (lua_isnoneornil(L, narg)) {
if (len)
*len = (def ? strlen(def) : 0);
return def;
}
else return luaL_checklstring(L, narg, len);
}
LUALIB_API lua_Number luaL_checknumber (lua_State *L, int narg) {
int isnum;
lua_Number d = lua_tonumberx(L, narg, &isnum);
if (!isnum)
tag_error(L, narg, LUA_TNUMBER);
return d;
}
LUALIB_API lua_Number luaL_optnumber (lua_State *L, int narg, lua_Number def) {
return luaL_opt(L, luaL_checknumber, narg, def);
}
LUALIB_API lua_Integer luaL_checkinteger (lua_State *L, int narg) {
int isnum;
lua_Integer d = lua_tointegerx(L, narg, &isnum);
if (!isnum)
tag_error(L, narg, LUA_TNUMBER);
return d;
}
LUALIB_API lua_Unsigned luaL_checkunsigned (lua_State *L, int narg) {
int isnum;
lua_Unsigned d = lua_tounsignedx(L, narg, &isnum);
if (!isnum)
tag_error(L, narg, LUA_TNUMBER);
return d;
}
LUALIB_API lua_Integer luaL_optinteger (lua_State *L, int narg,
lua_Integer def) {
return luaL_opt(L, luaL_checkinteger, narg, def);
}
LUALIB_API lua_Unsigned luaL_optunsigned (lua_State *L, int narg,
lua_Unsigned def) {
return luaL_opt(L, luaL_checkunsigned, narg, def);
}
/* }====================================================== */
/*
** {======================================================
** Generic Buffer manipulation
** =======================================================
*/
/*
** check whether buffer is using a userdata on the stack as a temporary
** buffer
*/
#define buffonstack(B) ((B)->b != (B)->initb)
/*
** returns a pointer to a free area with at least 'sz' bytes
*/
LUALIB_API char *luaL_prepbuffsize (luaL_Buffer *B, size_t sz) {
lua_State *L = B->L;
if (B->size - B->n < sz) { /* not enough space? */
char *newbuff;
size_t newsize = B->size * 2; /* double buffer size */
if (newsize - B->n < sz) /* not big enough? */
newsize = B->n + sz;
if (newsize < B->n || newsize - B->n < sz)
luaL_error(L, "buffer too large");
/* create larger buffer */
newbuff = (char *)lua_newuserdata(L, newsize * sizeof(char));
/* move content to new buffer */
memcpy(newbuff, B->b, B->n * sizeof(char));
if (buffonstack(B))
lua_remove(L, -2); /* remove old buffer */
B->b = newbuff;
B->size = newsize;
}
return &B->b[B->n];
}
LUALIB_API void luaL_addlstring (luaL_Buffer *B, const char *s, size_t l) {
char *b = luaL_prepbuffsize(B, l);
memcpy(b, s, l * sizeof(char));
luaL_addsize(B, l);
}
LUALIB_API void luaL_addstring (luaL_Buffer *B, const char *s) {
luaL_addlstring(B, s, strlen(s));
}
LUALIB_API void luaL_pushresult (luaL_Buffer *B) {
lua_State *L = B->L;
lua_pushlstring(L, B->b, B->n);
if (buffonstack(B))
lua_remove(L, -2); /* remove old buffer */
}
LUALIB_API void luaL_pushresultsize (luaL_Buffer *B, size_t sz) {
luaL_addsize(B, sz);
luaL_pushresult(B);
}
LUALIB_API void luaL_addvalue (luaL_Buffer *B) {
lua_State *L = B->L;
size_t l;
const char *s = lua_tolstring(L, -1, &l);
if (buffonstack(B))
lua_insert(L, -2); /* put value below buffer */
luaL_addlstring(B, s, l);
lua_remove(L, (buffonstack(B)) ? -2 : -1); /* remove value */
}
LUALIB_API void luaL_buffinit (lua_State *L, luaL_Buffer *B) {
B->L = L;
B->b = B->initb;
B->n = 0;
B->size = LUAL_BUFFERSIZE;
}
LUALIB_API char *luaL_buffinitsize (lua_State *L, luaL_Buffer *B, size_t sz) {
luaL_buffinit(L, B);
return luaL_prepbuffsize(B, sz);
}
/* }====================================================== */
/*
** {======================================================
** Reference system
** =======================================================
*/
/* index of free-list header */
#define freelist 0
LUALIB_API int luaL_ref (lua_State *L, int t) {
int ref;
if (lua_isnil(L, -1)) {
lua_pop(L, 1); /* remove from stack */
return LUA_REFNIL; /* `nil' has a unique fixed reference */
}
t = lua_absindex(L, t);
lua_rawgeti(L, t, freelist); /* get first free element */
ref = (int)lua_tointeger(L, -1); /* ref = t[freelist] */
lua_pop(L, 1); /* remove it from stack */
if (ref != 0) { /* any free element? */
lua_rawgeti(L, t, ref); /* remove it from list */
lua_rawseti(L, t, freelist); /* (t[freelist] = t[ref]) */
}
else /* no free elements */
ref = (int)lua_rawlen(L, t) + 1; /* get a new reference */
lua_rawseti(L, t, ref);
return ref;
}
LUALIB_API void luaL_unref (lua_State *L, int t, int ref) {
if (ref >= 0) {
t = lua_absindex(L, t);
lua_rawgeti(L, t, freelist);
lua_rawseti(L, t, ref); /* t[ref] = t[freelist] */
lua_pushinteger(L, ref);
lua_rawseti(L, t, freelist); /* t[freelist] = ref */
}
}
/* }====================================================== */
/*
** {======================================================
** Load functions
** =======================================================
*/
typedef struct LoadF {
int n; /* number of pre-read characters */
FILE *f; /* file being read */
char buff[LUAL_BUFFERSIZE]; /* area for reading file */
} LoadF;
static const char *getF (lua_State *L, void *ud, size_t *size) {
LoadF *lf = (LoadF *)ud;
(void)L; /* not used */
if (lf->n > 0) { /* are there pre-read characters to be read? */
*size = lf->n; /* return them (chars already in buffer) */
lf->n = 0; /* no more pre-read characters */
}
else { /* read a block from file */
/* 'fread' can return > 0 *and* set the EOF flag. If next call to
'getF' called 'fread', it might still wait for user input.
The next check avoids this problem. */
if (feof(lf->f)) return NULL;
*size = fread(lf->buff, 1, sizeof(lf->buff), lf->f); /* read block */
}
return lf->buff;
}
static int errfile (lua_State *L, const char *what, int fnameindex) {
const char *serr = strerror(errno);
const char *filename = lua_tostring(L, fnameindex) + 1;
lua_pushfstring(L, "cannot %s %s: %s", what, filename, serr);
lua_remove(L, fnameindex);
return LUA_ERRFILE;
}
static int skipBOM (LoadF *lf) {
const char *p = "\xEF\xBB\xBF"; /* Utf8 BOM mark */
int c;
lf->n = 0;
do {
c = getc(lf->f);
if (c == EOF || c != *(const unsigned char *)p++) return c;
lf->buff[lf->n++] = c; /* to be read by the parser */
} while (*p != '\0');
lf->n = 0; /* prefix matched; discard it */
return getc(lf->f); /* return next character */
}
/*
** reads the first character of file 'f' and skips an optional BOM mark
** in its beginning plus its first line if it starts with '#'. Returns
** true if it skipped the first line. In any case, '*cp' has the
** first "valid" character of the file (after the optional BOM and
** a first-line comment).
*/
static int skipcomment (LoadF *lf, int *cp) {
int c = *cp = skipBOM(lf);
if (c == '#') { /* first line is a comment (Unix exec. file)? */
do { /* skip first line */
c = getc(lf->f);
} while (c != EOF && c != '\n') ;
*cp = getc(lf->f); /* skip end-of-line, if present */
return 1; /* there was a comment */
}
else return 0; /* no comment */
}
LUALIB_API int luaL_loadfilex (lua_State *L, const char *filename,
const char *mode) {
LoadF lf;
int status, readstatus;
int c;
int fnameindex = lua_gettop(L) + 1; /* index of filename on the stack */
if (filename == NULL) {
lua_pushliteral(L, "=stdin");
lf.f = stdin;
}
else {
lua_pushfstring(L, "@%s", filename);
lf.f = fopen(filename, "r");
if (lf.f == NULL) return errfile(L, "open", fnameindex);
}
if (skipcomment(&lf, &c)) /* read initial portion */
lf.buff[lf.n++] = '\n'; /* add line to correct line numbers */
if (c == LUA_SIGNATURE[0] && filename) { /* binary file? */
lf.f = freopen(filename, "rb", lf.f); /* reopen in binary mode */
if (lf.f == NULL) return errfile(L, "reopen", fnameindex);
skipcomment(&lf, &c); /* re-read initial portion */
}
if (c != EOF)
lf.buff[lf.n++] = c; /* 'c' is the first character of the stream */
status = lua_load(L, getF, &lf, lua_tostring(L, -1), mode);
readstatus = ferror(lf.f);
if (filename) fclose(lf.f); /* close file (even in case of errors) */
if (readstatus) {
lua_settop(L, fnameindex); /* ignore results from `lua_load' */
return errfile(L, "read", fnameindex);
}
lua_remove(L, fnameindex);
return status;
}
typedef struct LoadS {
const char *s;
size_t size;
} LoadS;
static const char *getS (lua_State *L, void *ud, size_t *size) {
LoadS *ls = (LoadS *)ud;
(void)L; /* not used */
if (ls->size == 0) return NULL;
*size = ls->size;
ls->size = 0;
return ls->s;
}
LUALIB_API int luaL_loadbufferx (lua_State *L, const char *buff, size_t size,
const char *name, const char *mode) {
LoadS ls;
ls.s = buff;
ls.size = size;
return lua_load(L, getS, &ls, name, mode);
}
LUALIB_API int luaL_loadstring (lua_State *L, const char *s) {
return luaL_loadbuffer(L, s, strlen(s), s);
}
/* }====================================================== */
LUALIB_API int luaL_getmetafield (lua_State *L, int obj, const char *event) {
if (!lua_getmetatable(L, obj)) /* no metatable? */
return 0;
lua_pushstring(L, event);
lua_rawget(L, -2);
if (lua_isnil(L, -1)) {
lua_pop(L, 2); /* remove metatable and metafield */
return 0;
}
else {
lua_remove(L, -2); /* remove only metatable */
return 1;
}
}
LUALIB_API int luaL_callmeta (lua_State *L, int obj, const char *event) {
obj = lua_absindex(L, obj);
if (!luaL_getmetafield(L, obj, event)) /* no metafield? */
return 0;
lua_pushvalue(L, obj);
lua_call(L, 1, 1);
return 1;
}
LUALIB_API int luaL_len (lua_State *L, int idx) {
int l;
int isnum;
lua_len(L, idx);
l = (int)lua_tointegerx(L, -1, &isnum);
if (!isnum)
luaL_error(L, "object length is not a number");
lua_pop(L, 1); /* remove object */
return l;
}
LUALIB_API const char *luaL_tolstring (lua_State *L, int idx, size_t *len) {
if (!luaL_callmeta(L, idx, "__tostring")) { /* no metafield? */
switch (lua_type(L, idx)) {
case LUA_TNUMBER:
case LUA_TSTRING:
lua_pushvalue(L, idx);
break;
case LUA_TBOOLEAN:
lua_pushstring(L, (lua_toboolean(L, idx) ? "true" : "false"));
break;
case LUA_TNIL:
lua_pushliteral(L, "nil");
break;
default:
lua_pushfstring(L, "%s: %p", luaL_typename(L, idx),
lua_topointer(L, idx));
break;
}
}
return lua_tolstring(L, -1, len);
}
/*
** {======================================================
** Compatibility with 5.1 module functions
** =======================================================
*/
#if defined(LUA_COMPAT_MODULE)
static const char *luaL_findtable (lua_State *L, int idx,
const char *fname, int szhint) {
const char *e;
if (idx) lua_pushvalue(L, idx);
do {
e = strchr(fname, '.');
if (e == NULL) e = fname + strlen(fname);
lua_pushlstring(L, fname, e - fname);
lua_rawget(L, -2);
if (lua_isnil(L, -1)) { /* no such field? */
lua_pop(L, 1); /* remove this nil */
lua_createtable(L, 0, (*e == '.' ? 1 : szhint)); /* new table for field */
lua_pushlstring(L, fname, e - fname);
lua_pushvalue(L, -2);
lua_settable(L, -4); /* set new table into field */
}
else if (!lua_istable(L, -1)) { /* field has a non-table value? */
lua_pop(L, 2); /* remove table and value */
return fname; /* return problematic part of the name */
}
lua_remove(L, -2); /* remove previous table */
fname = e + 1;
} while (*e == '.');
return NULL;
}
/*
** Count number of elements in a luaL_Reg list.
*/
static int libsize (const luaL_Reg *l) {
int size = 0;
for (; l && l->name; l++) size++;
return size;
}
/*
** Find or create a module table with a given name. The function
** first looks at the _LOADED table and, if that fails, try a
** global variable with that name. In any case, leaves on the stack
** the module table.
*/
LUALIB_API void luaL_pushmodule (lua_State *L, const char *modname,
int sizehint) {
luaL_findtable(L, LUA_REGISTRYINDEX, "_LOADED", 1); /* get _LOADED table */
lua_getfield(L, -1, modname); /* get _LOADED[modname] */
if (!lua_istable(L, -1)) { /* not found? */
lua_pop(L, 1); /* remove previous result */
/* try global variable (and create one if it does not exist) */
lua_pushglobaltable(L);
if (luaL_findtable(L, 0, modname, sizehint) != NULL)
luaL_error(L, "name conflict for module " LUA_QS, modname);
lua_pushvalue(L, -1);
lua_setfield(L, -3, modname); /* _LOADED[modname] = new table */
}
lua_remove(L, -2); /* remove _LOADED table */
}
LUALIB_API void luaL_openlib (lua_State *L, const char *libname,
const luaL_Reg *l, int nup) {
luaL_checkversion(L);
if (libname) {
luaL_pushmodule(L, libname, libsize(l)); /* get/create library table */
lua_insert(L, -(nup + 1)); /* move library table to below upvalues */
}
if (l)
luaL_setfuncs(L, l, nup);
else
lua_pop(L, nup); /* remove upvalues */
}
#endif
/* }====================================================== */
/*
** set functions from list 'l' into table at top - 'nup'; each
** function gets the 'nup' elements at the top as upvalues.
** Returns with only the table at the stack.
*/
LUALIB_API void luaL_setfuncs (lua_State *L, const luaL_Reg *l, int nup) {
luaL_checkversion(L);
luaL_checkstack(L, nup, "too many upvalues");
for (; l->name != NULL; l++) { /* fill the table with given functions */
int i;
for (i = 0; i < nup; i++) /* copy upvalues to the top */
lua_pushvalue(L, -nup);
lua_pushcclosure(L, l->func, nup); /* closure with those upvalues */
lua_setfield(L, -(nup + 2), l->name);
}
lua_pop(L, nup); /* remove upvalues */
}
/*
** ensure that stack[idx][fname] has a table and push that table
** into the stack
*/
LUALIB_API int luaL_getsubtable (lua_State *L, int idx, const char *fname) {
lua_getfield(L, idx, fname);
if (lua_istable(L, -1)) return 1; /* table already there */
else {
lua_pop(L, 1); /* remove previous result */
idx = lua_absindex(L, idx);
lua_newtable(L);
lua_pushvalue(L, -1); /* copy to be left at top */
lua_setfield(L, idx, fname); /* assign new table to field */
return 0; /* false, because did not find table there */
}
}
/*
** stripped-down 'require'. Calls 'openf' to open a module,
** registers the result in 'package.loaded' table and, if 'glb'
** is true, also registers the result in the global table.
** Leaves resulting module on the top.
*/
LUALIB_API void luaL_requiref (lua_State *L, const char *modname,
lua_CFunction openf, int glb) {
lua_pushcfunction(L, openf);
lua_pushstring(L, modname); /* argument to open function */
lua_call(L, 1, 1); /* open module */
luaL_getsubtable(L, LUA_REGISTRYINDEX, "_LOADED");
lua_pushvalue(L, -2); /* make copy of module (call result) */
lua_setfield(L, -2, modname); /* _LOADED[modname] = module */
lua_pop(L, 1); /* remove _LOADED table */
if (glb) {
lua_pushvalue(L, -1); /* copy of 'mod' */
lua_setglobal(L, modname); /* _G[modname] = module */
}
}
LUALIB_API const char *luaL_gsub (lua_State *L, const char *s, const char *p,
const char *r) {
const char *wild;
size_t l = strlen(p);
luaL_Buffer b;
luaL_buffinit(L, &b);
while ((wild = strstr(s, p)) != NULL) {
luaL_addlstring(&b, s, wild - s); /* push prefix */
luaL_addstring(&b, r); /* push replacement in place of pattern */
s = wild + l; /* continue after `p' */
}
luaL_addstring(&b, s); /* push last suffix */
luaL_pushresult(&b);
return lua_tostring(L, -1);
}
static void *l_alloc (void *ud, void *ptr, size_t osize, size_t nsize) {
(void)ud; (void)osize; /* not used */
if (nsize == 0) {
free(ptr);
return NULL;
}
else
return realloc(ptr, nsize);
}
static int panic (lua_State *L) {
luai_writestringerror("PANIC: unprotected error in call to Lua API (%s)\n",
lua_tostring(L, -1));
return 0; /* return to Lua to abort */
}
LUALIB_API lua_State *luaL_newstate (void) {
lua_State *L = lua_newstate(l_alloc, NULL);
if (L) lua_atpanic(L, &panic);
return L;
}
LUALIB_API void luaL_checkversion_ (lua_State *L, lua_Number ver) {
const lua_Number *v = lua_version(L);
if (v != lua_version(NULL))
luaL_error(L, "multiple Lua VMs detected");
else if (*v != ver)
luaL_error(L, "version mismatch: app. needs %f, Lua core provides %f",
ver, *v);
/* check conversions number -> integer types */
lua_pushnumber(L, -(lua_Number)0x1234);
if (lua_tointeger(L, -1) != -0x1234 ||
lua_tounsigned(L, -1) != (lua_Unsigned)-0x1234)
luaL_error(L, "bad conversion number->int;"
" must recompile Lua with proper settings");
lua_pop(L, 1);
}

458
ext/lua/src/lbaselib.c Normal file
View File

@@ -0,0 +1,458 @@
/*
** $Id: lbaselib.c,v 1.276.1.1 2013/04/12 18:48:47 roberto Exp $
** Basic library
** See Copyright Notice in lua.h
*/
#include <ctype.h>
#include <stdio.h>
#include <stdlib.h>
#include <string.h>
#define lbaselib_c
#define LUA_LIB
#include "lua.h"
#include "lauxlib.h"
#include "lualib.h"
static int luaB_print (lua_State *L) {
int n = lua_gettop(L); /* number of arguments */
int i;
lua_getglobal(L, "tostring");
for (i=1; i<=n; i++) {
const char *s;
size_t l;
lua_pushvalue(L, -1); /* function to be called */
lua_pushvalue(L, i); /* value to print */
lua_call(L, 1, 1);
s = lua_tolstring(L, -1, &l); /* get result */
if (s == NULL)
return luaL_error(L,
LUA_QL("tostring") " must return a string to " LUA_QL("print"));
if (i>1) luai_writestring("\t", 1);
luai_writestring(s, l);
lua_pop(L, 1); /* pop result */
}
luai_writeline();
return 0;
}
#define SPACECHARS " \f\n\r\t\v"
static int luaB_tonumber (lua_State *L) {
if (lua_isnoneornil(L, 2)) { /* standard conversion */
int isnum;
lua_Number n = lua_tonumberx(L, 1, &isnum);
if (isnum) {
lua_pushnumber(L, n);
return 1;
} /* else not a number; must be something */
luaL_checkany(L, 1);
}
else {
size_t l;
const char *s = luaL_checklstring(L, 1, &l);
const char *e = s + l; /* end point for 's' */
int base = luaL_checkint(L, 2);
int neg = 0;
luaL_argcheck(L, 2 <= base && base <= 36, 2, "base out of range");
s += strspn(s, SPACECHARS); /* skip initial spaces */
if (*s == '-') { s++; neg = 1; } /* handle signal */
else if (*s == '+') s++;
if (isalnum((unsigned char)*s)) {
lua_Number n = 0;
do {
int digit = (isdigit((unsigned char)*s)) ? *s - '0'
: toupper((unsigned char)*s) - 'A' + 10;
if (digit >= base) break; /* invalid numeral; force a fail */
n = n * (lua_Number)base + (lua_Number)digit;
s++;
} while (isalnum((unsigned char)*s));
s += strspn(s, SPACECHARS); /* skip trailing spaces */
if (s == e) { /* no invalid trailing characters? */
lua_pushnumber(L, (neg) ? -n : n);
return 1;
} /* else not a number */
} /* else not a number */
}
lua_pushnil(L); /* not a number */
return 1;
}
static int luaB_error (lua_State *L) {
int level = luaL_optint(L, 2, 1);
lua_settop(L, 1);
if (lua_isstring(L, 1) && level > 0) { /* add extra information? */
luaL_where(L, level);
lua_pushvalue(L, 1);
lua_concat(L, 2);
}
return lua_error(L);
}
static int luaB_getmetatable (lua_State *L) {
luaL_checkany(L, 1);
if (!lua_getmetatable(L, 1)) {
lua_pushnil(L);
return 1; /* no metatable */
}
luaL_getmetafield(L, 1, "__metatable");
return 1; /* returns either __metatable field (if present) or metatable */
}
static int luaB_setmetatable (lua_State *L) {
int t = lua_type(L, 2);
luaL_checktype(L, 1, LUA_TTABLE);
luaL_argcheck(L, t == LUA_TNIL || t == LUA_TTABLE, 2,
"nil or table expected");
if (luaL_getmetafield(L, 1, "__metatable"))
return luaL_error(L, "cannot change a protected metatable");
lua_settop(L, 2);
lua_setmetatable(L, 1);
return 1;
}
static int luaB_rawequal (lua_State *L) {
luaL_checkany(L, 1);
luaL_checkany(L, 2);
lua_pushboolean(L, lua_rawequal(L, 1, 2));
return 1;
}
static int luaB_rawlen (lua_State *L) {
int t = lua_type(L, 1);
luaL_argcheck(L, t == LUA_TTABLE || t == LUA_TSTRING, 1,
"table or string expected");
lua_pushinteger(L, lua_rawlen(L, 1));
return 1;
}
static int luaB_rawget (lua_State *L) {
luaL_checktype(L, 1, LUA_TTABLE);
luaL_checkany(L, 2);
lua_settop(L, 2);
lua_rawget(L, 1);
return 1;
}
static int luaB_rawset (lua_State *L) {
luaL_checktype(L, 1, LUA_TTABLE);
luaL_checkany(L, 2);
luaL_checkany(L, 3);
lua_settop(L, 3);
lua_rawset(L, 1);
return 1;
}
static int luaB_collectgarbage (lua_State *L) {
static const char *const opts[] = {"stop", "restart", "collect",
"count", "step", "setpause", "setstepmul",
"setmajorinc", "isrunning", "generational", "incremental", NULL};
static const int optsnum[] = {LUA_GCSTOP, LUA_GCRESTART, LUA_GCCOLLECT,
LUA_GCCOUNT, LUA_GCSTEP, LUA_GCSETPAUSE, LUA_GCSETSTEPMUL,
LUA_GCSETMAJORINC, LUA_GCISRUNNING, LUA_GCGEN, LUA_GCINC};
int o = optsnum[luaL_checkoption(L, 1, "collect", opts)];
int ex = luaL_optint(L, 2, 0);
int res = lua_gc(L, o, ex);
switch (o) {
case LUA_GCCOUNT: {
int b = lua_gc(L, LUA_GCCOUNTB, 0);
lua_pushnumber(L, res + ((lua_Number)b/1024));
lua_pushinteger(L, b);
return 2;
}
case LUA_GCSTEP: case LUA_GCISRUNNING: {
lua_pushboolean(L, res);
return 1;
}
default: {
lua_pushinteger(L, res);
return 1;
}
}
}
static int luaB_type (lua_State *L) {
luaL_checkany(L, 1);
lua_pushstring(L, luaL_typename(L, 1));
return 1;
}
static int pairsmeta (lua_State *L, const char *method, int iszero,
lua_CFunction iter) {
if (!luaL_getmetafield(L, 1, method)) { /* no metamethod? */
luaL_checktype(L, 1, LUA_TTABLE); /* argument must be a table */
lua_pushcfunction(L, iter); /* will return generator, */
lua_pushvalue(L, 1); /* state, */
if (iszero) lua_pushinteger(L, 0); /* and initial value */
else lua_pushnil(L);
}
else {
lua_pushvalue(L, 1); /* argument 'self' to metamethod */
lua_call(L, 1, 3); /* get 3 values from metamethod */
}
return 3;
}
static int luaB_next (lua_State *L) {
luaL_checktype(L, 1, LUA_TTABLE);
lua_settop(L, 2); /* create a 2nd argument if there isn't one */
if (lua_next(L, 1))
return 2;
else {
lua_pushnil(L);
return 1;
}
}
static int luaB_pairs (lua_State *L) {
return pairsmeta(L, "__pairs", 0, luaB_next);
}
static int ipairsaux (lua_State *L) {
int i = luaL_checkint(L, 2);
luaL_checktype(L, 1, LUA_TTABLE);
i++; /* next value */
lua_pushinteger(L, i);
lua_rawgeti(L, 1, i);
return (lua_isnil(L, -1)) ? 1 : 2;
}
static int luaB_ipairs (lua_State *L) {
return pairsmeta(L, "__ipairs", 1, ipairsaux);
}
static int load_aux (lua_State *L, int status, int envidx) {
if (status == LUA_OK) {
if (envidx != 0) { /* 'env' parameter? */
lua_pushvalue(L, envidx); /* environment for loaded function */
if (!lua_setupvalue(L, -2, 1)) /* set it as 1st upvalue */
lua_pop(L, 1); /* remove 'env' if not used by previous call */
}
return 1;
}
else { /* error (message is on top of the stack) */
lua_pushnil(L);
lua_insert(L, -2); /* put before error message */
return 2; /* return nil plus error message */
}
}
static int luaB_loadfile (lua_State *L) {
const char *fname = luaL_optstring(L, 1, NULL);
const char *mode = luaL_optstring(L, 2, NULL);
int env = (!lua_isnone(L, 3) ? 3 : 0); /* 'env' index or 0 if no 'env' */
int status = luaL_loadfilex(L, fname, mode);
return load_aux(L, status, env);
}
/*
** {======================================================
** Generic Read function
** =======================================================
*/
/*
** reserved slot, above all arguments, to hold a copy of the returned
** string to avoid it being collected while parsed. 'load' has four
** optional arguments (chunk, source name, mode, and environment).
*/
#define RESERVEDSLOT 5
/*
** Reader for generic `load' function: `lua_load' uses the
** stack for internal stuff, so the reader cannot change the
** stack top. Instead, it keeps its resulting string in a
** reserved slot inside the stack.
*/
static const char *generic_reader (lua_State *L, void *ud, size_t *size) {
(void)(ud); /* not used */
luaL_checkstack(L, 2, "too many nested functions");
lua_pushvalue(L, 1); /* get function */
lua_call(L, 0, 1); /* call it */
if (lua_isnil(L, -1)) {
lua_pop(L, 1); /* pop result */
*size = 0;
return NULL;
}
else if (!lua_isstring(L, -1))
luaL_error(L, "reader function must return a string");
lua_replace(L, RESERVEDSLOT); /* save string in reserved slot */
return lua_tolstring(L, RESERVEDSLOT, size);
}
static int luaB_load (lua_State *L) {
int status;
size_t l;
const char *s = lua_tolstring(L, 1, &l);
const char *mode = luaL_optstring(L, 3, "bt");
int env = (!lua_isnone(L, 4) ? 4 : 0); /* 'env' index or 0 if no 'env' */
if (s != NULL) { /* loading a string? */
const char *chunkname = luaL_optstring(L, 2, s);
status = luaL_loadbufferx(L, s, l, chunkname, mode);
}
else { /* loading from a reader function */
const char *chunkname = luaL_optstring(L, 2, "=(load)");
luaL_checktype(L, 1, LUA_TFUNCTION);
lua_settop(L, RESERVEDSLOT); /* create reserved slot */
status = lua_load(L, generic_reader, NULL, chunkname, mode);
}
return load_aux(L, status, env);
}
/* }====================================================== */
static int dofilecont (lua_State *L) {
return lua_gettop(L) - 1;
}
static int luaB_dofile (lua_State *L) {
const char *fname = luaL_optstring(L, 1, NULL);
lua_settop(L, 1);
if (luaL_loadfile(L, fname) != LUA_OK)
return lua_error(L);
lua_callk(L, 0, LUA_MULTRET, 0, dofilecont);
return dofilecont(L);
}
static int luaB_assert (lua_State *L) {
if (!lua_toboolean(L, 1))
return luaL_error(L, "%s", luaL_optstring(L, 2, "assertion failed!"));
return lua_gettop(L);
}
static int luaB_select (lua_State *L) {
int n = lua_gettop(L);
if (lua_type(L, 1) == LUA_TSTRING && *lua_tostring(L, 1) == '#') {
lua_pushinteger(L, n-1);
return 1;
}
else {
int i = luaL_checkint(L, 1);
if (i < 0) i = n + i;
else if (i > n) i = n;
luaL_argcheck(L, 1 <= i, 1, "index out of range");
return n - i;
}
}
static int finishpcall (lua_State *L, int status) {
if (!lua_checkstack(L, 1)) { /* no space for extra boolean? */
lua_settop(L, 0); /* create space for return values */
lua_pushboolean(L, 0);
lua_pushstring(L, "stack overflow");
return 2; /* return false, msg */
}
lua_pushboolean(L, status); /* first result (status) */
lua_replace(L, 1); /* put first result in first slot */
return lua_gettop(L);
}
static int pcallcont (lua_State *L) {
int status = lua_getctx(L, NULL);
return finishpcall(L, (status == LUA_YIELD));
}
static int luaB_pcall (lua_State *L) {
int status;
luaL_checkany(L, 1);
lua_pushnil(L);
lua_insert(L, 1); /* create space for status result */
status = lua_pcallk(L, lua_gettop(L) - 2, LUA_MULTRET, 0, 0, pcallcont);
return finishpcall(L, (status == LUA_OK));
}
static int luaB_xpcall (lua_State *L) {
int status;
int n = lua_gettop(L);
luaL_argcheck(L, n >= 2, 2, "value expected");
lua_pushvalue(L, 1); /* exchange function... */
lua_copy(L, 2, 1); /* ...and error handler */
lua_replace(L, 2);
status = lua_pcallk(L, n - 2, LUA_MULTRET, 1, 0, pcallcont);
return finishpcall(L, (status == LUA_OK));
}
static int luaB_tostring (lua_State *L) {
luaL_checkany(L, 1);
luaL_tolstring(L, 1, NULL);
return 1;
}
static const luaL_Reg base_funcs[] = {
{"assert", luaB_assert},
{"collectgarbage", luaB_collectgarbage},
{"dofile", luaB_dofile},
{"error", luaB_error},
{"getmetatable", luaB_getmetatable},
{"ipairs", luaB_ipairs},
{"loadfile", luaB_loadfile},
{"load", luaB_load},
#if defined(LUA_COMPAT_LOADSTRING)
{"loadstring", luaB_load},
#endif
{"next", luaB_next},
{"pairs", luaB_pairs},
{"pcall", luaB_pcall},
{"print", luaB_print},
{"rawequal", luaB_rawequal},
{"rawlen", luaB_rawlen},
{"rawget", luaB_rawget},
{"rawset", luaB_rawset},
{"select", luaB_select},
{"setmetatable", luaB_setmetatable},
{"tonumber", luaB_tonumber},
{"tostring", luaB_tostring},
{"type", luaB_type},
{"xpcall", luaB_xpcall},
{NULL, NULL}
};
LUAMOD_API int luaopen_base (lua_State *L) {
/* set global _G */
lua_pushglobaltable(L);
lua_pushglobaltable(L);
lua_setfield(L, -2, "_G");
/* open lib into global table */
luaL_setfuncs(L, base_funcs, 0);
lua_pushliteral(L, LUA_VERSION);
lua_setfield(L, -2, "_VERSION"); /* set global _VERSION */
return 1;
}

212
ext/lua/src/lbitlib.c Normal file
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/*
** $Id: lbitlib.c,v 1.18.1.2 2013/07/09 18:01:41 roberto Exp $
** Standard library for bitwise operations
** See Copyright Notice in lua.h
*/
#define lbitlib_c
#define LUA_LIB
#include "lua.h"
#include "lauxlib.h"
#include "lualib.h"
/* number of bits to consider in a number */
#if !defined(LUA_NBITS)
#define LUA_NBITS 32
#endif
#define ALLONES (~(((~(lua_Unsigned)0) << (LUA_NBITS - 1)) << 1))
/* macro to trim extra bits */
#define trim(x) ((x) & ALLONES)
/* builds a number with 'n' ones (1 <= n <= LUA_NBITS) */
#define mask(n) (~((ALLONES << 1) << ((n) - 1)))
typedef lua_Unsigned b_uint;
static b_uint andaux (lua_State *L) {
int i, n = lua_gettop(L);
b_uint r = ~(b_uint)0;
for (i = 1; i <= n; i++)
r &= luaL_checkunsigned(L, i);
return trim(r);
}
static int b_and (lua_State *L) {
b_uint r = andaux(L);
lua_pushunsigned(L, r);
return 1;
}
static int b_test (lua_State *L) {
b_uint r = andaux(L);
lua_pushboolean(L, r != 0);
return 1;
}
static int b_or (lua_State *L) {
int i, n = lua_gettop(L);
b_uint r = 0;
for (i = 1; i <= n; i++)
r |= luaL_checkunsigned(L, i);
lua_pushunsigned(L, trim(r));
return 1;
}
static int b_xor (lua_State *L) {
int i, n = lua_gettop(L);
b_uint r = 0;
for (i = 1; i <= n; i++)
r ^= luaL_checkunsigned(L, i);
lua_pushunsigned(L, trim(r));
return 1;
}
static int b_not (lua_State *L) {
b_uint r = ~luaL_checkunsigned(L, 1);
lua_pushunsigned(L, trim(r));
return 1;
}
static int b_shift (lua_State *L, b_uint r, int i) {
if (i < 0) { /* shift right? */
i = -i;
r = trim(r);
if (i >= LUA_NBITS) r = 0;
else r >>= i;
}
else { /* shift left */
if (i >= LUA_NBITS) r = 0;
else r <<= i;
r = trim(r);
}
lua_pushunsigned(L, r);
return 1;
}
static int b_lshift (lua_State *L) {
return b_shift(L, luaL_checkunsigned(L, 1), luaL_checkint(L, 2));
}
static int b_rshift (lua_State *L) {
return b_shift(L, luaL_checkunsigned(L, 1), -luaL_checkint(L, 2));
}
static int b_arshift (lua_State *L) {
b_uint r = luaL_checkunsigned(L, 1);
int i = luaL_checkint(L, 2);
if (i < 0 || !(r & ((b_uint)1 << (LUA_NBITS - 1))))
return b_shift(L, r, -i);
else { /* arithmetic shift for 'negative' number */
if (i >= LUA_NBITS) r = ALLONES;
else
r = trim((r >> i) | ~(~(b_uint)0 >> i)); /* add signal bit */
lua_pushunsigned(L, r);
return 1;
}
}
static int b_rot (lua_State *L, int i) {
b_uint r = luaL_checkunsigned(L, 1);
i &= (LUA_NBITS - 1); /* i = i % NBITS */
r = trim(r);
if (i != 0) /* avoid undefined shift of LUA_NBITS when i == 0 */
r = (r << i) | (r >> (LUA_NBITS - i));
lua_pushunsigned(L, trim(r));
return 1;
}
static int b_lrot (lua_State *L) {
return b_rot(L, luaL_checkint(L, 2));
}
static int b_rrot (lua_State *L) {
return b_rot(L, -luaL_checkint(L, 2));
}
/*
** get field and width arguments for field-manipulation functions,
** checking whether they are valid.
** ('luaL_error' called without 'return' to avoid later warnings about
** 'width' being used uninitialized.)
*/
static int fieldargs (lua_State *L, int farg, int *width) {
int f = luaL_checkint(L, farg);
int w = luaL_optint(L, farg + 1, 1);
luaL_argcheck(L, 0 <= f, farg, "field cannot be negative");
luaL_argcheck(L, 0 < w, farg + 1, "width must be positive");
if (f + w > LUA_NBITS)
luaL_error(L, "trying to access non-existent bits");
*width = w;
return f;
}
static int b_extract (lua_State *L) {
int w;
b_uint r = luaL_checkunsigned(L, 1);
int f = fieldargs(L, 2, &w);
r = (r >> f) & mask(w);
lua_pushunsigned(L, r);
return 1;
}
static int b_replace (lua_State *L) {
int w;
b_uint r = luaL_checkunsigned(L, 1);
b_uint v = luaL_checkunsigned(L, 2);
int f = fieldargs(L, 3, &w);
int m = mask(w);
v &= m; /* erase bits outside given width */
r = (r & ~(m << f)) | (v << f);
lua_pushunsigned(L, r);
return 1;
}
static const luaL_Reg bitlib[] = {
{"arshift", b_arshift},
{"band", b_and},
{"bnot", b_not},
{"bor", b_or},
{"bxor", b_xor},
{"btest", b_test},
{"extract", b_extract},
{"lrotate", b_lrot},
{"lshift", b_lshift},
{"replace", b_replace},
{"rrotate", b_rrot},
{"rshift", b_rshift},
{NULL, NULL}
};
LUAMOD_API int luaopen_bit32 (lua_State *L) {
luaL_newlib(L, bitlib);
return 1;
}

881
ext/lua/src/lcode.c Normal file
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/*
** $Id: lcode.c,v 2.62.1.1 2013/04/12 18:48:47 roberto Exp $
** Code generator for Lua
** See Copyright Notice in lua.h
*/
#include <stdlib.h>
#define lcode_c
#define LUA_CORE
#include "lua.h"
#include "lcode.h"
#include "ldebug.h"
#include "ldo.h"
#include "lgc.h"
#include "llex.h"
#include "lmem.h"
#include "lobject.h"
#include "lopcodes.h"
#include "lparser.h"
#include "lstring.h"
#include "ltable.h"
#include "lvm.h"
#define hasjumps(e) ((e)->t != (e)->f)
static int isnumeral(expdesc *e) {
return (e->k == VKNUM && e->t == NO_JUMP && e->f == NO_JUMP);
}
void luaK_nil (FuncState *fs, int from, int n) {
Instruction *previous;
int l = from + n - 1; /* last register to set nil */
if (fs->pc > fs->lasttarget) { /* no jumps to current position? */
previous = &fs->f->code[fs->pc-1];
if (GET_OPCODE(*previous) == OP_LOADNIL) {
int pfrom = GETARG_A(*previous);
int pl = pfrom + GETARG_B(*previous);
if ((pfrom <= from && from <= pl + 1) ||
(from <= pfrom && pfrom <= l + 1)) { /* can connect both? */
if (pfrom < from) from = pfrom; /* from = min(from, pfrom) */
if (pl > l) l = pl; /* l = max(l, pl) */
SETARG_A(*previous, from);
SETARG_B(*previous, l - from);
return;
}
} /* else go through */
}
luaK_codeABC(fs, OP_LOADNIL, from, n - 1, 0); /* else no optimization */
}
int luaK_jump (FuncState *fs) {
int jpc = fs->jpc; /* save list of jumps to here */
int j;
fs->jpc = NO_JUMP;
j = luaK_codeAsBx(fs, OP_JMP, 0, NO_JUMP);
luaK_concat(fs, &j, jpc); /* keep them on hold */
return j;
}
void luaK_ret (FuncState *fs, int first, int nret) {
luaK_codeABC(fs, OP_RETURN, first, nret+1, 0);
}
static int condjump (FuncState *fs, OpCode op, int A, int B, int C) {
luaK_codeABC(fs, op, A, B, C);
return luaK_jump(fs);
}
static void fixjump (FuncState *fs, int pc, int dest) {
Instruction *jmp = &fs->f->code[pc];
int offset = dest-(pc+1);
lua_assert(dest != NO_JUMP);
if (abs(offset) > MAXARG_sBx)
luaX_syntaxerror(fs->ls, "control structure too long");
SETARG_sBx(*jmp, offset);
}
/*
** returns current `pc' and marks it as a jump target (to avoid wrong
** optimizations with consecutive instructions not in the same basic block).
*/
int luaK_getlabel (FuncState *fs) {
fs->lasttarget = fs->pc;
return fs->pc;
}
static int getjump (FuncState *fs, int pc) {
int offset = GETARG_sBx(fs->f->code[pc]);
if (offset == NO_JUMP) /* point to itself represents end of list */
return NO_JUMP; /* end of list */
else
return (pc+1)+offset; /* turn offset into absolute position */
}
static Instruction *getjumpcontrol (FuncState *fs, int pc) {
Instruction *pi = &fs->f->code[pc];
if (pc >= 1 && testTMode(GET_OPCODE(*(pi-1))))
return pi-1;
else
return pi;
}
/*
** check whether list has any jump that do not produce a value
** (or produce an inverted value)
*/
static int need_value (FuncState *fs, int list) {
for (; list != NO_JUMP; list = getjump(fs, list)) {
Instruction i = *getjumpcontrol(fs, list);
if (GET_OPCODE(i) != OP_TESTSET) return 1;
}
return 0; /* not found */
}
static int patchtestreg (FuncState *fs, int node, int reg) {
Instruction *i = getjumpcontrol(fs, node);
if (GET_OPCODE(*i) != OP_TESTSET)
return 0; /* cannot patch other instructions */
if (reg != NO_REG && reg != GETARG_B(*i))
SETARG_A(*i, reg);
else /* no register to put value or register already has the value */
*i = CREATE_ABC(OP_TEST, GETARG_B(*i), 0, GETARG_C(*i));
return 1;
}
static void removevalues (FuncState *fs, int list) {
for (; list != NO_JUMP; list = getjump(fs, list))
patchtestreg(fs, list, NO_REG);
}
static void patchlistaux (FuncState *fs, int list, int vtarget, int reg,
int dtarget) {
while (list != NO_JUMP) {
int next = getjump(fs, list);
if (patchtestreg(fs, list, reg))
fixjump(fs, list, vtarget);
else
fixjump(fs, list, dtarget); /* jump to default target */
list = next;
}
}
static void dischargejpc (FuncState *fs) {
patchlistaux(fs, fs->jpc, fs->pc, NO_REG, fs->pc);
fs->jpc = NO_JUMP;
}
void luaK_patchlist (FuncState *fs, int list, int target) {
if (target == fs->pc)
luaK_patchtohere(fs, list);
else {
lua_assert(target < fs->pc);
patchlistaux(fs, list, target, NO_REG, target);
}
}
LUAI_FUNC void luaK_patchclose (FuncState *fs, int list, int level) {
level++; /* argument is +1 to reserve 0 as non-op */
while (list != NO_JUMP) {
int next = getjump(fs, list);
lua_assert(GET_OPCODE(fs->f->code[list]) == OP_JMP &&
(GETARG_A(fs->f->code[list]) == 0 ||
GETARG_A(fs->f->code[list]) >= level));
SETARG_A(fs->f->code[list], level);
list = next;
}
}
void luaK_patchtohere (FuncState *fs, int list) {
luaK_getlabel(fs);
luaK_concat(fs, &fs->jpc, list);
}
void luaK_concat (FuncState *fs, int *l1, int l2) {
if (l2 == NO_JUMP) return;
else if (*l1 == NO_JUMP)
*l1 = l2;
else {
int list = *l1;
int next;
while ((next = getjump(fs, list)) != NO_JUMP) /* find last element */
list = next;
fixjump(fs, list, l2);
}
}
static int luaK_code (FuncState *fs, Instruction i) {
Proto *f = fs->f;
dischargejpc(fs); /* `pc' will change */
/* put new instruction in code array */
luaM_growvector(fs->ls->L, f->code, fs->pc, f->sizecode, Instruction,
MAX_INT, "opcodes");
f->code[fs->pc] = i;
/* save corresponding line information */
luaM_growvector(fs->ls->L, f->lineinfo, fs->pc, f->sizelineinfo, int,
MAX_INT, "opcodes");
f->lineinfo[fs->pc] = fs->ls->lastline;
return fs->pc++;
}
int luaK_codeABC (FuncState *fs, OpCode o, int a, int b, int c) {
lua_assert(getOpMode(o) == iABC);
lua_assert(getBMode(o) != OpArgN || b == 0);
lua_assert(getCMode(o) != OpArgN || c == 0);
lua_assert(a <= MAXARG_A && b <= MAXARG_B && c <= MAXARG_C);
return luaK_code(fs, CREATE_ABC(o, a, b, c));
}
int luaK_codeABx (FuncState *fs, OpCode o, int a, unsigned int bc) {
lua_assert(getOpMode(o) == iABx || getOpMode(o) == iAsBx);
lua_assert(getCMode(o) == OpArgN);
lua_assert(a <= MAXARG_A && bc <= MAXARG_Bx);
return luaK_code(fs, CREATE_ABx(o, a, bc));
}
static int codeextraarg (FuncState *fs, int a) {
lua_assert(a <= MAXARG_Ax);
return luaK_code(fs, CREATE_Ax(OP_EXTRAARG, a));
}
int luaK_codek (FuncState *fs, int reg, int k) {
if (k <= MAXARG_Bx)
return luaK_codeABx(fs, OP_LOADK, reg, k);
else {
int p = luaK_codeABx(fs, OP_LOADKX, reg, 0);
codeextraarg(fs, k);
return p;
}
}
void luaK_checkstack (FuncState *fs, int n) {
int newstack = fs->freereg + n;
if (newstack > fs->f->maxstacksize) {
if (newstack >= MAXSTACK)
luaX_syntaxerror(fs->ls, "function or expression too complex");
fs->f->maxstacksize = cast_byte(newstack);
}
}
void luaK_reserveregs (FuncState *fs, int n) {
luaK_checkstack(fs, n);
fs->freereg += n;
}
static void freereg (FuncState *fs, int reg) {
if (!ISK(reg) && reg >= fs->nactvar) {
fs->freereg--;
lua_assert(reg == fs->freereg);
}
}
static void freeexp (FuncState *fs, expdesc *e) {
if (e->k == VNONRELOC)
freereg(fs, e->u.info);
}
static int addk (FuncState *fs, TValue *key, TValue *v) {
lua_State *L = fs->ls->L;
TValue *idx = luaH_set(L, fs->h, key);
Proto *f = fs->f;
int k, oldsize;
if (ttisnumber(idx)) {
lua_Number n = nvalue(idx);
lua_number2int(k, n);
if (luaV_rawequalobj(&f->k[k], v))
return k;
/* else may be a collision (e.g., between 0.0 and "\0\0\0\0\0\0\0\0");
go through and create a new entry for this value */
}
/* constant not found; create a new entry */
oldsize = f->sizek;
k = fs->nk;
/* numerical value does not need GC barrier;
table has no metatable, so it does not need to invalidate cache */
setnvalue(idx, cast_num(k));
luaM_growvector(L, f->k, k, f->sizek, TValue, MAXARG_Ax, "constants");
while (oldsize < f->sizek) setnilvalue(&f->k[oldsize++]);
setobj(L, &f->k[k], v);
fs->nk++;
luaC_barrier(L, f, v);
return k;
}
int luaK_stringK (FuncState *fs, TString *s) {
TValue o;
setsvalue(fs->ls->L, &o, s);
return addk(fs, &o, &o);
}
int luaK_numberK (FuncState *fs, lua_Number r) {
int n;
lua_State *L = fs->ls->L;
TValue o;
setnvalue(&o, r);
if (r == 0 || luai_numisnan(NULL, r)) { /* handle -0 and NaN */
/* use raw representation as key to avoid numeric problems */
setsvalue(L, L->top++, luaS_newlstr(L, (char *)&r, sizeof(r)));
n = addk(fs, L->top - 1, &o);
L->top--;
}
else
n = addk(fs, &o, &o); /* regular case */
return n;
}
static int boolK (FuncState *fs, int b) {
TValue o;
setbvalue(&o, b);
return addk(fs, &o, &o);
}
static int nilK (FuncState *fs) {
TValue k, v;
setnilvalue(&v);
/* cannot use nil as key; instead use table itself to represent nil */
sethvalue(fs->ls->L, &k, fs->h);
return addk(fs, &k, &v);
}
void luaK_setreturns (FuncState *fs, expdesc *e, int nresults) {
if (e->k == VCALL) { /* expression is an open function call? */
SETARG_C(getcode(fs, e), nresults+1);
}
else if (e->k == VVARARG) {
SETARG_B(getcode(fs, e), nresults+1);
SETARG_A(getcode(fs, e), fs->freereg);
luaK_reserveregs(fs, 1);
}
}
void luaK_setoneret (FuncState *fs, expdesc *e) {
if (e->k == VCALL) { /* expression is an open function call? */
e->k = VNONRELOC;
e->u.info = GETARG_A(getcode(fs, e));
}
else if (e->k == VVARARG) {
SETARG_B(getcode(fs, e), 2);
e->k = VRELOCABLE; /* can relocate its simple result */
}
}
void luaK_dischargevars (FuncState *fs, expdesc *e) {
switch (e->k) {
case VLOCAL: {
e->k = VNONRELOC;
break;
}
case VUPVAL: {
e->u.info = luaK_codeABC(fs, OP_GETUPVAL, 0, e->u.info, 0);
e->k = VRELOCABLE;
break;
}
case VINDEXED: {
OpCode op = OP_GETTABUP; /* assume 't' is in an upvalue */
freereg(fs, e->u.ind.idx);
if (e->u.ind.vt == VLOCAL) { /* 't' is in a register? */
freereg(fs, e->u.ind.t);
op = OP_GETTABLE;
}
e->u.info = luaK_codeABC(fs, op, 0, e->u.ind.t, e->u.ind.idx);
e->k = VRELOCABLE;
break;
}
case VVARARG:
case VCALL: {
luaK_setoneret(fs, e);
break;
}
default: break; /* there is one value available (somewhere) */
}
}
static int code_label (FuncState *fs, int A, int b, int jump) {
luaK_getlabel(fs); /* those instructions may be jump targets */
return luaK_codeABC(fs, OP_LOADBOOL, A, b, jump);
}
static void discharge2reg (FuncState *fs, expdesc *e, int reg) {
luaK_dischargevars(fs, e);
switch (e->k) {
case VNIL: {
luaK_nil(fs, reg, 1);
break;
}
case VFALSE: case VTRUE: {
luaK_codeABC(fs, OP_LOADBOOL, reg, e->k == VTRUE, 0);
break;
}
case VK: {
luaK_codek(fs, reg, e->u.info);
break;
}
case VKNUM: {
luaK_codek(fs, reg, luaK_numberK(fs, e->u.nval));
break;
}
case VRELOCABLE: {
Instruction *pc = &getcode(fs, e);
SETARG_A(*pc, reg);
break;
}
case VNONRELOC: {
if (reg != e->u.info)
luaK_codeABC(fs, OP_MOVE, reg, e->u.info, 0);
break;
}
default: {
lua_assert(e->k == VVOID || e->k == VJMP);
return; /* nothing to do... */
}
}
e->u.info = reg;
e->k = VNONRELOC;
}
static void discharge2anyreg (FuncState *fs, expdesc *e) {
if (e->k != VNONRELOC) {
luaK_reserveregs(fs, 1);
discharge2reg(fs, e, fs->freereg-1);
}
}
static void exp2reg (FuncState *fs, expdesc *e, int reg) {
discharge2reg(fs, e, reg);
if (e->k == VJMP)
luaK_concat(fs, &e->t, e->u.info); /* put this jump in `t' list */
if (hasjumps(e)) {
int final; /* position after whole expression */
int p_f = NO_JUMP; /* position of an eventual LOAD false */
int p_t = NO_JUMP; /* position of an eventual LOAD true */
if (need_value(fs, e->t) || need_value(fs, e->f)) {
int fj = (e->k == VJMP) ? NO_JUMP : luaK_jump(fs);
p_f = code_label(fs, reg, 0, 1);
p_t = code_label(fs, reg, 1, 0);
luaK_patchtohere(fs, fj);
}
final = luaK_getlabel(fs);
patchlistaux(fs, e->f, final, reg, p_f);
patchlistaux(fs, e->t, final, reg, p_t);
}
e->f = e->t = NO_JUMP;
e->u.info = reg;
e->k = VNONRELOC;
}
void luaK_exp2nextreg (FuncState *fs, expdesc *e) {
luaK_dischargevars(fs, e);
freeexp(fs, e);
luaK_reserveregs(fs, 1);
exp2reg(fs, e, fs->freereg - 1);
}
int luaK_exp2anyreg (FuncState *fs, expdesc *e) {
luaK_dischargevars(fs, e);
if (e->k == VNONRELOC) {
if (!hasjumps(e)) return e->u.info; /* exp is already in a register */
if (e->u.info >= fs->nactvar) { /* reg. is not a local? */
exp2reg(fs, e, e->u.info); /* put value on it */
return e->u.info;
}
}
luaK_exp2nextreg(fs, e); /* default */
return e->u.info;
}
void luaK_exp2anyregup (FuncState *fs, expdesc *e) {
if (e->k != VUPVAL || hasjumps(e))
luaK_exp2anyreg(fs, e);
}
void luaK_exp2val (FuncState *fs, expdesc *e) {
if (hasjumps(e))
luaK_exp2anyreg(fs, e);
else
luaK_dischargevars(fs, e);
}
int luaK_exp2RK (FuncState *fs, expdesc *e) {
luaK_exp2val(fs, e);
switch (e->k) {
case VTRUE:
case VFALSE:
case VNIL: {
if (fs->nk <= MAXINDEXRK) { /* constant fits in RK operand? */
e->u.info = (e->k == VNIL) ? nilK(fs) : boolK(fs, (e->k == VTRUE));
e->k = VK;
return RKASK(e->u.info);
}
else break;
}
case VKNUM: {
e->u.info = luaK_numberK(fs, e->u.nval);
e->k = VK;
/* go through */
}
case VK: {
if (e->u.info <= MAXINDEXRK) /* constant fits in argC? */
return RKASK(e->u.info);
else break;
}
default: break;
}
/* not a constant in the right range: put it in a register */
return luaK_exp2anyreg(fs, e);
}
void luaK_storevar (FuncState *fs, expdesc *var, expdesc *ex) {
switch (var->k) {
case VLOCAL: {
freeexp(fs, ex);
exp2reg(fs, ex, var->u.info);
return;
}
case VUPVAL: {
int e = luaK_exp2anyreg(fs, ex);
luaK_codeABC(fs, OP_SETUPVAL, e, var->u.info, 0);
break;
}
case VINDEXED: {
OpCode op = (var->u.ind.vt == VLOCAL) ? OP_SETTABLE : OP_SETTABUP;
int e = luaK_exp2RK(fs, ex);
luaK_codeABC(fs, op, var->u.ind.t, var->u.ind.idx, e);
break;
}
default: {
lua_assert(0); /* invalid var kind to store */
break;
}
}
freeexp(fs, ex);
}
void luaK_self (FuncState *fs, expdesc *e, expdesc *key) {
int ereg;
luaK_exp2anyreg(fs, e);
ereg = e->u.info; /* register where 'e' was placed */
freeexp(fs, e);
e->u.info = fs->freereg; /* base register for op_self */
e->k = VNONRELOC;
luaK_reserveregs(fs, 2); /* function and 'self' produced by op_self */
luaK_codeABC(fs, OP_SELF, e->u.info, ereg, luaK_exp2RK(fs, key));
freeexp(fs, key);
}
static void invertjump (FuncState *fs, expdesc *e) {
Instruction *pc = getjumpcontrol(fs, e->u.info);
lua_assert(testTMode(GET_OPCODE(*pc)) && GET_OPCODE(*pc) != OP_TESTSET &&
GET_OPCODE(*pc) != OP_TEST);
SETARG_A(*pc, !(GETARG_A(*pc)));
}
static int jumponcond (FuncState *fs, expdesc *e, int cond) {
if (e->k == VRELOCABLE) {
Instruction ie = getcode(fs, e);
if (GET_OPCODE(ie) == OP_NOT) {
fs->pc--; /* remove previous OP_NOT */
return condjump(fs, OP_TEST, GETARG_B(ie), 0, !cond);
}
/* else go through */
}
discharge2anyreg(fs, e);
freeexp(fs, e);
return condjump(fs, OP_TESTSET, NO_REG, e->u.info, cond);
}
void luaK_goiftrue (FuncState *fs, expdesc *e) {
int pc; /* pc of last jump */
luaK_dischargevars(fs, e);
switch (e->k) {
case VJMP: {
invertjump(fs, e);
pc = e->u.info;
break;
}
case VK: case VKNUM: case VTRUE: {
pc = NO_JUMP; /* always true; do nothing */
break;
}
default: {
pc = jumponcond(fs, e, 0);
break;
}
}
luaK_concat(fs, &e->f, pc); /* insert last jump in `f' list */
luaK_patchtohere(fs, e->t);
e->t = NO_JUMP;
}
void luaK_goiffalse (FuncState *fs, expdesc *e) {
int pc; /* pc of last jump */
luaK_dischargevars(fs, e);
switch (e->k) {
case VJMP: {
pc = e->u.info;
break;
}
case VNIL: case VFALSE: {
pc = NO_JUMP; /* always false; do nothing */
break;
}
default: {
pc = jumponcond(fs, e, 1);
break;
}
}
luaK_concat(fs, &e->t, pc); /* insert last jump in `t' list */
luaK_patchtohere(fs, e->f);
e->f = NO_JUMP;
}
static void codenot (FuncState *fs, expdesc *e) {
luaK_dischargevars(fs, e);
switch (e->k) {
case VNIL: case VFALSE: {
e->k = VTRUE;
break;
}
case VK: case VKNUM: case VTRUE: {
e->k = VFALSE;
break;
}
case VJMP: {
invertjump(fs, e);
break;
}
case VRELOCABLE:
case VNONRELOC: {
discharge2anyreg(fs, e);
freeexp(fs, e);
e->u.info = luaK_codeABC(fs, OP_NOT, 0, e->u.info, 0);
e->k = VRELOCABLE;
break;
}
default: {
lua_assert(0); /* cannot happen */
break;
}
}
/* interchange true and false lists */
{ int temp = e->f; e->f = e->t; e->t = temp; }
removevalues(fs, e->f);
removevalues(fs, e->t);
}
void luaK_indexed (FuncState *fs, expdesc *t, expdesc *k) {
lua_assert(!hasjumps(t));
t->u.ind.t = t->u.info;
t->u.ind.idx = luaK_exp2RK(fs, k);
t->u.ind.vt = (t->k == VUPVAL) ? VUPVAL
: check_exp(vkisinreg(t->k), VLOCAL);
t->k = VINDEXED;
}
static int constfolding (OpCode op, expdesc *e1, expdesc *e2) {
lua_Number r;
if (!isnumeral(e1) || !isnumeral(e2)) return 0;
if ((op == OP_DIV || op == OP_MOD) && e2->u.nval == 0)
return 0; /* do not attempt to divide by 0 */
r = luaO_arith(op - OP_ADD + LUA_OPADD, e1->u.nval, e2->u.nval);
e1->u.nval = r;
return 1;
}
static void codearith (FuncState *fs, OpCode op,
expdesc *e1, expdesc *e2, int line) {
if (constfolding(op, e1, e2))
return;
else {
int o2 = (op != OP_UNM && op != OP_LEN) ? luaK_exp2RK(fs, e2) : 0;
int o1 = luaK_exp2RK(fs, e1);
if (o1 > o2) {
freeexp(fs, e1);
freeexp(fs, e2);
}
else {
freeexp(fs, e2);
freeexp(fs, e1);
}
e1->u.info = luaK_codeABC(fs, op, 0, o1, o2);
e1->k = VRELOCABLE;
luaK_fixline(fs, line);
}
}
static void codecomp (FuncState *fs, OpCode op, int cond, expdesc *e1,
expdesc *e2) {
int o1 = luaK_exp2RK(fs, e1);
int o2 = luaK_exp2RK(fs, e2);
freeexp(fs, e2);
freeexp(fs, e1);
if (cond == 0 && op != OP_EQ) {
int temp; /* exchange args to replace by `<' or `<=' */
temp = o1; o1 = o2; o2 = temp; /* o1 <==> o2 */
cond = 1;
}
e1->u.info = condjump(fs, op, cond, o1, o2);
e1->k = VJMP;
}
void luaK_prefix (FuncState *fs, UnOpr op, expdesc *e, int line) {
expdesc e2;
e2.t = e2.f = NO_JUMP; e2.k = VKNUM; e2.u.nval = 0;
switch (op) {
case OPR_MINUS: {
if (isnumeral(e)) /* minus constant? */
e->u.nval = luai_numunm(NULL, e->u.nval); /* fold it */
else {
luaK_exp2anyreg(fs, e);
codearith(fs, OP_UNM, e, &e2, line);
}
break;
}
case OPR_NOT: codenot(fs, e); break;
case OPR_LEN: {
luaK_exp2anyreg(fs, e); /* cannot operate on constants */
codearith(fs, OP_LEN, e, &e2, line);
break;
}
default: lua_assert(0);
}
}
void luaK_infix (FuncState *fs, BinOpr op, expdesc *v) {
switch (op) {
case OPR_AND: {
luaK_goiftrue(fs, v);
break;
}
case OPR_OR: {
luaK_goiffalse(fs, v);
break;
}
case OPR_CONCAT: {
luaK_exp2nextreg(fs, v); /* operand must be on the `stack' */
break;
}
case OPR_ADD: case OPR_SUB: case OPR_MUL: case OPR_DIV:
case OPR_MOD: case OPR_POW: {
if (!isnumeral(v)) luaK_exp2RK(fs, v);
break;
}
default: {
luaK_exp2RK(fs, v);
break;
}
}
}
void luaK_posfix (FuncState *fs, BinOpr op,
expdesc *e1, expdesc *e2, int line) {
switch (op) {
case OPR_AND: {
lua_assert(e1->t == NO_JUMP); /* list must be closed */
luaK_dischargevars(fs, e2);
luaK_concat(fs, &e2->f, e1->f);
*e1 = *e2;
break;
}
case OPR_OR: {
lua_assert(e1->f == NO_JUMP); /* list must be closed */
luaK_dischargevars(fs, e2);
luaK_concat(fs, &e2->t, e1->t);
*e1 = *e2;
break;
}
case OPR_CONCAT: {
luaK_exp2val(fs, e2);
if (e2->k == VRELOCABLE && GET_OPCODE(getcode(fs, e2)) == OP_CONCAT) {
lua_assert(e1->u.info == GETARG_B(getcode(fs, e2))-1);
freeexp(fs, e1);
SETARG_B(getcode(fs, e2), e1->u.info);
e1->k = VRELOCABLE; e1->u.info = e2->u.info;
}
else {
luaK_exp2nextreg(fs, e2); /* operand must be on the 'stack' */
codearith(fs, OP_CONCAT, e1, e2, line);
}
break;
}
case OPR_ADD: case OPR_SUB: case OPR_MUL: case OPR_DIV:
case OPR_MOD: case OPR_POW: {
codearith(fs, cast(OpCode, op - OPR_ADD + OP_ADD), e1, e2, line);
break;
}
case OPR_EQ: case OPR_LT: case OPR_LE: {
codecomp(fs, cast(OpCode, op - OPR_EQ + OP_EQ), 1, e1, e2);
break;
}
case OPR_NE: case OPR_GT: case OPR_GE: {
codecomp(fs, cast(OpCode, op - OPR_NE + OP_EQ), 0, e1, e2);
break;
}
default: lua_assert(0);
}
}
void luaK_fixline (FuncState *fs, int line) {
fs->f->lineinfo[fs->pc - 1] = line;
}
void luaK_setlist (FuncState *fs, int base, int nelems, int tostore) {
int c = (nelems - 1)/LFIELDS_PER_FLUSH + 1;
int b = (tostore == LUA_MULTRET) ? 0 : tostore;
lua_assert(tostore != 0);
if (c <= MAXARG_C)
luaK_codeABC(fs, OP_SETLIST, base, b, c);
else if (c <= MAXARG_Ax) {
luaK_codeABC(fs, OP_SETLIST, base, b, 0);
codeextraarg(fs, c);
}
else
luaX_syntaxerror(fs->ls, "constructor too long");
fs->freereg = base + 1; /* free registers with list values */
}

155
ext/lua/src/lcorolib.c Normal file
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/*
** $Id: lcorolib.c,v 1.5.1.1 2013/04/12 18:48:47 roberto Exp $
** Coroutine Library
** See Copyright Notice in lua.h
*/
#include <stdlib.h>
#define lcorolib_c
#define LUA_LIB
#include "lua.h"
#include "lauxlib.h"
#include "lualib.h"
static int auxresume (lua_State *L, lua_State *co, int narg) {
int status;
if (!lua_checkstack(co, narg)) {
lua_pushliteral(L, "too many arguments to resume");
return -1; /* error flag */
}
if (lua_status(co) == LUA_OK && lua_gettop(co) == 0) {
lua_pushliteral(L, "cannot resume dead coroutine");
return -1; /* error flag */
}
lua_xmove(L, co, narg);
status = lua_resume(co, L, narg);
if (status == LUA_OK || status == LUA_YIELD) {
int nres = lua_gettop(co);
if (!lua_checkstack(L, nres + 1)) {
lua_pop(co, nres); /* remove results anyway */
lua_pushliteral(L, "too many results to resume");
return -1; /* error flag */
}
lua_xmove(co, L, nres); /* move yielded values */
return nres;
}
else {
lua_xmove(co, L, 1); /* move error message */
return -1; /* error flag */
}
}
static int luaB_coresume (lua_State *L) {
lua_State *co = lua_tothread(L, 1);
int r;
luaL_argcheck(L, co, 1, "coroutine expected");
r = auxresume(L, co, lua_gettop(L) - 1);
if (r < 0) {
lua_pushboolean(L, 0);
lua_insert(L, -2);
return 2; /* return false + error message */
}
else {
lua_pushboolean(L, 1);
lua_insert(L, -(r + 1));
return r + 1; /* return true + `resume' returns */
}
}
static int luaB_auxwrap (lua_State *L) {
lua_State *co = lua_tothread(L, lua_upvalueindex(1));
int r = auxresume(L, co, lua_gettop(L));
if (r < 0) {
if (lua_isstring(L, -1)) { /* error object is a string? */
luaL_where(L, 1); /* add extra info */
lua_insert(L, -2);
lua_concat(L, 2);
}
return lua_error(L); /* propagate error */
}
return r;
}
static int luaB_cocreate (lua_State *L) {
lua_State *NL;
luaL_checktype(L, 1, LUA_TFUNCTION);
NL = lua_newthread(L);
lua_pushvalue(L, 1); /* move function to top */
lua_xmove(L, NL, 1); /* move function from L to NL */
return 1;
}
static int luaB_cowrap (lua_State *L) {
luaB_cocreate(L);
lua_pushcclosure(L, luaB_auxwrap, 1);
return 1;
}
static int luaB_yield (lua_State *L) {
return lua_yield(L, lua_gettop(L));
}
static int luaB_costatus (lua_State *L) {
lua_State *co = lua_tothread(L, 1);
luaL_argcheck(L, co, 1, "coroutine expected");
if (L == co) lua_pushliteral(L, "running");
else {
switch (lua_status(co)) {
case LUA_YIELD:
lua_pushliteral(L, "suspended");
break;
case LUA_OK: {
lua_Debug ar;
if (lua_getstack(co, 0, &ar) > 0) /* does it have frames? */
lua_pushliteral(L, "normal"); /* it is running */
else if (lua_gettop(co) == 0)
lua_pushliteral(L, "dead");
else
lua_pushliteral(L, "suspended"); /* initial state */
break;
}
default: /* some error occurred */
lua_pushliteral(L, "dead");
break;
}
}
return 1;
}
static int luaB_corunning (lua_State *L) {
int ismain = lua_pushthread(L);
lua_pushboolean(L, ismain);
return 2;
}
static const luaL_Reg co_funcs[] = {
{"create", luaB_cocreate},
{"resume", luaB_coresume},
{"running", luaB_corunning},
{"status", luaB_costatus},
{"wrap", luaB_cowrap},
{"yield", luaB_yield},
{NULL, NULL}
};
LUAMOD_API int luaopen_coroutine (lua_State *L) {
luaL_newlib(L, co_funcs);
return 1;
}

52
ext/lua/src/lctype.c Normal file
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/*
** $Id: lctype.c,v 1.11.1.1 2013/04/12 18:48:47 roberto Exp $
** 'ctype' functions for Lua
** See Copyright Notice in lua.h
*/
#define lctype_c
#define LUA_CORE
#include "lctype.h"
#if !LUA_USE_CTYPE /* { */
#include <limits.h>
LUAI_DDEF const lu_byte luai_ctype_[UCHAR_MAX + 2] = {
0x00, /* EOZ */
0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, /* 0. */
0x00, 0x08, 0x08, 0x08, 0x08, 0x08, 0x00, 0x00,
0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, /* 1. */
0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00,
0x0c, 0x04, 0x04, 0x04, 0x04, 0x04, 0x04, 0x04, /* 2. */
0x04, 0x04, 0x04, 0x04, 0x04, 0x04, 0x04, 0x04,
0x16, 0x16, 0x16, 0x16, 0x16, 0x16, 0x16, 0x16, /* 3. */
0x16, 0x16, 0x04, 0x04, 0x04, 0x04, 0x04, 0x04,
0x04, 0x15, 0x15, 0x15, 0x15, 0x15, 0x15, 0x05, /* 4. */
0x05, 0x05, 0x05, 0x05, 0x05, 0x05, 0x05, 0x05,
0x05, 0x05, 0x05, 0x05, 0x05, 0x05, 0x05, 0x05, /* 5. */
0x05, 0x05, 0x05, 0x04, 0x04, 0x04, 0x04, 0x05,
0x04, 0x15, 0x15, 0x15, 0x15, 0x15, 0x15, 0x05, /* 6. */
0x05, 0x05, 0x05, 0x05, 0x05, 0x05, 0x05, 0x05,
0x05, 0x05, 0x05, 0x05, 0x05, 0x05, 0x05, 0x05, /* 7. */
0x05, 0x05, 0x05, 0x04, 0x04, 0x04, 0x04, 0x00,
0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, /* 8. */
0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00,
0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, /* 9. */
0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00,
0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, /* a. */
0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00,
0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, /* b. */
0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00,
0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, /* c. */
0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00,
0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, /* d. */
0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00,
0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, /* e. */
0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00,
0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, /* f. */
0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00,
};
#endif /* } */

398
ext/lua/src/ldblib.c Normal file
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/*
** $Id: ldblib.c,v 1.132.1.1 2013/04/12 18:48:47 roberto Exp $
** Interface from Lua to its debug API
** See Copyright Notice in lua.h
*/
#include <stdio.h>
#include <stdlib.h>
#include <string.h>
#define ldblib_c
#define LUA_LIB
#include "lua.h"
#include "lauxlib.h"
#include "lualib.h"
#define HOOKKEY "_HKEY"
static int db_getregistry (lua_State *L) {
lua_pushvalue(L, LUA_REGISTRYINDEX);
return 1;
}
static int db_getmetatable (lua_State *L) {
luaL_checkany(L, 1);
if (!lua_getmetatable(L, 1)) {
lua_pushnil(L); /* no metatable */
}
return 1;
}
static int db_setmetatable (lua_State *L) {
int t = lua_type(L, 2);
luaL_argcheck(L, t == LUA_TNIL || t == LUA_TTABLE, 2,
"nil or table expected");
lua_settop(L, 2);
lua_setmetatable(L, 1);
return 1; /* return 1st argument */
}
static int db_getuservalue (lua_State *L) {
if (lua_type(L, 1) != LUA_TUSERDATA)
lua_pushnil(L);
else
lua_getuservalue(L, 1);
return 1;
}
static int db_setuservalue (lua_State *L) {
if (lua_type(L, 1) == LUA_TLIGHTUSERDATA)
luaL_argerror(L, 1, "full userdata expected, got light userdata");
luaL_checktype(L, 1, LUA_TUSERDATA);
if (!lua_isnoneornil(L, 2))
luaL_checktype(L, 2, LUA_TTABLE);
lua_settop(L, 2);
lua_setuservalue(L, 1);
return 1;
}
static void settabss (lua_State *L, const char *i, const char *v) {
lua_pushstring(L, v);
lua_setfield(L, -2, i);
}
static void settabsi (lua_State *L, const char *i, int v) {
lua_pushinteger(L, v);
lua_setfield(L, -2, i);
}
static void settabsb (lua_State *L, const char *i, int v) {
lua_pushboolean(L, v);
lua_setfield(L, -2, i);
}
static lua_State *getthread (lua_State *L, int *arg) {
if (lua_isthread(L, 1)) {
*arg = 1;
return lua_tothread(L, 1);
}
else {
*arg = 0;
return L;
}
}
static void treatstackoption (lua_State *L, lua_State *L1, const char *fname) {
if (L == L1) {
lua_pushvalue(L, -2);
lua_remove(L, -3);
}
else
lua_xmove(L1, L, 1);
lua_setfield(L, -2, fname);
}
static int db_getinfo (lua_State *L) {
lua_Debug ar;
int arg;
lua_State *L1 = getthread(L, &arg);
const char *options = luaL_optstring(L, arg+2, "flnStu");
if (lua_isnumber(L, arg+1)) {
if (!lua_getstack(L1, (int)lua_tointeger(L, arg+1), &ar)) {
lua_pushnil(L); /* level out of range */
return 1;
}
}
else if (lua_isfunction(L, arg+1)) {
lua_pushfstring(L, ">%s", options);
options = lua_tostring(L, -1);
lua_pushvalue(L, arg+1);
lua_xmove(L, L1, 1);
}
else
return luaL_argerror(L, arg+1, "function or level expected");
if (!lua_getinfo(L1, options, &ar))
return luaL_argerror(L, arg+2, "invalid option");
lua_createtable(L, 0, 2);
if (strchr(options, 'S')) {
settabss(L, "source", ar.source);
settabss(L, "short_src", ar.short_src);
settabsi(L, "linedefined", ar.linedefined);
settabsi(L, "lastlinedefined", ar.lastlinedefined);
settabss(L, "what", ar.what);
}
if (strchr(options, 'l'))
settabsi(L, "currentline", ar.currentline);
if (strchr(options, 'u')) {
settabsi(L, "nups", ar.nups);
settabsi(L, "nparams", ar.nparams);
settabsb(L, "isvararg", ar.isvararg);
}
if (strchr(options, 'n')) {
settabss(L, "name", ar.name);
settabss(L, "namewhat", ar.namewhat);
}
if (strchr(options, 't'))
settabsb(L, "istailcall", ar.istailcall);
if (strchr(options, 'L'))
treatstackoption(L, L1, "activelines");
if (strchr(options, 'f'))
treatstackoption(L, L1, "func");
return 1; /* return table */
}
static int db_getlocal (lua_State *L) {
int arg;
lua_State *L1 = getthread(L, &arg);
lua_Debug ar;
const char *name;
int nvar = luaL_checkint(L, arg+2); /* local-variable index */
if (lua_isfunction(L, arg + 1)) { /* function argument? */
lua_pushvalue(L, arg + 1); /* push function */
lua_pushstring(L, lua_getlocal(L, NULL, nvar)); /* push local name */
return 1;
}
else { /* stack-level argument */
if (!lua_getstack(L1, luaL_checkint(L, arg+1), &ar)) /* out of range? */
return luaL_argerror(L, arg+1, "level out of range");
name = lua_getlocal(L1, &ar, nvar);
if (name) {
lua_xmove(L1, L, 1); /* push local value */
lua_pushstring(L, name); /* push name */
lua_pushvalue(L, -2); /* re-order */
return 2;
}
else {
lua_pushnil(L); /* no name (nor value) */
return 1;
}
}
}
static int db_setlocal (lua_State *L) {
int arg;
lua_State *L1 = getthread(L, &arg);
lua_Debug ar;
if (!lua_getstack(L1, luaL_checkint(L, arg+1), &ar)) /* out of range? */
return luaL_argerror(L, arg+1, "level out of range");
luaL_checkany(L, arg+3);
lua_settop(L, arg+3);
lua_xmove(L, L1, 1);
lua_pushstring(L, lua_setlocal(L1, &ar, luaL_checkint(L, arg+2)));
return 1;
}
static int auxupvalue (lua_State *L, int get) {
const char *name;
int n = luaL_checkint(L, 2);
luaL_checktype(L, 1, LUA_TFUNCTION);
name = get ? lua_getupvalue(L, 1, n) : lua_setupvalue(L, 1, n);
if (name == NULL) return 0;
lua_pushstring(L, name);
lua_insert(L, -(get+1));
return get + 1;
}
static int db_getupvalue (lua_State *L) {
return auxupvalue(L, 1);
}
static int db_setupvalue (lua_State *L) {
luaL_checkany(L, 3);
return auxupvalue(L, 0);
}
static int checkupval (lua_State *L, int argf, int argnup) {
lua_Debug ar;
int nup = luaL_checkint(L, argnup);
luaL_checktype(L, argf, LUA_TFUNCTION);
lua_pushvalue(L, argf);
lua_getinfo(L, ">u", &ar);
luaL_argcheck(L, 1 <= nup && nup <= ar.nups, argnup, "invalid upvalue index");
return nup;
}
static int db_upvalueid (lua_State *L) {
int n = checkupval(L, 1, 2);
lua_pushlightuserdata(L, lua_upvalueid(L, 1, n));
return 1;
}
static int db_upvaluejoin (lua_State *L) {
int n1 = checkupval(L, 1, 2);
int n2 = checkupval(L, 3, 4);
luaL_argcheck(L, !lua_iscfunction(L, 1), 1, "Lua function expected");
luaL_argcheck(L, !lua_iscfunction(L, 3), 3, "Lua function expected");
lua_upvaluejoin(L, 1, n1, 3, n2);
return 0;
}
#define gethooktable(L) luaL_getsubtable(L, LUA_REGISTRYINDEX, HOOKKEY)
static void hookf (lua_State *L, lua_Debug *ar) {
static const char *const hooknames[] =
{"call", "return", "line", "count", "tail call"};
gethooktable(L);
lua_pushthread(L);
lua_rawget(L, -2);
if (lua_isfunction(L, -1)) {
lua_pushstring(L, hooknames[(int)ar->event]);
if (ar->currentline >= 0)
lua_pushinteger(L, ar->currentline);
else lua_pushnil(L);
lua_assert(lua_getinfo(L, "lS", ar));
lua_call(L, 2, 0);
}
}
static int makemask (const char *smask, int count) {
int mask = 0;
if (strchr(smask, 'c')) mask |= LUA_MASKCALL;
if (strchr(smask, 'r')) mask |= LUA_MASKRET;
if (strchr(smask, 'l')) mask |= LUA_MASKLINE;
if (count > 0) mask |= LUA_MASKCOUNT;
return mask;
}
static char *unmakemask (int mask, char *smask) {
int i = 0;
if (mask & LUA_MASKCALL) smask[i++] = 'c';
if (mask & LUA_MASKRET) smask[i++] = 'r';
if (mask & LUA_MASKLINE) smask[i++] = 'l';
smask[i] = '\0';
return smask;
}
static int db_sethook (lua_State *L) {
int arg, mask, count;
lua_Hook func;
lua_State *L1 = getthread(L, &arg);
if (lua_isnoneornil(L, arg+1)) {
lua_settop(L, arg+1);
func = NULL; mask = 0; count = 0; /* turn off hooks */
}
else {
const char *smask = luaL_checkstring(L, arg+2);
luaL_checktype(L, arg+1, LUA_TFUNCTION);
count = luaL_optint(L, arg+3, 0);
func = hookf; mask = makemask(smask, count);
}
if (gethooktable(L) == 0) { /* creating hook table? */
lua_pushstring(L, "k");
lua_setfield(L, -2, "__mode"); /** hooktable.__mode = "k" */
lua_pushvalue(L, -1);
lua_setmetatable(L, -2); /* setmetatable(hooktable) = hooktable */
}
lua_pushthread(L1); lua_xmove(L1, L, 1);
lua_pushvalue(L, arg+1);
lua_rawset(L, -3); /* set new hook */
lua_sethook(L1, func, mask, count); /* set hooks */
return 0;
}
static int db_gethook (lua_State *L) {
int arg;
lua_State *L1 = getthread(L, &arg);
char buff[5];
int mask = lua_gethookmask(L1);
lua_Hook hook = lua_gethook(L1);
if (hook != NULL && hook != hookf) /* external hook? */
lua_pushliteral(L, "external hook");
else {
gethooktable(L);
lua_pushthread(L1); lua_xmove(L1, L, 1);
lua_rawget(L, -2); /* get hook */
lua_remove(L, -2); /* remove hook table */
}
lua_pushstring(L, unmakemask(mask, buff));
lua_pushinteger(L, lua_gethookcount(L1));
return 3;
}
static int db_debug (lua_State *L) {
for (;;) {
char buffer[250];
luai_writestringerror("%s", "lua_debug> ");
if (fgets(buffer, sizeof(buffer), stdin) == 0 ||
strcmp(buffer, "cont\n") == 0)
return 0;
if (luaL_loadbuffer(L, buffer, strlen(buffer), "=(debug command)") ||
lua_pcall(L, 0, 0, 0))
luai_writestringerror("%s\n", lua_tostring(L, -1));
lua_settop(L, 0); /* remove eventual returns */
}
}
static int db_traceback (lua_State *L) {
int arg;
lua_State *L1 = getthread(L, &arg);
const char *msg = lua_tostring(L, arg + 1);
if (msg == NULL && !lua_isnoneornil(L, arg + 1)) /* non-string 'msg'? */
lua_pushvalue(L, arg + 1); /* return it untouched */
else {
int level = luaL_optint(L, arg + 2, (L == L1) ? 1 : 0);
luaL_traceback(L, L1, msg, level);
}
return 1;
}
static const luaL_Reg dblib[] = {
{"debug", db_debug},
{"getuservalue", db_getuservalue},
{"gethook", db_gethook},
{"getinfo", db_getinfo},
{"getlocal", db_getlocal},
{"getregistry", db_getregistry},
{"getmetatable", db_getmetatable},
{"getupvalue", db_getupvalue},
{"upvaluejoin", db_upvaluejoin},
{"upvalueid", db_upvalueid},
{"setuservalue", db_setuservalue},
{"sethook", db_sethook},
{"setlocal", db_setlocal},
{"setmetatable", db_setmetatable},
{"setupvalue", db_setupvalue},
{"traceback", db_traceback},
{NULL, NULL}
};
LUAMOD_API int luaopen_debug (lua_State *L) {
luaL_newlib(L, dblib);
return 1;
}

593
ext/lua/src/ldebug.c Normal file
View File

@@ -0,0 +1,593 @@
/*
** $Id: ldebug.c,v 2.90.1.3 2013/05/16 16:04:15 roberto Exp $
** Debug Interface
** See Copyright Notice in lua.h
*/
#include <stdarg.h>
#include <stddef.h>
#include <string.h>
#define ldebug_c
#define LUA_CORE
#include "lua.h"
#include "lapi.h"
#include "lcode.h"
#include "ldebug.h"
#include "ldo.h"
#include "lfunc.h"
#include "lobject.h"
#include "lopcodes.h"
#include "lstate.h"
#include "lstring.h"
#include "ltable.h"
#include "ltm.h"
#include "lvm.h"
#define noLuaClosure(f) ((f) == NULL || (f)->c.tt == LUA_TCCL)
static const char *getfuncname (lua_State *L, CallInfo *ci, const char **name);
static int currentpc (CallInfo *ci) {
lua_assert(isLua(ci));
return pcRel(ci->u.l.savedpc, ci_func(ci)->p);
}
static int currentline (CallInfo *ci) {
return getfuncline(ci_func(ci)->p, currentpc(ci));
}
/*
** this function can be called asynchronous (e.g. during a signal)
*/
LUA_API int lua_sethook (lua_State *L, lua_Hook func, int mask, int count) {
if (func == NULL || mask == 0) { /* turn off hooks? */
mask = 0;
func = NULL;
}
if (isLua(L->ci))
L->oldpc = L->ci->u.l.savedpc;
L->hook = func;
L->basehookcount = count;
resethookcount(L);
L->hookmask = cast_byte(mask);
return 1;
}
LUA_API lua_Hook lua_gethook (lua_State *L) {
return L->hook;
}
LUA_API int lua_gethookmask (lua_State *L) {
return L->hookmask;
}
LUA_API int lua_gethookcount (lua_State *L) {
return L->basehookcount;
}
LUA_API int lua_getstack (lua_State *L, int level, lua_Debug *ar) {
int status;
CallInfo *ci;
if (level < 0) return 0; /* invalid (negative) level */
lua_lock(L);
for (ci = L->ci; level > 0 && ci != &L->base_ci; ci = ci->previous)
level--;
if (level == 0 && ci != &L->base_ci) { /* level found? */
status = 1;
ar->i_ci = ci;
}
else status = 0; /* no such level */
lua_unlock(L);
return status;
}
static const char *upvalname (Proto *p, int uv) {
TString *s = check_exp(uv < p->sizeupvalues, p->upvalues[uv].name);
if (s == NULL) return "?";
else return getstr(s);
}
static const char *findvararg (CallInfo *ci, int n, StkId *pos) {
int nparams = clLvalue(ci->func)->p->numparams;
if (n >= ci->u.l.base - ci->func - nparams)
return NULL; /* no such vararg */
else {
*pos = ci->func + nparams + n;
return "(*vararg)"; /* generic name for any vararg */
}
}
static const char *findlocal (lua_State *L, CallInfo *ci, int n,
StkId *pos) {
const char *name = NULL;
StkId base;
if (isLua(ci)) {
if (n < 0) /* access to vararg values? */
return findvararg(ci, -n, pos);
else {
base = ci->u.l.base;
name = luaF_getlocalname(ci_func(ci)->p, n, currentpc(ci));
}
}
else
base = ci->func + 1;
if (name == NULL) { /* no 'standard' name? */
StkId limit = (ci == L->ci) ? L->top : ci->next->func;
if (limit - base >= n && n > 0) /* is 'n' inside 'ci' stack? */
name = "(*temporary)"; /* generic name for any valid slot */
else
return NULL; /* no name */
}
*pos = base + (n - 1);
return name;
}
LUA_API const char *lua_getlocal (lua_State *L, const lua_Debug *ar, int n) {
const char *name;
lua_lock(L);
if (ar == NULL) { /* information about non-active function? */
if (!isLfunction(L->top - 1)) /* not a Lua function? */
name = NULL;
else /* consider live variables at function start (parameters) */
name = luaF_getlocalname(clLvalue(L->top - 1)->p, n, 0);
}
else { /* active function; get information through 'ar' */
StkId pos = 0; /* to avoid warnings */
name = findlocal(L, ar->i_ci, n, &pos);
if (name) {
setobj2s(L, L->top, pos);
api_incr_top(L);
}
}
lua_unlock(L);
return name;
}
LUA_API const char *lua_setlocal (lua_State *L, const lua_Debug *ar, int n) {
StkId pos = 0; /* to avoid warnings */
const char *name = findlocal(L, ar->i_ci, n, &pos);
lua_lock(L);
if (name)
setobjs2s(L, pos, L->top - 1);
L->top--; /* pop value */
lua_unlock(L);
return name;
}
static void funcinfo (lua_Debug *ar, Closure *cl) {
if (noLuaClosure(cl)) {
ar->source = "=[C]";
ar->linedefined = -1;
ar->lastlinedefined = -1;
ar->what = "C";
}
else {
Proto *p = cl->l.p;
ar->source = p->source ? getstr(p->source) : "=?";
ar->linedefined = p->linedefined;
ar->lastlinedefined = p->lastlinedefined;
ar->what = (ar->linedefined == 0) ? "main" : "Lua";
}
luaO_chunkid(ar->short_src, ar->source, LUA_IDSIZE);
}
static void collectvalidlines (lua_State *L, Closure *f) {
if (noLuaClosure(f)) {
setnilvalue(L->top);
api_incr_top(L);
}
else {
int i;
TValue v;
int *lineinfo = f->l.p->lineinfo;
Table *t = luaH_new(L); /* new table to store active lines */
sethvalue(L, L->top, t); /* push it on stack */
api_incr_top(L);
setbvalue(&v, 1); /* boolean 'true' to be the value of all indices */
for (i = 0; i < f->l.p->sizelineinfo; i++) /* for all lines with code */
luaH_setint(L, t, lineinfo[i], &v); /* table[line] = true */
}
}
static int auxgetinfo (lua_State *L, const char *what, lua_Debug *ar,
Closure *f, CallInfo *ci) {
int status = 1;
for (; *what; what++) {
switch (*what) {
case 'S': {
funcinfo(ar, f);
break;
}
case 'l': {
ar->currentline = (ci && isLua(ci)) ? currentline(ci) : -1;
break;
}
case 'u': {
ar->nups = (f == NULL) ? 0 : f->c.nupvalues;
if (noLuaClosure(f)) {
ar->isvararg = 1;
ar->nparams = 0;
}
else {
ar->isvararg = f->l.p->is_vararg;
ar->nparams = f->l.p->numparams;
}
break;
}
case 't': {
ar->istailcall = (ci) ? ci->callstatus & CIST_TAIL : 0;
break;
}
case 'n': {
/* calling function is a known Lua function? */
if (ci && !(ci->callstatus & CIST_TAIL) && isLua(ci->previous))
ar->namewhat = getfuncname(L, ci->previous, &ar->name);
else
ar->namewhat = NULL;
if (ar->namewhat == NULL) {
ar->namewhat = ""; /* not found */
ar->name = NULL;
}
break;
}
case 'L':
case 'f': /* handled by lua_getinfo */
break;
default: status = 0; /* invalid option */
}
}
return status;
}
LUA_API int lua_getinfo (lua_State *L, const char *what, lua_Debug *ar) {
int status;
Closure *cl;
CallInfo *ci;
StkId func;
lua_lock(L);
if (*what == '>') {
ci = NULL;
func = L->top - 1;
api_check(L, ttisfunction(func), "function expected");
what++; /* skip the '>' */
L->top--; /* pop function */
}
else {
ci = ar->i_ci;
func = ci->func;
lua_assert(ttisfunction(ci->func));
}
cl = ttisclosure(func) ? clvalue(func) : NULL;
status = auxgetinfo(L, what, ar, cl, ci);
if (strchr(what, 'f')) {
setobjs2s(L, L->top, func);
api_incr_top(L);
}
if (strchr(what, 'L'))
collectvalidlines(L, cl);
lua_unlock(L);
return status;
}
/*
** {======================================================
** Symbolic Execution
** =======================================================
*/
static const char *getobjname (Proto *p, int lastpc, int reg,
const char **name);
/*
** find a "name" for the RK value 'c'
*/
static void kname (Proto *p, int pc, int c, const char **name) {
if (ISK(c)) { /* is 'c' a constant? */
TValue *kvalue = &p->k[INDEXK(c)];
if (ttisstring(kvalue)) { /* literal constant? */
*name = svalue(kvalue); /* it is its own name */
return;
}
/* else no reasonable name found */
}
else { /* 'c' is a register */
const char *what = getobjname(p, pc, c, name); /* search for 'c' */
if (what && *what == 'c') { /* found a constant name? */
return; /* 'name' already filled */
}
/* else no reasonable name found */
}
*name = "?"; /* no reasonable name found */
}
static int filterpc (int pc, int jmptarget) {
if (pc < jmptarget) /* is code conditional (inside a jump)? */
return -1; /* cannot know who sets that register */
else return pc; /* current position sets that register */
}
/*
** try to find last instruction before 'lastpc' that modified register 'reg'
*/
static int findsetreg (Proto *p, int lastpc, int reg) {
int pc;
int setreg = -1; /* keep last instruction that changed 'reg' */
int jmptarget = 0; /* any code before this address is conditional */
for (pc = 0; pc < lastpc; pc++) {
Instruction i = p->code[pc];
OpCode op = GET_OPCODE(i);
int a = GETARG_A(i);
switch (op) {
case OP_LOADNIL: {
int b = GETARG_B(i);
if (a <= reg && reg <= a + b) /* set registers from 'a' to 'a+b' */
setreg = filterpc(pc, jmptarget);
break;
}
case OP_TFORCALL: {
if (reg >= a + 2) /* affect all regs above its base */
setreg = filterpc(pc, jmptarget);
break;
}
case OP_CALL:
case OP_TAILCALL: {
if (reg >= a) /* affect all registers above base */
setreg = filterpc(pc, jmptarget);
break;
}
case OP_JMP: {
int b = GETARG_sBx(i);
int dest = pc + 1 + b;
/* jump is forward and do not skip `lastpc'? */
if (pc < dest && dest <= lastpc) {
if (dest > jmptarget)
jmptarget = dest; /* update 'jmptarget' */
}
break;
}
case OP_TEST: {
if (reg == a) /* jumped code can change 'a' */
setreg = filterpc(pc, jmptarget);
break;
}
default:
if (testAMode(op) && reg == a) /* any instruction that set A */
setreg = filterpc(pc, jmptarget);
break;
}
}
return setreg;
}
static const char *getobjname (Proto *p, int lastpc, int reg,
const char **name) {
int pc;
*name = luaF_getlocalname(p, reg + 1, lastpc);
if (*name) /* is a local? */
return "local";
/* else try symbolic execution */
pc = findsetreg(p, lastpc, reg);
if (pc != -1) { /* could find instruction? */
Instruction i = p->code[pc];
OpCode op = GET_OPCODE(i);
switch (op) {
case OP_MOVE: {
int b = GETARG_B(i); /* move from 'b' to 'a' */
if (b < GETARG_A(i))
return getobjname(p, pc, b, name); /* get name for 'b' */
break;
}
case OP_GETTABUP:
case OP_GETTABLE: {
int k = GETARG_C(i); /* key index */
int t = GETARG_B(i); /* table index */
const char *vn = (op == OP_GETTABLE) /* name of indexed variable */
? luaF_getlocalname(p, t + 1, pc)
: upvalname(p, t);
kname(p, pc, k, name);
return (vn && strcmp(vn, LUA_ENV) == 0) ? "global" : "field";
}
case OP_GETUPVAL: {
*name = upvalname(p, GETARG_B(i));
return "upvalue";
}
case OP_LOADK:
case OP_LOADKX: {
int b = (op == OP_LOADK) ? GETARG_Bx(i)
: GETARG_Ax(p->code[pc + 1]);
if (ttisstring(&p->k[b])) {
*name = svalue(&p->k[b]);
return "constant";
}
break;
}
case OP_SELF: {
int k = GETARG_C(i); /* key index */
kname(p, pc, k, name);
return "method";
}
default: break; /* go through to return NULL */
}
}
return NULL; /* could not find reasonable name */
}
static const char *getfuncname (lua_State *L, CallInfo *ci, const char **name) {
TMS tm;
Proto *p = ci_func(ci)->p; /* calling function */
int pc = currentpc(ci); /* calling instruction index */
Instruction i = p->code[pc]; /* calling instruction */
switch (GET_OPCODE(i)) {
case OP_CALL:
case OP_TAILCALL: /* get function name */
return getobjname(p, pc, GETARG_A(i), name);
case OP_TFORCALL: { /* for iterator */
*name = "for iterator";
return "for iterator";
}
/* all other instructions can call only through metamethods */
case OP_SELF:
case OP_GETTABUP:
case OP_GETTABLE: tm = TM_INDEX; break;
case OP_SETTABUP:
case OP_SETTABLE: tm = TM_NEWINDEX; break;
case OP_EQ: tm = TM_EQ; break;
case OP_ADD: tm = TM_ADD; break;
case OP_SUB: tm = TM_SUB; break;
case OP_MUL: tm = TM_MUL; break;
case OP_DIV: tm = TM_DIV; break;
case OP_MOD: tm = TM_MOD; break;
case OP_POW: tm = TM_POW; break;
case OP_UNM: tm = TM_UNM; break;
case OP_LEN: tm = TM_LEN; break;
case OP_LT: tm = TM_LT; break;
case OP_LE: tm = TM_LE; break;
case OP_CONCAT: tm = TM_CONCAT; break;
default:
return NULL; /* else no useful name can be found */
}
*name = getstr(G(L)->tmname[tm]);
return "metamethod";
}
/* }====================================================== */
/*
** only ANSI way to check whether a pointer points to an array
** (used only for error messages, so efficiency is not a big concern)
*/
static int isinstack (CallInfo *ci, const TValue *o) {
StkId p;
for (p = ci->u.l.base; p < ci->top; p++)
if (o == p) return 1;
return 0;
}
static const char *getupvalname (CallInfo *ci, const TValue *o,
const char **name) {
LClosure *c = ci_func(ci);
int i;
for (i = 0; i < c->nupvalues; i++) {
if (c->upvals[i]->v == o) {
*name = upvalname(c->p, i);
return "upvalue";
}
}
return NULL;
}
l_noret luaG_typeerror (lua_State *L, const TValue *o, const char *op) {
CallInfo *ci = L->ci;
const char *name = NULL;
const char *t = objtypename(o);
const char *kind = NULL;
if (isLua(ci)) {
kind = getupvalname(ci, o, &name); /* check whether 'o' is an upvalue */
if (!kind && isinstack(ci, o)) /* no? try a register */
kind = getobjname(ci_func(ci)->p, currentpc(ci),
cast_int(o - ci->u.l.base), &name);
}
if (kind)
luaG_runerror(L, "attempt to %s %s " LUA_QS " (a %s value)",
op, kind, name, t);
else
luaG_runerror(L, "attempt to %s a %s value", op, t);
}
l_noret luaG_concaterror (lua_State *L, StkId p1, StkId p2) {
if (ttisstring(p1) || ttisnumber(p1)) p1 = p2;
lua_assert(!ttisstring(p1) && !ttisnumber(p1));
luaG_typeerror(L, p1, "concatenate");
}
l_noret luaG_aritherror (lua_State *L, const TValue *p1, const TValue *p2) {
TValue temp;
if (luaV_tonumber(p1, &temp) == NULL)
p2 = p1; /* first operand is wrong */
luaG_typeerror(L, p2, "perform arithmetic on");
}
l_noret luaG_ordererror (lua_State *L, const TValue *p1, const TValue *p2) {
const char *t1 = objtypename(p1);
const char *t2 = objtypename(p2);
if (t1 == t2)
luaG_runerror(L, "attempt to compare two %s values", t1);
else
luaG_runerror(L, "attempt to compare %s with %s", t1, t2);
}
static void addinfo (lua_State *L, const char *msg) {
CallInfo *ci = L->ci;
if (isLua(ci)) { /* is Lua code? */
char buff[LUA_IDSIZE]; /* add file:line information */
int line = currentline(ci);
TString *src = ci_func(ci)->p->source;
if (src)
luaO_chunkid(buff, getstr(src), LUA_IDSIZE);
else { /* no source available; use "?" instead */
buff[0] = '?'; buff[1] = '\0';
}
luaO_pushfstring(L, "%s:%d: %s", buff, line, msg);
}
}
l_noret luaG_errormsg (lua_State *L) {
if (L->errfunc != 0) { /* is there an error handling function? */
StkId errfunc = restorestack(L, L->errfunc);
if (!ttisfunction(errfunc)) luaD_throw(L, LUA_ERRERR);
setobjs2s(L, L->top, L->top - 1); /* move argument */
setobjs2s(L, L->top - 1, errfunc); /* push function */
L->top++;
luaD_call(L, L->top - 2, 1, 0); /* call it */
}
luaD_throw(L, LUA_ERRRUN);
}
l_noret luaG_runerror (lua_State *L, const char *fmt, ...) {
va_list argp;
va_start(argp, fmt);
addinfo(L, luaO_pushvfstring(L, fmt, argp));
va_end(argp);
luaG_errormsg(L);
}

681
ext/lua/src/ldo.c Normal file
View File

@@ -0,0 +1,681 @@
/*
** $Id: ldo.c,v 2.108.1.3 2013/11/08 18:22:50 roberto Exp $
** Stack and Call structure of Lua
** See Copyright Notice in lua.h
*/
#include <setjmp.h>
#include <stdlib.h>
#include <string.h>
#define ldo_c
#define LUA_CORE
#include "lua.h"
#include "lapi.h"
#include "ldebug.h"
#include "ldo.h"
#include "lfunc.h"
#include "lgc.h"
#include "lmem.h"
#include "lobject.h"
#include "lopcodes.h"
#include "lparser.h"
#include "lstate.h"
#include "lstring.h"
#include "ltable.h"
#include "ltm.h"
#include "lundump.h"
#include "lvm.h"
#include "lzio.h"
/*
** {======================================================
** Error-recovery functions
** =======================================================
*/
/*
** LUAI_THROW/LUAI_TRY define how Lua does exception handling. By
** default, Lua handles errors with exceptions when compiling as
** C++ code, with _longjmp/_setjmp when asked to use them, and with
** longjmp/setjmp otherwise.
*/
#if !defined(LUAI_THROW)
#if defined(__cplusplus) && !defined(LUA_USE_LONGJMP)
/* C++ exceptions */
#define LUAI_THROW(L,c) throw(c)
#define LUAI_TRY(L,c,a) \
try { a } catch(...) { if ((c)->status == 0) (c)->status = -1; }
#define luai_jmpbuf int /* dummy variable */
#elif defined(LUA_USE_ULONGJMP)
/* in Unix, try _longjmp/_setjmp (more efficient) */
#define LUAI_THROW(L,c) _longjmp((c)->b, 1)
#define LUAI_TRY(L,c,a) if (_setjmp((c)->b) == 0) { a }
#define luai_jmpbuf jmp_buf
#else
/* default handling with long jumps */
#define LUAI_THROW(L,c) longjmp((c)->b, 1)
#define LUAI_TRY(L,c,a) if (setjmp((c)->b) == 0) { a }
#define luai_jmpbuf jmp_buf
#endif
#endif
/* chain list of long jump buffers */
struct lua_longjmp {
struct lua_longjmp *previous;
luai_jmpbuf b;
volatile int status; /* error code */
};
static void seterrorobj (lua_State *L, int errcode, StkId oldtop) {
switch (errcode) {
case LUA_ERRMEM: { /* memory error? */
setsvalue2s(L, oldtop, G(L)->memerrmsg); /* reuse preregistered msg. */
break;
}
case LUA_ERRERR: {
setsvalue2s(L, oldtop, luaS_newliteral(L, "error in error handling"));
break;
}
default: {
setobjs2s(L, oldtop, L->top - 1); /* error message on current top */
break;
}
}
L->top = oldtop + 1;
}
l_noret luaD_throw (lua_State *L, int errcode) {
if (L->errorJmp) { /* thread has an error handler? */
L->errorJmp->status = errcode; /* set status */
LUAI_THROW(L, L->errorJmp); /* jump to it */
}
else { /* thread has no error handler */
L->status = cast_byte(errcode); /* mark it as dead */
if (G(L)->mainthread->errorJmp) { /* main thread has a handler? */
setobjs2s(L, G(L)->mainthread->top++, L->top - 1); /* copy error obj. */
luaD_throw(G(L)->mainthread, errcode); /* re-throw in main thread */
}
else { /* no handler at all; abort */
if (G(L)->panic) { /* panic function? */
lua_unlock(L);
G(L)->panic(L); /* call it (last chance to jump out) */
}
abort();
}
}
}
int luaD_rawrunprotected (lua_State *L, Pfunc f, void *ud) {
unsigned short oldnCcalls = L->nCcalls;
struct lua_longjmp lj;
lj.status = LUA_OK;
lj.previous = L->errorJmp; /* chain new error handler */
L->errorJmp = &lj;
LUAI_TRY(L, &lj,
(*f)(L, ud);
);
L->errorJmp = lj.previous; /* restore old error handler */
L->nCcalls = oldnCcalls;
return lj.status;
}
/* }====================================================== */
static void correctstack (lua_State *L, TValue *oldstack) {
CallInfo *ci;
GCObject *up;
L->top = (L->top - oldstack) + L->stack;
for (up = L->openupval; up != NULL; up = up->gch.next)
gco2uv(up)->v = (gco2uv(up)->v - oldstack) + L->stack;
for (ci = L->ci; ci != NULL; ci = ci->previous) {
ci->top = (ci->top - oldstack) + L->stack;
ci->func = (ci->func - oldstack) + L->stack;
if (isLua(ci))
ci->u.l.base = (ci->u.l.base - oldstack) + L->stack;
}
}
/* some space for error handling */
#define ERRORSTACKSIZE (LUAI_MAXSTACK + 200)
void luaD_reallocstack (lua_State *L, int newsize) {
TValue *oldstack = L->stack;
int lim = L->stacksize;
lua_assert(newsize <= LUAI_MAXSTACK || newsize == ERRORSTACKSIZE);
lua_assert(L->stack_last - L->stack == L->stacksize - EXTRA_STACK);
luaM_reallocvector(L, L->stack, L->stacksize, newsize, TValue);
for (; lim < newsize; lim++)
setnilvalue(L->stack + lim); /* erase new segment */
L->stacksize = newsize;
L->stack_last = L->stack + newsize - EXTRA_STACK;
correctstack(L, oldstack);
}
void luaD_growstack (lua_State *L, int n) {
int size = L->stacksize;
if (size > LUAI_MAXSTACK) /* error after extra size? */
luaD_throw(L, LUA_ERRERR);
else {
int needed = cast_int(L->top - L->stack) + n + EXTRA_STACK;
int newsize = 2 * size;
if (newsize > LUAI_MAXSTACK) newsize = LUAI_MAXSTACK;
if (newsize < needed) newsize = needed;
if (newsize > LUAI_MAXSTACK) { /* stack overflow? */
luaD_reallocstack(L, ERRORSTACKSIZE);
luaG_runerror(L, "stack overflow");
}
else
luaD_reallocstack(L, newsize);
}
}
static int stackinuse (lua_State *L) {
CallInfo *ci;
StkId lim = L->top;
for (ci = L->ci; ci != NULL; ci = ci->previous) {
lua_assert(ci->top <= L->stack_last);
if (lim < ci->top) lim = ci->top;
}
return cast_int(lim - L->stack) + 1; /* part of stack in use */
}
void luaD_shrinkstack (lua_State *L) {
int inuse = stackinuse(L);
int goodsize = inuse + (inuse / 8) + 2*EXTRA_STACK;
if (goodsize > LUAI_MAXSTACK) goodsize = LUAI_MAXSTACK;
if (inuse > LUAI_MAXSTACK || /* handling stack overflow? */
goodsize >= L->stacksize) /* would grow instead of shrink? */
condmovestack(L); /* don't change stack (change only for debugging) */
else
luaD_reallocstack(L, goodsize); /* shrink it */
}
void luaD_hook (lua_State *L, int event, int line) {
lua_Hook hook = L->hook;
if (hook && L->allowhook) {
CallInfo *ci = L->ci;
ptrdiff_t top = savestack(L, L->top);
ptrdiff_t ci_top = savestack(L, ci->top);
lua_Debug ar;
ar.event = event;
ar.currentline = line;
ar.i_ci = ci;
luaD_checkstack(L, LUA_MINSTACK); /* ensure minimum stack size */
ci->top = L->top + LUA_MINSTACK;
lua_assert(ci->top <= L->stack_last);
L->allowhook = 0; /* cannot call hooks inside a hook */
ci->callstatus |= CIST_HOOKED;
lua_unlock(L);
(*hook)(L, &ar);
lua_lock(L);
lua_assert(!L->allowhook);
L->allowhook = 1;
ci->top = restorestack(L, ci_top);
L->top = restorestack(L, top);
ci->callstatus &= ~CIST_HOOKED;
}
}
static void callhook (lua_State *L, CallInfo *ci) {
int hook = LUA_HOOKCALL;
ci->u.l.savedpc++; /* hooks assume 'pc' is already incremented */
if (isLua(ci->previous) &&
GET_OPCODE(*(ci->previous->u.l.savedpc - 1)) == OP_TAILCALL) {
ci->callstatus |= CIST_TAIL;
hook = LUA_HOOKTAILCALL;
}
luaD_hook(L, hook, -1);
ci->u.l.savedpc--; /* correct 'pc' */
}
static StkId adjust_varargs (lua_State *L, Proto *p, int actual) {
int i;
int nfixargs = p->numparams;
StkId base, fixed;
lua_assert(actual >= nfixargs);
/* move fixed parameters to final position */
luaD_checkstack(L, p->maxstacksize); /* check again for new 'base' */
fixed = L->top - actual; /* first fixed argument */
base = L->top; /* final position of first argument */
for (i=0; i<nfixargs; i++) {
setobjs2s(L, L->top++, fixed + i);
setnilvalue(fixed + i);
}
return base;
}
static StkId tryfuncTM (lua_State *L, StkId func) {
const TValue *tm = luaT_gettmbyobj(L, func, TM_CALL);
StkId p;
ptrdiff_t funcr = savestack(L, func);
if (!ttisfunction(tm))
luaG_typeerror(L, func, "call");
/* Open a hole inside the stack at `func' */
for (p = L->top; p > func; p--) setobjs2s(L, p, p-1);
incr_top(L);
func = restorestack(L, funcr); /* previous call may change stack */
setobj2s(L, func, tm); /* tag method is the new function to be called */
return func;
}
#define next_ci(L) (L->ci = (L->ci->next ? L->ci->next : luaE_extendCI(L)))
/*
** returns true if function has been executed (C function)
*/
int luaD_precall (lua_State *L, StkId func, int nresults) {
lua_CFunction f;
CallInfo *ci;
int n; /* number of arguments (Lua) or returns (C) */
ptrdiff_t funcr = savestack(L, func);
switch (ttype(func)) {
case LUA_TLCF: /* light C function */
f = fvalue(func);
goto Cfunc;
case LUA_TCCL: { /* C closure */
f = clCvalue(func)->f;
Cfunc:
luaD_checkstack(L, LUA_MINSTACK); /* ensure minimum stack size */
ci = next_ci(L); /* now 'enter' new function */
ci->nresults = nresults;
ci->func = restorestack(L, funcr);
ci->top = L->top + LUA_MINSTACK;
lua_assert(ci->top <= L->stack_last);
ci->callstatus = 0;
luaC_checkGC(L); /* stack grow uses memory */
if (L->hookmask & LUA_MASKCALL)
luaD_hook(L, LUA_HOOKCALL, -1);
lua_unlock(L);
n = (*f)(L); /* do the actual call */
lua_lock(L);
api_checknelems(L, n);
luaD_poscall(L, L->top - n);
return 1;
}
case LUA_TLCL: { /* Lua function: prepare its call */
StkId base;
Proto *p = clLvalue(func)->p;
n = cast_int(L->top - func) - 1; /* number of real arguments */
luaD_checkstack(L, p->maxstacksize);
for (; n < p->numparams; n++)
setnilvalue(L->top++); /* complete missing arguments */
if (!p->is_vararg) {
func = restorestack(L, funcr);
base = func + 1;
}
else {
base = adjust_varargs(L, p, n);
func = restorestack(L, funcr); /* previous call can change stack */
}
ci = next_ci(L); /* now 'enter' new function */
ci->nresults = nresults;
ci->func = func;
ci->u.l.base = base;
ci->top = base + p->maxstacksize;
lua_assert(ci->top <= L->stack_last);
ci->u.l.savedpc = p->code; /* starting point */
ci->callstatus = CIST_LUA;
L->top = ci->top;
luaC_checkGC(L); /* stack grow uses memory */
if (L->hookmask & LUA_MASKCALL)
callhook(L, ci);
return 0;
}
default: { /* not a function */
func = tryfuncTM(L, func); /* retry with 'function' tag method */
return luaD_precall(L, func, nresults); /* now it must be a function */
}
}
}
int luaD_poscall (lua_State *L, StkId firstResult) {
StkId res;
int wanted, i;
CallInfo *ci = L->ci;
if (L->hookmask & (LUA_MASKRET | LUA_MASKLINE)) {
if (L->hookmask & LUA_MASKRET) {
ptrdiff_t fr = savestack(L, firstResult); /* hook may change stack */
luaD_hook(L, LUA_HOOKRET, -1);
firstResult = restorestack(L, fr);
}
L->oldpc = ci->previous->u.l.savedpc; /* 'oldpc' for caller function */
}
res = ci->func; /* res == final position of 1st result */
wanted = ci->nresults;
L->ci = ci = ci->previous; /* back to caller */
/* move results to correct place */
for (i = wanted; i != 0 && firstResult < L->top; i--)
setobjs2s(L, res++, firstResult++);
while (i-- > 0)
setnilvalue(res++);
L->top = res;
return (wanted - LUA_MULTRET); /* 0 iff wanted == LUA_MULTRET */
}
/*
** Call a function (C or Lua). The function to be called is at *func.
** The arguments are on the stack, right after the function.
** When returns, all the results are on the stack, starting at the original
** function position.
*/
void luaD_call (lua_State *L, StkId func, int nResults, int allowyield) {
if (++L->nCcalls >= LUAI_MAXCCALLS) {
if (L->nCcalls == LUAI_MAXCCALLS)
luaG_runerror(L, "C stack overflow");
else if (L->nCcalls >= (LUAI_MAXCCALLS + (LUAI_MAXCCALLS>>3)))
luaD_throw(L, LUA_ERRERR); /* error while handing stack error */
}
if (!allowyield) L->nny++;
if (!luaD_precall(L, func, nResults)) /* is a Lua function? */
luaV_execute(L); /* call it */
if (!allowyield) L->nny--;
L->nCcalls--;
}
static void finishCcall (lua_State *L) {
CallInfo *ci = L->ci;
int n;
lua_assert(ci->u.c.k != NULL); /* must have a continuation */
lua_assert(L->nny == 0);
if (ci->callstatus & CIST_YPCALL) { /* was inside a pcall? */
ci->callstatus &= ~CIST_YPCALL; /* finish 'lua_pcall' */
L->errfunc = ci->u.c.old_errfunc;
}
/* finish 'lua_callk'/'lua_pcall' */
adjustresults(L, ci->nresults);
/* call continuation function */
if (!(ci->callstatus & CIST_STAT)) /* no call status? */
ci->u.c.status = LUA_YIELD; /* 'default' status */
lua_assert(ci->u.c.status != LUA_OK);
ci->callstatus = (ci->callstatus & ~(CIST_YPCALL | CIST_STAT)) | CIST_YIELDED;
lua_unlock(L);
n = (*ci->u.c.k)(L);
lua_lock(L);
api_checknelems(L, n);
/* finish 'luaD_precall' */
luaD_poscall(L, L->top - n);
}
static void unroll (lua_State *L, void *ud) {
UNUSED(ud);
for (;;) {
if (L->ci == &L->base_ci) /* stack is empty? */
return; /* coroutine finished normally */
if (!isLua(L->ci)) /* C function? */
finishCcall(L);
else { /* Lua function */
luaV_finishOp(L); /* finish interrupted instruction */
luaV_execute(L); /* execute down to higher C 'boundary' */
}
}
}
/*
** check whether thread has a suspended protected call
*/
static CallInfo *findpcall (lua_State *L) {
CallInfo *ci;
for (ci = L->ci; ci != NULL; ci = ci->previous) { /* search for a pcall */
if (ci->callstatus & CIST_YPCALL)
return ci;
}
return NULL; /* no pending pcall */
}
static int recover (lua_State *L, int status) {
StkId oldtop;
CallInfo *ci = findpcall(L);
if (ci == NULL) return 0; /* no recovery point */
/* "finish" luaD_pcall */
oldtop = restorestack(L, ci->extra);
luaF_close(L, oldtop);
seterrorobj(L, status, oldtop);
L->ci = ci;
L->allowhook = ci->u.c.old_allowhook;
L->nny = 0; /* should be zero to be yieldable */
luaD_shrinkstack(L);
L->errfunc = ci->u.c.old_errfunc;
ci->callstatus |= CIST_STAT; /* call has error status */
ci->u.c.status = status; /* (here it is) */
return 1; /* continue running the coroutine */
}
/*
** signal an error in the call to 'resume', not in the execution of the
** coroutine itself. (Such errors should not be handled by any coroutine
** error handler and should not kill the coroutine.)
*/
static l_noret resume_error (lua_State *L, const char *msg, StkId firstArg) {
L->top = firstArg; /* remove args from the stack */
setsvalue2s(L, L->top, luaS_new(L, msg)); /* push error message */
api_incr_top(L);
luaD_throw(L, -1); /* jump back to 'lua_resume' */
}
/*
** do the work for 'lua_resume' in protected mode
*/
static void resume (lua_State *L, void *ud) {
int nCcalls = L->nCcalls;
StkId firstArg = cast(StkId, ud);
CallInfo *ci = L->ci;
if (nCcalls >= LUAI_MAXCCALLS)
resume_error(L, "C stack overflow", firstArg);
if (L->status == LUA_OK) { /* may be starting a coroutine */
if (ci != &L->base_ci) /* not in base level? */
resume_error(L, "cannot resume non-suspended coroutine", firstArg);
/* coroutine is in base level; start running it */
if (!luaD_precall(L, firstArg - 1, LUA_MULTRET)) /* Lua function? */
luaV_execute(L); /* call it */
}
else if (L->status != LUA_YIELD)
resume_error(L, "cannot resume dead coroutine", firstArg);
else { /* resuming from previous yield */
L->status = LUA_OK;
ci->func = restorestack(L, ci->extra);
if (isLua(ci)) /* yielded inside a hook? */
luaV_execute(L); /* just continue running Lua code */
else { /* 'common' yield */
if (ci->u.c.k != NULL) { /* does it have a continuation? */
int n;
ci->u.c.status = LUA_YIELD; /* 'default' status */
ci->callstatus |= CIST_YIELDED;
lua_unlock(L);
n = (*ci->u.c.k)(L); /* call continuation */
lua_lock(L);
api_checknelems(L, n);
firstArg = L->top - n; /* yield results come from continuation */
}
luaD_poscall(L, firstArg); /* finish 'luaD_precall' */
}
unroll(L, NULL);
}
lua_assert(nCcalls == L->nCcalls);
}
LUA_API int lua_resume (lua_State *L, lua_State *from, int nargs) {
int status;
int oldnny = L->nny; /* save 'nny' */
lua_lock(L);
luai_userstateresume(L, nargs);
L->nCcalls = (from) ? from->nCcalls + 1 : 1;
L->nny = 0; /* allow yields */
api_checknelems(L, (L->status == LUA_OK) ? nargs + 1 : nargs);
status = luaD_rawrunprotected(L, resume, L->top - nargs);
if (status == -1) /* error calling 'lua_resume'? */
status = LUA_ERRRUN;
else { /* yield or regular error */
while (status != LUA_OK && status != LUA_YIELD) { /* error? */
if (recover(L, status)) /* recover point? */
status = luaD_rawrunprotected(L, unroll, NULL); /* run continuation */
else { /* unrecoverable error */
L->status = cast_byte(status); /* mark thread as `dead' */
seterrorobj(L, status, L->top);
L->ci->top = L->top;
break;
}
}
lua_assert(status == L->status);
}
L->nny = oldnny; /* restore 'nny' */
L->nCcalls--;
lua_assert(L->nCcalls == ((from) ? from->nCcalls : 0));
lua_unlock(L);
return status;
}
LUA_API int lua_yieldk (lua_State *L, int nresults, int ctx, lua_CFunction k) {
CallInfo *ci = L->ci;
luai_userstateyield(L, nresults);
lua_lock(L);
api_checknelems(L, nresults);
if (L->nny > 0) {
if (L != G(L)->mainthread)
luaG_runerror(L, "attempt to yield across a C-call boundary");
else
luaG_runerror(L, "attempt to yield from outside a coroutine");
}
L->status = LUA_YIELD;
ci->extra = savestack(L, ci->func); /* save current 'func' */
if (isLua(ci)) { /* inside a hook? */
api_check(L, k == NULL, "hooks cannot continue after yielding");
}
else {
if ((ci->u.c.k = k) != NULL) /* is there a continuation? */
ci->u.c.ctx = ctx; /* save context */
ci->func = L->top - nresults - 1; /* protect stack below results */
luaD_throw(L, LUA_YIELD);
}
lua_assert(ci->callstatus & CIST_HOOKED); /* must be inside a hook */
lua_unlock(L);
return 0; /* return to 'luaD_hook' */
}
int luaD_pcall (lua_State *L, Pfunc func, void *u,
ptrdiff_t old_top, ptrdiff_t ef) {
int status;
CallInfo *old_ci = L->ci;
lu_byte old_allowhooks = L->allowhook;
unsigned short old_nny = L->nny;
ptrdiff_t old_errfunc = L->errfunc;
L->errfunc = ef;
status = luaD_rawrunprotected(L, func, u);
if (status != LUA_OK) { /* an error occurred? */
StkId oldtop = restorestack(L, old_top);
luaF_close(L, oldtop); /* close possible pending closures */
seterrorobj(L, status, oldtop);
L->ci = old_ci;
L->allowhook = old_allowhooks;
L->nny = old_nny;
luaD_shrinkstack(L);
}
L->errfunc = old_errfunc;
return status;
}
/*
** Execute a protected parser.
*/
struct SParser { /* data to `f_parser' */
ZIO *z;
Mbuffer buff; /* dynamic structure used by the scanner */
Dyndata dyd; /* dynamic structures used by the parser */
const char *mode;
const char *name;
};
static void checkmode (lua_State *L, const char *mode, const char *x) {
if (mode && strchr(mode, x[0]) == NULL) {
luaO_pushfstring(L,
"attempt to load a %s chunk (mode is " LUA_QS ")", x, mode);
luaD_throw(L, LUA_ERRSYNTAX);
}
}
static void f_parser (lua_State *L, void *ud) {
int i;
Closure *cl;
struct SParser *p = cast(struct SParser *, ud);
int c = zgetc(p->z); /* read first character */
if (c == LUA_SIGNATURE[0]) {
checkmode(L, p->mode, "binary");
cl = luaU_undump(L, p->z, &p->buff, p->name);
}
else {
checkmode(L, p->mode, "text");
cl = luaY_parser(L, p->z, &p->buff, &p->dyd, p->name, c);
}
lua_assert(cl->l.nupvalues == cl->l.p->sizeupvalues);
for (i = 0; i < cl->l.nupvalues; i++) { /* initialize upvalues */
UpVal *up = luaF_newupval(L);
cl->l.upvals[i] = up;
luaC_objbarrier(L, cl, up);
}
}
int luaD_protectedparser (lua_State *L, ZIO *z, const char *name,
const char *mode) {
struct SParser p;
int status;
L->nny++; /* cannot yield during parsing */
p.z = z; p.name = name; p.mode = mode;
p.dyd.actvar.arr = NULL; p.dyd.actvar.size = 0;
p.dyd.gt.arr = NULL; p.dyd.gt.size = 0;
p.dyd.label.arr = NULL; p.dyd.label.size = 0;
luaZ_initbuffer(L, &p.buff);
status = luaD_pcall(L, f_parser, &p, savestack(L, L->top), L->errfunc);
luaZ_freebuffer(L, &p.buff);
luaM_freearray(L, p.dyd.actvar.arr, p.dyd.actvar.size);
luaM_freearray(L, p.dyd.gt.arr, p.dyd.gt.size);
luaM_freearray(L, p.dyd.label.arr, p.dyd.label.size);
L->nny--;
return status;
}

173
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/*
** $Id: ldump.c,v 2.17.1.1 2013/04/12 18:48:47 roberto Exp $
** save precompiled Lua chunks
** See Copyright Notice in lua.h
*/
#include <stddef.h>
#define ldump_c
#define LUA_CORE
#include "lua.h"
#include "lobject.h"
#include "lstate.h"
#include "lundump.h"
typedef struct {
lua_State* L;
lua_Writer writer;
void* data;
int strip;
int status;
} DumpState;
#define DumpMem(b,n,size,D) DumpBlock(b,(n)*(size),D)
#define DumpVar(x,D) DumpMem(&x,1,sizeof(x),D)
static void DumpBlock(const void* b, size_t size, DumpState* D)
{
if (D->status==0)
{
lua_unlock(D->L);
D->status=(*D->writer)(D->L,b,size,D->data);
lua_lock(D->L);
}
}
static void DumpChar(int y, DumpState* D)
{
char x=(char)y;
DumpVar(x,D);
}
static void DumpInt(int x, DumpState* D)
{
DumpVar(x,D);
}
static void DumpNumber(lua_Number x, DumpState* D)
{
DumpVar(x,D);
}
static void DumpVector(const void* b, int n, size_t size, DumpState* D)
{
DumpInt(n,D);
DumpMem(b,n,size,D);
}
static void DumpString(const TString* s, DumpState* D)
{
if (s==NULL)
{
size_t size=0;
DumpVar(size,D);
}
else
{
size_t size=s->tsv.len+1; /* include trailing '\0' */
DumpVar(size,D);
DumpBlock(getstr(s),size*sizeof(char),D);
}
}
#define DumpCode(f,D) DumpVector(f->code,f->sizecode,sizeof(Instruction),D)
static void DumpFunction(const Proto* f, DumpState* D);
static void DumpConstants(const Proto* f, DumpState* D)
{
int i,n=f->sizek;
DumpInt(n,D);
for (i=0; i<n; i++)
{
const TValue* o=&f->k[i];
DumpChar(ttypenv(o),D);
switch (ttypenv(o))
{
case LUA_TNIL:
break;
case LUA_TBOOLEAN:
DumpChar(bvalue(o),D);
break;
case LUA_TNUMBER:
DumpNumber(nvalue(o),D);
break;
case LUA_TSTRING:
DumpString(rawtsvalue(o),D);
break;
default: lua_assert(0);
}
}
n=f->sizep;
DumpInt(n,D);
for (i=0; i<n; i++) DumpFunction(f->p[i],D);
}
static void DumpUpvalues(const Proto* f, DumpState* D)
{
int i,n=f->sizeupvalues;
DumpInt(n,D);
for (i=0; i<n; i++)
{
DumpChar(f->upvalues[i].instack,D);
DumpChar(f->upvalues[i].idx,D);
}
}
static void DumpDebug(const Proto* f, DumpState* D)
{
int i,n;
DumpString((D->strip) ? NULL : f->source,D);
n= (D->strip) ? 0 : f->sizelineinfo;
DumpVector(f->lineinfo,n,sizeof(int),D);
n= (D->strip) ? 0 : f->sizelocvars;
DumpInt(n,D);
for (i=0; i<n; i++)
{
DumpString(f->locvars[i].varname,D);
DumpInt(f->locvars[i].startpc,D);
DumpInt(f->locvars[i].endpc,D);
}
n= (D->strip) ? 0 : f->sizeupvalues;
DumpInt(n,D);
for (i=0; i<n; i++) DumpString(f->upvalues[i].name,D);
}
static void DumpFunction(const Proto* f, DumpState* D)
{
DumpInt(f->linedefined,D);
DumpInt(f->lastlinedefined,D);
DumpChar(f->numparams,D);
DumpChar(f->is_vararg,D);
DumpChar(f->maxstacksize,D);
DumpCode(f,D);
DumpConstants(f,D);
DumpUpvalues(f,D);
DumpDebug(f,D);
}
static void DumpHeader(DumpState* D)
{
lu_byte h[LUAC_HEADERSIZE];
luaU_header(h);
DumpBlock(h,LUAC_HEADERSIZE,D);
}
/*
** dump Lua function as precompiled chunk
*/
int luaU_dump (lua_State* L, const Proto* f, lua_Writer w, void* data, int strip)
{
DumpState D;
D.L=L;
D.writer=w;
D.data=data;
D.strip=strip;
D.status=0;
DumpHeader(&D);
DumpFunction(f,&D);
return D.status;
}

161
ext/lua/src/lfunc.c Normal file
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/*
** $Id: lfunc.c,v 2.30.1.1 2013/04/12 18:48:47 roberto Exp $
** Auxiliary functions to manipulate prototypes and closures
** See Copyright Notice in lua.h
*/
#include <stddef.h>
#define lfunc_c
#define LUA_CORE
#include "lua.h"
#include "lfunc.h"
#include "lgc.h"
#include "lmem.h"
#include "lobject.h"
#include "lstate.h"
Closure *luaF_newCclosure (lua_State *L, int n) {
Closure *c = &luaC_newobj(L, LUA_TCCL, sizeCclosure(n), NULL, 0)->cl;
c->c.nupvalues = cast_byte(n);
return c;
}
Closure *luaF_newLclosure (lua_State *L, int n) {
Closure *c = &luaC_newobj(L, LUA_TLCL, sizeLclosure(n), NULL, 0)->cl;
c->l.p = NULL;
c->l.nupvalues = cast_byte(n);
while (n--) c->l.upvals[n] = NULL;
return c;
}
UpVal *luaF_newupval (lua_State *L) {
UpVal *uv = &luaC_newobj(L, LUA_TUPVAL, sizeof(UpVal), NULL, 0)->uv;
uv->v = &uv->u.value;
setnilvalue(uv->v);
return uv;
}
UpVal *luaF_findupval (lua_State *L, StkId level) {
global_State *g = G(L);
GCObject **pp = &L->openupval;
UpVal *p;
UpVal *uv;
while (*pp != NULL && (p = gco2uv(*pp))->v >= level) {
GCObject *o = obj2gco(p);
lua_assert(p->v != &p->u.value);
lua_assert(!isold(o) || isold(obj2gco(L)));
if (p->v == level) { /* found a corresponding upvalue? */
if (isdead(g, o)) /* is it dead? */
changewhite(o); /* resurrect it */
return p;
}
pp = &p->next;
}
/* not found: create a new one */
uv = &luaC_newobj(L, LUA_TUPVAL, sizeof(UpVal), pp, 0)->uv;
uv->v = level; /* current value lives in the stack */
uv->u.l.prev = &g->uvhead; /* double link it in `uvhead' list */
uv->u.l.next = g->uvhead.u.l.next;
uv->u.l.next->u.l.prev = uv;
g->uvhead.u.l.next = uv;
lua_assert(uv->u.l.next->u.l.prev == uv && uv->u.l.prev->u.l.next == uv);
return uv;
}
static void unlinkupval (UpVal *uv) {
lua_assert(uv->u.l.next->u.l.prev == uv && uv->u.l.prev->u.l.next == uv);
uv->u.l.next->u.l.prev = uv->u.l.prev; /* remove from `uvhead' list */
uv->u.l.prev->u.l.next = uv->u.l.next;
}
void luaF_freeupval (lua_State *L, UpVal *uv) {
if (uv->v != &uv->u.value) /* is it open? */
unlinkupval(uv); /* remove from open list */
luaM_free(L, uv); /* free upvalue */
}
void luaF_close (lua_State *L, StkId level) {
UpVal *uv;
global_State *g = G(L);
while (L->openupval != NULL && (uv = gco2uv(L->openupval))->v >= level) {
GCObject *o = obj2gco(uv);
lua_assert(!isblack(o) && uv->v != &uv->u.value);
L->openupval = uv->next; /* remove from `open' list */
if (isdead(g, o))
luaF_freeupval(L, uv); /* free upvalue */
else {
unlinkupval(uv); /* remove upvalue from 'uvhead' list */
setobj(L, &uv->u.value, uv->v); /* move value to upvalue slot */
uv->v = &uv->u.value; /* now current value lives here */
gch(o)->next = g->allgc; /* link upvalue into 'allgc' list */
g->allgc = o;
luaC_checkupvalcolor(g, uv);
}
}
}
Proto *luaF_newproto (lua_State *L) {
Proto *f = &luaC_newobj(L, LUA_TPROTO, sizeof(Proto), NULL, 0)->p;
f->k = NULL;
f->sizek = 0;
f->p = NULL;
f->sizep = 0;
f->code = NULL;
f->cache = NULL;
f->sizecode = 0;
f->lineinfo = NULL;
f->sizelineinfo = 0;
f->upvalues = NULL;
f->sizeupvalues = 0;
f->numparams = 0;
f->is_vararg = 0;
f->maxstacksize = 0;
f->locvars = NULL;
f->sizelocvars = 0;
f->linedefined = 0;
f->lastlinedefined = 0;
f->source = NULL;
return f;
}
void luaF_freeproto (lua_State *L, Proto *f) {
luaM_freearray(L, f->code, f->sizecode);
luaM_freearray(L, f->p, f->sizep);
luaM_freearray(L, f->k, f->sizek);
luaM_freearray(L, f->lineinfo, f->sizelineinfo);
luaM_freearray(L, f->locvars, f->sizelocvars);
luaM_freearray(L, f->upvalues, f->sizeupvalues);
luaM_free(L, f);
}
/*
** Look for n-th local variable at line `line' in function `func'.
** Returns NULL if not found.
*/
const char *luaF_getlocalname (const Proto *f, int local_number, int pc) {
int i;
for (i = 0; i<f->sizelocvars && f->locvars[i].startpc <= pc; i++) {
if (pc < f->locvars[i].endpc) { /* is variable active? */
local_number--;
if (local_number == 0)
return getstr(f->locvars[i].varname);
}
}
return NULL; /* not found */
}

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ext/lua/src/lgc.c Normal file
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ext/lua/src/linit.c Normal file
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/*
** $Id: linit.c,v 1.32.1.1 2013/04/12 18:48:47 roberto Exp $
** Initialization of libraries for lua.c and other clients
** See Copyright Notice in lua.h
*/
/*
** If you embed Lua in your program and need to open the standard
** libraries, call luaL_openlibs in your program. If you need a
** different set of libraries, copy this file to your project and edit
** it to suit your needs.
*/
#define linit_c
#define LUA_LIB
#include "lua.h"
#include "lualib.h"
#include "lauxlib.h"
/*
** these libs are loaded by lua.c and are readily available to any Lua
** program
*/
static const luaL_Reg loadedlibs[] = {
{"_G", luaopen_base},
{LUA_LOADLIBNAME, luaopen_package},
{LUA_COLIBNAME, luaopen_coroutine},
{LUA_TABLIBNAME, luaopen_table},
{LUA_IOLIBNAME, luaopen_io},
{LUA_OSLIBNAME, luaopen_os},
{LUA_STRLIBNAME, luaopen_string},
{LUA_BITLIBNAME, luaopen_bit32},
{LUA_MATHLIBNAME, luaopen_math},
{LUA_DBLIBNAME, luaopen_debug},
{NULL, NULL}
};
/*
** these libs are preloaded and must be required before used
*/
static const luaL_Reg preloadedlibs[] = {
{NULL, NULL}
};
LUALIB_API void luaL_openlibs (lua_State *L) {
const luaL_Reg *lib;
/* call open functions from 'loadedlibs' and set results to global table */
for (lib = loadedlibs; lib->func; lib++) {
luaL_requiref(L, lib->name, lib->func, 1);
lua_pop(L, 1); /* remove lib */
}
/* add open functions from 'preloadedlibs' into 'package.preload' table */
luaL_getsubtable(L, LUA_REGISTRYINDEX, "_PRELOAD");
for (lib = preloadedlibs; lib->func; lib++) {
lua_pushcfunction(L, lib->func);
lua_setfield(L, -2, lib->name);
}
lua_pop(L, 1); /* remove _PRELOAD table */
}

666
ext/lua/src/liolib.c Normal file
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/*
** $Id: liolib.c,v 2.112.1.1 2013/04/12 18:48:47 roberto Exp $
** Standard I/O (and system) library
** See Copyright Notice in lua.h
*/
/*
** This definition must come before the inclusion of 'stdio.h'; it
** should not affect non-POSIX systems
*/
#if !defined(_FILE_OFFSET_BITS)
#define _LARGEFILE_SOURCE 1
#define _FILE_OFFSET_BITS 64
#endif
#include <errno.h>
#include <stdio.h>
#include <stdlib.h>
#include <string.h>
#define liolib_c
#define LUA_LIB
#include "lua.h"
#include "lauxlib.h"
#include "lualib.h"
#if !defined(lua_checkmode)
/*
** Check whether 'mode' matches '[rwa]%+?b?'.
** Change this macro to accept other modes for 'fopen' besides
** the standard ones.
*/
#define lua_checkmode(mode) \
(*mode != '\0' && strchr("rwa", *(mode++)) != NULL && \
(*mode != '+' || ++mode) && /* skip if char is '+' */ \
(*mode != 'b' || ++mode) && /* skip if char is 'b' */ \
(*mode == '\0'))
#endif
/*
** {======================================================
** lua_popen spawns a new process connected to the current
** one through the file streams.
** =======================================================
*/
#if !defined(lua_popen) /* { */
#if defined(LUA_USE_POPEN) /* { */
#define lua_popen(L,c,m) ((void)L, fflush(NULL), popen(c,m))
#define lua_pclose(L,file) ((void)L, pclose(file))
#elif defined(LUA_WIN) /* }{ */
#define lua_popen(L,c,m) ((void)L, _popen(c,m))
#define lua_pclose(L,file) ((void)L, _pclose(file))
#else /* }{ */
#define lua_popen(L,c,m) ((void)((void)c, m), \
luaL_error(L, LUA_QL("popen") " not supported"), (FILE*)0)
#define lua_pclose(L,file) ((void)((void)L, file), -1)
#endif /* } */
#endif /* } */
/* }====================================================== */
/*
** {======================================================
** lua_fseek: configuration for longer offsets
** =======================================================
*/
#if !defined(lua_fseek) && !defined(LUA_ANSI) /* { */
#if defined(LUA_USE_POSIX) /* { */
#define l_fseek(f,o,w) fseeko(f,o,w)
#define l_ftell(f) ftello(f)
#define l_seeknum off_t
#elif defined(LUA_WIN) && !defined(_CRTIMP_TYPEINFO) \
&& defined(_MSC_VER) && (_MSC_VER >= 1400) /* }{ */
/* Windows (but not DDK) and Visual C++ 2005 or higher */
#define l_fseek(f,o,w) _fseeki64(f,o,w)
#define l_ftell(f) _ftelli64(f)
#define l_seeknum __int64
#endif /* } */
#endif /* } */
#if !defined(l_fseek) /* default definitions */
#define l_fseek(f,o,w) fseek(f,o,w)
#define l_ftell(f) ftell(f)
#define l_seeknum long
#endif
/* }====================================================== */
#define IO_PREFIX "_IO_"
#define IO_INPUT (IO_PREFIX "input")
#define IO_OUTPUT (IO_PREFIX "output")
typedef luaL_Stream LStream;
#define tolstream(L) ((LStream *)luaL_checkudata(L, 1, LUA_FILEHANDLE))
#define isclosed(p) ((p)->closef == NULL)
static int io_type (lua_State *L) {
LStream *p;
luaL_checkany(L, 1);
p = (LStream *)luaL_testudata(L, 1, LUA_FILEHANDLE);
if (p == NULL)
lua_pushnil(L); /* not a file */
else if (isclosed(p))
lua_pushliteral(L, "closed file");
else
lua_pushliteral(L, "file");
return 1;
}
static int f_tostring (lua_State *L) {
LStream *p = tolstream(L);
if (isclosed(p))
lua_pushliteral(L, "file (closed)");
else
lua_pushfstring(L, "file (%p)", p->f);
return 1;
}
static FILE *tofile (lua_State *L) {
LStream *p = tolstream(L);
if (isclosed(p))
luaL_error(L, "attempt to use a closed file");
lua_assert(p->f);
return p->f;
}
/*
** When creating file handles, always creates a `closed' file handle
** before opening the actual file; so, if there is a memory error, the
** file is not left opened.
*/
static LStream *newprefile (lua_State *L) {
LStream *p = (LStream *)lua_newuserdata(L, sizeof(LStream));
p->closef = NULL; /* mark file handle as 'closed' */
luaL_setmetatable(L, LUA_FILEHANDLE);
return p;
}
static int aux_close (lua_State *L) {
LStream *p = tolstream(L);
lua_CFunction cf = p->closef;
p->closef = NULL; /* mark stream as closed */
return (*cf)(L); /* close it */
}
static int io_close (lua_State *L) {
if (lua_isnone(L, 1)) /* no argument? */
lua_getfield(L, LUA_REGISTRYINDEX, IO_OUTPUT); /* use standard output */
tofile(L); /* make sure argument is an open stream */
return aux_close(L);
}
static int f_gc (lua_State *L) {
LStream *p = tolstream(L);
if (!isclosed(p) && p->f != NULL)
aux_close(L); /* ignore closed and incompletely open files */
return 0;
}
/*
** function to close regular files
*/
static int io_fclose (lua_State *L) {
LStream *p = tolstream(L);
int res = fclose(p->f);
return luaL_fileresult(L, (res == 0), NULL);
}
static LStream *newfile (lua_State *L) {
LStream *p = newprefile(L);
p->f = NULL;
p->closef = &io_fclose;
return p;
}
static void opencheck (lua_State *L, const char *fname, const char *mode) {
LStream *p = newfile(L);
p->f = fopen(fname, mode);
if (p->f == NULL)
luaL_error(L, "cannot open file " LUA_QS " (%s)", fname, strerror(errno));
}
static int io_open (lua_State *L) {
const char *filename = luaL_checkstring(L, 1);
const char *mode = luaL_optstring(L, 2, "r");
LStream *p = newfile(L);
const char *md = mode; /* to traverse/check mode */
luaL_argcheck(L, lua_checkmode(md), 2, "invalid mode");
p->f = fopen(filename, mode);
return (p->f == NULL) ? luaL_fileresult(L, 0, filename) : 1;
}
/*
** function to close 'popen' files
*/
static int io_pclose (lua_State *L) {
LStream *p = tolstream(L);
return luaL_execresult(L, lua_pclose(L, p->f));
}
static int io_popen (lua_State *L) {
const char *filename = luaL_checkstring(L, 1);
const char *mode = luaL_optstring(L, 2, "r");
LStream *p = newprefile(L);
p->f = lua_popen(L, filename, mode);
p->closef = &io_pclose;
return (p->f == NULL) ? luaL_fileresult(L, 0, filename) : 1;
}
static int io_tmpfile (lua_State *L) {
LStream *p = newfile(L);
p->f = tmpfile();
return (p->f == NULL) ? luaL_fileresult(L, 0, NULL) : 1;
}
static FILE *getiofile (lua_State *L, const char *findex) {
LStream *p;
lua_getfield(L, LUA_REGISTRYINDEX, findex);
p = (LStream *)lua_touserdata(L, -1);
if (isclosed(p))
luaL_error(L, "standard %s file is closed", findex + strlen(IO_PREFIX));
return p->f;
}
static int g_iofile (lua_State *L, const char *f, const char *mode) {
if (!lua_isnoneornil(L, 1)) {
const char *filename = lua_tostring(L, 1);
if (filename)
opencheck(L, filename, mode);
else {
tofile(L); /* check that it's a valid file handle */
lua_pushvalue(L, 1);
}
lua_setfield(L, LUA_REGISTRYINDEX, f);
}
/* return current value */
lua_getfield(L, LUA_REGISTRYINDEX, f);
return 1;
}
static int io_input (lua_State *L) {
return g_iofile(L, IO_INPUT, "r");
}
static int io_output (lua_State *L) {
return g_iofile(L, IO_OUTPUT, "w");
}
static int io_readline (lua_State *L);
static void aux_lines (lua_State *L, int toclose) {
int i;
int n = lua_gettop(L) - 1; /* number of arguments to read */
/* ensure that arguments will fit here and into 'io_readline' stack */
luaL_argcheck(L, n <= LUA_MINSTACK - 3, LUA_MINSTACK - 3, "too many options");
lua_pushvalue(L, 1); /* file handle */
lua_pushinteger(L, n); /* number of arguments to read */
lua_pushboolean(L, toclose); /* close/not close file when finished */
for (i = 1; i <= n; i++) lua_pushvalue(L, i + 1); /* copy arguments */
lua_pushcclosure(L, io_readline, 3 + n);
}
static int f_lines (lua_State *L) {
tofile(L); /* check that it's a valid file handle */
aux_lines(L, 0);
return 1;
}
static int io_lines (lua_State *L) {
int toclose;
if (lua_isnone(L, 1)) lua_pushnil(L); /* at least one argument */
if (lua_isnil(L, 1)) { /* no file name? */
lua_getfield(L, LUA_REGISTRYINDEX, IO_INPUT); /* get default input */
lua_replace(L, 1); /* put it at index 1 */
tofile(L); /* check that it's a valid file handle */
toclose = 0; /* do not close it after iteration */
}
else { /* open a new file */
const char *filename = luaL_checkstring(L, 1);
opencheck(L, filename, "r");
lua_replace(L, 1); /* put file at index 1 */
toclose = 1; /* close it after iteration */
}
aux_lines(L, toclose);
return 1;
}
/*
** {======================================================
** READ
** =======================================================
*/
static int read_number (lua_State *L, FILE *f) {
lua_Number d;
if (fscanf(f, LUA_NUMBER_SCAN, &d) == 1) {
lua_pushnumber(L, d);
return 1;
}
else {
lua_pushnil(L); /* "result" to be removed */
return 0; /* read fails */
}
}
static int test_eof (lua_State *L, FILE *f) {
int c = getc(f);
ungetc(c, f);
lua_pushlstring(L, NULL, 0);
return (c != EOF);
}
static int read_line (lua_State *L, FILE *f, int chop) {
luaL_Buffer b;
luaL_buffinit(L, &b);
for (;;) {
size_t l;
char *p = luaL_prepbuffer(&b);
if (fgets(p, LUAL_BUFFERSIZE, f) == NULL) { /* eof? */
luaL_pushresult(&b); /* close buffer */
return (lua_rawlen(L, -1) > 0); /* check whether read something */
}
l = strlen(p);
if (l == 0 || p[l-1] != '\n')
luaL_addsize(&b, l);
else {
luaL_addsize(&b, l - chop); /* chop 'eol' if needed */
luaL_pushresult(&b); /* close buffer */
return 1; /* read at least an `eol' */
}
}
}
#define MAX_SIZE_T (~(size_t)0)
static void read_all (lua_State *L, FILE *f) {
size_t rlen = LUAL_BUFFERSIZE; /* how much to read in each cycle */
luaL_Buffer b;
luaL_buffinit(L, &b);
for (;;) {
char *p = luaL_prepbuffsize(&b, rlen);
size_t nr = fread(p, sizeof(char), rlen, f);
luaL_addsize(&b, nr);
if (nr < rlen) break; /* eof? */
else if (rlen <= (MAX_SIZE_T / 4)) /* avoid buffers too large */
rlen *= 2; /* double buffer size at each iteration */
}
luaL_pushresult(&b); /* close buffer */
}
static int read_chars (lua_State *L, FILE *f, size_t n) {
size_t nr; /* number of chars actually read */
char *p;
luaL_Buffer b;
luaL_buffinit(L, &b);
p = luaL_prepbuffsize(&b, n); /* prepare buffer to read whole block */
nr = fread(p, sizeof(char), n, f); /* try to read 'n' chars */
luaL_addsize(&b, nr);
luaL_pushresult(&b); /* close buffer */
return (nr > 0); /* true iff read something */
}
static int g_read (lua_State *L, FILE *f, int first) {
int nargs = lua_gettop(L) - 1;
int success;
int n;
clearerr(f);
if (nargs == 0) { /* no arguments? */
success = read_line(L, f, 1);
n = first+1; /* to return 1 result */
}
else { /* ensure stack space for all results and for auxlib's buffer */
luaL_checkstack(L, nargs+LUA_MINSTACK, "too many arguments");
success = 1;
for (n = first; nargs-- && success; n++) {
if (lua_type(L, n) == LUA_TNUMBER) {
size_t l = (size_t)lua_tointeger(L, n);
success = (l == 0) ? test_eof(L, f) : read_chars(L, f, l);
}
else {
const char *p = lua_tostring(L, n);
luaL_argcheck(L, p && p[0] == '*', n, "invalid option");
switch (p[1]) {
case 'n': /* number */
success = read_number(L, f);
break;
case 'l': /* line */
success = read_line(L, f, 1);
break;
case 'L': /* line with end-of-line */
success = read_line(L, f, 0);
break;
case 'a': /* file */
read_all(L, f); /* read entire file */
success = 1; /* always success */
break;
default:
return luaL_argerror(L, n, "invalid format");
}
}
}
}
if (ferror(f))
return luaL_fileresult(L, 0, NULL);
if (!success) {
lua_pop(L, 1); /* remove last result */
lua_pushnil(L); /* push nil instead */
}
return n - first;
}
static int io_read (lua_State *L) {
return g_read(L, getiofile(L, IO_INPUT), 1);
}
static int f_read (lua_State *L) {
return g_read(L, tofile(L), 2);
}
static int io_readline (lua_State *L) {
LStream *p = (LStream *)lua_touserdata(L, lua_upvalueindex(1));
int i;
int n = (int)lua_tointeger(L, lua_upvalueindex(2));
if (isclosed(p)) /* file is already closed? */
return luaL_error(L, "file is already closed");
lua_settop(L , 1);
for (i = 1; i <= n; i++) /* push arguments to 'g_read' */
lua_pushvalue(L, lua_upvalueindex(3 + i));
n = g_read(L, p->f, 2); /* 'n' is number of results */
lua_assert(n > 0); /* should return at least a nil */
if (!lua_isnil(L, -n)) /* read at least one value? */
return n; /* return them */
else { /* first result is nil: EOF or error */
if (n > 1) { /* is there error information? */
/* 2nd result is error message */
return luaL_error(L, "%s", lua_tostring(L, -n + 1));
}
if (lua_toboolean(L, lua_upvalueindex(3))) { /* generator created file? */
lua_settop(L, 0);
lua_pushvalue(L, lua_upvalueindex(1));
aux_close(L); /* close it */
}
return 0;
}
}
/* }====================================================== */
static int g_write (lua_State *L, FILE *f, int arg) {
int nargs = lua_gettop(L) - arg;
int status = 1;
for (; nargs--; arg++) {
if (lua_type(L, arg) == LUA_TNUMBER) {
/* optimization: could be done exactly as for strings */
status = status &&
fprintf(f, LUA_NUMBER_FMT, lua_tonumber(L, arg)) > 0;
}
else {
size_t l;
const char *s = luaL_checklstring(L, arg, &l);
status = status && (fwrite(s, sizeof(char), l, f) == l);
}
}
if (status) return 1; /* file handle already on stack top */
else return luaL_fileresult(L, status, NULL);
}
static int io_write (lua_State *L) {
return g_write(L, getiofile(L, IO_OUTPUT), 1);
}
static int f_write (lua_State *L) {
FILE *f = tofile(L);
lua_pushvalue(L, 1); /* push file at the stack top (to be returned) */
return g_write(L, f, 2);
}
static int f_seek (lua_State *L) {
static const int mode[] = {SEEK_SET, SEEK_CUR, SEEK_END};
static const char *const modenames[] = {"set", "cur", "end", NULL};
FILE *f = tofile(L);
int op = luaL_checkoption(L, 2, "cur", modenames);
lua_Number p3 = luaL_optnumber(L, 3, 0);
l_seeknum offset = (l_seeknum)p3;
luaL_argcheck(L, (lua_Number)offset == p3, 3,
"not an integer in proper range");
op = l_fseek(f, offset, mode[op]);
if (op)
return luaL_fileresult(L, 0, NULL); /* error */
else {
lua_pushnumber(L, (lua_Number)l_ftell(f));
return 1;
}
}
static int f_setvbuf (lua_State *L) {
static const int mode[] = {_IONBF, _IOFBF, _IOLBF};
static const char *const modenames[] = {"no", "full", "line", NULL};
FILE *f = tofile(L);
int op = luaL_checkoption(L, 2, NULL, modenames);
lua_Integer sz = luaL_optinteger(L, 3, LUAL_BUFFERSIZE);
int res = setvbuf(f, NULL, mode[op], sz);
return luaL_fileresult(L, res == 0, NULL);
}
static int io_flush (lua_State *L) {
return luaL_fileresult(L, fflush(getiofile(L, IO_OUTPUT)) == 0, NULL);
}
static int f_flush (lua_State *L) {
return luaL_fileresult(L, fflush(tofile(L)) == 0, NULL);
}
/*
** functions for 'io' library
*/
static const luaL_Reg iolib[] = {
{"close", io_close},
{"flush", io_flush},
{"input", io_input},
{"lines", io_lines},
{"open", io_open},
{"output", io_output},
{"popen", io_popen},
{"read", io_read},
{"tmpfile", io_tmpfile},
{"type", io_type},
{"write", io_write},
{NULL, NULL}
};
/*
** methods for file handles
*/
static const luaL_Reg flib[] = {
{"close", io_close},
{"flush", f_flush},
{"lines", f_lines},
{"read", f_read},
{"seek", f_seek},
{"setvbuf", f_setvbuf},
{"write", f_write},
{"__gc", f_gc},
{"__tostring", f_tostring},
{NULL, NULL}
};
static void createmeta (lua_State *L) {
luaL_newmetatable(L, LUA_FILEHANDLE); /* create metatable for file handles */
lua_pushvalue(L, -1); /* push metatable */
lua_setfield(L, -2, "__index"); /* metatable.__index = metatable */
luaL_setfuncs(L, flib, 0); /* add file methods to new metatable */
lua_pop(L, 1); /* pop new metatable */
}
/*
** function to (not) close the standard files stdin, stdout, and stderr
*/
static int io_noclose (lua_State *L) {
LStream *p = tolstream(L);
p->closef = &io_noclose; /* keep file opened */
lua_pushnil(L);
lua_pushliteral(L, "cannot close standard file");
return 2;
}
static void createstdfile (lua_State *L, FILE *f, const char *k,
const char *fname) {
LStream *p = newprefile(L);
p->f = f;
p->closef = &io_noclose;
if (k != NULL) {
lua_pushvalue(L, -1);
lua_setfield(L, LUA_REGISTRYINDEX, k); /* add file to registry */
}
lua_setfield(L, -2, fname); /* add file to module */
}
LUAMOD_API int luaopen_io (lua_State *L) {
luaL_newlib(L, iolib); /* new module */
createmeta(L);
/* create (and set) default files */
createstdfile(L, stdin, IO_INPUT, "stdin");
createstdfile(L, stdout, IO_OUTPUT, "stdout");
createstdfile(L, stderr, NULL, "stderr");
return 1;
}

530
ext/lua/src/llex.c Normal file
View File

@@ -0,0 +1,530 @@
/*
** $Id: llex.c,v 2.63.1.2 2013/08/30 15:49:41 roberto Exp $
** Lexical Analyzer
** See Copyright Notice in lua.h
*/
#include <locale.h>
#include <string.h>
#define llex_c
#define LUA_CORE
#include "lua.h"
#include "lctype.h"
#include "ldo.h"
#include "llex.h"
#include "lobject.h"
#include "lparser.h"
#include "lstate.h"
#include "lstring.h"
#include "ltable.h"
#include "lzio.h"
#define next(ls) (ls->current = zgetc(ls->z))
#define currIsNewline(ls) (ls->current == '\n' || ls->current == '\r')
/* ORDER RESERVED */
static const char *const luaX_tokens [] = {
"and", "break", "do", "else", "elseif",
"end", "false", "for", "function", "goto", "if",
"in", "local", "nil", "not", "or", "repeat",
"return", "then", "true", "until", "while",
"..", "...", "==", ">=", "<=", "~=", "::", "<eof>",
"<number>", "<name>", "<string>"
};
#define save_and_next(ls) (save(ls, ls->current), next(ls))
static l_noret lexerror (LexState *ls, const char *msg, int token);
static void save (LexState *ls, int c) {
Mbuffer *b = ls->buff;
if (luaZ_bufflen(b) + 1 > luaZ_sizebuffer(b)) {
size_t newsize;
if (luaZ_sizebuffer(b) >= MAX_SIZET/2)
lexerror(ls, "lexical element too long", 0);
newsize = luaZ_sizebuffer(b) * 2;
luaZ_resizebuffer(ls->L, b, newsize);
}
b->buffer[luaZ_bufflen(b)++] = cast(char, c);
}
void luaX_init (lua_State *L) {
int i;
for (i=0; i<NUM_RESERVED; i++) {
TString *ts = luaS_new(L, luaX_tokens[i]);
luaS_fix(ts); /* reserved words are never collected */
ts->tsv.extra = cast_byte(i+1); /* reserved word */
}
}
const char *luaX_token2str (LexState *ls, int token) {
if (token < FIRST_RESERVED) { /* single-byte symbols? */
lua_assert(token == cast(unsigned char, token));
return (lisprint(token)) ? luaO_pushfstring(ls->L, LUA_QL("%c"), token) :
luaO_pushfstring(ls->L, "char(%d)", token);
}
else {
const char *s = luaX_tokens[token - FIRST_RESERVED];
if (token < TK_EOS) /* fixed format (symbols and reserved words)? */
return luaO_pushfstring(ls->L, LUA_QS, s);
else /* names, strings, and numerals */
return s;
}
}
static const char *txtToken (LexState *ls, int token) {
switch (token) {
case TK_NAME:
case TK_STRING:
case TK_NUMBER:
save(ls, '\0');
return luaO_pushfstring(ls->L, LUA_QS, luaZ_buffer(ls->buff));
default:
return luaX_token2str(ls, token);
}
}
static l_noret lexerror (LexState *ls, const char *msg, int token) {
char buff[LUA_IDSIZE];
luaO_chunkid(buff, getstr(ls->source), LUA_IDSIZE);
msg = luaO_pushfstring(ls->L, "%s:%d: %s", buff, ls->linenumber, msg);
if (token)
luaO_pushfstring(ls->L, "%s near %s", msg, txtToken(ls, token));
luaD_throw(ls->L, LUA_ERRSYNTAX);
}
l_noret luaX_syntaxerror (LexState *ls, const char *msg) {
lexerror(ls, msg, ls->t.token);
}
/*
** creates a new string and anchors it in function's table so that
** it will not be collected until the end of the function's compilation
** (by that time it should be anchored in function's prototype)
*/
TString *luaX_newstring (LexState *ls, const char *str, size_t l) {
lua_State *L = ls->L;
TValue *o; /* entry for `str' */
TString *ts = luaS_newlstr(L, str, l); /* create new string */
setsvalue2s(L, L->top++, ts); /* temporarily anchor it in stack */
o = luaH_set(L, ls->fs->h, L->top - 1);
if (ttisnil(o)) { /* not in use yet? (see 'addK') */
/* boolean value does not need GC barrier;
table has no metatable, so it does not need to invalidate cache */
setbvalue(o, 1); /* t[string] = true */
luaC_checkGC(L);
}
else { /* string already present */
ts = rawtsvalue(keyfromval(o)); /* re-use value previously stored */
}
L->top--; /* remove string from stack */
return ts;
}
/*
** increment line number and skips newline sequence (any of
** \n, \r, \n\r, or \r\n)
*/
static void inclinenumber (LexState *ls) {
int old = ls->current;
lua_assert(currIsNewline(ls));
next(ls); /* skip `\n' or `\r' */
if (currIsNewline(ls) && ls->current != old)
next(ls); /* skip `\n\r' or `\r\n' */
if (++ls->linenumber >= MAX_INT)
luaX_syntaxerror(ls, "chunk has too many lines");
}
void luaX_setinput (lua_State *L, LexState *ls, ZIO *z, TString *source,
int firstchar) {
ls->decpoint = '.';
ls->L = L;
ls->current = firstchar;
ls->lookahead.token = TK_EOS; /* no look-ahead token */
ls->z = z;
ls->fs = NULL;
ls->linenumber = 1;
ls->lastline = 1;
ls->source = source;
ls->envn = luaS_new(L, LUA_ENV); /* create env name */
luaS_fix(ls->envn); /* never collect this name */
luaZ_resizebuffer(ls->L, ls->buff, LUA_MINBUFFER); /* initialize buffer */
}
/*
** =======================================================
** LEXICAL ANALYZER
** =======================================================
*/
static int check_next (LexState *ls, const char *set) {
if (ls->current == '\0' || !strchr(set, ls->current))
return 0;
save_and_next(ls);
return 1;
}
/*
** change all characters 'from' in buffer to 'to'
*/
static void buffreplace (LexState *ls, char from, char to) {
size_t n = luaZ_bufflen(ls->buff);
char *p = luaZ_buffer(ls->buff);
while (n--)
if (p[n] == from) p[n] = to;
}
#if !defined(getlocaledecpoint)
#define getlocaledecpoint() (localeconv()->decimal_point[0])
#endif
#define buff2d(b,e) luaO_str2d(luaZ_buffer(b), luaZ_bufflen(b) - 1, e)
/*
** in case of format error, try to change decimal point separator to
** the one defined in the current locale and check again
*/
static void trydecpoint (LexState *ls, SemInfo *seminfo) {
char old = ls->decpoint;
ls->decpoint = getlocaledecpoint();
buffreplace(ls, old, ls->decpoint); /* try new decimal separator */
if (!buff2d(ls->buff, &seminfo->r)) {
/* format error with correct decimal point: no more options */
buffreplace(ls, ls->decpoint, '.'); /* undo change (for error message) */
lexerror(ls, "malformed number", TK_NUMBER);
}
}
/* LUA_NUMBER */
/*
** this function is quite liberal in what it accepts, as 'luaO_str2d'
** will reject ill-formed numerals.
*/
static void read_numeral (LexState *ls, SemInfo *seminfo) {
const char *expo = "Ee";
int first = ls->current;
lua_assert(lisdigit(ls->current));
save_and_next(ls);
if (first == '0' && check_next(ls, "Xx")) /* hexadecimal? */
expo = "Pp";
for (;;) {
if (check_next(ls, expo)) /* exponent part? */
check_next(ls, "+-"); /* optional exponent sign */
if (lisxdigit(ls->current) || ls->current == '.')
save_and_next(ls);
else break;
}
save(ls, '\0');
buffreplace(ls, '.', ls->decpoint); /* follow locale for decimal point */
if (!buff2d(ls->buff, &seminfo->r)) /* format error? */
trydecpoint(ls, seminfo); /* try to update decimal point separator */
}
/*
** skip a sequence '[=*[' or ']=*]' and return its number of '='s or
** -1 if sequence is malformed
*/
static int skip_sep (LexState *ls) {
int count = 0;
int s = ls->current;
lua_assert(s == '[' || s == ']');
save_and_next(ls);
while (ls->current == '=') {
save_and_next(ls);
count++;
}
return (ls->current == s) ? count : (-count) - 1;
}
static void read_long_string (LexState *ls, SemInfo *seminfo, int sep) {
save_and_next(ls); /* skip 2nd `[' */
if (currIsNewline(ls)) /* string starts with a newline? */
inclinenumber(ls); /* skip it */
for (;;) {
switch (ls->current) {
case EOZ:
lexerror(ls, (seminfo) ? "unfinished long string" :
"unfinished long comment", TK_EOS);
break; /* to avoid warnings */
case ']': {
if (skip_sep(ls) == sep) {
save_and_next(ls); /* skip 2nd `]' */
goto endloop;
}
break;
}
case '\n': case '\r': {
save(ls, '\n');
inclinenumber(ls);
if (!seminfo) luaZ_resetbuffer(ls->buff); /* avoid wasting space */
break;
}
default: {
if (seminfo) save_and_next(ls);
else next(ls);
}
}
} endloop:
if (seminfo)
seminfo->ts = luaX_newstring(ls, luaZ_buffer(ls->buff) + (2 + sep),
luaZ_bufflen(ls->buff) - 2*(2 + sep));
}
static void escerror (LexState *ls, int *c, int n, const char *msg) {
int i;
luaZ_resetbuffer(ls->buff); /* prepare error message */
save(ls, '\\');
for (i = 0; i < n && c[i] != EOZ; i++)
save(ls, c[i]);
lexerror(ls, msg, TK_STRING);
}
static int readhexaesc (LexState *ls) {
int c[3], i; /* keep input for error message */
int r = 0; /* result accumulator */
c[0] = 'x'; /* for error message */
for (i = 1; i < 3; i++) { /* read two hexadecimal digits */
c[i] = next(ls);
if (!lisxdigit(c[i]))
escerror(ls, c, i + 1, "hexadecimal digit expected");
r = (r << 4) + luaO_hexavalue(c[i]);
}
return r;
}
static int readdecesc (LexState *ls) {
int c[3], i;
int r = 0; /* result accumulator */
for (i = 0; i < 3 && lisdigit(ls->current); i++) { /* read up to 3 digits */
c[i] = ls->current;
r = 10*r + c[i] - '0';
next(ls);
}
if (r > UCHAR_MAX)
escerror(ls, c, i, "decimal escape too large");
return r;
}
static void read_string (LexState *ls, int del, SemInfo *seminfo) {
save_and_next(ls); /* keep delimiter (for error messages) */
while (ls->current != del) {
switch (ls->current) {
case EOZ:
lexerror(ls, "unfinished string", TK_EOS);
break; /* to avoid warnings */
case '\n':
case '\r':
lexerror(ls, "unfinished string", TK_STRING);
break; /* to avoid warnings */
case '\\': { /* escape sequences */
int c; /* final character to be saved */
next(ls); /* do not save the `\' */
switch (ls->current) {
case 'a': c = '\a'; goto read_save;
case 'b': c = '\b'; goto read_save;
case 'f': c = '\f'; goto read_save;
case 'n': c = '\n'; goto read_save;
case 'r': c = '\r'; goto read_save;
case 't': c = '\t'; goto read_save;
case 'v': c = '\v'; goto read_save;
case 'x': c = readhexaesc(ls); goto read_save;
case '\n': case '\r':
inclinenumber(ls); c = '\n'; goto only_save;
case '\\': case '\"': case '\'':
c = ls->current; goto read_save;
case EOZ: goto no_save; /* will raise an error next loop */
case 'z': { /* zap following span of spaces */
next(ls); /* skip the 'z' */
while (lisspace(ls->current)) {
if (currIsNewline(ls)) inclinenumber(ls);
else next(ls);
}
goto no_save;
}
default: {
if (!lisdigit(ls->current))
escerror(ls, &ls->current, 1, "invalid escape sequence");
/* digital escape \ddd */
c = readdecesc(ls);
goto only_save;
}
}
read_save: next(ls); /* read next character */
only_save: save(ls, c); /* save 'c' */
no_save: break;
}
default:
save_and_next(ls);
}
}
save_and_next(ls); /* skip delimiter */
seminfo->ts = luaX_newstring(ls, luaZ_buffer(ls->buff) + 1,
luaZ_bufflen(ls->buff) - 2);
}
static int llex (LexState *ls, SemInfo *seminfo) {
luaZ_resetbuffer(ls->buff);
for (;;) {
switch (ls->current) {
case '\n': case '\r': { /* line breaks */
inclinenumber(ls);
break;
}
case ' ': case '\f': case '\t': case '\v': { /* spaces */
next(ls);
break;
}
case '-': { /* '-' or '--' (comment) */
next(ls);
if (ls->current != '-') return '-';
/* else is a comment */
next(ls);
if (ls->current == '[') { /* long comment? */
int sep = skip_sep(ls);
luaZ_resetbuffer(ls->buff); /* `skip_sep' may dirty the buffer */
if (sep >= 0) {
read_long_string(ls, NULL, sep); /* skip long comment */
luaZ_resetbuffer(ls->buff); /* previous call may dirty the buff. */
break;
}
}
/* else short comment */
while (!currIsNewline(ls) && ls->current != EOZ)
next(ls); /* skip until end of line (or end of file) */
break;
}
case '[': { /* long string or simply '[' */
int sep = skip_sep(ls);
if (sep >= 0) {
read_long_string(ls, seminfo, sep);
return TK_STRING;
}
else if (sep == -1) return '[';
else lexerror(ls, "invalid long string delimiter", TK_STRING);
}
case '=': {
next(ls);
if (ls->current != '=') return '=';
else { next(ls); return TK_EQ; }
}
case '<': {
next(ls);
if (ls->current != '=') return '<';
else { next(ls); return TK_LE; }
}
case '>': {
next(ls);
if (ls->current != '=') return '>';
else { next(ls); return TK_GE; }
}
case '~': {
next(ls);
if (ls->current != '=') return '~';
else { next(ls); return TK_NE; }
}
case ':': {
next(ls);
if (ls->current != ':') return ':';
else { next(ls); return TK_DBCOLON; }
}
case '"': case '\'': { /* short literal strings */
read_string(ls, ls->current, seminfo);
return TK_STRING;
}
case '.': { /* '.', '..', '...', or number */
save_and_next(ls);
if (check_next(ls, ".")) {
if (check_next(ls, "."))
return TK_DOTS; /* '...' */
else return TK_CONCAT; /* '..' */
}
else if (!lisdigit(ls->current)) return '.';
/* else go through */
}
case '0': case '1': case '2': case '3': case '4':
case '5': case '6': case '7': case '8': case '9': {
read_numeral(ls, seminfo);
return TK_NUMBER;
}
case EOZ: {
return TK_EOS;
}
default: {
if (lislalpha(ls->current)) { /* identifier or reserved word? */
TString *ts;
do {
save_and_next(ls);
} while (lislalnum(ls->current));
ts = luaX_newstring(ls, luaZ_buffer(ls->buff),
luaZ_bufflen(ls->buff));
seminfo->ts = ts;
if (isreserved(ts)) /* reserved word? */
return ts->tsv.extra - 1 + FIRST_RESERVED;
else {
return TK_NAME;
}
}
else { /* single-char tokens (+ - / ...) */
int c = ls->current;
next(ls);
return c;
}
}
}
}
}
void luaX_next (LexState *ls) {
ls->lastline = ls->linenumber;
if (ls->lookahead.token != TK_EOS) { /* is there a look-ahead token? */
ls->t = ls->lookahead; /* use this one */
ls->lookahead.token = TK_EOS; /* and discharge it */
}
else
ls->t.token = llex(ls, &ls->t.seminfo); /* read next token */
}
int luaX_lookahead (LexState *ls) {
lua_assert(ls->lookahead.token == TK_EOS);
ls->lookahead.token = llex(ls, &ls->lookahead.seminfo);
return ls->lookahead.token;
}

279
ext/lua/src/lmathlib.c Normal file
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@@ -0,0 +1,279 @@
/*
** $Id: lmathlib.c,v 1.83.1.1 2013/04/12 18:48:47 roberto Exp $
** Standard mathematical library
** See Copyright Notice in lua.h
*/
#include <stdlib.h>
#include <math.h>
#define lmathlib_c
#define LUA_LIB
#include "lua.h"
#include "lauxlib.h"
#include "lualib.h"
#undef PI
#define PI ((lua_Number)(3.1415926535897932384626433832795))
#define RADIANS_PER_DEGREE ((lua_Number)(PI/180.0))
static int math_abs (lua_State *L) {
lua_pushnumber(L, l_mathop(fabs)(luaL_checknumber(L, 1)));
return 1;
}
static int math_sin (lua_State *L) {
lua_pushnumber(L, l_mathop(sin)(luaL_checknumber(L, 1)));
return 1;
}
static int math_sinh (lua_State *L) {
lua_pushnumber(L, l_mathop(sinh)(luaL_checknumber(L, 1)));
return 1;
}
static int math_cos (lua_State *L) {
lua_pushnumber(L, l_mathop(cos)(luaL_checknumber(L, 1)));
return 1;
}
static int math_cosh (lua_State *L) {
lua_pushnumber(L, l_mathop(cosh)(luaL_checknumber(L, 1)));
return 1;
}
static int math_tan (lua_State *L) {
lua_pushnumber(L, l_mathop(tan)(luaL_checknumber(L, 1)));
return 1;
}
static int math_tanh (lua_State *L) {
lua_pushnumber(L, l_mathop(tanh)(luaL_checknumber(L, 1)));
return 1;
}
static int math_asin (lua_State *L) {
lua_pushnumber(L, l_mathop(asin)(luaL_checknumber(L, 1)));
return 1;
}
static int math_acos (lua_State *L) {
lua_pushnumber(L, l_mathop(acos)(luaL_checknumber(L, 1)));
return 1;
}
static int math_atan (lua_State *L) {
lua_pushnumber(L, l_mathop(atan)(luaL_checknumber(L, 1)));
return 1;
}
static int math_atan2 (lua_State *L) {
lua_pushnumber(L, l_mathop(atan2)(luaL_checknumber(L, 1),
luaL_checknumber(L, 2)));
return 1;
}
static int math_ceil (lua_State *L) {
lua_pushnumber(L, l_mathop(ceil)(luaL_checknumber(L, 1)));
return 1;
}
static int math_floor (lua_State *L) {
lua_pushnumber(L, l_mathop(floor)(luaL_checknumber(L, 1)));
return 1;
}
static int math_fmod (lua_State *L) {
lua_pushnumber(L, l_mathop(fmod)(luaL_checknumber(L, 1),
luaL_checknumber(L, 2)));
return 1;
}
static int math_modf (lua_State *L) {
lua_Number ip;
lua_Number fp = l_mathop(modf)(luaL_checknumber(L, 1), &ip);
lua_pushnumber(L, ip);
lua_pushnumber(L, fp);
return 2;
}
static int math_sqrt (lua_State *L) {
lua_pushnumber(L, l_mathop(sqrt)(luaL_checknumber(L, 1)));
return 1;
}
static int math_pow (lua_State *L) {
lua_Number x = luaL_checknumber(L, 1);
lua_Number y = luaL_checknumber(L, 2);
lua_pushnumber(L, l_mathop(pow)(x, y));
return 1;
}
static int math_log (lua_State *L) {
lua_Number x = luaL_checknumber(L, 1);
lua_Number res;
if (lua_isnoneornil(L, 2))
res = l_mathop(log)(x);
else {
lua_Number base = luaL_checknumber(L, 2);
if (base == (lua_Number)10.0) res = l_mathop(log10)(x);
else res = l_mathop(log)(x)/l_mathop(log)(base);
}
lua_pushnumber(L, res);
return 1;
}
#if defined(LUA_COMPAT_LOG10)
static int math_log10 (lua_State *L) {
lua_pushnumber(L, l_mathop(log10)(luaL_checknumber(L, 1)));
return 1;
}
#endif
static int math_exp (lua_State *L) {
lua_pushnumber(L, l_mathop(exp)(luaL_checknumber(L, 1)));
return 1;
}
static int math_deg (lua_State *L) {
lua_pushnumber(L, luaL_checknumber(L, 1)/RADIANS_PER_DEGREE);
return 1;
}
static int math_rad (lua_State *L) {
lua_pushnumber(L, luaL_checknumber(L, 1)*RADIANS_PER_DEGREE);
return 1;
}
static int math_frexp (lua_State *L) {
int e;
lua_pushnumber(L, l_mathop(frexp)(luaL_checknumber(L, 1), &e));
lua_pushinteger(L, e);
return 2;
}
static int math_ldexp (lua_State *L) {
lua_Number x = luaL_checknumber(L, 1);
int ep = luaL_checkint(L, 2);
lua_pushnumber(L, l_mathop(ldexp)(x, ep));
return 1;
}
static int math_min (lua_State *L) {
int n = lua_gettop(L); /* number of arguments */
lua_Number dmin = luaL_checknumber(L, 1);
int i;
for (i=2; i<=n; i++) {
lua_Number d = luaL_checknumber(L, i);
if (d < dmin)
dmin = d;
}
lua_pushnumber(L, dmin);
return 1;
}
static int math_max (lua_State *L) {
int n = lua_gettop(L); /* number of arguments */
lua_Number dmax = luaL_checknumber(L, 1);
int i;
for (i=2; i<=n; i++) {
lua_Number d = luaL_checknumber(L, i);
if (d > dmax)
dmax = d;
}
lua_pushnumber(L, dmax);
return 1;
}
static int math_random (lua_State *L) {
/* the `%' avoids the (rare) case of r==1, and is needed also because on
some systems (SunOS!) `rand()' may return a value larger than RAND_MAX */
lua_Number r = (lua_Number)(rand()%RAND_MAX) / (lua_Number)RAND_MAX;
switch (lua_gettop(L)) { /* check number of arguments */
case 0: { /* no arguments */
lua_pushnumber(L, r); /* Number between 0 and 1 */
break;
}
case 1: { /* only upper limit */
lua_Number u = luaL_checknumber(L, 1);
luaL_argcheck(L, (lua_Number)1.0 <= u, 1, "interval is empty");
lua_pushnumber(L, l_mathop(floor)(r*u) + (lua_Number)(1.0)); /* [1, u] */
break;
}
case 2: { /* lower and upper limits */
lua_Number l = luaL_checknumber(L, 1);
lua_Number u = luaL_checknumber(L, 2);
luaL_argcheck(L, l <= u, 2, "interval is empty");
lua_pushnumber(L, l_mathop(floor)(r*(u-l+1)) + l); /* [l, u] */
break;
}
default: return luaL_error(L, "wrong number of arguments");
}
return 1;
}
static int math_randomseed (lua_State *L) {
srand(luaL_checkunsigned(L, 1));
(void)rand(); /* discard first value to avoid undesirable correlations */
return 0;
}
static const luaL_Reg mathlib[] = {
{"abs", math_abs},
{"acos", math_acos},
{"asin", math_asin},
{"atan2", math_atan2},
{"atan", math_atan},
{"ceil", math_ceil},
{"cosh", math_cosh},
{"cos", math_cos},
{"deg", math_deg},
{"exp", math_exp},
{"floor", math_floor},
{"fmod", math_fmod},
{"frexp", math_frexp},
{"ldexp", math_ldexp},
#if defined(LUA_COMPAT_LOG10)
{"log10", math_log10},
#endif
{"log", math_log},
{"max", math_max},
{"min", math_min},
{"modf", math_modf},
{"pow", math_pow},
{"rad", math_rad},
{"random", math_random},
{"randomseed", math_randomseed},
{"sinh", math_sinh},
{"sin", math_sin},
{"sqrt", math_sqrt},
{"tanh", math_tanh},
{"tan", math_tan},
{NULL, NULL}
};
/*
** Open math library
*/
LUAMOD_API int luaopen_math (lua_State *L) {
luaL_newlib(L, mathlib);
lua_pushnumber(L, PI);
lua_setfield(L, -2, "pi");
lua_pushnumber(L, HUGE_VAL);
lua_setfield(L, -2, "huge");
return 1;
}

99
ext/lua/src/lmem.c Normal file
View File

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/*
** $Id: lmem.c,v 1.84.1.1 2013/04/12 18:48:47 roberto Exp $
** Interface to Memory Manager
** See Copyright Notice in lua.h
*/
#include <stddef.h>
#define lmem_c
#define LUA_CORE
#include "lua.h"
#include "ldebug.h"
#include "ldo.h"
#include "lgc.h"
#include "lmem.h"
#include "lobject.h"
#include "lstate.h"
/*
** About the realloc function:
** void * frealloc (void *ud, void *ptr, size_t osize, size_t nsize);
** (`osize' is the old size, `nsize' is the new size)
**
** * frealloc(ud, NULL, x, s) creates a new block of size `s' (no
** matter 'x').
**
** * frealloc(ud, p, x, 0) frees the block `p'
** (in this specific case, frealloc must return NULL);
** particularly, frealloc(ud, NULL, 0, 0) does nothing
** (which is equivalent to free(NULL) in ANSI C)
**
** frealloc returns NULL if it cannot create or reallocate the area
** (any reallocation to an equal or smaller size cannot fail!)
*/
#define MINSIZEARRAY 4
void *luaM_growaux_ (lua_State *L, void *block, int *size, size_t size_elems,
int limit, const char *what) {
void *newblock;
int newsize;
if (*size >= limit/2) { /* cannot double it? */
if (*size >= limit) /* cannot grow even a little? */
luaG_runerror(L, "too many %s (limit is %d)", what, limit);
newsize = limit; /* still have at least one free place */
}
else {
newsize = (*size)*2;
if (newsize < MINSIZEARRAY)
newsize = MINSIZEARRAY; /* minimum size */
}
newblock = luaM_reallocv(L, block, *size, newsize, size_elems);
*size = newsize; /* update only when everything else is OK */
return newblock;
}
l_noret luaM_toobig (lua_State *L) {
luaG_runerror(L, "memory allocation error: block too big");
}
/*
** generic allocation routine.
*/
void *luaM_realloc_ (lua_State *L, void *block, size_t osize, size_t nsize) {
void *newblock;
global_State *g = G(L);
size_t realosize = (block) ? osize : 0;
lua_assert((realosize == 0) == (block == NULL));
#if defined(HARDMEMTESTS)
if (nsize > realosize && g->gcrunning)
luaC_fullgc(L, 1); /* force a GC whenever possible */
#endif
newblock = (*g->frealloc)(g->ud, block, osize, nsize);
if (newblock == NULL && nsize > 0) {
api_check(L, nsize > realosize,
"realloc cannot fail when shrinking a block");
if (g->gcrunning) {
luaC_fullgc(L, 1); /* try to free some memory... */
newblock = (*g->frealloc)(g->ud, block, osize, nsize); /* try again */
}
if (newblock == NULL)
luaD_throw(L, LUA_ERRMEM);
}
lua_assert((nsize == 0) == (newblock == NULL));
g->GCdebt = (g->GCdebt + nsize) - realosize;
return newblock;
}

725
ext/lua/src/loadlib.c Normal file
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/*
** $Id: loadlib.c,v 1.111.1.1 2013/04/12 18:48:47 roberto Exp $
** Dynamic library loader for Lua
** See Copyright Notice in lua.h
**
** This module contains an implementation of loadlib for Unix systems
** that have dlfcn, an implementation for Windows, and a stub for other
** systems.
*/
/*
** if needed, includes windows header before everything else
*/
#if defined(_WIN32)
#include <windows.h>
#endif
#include <stdlib.h>
#include <string.h>
#define loadlib_c
#define LUA_LIB
#include "lua.h"
#include "lauxlib.h"
#include "lualib.h"
/*
** LUA_PATH and LUA_CPATH are the names of the environment
** variables that Lua check to set its paths.
*/
#if !defined(LUA_PATH)
#define LUA_PATH "LUA_PATH"
#endif
#if !defined(LUA_CPATH)
#define LUA_CPATH "LUA_CPATH"
#endif
#define LUA_PATHSUFFIX "_" LUA_VERSION_MAJOR "_" LUA_VERSION_MINOR
#define LUA_PATHVERSION LUA_PATH LUA_PATHSUFFIX
#define LUA_CPATHVERSION LUA_CPATH LUA_PATHSUFFIX
/*
** LUA_PATH_SEP is the character that separates templates in a path.
** LUA_PATH_MARK is the string that marks the substitution points in a
** template.
** LUA_EXEC_DIR in a Windows path is replaced by the executable's
** directory.
** LUA_IGMARK is a mark to ignore all before it when building the
** luaopen_ function name.
*/
#if !defined (LUA_PATH_SEP)
#define LUA_PATH_SEP ";"
#endif
#if !defined (LUA_PATH_MARK)
#define LUA_PATH_MARK "?"
#endif
#if !defined (LUA_EXEC_DIR)
#define LUA_EXEC_DIR "!"
#endif
#if !defined (LUA_IGMARK)
#define LUA_IGMARK "-"
#endif
/*
** LUA_CSUBSEP is the character that replaces dots in submodule names
** when searching for a C loader.
** LUA_LSUBSEP is the character that replaces dots in submodule names
** when searching for a Lua loader.
*/
#if !defined(LUA_CSUBSEP)
#define LUA_CSUBSEP LUA_DIRSEP
#endif
#if !defined(LUA_LSUBSEP)
#define LUA_LSUBSEP LUA_DIRSEP
#endif
/* prefix for open functions in C libraries */
#define LUA_POF "luaopen_"
/* separator for open functions in C libraries */
#define LUA_OFSEP "_"
/* table (in the registry) that keeps handles for all loaded C libraries */
#define CLIBS "_CLIBS"
#define LIB_FAIL "open"
/* error codes for ll_loadfunc */
#define ERRLIB 1
#define ERRFUNC 2
#define setprogdir(L) ((void)0)
/*
** system-dependent functions
*/
static void ll_unloadlib (void *lib);
static void *ll_load (lua_State *L, const char *path, int seeglb);
static lua_CFunction ll_sym (lua_State *L, void *lib, const char *sym);
#if defined(LUA_USE_DLOPEN)
/*
** {========================================================================
** This is an implementation of loadlib based on the dlfcn interface.
** The dlfcn interface is available in Linux, SunOS, Solaris, IRIX, FreeBSD,
** NetBSD, AIX 4.2, HPUX 11, and probably most other Unix flavors, at least
** as an emulation layer on top of native functions.
** =========================================================================
*/
#include <dlfcn.h>
static void ll_unloadlib (void *lib) {
dlclose(lib);
}
static void *ll_load (lua_State *L, const char *path, int seeglb) {
void *lib = dlopen(path, RTLD_NOW | (seeglb ? RTLD_GLOBAL : RTLD_LOCAL));
if (lib == NULL) lua_pushstring(L, dlerror());
return lib;
}
static lua_CFunction ll_sym (lua_State *L, void *lib, const char *sym) {
lua_CFunction f = (lua_CFunction)dlsym(lib, sym);
if (f == NULL) lua_pushstring(L, dlerror());
return f;
}
/* }====================================================== */
#elif defined(LUA_DL_DLL)
/*
** {======================================================================
** This is an implementation of loadlib for Windows using native functions.
** =======================================================================
*/
#undef setprogdir
/*
** optional flags for LoadLibraryEx
*/
#if !defined(LUA_LLE_FLAGS)
#define LUA_LLE_FLAGS 0
#endif
static void setprogdir (lua_State *L) {
char buff[MAX_PATH + 1];
char *lb;
DWORD nsize = sizeof(buff)/sizeof(char);
DWORD n = GetModuleFileNameA(NULL, buff, nsize);
if (n == 0 || n == nsize || (lb = strrchr(buff, '\\')) == NULL)
luaL_error(L, "unable to get ModuleFileName");
else {
*lb = '\0';
luaL_gsub(L, lua_tostring(L, -1), LUA_EXEC_DIR, buff);
lua_remove(L, -2); /* remove original string */
}
}
static void pusherror (lua_State *L) {
int error = GetLastError();
char buffer[128];
if (FormatMessageA(FORMAT_MESSAGE_IGNORE_INSERTS | FORMAT_MESSAGE_FROM_SYSTEM,
NULL, error, 0, buffer, sizeof(buffer)/sizeof(char), NULL))
lua_pushstring(L, buffer);
else
lua_pushfstring(L, "system error %d\n", error);
}
static void ll_unloadlib (void *lib) {
FreeLibrary((HMODULE)lib);
}
static void *ll_load (lua_State *L, const char *path, int seeglb) {
HMODULE lib = LoadLibraryExA(path, NULL, LUA_LLE_FLAGS);
(void)(seeglb); /* not used: symbols are 'global' by default */
if (lib == NULL) pusherror(L);
return lib;
}
static lua_CFunction ll_sym (lua_State *L, void *lib, const char *sym) {
lua_CFunction f = (lua_CFunction)GetProcAddress((HMODULE)lib, sym);
if (f == NULL) pusherror(L);
return f;
}
/* }====================================================== */
#else
/*
** {======================================================
** Fallback for other systems
** =======================================================
*/
#undef LIB_FAIL
#define LIB_FAIL "absent"
#define DLMSG "dynamic libraries not enabled; check your Lua installation"
static void ll_unloadlib (void *lib) {
(void)(lib); /* not used */
}
static void *ll_load (lua_State *L, const char *path, int seeglb) {
(void)(path); (void)(seeglb); /* not used */
lua_pushliteral(L, DLMSG);
return NULL;
}
static lua_CFunction ll_sym (lua_State *L, void *lib, const char *sym) {
(void)(lib); (void)(sym); /* not used */
lua_pushliteral(L, DLMSG);
return NULL;
}
/* }====================================================== */
#endif
static void *ll_checkclib (lua_State *L, const char *path) {
void *plib;
lua_getfield(L, LUA_REGISTRYINDEX, CLIBS);
lua_getfield(L, -1, path);
plib = lua_touserdata(L, -1); /* plib = CLIBS[path] */
lua_pop(L, 2); /* pop CLIBS table and 'plib' */
return plib;
}
static void ll_addtoclib (lua_State *L, const char *path, void *plib) {
lua_getfield(L, LUA_REGISTRYINDEX, CLIBS);
lua_pushlightuserdata(L, plib);
lua_pushvalue(L, -1);
lua_setfield(L, -3, path); /* CLIBS[path] = plib */
lua_rawseti(L, -2, luaL_len(L, -2) + 1); /* CLIBS[#CLIBS + 1] = plib */
lua_pop(L, 1); /* pop CLIBS table */
}
/*
** __gc tag method for CLIBS table: calls 'll_unloadlib' for all lib
** handles in list CLIBS
*/
static int gctm (lua_State *L) {
int n = luaL_len(L, 1);
for (; n >= 1; n--) { /* for each handle, in reverse order */
lua_rawgeti(L, 1, n); /* get handle CLIBS[n] */
ll_unloadlib(lua_touserdata(L, -1));
lua_pop(L, 1); /* pop handle */
}
return 0;
}
static int ll_loadfunc (lua_State *L, const char *path, const char *sym) {
void *reg = ll_checkclib(L, path); /* check loaded C libraries */
if (reg == NULL) { /* must load library? */
reg = ll_load(L, path, *sym == '*');
if (reg == NULL) return ERRLIB; /* unable to load library */
ll_addtoclib(L, path, reg);
}
if (*sym == '*') { /* loading only library (no function)? */
lua_pushboolean(L, 1); /* return 'true' */
return 0; /* no errors */
}
else {
lua_CFunction f = ll_sym(L, reg, sym);
if (f == NULL)
return ERRFUNC; /* unable to find function */
lua_pushcfunction(L, f); /* else create new function */
return 0; /* no errors */
}
}
static int ll_loadlib (lua_State *L) {
const char *path = luaL_checkstring(L, 1);
const char *init = luaL_checkstring(L, 2);
int stat = ll_loadfunc(L, path, init);
if (stat == 0) /* no errors? */
return 1; /* return the loaded function */
else { /* error; error message is on stack top */
lua_pushnil(L);
lua_insert(L, -2);
lua_pushstring(L, (stat == ERRLIB) ? LIB_FAIL : "init");
return 3; /* return nil, error message, and where */
}
}
/*
** {======================================================
** 'require' function
** =======================================================
*/
static int readable (const char *filename) {
FILE *f = fopen(filename, "r"); /* try to open file */
if (f == NULL) return 0; /* open failed */
fclose(f);
return 1;
}
static const char *pushnexttemplate (lua_State *L, const char *path) {
const char *l;
while (*path == *LUA_PATH_SEP) path++; /* skip separators */
if (*path == '\0') return NULL; /* no more templates */
l = strchr(path, *LUA_PATH_SEP); /* find next separator */
if (l == NULL) l = path + strlen(path);
lua_pushlstring(L, path, l - path); /* template */
return l;
}
static const char *searchpath (lua_State *L, const char *name,
const char *path,
const char *sep,
const char *dirsep) {
luaL_Buffer msg; /* to build error message */
luaL_buffinit(L, &msg);
if (*sep != '\0') /* non-empty separator? */
name = luaL_gsub(L, name, sep, dirsep); /* replace it by 'dirsep' */
while ((path = pushnexttemplate(L, path)) != NULL) {
const char *filename = luaL_gsub(L, lua_tostring(L, -1),
LUA_PATH_MARK, name);
lua_remove(L, -2); /* remove path template */
if (readable(filename)) /* does file exist and is readable? */
return filename; /* return that file name */
lua_pushfstring(L, "\n\tno file " LUA_QS, filename);
lua_remove(L, -2); /* remove file name */
luaL_addvalue(&msg); /* concatenate error msg. entry */
}
luaL_pushresult(&msg); /* create error message */
return NULL; /* not found */
}
static int ll_searchpath (lua_State *L) {
const char *f = searchpath(L, luaL_checkstring(L, 1),
luaL_checkstring(L, 2),
luaL_optstring(L, 3, "."),
luaL_optstring(L, 4, LUA_DIRSEP));
if (f != NULL) return 1;
else { /* error message is on top of the stack */
lua_pushnil(L);
lua_insert(L, -2);
return 2; /* return nil + error message */
}
}
static const char *findfile (lua_State *L, const char *name,
const char *pname,
const char *dirsep) {
const char *path;
lua_getfield(L, lua_upvalueindex(1), pname);
path = lua_tostring(L, -1);
if (path == NULL)
luaL_error(L, LUA_QL("package.%s") " must be a string", pname);
return searchpath(L, name, path, ".", dirsep);
}
static int checkload (lua_State *L, int stat, const char *filename) {
if (stat) { /* module loaded successfully? */
lua_pushstring(L, filename); /* will be 2nd argument to module */
return 2; /* return open function and file name */
}
else
return luaL_error(L, "error loading module " LUA_QS
" from file " LUA_QS ":\n\t%s",
lua_tostring(L, 1), filename, lua_tostring(L, -1));
}
static int searcher_Lua (lua_State *L) {
const char *filename;
const char *name = luaL_checkstring(L, 1);
filename = findfile(L, name, "path", LUA_LSUBSEP);
if (filename == NULL) return 1; /* module not found in this path */
return checkload(L, (luaL_loadfile(L, filename) == LUA_OK), filename);
}
static int loadfunc (lua_State *L, const char *filename, const char *modname) {
const char *funcname;
const char *mark;
modname = luaL_gsub(L, modname, ".", LUA_OFSEP);
mark = strchr(modname, *LUA_IGMARK);
if (mark) {
int stat;
funcname = lua_pushlstring(L, modname, mark - modname);
funcname = lua_pushfstring(L, LUA_POF"%s", funcname);
stat = ll_loadfunc(L, filename, funcname);
if (stat != ERRFUNC) return stat;
modname = mark + 1; /* else go ahead and try old-style name */
}
funcname = lua_pushfstring(L, LUA_POF"%s", modname);
return ll_loadfunc(L, filename, funcname);
}
static int searcher_C (lua_State *L) {
const char *name = luaL_checkstring(L, 1);
const char *filename = findfile(L, name, "cpath", LUA_CSUBSEP);
if (filename == NULL) return 1; /* module not found in this path */
return checkload(L, (loadfunc(L, filename, name) == 0), filename);
}
static int searcher_Croot (lua_State *L) {
const char *filename;
const char *name = luaL_checkstring(L, 1);
const char *p = strchr(name, '.');
int stat;
if (p == NULL) return 0; /* is root */
lua_pushlstring(L, name, p - name);
filename = findfile(L, lua_tostring(L, -1), "cpath", LUA_CSUBSEP);
if (filename == NULL) return 1; /* root not found */
if ((stat = loadfunc(L, filename, name)) != 0) {
if (stat != ERRFUNC)
return checkload(L, 0, filename); /* real error */
else { /* open function not found */
lua_pushfstring(L, "\n\tno module " LUA_QS " in file " LUA_QS,
name, filename);
return 1;
}
}
lua_pushstring(L, filename); /* will be 2nd argument to module */
return 2;
}
static int searcher_preload (lua_State *L) {
const char *name = luaL_checkstring(L, 1);
lua_getfield(L, LUA_REGISTRYINDEX, "_PRELOAD");
lua_getfield(L, -1, name);
if (lua_isnil(L, -1)) /* not found? */
lua_pushfstring(L, "\n\tno field package.preload['%s']", name);
return 1;
}
static void findloader (lua_State *L, const char *name) {
int i;
luaL_Buffer msg; /* to build error message */
luaL_buffinit(L, &msg);
lua_getfield(L, lua_upvalueindex(1), "searchers"); /* will be at index 3 */
if (!lua_istable(L, 3))
luaL_error(L, LUA_QL("package.searchers") " must be a table");
/* iterate over available searchers to find a loader */
for (i = 1; ; i++) {
lua_rawgeti(L, 3, i); /* get a searcher */
if (lua_isnil(L, -1)) { /* no more searchers? */
lua_pop(L, 1); /* remove nil */
luaL_pushresult(&msg); /* create error message */
luaL_error(L, "module " LUA_QS " not found:%s",
name, lua_tostring(L, -1));
}
lua_pushstring(L, name);
lua_call(L, 1, 2); /* call it */
if (lua_isfunction(L, -2)) /* did it find a loader? */
return; /* module loader found */
else if (lua_isstring(L, -2)) { /* searcher returned error message? */
lua_pop(L, 1); /* remove extra return */
luaL_addvalue(&msg); /* concatenate error message */
}
else
lua_pop(L, 2); /* remove both returns */
}
}
static int ll_require (lua_State *L) {
const char *name = luaL_checkstring(L, 1);
lua_settop(L, 1); /* _LOADED table will be at index 2 */
lua_getfield(L, LUA_REGISTRYINDEX, "_LOADED");
lua_getfield(L, 2, name); /* _LOADED[name] */
if (lua_toboolean(L, -1)) /* is it there? */
return 1; /* package is already loaded */
/* else must load package */
lua_pop(L, 1); /* remove 'getfield' result */
findloader(L, name);
lua_pushstring(L, name); /* pass name as argument to module loader */
lua_insert(L, -2); /* name is 1st argument (before search data) */
lua_call(L, 2, 1); /* run loader to load module */
if (!lua_isnil(L, -1)) /* non-nil return? */
lua_setfield(L, 2, name); /* _LOADED[name] = returned value */
lua_getfield(L, 2, name);
if (lua_isnil(L, -1)) { /* module did not set a value? */
lua_pushboolean(L, 1); /* use true as result */
lua_pushvalue(L, -1); /* extra copy to be returned */
lua_setfield(L, 2, name); /* _LOADED[name] = true */
}
return 1;
}
/* }====================================================== */
/*
** {======================================================
** 'module' function
** =======================================================
*/
#if defined(LUA_COMPAT_MODULE)
/*
** changes the environment variable of calling function
*/
static void set_env (lua_State *L) {
lua_Debug ar;
if (lua_getstack(L, 1, &ar) == 0 ||
lua_getinfo(L, "f", &ar) == 0 || /* get calling function */
lua_iscfunction(L, -1))
luaL_error(L, LUA_QL("module") " not called from a Lua function");
lua_pushvalue(L, -2); /* copy new environment table to top */
lua_setupvalue(L, -2, 1);
lua_pop(L, 1); /* remove function */
}
static void dooptions (lua_State *L, int n) {
int i;
for (i = 2; i <= n; i++) {
if (lua_isfunction(L, i)) { /* avoid 'calling' extra info. */
lua_pushvalue(L, i); /* get option (a function) */
lua_pushvalue(L, -2); /* module */
lua_call(L, 1, 0);
}
}
}
static void modinit (lua_State *L, const char *modname) {
const char *dot;
lua_pushvalue(L, -1);
lua_setfield(L, -2, "_M"); /* module._M = module */
lua_pushstring(L, modname);
lua_setfield(L, -2, "_NAME");
dot = strrchr(modname, '.'); /* look for last dot in module name */
if (dot == NULL) dot = modname;
else dot++;
/* set _PACKAGE as package name (full module name minus last part) */
lua_pushlstring(L, modname, dot - modname);
lua_setfield(L, -2, "_PACKAGE");
}
static int ll_module (lua_State *L) {
const char *modname = luaL_checkstring(L, 1);
int lastarg = lua_gettop(L); /* last parameter */
luaL_pushmodule(L, modname, 1); /* get/create module table */
/* check whether table already has a _NAME field */
lua_getfield(L, -1, "_NAME");
if (!lua_isnil(L, -1)) /* is table an initialized module? */
lua_pop(L, 1);
else { /* no; initialize it */
lua_pop(L, 1);
modinit(L, modname);
}
lua_pushvalue(L, -1);
set_env(L);
dooptions(L, lastarg);
return 1;
}
static int ll_seeall (lua_State *L) {
luaL_checktype(L, 1, LUA_TTABLE);
if (!lua_getmetatable(L, 1)) {
lua_createtable(L, 0, 1); /* create new metatable */
lua_pushvalue(L, -1);
lua_setmetatable(L, 1);
}
lua_pushglobaltable(L);
lua_setfield(L, -2, "__index"); /* mt.__index = _G */
return 0;
}
#endif
/* }====================================================== */
/* auxiliary mark (for internal use) */
#define AUXMARK "\1"
/*
** return registry.LUA_NOENV as a boolean
*/
static int noenv (lua_State *L) {
int b;
lua_getfield(L, LUA_REGISTRYINDEX, "LUA_NOENV");
b = lua_toboolean(L, -1);
lua_pop(L, 1); /* remove value */
return b;
}
static void setpath (lua_State *L, const char *fieldname, const char *envname1,
const char *envname2, const char *def) {
const char *path = getenv(envname1);
if (path == NULL) /* no environment variable? */
path = getenv(envname2); /* try alternative name */
if (path == NULL || noenv(L)) /* no environment variable? */
lua_pushstring(L, def); /* use default */
else {
/* replace ";;" by ";AUXMARK;" and then AUXMARK by default path */
path = luaL_gsub(L, path, LUA_PATH_SEP LUA_PATH_SEP,
LUA_PATH_SEP AUXMARK LUA_PATH_SEP);
luaL_gsub(L, path, AUXMARK, def);
lua_remove(L, -2);
}
setprogdir(L);
lua_setfield(L, -2, fieldname);
}
static const luaL_Reg pk_funcs[] = {
{"loadlib", ll_loadlib},
{"searchpath", ll_searchpath},
#if defined(LUA_COMPAT_MODULE)
{"seeall", ll_seeall},
#endif
{NULL, NULL}
};
static const luaL_Reg ll_funcs[] = {
#if defined(LUA_COMPAT_MODULE)
{"module", ll_module},
#endif
{"require", ll_require},
{NULL, NULL}
};
static void createsearcherstable (lua_State *L) {
static const lua_CFunction searchers[] =
{searcher_preload, searcher_Lua, searcher_C, searcher_Croot, NULL};
int i;
/* create 'searchers' table */
lua_createtable(L, sizeof(searchers)/sizeof(searchers[0]) - 1, 0);
/* fill it with pre-defined searchers */
for (i=0; searchers[i] != NULL; i++) {
lua_pushvalue(L, -2); /* set 'package' as upvalue for all searchers */
lua_pushcclosure(L, searchers[i], 1);
lua_rawseti(L, -2, i+1);
}
}
LUAMOD_API int luaopen_package (lua_State *L) {
/* create table CLIBS to keep track of loaded C libraries */
luaL_getsubtable(L, LUA_REGISTRYINDEX, CLIBS);
lua_createtable(L, 0, 1); /* metatable for CLIBS */
lua_pushcfunction(L, gctm);
lua_setfield(L, -2, "__gc"); /* set finalizer for CLIBS table */
lua_setmetatable(L, -2);
/* create `package' table */
luaL_newlib(L, pk_funcs);
createsearcherstable(L);
#if defined(LUA_COMPAT_LOADERS)
lua_pushvalue(L, -1); /* make a copy of 'searchers' table */
lua_setfield(L, -3, "loaders"); /* put it in field `loaders' */
#endif
lua_setfield(L, -2, "searchers"); /* put it in field 'searchers' */
/* set field 'path' */
setpath(L, "path", LUA_PATHVERSION, LUA_PATH, LUA_PATH_DEFAULT);
/* set field 'cpath' */
setpath(L, "cpath", LUA_CPATHVERSION, LUA_CPATH, LUA_CPATH_DEFAULT);
/* store config information */
lua_pushliteral(L, LUA_DIRSEP "\n" LUA_PATH_SEP "\n" LUA_PATH_MARK "\n"
LUA_EXEC_DIR "\n" LUA_IGMARK "\n");
lua_setfield(L, -2, "config");
/* set field `loaded' */
luaL_getsubtable(L, LUA_REGISTRYINDEX, "_LOADED");
lua_setfield(L, -2, "loaded");
/* set field `preload' */
luaL_getsubtable(L, LUA_REGISTRYINDEX, "_PRELOAD");
lua_setfield(L, -2, "preload");
lua_pushglobaltable(L);
lua_pushvalue(L, -2); /* set 'package' as upvalue for next lib */
luaL_setfuncs(L, ll_funcs, 1); /* open lib into global table */
lua_pop(L, 1); /* pop global table */
return 1; /* return 'package' table */
}

287
ext/lua/src/lobject.c Normal file
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@@ -0,0 +1,287 @@
/*
** $Id: lobject.c,v 2.58.1.1 2013/04/12 18:48:47 roberto Exp $
** Some generic functions over Lua objects
** See Copyright Notice in lua.h
*/
#include <stdarg.h>
#include <stdio.h>
#include <stdlib.h>
#include <string.h>
#define lobject_c
#define LUA_CORE
#include "lua.h"
#include "lctype.h"
#include "ldebug.h"
#include "ldo.h"
#include "lmem.h"
#include "lobject.h"
#include "lstate.h"
#include "lstring.h"
#include "lvm.h"
LUAI_DDEF const TValue luaO_nilobject_ = {NILCONSTANT};
/*
** converts an integer to a "floating point byte", represented as
** (eeeeexxx), where the real value is (1xxx) * 2^(eeeee - 1) if
** eeeee != 0 and (xxx) otherwise.
*/
int luaO_int2fb (unsigned int x) {
int e = 0; /* exponent */
if (x < 8) return x;
while (x >= 0x10) {
x = (x+1) >> 1;
e++;
}
return ((e+1) << 3) | (cast_int(x) - 8);
}
/* converts back */
int luaO_fb2int (int x) {
int e = (x >> 3) & 0x1f;
if (e == 0) return x;
else return ((x & 7) + 8) << (e - 1);
}
int luaO_ceillog2 (unsigned int x) {
static const lu_byte log_2[256] = {
0,1,2,2,3,3,3,3,4,4,4,4,4,4,4,4,5,5,5,5,5,5,5,5,5,5,5,5,5,5,5,5,
6,6,6,6,6,6,6,6,6,6,6,6,6,6,6,6,6,6,6,6,6,6,6,6,6,6,6,6,6,6,6,6,
7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,
7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,
8,8,8,8,8,8,8,8,8,8,8,8,8,8,8,8,8,8,8,8,8,8,8,8,8,8,8,8,8,8,8,8,
8,8,8,8,8,8,8,8,8,8,8,8,8,8,8,8,8,8,8,8,8,8,8,8,8,8,8,8,8,8,8,8,
8,8,8,8,8,8,8,8,8,8,8,8,8,8,8,8,8,8,8,8,8,8,8,8,8,8,8,8,8,8,8,8,
8,8,8,8,8,8,8,8,8,8,8,8,8,8,8,8,8,8,8,8,8,8,8,8,8,8,8,8,8,8,8,8
};
int l = 0;
x--;
while (x >= 256) { l += 8; x >>= 8; }
return l + log_2[x];
}
lua_Number luaO_arith (int op, lua_Number v1, lua_Number v2) {
switch (op) {
case LUA_OPADD: return luai_numadd(NULL, v1, v2);
case LUA_OPSUB: return luai_numsub(NULL, v1, v2);
case LUA_OPMUL: return luai_nummul(NULL, v1, v2);
case LUA_OPDIV: return luai_numdiv(NULL, v1, v2);
case LUA_OPMOD: return luai_nummod(NULL, v1, v2);
case LUA_OPPOW: return luai_numpow(NULL, v1, v2);
case LUA_OPUNM: return luai_numunm(NULL, v1);
default: lua_assert(0); return 0;
}
}
int luaO_hexavalue (int c) {
if (lisdigit(c)) return c - '0';
else return ltolower(c) - 'a' + 10;
}
#if !defined(lua_strx2number)
#include <math.h>
static int isneg (const char **s) {
if (**s == '-') { (*s)++; return 1; }
else if (**s == '+') (*s)++;
return 0;
}
static lua_Number readhexa (const char **s, lua_Number r, int *count) {
for (; lisxdigit(cast_uchar(**s)); (*s)++) { /* read integer part */
r = (r * cast_num(16.0)) + cast_num(luaO_hexavalue(cast_uchar(**s)));
(*count)++;
}
return r;
}
/*
** convert an hexadecimal numeric string to a number, following
** C99 specification for 'strtod'
*/
static lua_Number lua_strx2number (const char *s, char **endptr) {
lua_Number r = 0.0;
int e = 0, i = 0;
int neg = 0; /* 1 if number is negative */
*endptr = cast(char *, s); /* nothing is valid yet */
while (lisspace(cast_uchar(*s))) s++; /* skip initial spaces */
neg = isneg(&s); /* check signal */
if (!(*s == '0' && (*(s + 1) == 'x' || *(s + 1) == 'X'))) /* check '0x' */
return 0.0; /* invalid format (no '0x') */
s += 2; /* skip '0x' */
r = readhexa(&s, r, &i); /* read integer part */
if (*s == '.') {
s++; /* skip dot */
r = readhexa(&s, r, &e); /* read fractional part */
}
if (i == 0 && e == 0)
return 0.0; /* invalid format (no digit) */
e *= -4; /* each fractional digit divides value by 2^-4 */
*endptr = cast(char *, s); /* valid up to here */
if (*s == 'p' || *s == 'P') { /* exponent part? */
int exp1 = 0;
int neg1;
s++; /* skip 'p' */
neg1 = isneg(&s); /* signal */
if (!lisdigit(cast_uchar(*s)))
goto ret; /* must have at least one digit */
while (lisdigit(cast_uchar(*s))) /* read exponent */
exp1 = exp1 * 10 + *(s++) - '0';
if (neg1) exp1 = -exp1;
e += exp1;
}
*endptr = cast(char *, s); /* valid up to here */
ret:
if (neg) r = -r;
return l_mathop(ldexp)(r, e);
}
#endif
int luaO_str2d (const char *s, size_t len, lua_Number *result) {
char *endptr;
if (strpbrk(s, "nN")) /* reject 'inf' and 'nan' */
return 0;
else if (strpbrk(s, "xX")) /* hexa? */
*result = lua_strx2number(s, &endptr);
else
*result = lua_str2number(s, &endptr);
if (endptr == s) return 0; /* nothing recognized */
while (lisspace(cast_uchar(*endptr))) endptr++;
return (endptr == s + len); /* OK if no trailing characters */
}
static void pushstr (lua_State *L, const char *str, size_t l) {
setsvalue2s(L, L->top++, luaS_newlstr(L, str, l));
}
/* this function handles only `%d', `%c', %f, %p, and `%s' formats */
const char *luaO_pushvfstring (lua_State *L, const char *fmt, va_list argp) {
int n = 0;
for (;;) {
const char *e = strchr(fmt, '%');
if (e == NULL) break;
luaD_checkstack(L, 2); /* fmt + item */
pushstr(L, fmt, e - fmt);
switch (*(e+1)) {
case 's': {
const char *s = va_arg(argp, char *);
if (s == NULL) s = "(null)";
pushstr(L, s, strlen(s));
break;
}
case 'c': {
char buff;
buff = cast(char, va_arg(argp, int));
pushstr(L, &buff, 1);
break;
}
case 'd': {
setnvalue(L->top++, cast_num(va_arg(argp, int)));
break;
}
case 'f': {
setnvalue(L->top++, cast_num(va_arg(argp, l_uacNumber)));
break;
}
case 'p': {
char buff[4*sizeof(void *) + 8]; /* should be enough space for a `%p' */
int l = sprintf(buff, "%p", va_arg(argp, void *));
pushstr(L, buff, l);
break;
}
case '%': {
pushstr(L, "%", 1);
break;
}
default: {
luaG_runerror(L,
"invalid option " LUA_QL("%%%c") " to " LUA_QL("lua_pushfstring"),
*(e + 1));
}
}
n += 2;
fmt = e+2;
}
luaD_checkstack(L, 1);
pushstr(L, fmt, strlen(fmt));
if (n > 0) luaV_concat(L, n + 1);
return svalue(L->top - 1);
}
const char *luaO_pushfstring (lua_State *L, const char *fmt, ...) {
const char *msg;
va_list argp;
va_start(argp, fmt);
msg = luaO_pushvfstring(L, fmt, argp);
va_end(argp);
return msg;
}
/* number of chars of a literal string without the ending \0 */
#define LL(x) (sizeof(x)/sizeof(char) - 1)
#define RETS "..."
#define PRE "[string \""
#define POS "\"]"
#define addstr(a,b,l) ( memcpy(a,b,(l) * sizeof(char)), a += (l) )
void luaO_chunkid (char *out, const char *source, size_t bufflen) {
size_t l = strlen(source);
if (*source == '=') { /* 'literal' source */
if (l <= bufflen) /* small enough? */
memcpy(out, source + 1, l * sizeof(char));
else { /* truncate it */
addstr(out, source + 1, bufflen - 1);
*out = '\0';
}
}
else if (*source == '@') { /* file name */
if (l <= bufflen) /* small enough? */
memcpy(out, source + 1, l * sizeof(char));
else { /* add '...' before rest of name */
addstr(out, RETS, LL(RETS));
bufflen -= LL(RETS);
memcpy(out, source + 1 + l - bufflen, bufflen * sizeof(char));
}
}
else { /* string; format as [string "source"] */
const char *nl = strchr(source, '\n'); /* find first new line (if any) */
addstr(out, PRE, LL(PRE)); /* add prefix */
bufflen -= LL(PRE RETS POS) + 1; /* save space for prefix+suffix+'\0' */
if (l < bufflen && nl == NULL) { /* small one-line source? */
addstr(out, source, l); /* keep it */
}
else {
if (nl != NULL) l = nl - source; /* stop at first newline */
if (l > bufflen) l = bufflen;
addstr(out, source, l);
addstr(out, RETS, LL(RETS));
}
memcpy(out, POS, (LL(POS) + 1) * sizeof(char));
}
}

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/*
** $Id: lopcodes.c,v 1.49.1.1 2013/04/12 18:48:47 roberto Exp $
** Opcodes for Lua virtual machine
** See Copyright Notice in lua.h
*/
#define lopcodes_c
#define LUA_CORE
#include "lopcodes.h"
/* ORDER OP */
LUAI_DDEF const char *const luaP_opnames[NUM_OPCODES+1] = {
"MOVE",
"LOADK",
"LOADKX",
"LOADBOOL",
"LOADNIL",
"GETUPVAL",
"GETTABUP",
"GETTABLE",
"SETTABUP",
"SETUPVAL",
"SETTABLE",
"NEWTABLE",
"SELF",
"ADD",
"SUB",
"MUL",
"DIV",
"MOD",
"POW",
"UNM",
"NOT",
"LEN",
"CONCAT",
"JMP",
"EQ",
"LT",
"LE",
"TEST",
"TESTSET",
"CALL",
"TAILCALL",
"RETURN",
"FORLOOP",
"FORPREP",
"TFORCALL",
"TFORLOOP",
"SETLIST",
"CLOSURE",
"VARARG",
"EXTRAARG",
NULL
};
#define opmode(t,a,b,c,m) (((t)<<7) | ((a)<<6) | ((b)<<4) | ((c)<<2) | (m))
LUAI_DDEF const lu_byte luaP_opmodes[NUM_OPCODES] = {
/* T A B C mode opcode */
opmode(0, 1, OpArgR, OpArgN, iABC) /* OP_MOVE */
,opmode(0, 1, OpArgK, OpArgN, iABx) /* OP_LOADK */
,opmode(0, 1, OpArgN, OpArgN, iABx) /* OP_LOADKX */
,opmode(0, 1, OpArgU, OpArgU, iABC) /* OP_LOADBOOL */
,opmode(0, 1, OpArgU, OpArgN, iABC) /* OP_LOADNIL */
,opmode(0, 1, OpArgU, OpArgN, iABC) /* OP_GETUPVAL */
,opmode(0, 1, OpArgU, OpArgK, iABC) /* OP_GETTABUP */
,opmode(0, 1, OpArgR, OpArgK, iABC) /* OP_GETTABLE */
,opmode(0, 0, OpArgK, OpArgK, iABC) /* OP_SETTABUP */
,opmode(0, 0, OpArgU, OpArgN, iABC) /* OP_SETUPVAL */
,opmode(0, 0, OpArgK, OpArgK, iABC) /* OP_SETTABLE */
,opmode(0, 1, OpArgU, OpArgU, iABC) /* OP_NEWTABLE */
,opmode(0, 1, OpArgR, OpArgK, iABC) /* OP_SELF */
,opmode(0, 1, OpArgK, OpArgK, iABC) /* OP_ADD */
,opmode(0, 1, OpArgK, OpArgK, iABC) /* OP_SUB */
,opmode(0, 1, OpArgK, OpArgK, iABC) /* OP_MUL */
,opmode(0, 1, OpArgK, OpArgK, iABC) /* OP_DIV */
,opmode(0, 1, OpArgK, OpArgK, iABC) /* OP_MOD */
,opmode(0, 1, OpArgK, OpArgK, iABC) /* OP_POW */
,opmode(0, 1, OpArgR, OpArgN, iABC) /* OP_UNM */
,opmode(0, 1, OpArgR, OpArgN, iABC) /* OP_NOT */
,opmode(0, 1, OpArgR, OpArgN, iABC) /* OP_LEN */
,opmode(0, 1, OpArgR, OpArgR, iABC) /* OP_CONCAT */
,opmode(0, 0, OpArgR, OpArgN, iAsBx) /* OP_JMP */
,opmode(1, 0, OpArgK, OpArgK, iABC) /* OP_EQ */
,opmode(1, 0, OpArgK, OpArgK, iABC) /* OP_LT */
,opmode(1, 0, OpArgK, OpArgK, iABC) /* OP_LE */
,opmode(1, 0, OpArgN, OpArgU, iABC) /* OP_TEST */
,opmode(1, 1, OpArgR, OpArgU, iABC) /* OP_TESTSET */
,opmode(0, 1, OpArgU, OpArgU, iABC) /* OP_CALL */
,opmode(0, 1, OpArgU, OpArgU, iABC) /* OP_TAILCALL */
,opmode(0, 0, OpArgU, OpArgN, iABC) /* OP_RETURN */
,opmode(0, 1, OpArgR, OpArgN, iAsBx) /* OP_FORLOOP */
,opmode(0, 1, OpArgR, OpArgN, iAsBx) /* OP_FORPREP */
,opmode(0, 0, OpArgN, OpArgU, iABC) /* OP_TFORCALL */
,opmode(0, 1, OpArgR, OpArgN, iAsBx) /* OP_TFORLOOP */
,opmode(0, 0, OpArgU, OpArgU, iABC) /* OP_SETLIST */
,opmode(0, 1, OpArgU, OpArgN, iABx) /* OP_CLOSURE */
,opmode(0, 1, OpArgU, OpArgN, iABC) /* OP_VARARG */
,opmode(0, 0, OpArgU, OpArgU, iAx) /* OP_EXTRAARG */
};

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/*
** $Id: loslib.c,v 1.40.1.1 2013/04/12 18:48:47 roberto Exp $
** Standard Operating System library
** See Copyright Notice in lua.h
*/
#include <errno.h>
#include <locale.h>
#include <stdlib.h>
#include <string.h>
#include <time.h>
#define loslib_c
#define LUA_LIB
#include "lua.h"
#include "lauxlib.h"
#include "lualib.h"
/*
** list of valid conversion specifiers for the 'strftime' function
*/
#if !defined(LUA_STRFTIMEOPTIONS)
#if !defined(LUA_USE_POSIX)
#define LUA_STRFTIMEOPTIONS { "aAbBcdHIjmMpSUwWxXyYz%", "" }
#else
#define LUA_STRFTIMEOPTIONS \
{ "aAbBcCdDeFgGhHIjmMnprRStTuUVwWxXyYzZ%", "" \
"", "E", "cCxXyY", \
"O", "deHImMSuUVwWy" }
#endif
#endif
/*
** By default, Lua uses tmpnam except when POSIX is available, where it
** uses mkstemp.
*/
#if defined(LUA_USE_MKSTEMP)
#include <unistd.h>
#define LUA_TMPNAMBUFSIZE 32
#define lua_tmpnam(b,e) { \
strcpy(b, "/tmp/lua_XXXXXX"); \
e = mkstemp(b); \
if (e != -1) close(e); \
e = (e == -1); }
#elif !defined(lua_tmpnam)
#define LUA_TMPNAMBUFSIZE L_tmpnam
#define lua_tmpnam(b,e) { e = (tmpnam(b) == NULL); }
#endif
/*
** By default, Lua uses gmtime/localtime, except when POSIX is available,
** where it uses gmtime_r/localtime_r
*/
#if defined(LUA_USE_GMTIME_R)
#define l_gmtime(t,r) gmtime_r(t,r)
#define l_localtime(t,r) localtime_r(t,r)
#elif !defined(l_gmtime)
#define l_gmtime(t,r) ((void)r, gmtime(t))
#define l_localtime(t,r) ((void)r, localtime(t))
#endif
static int os_execute (lua_State *L) {
const char *cmd = luaL_optstring(L, 1, NULL);
int stat = system(cmd);
if (cmd != NULL)
return luaL_execresult(L, stat);
else {
lua_pushboolean(L, stat); /* true if there is a shell */
return 1;
}
}
static int os_remove (lua_State *L) {
const char *filename = luaL_checkstring(L, 1);
return luaL_fileresult(L, remove(filename) == 0, filename);
}
static int os_rename (lua_State *L) {
const char *fromname = luaL_checkstring(L, 1);
const char *toname = luaL_checkstring(L, 2);
return luaL_fileresult(L, rename(fromname, toname) == 0, NULL);
}
static int os_tmpname (lua_State *L) {
char buff[LUA_TMPNAMBUFSIZE];
int err;
lua_tmpnam(buff, err);
if (err)
return luaL_error(L, "unable to generate a unique filename");
lua_pushstring(L, buff);
return 1;
}
static int os_getenv (lua_State *L) {
lua_pushstring(L, getenv(luaL_checkstring(L, 1))); /* if NULL push nil */
return 1;
}
static int os_clock (lua_State *L) {
lua_pushnumber(L, ((lua_Number)clock())/(lua_Number)CLOCKS_PER_SEC);
return 1;
}
/*
** {======================================================
** Time/Date operations
** { year=%Y, month=%m, day=%d, hour=%H, min=%M, sec=%S,
** wday=%w+1, yday=%j, isdst=? }
** =======================================================
*/
static void setfield (lua_State *L, const char *key, int value) {
lua_pushinteger(L, value);
lua_setfield(L, -2, key);
}
static void setboolfield (lua_State *L, const char *key, int value) {
if (value < 0) /* undefined? */
return; /* does not set field */
lua_pushboolean(L, value);
lua_setfield(L, -2, key);
}
static int getboolfield (lua_State *L, const char *key) {
int res;
lua_getfield(L, -1, key);
res = lua_isnil(L, -1) ? -1 : lua_toboolean(L, -1);
lua_pop(L, 1);
return res;
}
static int getfield (lua_State *L, const char *key, int d) {
int res, isnum;
lua_getfield(L, -1, key);
res = (int)lua_tointegerx(L, -1, &isnum);
if (!isnum) {
if (d < 0)
return luaL_error(L, "field " LUA_QS " missing in date table", key);
res = d;
}
lua_pop(L, 1);
return res;
}
static const char *checkoption (lua_State *L, const char *conv, char *buff) {
static const char *const options[] = LUA_STRFTIMEOPTIONS;
unsigned int i;
for (i = 0; i < sizeof(options)/sizeof(options[0]); i += 2) {
if (*conv != '\0' && strchr(options[i], *conv) != NULL) {
buff[1] = *conv;
if (*options[i + 1] == '\0') { /* one-char conversion specifier? */
buff[2] = '\0'; /* end buffer */
return conv + 1;
}
else if (*(conv + 1) != '\0' &&
strchr(options[i + 1], *(conv + 1)) != NULL) {
buff[2] = *(conv + 1); /* valid two-char conversion specifier */
buff[3] = '\0'; /* end buffer */
return conv + 2;
}
}
}
luaL_argerror(L, 1,
lua_pushfstring(L, "invalid conversion specifier '%%%s'", conv));
return conv; /* to avoid warnings */
}
static int os_date (lua_State *L) {
const char *s = luaL_optstring(L, 1, "%c");
time_t t = luaL_opt(L, (time_t)luaL_checknumber, 2, time(NULL));
struct tm tmr, *stm;
if (*s == '!') { /* UTC? */
stm = l_gmtime(&t, &tmr);
s++; /* skip `!' */
}
else
stm = l_localtime(&t, &tmr);
if (stm == NULL) /* invalid date? */
lua_pushnil(L);
else if (strcmp(s, "*t") == 0) {
lua_createtable(L, 0, 9); /* 9 = number of fields */
setfield(L, "sec", stm->tm_sec);
setfield(L, "min", stm->tm_min);
setfield(L, "hour", stm->tm_hour);
setfield(L, "day", stm->tm_mday);
setfield(L, "month", stm->tm_mon+1);
setfield(L, "year", stm->tm_year+1900);
setfield(L, "wday", stm->tm_wday+1);
setfield(L, "yday", stm->tm_yday+1);
setboolfield(L, "isdst", stm->tm_isdst);
}
else {
char cc[4];
luaL_Buffer b;
cc[0] = '%';
luaL_buffinit(L, &b);
while (*s) {
if (*s != '%') /* no conversion specifier? */
luaL_addchar(&b, *s++);
else {
size_t reslen;
char buff[200]; /* should be big enough for any conversion result */
s = checkoption(L, s + 1, cc);
reslen = strftime(buff, sizeof(buff), cc, stm);
luaL_addlstring(&b, buff, reslen);
}
}
luaL_pushresult(&b);
}
return 1;
}
static int os_time (lua_State *L) {
time_t t;
if (lua_isnoneornil(L, 1)) /* called without args? */
t = time(NULL); /* get current time */
else {
struct tm ts;
luaL_checktype(L, 1, LUA_TTABLE);
lua_settop(L, 1); /* make sure table is at the top */
ts.tm_sec = getfield(L, "sec", 0);
ts.tm_min = getfield(L, "min", 0);
ts.tm_hour = getfield(L, "hour", 12);
ts.tm_mday = getfield(L, "day", -1);
ts.tm_mon = getfield(L, "month", -1) - 1;
ts.tm_year = getfield(L, "year", -1) - 1900;
ts.tm_isdst = getboolfield(L, "isdst");
t = mktime(&ts);
}
if (t == (time_t)(-1))
lua_pushnil(L);
else
lua_pushnumber(L, (lua_Number)t);
return 1;
}
static int os_difftime (lua_State *L) {
lua_pushnumber(L, difftime((time_t)(luaL_checknumber(L, 1)),
(time_t)(luaL_optnumber(L, 2, 0))));
return 1;
}
/* }====================================================== */
static int os_setlocale (lua_State *L) {
static const int cat[] = {LC_ALL, LC_COLLATE, LC_CTYPE, LC_MONETARY,
LC_NUMERIC, LC_TIME};
static const char *const catnames[] = {"all", "collate", "ctype", "monetary",
"numeric", "time", NULL};
const char *l = luaL_optstring(L, 1, NULL);
int op = luaL_checkoption(L, 2, "all", catnames);
lua_pushstring(L, setlocale(cat[op], l));
return 1;
}
static int os_exit (lua_State *L) {
int status;
if (lua_isboolean(L, 1))
status = (lua_toboolean(L, 1) ? EXIT_SUCCESS : EXIT_FAILURE);
else
status = luaL_optint(L, 1, EXIT_SUCCESS);
if (lua_toboolean(L, 2))
lua_close(L);
if (L) exit(status); /* 'if' to avoid warnings for unreachable 'return' */
return 0;
}
static const luaL_Reg syslib[] = {
{"clock", os_clock},
{"date", os_date},
{"difftime", os_difftime},
{"execute", os_execute},
{"exit", os_exit},
{"getenv", os_getenv},
{"remove", os_remove},
{"rename", os_rename},
{"setlocale", os_setlocale},
{"time", os_time},
{"tmpname", os_tmpname},
{NULL, NULL}
};
/* }====================================================== */
LUAMOD_API int luaopen_os (lua_State *L) {
luaL_newlib(L, syslib);
return 1;
}

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/*
** $Id: lstate.c,v 2.99.1.2 2013/11/08 17:45:31 roberto Exp $
** Global State
** See Copyright Notice in lua.h
*/
#include <stddef.h>
#include <string.h>
#define lstate_c
#define LUA_CORE
#include "lua.h"
#include "lapi.h"
#include "ldebug.h"
#include "ldo.h"
#include "lfunc.h"
#include "lgc.h"
#include "llex.h"
#include "lmem.h"
#include "lstate.h"
#include "lstring.h"
#include "ltable.h"
#include "ltm.h"
#if !defined(LUAI_GCPAUSE)
#define LUAI_GCPAUSE 200 /* 200% */
#endif
#if !defined(LUAI_GCMAJOR)
#define LUAI_GCMAJOR 200 /* 200% */
#endif
#if !defined(LUAI_GCMUL)
#define LUAI_GCMUL 200 /* GC runs 'twice the speed' of memory allocation */
#endif
#define MEMERRMSG "not enough memory"
/*
** a macro to help the creation of a unique random seed when a state is
** created; the seed is used to randomize hashes.
*/
#if !defined(luai_makeseed)
#include <time.h>
#define luai_makeseed() cast(unsigned int, time(NULL))
#endif
/*
** thread state + extra space
*/
typedef struct LX {
#if defined(LUAI_EXTRASPACE)
char buff[LUAI_EXTRASPACE];
#endif
lua_State l;
} LX;
/*
** Main thread combines a thread state and the global state
*/
typedef struct LG {
LX l;
global_State g;
} LG;
#define fromstate(L) (cast(LX *, cast(lu_byte *, (L)) - offsetof(LX, l)))
/*
** Compute an initial seed as random as possible. In ANSI, rely on
** Address Space Layout Randomization (if present) to increase
** randomness..
*/
#define addbuff(b,p,e) \
{ size_t t = cast(size_t, e); \
memcpy(buff + p, &t, sizeof(t)); p += sizeof(t); }
static unsigned int makeseed (lua_State *L) {
char buff[4 * sizeof(size_t)];
unsigned int h = luai_makeseed();
int p = 0;
addbuff(buff, p, L); /* heap variable */
addbuff(buff, p, &h); /* local variable */
addbuff(buff, p, luaO_nilobject); /* global variable */
addbuff(buff, p, &lua_newstate); /* public function */
lua_assert(p == sizeof(buff));
return luaS_hash(buff, p, h);
}
/*
** set GCdebt to a new value keeping the value (totalbytes + GCdebt)
** invariant
*/
void luaE_setdebt (global_State *g, l_mem debt) {
g->totalbytes -= (debt - g->GCdebt);
g->GCdebt = debt;
}
CallInfo *luaE_extendCI (lua_State *L) {
CallInfo *ci = luaM_new(L, CallInfo);
lua_assert(L->ci->next == NULL);
L->ci->next = ci;
ci->previous = L->ci;
ci->next = NULL;
return ci;
}
void luaE_freeCI (lua_State *L) {
CallInfo *ci = L->ci;
CallInfo *next = ci->next;
ci->next = NULL;
while ((ci = next) != NULL) {
next = ci->next;
luaM_free(L, ci);
}
}
static void stack_init (lua_State *L1, lua_State *L) {
int i; CallInfo *ci;
/* initialize stack array */
L1->stack = luaM_newvector(L, BASIC_STACK_SIZE, TValue);
L1->stacksize = BASIC_STACK_SIZE;
for (i = 0; i < BASIC_STACK_SIZE; i++)
setnilvalue(L1->stack + i); /* erase new stack */
L1->top = L1->stack;
L1->stack_last = L1->stack + L1->stacksize - EXTRA_STACK;
/* initialize first ci */
ci = &L1->base_ci;
ci->next = ci->previous = NULL;
ci->callstatus = 0;
ci->func = L1->top;
setnilvalue(L1->top++); /* 'function' entry for this 'ci' */
ci->top = L1->top + LUA_MINSTACK;
L1->ci = ci;
}
static void freestack (lua_State *L) {
if (L->stack == NULL)
return; /* stack not completely built yet */
L->ci = &L->base_ci; /* free the entire 'ci' list */
luaE_freeCI(L);
luaM_freearray(L, L->stack, L->stacksize); /* free stack array */
}
/*
** Create registry table and its predefined values
*/
static void init_registry (lua_State *L, global_State *g) {
TValue mt;
/* create registry */
Table *registry = luaH_new(L);
sethvalue(L, &g->l_registry, registry);
luaH_resize(L, registry, LUA_RIDX_LAST, 0);
/* registry[LUA_RIDX_MAINTHREAD] = L */
setthvalue(L, &mt, L);
luaH_setint(L, registry, LUA_RIDX_MAINTHREAD, &mt);
/* registry[LUA_RIDX_GLOBALS] = table of globals */
sethvalue(L, &mt, luaH_new(L));
luaH_setint(L, registry, LUA_RIDX_GLOBALS, &mt);
}
/*
** open parts of the state that may cause memory-allocation errors
*/
static void f_luaopen (lua_State *L, void *ud) {
global_State *g = G(L);
UNUSED(ud);
stack_init(L, L); /* init stack */
init_registry(L, g);
luaS_resize(L, MINSTRTABSIZE); /* initial size of string table */
luaT_init(L);
luaX_init(L);
/* pre-create memory-error message */
g->memerrmsg = luaS_newliteral(L, MEMERRMSG);
luaS_fix(g->memerrmsg); /* it should never be collected */
g->gcrunning = 1; /* allow gc */
g->version = lua_version(NULL);
luai_userstateopen(L);
}
/*
** preinitialize a state with consistent values without allocating
** any memory (to avoid errors)
*/
static void preinit_state (lua_State *L, global_State *g) {
G(L) = g;
L->stack = NULL;
L->ci = NULL;
L->stacksize = 0;
L->errorJmp = NULL;
L->nCcalls = 0;
L->hook = NULL;
L->hookmask = 0;
L->basehookcount = 0;
L->allowhook = 1;
resethookcount(L);
L->openupval = NULL;
L->nny = 1;
L->status = LUA_OK;
L->errfunc = 0;
}
static void close_state (lua_State *L) {
global_State *g = G(L);
luaF_close(L, L->stack); /* close all upvalues for this thread */
luaC_freeallobjects(L); /* collect all objects */
if (g->version) /* closing a fully built state? */
luai_userstateclose(L);
luaM_freearray(L, G(L)->strt.hash, G(L)->strt.size);
luaZ_freebuffer(L, &g->buff);
freestack(L);
lua_assert(gettotalbytes(g) == sizeof(LG));
(*g->frealloc)(g->ud, fromstate(L), sizeof(LG), 0); /* free main block */
}
LUA_API lua_State *lua_newthread (lua_State *L) {
lua_State *L1;
lua_lock(L);
luaC_checkGC(L);
L1 = &luaC_newobj(L, LUA_TTHREAD, sizeof(LX), NULL, offsetof(LX, l))->th;
setthvalue(L, L->top, L1);
api_incr_top(L);
preinit_state(L1, G(L));
L1->hookmask = L->hookmask;
L1->basehookcount = L->basehookcount;
L1->hook = L->hook;
resethookcount(L1);
luai_userstatethread(L, L1);
stack_init(L1, L); /* init stack */
lua_unlock(L);
return L1;
}
void luaE_freethread (lua_State *L, lua_State *L1) {
LX *l = fromstate(L1);
luaF_close(L1, L1->stack); /* close all upvalues for this thread */
lua_assert(L1->openupval == NULL);
luai_userstatefree(L, L1);
freestack(L1);
luaM_free(L, l);
}
LUA_API lua_State *lua_newstate (lua_Alloc f, void *ud) {
int i;
lua_State *L;
global_State *g;
LG *l = cast(LG *, (*f)(ud, NULL, LUA_TTHREAD, sizeof(LG)));
if (l == NULL) return NULL;
L = &l->l.l;
g = &l->g;
L->next = NULL;
L->tt = LUA_TTHREAD;
g->currentwhite = bit2mask(WHITE0BIT, FIXEDBIT);
L->marked = luaC_white(g);
g->gckind = KGC_NORMAL;
preinit_state(L, g);
g->frealloc = f;
g->ud = ud;
g->mainthread = L;
g->seed = makeseed(L);
g->uvhead.u.l.prev = &g->uvhead;
g->uvhead.u.l.next = &g->uvhead;
g->gcrunning = 0; /* no GC while building state */
g->GCestimate = 0;
g->strt.size = 0;
g->strt.nuse = 0;
g->strt.hash = NULL;
setnilvalue(&g->l_registry);
luaZ_initbuffer(L, &g->buff);
g->panic = NULL;
g->version = NULL;
g->gcstate = GCSpause;
g->allgc = NULL;
g->finobj = NULL;
g->tobefnz = NULL;
g->sweepgc = g->sweepfin = NULL;
g->gray = g->grayagain = NULL;
g->weak = g->ephemeron = g->allweak = NULL;
g->totalbytes = sizeof(LG);
g->GCdebt = 0;
g->gcpause = LUAI_GCPAUSE;
g->gcmajorinc = LUAI_GCMAJOR;
g->gcstepmul = LUAI_GCMUL;
for (i=0; i < LUA_NUMTAGS; i++) g->mt[i] = NULL;
if (luaD_rawrunprotected(L, f_luaopen, NULL) != LUA_OK) {
/* memory allocation error: free partial state */
close_state(L);
L = NULL;
}
return L;
}
LUA_API void lua_close (lua_State *L) {
L = G(L)->mainthread; /* only the main thread can be closed */
lua_lock(L);
close_state(L);
}

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/*
** $Id: lstring.c,v 2.26.1.1 2013/04/12 18:48:47 roberto Exp $
** String table (keeps all strings handled by Lua)
** See Copyright Notice in lua.h
*/
#include <string.h>
#define lstring_c
#define LUA_CORE
#include "lua.h"
#include "lmem.h"
#include "lobject.h"
#include "lstate.h"
#include "lstring.h"
/*
** Lua will use at most ~(2^LUAI_HASHLIMIT) bytes from a string to
** compute its hash
*/
#if !defined(LUAI_HASHLIMIT)
#define LUAI_HASHLIMIT 5
#endif
/*
** equality for long strings
*/
int luaS_eqlngstr (TString *a, TString *b) {
size_t len = a->tsv.len;
lua_assert(a->tsv.tt == LUA_TLNGSTR && b->tsv.tt == LUA_TLNGSTR);
return (a == b) || /* same instance or... */
((len == b->tsv.len) && /* equal length and ... */
(memcmp(getstr(a), getstr(b), len) == 0)); /* equal contents */
}
/*
** equality for strings
*/
int luaS_eqstr (TString *a, TString *b) {
return (a->tsv.tt == b->tsv.tt) &&
(a->tsv.tt == LUA_TSHRSTR ? eqshrstr(a, b) : luaS_eqlngstr(a, b));
}
unsigned int luaS_hash (const char *str, size_t l, unsigned int seed) {
unsigned int h = seed ^ cast(unsigned int, l);
size_t l1;
size_t step = (l >> LUAI_HASHLIMIT) + 1;
for (l1 = l; l1 >= step; l1 -= step)
h = h ^ ((h<<5) + (h>>2) + cast_byte(str[l1 - 1]));
return h;
}
/*
** resizes the string table
*/
void luaS_resize (lua_State *L, int newsize) {
int i;
stringtable *tb = &G(L)->strt;
/* cannot resize while GC is traversing strings */
luaC_runtilstate(L, ~bitmask(GCSsweepstring));
if (newsize > tb->size) {
luaM_reallocvector(L, tb->hash, tb->size, newsize, GCObject *);
for (i = tb->size; i < newsize; i++) tb->hash[i] = NULL;
}
/* rehash */
for (i=0; i<tb->size; i++) {
GCObject *p = tb->hash[i];
tb->hash[i] = NULL;
while (p) { /* for each node in the list */
GCObject *next = gch(p)->next; /* save next */
unsigned int h = lmod(gco2ts(p)->hash, newsize); /* new position */
gch(p)->next = tb->hash[h]; /* chain it */
tb->hash[h] = p;
resetoldbit(p); /* see MOVE OLD rule */
p = next;
}
}
if (newsize < tb->size) {
/* shrinking slice must be empty */
lua_assert(tb->hash[newsize] == NULL && tb->hash[tb->size - 1] == NULL);
luaM_reallocvector(L, tb->hash, tb->size, newsize, GCObject *);
}
tb->size = newsize;
}
/*
** creates a new string object
*/
static TString *createstrobj (lua_State *L, const char *str, size_t l,
int tag, unsigned int h, GCObject **list) {
TString *ts;
size_t totalsize; /* total size of TString object */
totalsize = sizeof(TString) + ((l + 1) * sizeof(char));
ts = &luaC_newobj(L, tag, totalsize, list, 0)->ts;
ts->tsv.len = l;
ts->tsv.hash = h;
ts->tsv.extra = 0;
memcpy(ts+1, str, l*sizeof(char));
((char *)(ts+1))[l] = '\0'; /* ending 0 */
return ts;
}
/*
** creates a new short string, inserting it into string table
*/
static TString *newshrstr (lua_State *L, const char *str, size_t l,
unsigned int h) {
GCObject **list; /* (pointer to) list where it will be inserted */
stringtable *tb = &G(L)->strt;
TString *s;
if (tb->nuse >= cast(lu_int32, tb->size) && tb->size <= MAX_INT/2)
luaS_resize(L, tb->size*2); /* too crowded */
list = &tb->hash[lmod(h, tb->size)];
s = createstrobj(L, str, l, LUA_TSHRSTR, h, list);
tb->nuse++;
return s;
}
/*
** checks whether short string exists and reuses it or creates a new one
*/
static TString *internshrstr (lua_State *L, const char *str, size_t l) {
GCObject *o;
global_State *g = G(L);
unsigned int h = luaS_hash(str, l, g->seed);
for (o = g->strt.hash[lmod(h, g->strt.size)];
o != NULL;
o = gch(o)->next) {
TString *ts = rawgco2ts(o);
if (h == ts->tsv.hash &&
l == ts->tsv.len &&
(memcmp(str, getstr(ts), l * sizeof(char)) == 0)) {
if (isdead(G(L), o)) /* string is dead (but was not collected yet)? */
changewhite(o); /* resurrect it */
return ts;
}
}
return newshrstr(L, str, l, h); /* not found; create a new string */
}
/*
** new string (with explicit length)
*/
TString *luaS_newlstr (lua_State *L, const char *str, size_t l) {
if (l <= LUAI_MAXSHORTLEN) /* short string? */
return internshrstr(L, str, l);
else {
if (l + 1 > (MAX_SIZET - sizeof(TString))/sizeof(char))
luaM_toobig(L);
return createstrobj(L, str, l, LUA_TLNGSTR, G(L)->seed, NULL);
}
}
/*
** new zero-terminated string
*/
TString *luaS_new (lua_State *L, const char *str) {
return luaS_newlstr(L, str, strlen(str));
}
Udata *luaS_newudata (lua_State *L, size_t s, Table *e) {
Udata *u;
if (s > MAX_SIZET - sizeof(Udata))
luaM_toobig(L);
u = &luaC_newobj(L, LUA_TUSERDATA, sizeof(Udata) + s, NULL, 0)->u;
u->uv.len = s;
u->uv.metatable = NULL;
u->uv.env = e;
return u;
}

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/*
** $Id: ltable.c,v 2.72.1.1 2013/04/12 18:48:47 roberto Exp $
** Lua tables (hash)
** See Copyright Notice in lua.h
*/
/*
** Implementation of tables (aka arrays, objects, or hash tables).
** Tables keep its elements in two parts: an array part and a hash part.
** Non-negative integer keys are all candidates to be kept in the array
** part. The actual size of the array is the largest `n' such that at
** least half the slots between 0 and n are in use.
** Hash uses a mix of chained scatter table with Brent's variation.
** A main invariant of these tables is that, if an element is not
** in its main position (i.e. the `original' position that its hash gives
** to it), then the colliding element is in its own main position.
** Hence even when the load factor reaches 100%, performance remains good.
*/
#include <string.h>
#define ltable_c
#define LUA_CORE
#include "lua.h"
#include "ldebug.h"
#include "ldo.h"
#include "lgc.h"
#include "lmem.h"
#include "lobject.h"
#include "lstate.h"
#include "lstring.h"
#include "ltable.h"
#include "lvm.h"
/*
** max size of array part is 2^MAXBITS
*/
#if LUAI_BITSINT >= 32
#define MAXBITS 30
#else
#define MAXBITS (LUAI_BITSINT-2)
#endif
#define MAXASIZE (1 << MAXBITS)
#define hashpow2(t,n) (gnode(t, lmod((n), sizenode(t))))
#define hashstr(t,str) hashpow2(t, (str)->tsv.hash)
#define hashboolean(t,p) hashpow2(t, p)
/*
** for some types, it is better to avoid modulus by power of 2, as
** they tend to have many 2 factors.
*/
#define hashmod(t,n) (gnode(t, ((n) % ((sizenode(t)-1)|1))))
#define hashpointer(t,p) hashmod(t, IntPoint(p))
#define dummynode (&dummynode_)
#define isdummy(n) ((n) == dummynode)
static const Node dummynode_ = {
{NILCONSTANT}, /* value */
{{NILCONSTANT, NULL}} /* key */
};
/*
** hash for lua_Numbers
*/
static Node *hashnum (const Table *t, lua_Number n) {
int i;
luai_hashnum(i, n);
if (i < 0) {
if (cast(unsigned int, i) == 0u - i) /* use unsigned to avoid overflows */
i = 0; /* handle INT_MIN */
i = -i; /* must be a positive value */
}
return hashmod(t, i);
}
/*
** returns the `main' position of an element in a table (that is, the index
** of its hash value)
*/
static Node *mainposition (const Table *t, const TValue *key) {
switch (ttype(key)) {
case LUA_TNUMBER:
return hashnum(t, nvalue(key));
case LUA_TLNGSTR: {
TString *s = rawtsvalue(key);
if (s->tsv.extra == 0) { /* no hash? */
s->tsv.hash = luaS_hash(getstr(s), s->tsv.len, s->tsv.hash);
s->tsv.extra = 1; /* now it has its hash */
}
return hashstr(t, rawtsvalue(key));
}
case LUA_TSHRSTR:
return hashstr(t, rawtsvalue(key));
case LUA_TBOOLEAN:
return hashboolean(t, bvalue(key));
case LUA_TLIGHTUSERDATA:
return hashpointer(t, pvalue(key));
case LUA_TLCF:
return hashpointer(t, fvalue(key));
default:
return hashpointer(t, gcvalue(key));
}
}
/*
** returns the index for `key' if `key' is an appropriate key to live in
** the array part of the table, -1 otherwise.
*/
static int arrayindex (const TValue *key) {
if (ttisnumber(key)) {
lua_Number n = nvalue(key);
int k;
lua_number2int(k, n);
if (luai_numeq(cast_num(k), n))
return k;
}
return -1; /* `key' did not match some condition */
}
/*
** returns the index of a `key' for table traversals. First goes all
** elements in the array part, then elements in the hash part. The
** beginning of a traversal is signaled by -1.
*/
static int findindex (lua_State *L, Table *t, StkId key) {
int i;
if (ttisnil(key)) return -1; /* first iteration */
i = arrayindex(key);
if (0 < i && i <= t->sizearray) /* is `key' inside array part? */
return i-1; /* yes; that's the index (corrected to C) */
else {
Node *n = mainposition(t, key);
for (;;) { /* check whether `key' is somewhere in the chain */
/* key may be dead already, but it is ok to use it in `next' */
if (luaV_rawequalobj(gkey(n), key) ||
(ttisdeadkey(gkey(n)) && iscollectable(key) &&
deadvalue(gkey(n)) == gcvalue(key))) {
i = cast_int(n - gnode(t, 0)); /* key index in hash table */
/* hash elements are numbered after array ones */
return i + t->sizearray;
}
else n = gnext(n);
if (n == NULL)
luaG_runerror(L, "invalid key to " LUA_QL("next")); /* key not found */
}
}
}
int luaH_next (lua_State *L, Table *t, StkId key) {
int i = findindex(L, t, key); /* find original element */
for (i++; i < t->sizearray; i++) { /* try first array part */
if (!ttisnil(&t->array[i])) { /* a non-nil value? */
setnvalue(key, cast_num(i+1));
setobj2s(L, key+1, &t->array[i]);
return 1;
}
}
for (i -= t->sizearray; i < sizenode(t); i++) { /* then hash part */
if (!ttisnil(gval(gnode(t, i)))) { /* a non-nil value? */
setobj2s(L, key, gkey(gnode(t, i)));
setobj2s(L, key+1, gval(gnode(t, i)));
return 1;
}
}
return 0; /* no more elements */
}
/*
** {=============================================================
** Rehash
** ==============================================================
*/
static int computesizes (int nums[], int *narray) {
int i;
int twotoi; /* 2^i */
int a = 0; /* number of elements smaller than 2^i */
int na = 0; /* number of elements to go to array part */
int n = 0; /* optimal size for array part */
for (i = 0, twotoi = 1; twotoi/2 < *narray; i++, twotoi *= 2) {
if (nums[i] > 0) {
a += nums[i];
if (a > twotoi/2) { /* more than half elements present? */
n = twotoi; /* optimal size (till now) */
na = a; /* all elements smaller than n will go to array part */
}
}
if (a == *narray) break; /* all elements already counted */
}
*narray = n;
lua_assert(*narray/2 <= na && na <= *narray);
return na;
}
static int countint (const TValue *key, int *nums) {
int k = arrayindex(key);
if (0 < k && k <= MAXASIZE) { /* is `key' an appropriate array index? */
nums[luaO_ceillog2(k)]++; /* count as such */
return 1;
}
else
return 0;
}
static int numusearray (const Table *t, int *nums) {
int lg;
int ttlg; /* 2^lg */
int ause = 0; /* summation of `nums' */
int i = 1; /* count to traverse all array keys */
for (lg=0, ttlg=1; lg<=MAXBITS; lg++, ttlg*=2) { /* for each slice */
int lc = 0; /* counter */
int lim = ttlg;
if (lim > t->sizearray) {
lim = t->sizearray; /* adjust upper limit */
if (i > lim)
break; /* no more elements to count */
}
/* count elements in range (2^(lg-1), 2^lg] */
for (; i <= lim; i++) {
if (!ttisnil(&t->array[i-1]))
lc++;
}
nums[lg] += lc;
ause += lc;
}
return ause;
}
static int numusehash (const Table *t, int *nums, int *pnasize) {
int totaluse = 0; /* total number of elements */
int ause = 0; /* summation of `nums' */
int i = sizenode(t);
while (i--) {
Node *n = &t->node[i];
if (!ttisnil(gval(n))) {
ause += countint(gkey(n), nums);
totaluse++;
}
}
*pnasize += ause;
return totaluse;
}
static void setarrayvector (lua_State *L, Table *t, int size) {
int i;
luaM_reallocvector(L, t->array, t->sizearray, size, TValue);
for (i=t->sizearray; i<size; i++)
setnilvalue(&t->array[i]);
t->sizearray = size;
}
static void setnodevector (lua_State *L, Table *t, int size) {
int lsize;
if (size == 0) { /* no elements to hash part? */
t->node = cast(Node *, dummynode); /* use common `dummynode' */
lsize = 0;
}
else {
int i;
lsize = luaO_ceillog2(size);
if (lsize > MAXBITS)
luaG_runerror(L, "table overflow");
size = twoto(lsize);
t->node = luaM_newvector(L, size, Node);
for (i=0; i<size; i++) {
Node *n = gnode(t, i);
gnext(n) = NULL;
setnilvalue(gkey(n));
setnilvalue(gval(n));
}
}
t->lsizenode = cast_byte(lsize);
t->lastfree = gnode(t, size); /* all positions are free */
}
void luaH_resize (lua_State *L, Table *t, int nasize, int nhsize) {
int i;
int oldasize = t->sizearray;
int oldhsize = t->lsizenode;
Node *nold = t->node; /* save old hash ... */
if (nasize > oldasize) /* array part must grow? */
setarrayvector(L, t, nasize);
/* create new hash part with appropriate size */
setnodevector(L, t, nhsize);
if (nasize < oldasize) { /* array part must shrink? */
t->sizearray = nasize;
/* re-insert elements from vanishing slice */
for (i=nasize; i<oldasize; i++) {
if (!ttisnil(&t->array[i]))
luaH_setint(L, t, i + 1, &t->array[i]);
}
/* shrink array */
luaM_reallocvector(L, t->array, oldasize, nasize, TValue);
}
/* re-insert elements from hash part */
for (i = twoto(oldhsize) - 1; i >= 0; i--) {
Node *old = nold+i;
if (!ttisnil(gval(old))) {
/* doesn't need barrier/invalidate cache, as entry was
already present in the table */
setobjt2t(L, luaH_set(L, t, gkey(old)), gval(old));
}
}
if (!isdummy(nold))
luaM_freearray(L, nold, cast(size_t, twoto(oldhsize))); /* free old array */
}
void luaH_resizearray (lua_State *L, Table *t, int nasize) {
int nsize = isdummy(t->node) ? 0 : sizenode(t);
luaH_resize(L, t, nasize, nsize);
}
static void rehash (lua_State *L, Table *t, const TValue *ek) {
int nasize, na;
int nums[MAXBITS+1]; /* nums[i] = number of keys with 2^(i-1) < k <= 2^i */
int i;
int totaluse;
for (i=0; i<=MAXBITS; i++) nums[i] = 0; /* reset counts */
nasize = numusearray(t, nums); /* count keys in array part */
totaluse = nasize; /* all those keys are integer keys */
totaluse += numusehash(t, nums, &nasize); /* count keys in hash part */
/* count extra key */
nasize += countint(ek, nums);
totaluse++;
/* compute new size for array part */
na = computesizes(nums, &nasize);
/* resize the table to new computed sizes */
luaH_resize(L, t, nasize, totaluse - na);
}
/*
** }=============================================================
*/
Table *luaH_new (lua_State *L) {
Table *t = &luaC_newobj(L, LUA_TTABLE, sizeof(Table), NULL, 0)->h;
t->metatable = NULL;
t->flags = cast_byte(~0);
t->array = NULL;
t->sizearray = 0;
setnodevector(L, t, 0);
return t;
}
void luaH_free (lua_State *L, Table *t) {
if (!isdummy(t->node))
luaM_freearray(L, t->node, cast(size_t, sizenode(t)));
luaM_freearray(L, t->array, t->sizearray);
luaM_free(L, t);
}
static Node *getfreepos (Table *t) {
while (t->lastfree > t->node) {
t->lastfree--;
if (ttisnil(gkey(t->lastfree)))
return t->lastfree;
}
return NULL; /* could not find a free place */
}
/*
** inserts a new key into a hash table; first, check whether key's main
** position is free. If not, check whether colliding node is in its main
** position or not: if it is not, move colliding node to an empty place and
** put new key in its main position; otherwise (colliding node is in its main
** position), new key goes to an empty position.
*/
TValue *luaH_newkey (lua_State *L, Table *t, const TValue *key) {
Node *mp;
if (ttisnil(key)) luaG_runerror(L, "table index is nil");
else if (ttisnumber(key) && luai_numisnan(L, nvalue(key)))
luaG_runerror(L, "table index is NaN");
mp = mainposition(t, key);
if (!ttisnil(gval(mp)) || isdummy(mp)) { /* main position is taken? */
Node *othern;
Node *n = getfreepos(t); /* get a free place */
if (n == NULL) { /* cannot find a free place? */
rehash(L, t, key); /* grow table */
/* whatever called 'newkey' take care of TM cache and GC barrier */
return luaH_set(L, t, key); /* insert key into grown table */
}
lua_assert(!isdummy(n));
othern = mainposition(t, gkey(mp));
if (othern != mp) { /* is colliding node out of its main position? */
/* yes; move colliding node into free position */
while (gnext(othern) != mp) othern = gnext(othern); /* find previous */
gnext(othern) = n; /* redo the chain with `n' in place of `mp' */
*n = *mp; /* copy colliding node into free pos. (mp->next also goes) */
gnext(mp) = NULL; /* now `mp' is free */
setnilvalue(gval(mp));
}
else { /* colliding node is in its own main position */
/* new node will go into free position */
gnext(n) = gnext(mp); /* chain new position */
gnext(mp) = n;
mp = n;
}
}
setobj2t(L, gkey(mp), key);
luaC_barrierback(L, obj2gco(t), key);
lua_assert(ttisnil(gval(mp)));
return gval(mp);
}
/*
** search function for integers
*/
const TValue *luaH_getint (Table *t, int key) {
/* (1 <= key && key <= t->sizearray) */
if (cast(unsigned int, key-1) < cast(unsigned int, t->sizearray))
return &t->array[key-1];
else {
lua_Number nk = cast_num(key);
Node *n = hashnum(t, nk);
do { /* check whether `key' is somewhere in the chain */
if (ttisnumber(gkey(n)) && luai_numeq(nvalue(gkey(n)), nk))
return gval(n); /* that's it */
else n = gnext(n);
} while (n);
return luaO_nilobject;
}
}
/*
** search function for short strings
*/
const TValue *luaH_getstr (Table *t, TString *key) {
Node *n = hashstr(t, key);
lua_assert(key->tsv.tt == LUA_TSHRSTR);
do { /* check whether `key' is somewhere in the chain */
if (ttisshrstring(gkey(n)) && eqshrstr(rawtsvalue(gkey(n)), key))
return gval(n); /* that's it */
else n = gnext(n);
} while (n);
return luaO_nilobject;
}
/*
** main search function
*/
const TValue *luaH_get (Table *t, const TValue *key) {
switch (ttype(key)) {
case LUA_TSHRSTR: return luaH_getstr(t, rawtsvalue(key));
case LUA_TNIL: return luaO_nilobject;
case LUA_TNUMBER: {
int k;
lua_Number n = nvalue(key);
lua_number2int(k, n);
if (luai_numeq(cast_num(k), n)) /* index is int? */
return luaH_getint(t, k); /* use specialized version */
/* else go through */
}
default: {
Node *n = mainposition(t, key);
do { /* check whether `key' is somewhere in the chain */
if (luaV_rawequalobj(gkey(n), key))
return gval(n); /* that's it */
else n = gnext(n);
} while (n);
return luaO_nilobject;
}
}
}
/*
** beware: when using this function you probably need to check a GC
** barrier and invalidate the TM cache.
*/
TValue *luaH_set (lua_State *L, Table *t, const TValue *key) {
const TValue *p = luaH_get(t, key);
if (p != luaO_nilobject)
return cast(TValue *, p);
else return luaH_newkey(L, t, key);
}
void luaH_setint (lua_State *L, Table *t, int key, TValue *value) {
const TValue *p = luaH_getint(t, key);
TValue *cell;
if (p != luaO_nilobject)
cell = cast(TValue *, p);
else {
TValue k;
setnvalue(&k, cast_num(key));
cell = luaH_newkey(L, t, &k);
}
setobj2t(L, cell, value);
}
static int unbound_search (Table *t, unsigned int j) {
unsigned int i = j; /* i is zero or a present index */
j++;
/* find `i' and `j' such that i is present and j is not */
while (!ttisnil(luaH_getint(t, j))) {
i = j;
j *= 2;
if (j > cast(unsigned int, MAX_INT)) { /* overflow? */
/* table was built with bad purposes: resort to linear search */
i = 1;
while (!ttisnil(luaH_getint(t, i))) i++;
return i - 1;
}
}
/* now do a binary search between them */
while (j - i > 1) {
unsigned int m = (i+j)/2;
if (ttisnil(luaH_getint(t, m))) j = m;
else i = m;
}
return i;
}
/*
** Try to find a boundary in table `t'. A `boundary' is an integer index
** such that t[i] is non-nil and t[i+1] is nil (and 0 if t[1] is nil).
*/
int luaH_getn (Table *t) {
unsigned int j = t->sizearray;
if (j > 0 && ttisnil(&t->array[j - 1])) {
/* there is a boundary in the array part: (binary) search for it */
unsigned int i = 0;
while (j - i > 1) {
unsigned int m = (i+j)/2;
if (ttisnil(&t->array[m - 1])) j = m;
else i = m;
}
return i;
}
/* else must find a boundary in hash part */
else if (isdummy(t->node)) /* hash part is empty? */
return j; /* that is easy... */
else return unbound_search(t, j);
}
#if defined(LUA_DEBUG)
Node *luaH_mainposition (const Table *t, const TValue *key) {
return mainposition(t, key);
}
int luaH_isdummy (Node *n) { return isdummy(n); }
#endif

283
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/*
** $Id: ltablib.c,v 1.65.1.1 2013/04/12 18:48:47 roberto Exp $
** Library for Table Manipulation
** See Copyright Notice in lua.h
*/
#include <stddef.h>
#define ltablib_c
#define LUA_LIB
#include "lua.h"
#include "lauxlib.h"
#include "lualib.h"
#define aux_getn(L,n) (luaL_checktype(L, n, LUA_TTABLE), luaL_len(L, n))
#if defined(LUA_COMPAT_MAXN)
static int maxn (lua_State *L) {
lua_Number max = 0;
luaL_checktype(L, 1, LUA_TTABLE);
lua_pushnil(L); /* first key */
while (lua_next(L, 1)) {
lua_pop(L, 1); /* remove value */
if (lua_type(L, -1) == LUA_TNUMBER) {
lua_Number v = lua_tonumber(L, -1);
if (v > max) max = v;
}
}
lua_pushnumber(L, max);
return 1;
}
#endif
static int tinsert (lua_State *L) {
int e = aux_getn(L, 1) + 1; /* first empty element */
int pos; /* where to insert new element */
switch (lua_gettop(L)) {
case 2: { /* called with only 2 arguments */
pos = e; /* insert new element at the end */
break;
}
case 3: {
int i;
pos = luaL_checkint(L, 2); /* 2nd argument is the position */
luaL_argcheck(L, 1 <= pos && pos <= e, 2, "position out of bounds");
for (i = e; i > pos; i--) { /* move up elements */
lua_rawgeti(L, 1, i-1);
lua_rawseti(L, 1, i); /* t[i] = t[i-1] */
}
break;
}
default: {
return luaL_error(L, "wrong number of arguments to " LUA_QL("insert"));
}
}
lua_rawseti(L, 1, pos); /* t[pos] = v */
return 0;
}
static int tremove (lua_State *L) {
int size = aux_getn(L, 1);
int pos = luaL_optint(L, 2, size);
if (pos != size) /* validate 'pos' if given */
luaL_argcheck(L, 1 <= pos && pos <= size + 1, 1, "position out of bounds");
lua_rawgeti(L, 1, pos); /* result = t[pos] */
for ( ; pos < size; pos++) {
lua_rawgeti(L, 1, pos+1);
lua_rawseti(L, 1, pos); /* t[pos] = t[pos+1] */
}
lua_pushnil(L);
lua_rawseti(L, 1, pos); /* t[pos] = nil */
return 1;
}
static void addfield (lua_State *L, luaL_Buffer *b, int i) {
lua_rawgeti(L, 1, i);
if (!lua_isstring(L, -1))
luaL_error(L, "invalid value (%s) at index %d in table for "
LUA_QL("concat"), luaL_typename(L, -1), i);
luaL_addvalue(b);
}
static int tconcat (lua_State *L) {
luaL_Buffer b;
size_t lsep;
int i, last;
const char *sep = luaL_optlstring(L, 2, "", &lsep);
luaL_checktype(L, 1, LUA_TTABLE);
i = luaL_optint(L, 3, 1);
last = luaL_opt(L, luaL_checkint, 4, luaL_len(L, 1));
luaL_buffinit(L, &b);
for (; i < last; i++) {
addfield(L, &b, i);
luaL_addlstring(&b, sep, lsep);
}
if (i == last) /* add last value (if interval was not empty) */
addfield(L, &b, i);
luaL_pushresult(&b);
return 1;
}
/*
** {======================================================
** Pack/unpack
** =======================================================
*/
static int pack (lua_State *L) {
int n = lua_gettop(L); /* number of elements to pack */
lua_createtable(L, n, 1); /* create result table */
lua_pushinteger(L, n);
lua_setfield(L, -2, "n"); /* t.n = number of elements */
if (n > 0) { /* at least one element? */
int i;
lua_pushvalue(L, 1);
lua_rawseti(L, -2, 1); /* insert first element */
lua_replace(L, 1); /* move table into index 1 */
for (i = n; i >= 2; i--) /* assign other elements */
lua_rawseti(L, 1, i);
}
return 1; /* return table */
}
static int unpack (lua_State *L) {
int i, e, n;
luaL_checktype(L, 1, LUA_TTABLE);
i = luaL_optint(L, 2, 1);
e = luaL_opt(L, luaL_checkint, 3, luaL_len(L, 1));
if (i > e) return 0; /* empty range */
n = e - i + 1; /* number of elements */
if (n <= 0 || !lua_checkstack(L, n)) /* n <= 0 means arith. overflow */
return luaL_error(L, "too many results to unpack");
lua_rawgeti(L, 1, i); /* push arg[i] (avoiding overflow problems) */
while (i++ < e) /* push arg[i + 1...e] */
lua_rawgeti(L, 1, i);
return n;
}
/* }====================================================== */
/*
** {======================================================
** Quicksort
** (based on `Algorithms in MODULA-3', Robert Sedgewick;
** Addison-Wesley, 1993.)
** =======================================================
*/
static void set2 (lua_State *L, int i, int j) {
lua_rawseti(L, 1, i);
lua_rawseti(L, 1, j);
}
static int sort_comp (lua_State *L, int a, int b) {
if (!lua_isnil(L, 2)) { /* function? */
int res;
lua_pushvalue(L, 2);
lua_pushvalue(L, a-1); /* -1 to compensate function */
lua_pushvalue(L, b-2); /* -2 to compensate function and `a' */
lua_call(L, 2, 1);
res = lua_toboolean(L, -1);
lua_pop(L, 1);
return res;
}
else /* a < b? */
return lua_compare(L, a, b, LUA_OPLT);
}
static void auxsort (lua_State *L, int l, int u) {
while (l < u) { /* for tail recursion */
int i, j;
/* sort elements a[l], a[(l+u)/2] and a[u] */
lua_rawgeti(L, 1, l);
lua_rawgeti(L, 1, u);
if (sort_comp(L, -1, -2)) /* a[u] < a[l]? */
set2(L, l, u); /* swap a[l] - a[u] */
else
lua_pop(L, 2);
if (u-l == 1) break; /* only 2 elements */
i = (l+u)/2;
lua_rawgeti(L, 1, i);
lua_rawgeti(L, 1, l);
if (sort_comp(L, -2, -1)) /* a[i]<a[l]? */
set2(L, i, l);
else {
lua_pop(L, 1); /* remove a[l] */
lua_rawgeti(L, 1, u);
if (sort_comp(L, -1, -2)) /* a[u]<a[i]? */
set2(L, i, u);
else
lua_pop(L, 2);
}
if (u-l == 2) break; /* only 3 elements */
lua_rawgeti(L, 1, i); /* Pivot */
lua_pushvalue(L, -1);
lua_rawgeti(L, 1, u-1);
set2(L, i, u-1);
/* a[l] <= P == a[u-1] <= a[u], only need to sort from l+1 to u-2 */
i = l; j = u-1;
for (;;) { /* invariant: a[l..i] <= P <= a[j..u] */
/* repeat ++i until a[i] >= P */
while (lua_rawgeti(L, 1, ++i), sort_comp(L, -1, -2)) {
if (i>=u) luaL_error(L, "invalid order function for sorting");
lua_pop(L, 1); /* remove a[i] */
}
/* repeat --j until a[j] <= P */
while (lua_rawgeti(L, 1, --j), sort_comp(L, -3, -1)) {
if (j<=l) luaL_error(L, "invalid order function for sorting");
lua_pop(L, 1); /* remove a[j] */
}
if (j<i) {
lua_pop(L, 3); /* pop pivot, a[i], a[j] */
break;
}
set2(L, i, j);
}
lua_rawgeti(L, 1, u-1);
lua_rawgeti(L, 1, i);
set2(L, u-1, i); /* swap pivot (a[u-1]) with a[i] */
/* a[l..i-1] <= a[i] == P <= a[i+1..u] */
/* adjust so that smaller half is in [j..i] and larger one in [l..u] */
if (i-l < u-i) {
j=l; i=i-1; l=i+2;
}
else {
j=i+1; i=u; u=j-2;
}
auxsort(L, j, i); /* call recursively the smaller one */
} /* repeat the routine for the larger one */
}
static int sort (lua_State *L) {
int n = aux_getn(L, 1);
luaL_checkstack(L, 40, ""); /* assume array is smaller than 2^40 */
if (!lua_isnoneornil(L, 2)) /* is there a 2nd argument? */
luaL_checktype(L, 2, LUA_TFUNCTION);
lua_settop(L, 2); /* make sure there is two arguments */
auxsort(L, 1, n);
return 0;
}
/* }====================================================== */
static const luaL_Reg tab_funcs[] = {
{"concat", tconcat},
#if defined(LUA_COMPAT_MAXN)
{"maxn", maxn},
#endif
{"insert", tinsert},
{"pack", pack},
{"unpack", unpack},
{"remove", tremove},
{"sort", sort},
{NULL, NULL}
};
LUAMOD_API int luaopen_table (lua_State *L) {
luaL_newlib(L, tab_funcs);
#if defined(LUA_COMPAT_UNPACK)
/* _G.unpack = table.unpack */
lua_getfield(L, -1, "unpack");
lua_setglobal(L, "unpack");
#endif
return 1;
}

77
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/*
** $Id: ltm.c,v 2.14.1.1 2013/04/12 18:48:47 roberto Exp $
** Tag methods
** See Copyright Notice in lua.h
*/
#include <string.h>
#define ltm_c
#define LUA_CORE
#include "lua.h"
#include "lobject.h"
#include "lstate.h"
#include "lstring.h"
#include "ltable.h"
#include "ltm.h"
static const char udatatypename[] = "userdata";
LUAI_DDEF const char *const luaT_typenames_[LUA_TOTALTAGS] = {
"no value",
"nil", "boolean", udatatypename, "number",
"string", "table", "function", udatatypename, "thread",
"proto", "upval" /* these last two cases are used for tests only */
};
void luaT_init (lua_State *L) {
static const char *const luaT_eventname[] = { /* ORDER TM */
"__index", "__newindex",
"__gc", "__mode", "__len", "__eq",
"__add", "__sub", "__mul", "__div", "__mod",
"__pow", "__unm", "__lt", "__le",
"__concat", "__call"
};
int i;
for (i=0; i<TM_N; i++) {
G(L)->tmname[i] = luaS_new(L, luaT_eventname[i]);
luaS_fix(G(L)->tmname[i]); /* never collect these names */
}
}
/*
** function to be used with macro "fasttm": optimized for absence of
** tag methods
*/
const TValue *luaT_gettm (Table *events, TMS event, TString *ename) {
const TValue *tm = luaH_getstr(events, ename);
lua_assert(event <= TM_EQ);
if (ttisnil(tm)) { /* no tag method? */
events->flags |= cast_byte(1u<<event); /* cache this fact */
return NULL;
}
else return tm;
}
const TValue *luaT_gettmbyobj (lua_State *L, const TValue *o, TMS event) {
Table *mt;
switch (ttypenv(o)) {
case LUA_TTABLE:
mt = hvalue(o)->metatable;
break;
case LUA_TUSERDATA:
mt = uvalue(o)->metatable;
break;
default:
mt = G(L)->mt[ttypenv(o)];
}
return (mt ? luaH_getstr(mt, G(L)->tmname[event]) : luaO_nilobject);
}

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/*
** $Id: lundump.c,v 2.22.1.1 2013/04/12 18:48:47 roberto Exp $
** load precompiled Lua chunks
** See Copyright Notice in lua.h
*/
#include <string.h>
#define lundump_c
#define LUA_CORE
#include "lua.h"
#include "ldebug.h"
#include "ldo.h"
#include "lfunc.h"
#include "lmem.h"
#include "lobject.h"
#include "lstring.h"
#include "lundump.h"
#include "lzio.h"
typedef struct {
lua_State* L;
ZIO* Z;
Mbuffer* b;
const char* name;
} LoadState;
static l_noret error(LoadState* S, const char* why)
{
luaO_pushfstring(S->L,"%s: %s precompiled chunk",S->name,why);
luaD_throw(S->L,LUA_ERRSYNTAX);
}
#define LoadMem(S,b,n,size) LoadBlock(S,b,(n)*(size))
#define LoadByte(S) (lu_byte)LoadChar(S)
#define LoadVar(S,x) LoadMem(S,&x,1,sizeof(x))
#define LoadVector(S,b,n,size) LoadMem(S,b,n,size)
#if !defined(luai_verifycode)
#define luai_verifycode(L,b,f) /* empty */
#endif
static void LoadBlock(LoadState* S, void* b, size_t size)
{
if (luaZ_read(S->Z,b,size)!=0) error(S,"truncated");
}
static int LoadChar(LoadState* S)
{
char x;
LoadVar(S,x);
return x;
}
static int LoadInt(LoadState* S)
{
int x;
LoadVar(S,x);
if (x<0) error(S,"corrupted");
return x;
}
static lua_Number LoadNumber(LoadState* S)
{
lua_Number x;
LoadVar(S,x);
return x;
}
static TString* LoadString(LoadState* S)
{
size_t size;
LoadVar(S,size);
if (size==0)
return NULL;
else
{
char* s=luaZ_openspace(S->L,S->b,size);
LoadBlock(S,s,size*sizeof(char));
return luaS_newlstr(S->L,s,size-1); /* remove trailing '\0' */
}
}
static void LoadCode(LoadState* S, Proto* f)
{
int n=LoadInt(S);
f->code=luaM_newvector(S->L,n,Instruction);
f->sizecode=n;
LoadVector(S,f->code,n,sizeof(Instruction));
}
static void LoadFunction(LoadState* S, Proto* f);
static void LoadConstants(LoadState* S, Proto* f)
{
int i,n;
n=LoadInt(S);
f->k=luaM_newvector(S->L,n,TValue);
f->sizek=n;
for (i=0; i<n; i++) setnilvalue(&f->k[i]);
for (i=0; i<n; i++)
{
TValue* o=&f->k[i];
int t=LoadChar(S);
switch (t)
{
case LUA_TNIL:
setnilvalue(o);
break;
case LUA_TBOOLEAN:
setbvalue(o,LoadChar(S));
break;
case LUA_TNUMBER:
setnvalue(o,LoadNumber(S));
break;
case LUA_TSTRING:
setsvalue2n(S->L,o,LoadString(S));
break;
default: lua_assert(0);
}
}
n=LoadInt(S);
f->p=luaM_newvector(S->L,n,Proto*);
f->sizep=n;
for (i=0; i<n; i++) f->p[i]=NULL;
for (i=0; i<n; i++)
{
f->p[i]=luaF_newproto(S->L);
LoadFunction(S,f->p[i]);
}
}
static void LoadUpvalues(LoadState* S, Proto* f)
{
int i,n;
n=LoadInt(S);
f->upvalues=luaM_newvector(S->L,n,Upvaldesc);
f->sizeupvalues=n;
for (i=0; i<n; i++) f->upvalues[i].name=NULL;
for (i=0; i<n; i++)
{
f->upvalues[i].instack=LoadByte(S);
f->upvalues[i].idx=LoadByte(S);
}
}
static void LoadDebug(LoadState* S, Proto* f)
{
int i,n;
f->source=LoadString(S);
n=LoadInt(S);
f->lineinfo=luaM_newvector(S->L,n,int);
f->sizelineinfo=n;
LoadVector(S,f->lineinfo,n,sizeof(int));
n=LoadInt(S);
f->locvars=luaM_newvector(S->L,n,LocVar);
f->sizelocvars=n;
for (i=0; i<n; i++) f->locvars[i].varname=NULL;
for (i=0; i<n; i++)
{
f->locvars[i].varname=LoadString(S);
f->locvars[i].startpc=LoadInt(S);
f->locvars[i].endpc=LoadInt(S);
}
n=LoadInt(S);
for (i=0; i<n; i++) f->upvalues[i].name=LoadString(S);
}
static void LoadFunction(LoadState* S, Proto* f)
{
f->linedefined=LoadInt(S);
f->lastlinedefined=LoadInt(S);
f->numparams=LoadByte(S);
f->is_vararg=LoadByte(S);
f->maxstacksize=LoadByte(S);
LoadCode(S,f);
LoadConstants(S,f);
LoadUpvalues(S,f);
LoadDebug(S,f);
}
/* the code below must be consistent with the code in luaU_header */
#define N0 LUAC_HEADERSIZE
#define N1 (sizeof(LUA_SIGNATURE)-sizeof(char))
#define N2 N1+2
#define N3 N2+6
static void LoadHeader(LoadState* S)
{
lu_byte h[LUAC_HEADERSIZE];
lu_byte s[LUAC_HEADERSIZE];
luaU_header(h);
memcpy(s,h,sizeof(char)); /* first char already read */
LoadBlock(S,s+sizeof(char),LUAC_HEADERSIZE-sizeof(char));
if (memcmp(h,s,N0)==0) return;
if (memcmp(h,s,N1)!=0) error(S,"not a");
if (memcmp(h,s,N2)!=0) error(S,"version mismatch in");
if (memcmp(h,s,N3)!=0) error(S,"incompatible"); else error(S,"corrupted");
}
/*
** load precompiled chunk
*/
Closure* luaU_undump (lua_State* L, ZIO* Z, Mbuffer* buff, const char* name)
{
LoadState S;
Closure* cl;
if (*name=='@' || *name=='=')
S.name=name+1;
else if (*name==LUA_SIGNATURE[0])
S.name="binary string";
else
S.name=name;
S.L=L;
S.Z=Z;
S.b=buff;
LoadHeader(&S);
cl=luaF_newLclosure(L,1);
setclLvalue(L,L->top,cl); incr_top(L);
cl->l.p=luaF_newproto(L);
LoadFunction(&S,cl->l.p);
if (cl->l.p->sizeupvalues != 1)
{
Proto* p=cl->l.p;
cl=luaF_newLclosure(L,cl->l.p->sizeupvalues);
cl->l.p=p;
setclLvalue(L,L->top-1,cl);
}
luai_verifycode(L,buff,cl->l.p);
return cl;
}
#define MYINT(s) (s[0]-'0')
#define VERSION MYINT(LUA_VERSION_MAJOR)*16+MYINT(LUA_VERSION_MINOR)
#define FORMAT 0 /* this is the official format */
/*
* make header for precompiled chunks
* if you change the code below be sure to update LoadHeader and FORMAT above
* and LUAC_HEADERSIZE in lundump.h
*/
void luaU_header (lu_byte* h)
{
int x=1;
memcpy(h,LUA_SIGNATURE,sizeof(LUA_SIGNATURE)-sizeof(char));
h+=sizeof(LUA_SIGNATURE)-sizeof(char);
*h++=cast_byte(VERSION);
*h++=cast_byte(FORMAT);
*h++=cast_byte(*(char*)&x); /* endianness */
*h++=cast_byte(sizeof(int));
*h++=cast_byte(sizeof(size_t));
*h++=cast_byte(sizeof(Instruction));
*h++=cast_byte(sizeof(lua_Number));
*h++=cast_byte(((lua_Number)0.5)==0); /* is lua_Number integral? */
memcpy(h,LUAC_TAIL,sizeof(LUAC_TAIL)-sizeof(char));
}

867
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/*
** $Id: lvm.c,v 2.155.1.1 2013/04/12 18:48:47 roberto Exp $
** Lua virtual machine
** See Copyright Notice in lua.h
*/
#include <stdio.h>
#include <stdlib.h>
#include <string.h>
#define lvm_c
#define LUA_CORE
#include "lua.h"
#include "ldebug.h"
#include "ldo.h"
#include "lfunc.h"
#include "lgc.h"
#include "lobject.h"
#include "lopcodes.h"
#include "lstate.h"
#include "lstring.h"
#include "ltable.h"
#include "ltm.h"
#include "lvm.h"
/* limit for table tag-method chains (to avoid loops) */
#define MAXTAGLOOP 100
const TValue *luaV_tonumber (const TValue *obj, TValue *n) {
lua_Number num;
if (ttisnumber(obj)) return obj;
if (ttisstring(obj) && luaO_str2d(svalue(obj), tsvalue(obj)->len, &num)) {
setnvalue(n, num);
return n;
}
else
return NULL;
}
int luaV_tostring (lua_State *L, StkId obj) {
if (!ttisnumber(obj))
return 0;
else {
char s[LUAI_MAXNUMBER2STR];
lua_Number n = nvalue(obj);
int l = lua_number2str(s, n);
setsvalue2s(L, obj, luaS_newlstr(L, s, l));
return 1;
}
}
static void traceexec (lua_State *L) {
CallInfo *ci = L->ci;
lu_byte mask = L->hookmask;
int counthook = ((mask & LUA_MASKCOUNT) && L->hookcount == 0);
if (counthook)
resethookcount(L); /* reset count */
if (ci->callstatus & CIST_HOOKYIELD) { /* called hook last time? */
ci->callstatus &= ~CIST_HOOKYIELD; /* erase mark */
return; /* do not call hook again (VM yielded, so it did not move) */
}
if (counthook)
luaD_hook(L, LUA_HOOKCOUNT, -1); /* call count hook */
if (mask & LUA_MASKLINE) {
Proto *p = ci_func(ci)->p;
int npc = pcRel(ci->u.l.savedpc, p);
int newline = getfuncline(p, npc);
if (npc == 0 || /* call linehook when enter a new function, */
ci->u.l.savedpc <= L->oldpc || /* when jump back (loop), or when */
newline != getfuncline(p, pcRel(L->oldpc, p))) /* enter a new line */
luaD_hook(L, LUA_HOOKLINE, newline); /* call line hook */
}
L->oldpc = ci->u.l.savedpc;
if (L->status == LUA_YIELD) { /* did hook yield? */
if (counthook)
L->hookcount = 1; /* undo decrement to zero */
ci->u.l.savedpc--; /* undo increment (resume will increment it again) */
ci->callstatus |= CIST_HOOKYIELD; /* mark that it yielded */
ci->func = L->top - 1; /* protect stack below results */
luaD_throw(L, LUA_YIELD);
}
}
static void callTM (lua_State *L, const TValue *f, const TValue *p1,
const TValue *p2, TValue *p3, int hasres) {
ptrdiff_t result = savestack(L, p3);
setobj2s(L, L->top++, f); /* push function */
setobj2s(L, L->top++, p1); /* 1st argument */
setobj2s(L, L->top++, p2); /* 2nd argument */
if (!hasres) /* no result? 'p3' is third argument */
setobj2s(L, L->top++, p3); /* 3rd argument */
/* metamethod may yield only when called from Lua code */
luaD_call(L, L->top - (4 - hasres), hasres, isLua(L->ci));
if (hasres) { /* if has result, move it to its place */
p3 = restorestack(L, result);
setobjs2s(L, p3, --L->top);
}
}
void luaV_gettable (lua_State *L, const TValue *t, TValue *key, StkId val) {
int loop;
for (loop = 0; loop < MAXTAGLOOP; loop++) {
const TValue *tm;
if (ttistable(t)) { /* `t' is a table? */
Table *h = hvalue(t);
const TValue *res = luaH_get(h, key); /* do a primitive get */
if (!ttisnil(res) || /* result is not nil? */
(tm = fasttm(L, h->metatable, TM_INDEX)) == NULL) { /* or no TM? */
setobj2s(L, val, res);
return;
}
/* else will try the tag method */
}
else if (ttisnil(tm = luaT_gettmbyobj(L, t, TM_INDEX)))
luaG_typeerror(L, t, "index");
if (ttisfunction(tm)) {
callTM(L, tm, t, key, val, 1);
return;
}
t = tm; /* else repeat with 'tm' */
}
luaG_runerror(L, "loop in gettable");
}
void luaV_settable (lua_State *L, const TValue *t, TValue *key, StkId val) {
int loop;
for (loop = 0; loop < MAXTAGLOOP; loop++) {
const TValue *tm;
if (ttistable(t)) { /* `t' is a table? */
Table *h = hvalue(t);
TValue *oldval = cast(TValue *, luaH_get(h, key));
/* if previous value is not nil, there must be a previous entry
in the table; moreover, a metamethod has no relevance */
if (!ttisnil(oldval) ||
/* previous value is nil; must check the metamethod */
((tm = fasttm(L, h->metatable, TM_NEWINDEX)) == NULL &&
/* no metamethod; is there a previous entry in the table? */
(oldval != luaO_nilobject ||
/* no previous entry; must create one. (The next test is
always true; we only need the assignment.) */
(oldval = luaH_newkey(L, h, key), 1)))) {
/* no metamethod and (now) there is an entry with given key */
setobj2t(L, oldval, val); /* assign new value to that entry */
invalidateTMcache(h);
luaC_barrierback(L, obj2gco(h), val);
return;
}
/* else will try the metamethod */
}
else /* not a table; check metamethod */
if (ttisnil(tm = luaT_gettmbyobj(L, t, TM_NEWINDEX)))
luaG_typeerror(L, t, "index");
/* there is a metamethod */
if (ttisfunction(tm)) {
callTM(L, tm, t, key, val, 0);
return;
}
t = tm; /* else repeat with 'tm' */
}
luaG_runerror(L, "loop in settable");
}
static int call_binTM (lua_State *L, const TValue *p1, const TValue *p2,
StkId res, TMS event) {
const TValue *tm = luaT_gettmbyobj(L, p1, event); /* try first operand */
if (ttisnil(tm))
tm = luaT_gettmbyobj(L, p2, event); /* try second operand */
if (ttisnil(tm)) return 0;
callTM(L, tm, p1, p2, res, 1);
return 1;
}
static const TValue *get_equalTM (lua_State *L, Table *mt1, Table *mt2,
TMS event) {
const TValue *tm1 = fasttm(L, mt1, event);
const TValue *tm2;
if (tm1 == NULL) return NULL; /* no metamethod */
if (mt1 == mt2) return tm1; /* same metatables => same metamethods */
tm2 = fasttm(L, mt2, event);
if (tm2 == NULL) return NULL; /* no metamethod */
if (luaV_rawequalobj(tm1, tm2)) /* same metamethods? */
return tm1;
return NULL;
}
static int call_orderTM (lua_State *L, const TValue *p1, const TValue *p2,
TMS event) {
if (!call_binTM(L, p1, p2, L->top, event))
return -1; /* no metamethod */
else
return !l_isfalse(L->top);
}
static int l_strcmp (const TString *ls, const TString *rs) {
const char *l = getstr(ls);
size_t ll = ls->tsv.len;
const char *r = getstr(rs);
size_t lr = rs->tsv.len;
for (;;) {
int temp = strcoll(l, r);
if (temp != 0) return temp;
else { /* strings are equal up to a `\0' */
size_t len = strlen(l); /* index of first `\0' in both strings */
if (len == lr) /* r is finished? */
return (len == ll) ? 0 : 1;
else if (len == ll) /* l is finished? */
return -1; /* l is smaller than r (because r is not finished) */
/* both strings longer than `len'; go on comparing (after the `\0') */
len++;
l += len; ll -= len; r += len; lr -= len;
}
}
}
int luaV_lessthan (lua_State *L, const TValue *l, const TValue *r) {
int res;
if (ttisnumber(l) && ttisnumber(r))
return luai_numlt(L, nvalue(l), nvalue(r));
else if (ttisstring(l) && ttisstring(r))
return l_strcmp(rawtsvalue(l), rawtsvalue(r)) < 0;
else if ((res = call_orderTM(L, l, r, TM_LT)) < 0)
luaG_ordererror(L, l, r);
return res;
}
int luaV_lessequal (lua_State *L, const TValue *l, const TValue *r) {
int res;
if (ttisnumber(l) && ttisnumber(r))
return luai_numle(L, nvalue(l), nvalue(r));
else if (ttisstring(l) && ttisstring(r))
return l_strcmp(rawtsvalue(l), rawtsvalue(r)) <= 0;
else if ((res = call_orderTM(L, l, r, TM_LE)) >= 0) /* first try `le' */
return res;
else if ((res = call_orderTM(L, r, l, TM_LT)) < 0) /* else try `lt' */
luaG_ordererror(L, l, r);
return !res;
}
/*
** equality of Lua values. L == NULL means raw equality (no metamethods)
*/
int luaV_equalobj_ (lua_State *L, const TValue *t1, const TValue *t2) {
const TValue *tm;
lua_assert(ttisequal(t1, t2));
switch (ttype(t1)) {
case LUA_TNIL: return 1;
case LUA_TNUMBER: return luai_numeq(nvalue(t1), nvalue(t2));
case LUA_TBOOLEAN: return bvalue(t1) == bvalue(t2); /* true must be 1 !! */
case LUA_TLIGHTUSERDATA: return pvalue(t1) == pvalue(t2);
case LUA_TLCF: return fvalue(t1) == fvalue(t2);
case LUA_TSHRSTR: return eqshrstr(rawtsvalue(t1), rawtsvalue(t2));
case LUA_TLNGSTR: return luaS_eqlngstr(rawtsvalue(t1), rawtsvalue(t2));
case LUA_TUSERDATA: {
if (uvalue(t1) == uvalue(t2)) return 1;
else if (L == NULL) return 0;
tm = get_equalTM(L, uvalue(t1)->metatable, uvalue(t2)->metatable, TM_EQ);
break; /* will try TM */
}
case LUA_TTABLE: {
if (hvalue(t1) == hvalue(t2)) return 1;
else if (L == NULL) return 0;
tm = get_equalTM(L, hvalue(t1)->metatable, hvalue(t2)->metatable, TM_EQ);
break; /* will try TM */
}
default:
lua_assert(iscollectable(t1));
return gcvalue(t1) == gcvalue(t2);
}
if (tm == NULL) return 0; /* no TM? */
callTM(L, tm, t1, t2, L->top, 1); /* call TM */
return !l_isfalse(L->top);
}
void luaV_concat (lua_State *L, int total) {
lua_assert(total >= 2);
do {
StkId top = L->top;
int n = 2; /* number of elements handled in this pass (at least 2) */
if (!(ttisstring(top-2) || ttisnumber(top-2)) || !tostring(L, top-1)) {
if (!call_binTM(L, top-2, top-1, top-2, TM_CONCAT))
luaG_concaterror(L, top-2, top-1);
}
else if (tsvalue(top-1)->len == 0) /* second operand is empty? */
(void)tostring(L, top - 2); /* result is first operand */
else if (ttisstring(top-2) && tsvalue(top-2)->len == 0) {
setobjs2s(L, top - 2, top - 1); /* result is second op. */
}
else {
/* at least two non-empty string values; get as many as possible */
size_t tl = tsvalue(top-1)->len;
char *buffer;
int i;
/* collect total length */
for (i = 1; i < total && tostring(L, top-i-1); i++) {
size_t l = tsvalue(top-i-1)->len;
if (l >= (MAX_SIZET/sizeof(char)) - tl)
luaG_runerror(L, "string length overflow");
tl += l;
}
buffer = luaZ_openspace(L, &G(L)->buff, tl);
tl = 0;
n = i;
do { /* concat all strings */
size_t l = tsvalue(top-i)->len;
memcpy(buffer+tl, svalue(top-i), l * sizeof(char));
tl += l;
} while (--i > 0);
setsvalue2s(L, top-n, luaS_newlstr(L, buffer, tl));
}
total -= n-1; /* got 'n' strings to create 1 new */
L->top -= n-1; /* popped 'n' strings and pushed one */
} while (total > 1); /* repeat until only 1 result left */
}
void luaV_objlen (lua_State *L, StkId ra, const TValue *rb) {
const TValue *tm;
switch (ttypenv(rb)) {
case LUA_TTABLE: {
Table *h = hvalue(rb);
tm = fasttm(L, h->metatable, TM_LEN);
if (tm) break; /* metamethod? break switch to call it */
setnvalue(ra, cast_num(luaH_getn(h))); /* else primitive len */
return;
}
case LUA_TSTRING: {
setnvalue(ra, cast_num(tsvalue(rb)->len));
return;
}
default: { /* try metamethod */
tm = luaT_gettmbyobj(L, rb, TM_LEN);
if (ttisnil(tm)) /* no metamethod? */
luaG_typeerror(L, rb, "get length of");
break;
}
}
callTM(L, tm, rb, rb, ra, 1);
}
void luaV_arith (lua_State *L, StkId ra, const TValue *rb,
const TValue *rc, TMS op) {
TValue tempb, tempc;
const TValue *b, *c;
if ((b = luaV_tonumber(rb, &tempb)) != NULL &&
(c = luaV_tonumber(rc, &tempc)) != NULL) {
lua_Number res = luaO_arith(op - TM_ADD + LUA_OPADD, nvalue(b), nvalue(c));
setnvalue(ra, res);
}
else if (!call_binTM(L, rb, rc, ra, op))
luaG_aritherror(L, rb, rc);
}
/*
** check whether cached closure in prototype 'p' may be reused, that is,
** whether there is a cached closure with the same upvalues needed by
** new closure to be created.
*/
static Closure *getcached (Proto *p, UpVal **encup, StkId base) {
Closure *c = p->cache;
if (c != NULL) { /* is there a cached closure? */
int nup = p->sizeupvalues;
Upvaldesc *uv = p->upvalues;
int i;
for (i = 0; i < nup; i++) { /* check whether it has right upvalues */
TValue *v = uv[i].instack ? base + uv[i].idx : encup[uv[i].idx]->v;
if (c->l.upvals[i]->v != v)
return NULL; /* wrong upvalue; cannot reuse closure */
}
}
return c; /* return cached closure (or NULL if no cached closure) */
}
/*
** create a new Lua closure, push it in the stack, and initialize
** its upvalues. Note that the call to 'luaC_barrierproto' must come
** before the assignment to 'p->cache', as the function needs the
** original value of that field.
*/
static void pushclosure (lua_State *L, Proto *p, UpVal **encup, StkId base,
StkId ra) {
int nup = p->sizeupvalues;
Upvaldesc *uv = p->upvalues;
int i;
Closure *ncl = luaF_newLclosure(L, nup);
ncl->l.p = p;
setclLvalue(L, ra, ncl); /* anchor new closure in stack */
for (i = 0; i < nup; i++) { /* fill in its upvalues */
if (uv[i].instack) /* upvalue refers to local variable? */
ncl->l.upvals[i] = luaF_findupval(L, base + uv[i].idx);
else /* get upvalue from enclosing function */
ncl->l.upvals[i] = encup[uv[i].idx];
}
luaC_barrierproto(L, p, ncl);
p->cache = ncl; /* save it on cache for reuse */
}
/*
** finish execution of an opcode interrupted by an yield
*/
void luaV_finishOp (lua_State *L) {
CallInfo *ci = L->ci;
StkId base = ci->u.l.base;
Instruction inst = *(ci->u.l.savedpc - 1); /* interrupted instruction */
OpCode op = GET_OPCODE(inst);
switch (op) { /* finish its execution */
case OP_ADD: case OP_SUB: case OP_MUL: case OP_DIV:
case OP_MOD: case OP_POW: case OP_UNM: case OP_LEN:
case OP_GETTABUP: case OP_GETTABLE: case OP_SELF: {
setobjs2s(L, base + GETARG_A(inst), --L->top);
break;
}
case OP_LE: case OP_LT: case OP_EQ: {
int res = !l_isfalse(L->top - 1);
L->top--;
/* metamethod should not be called when operand is K */
lua_assert(!ISK(GETARG_B(inst)));
if (op == OP_LE && /* "<=" using "<" instead? */
ttisnil(luaT_gettmbyobj(L, base + GETARG_B(inst), TM_LE)))
res = !res; /* invert result */
lua_assert(GET_OPCODE(*ci->u.l.savedpc) == OP_JMP);
if (res != GETARG_A(inst)) /* condition failed? */
ci->u.l.savedpc++; /* skip jump instruction */
break;
}
case OP_CONCAT: {
StkId top = L->top - 1; /* top when 'call_binTM' was called */
int b = GETARG_B(inst); /* first element to concatenate */
int total = cast_int(top - 1 - (base + b)); /* yet to concatenate */
setobj2s(L, top - 2, top); /* put TM result in proper position */
if (total > 1) { /* are there elements to concat? */
L->top = top - 1; /* top is one after last element (at top-2) */
luaV_concat(L, total); /* concat them (may yield again) */
}
/* move final result to final position */
setobj2s(L, ci->u.l.base + GETARG_A(inst), L->top - 1);
L->top = ci->top; /* restore top */
break;
}
case OP_TFORCALL: {
lua_assert(GET_OPCODE(*ci->u.l.savedpc) == OP_TFORLOOP);
L->top = ci->top; /* correct top */
break;
}
case OP_CALL: {
if (GETARG_C(inst) - 1 >= 0) /* nresults >= 0? */
L->top = ci->top; /* adjust results */
break;
}
case OP_TAILCALL: case OP_SETTABUP: case OP_SETTABLE:
break;
default: lua_assert(0);
}
}
/*
** some macros for common tasks in `luaV_execute'
*/
#if !defined luai_runtimecheck
#define luai_runtimecheck(L, c) /* void */
#endif
#define RA(i) (base+GETARG_A(i))
/* to be used after possible stack reallocation */
#define RB(i) check_exp(getBMode(GET_OPCODE(i)) == OpArgR, base+GETARG_B(i))
#define RC(i) check_exp(getCMode(GET_OPCODE(i)) == OpArgR, base+GETARG_C(i))
#define RKB(i) check_exp(getBMode(GET_OPCODE(i)) == OpArgK, \
ISK(GETARG_B(i)) ? k+INDEXK(GETARG_B(i)) : base+GETARG_B(i))
#define RKC(i) check_exp(getCMode(GET_OPCODE(i)) == OpArgK, \
ISK(GETARG_C(i)) ? k+INDEXK(GETARG_C(i)) : base+GETARG_C(i))
#define KBx(i) \
(k + (GETARG_Bx(i) != 0 ? GETARG_Bx(i) - 1 : GETARG_Ax(*ci->u.l.savedpc++)))
/* execute a jump instruction */
#define dojump(ci,i,e) \
{ int a = GETARG_A(i); \
if (a > 0) luaF_close(L, ci->u.l.base + a - 1); \
ci->u.l.savedpc += GETARG_sBx(i) + e; }
/* for test instructions, execute the jump instruction that follows it */
#define donextjump(ci) { i = *ci->u.l.savedpc; dojump(ci, i, 1); }
#define Protect(x) { {x;}; base = ci->u.l.base; }
#define checkGC(L,c) \
Protect( luaC_condGC(L,{L->top = (c); /* limit of live values */ \
luaC_step(L); \
L->top = ci->top;}) /* restore top */ \
luai_threadyield(L); )
#define arith_op(op,tm) { \
TValue *rb = RKB(i); \
TValue *rc = RKC(i); \
if (ttisnumber(rb) && ttisnumber(rc)) { \
lua_Number nb = nvalue(rb), nc = nvalue(rc); \
setnvalue(ra, op(L, nb, nc)); \
} \
else { Protect(luaV_arith(L, ra, rb, rc, tm)); } }
#define vmdispatch(o) switch(o)
#define vmcase(l,b) case l: {b} break;
#define vmcasenb(l,b) case l: {b} /* nb = no break */
void luaV_execute (lua_State *L) {
CallInfo *ci = L->ci;
LClosure *cl;
TValue *k;
StkId base;
newframe: /* reentry point when frame changes (call/return) */
lua_assert(ci == L->ci);
cl = clLvalue(ci->func);
k = cl->p->k;
base = ci->u.l.base;
/* main loop of interpreter */
for (;;) {
Instruction i = *(ci->u.l.savedpc++);
StkId ra;
if ((L->hookmask & (LUA_MASKLINE | LUA_MASKCOUNT)) &&
(--L->hookcount == 0 || L->hookmask & LUA_MASKLINE)) {
Protect(traceexec(L));
}
/* WARNING: several calls may realloc the stack and invalidate `ra' */
ra = RA(i);
lua_assert(base == ci->u.l.base);
lua_assert(base <= L->top && L->top < L->stack + L->stacksize);
vmdispatch (GET_OPCODE(i)) {
vmcase(OP_MOVE,
setobjs2s(L, ra, RB(i));
)
vmcase(OP_LOADK,
TValue *rb = k + GETARG_Bx(i);
setobj2s(L, ra, rb);
)
vmcase(OP_LOADKX,
TValue *rb;
lua_assert(GET_OPCODE(*ci->u.l.savedpc) == OP_EXTRAARG);
rb = k + GETARG_Ax(*ci->u.l.savedpc++);
setobj2s(L, ra, rb);
)
vmcase(OP_LOADBOOL,
setbvalue(ra, GETARG_B(i));
if (GETARG_C(i)) ci->u.l.savedpc++; /* skip next instruction (if C) */
)
vmcase(OP_LOADNIL,
int b = GETARG_B(i);
do {
setnilvalue(ra++);
} while (b--);
)
vmcase(OP_GETUPVAL,
int b = GETARG_B(i);
setobj2s(L, ra, cl->upvals[b]->v);
)
vmcase(OP_GETTABUP,
int b = GETARG_B(i);
Protect(luaV_gettable(L, cl->upvals[b]->v, RKC(i), ra));
)
vmcase(OP_GETTABLE,
Protect(luaV_gettable(L, RB(i), RKC(i), ra));
)
vmcase(OP_SETTABUP,
int a = GETARG_A(i);
Protect(luaV_settable(L, cl->upvals[a]->v, RKB(i), RKC(i)));
)
vmcase(OP_SETUPVAL,
UpVal *uv = cl->upvals[GETARG_B(i)];
setobj(L, uv->v, ra);
luaC_barrier(L, uv, ra);
)
vmcase(OP_SETTABLE,
Protect(luaV_settable(L, ra, RKB(i), RKC(i)));
)
vmcase(OP_NEWTABLE,
int b = GETARG_B(i);
int c = GETARG_C(i);
Table *t = luaH_new(L);
sethvalue(L, ra, t);
if (b != 0 || c != 0)
luaH_resize(L, t, luaO_fb2int(b), luaO_fb2int(c));
checkGC(L, ra + 1);
)
vmcase(OP_SELF,
StkId rb = RB(i);
setobjs2s(L, ra+1, rb);
Protect(luaV_gettable(L, rb, RKC(i), ra));
)
vmcase(OP_ADD,
arith_op(luai_numadd, TM_ADD);
)
vmcase(OP_SUB,
arith_op(luai_numsub, TM_SUB);
)
vmcase(OP_MUL,
arith_op(luai_nummul, TM_MUL);
)
vmcase(OP_DIV,
arith_op(luai_numdiv, TM_DIV);
)
vmcase(OP_MOD,
arith_op(luai_nummod, TM_MOD);
)
vmcase(OP_POW,
arith_op(luai_numpow, TM_POW);
)
vmcase(OP_UNM,
TValue *rb = RB(i);
if (ttisnumber(rb)) {
lua_Number nb = nvalue(rb);
setnvalue(ra, luai_numunm(L, nb));
}
else {
Protect(luaV_arith(L, ra, rb, rb, TM_UNM));
}
)
vmcase(OP_NOT,
TValue *rb = RB(i);
int res = l_isfalse(rb); /* next assignment may change this value */
setbvalue(ra, res);
)
vmcase(OP_LEN,
Protect(luaV_objlen(L, ra, RB(i)));
)
vmcase(OP_CONCAT,
int b = GETARG_B(i);
int c = GETARG_C(i);
StkId rb;
L->top = base + c + 1; /* mark the end of concat operands */
Protect(luaV_concat(L, c - b + 1));
ra = RA(i); /* 'luav_concat' may invoke TMs and move the stack */
rb = b + base;
setobjs2s(L, ra, rb);
checkGC(L, (ra >= rb ? ra + 1 : rb));
L->top = ci->top; /* restore top */
)
vmcase(OP_JMP,
dojump(ci, i, 0);
)
vmcase(OP_EQ,
TValue *rb = RKB(i);
TValue *rc = RKC(i);
Protect(
if (cast_int(equalobj(L, rb, rc)) != GETARG_A(i))
ci->u.l.savedpc++;
else
donextjump(ci);
)
)
vmcase(OP_LT,
Protect(
if (luaV_lessthan(L, RKB(i), RKC(i)) != GETARG_A(i))
ci->u.l.savedpc++;
else
donextjump(ci);
)
)
vmcase(OP_LE,
Protect(
if (luaV_lessequal(L, RKB(i), RKC(i)) != GETARG_A(i))
ci->u.l.savedpc++;
else
donextjump(ci);
)
)
vmcase(OP_TEST,
if (GETARG_C(i) ? l_isfalse(ra) : !l_isfalse(ra))
ci->u.l.savedpc++;
else
donextjump(ci);
)
vmcase(OP_TESTSET,
TValue *rb = RB(i);
if (GETARG_C(i) ? l_isfalse(rb) : !l_isfalse(rb))
ci->u.l.savedpc++;
else {
setobjs2s(L, ra, rb);
donextjump(ci);
}
)
vmcase(OP_CALL,
int b = GETARG_B(i);
int nresults = GETARG_C(i) - 1;
if (b != 0) L->top = ra+b; /* else previous instruction set top */
if (luaD_precall(L, ra, nresults)) { /* C function? */
if (nresults >= 0) L->top = ci->top; /* adjust results */
base = ci->u.l.base;
}
else { /* Lua function */
ci = L->ci;
ci->callstatus |= CIST_REENTRY;
goto newframe; /* restart luaV_execute over new Lua function */
}
)
vmcase(OP_TAILCALL,
int b = GETARG_B(i);
if (b != 0) L->top = ra+b; /* else previous instruction set top */
lua_assert(GETARG_C(i) - 1 == LUA_MULTRET);
if (luaD_precall(L, ra, LUA_MULTRET)) /* C function? */
base = ci->u.l.base;
else {
/* tail call: put called frame (n) in place of caller one (o) */
CallInfo *nci = L->ci; /* called frame */
CallInfo *oci = nci->previous; /* caller frame */
StkId nfunc = nci->func; /* called function */
StkId ofunc = oci->func; /* caller function */
/* last stack slot filled by 'precall' */
StkId lim = nci->u.l.base + getproto(nfunc)->numparams;
int aux;
/* close all upvalues from previous call */
if (cl->p->sizep > 0) luaF_close(L, oci->u.l.base);
/* move new frame into old one */
for (aux = 0; nfunc + aux < lim; aux++)
setobjs2s(L, ofunc + aux, nfunc + aux);
oci->u.l.base = ofunc + (nci->u.l.base - nfunc); /* correct base */
oci->top = L->top = ofunc + (L->top - nfunc); /* correct top */
oci->u.l.savedpc = nci->u.l.savedpc;
oci->callstatus |= CIST_TAIL; /* function was tail called */
ci = L->ci = oci; /* remove new frame */
lua_assert(L->top == oci->u.l.base + getproto(ofunc)->maxstacksize);
goto newframe; /* restart luaV_execute over new Lua function */
}
)
vmcasenb(OP_RETURN,
int b = GETARG_B(i);
if (b != 0) L->top = ra+b-1;
if (cl->p->sizep > 0) luaF_close(L, base);
b = luaD_poscall(L, ra);
if (!(ci->callstatus & CIST_REENTRY)) /* 'ci' still the called one */
return; /* external invocation: return */
else { /* invocation via reentry: continue execution */
ci = L->ci;
if (b) L->top = ci->top;
lua_assert(isLua(ci));
lua_assert(GET_OPCODE(*((ci)->u.l.savedpc - 1)) == OP_CALL);
goto newframe; /* restart luaV_execute over new Lua function */
}
)
vmcase(OP_FORLOOP,
lua_Number step = nvalue(ra+2);
lua_Number idx = luai_numadd(L, nvalue(ra), step); /* increment index */
lua_Number limit = nvalue(ra+1);
if (luai_numlt(L, 0, step) ? luai_numle(L, idx, limit)
: luai_numle(L, limit, idx)) {
ci->u.l.savedpc += GETARG_sBx(i); /* jump back */
setnvalue(ra, idx); /* update internal index... */
setnvalue(ra+3, idx); /* ...and external index */
}
)
vmcase(OP_FORPREP,
const TValue *init = ra;
const TValue *plimit = ra+1;
const TValue *pstep = ra+2;
if (!tonumber(init, ra))
luaG_runerror(L, LUA_QL("for") " initial value must be a number");
else if (!tonumber(plimit, ra+1))
luaG_runerror(L, LUA_QL("for") " limit must be a number");
else if (!tonumber(pstep, ra+2))
luaG_runerror(L, LUA_QL("for") " step must be a number");
setnvalue(ra, luai_numsub(L, nvalue(ra), nvalue(pstep)));
ci->u.l.savedpc += GETARG_sBx(i);
)
vmcasenb(OP_TFORCALL,
StkId cb = ra + 3; /* call base */
setobjs2s(L, cb+2, ra+2);
setobjs2s(L, cb+1, ra+1);
setobjs2s(L, cb, ra);
L->top = cb + 3; /* func. + 2 args (state and index) */
Protect(luaD_call(L, cb, GETARG_C(i), 1));
L->top = ci->top;
i = *(ci->u.l.savedpc++); /* go to next instruction */
ra = RA(i);
lua_assert(GET_OPCODE(i) == OP_TFORLOOP);
goto l_tforloop;
)
vmcase(OP_TFORLOOP,
l_tforloop:
if (!ttisnil(ra + 1)) { /* continue loop? */
setobjs2s(L, ra, ra + 1); /* save control variable */
ci->u.l.savedpc += GETARG_sBx(i); /* jump back */
}
)
vmcase(OP_SETLIST,
int n = GETARG_B(i);
int c = GETARG_C(i);
int last;
Table *h;
if (n == 0) n = cast_int(L->top - ra) - 1;
if (c == 0) {
lua_assert(GET_OPCODE(*ci->u.l.savedpc) == OP_EXTRAARG);
c = GETARG_Ax(*ci->u.l.savedpc++);
}
luai_runtimecheck(L, ttistable(ra));
h = hvalue(ra);
last = ((c-1)*LFIELDS_PER_FLUSH) + n;
if (last > h->sizearray) /* needs more space? */
luaH_resizearray(L, h, last); /* pre-allocate it at once */
for (; n > 0; n--) {
TValue *val = ra+n;
luaH_setint(L, h, last--, val);
luaC_barrierback(L, obj2gco(h), val);
}
L->top = ci->top; /* correct top (in case of previous open call) */
)
vmcase(OP_CLOSURE,
Proto *p = cl->p->p[GETARG_Bx(i)];
Closure *ncl = getcached(p, cl->upvals, base); /* cached closure */
if (ncl == NULL) /* no match? */
pushclosure(L, p, cl->upvals, base, ra); /* create a new one */
else
setclLvalue(L, ra, ncl); /* push cashed closure */
checkGC(L, ra + 1);
)
vmcase(OP_VARARG,
int b = GETARG_B(i) - 1;
int j;
int n = cast_int(base - ci->func) - cl->p->numparams - 1;
if (b < 0) { /* B == 0? */
b = n; /* get all var. arguments */
Protect(luaD_checkstack(L, n));
ra = RA(i); /* previous call may change the stack */
L->top = ra + n;
}
for (j = 0; j < b; j++) {
if (j < n) {
setobjs2s(L, ra + j, base - n + j);
}
else {
setnilvalue(ra + j);
}
}
)
vmcase(OP_EXTRAARG,
lua_assert(0);
)
}
}
}

76
ext/lua/src/lzio.c Normal file
View File

@@ -0,0 +1,76 @@
/*
** $Id: lzio.c,v 1.35.1.1 2013/04/12 18:48:47 roberto Exp $
** Buffered streams
** See Copyright Notice in lua.h
*/
#include <string.h>
#define lzio_c
#define LUA_CORE
#include "lua.h"
#include "llimits.h"
#include "lmem.h"
#include "lstate.h"
#include "lzio.h"
int luaZ_fill (ZIO *z) {
size_t size;
lua_State *L = z->L;
const char *buff;
lua_unlock(L);
buff = z->reader(L, z->data, &size);
lua_lock(L);
if (buff == NULL || size == 0)
return EOZ;
z->n = size - 1; /* discount char being returned */
z->p = buff;
return cast_uchar(*(z->p++));
}
void luaZ_init (lua_State *L, ZIO *z, lua_Reader reader, void *data) {
z->L = L;
z->reader = reader;
z->data = data;
z->n = 0;
z->p = NULL;
}
/* --------------------------------------------------------------- read --- */
size_t luaZ_read (ZIO *z, void *b, size_t n) {
while (n) {
size_t m;
if (z->n == 0) { /* no bytes in buffer? */
if (luaZ_fill(z) == EOZ) /* try to read more */
return n; /* no more input; return number of missing bytes */
else {
z->n++; /* luaZ_fill consumed first byte; put it back */
z->p--;
}
}
m = (n <= z->n) ? n : z->n; /* min. between n and z->n */
memcpy(b, z->p, m);
z->n -= m;
z->p += m;
b = (char *)b + m;
n -= m;
}
return 0;
}
/* ------------------------------------------------------------------------ */
char *luaZ_openspace (lua_State *L, Mbuffer *buff, size_t n) {
if (n > buff->buffsize) {
if (n < LUA_MINBUFFER) n = LUA_MINBUFFER;
luaZ_resizebuffer(L, buff, n);
}
return buff->buffer;
}

28
ext/spice/CMakeLists.txt Normal file
View File

@@ -0,0 +1,28 @@
cmake_minimum_required (VERSION 2.8)
project (Spice)
if (NOT SPICE_ROOT_DIR)
set(SPICE_ROOT_DIR ${PROJECT_SOURCE_DIR})
endif ()
file(GLOB cspice_SRC
"src/cspice/*.c"
)
file(GLOB csupport_SRC
"src/csupport/*.c"
)
include_directories ("${SPICE_ROOT_DIR}/include")
add_definitions( -DKR_headers )
if(MSVC)
add_definitions( -DMSDOS )
endif(MSVC)
#add_library( Spice ${cspice_SRC} ${csupport_SRC} )
add_library( Spice ${cspice_SRC} )
#SET_TARGET_PROPERTIES(cspice PROPERTIES LINKER_LANGUAGE C)
#SET_TARGET_PROPERTIES(csupport PROPERTIES LINKER_LANGUAGE C)

155
ext/spice/include/SpiceCK.h Normal file
View File

@@ -0,0 +1,155 @@
/*
-Header_File SpiceCK.h ( CSPICE CK definitions )
-Abstract
Perform CSPICE definitions to support CK wrapper interfaces.
-Disclaimer
THIS SOFTWARE AND ANY RELATED MATERIALS WERE CREATED BY THE
CALIFORNIA INSTITUTE OF TECHNOLOGY (CALTECH) UNDER A U.S.
GOVERNMENT CONTRACT WITH THE NATIONAL AERONAUTICS AND SPACE
ADMINISTRATION (NASA). THE SOFTWARE IS TECHNOLOGY AND SOFTWARE
PUBLICLY AVAILABLE UNDER U.S. EXPORT LAWS AND IS PROVIDED "AS-IS"
TO THE RECIPIENT WITHOUT WARRANTY OF ANY KIND, INCLUDING ANY
WARRANTIES OF PERFORMANCE OR MERCHANTABILITY OR FITNESS FOR A
PARTICULAR USE OR PURPOSE (AS SET FORTH IN UNITED STATES UCC
SECTIONS 2312-2313) OR FOR ANY PURPOSE WHATSOEVER, FOR THE
SOFTWARE AND RELATED MATERIALS, HOWEVER USED.
IN NO EVENT SHALL CALTECH, ITS JET PROPULSION LABORATORY, OR NASA
BE LIABLE FOR ANY DAMAGES AND/OR COSTS, INCLUDING, BUT NOT
LIMITED TO, INCIDENTAL OR CONSEQUENTIAL DAMAGES OF ANY KIND,
INCLUDING ECONOMIC DAMAGE OR INJURY TO PROPERTY AND LOST PROFITS,
REGARDLESS OF WHETHER CALTECH, JPL, OR NASA BE ADVISED, HAVE
REASON TO KNOW, OR, IN FACT, SHALL KNOW OF THE POSSIBILITY.
RECIPIENT BEARS ALL RISK RELATING TO QUALITY AND PERFORMANCE OF
THE SOFTWARE AND ANY RELATED MATERIALS, AND AGREES TO INDEMNIFY
CALTECH AND NASA FOR ALL THIRD-PARTY CLAIMS RESULTING FROM THE
ACTIONS OF RECIPIENT IN THE USE OF THE SOFTWARE.
-Required_Reading
None.
-Particulars
This header defines types that may be referenced in
application code that calls CSPICE CK functions.
Typedef
=======
Name Description
---- ----------
SpiceCK05Subtype Typedef for enum indicating the
mathematical representation used
in an CK type 05 segment. Possible
values and meanings are:
C05TP0:
Hermite interpolation, 8-
element packets containing
q0, q1, q2, q3,
dq0/dt, dq1/dt, dq2/dt dq3/dt
where q0, q1, q2, q3 represent
quaternion components and dq0/dt,
dq1/dt, dq2/dt, dq3/dt represent
quaternion time derivative components.
Quaternions are unitless. Quaternion
time derivatives have units of
1/second.
C05TP1:
Lagrange interpolation, 4-
element packets containing
q0, q1, q2, q3,
where q0, q1, q2, q3 represent
quaternion components. Quaternion
derivatives are obtained by
differentiating interpolating
polynomials.
C05TP2:
Hermite interpolation, 14-
element packets containing
q0, q1, q2, q3,
dq0/dt, dq1/dt, dq2/dt dq3/dt,
av0, av1, av2,
dav0/dt, dav1/dt, dav2/dt
where q0, q1, q2, q3 represent
quaternion components and dq0/dt,
dq1/dt, dq2/dt, dq3/dt represent
quaternion time derivative components,
av0, av1, av2 represent angular
velocity components, and
dav0/dt, dav1/dt, dav2/dt represent
angular acceleration components.
C05TP3:
Lagrange interpolation, 7-
element packets containing
q0, q1, q2, q3,
av0, av1, av2
where q0, q1, q2, q3 represent
quaternion components and
av0, av1, av2 represent angular
velocity components.
Literature_References
None.
-Author_and_Institution
N.J. Bachman (JPL)
-Restrictions
None.
-Version
-CSPICE Version 1.0.0, 20-AUG-2002 (NJB)
*/
#ifndef HAVE_SPICE_CK_H
#define HAVE_SPICE_CK_H
/*
CK type 05 subtype codes:
*/
enum _SpiceCK05Subtype { C05TP0, C05TP1, C05TP2, C05TP3 };
typedef enum _SpiceCK05Subtype SpiceCK05Subtype;
#endif

441
ext/spice/include/SpiceCel.h Normal file
View File

@@ -0,0 +1,441 @@
/*
-Header_File SpiceCel.h ( CSPICE Cell definitions )
-Abstract
Perform CSPICE definitions for the SpiceCell data type.
-Disclaimer
THIS SOFTWARE AND ANY RELATED MATERIALS WERE CREATED BY THE
CALIFORNIA INSTITUTE OF TECHNOLOGY (CALTECH) UNDER A U.S.
GOVERNMENT CONTRACT WITH THE NATIONAL AERONAUTICS AND SPACE
ADMINISTRATION (NASA). THE SOFTWARE IS TECHNOLOGY AND SOFTWARE
PUBLICLY AVAILABLE UNDER U.S. EXPORT LAWS AND IS PROVIDED "AS-IS"
TO THE RECIPIENT WITHOUT WARRANTY OF ANY KIND, INCLUDING ANY
WARRANTIES OF PERFORMANCE OR MERCHANTABILITY OR FITNESS FOR A
PARTICULAR USE OR PURPOSE (AS SET FORTH IN UNITED STATES UCC
SECTIONS 2312-2313) OR FOR ANY PURPOSE WHATSOEVER, FOR THE
SOFTWARE AND RELATED MATERIALS, HOWEVER USED.
IN NO EVENT SHALL CALTECH, ITS JET PROPULSION LABORATORY, OR NASA
BE LIABLE FOR ANY DAMAGES AND/OR COSTS, INCLUDING, BUT NOT
LIMITED TO, INCIDENTAL OR CONSEQUENTIAL DAMAGES OF ANY KIND,
INCLUDING ECONOMIC DAMAGE OR INJURY TO PROPERTY AND LOST PROFITS,
REGARDLESS OF WHETHER CALTECH, JPL, OR NASA BE ADVISED, HAVE
REASON TO KNOW, OR, IN FACT, SHALL KNOW OF THE POSSIBILITY.
RECIPIENT BEARS ALL RISK RELATING TO QUALITY AND PERFORMANCE OF
THE SOFTWARE AND ANY RELATED MATERIALS, AND AGREES TO INDEMNIFY
CALTECH AND NASA FOR ALL THIRD-PARTY CLAIMS RESULTING FROM THE
ACTIONS OF RECIPIENT IN THE USE OF THE SOFTWARE.
-Required_Reading
CELLS
-Particulars
This header defines structures, macros, and enumerated types that
may be referenced in application code that calls CSPICE cell
functions.
CSPICE cells are data structures that implement functionality
parallel to that of the cell abstract data type in SPICELIB. In
CSPICE, a cell is a C structure containing bookkeeping information,
including a pointer to an associated data array.
For numeric data types, the data array is simply a SPICELIB-style
cell, including a valid control area. For character cells, the data
array has the same number of elements as the corresponding
SPICELIB-style cell, but the contents of the control area are not
maintained, and the data elements are null-terminated C-style
strings.
CSPICE cells should be declared using the declaration macros
provided in this header file. See the table of macros below.
Structures
==========
Name Description
---- ----------
SpiceCell Structure containing CSPICE cell metadata.
The members are:
dtype: Data type of cell: character,
integer, or double precision.
dtype has type
SpiceCellDataType.
length: For character cells, the
declared length of the
cell's string array.
size: The maximum number of data
items that can be stored in
the cell's data array.
card: The cell's "cardinality": the
number of data items currently
present in the cell.
isSet: Boolean flag indicating whether
the cell is a CSPICE set.
Sets have no duplicate data
items, and their data items are
stored in increasing order.
adjust: Boolean flag indicating whether
the cell's data area has
adjustable size. Adjustable
size cell data areas are not
currently implemented.
init: Boolean flag indicating whether
the cell has been initialized.
base: is a void pointer to the
associated data array. base
points to the start of the
control area of this array.
data: is a void pointer to the
first data slot in the
associated data array. This
slot is the element following
the control area.
ConstSpiceCell A const SpiceCell.
Declaration Macros
==================
Name Description
---- ----------
SPICECHAR_CELL ( name, size, length ) Declare a
character CSPICE
cell having cell
name name,
maximum cell
cardinality size,
and string length
length. The
macro declares
both the cell and
the associated
data array. The
name of the data
array begins with
"SPICE_".
SPICEDOUBLE_CELL ( name, size ) Like SPICECHAR_CELL,
but declares a
double precision
cell.
SPICEINT_CELL ( name, size ) Like
SPICECHAR_CELL,
but declares an
integer cell.
Assignment Macros
=================
Name Description
---- ----------
SPICE_CELL_SET_C( item, i, cell ) Assign the ith
element of a
character cell.
Arguments cell
and item are
pointers.
SPICE_CELL_SET_D( item, i, cell ) Assign the ith
element of a
double precision
cell. Argument
cell is a
pointer.
SPICE_CELL_SET_I( item, i, cell ) Assign the ith
element of an
integer cell.
Argument cell is
a pointer.
Fetch Macros
==============
Name Description
---- ----------
SPICE_CELL_GET_C( cell, i, lenout, item ) Fetch the ith
element from a
character cell.
Arguments cell
and item are
pointers.
Argument lenout
is the available
space in item.
SPICE_CELL_GET_D( cell, i, item ) Fetch the ith
element from a
double precision
cell. Arguments
cell and item are
pointers.
SPICE_CELL_GET_I( cell, i, item ) Fetch the ith
element from an
integer cell.
Arguments cell
and item are
pointers.
Element Pointer Macros
======================
Name Description
---- ----------
SPICE_CELL_ELEM_C( cell, i ) Macro evaluates
to a SpiceChar
pointer to the
ith data element
of a character
cell. Argument
cell is a
pointer.
SPICE_CELL_ELEM_D( cell, i ) Macro evaluates
to a SpiceDouble
pointer to the
ith data element
of a double
precision cell.
Argument cell is
a pointer.
SPICE_CELL_ELEM_I( cell, i ) Macro evaluates
to a SpiceInt
pointer to the
ith data element
of an integer
cell. Argument
cell is a
pointer.
-Literature_References
None.
-Author_and_Institution
N.J. Bachman (JPL)
-Restrictions
None.
-Version
-CSPICE Version 1.0.0, 22-AUG-2002 (NJB)
*/
#ifndef HAVE_SPICE_CELLS_H
#define HAVE_SPICE_CELLS_H
/*
Data type codes:
*/
typedef enum _SpiceDataType SpiceCellDataType;
/*
Cell structure:
*/
struct _SpiceCell
{ SpiceCellDataType dtype;
SpiceInt length;
SpiceInt size;
SpiceInt card;
SpiceBoolean isSet;
SpiceBoolean adjust;
SpiceBoolean init;
void * base;
void * data; };
typedef struct _SpiceCell SpiceCell;
typedef const SpiceCell ConstSpiceCell;
/*
SpiceCell control area size:
*/
#define SPICE_CELL_CTRLSZ 6
/*
Declaration macros:
*/
#define SPICECHAR_CELL( name, size, length ) \
\
static SpiceChar SPICE_CELL_##name[SPICE_CELL_CTRLSZ + size][length]; \
\
static SpiceCell name = \
\
{ SPICE_CHR, \
length, \
size, \
0, \
SPICETRUE, \
SPICEFALSE, \
SPICEFALSE, \
(void *) &(SPICE_CELL_##name), \
(void *) &(SPICE_CELL_##name[SPICE_CELL_CTRLSZ]) }
#define SPICEDOUBLE_CELL( name, size ) \
\
static SpiceDouble SPICE_CELL_##name [SPICE_CELL_CTRLSZ + size]; \
\
static SpiceCell name = \
\
{ SPICE_DP, \
0, \
size, \
0, \
SPICETRUE, \
SPICEFALSE, \
SPICEFALSE, \
(void *) &(SPICE_CELL_##name), \
(void *) &(SPICE_CELL_##name[SPICE_CELL_CTRLSZ]) }
#define SPICEINT_CELL( name, size ) \
\
static SpiceInt SPICE_CELL_##name [SPICE_CELL_CTRLSZ + size]; \
\
static SpiceCell name = \
\
{ SPICE_INT, \
0, \
size, \
0, \
SPICETRUE, \
SPICEFALSE, \
SPICEFALSE, \
(void *) &(SPICE_CELL_##name), \
(void *) &(SPICE_CELL_##name[SPICE_CELL_CTRLSZ]) }
/*
Access macros for individual elements:
*/
/*
Data element pointer macros:
*/
#define SPICE_CELL_ELEM_C( cell, i ) \
\
( ( (SpiceChar *) (cell)->data ) + (i)*( (cell)->length ) )
#define SPICE_CELL_ELEM_D( cell, i ) \
\
( ( (SpiceDouble *) (cell)->data )[(i)] )
#define SPICE_CELL_ELEM_I( cell, i ) \
\
( ( (SpiceInt *) (cell)->data )[(i)] )
/*
"Fetch" macros:
*/
#define SPICE_CELL_GET_C( cell, i, lenout, item ) \
\
{ \
SpiceInt nBytes; \
\
nBytes = brckti_c ( (cell)->length, 0, (lenout-1) ) \
* sizeof ( SpiceChar ); \
\
memmove ( (item), SPICE_CELL_ELEM_C((cell), (i)), nBytes ); \
\
item[nBytes] = NULLCHAR; \
}
#define SPICE_CELL_GET_D( cell, i, item ) \
\
( (*item) = ( (SpiceDouble *) (cell)->data)[i] )
#define SPICE_CELL_GET_I( cell, i, item ) \
\
( (*item) = ( (SpiceInt *) (cell)->data)[i] )
/*
Assignment macros:
*/
#define SPICE_CELL_SET_C( item, i, cell ) \
\
{ \
SpiceChar * sPtr; \
SpiceInt nBytes; \
\
nBytes = brckti_c ( strlen(item), 0, (cell)->length - 1 ) \
* sizeof ( SpiceChar ); \
\
sPtr = SPICE_CELL_ELEM_C((cell), (i)); \
\
memmove ( sPtr, (item), nBytes ); \
\
sPtr[nBytes] = NULLCHAR; \
}
#define SPICE_CELL_SET_D( item, i, cell ) \
\
( ( (SpiceDouble *) (cell)->data)[i] = (item) )
#define SPICE_CELL_SET_I( item, i, cell ) \
\
( ( (SpiceInt *) (cell)->data)[i] = (item) )
/*
The enum SpiceTransDir is used to indicate language translation
direction: C to Fortran or vice versa.
*/
enum _SpiceTransDir { C2F = 0, F2C = 1 };
typedef enum _SpiceTransDir SpiceTransDir;
#endif

448
ext/spice/include/SpiceEK.h Normal file
View File

@@ -0,0 +1,448 @@
/*
-Header_File SpiceEK.h ( CSPICE EK-specific definitions )
-Abstract
Perform CSPICE EK-specific definitions, including macros and user-
defined types.
-Disclaimer
THIS SOFTWARE AND ANY RELATED MATERIALS WERE CREATED BY THE
CALIFORNIA INSTITUTE OF TECHNOLOGY (CALTECH) UNDER A U.S.
GOVERNMENT CONTRACT WITH THE NATIONAL AERONAUTICS AND SPACE
ADMINISTRATION (NASA). THE SOFTWARE IS TECHNOLOGY AND SOFTWARE
PUBLICLY AVAILABLE UNDER U.S. EXPORT LAWS AND IS PROVIDED "AS-IS"
TO THE RECIPIENT WITHOUT WARRANTY OF ANY KIND, INCLUDING ANY
WARRANTIES OF PERFORMANCE OR MERCHANTABILITY OR FITNESS FOR A
PARTICULAR USE OR PURPOSE (AS SET FORTH IN UNITED STATES UCC
SECTIONS 2312-2313) OR FOR ANY PURPOSE WHATSOEVER, FOR THE
SOFTWARE AND RELATED MATERIALS, HOWEVER USED.
IN NO EVENT SHALL CALTECH, ITS JET PROPULSION LABORATORY, OR NASA
BE LIABLE FOR ANY DAMAGES AND/OR COSTS, INCLUDING, BUT NOT
LIMITED TO, INCIDENTAL OR CONSEQUENTIAL DAMAGES OF ANY KIND,
INCLUDING ECONOMIC DAMAGE OR INJURY TO PROPERTY AND LOST PROFITS,
REGARDLESS OF WHETHER CALTECH, JPL, OR NASA BE ADVISED, HAVE
REASON TO KNOW, OR, IN FACT, SHALL KNOW OF THE POSSIBILITY.
RECIPIENT BEARS ALL RISK RELATING TO QUALITY AND PERFORMANCE OF
THE SOFTWARE AND ANY RELATED MATERIALS, AND AGREES TO INDEMNIFY
CALTECH AND NASA FOR ALL THIRD-PARTY CLAIMS RESULTING FROM THE
ACTIONS OF RECIPIENT IN THE USE OF THE SOFTWARE.
-Required_Reading
None.
-Particulars
This header defines macros, enumerated types, structures, and
typedefs that may be referenced in application code that calls CSPICE
EK functions.
Macros
======
General limits
--------------
Name Description
---- ----------
SPICE_EK_MXCLSG Maximum number of columns per segment.
SPICE_EK_TYPLEN Maximum length of a short string
indicating a data type (one of
{"CHR", "DP", "INT", "TIME"}). Such
strings are returned by some of the
Fortran SPICELIB EK routines, hence also
by their f2c'd counterparts.
Sizes of EK objects
-------------------
Name Description
---- ----------
SPICE_EK_CNAMSZ Maximum length of column name.
SPICE_EK_CSTRLN Length of string required to hold column
name.
SPICE_EK_TNAMSZ Maximum length of table name.
SPICE_EK_TSTRLN Length of string required to hold table
name.
Query-related limits
--------------------
Name Description
---- ----------
SPICE_EK_MAXQRY Maximum length of an input query. This
value is currently equivalent to
twenty-five 80-character lines.
SPICE_EK_MAXQSEL Maximum number of columns that may be
listed in the `SELECT clause' of a query.
SPICE_EK_MAXQTAB Maximum number of tables that may be
listed in the `FROM clause' of a query.
SPICE_EK_MAXQCON Maximum number of relational expressions
that may be listed in the `constraint
clause' of a query.
This limit applies to a query when it is
represented in `normalized form': that
is, the constraints have been expressed
as a disjunction of conjunctions of
relational expressions. The number of
relational expressions in a query that
has been expanded in this fashion may be
greater than the number of relations in
the query as orginally written. For
example, the expression
( ( A LT 1 ) OR ( B GT 2 ) )
AND
( ( C NE 3 ) OR ( D EQ 4 ) )
which contains 4 relational expressions,
expands to the equivalent normalized
constraint
( ( A LT 1 ) AND ( C NE 3 ) )
OR
( ( A LT 1 ) AND ( D EQ 4 ) )
OR
( ( B GT 2 ) AND ( C NE 3 ) )
OR
( ( B GT 2 ) AND ( D EQ 4 ) )
which contains eight relational
expressions.
SPICE_EK_MAXQJOIN Maximum number of tables that can be
joined.
SPICE_EK_MAXQJCON Maximum number of join constraints
allowed.
SPICE_EK_MAXQORD Maximum number of columns that may be
used in the `order-by clause' of a query.
SPICE_EK_MAXQTOK Maximum number of tokens in a query.
Tokens
are reserved words, column names,
parentheses, and values. Literal strings
and time values count as single tokens.
SPICE_EK_MAXQNUM Maximum number of numeric tokens in a
query.
SPICE_EK_MAXQCLN Maximum total length of character tokens
in a query.
SPICE_EK_MAXQSTR Maximum length of literal string values
allowed in queries.
Codes
-----
Name Description
---- ----------
SPICE_EK_VARSIZ Code used to indicate variable-size
objects. Usually this is used in a
context where a non-negative integer
indicates the size of a fixed-size object
and the presence of this code indicates a
variable-size object.
The value of this constant must match the
parameter IFALSE used in the Fortran
library SPICELIB.
Enumerated Types
================
Enumerated code values
----------------------
Name Description
---- ----------
SpiceEKDataType Codes for data types used in the EK
interface: character, double precision,
integer, and "time."
The values are:
{ SPICE_CHR = 0,
SPICE_DP = 1,
SPICE_INT = 2,
SPICE_TIME = 3 }
SpiceEKExprClass Codes for types of expressions that may
appear in the SELECT clause of EK
queries. Values and meanings are:
SPICE_EK_EXP_COL Selected item was a
column. The column
may qualified by a
table name.
SPICE_EK_EXP_FUNC Selected item was
a simple function
invocation of the
form
F ( <column> )
or else was
COUNT(*)
SPICE_EK_EXP_EXPR Selected item was a
more general
expression than
those shown above.
Numeric values are:
{ SPICE_EK_EXP_COL = 0,
SPICE_EK_EXP_FUNC = 1,
SPICE_EK_EXP_EXPR = 2 }
Structures
==========
EK API structures
-----------------
Name Description
---- ----------
SpiceEKAttDsc EK column attribute descriptor. Note
that this object is distinct from the EK
column descriptors used internally in
the EK routines; those descriptors
contain pointers as well as attribute
information.
The members are:
cclass: Column class code.
dtype: Data type code: has type
SpiceEKDataType.
strlen: String length. Applies to
SPICE_CHR type. Value is
SPICE_EK_VARSIZ for
variable-length strings.
size: Column entry size; this is
the number of array
elements in a column
entry. The value is
SPICE_EK_VARSIZ for
variable-size columns.
indexd: Index flag; value is
SPICETRUE if the column is
indexed, SPICEFALSE
otherwise.
nullok: Null flag; value is
SPICETRUE if the column
may contain null values,
SPICEFALSE otherwise.
SpiceEKSegSum EK segment summary. This structure
contains user interface level descriptive
information. The structure contains the
following members:
tabnam The name of the table to
which the segment belongs.
nrows The number of rows in the
segment.
ncols The number of columns in
the segment.
cnames An array of names of
columns in the segment.
Column names may contain
as many as SPICE_EK_CNAMSZ
characters. The array
contains room for
SPICE_EK_MXCLSG column
names.
cdescrs An array of column
attribute descriptors of
type SpiceEKAttDsc.
The array contains room
for SPICE_EK_MXCLSG
descriptors. The Ith
descriptor corresponds to
the column whose name is
the Ith element of the
array cnames.
-Literature_References
None.
-Author_and_Institution
N.J. Bachman (JPL)
-Restrictions
None.
-Version
-CSPICE Version 2.0.0 27-JUL-2002 (NJB)
Defined SpiceEKDataType using SpiceDataType. Removed declaration
of enum _SpiceEKDataType.
-CSPICE Version 1.0.0, 05-JUL-1999 (NJB)
Renamed _SpiceEKAttDsc member "class" to "cclass." The
former name is a reserved word in C++.
-CSPICE Version 1.0.0, 24-FEB-1999 (NJB)
*/
#ifndef HAVE_SPICE_EK_H
#define HAVE_SPICE_EK_H
/*
Constants
*/
/*
Sizes of EK objects:
*/
#define SPICE_EK_CNAMSZ 32
#define SPICE_EK_CSTRLN ( SPICE_EK_CNAMSZ + 1 )
#define SPICE_EK_TNAMSZ 64
#define SPICE_EK_TSTRLN ( SPICE_EK_TNAMSZ + 1 )
/*
Maximum number of columns per segment:
*/
#define SPICE_EK_MXCLSG 100
/*
Maximum length of string indicating data type:
*/
#define SPICE_EK_TYPLEN 4
/*
Query-related limits (see header for details):
*/
#define SPICE_EK_MAXQRY 2000
#define SPICE_EK_MAXQSEL 50
#define SPICE_EK_MAXQTAB 10
#define SPICE_EK_MAXQCON 1000
#define SPICE_EK_MAXQJOIN 10
#define SPICE_EK_MAXQJCON 100
#define SPICE_EK_MAXQORD 10
#define SPICE_EK_MAXQTOK 500
#define SPICE_EK_MAXQNUM 100
#define SPICE_EK_MAXQCLN SPICE_EK_MAXQRY
#define SPICE_EK_MAXQSTR 1024
/*
Code indicating "variable size":
*/
#define SPICE_EK_VARSIZ (-1)
/*
Data type codes:
*/
typedef SpiceDataType SpiceEKDataType;
/*
SELECT clause expression type codes:
*/
enum _SpiceEKExprClass{ SPICE_EK_EXP_COL = 0,
SPICE_EK_EXP_FUNC = 1,
SPICE_EK_EXP_EXPR = 2 };
typedef enum _SpiceEKExprClass SpiceEKExprClass;
/*
EK column attribute descriptor:
*/
struct _SpiceEKAttDsc
{ SpiceInt cclass;
SpiceEKDataType dtype;
SpiceInt strlen;
SpiceInt size;
SpiceBoolean indexd;
SpiceBoolean nullok; };
typedef struct _SpiceEKAttDsc SpiceEKAttDsc;
/*
EK segment summary:
*/
struct _SpiceEKSegSum
{ SpiceChar tabnam [SPICE_EK_TSTRLN];
SpiceInt nrows;
SpiceInt ncols;
SpiceChar cnames [SPICE_EK_MXCLSG][SPICE_EK_CSTRLN];
SpiceEKAttDsc cdescrs[SPICE_EK_MXCLSG]; };
typedef struct _SpiceEKSegSum SpiceEKSegSum;
#endif

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/*
-Header_File SpiceEll.h ( CSPICE Ellipse definitions )
-Abstract
Perform CSPICE definitions for the SpiceEllipse data type.
-Disclaimer
THIS SOFTWARE AND ANY RELATED MATERIALS WERE CREATED BY THE
CALIFORNIA INSTITUTE OF TECHNOLOGY (CALTECH) UNDER A U.S.
GOVERNMENT CONTRACT WITH THE NATIONAL AERONAUTICS AND SPACE
ADMINISTRATION (NASA). THE SOFTWARE IS TECHNOLOGY AND SOFTWARE
PUBLICLY AVAILABLE UNDER U.S. EXPORT LAWS AND IS PROVIDED "AS-IS"
TO THE RECIPIENT WITHOUT WARRANTY OF ANY KIND, INCLUDING ANY
WARRANTIES OF PERFORMANCE OR MERCHANTABILITY OR FITNESS FOR A
PARTICULAR USE OR PURPOSE (AS SET FORTH IN UNITED STATES UCC
SECTIONS 2312-2313) OR FOR ANY PURPOSE WHATSOEVER, FOR THE
SOFTWARE AND RELATED MATERIALS, HOWEVER USED.
IN NO EVENT SHALL CALTECH, ITS JET PROPULSION LABORATORY, OR NASA
BE LIABLE FOR ANY DAMAGES AND/OR COSTS, INCLUDING, BUT NOT
LIMITED TO, INCIDENTAL OR CONSEQUENTIAL DAMAGES OF ANY KIND,
INCLUDING ECONOMIC DAMAGE OR INJURY TO PROPERTY AND LOST PROFITS,
REGARDLESS OF WHETHER CALTECH, JPL, OR NASA BE ADVISED, HAVE
REASON TO KNOW, OR, IN FACT, SHALL KNOW OF THE POSSIBILITY.
RECIPIENT BEARS ALL RISK RELATING TO QUALITY AND PERFORMANCE OF
THE SOFTWARE AND ANY RELATED MATERIALS, AND AGREES TO INDEMNIFY
CALTECH AND NASA FOR ALL THIRD-PARTY CLAIMS RESULTING FROM THE
ACTIONS OF RECIPIENT IN THE USE OF THE SOFTWARE.
-Required_Reading
None.
-Particulars
This header defines structures and typedefs that may be referenced in
application code that calls CSPICE Ellipse functions.
Structures
==========
Name Description
---- ----------
SpiceEllipse Structure representing an ellipse in 3-
dimensional space.
The members are:
center: Vector defining ellipse's
center.
semiMajor: Vector defining ellipse's
semi-major axis.
semiMinor: Vector defining ellipse's
semi-minor axis.
The ellipse is the set of points
{X: X = center
+ cos(theta) * semiMajor
+ sin(theta) * semiMinor,
theta in [0, 2*Pi) }
ConstSpiceEllipse A const SpiceEllipse.
-Literature_References
None.
-Author_and_Institution
N.J. Bachman (JPL)
-Restrictions
None.
-Version
-CSPICE Version 1.0.0, 04-MAR-1999 (NJB)
*/
#ifndef HAVE_SPICE_ELLIPSES
#define HAVE_SPICE_ELLIPSES
/*
Ellipse structure:
*/
struct _SpiceEllipse
{ SpiceDouble center [3];
SpiceDouble semiMajor [3];
SpiceDouble semiMinor [3]; };
typedef struct _SpiceEllipse SpiceEllipse;
typedef const SpiceEllipse ConstSpiceEllipse;
#endif

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/*
-Header_File SpiceGF.h ( CSPICE GF-specific definitions )
-Abstract
Perform CSPICE GF-specific definitions.
-Disclaimer
THIS SOFTWARE AND ANY RELATED MATERIALS WERE CREATED BY THE
CALIFORNIA INSTITUTE OF TECHNOLOGY (CALTECH) UNDER A U.S.
GOVERNMENT CONTRACT WITH THE NATIONAL AERONAUTICS AND SPACE
ADMINISTRATION (NASA). THE SOFTWARE IS TECHNOLOGY AND SOFTWARE
PUBLICLY AVAILABLE UNDER U.S. EXPORT LAWS AND IS PROVIDED "AS-IS"
TO THE RECIPIENT WITHOUT WARRANTY OF ANY KIND, INCLUDING ANY
WARRANTIES OF PERFORMANCE OR MERCHANTABILITY OR FITNESS FOR A
PARTICULAR USE OR PURPOSE (AS SET FORTH IN UNITED STATES UCC
SECTIONS 2312-2313) OR FOR ANY PURPOSE WHATSOEVER, FOR THE
SOFTWARE AND RELATED MATERIALS, HOWEVER USED.
IN NO EVENT SHALL CALTECH, ITS JET PROPULSION LABORATORY, OR NASA
BE LIABLE FOR ANY DAMAGES AND/OR COSTS, INCLUDING, BUT NOT
LIMITED TO, INCIDENTAL OR CONSEQUENTIAL DAMAGES OF ANY KIND,
INCLUDING ECONOMIC DAMAGE OR INJURY TO PROPERTY AND LOST PROFITS,
REGARDLESS OF WHETHER CALTECH, JPL, OR NASA BE ADVISED, HAVE
REASON TO KNOW, OR, IN FACT, SHALL KNOW OF THE POSSIBILITY.
RECIPIENT BEARS ALL RISK RELATING TO QUALITY AND PERFORMANCE OF
THE SOFTWARE AND ANY RELATED MATERIALS, AND AGREES TO INDEMNIFY
CALTECH AND NASA FOR ALL THIRD-PARTY CLAIMS RESULTING FROM THE
ACTIONS OF RECIPIENT IN THE USE OF THE SOFTWARE.
-Required_Reading
GF
-Keywords
GEOMETRY
SEARCH
-Exceptions
None
-Files
None
-Particulars
This header defines macros that may be referenced in application
code that calls CSPICE GF functions.
Macros
======
Workspace parameters
--------------------
CSPICE applications normally don't declare workspace arguments
and therefore don't directly reference workspace size parameters.
However, CSPICE GF APIs dealing with numeric constraints
dynamically allocate workspace memory; the amount allocated
depends on the number of intervals the workspace windows can
hold. This amount is an input argument to the GF numeric quantity
APIs.
The parameters below are used to calculate the amount of memory
required. Each workspace window contains 6 double precision
numbers in its control area and 2 double precision numbers for
each interval it can hold.
Name Description
---- ----------
SPICE_GF_NWMAX Maximum number of windows required for
a user-defined workspace array.
SPICE_GF_NWDIST Number of workspace windows used by
gfdist_c and the underlying SPICELIB
routine GFDIST.
SPICE_GF_NWSEP Number of workspace windows used by
gfsep_c and the underlying SPICELIB
routine GFSEP.
Field of view (FOV) parameters
------------------------------
Name Description
---- ----------
SPICE_GF_MAXVRT Maximum allowed number of boundary
vectors for a polygonal FOV.
SPICE_GF_CIRFOV Parameter identifying a circular FOV.
SPICE_GF_ELLFOV Parameter identifying a elliptical FOV.
SPICE_GF_POLFOV Parameter identifying a polygonal FOV.
SPICE_GF_RECFOV Parameter identifying a rectangular FOV.
SPICE_GF_SHPLEN Parameter specifying maximum length of
a FOV shape name.
SPICE_GF_MARGIN is a small positive number used to
constrain the orientation of the
boundary vectors of polygonal FOVs. Such
FOVs must satisfy the following
constraints:
1) The boundary vectors must be
contained within a right circular
cone of angular radius less than
than (pi/2) - MARGIN radians; in
other words, there must be a vector
A such that all boundary vectors
have angular separation from A of
less than (pi/2)-MARGIN radians.
2) There must be a pair of boundary
vectors U, V such that all other
boundary vectors lie in the same
half space bounded by the plane
containing U and V. Furthermore, all
other boundary vectors must have
orthogonal projections onto a plane
normal to this plane such that the
projections have angular separation
of at least 2*MARGIN radians from
the plane spanned by U and V.
MARGIN is currently set to 1.D-12.
Occultation parameters
----------------------
SPICE_GF_ANNULR Parameter identifying an "annular
occultation." This geometric condition
is more commonly known as a "transit."
The limb of the background object must
not be blocked by the foreground object
in order for an occultation to be
"annular."
SPICE_GF_ANY Parameter identifying any type of
occultation or transit.
SPICE_GF_FULL Parameter identifying a full
occultation: the foreground body
entirely blocks the background body.
SPICE_GF_PARTL Parameter identifying an "partial
occultation." This is an occultation in
which the foreground body blocks part,
but not all, of the limb of the
background body.
Target shape parameters
-----------------------
SPICE_GF_EDSHAP Parameter indicating a target object's
shape is modeled as an ellipsoid.
SPICE_GF_PTSHAP Parameter indicating a target object's
shape is modeled as a point.
SPICE_GF_RYSHAP Parameter indicating a target object's
"shape" is modeled as a ray emanating
from an observer's location. This model
may be used in visibility computations
for targets whose direction, but not
position, relative to an observer is
known.
SPICE_GF_SPSHAP Parameter indicating a target object's
shape is modeled as a point.
Search parameters
-----------------
These parameters affect the manner in which GF searches are
performed.
SPICE_GF_ADDWIN is a parameter used in numeric quantity
searches that use an equality
constraint. This parameter is used to
expand the confinement window (the
window over which the search is
performed) by a small amount at both
ends. This expansion accommodates the
case where a geometric quantity is equal
to a reference value at a boundary point
of the original confinement window.
SPICE_GF_CNVTOL is the default convergence tolerance
used by GF routines that don't support a
user-supplied tolerance value. GF
searches for roots will terminate when a
root is bracketed by times separated by
no more than this tolerance. Units are
seconds.
Configuration parameter
-----------------------
SPICE_GFEVNT_MAXPAR Parameter indicating the maximum number of
elements needed for the 'qnames' and 'q*pars'
arrays used in gfevnt_c.
SpiceChar qcpars[SPICE_GFEVNT_MAXPAR][LNSIZE];
SpiceDouble qdpars[SPICE_GFEVNT_MAXPAR];
SpiceInt qipars[SPICE_GFEVNT_MAXPAR];
SpiceBoolean qlpars[SPICE_GFEVNT_MAXPAR];
-Examples
None
-Restrictions
None.
-Literature_References
None.
-Author_and_Institution
N.J. Bachman (JPL)
L.S. Elson (JPL)
-Version
-CSPICE Version 2.0.0, 23-JUN-2009 (NJB)
Added parameter for maximum length of FOV shape string.
-CSPICE Version 1.0.0, 11-MAR-2009 (NJB)
*/
#ifndef HAVE_SPICE_GF_H
#define HAVE_SPICE_GF_H
/*
See the Particulars section above for parameter descriptions.
*/
/*
Workspace parameters
*/
#define SPICE_GF_NWMAX 15
#define SPICE_GF_NWDIST 5
#define SPICE_GF_NWSEP 5
/*
Field of view (FOV) parameters
*/
#define SPICE_GF_MAXVRT 10000
#define SPICE_GF_CIRFOV "CIRCLE"
#define SPICE_GF_ELLFOV "ELLIPSE"
#define SPICE_GF_POLFOV "POLYGON"
#define SPICE_GF_RECFOV "RECTANGLE"
#define SPICE_GF_SHPLEN 10
#define SPICE_GF_MARGIN ( 1.e-12 )
/*
Occultation parameters
*/
#define SPICE_GF_ANNULR "ANNULAR"
#define SPICE_GF_ANY "ANY"
#define SPICE_GF_FULL "FULL"
#define SPICE_GF_PARTL "PARTIAL"
/*
Target shape parameters
*/
#define SPICE_GF_EDSHAP "ELLIPSOID"
#define SPICE_GF_PTSHAP "POINT"
#define SPICE_GF_RYSHAP "RAY"
#define SPICE_GF_SPSHAP "SPHERE"
/*
Search parameters
*/
#define SPICE_GF_ADDWIN 1.0
#define SPICE_GF_CNVTOL 1.e-6
/*
Configuration parameters.
*/
#define SPICE_GFEVNT_MAXPAR 10
#endif
/*
End of header file SpiceGF.h
*/

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/*
-Header_File SpicePln.h ( CSPICE Plane definitions )
-Abstract
Perform CSPICE definitions for the SpicePlane data type.
-Disclaimer
THIS SOFTWARE AND ANY RELATED MATERIALS WERE CREATED BY THE
CALIFORNIA INSTITUTE OF TECHNOLOGY (CALTECH) UNDER A U.S.
GOVERNMENT CONTRACT WITH THE NATIONAL AERONAUTICS AND SPACE
ADMINISTRATION (NASA). THE SOFTWARE IS TECHNOLOGY AND SOFTWARE
PUBLICLY AVAILABLE UNDER U.S. EXPORT LAWS AND IS PROVIDED "AS-IS"
TO THE RECIPIENT WITHOUT WARRANTY OF ANY KIND, INCLUDING ANY
WARRANTIES OF PERFORMANCE OR MERCHANTABILITY OR FITNESS FOR A
PARTICULAR USE OR PURPOSE (AS SET FORTH IN UNITED STATES UCC
SECTIONS 2312-2313) OR FOR ANY PURPOSE WHATSOEVER, FOR THE
SOFTWARE AND RELATED MATERIALS, HOWEVER USED.
IN NO EVENT SHALL CALTECH, ITS JET PROPULSION LABORATORY, OR NASA
BE LIABLE FOR ANY DAMAGES AND/OR COSTS, INCLUDING, BUT NOT
LIMITED TO, INCIDENTAL OR CONSEQUENTIAL DAMAGES OF ANY KIND,
INCLUDING ECONOMIC DAMAGE OR INJURY TO PROPERTY AND LOST PROFITS,
REGARDLESS OF WHETHER CALTECH, JPL, OR NASA BE ADVISED, HAVE
REASON TO KNOW, OR, IN FACT, SHALL KNOW OF THE POSSIBILITY.
RECIPIENT BEARS ALL RISK RELATING TO QUALITY AND PERFORMANCE OF
THE SOFTWARE AND ANY RELATED MATERIALS, AND AGREES TO INDEMNIFY
CALTECH AND NASA FOR ALL THIRD-PARTY CLAIMS RESULTING FROM THE
ACTIONS OF RECIPIENT IN THE USE OF THE SOFTWARE.
-Required_Reading
None.
-Particulars
This header defines structures and typedefs that may be referenced in
application code that calls CSPICE Plane functions.
Structures
==========
Name Description
---- ----------
SpicePlane Structure representing a plane in 3-
dimensional space.
The members are:
normal: Vector normal to plane.
constant: Constant of plane equation
Plane =
{X: <normal,X> = constant}
ConstSpicePlane A const SpicePlane.
-Literature_References
None.
-Author_and_Institution
N.J. Bachman (JPL)
-Restrictions
None.
-Version
-CSPICE Version 1.0.0, 04-MAR-1999 (NJB)
*/
#ifndef HAVE_SPICE_PLANES
#define HAVE_SPICE_PLANES
/*
Plane structure:
*/
struct _SpicePlane
{ SpiceDouble normal [3];
SpiceDouble constant; };
typedef struct _SpicePlane SpicePlane;
typedef const SpicePlane ConstSpicePlane;
#endif

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/*
-Header_File SpiceSPK.h ( CSPICE SPK definitions )
-Abstract
Perform CSPICE definitions to support SPK wrapper interfaces.
-Disclaimer
THIS SOFTWARE AND ANY RELATED MATERIALS WERE CREATED BY THE
CALIFORNIA INSTITUTE OF TECHNOLOGY (CALTECH) UNDER A U.S.
GOVERNMENT CONTRACT WITH THE NATIONAL AERONAUTICS AND SPACE
ADMINISTRATION (NASA). THE SOFTWARE IS TECHNOLOGY AND SOFTWARE
PUBLICLY AVAILABLE UNDER U.S. EXPORT LAWS AND IS PROVIDED "AS-IS"
TO THE RECIPIENT WITHOUT WARRANTY OF ANY KIND, INCLUDING ANY
WARRANTIES OF PERFORMANCE OR MERCHANTABILITY OR FITNESS FOR A
PARTICULAR USE OR PURPOSE (AS SET FORTH IN UNITED STATES UCC
SECTIONS 2312-2313) OR FOR ANY PURPOSE WHATSOEVER, FOR THE
SOFTWARE AND RELATED MATERIALS, HOWEVER USED.
IN NO EVENT SHALL CALTECH, ITS JET PROPULSION LABORATORY, OR NASA
BE LIABLE FOR ANY DAMAGES AND/OR COSTS, INCLUDING, BUT NOT
LIMITED TO, INCIDENTAL OR CONSEQUENTIAL DAMAGES OF ANY KIND,
INCLUDING ECONOMIC DAMAGE OR INJURY TO PROPERTY AND LOST PROFITS,
REGARDLESS OF WHETHER CALTECH, JPL, OR NASA BE ADVISED, HAVE
REASON TO KNOW, OR, IN FACT, SHALL KNOW OF THE POSSIBILITY.
RECIPIENT BEARS ALL RISK RELATING TO QUALITY AND PERFORMANCE OF
THE SOFTWARE AND ANY RELATED MATERIALS, AND AGREES TO INDEMNIFY
CALTECH AND NASA FOR ALL THIRD-PARTY CLAIMS RESULTING FROM THE
ACTIONS OF RECIPIENT IN THE USE OF THE SOFTWARE.
-Required_Reading
None.
-Particulars
This header defines types that may be referenced in
application code that calls CSPICE SPK functions.
Typedef
=======
Name Description
---- ----------
SpiceSPK18Subtype Typedef for enum indicating the
mathematical representation used
in an SPK type 18 segment. Possible
values and meanings are:
S18TP0:
Hermite interpolation, 12-
element packets containing
x, y, z, dx/dt, dy/dt, dz/dt,
vx, vy, vz, dvx/dt, dvy/dt, dvz/dt
where x, y, z represent Cartesian
position components and vx, vy, vz
represent Cartesian velocity
components. Note well: vx, vy, and
vz *are not necessarily equal* to the
time derivatives of x, y, and z.
This packet structure mimics that of
the Rosetta/MEX orbit file from which
the data are taken.
Position units are kilometers,
velocity units are kilometers per
second, and acceleration units are
kilometers per second per second.
S18TP1:
Lagrange interpolation, 6-
element packets containing
x, y, z, dx/dt, dy/dt, dz/dt
where x, y, z represent Cartesian
position components and vx, vy, vz
represent Cartesian velocity
components.
Position units are kilometers;
velocity units are kilometers per
second.
-Literature_References
None.
-Author_and_Institution
N.J. Bachman (JPL)
-Restrictions
None.
-Version
-CSPICE Version 1.0.0, 16-AUG-2002 (NJB)
*/
#ifndef HAVE_SPICE_SPK_H
#define HAVE_SPICE_SPK_H
/*
SPK type 18 subtype codes:
*/
enum _SpiceSPK18Subtype { S18TP0, S18TP1 };
typedef enum _SpiceSPK18Subtype SpiceSPK18Subtype;
#endif

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/*
-Header_File SpiceUsr.h ( CSPICE user interface definitions )
-Abstract
Perform CSPICE user interface declarations, including type
definitions and function prototype declarations.
-Disclaimer
THIS SOFTWARE AND ANY RELATED MATERIALS WERE CREATED BY THE
CALIFORNIA INSTITUTE OF TECHNOLOGY (CALTECH) UNDER A U.S.
GOVERNMENT CONTRACT WITH THE NATIONAL AERONAUTICS AND SPACE
ADMINISTRATION (NASA). THE SOFTWARE IS TECHNOLOGY AND SOFTWARE
PUBLICLY AVAILABLE UNDER U.S. EXPORT LAWS AND IS PROVIDED "AS-IS"
TO THE RECIPIENT WITHOUT WARRANTY OF ANY KIND, INCLUDING ANY
WARRANTIES OF PERFORMANCE OR MERCHANTABILITY OR FITNESS FOR A
PARTICULAR USE OR PURPOSE (AS SET FORTH IN UNITED STATES UCC
SECTIONS 2312-2313) OR FOR ANY PURPOSE WHATSOEVER, FOR THE
SOFTWARE AND RELATED MATERIALS, HOWEVER USED.
IN NO EVENT SHALL CALTECH, ITS JET PROPULSION LABORATORY, OR NASA
BE LIABLE FOR ANY DAMAGES AND/OR COSTS, INCLUDING, BUT NOT
LIMITED TO, INCIDENTAL OR CONSEQUENTIAL DAMAGES OF ANY KIND,
INCLUDING ECONOMIC DAMAGE OR INJURY TO PROPERTY AND LOST PROFITS,
REGARDLESS OF WHETHER CALTECH, JPL, OR NASA BE ADVISED, HAVE
REASON TO KNOW, OR, IN FACT, SHALL KNOW OF THE POSSIBILITY.
RECIPIENT BEARS ALL RISK RELATING TO QUALITY AND PERFORMANCE OF
THE SOFTWARE AND ANY RELATED MATERIALS, AND AGREES TO INDEMNIFY
CALTECH AND NASA FOR ALL THIRD-PARTY CLAIMS RESULTING FROM THE
ACTIONS OF RECIPIENT IN THE USE OF THE SOFTWARE.
-Required_Reading
None.
-Particulars
This file is an umbrella header that includes all header files
required to support the CSPICE application programming interface
(API). Users' application code that calls CSPICE need include only
this single header file. This file includes function prototypes for
the entire set of CSPICE routines. Typedef statements used to create
SPICE data types are also included.
About SPICE data types
======================
To assist with long-term maintainability of CSPICE, NAIF has elected
to use typedefs to represent data types occurring in argument lists
and as return values of CSPICE functions. These are:
SpiceBoolean
SpiceChar
SpiceDouble
SpiceInt
ConstSpiceBoolean
ConstSpiceChar
ConstSpiceDouble
ConstSpiceInt
The SPICE typedefs map in an arguably natural way to ANSI C types:
SpiceBoolean -> enum { SPICEFALSE = 0, SPICETRUE = 1 }
SpiceChar -> char
SpiceDouble -> double
SpiceInt -> int or long
ConstX -> const X (X = any of the above types)
The type SpiceInt is a special case: the corresponding type is picked
so as to be half the size of a double. On all currently supported
platforms, type double occupies 8 bytes and type int occupies 4
bytes. Other platforms may require a SpiceInt to map to type long.
While other data types may be used internally in CSPICE, no other
types appear in the API.
About CSPICE function prototypes
================================
Because CSPICE function prototypes enable substantial
compile-time error checking, we recommend that user
applications always reference them. Including the header
file SpiceUsr.h in any module that calls CSPICE will
automatically make the prototypes available.
About CSPICE C style
====================
CSPICE is written in ANSI C. No attempt has been made to support K&R
conventions or restrictions.
About C++ compatibility
=======================
The preprocessor directive -D__cplusplus should be used when
compiling C++ source code that includes this header file. This
directive will suppress mangling of CSPICE names, permitting linkage
to a CSPICE object library built from object modules produced by
an ANSI C compiler.
-Literature_References
None.
-Author_and_Institution
N.J. Bachman (JPL)
E.D. Wright (JPL)
-Restrictions
The #include statements contained in this file are not part of
the CSPICE API. The set of files included may change without notice.
Users should not include these files directly in their own
application code.
-Version
-CSPICE Version 4.0.0, 30-SEP-2008 (NJB)
Updated to include header file
SpiceGF.h
-CSPICE Version 3.0.0, 19-AUG-2002 (NJB)
Updated to include header files
SpiceCel.h
SpiceCK.h
SpiceSPK.h
-CSPICE Version 3.0.0, 17-FEB-1999 (NJB)
Updated to support suppression of name mangling when included in
C++ source code. Also now interface macros to intercept function
calls and perform automatic type casting.
Now includes platform macro definition header file.
References to types SpiceVoid and ConstSpiceVoid were removed.
-CSPICE Version 2.0.0, 06-MAY-1998 (NJB) (EDW)
*/
#ifdef __cplusplus
extern "C" {
#endif
#ifndef HAVE_SPICE_USER
#define HAVE_SPICE_USER
/*
Include CSPICE platform macro definitions.
*/
#include "SpiceZpl.h"
/*
Include CSPICE data type definitions.
*/
#include "SpiceZdf.h"
/*
Include the CSPICE EK interface definitions.
*/
#include "SpiceEK.h"
/*
Include the CSPICE Cell interface definitions.
*/
#include "SpiceCel.h"
/*
Include the CSPICE CK interface definitions.
*/
#include "SpiceCK.h"
/*
Include the CSPICE SPK interface definitions.
*/
#include "SpiceSPK.h"
/*
Include the CSPICE GF interface definitions.
*/
#include "SpiceGF.h"
/*
Include CSPICE prototypes.
*/
#include "SpiceZpr.h"
/*
Define the CSPICE function interface macros.
*/
#include "SpiceZim.h"
#endif
#ifdef __cplusplus
}
#endif

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/*
-Header_File SpiceZad.h ( CSPICE adapter definitions )
-Abstract
Perform CSPICE declarations to support passed-in function
adapters used in wrapper interfaces.
-Disclaimer
THIS SOFTWARE AND ANY RELATED MATERIALS WERE CREATED BY THE
CALIFORNIA INSTITUTE OF TECHNOLOGY (CALTECH) UNDER A U.S.
GOVERNMENT CONTRACT WITH THE NATIONAL AERONAUTICS AND SPACE
ADMINISTRATION (NASA). THE SOFTWARE IS TECHNOLOGY AND SOFTWARE
PUBLICLY AVAILABLE UNDER U.S. EXPORT LAWS AND IS PROVIDED "AS-IS"
TO THE RECIPIENT WITHOUT WARRANTY OF ANY KIND, INCLUDING ANY
WARRANTIES OF PERFORMANCE OR MERCHANTABILITY OR FITNESS FOR A
PARTICULAR USE OR PURPOSE (AS SET FORTH IN UNITED STATES UCC
SECTIONS 2312-2313) OR FOR ANY PURPOSE WHATSOEVER, FOR THE
SOFTWARE AND RELATED MATERIALS, HOWEVER USED.
IN NO EVENT SHALL CALTECH, ITS JET PROPULSION LABORATORY, OR NASA
BE LIABLE FOR ANY DAMAGES AND/OR COSTS, INCLUDING, BUT NOT
LIMITED TO, INCIDENTAL OR CONSEQUENTIAL DAMAGES OF ANY KIND,
INCLUDING ECONOMIC DAMAGE OR INJURY TO PROPERTY AND LOST PROFITS,
REGARDLESS OF WHETHER CALTECH, JPL, OR NASA BE ADVISED, HAVE
REASON TO KNOW, OR, IN FACT, SHALL KNOW OF THE POSSIBILITY.
RECIPIENT BEARS ALL RISK RELATING TO QUALITY AND PERFORMANCE OF
THE SOFTWARE AND ANY RELATED MATERIALS, AND AGREES TO INDEMNIFY
CALTECH AND NASA FOR ALL THIRD-PARTY CLAIMS RESULTING FROM THE
ACTIONS OF RECIPIENT IN THE USE OF THE SOFTWARE.
-Required_Reading
None.
-Particulars
This header file contains declarations used by the CSPICE
passed-in function adapter ("PFA") system. This system enables
CSPICE wrapper functions to support passed-in function
arguments whose prototypes are C-style, even when these
functions are to be called from f2c'd Fortran routines
expecting f2c-style interfaces.
This header declares:
- The prototype for the passed-in function argument
pointer storage and fetch routines
zzadsave_c
zzadget_c
- Prototypes for CSPICE adapter functions. Each passed-in
function argument in a CSPICE wrapper has a corresponding
adapter function. The adapter functions have interfaces
that match those of their f2c'd counterparts; this allows
the adapters to be called by f2c'd SPICELIB code. The
adapters look up saved function pointers for routines
passed in by the wrapper's caller and call these functions.
- Values for the enumerated type SpicePassedInFunc. These
values are used to map function pointers to the
functions they represent, enabling adapters to call
the correct passed-in functions.
Literature_References
None.
-Author_and_Institution
N.J. Bachman (JPL)
-Restrictions
None.
-Version
-CSPICE Version 2.1.0, 21-DEC-2009 (EDW)
Updated to support the user defined scalar function capability.
-CSPICE Version 2.0.0, 29-JAN-2009 (NJB)
Now conditionally includes SpiceZfc.h.
Updated to reflect new calling sequence of f2c'd
routine gfrefn_. Some header updates were made
as well.
-CSPICE Version 1.0.0, 29-MAR-2008 (NJB)
*/
/*
This file has dependencies defined in SpiceZfc.h. Include that
file if it hasn't already been included.
*/
#ifndef HAVE_SPICEF2C_H
#include "SpiceZfc.h"
#endif
#ifndef HAVE_SPICE_ZAD_H
#define HAVE_SPICE_ZAD_H
/*
Prototypes for GF adapters:
*/
logical zzadbail_c ( void );
int zzadstep_c ( doublereal * et,
doublereal * step );
int zzadrefn_c ( doublereal * t1,
doublereal * t2,
logical * s1,
logical * s2,
doublereal * t );
int zzadrepf_c ( void );
int zzadrepi_c ( doublereal * cnfine,
char * srcpre,
char * srcsuf,
ftnlen srcprelen,
ftnlen srcsuflen );
int zzadrepu_c ( doublereal * ivbeg,
doublereal * ivend,
doublereal * et );
int zzadfunc_c ( doublereal * et,
doublereal * value );
int zzadqdec_c ( U_fp udfunc,
doublereal * et,
logical * xbool );
/*
Define the enumerated type
SpicePassedInFunc
for names of passed-in functions. Using this type gives
us compile-time checking and avoids string comparisons.
*/
enum _SpicePassedInFunc {
UDBAIL,
UDREFN,
UDREPF,
UDREPI,
UDREPU,
UDSTEP,
UDFUNC,
UDQDEC,
};
typedef enum _SpicePassedInFunc SpicePassedInFunc;
/*
SPICE_N_PASSED_IN_FUNC is the count of SpicePassedInFunc values.
*/
#define SPICE_N_PASSED_IN_FUNC 8
/*
CSPICE wrappers supporting passed-in function arguments call
the adapter setup interface function once per each such argument;
these calls save the function pointers for later use within the
f2c'd code that calls passed-in functions. The saved pointers
will be used in calls by the adapter functions whose prototypes
are declared above.
Prototypes for adapter setup interface:
*/
void zzadsave_c ( SpicePassedInFunc functionID,
void * functionPtr );
void * zzadget_c ( SpicePassedInFunc functionID );
#endif
/*
End of header file SpiceZad.h
*/

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/*
-Header_File SpiceZdf.h ( CSPICE definitions )
-Abstract
Define CSPICE data types via typedefs; also define some user-visible
enumerated types.
-Disclaimer
THIS SOFTWARE AND ANY RELATED MATERIALS WERE CREATED BY THE
CALIFORNIA INSTITUTE OF TECHNOLOGY (CALTECH) UNDER A U.S.
GOVERNMENT CONTRACT WITH THE NATIONAL AERONAUTICS AND SPACE
ADMINISTRATION (NASA). THE SOFTWARE IS TECHNOLOGY AND SOFTWARE
PUBLICLY AVAILABLE UNDER U.S. EXPORT LAWS AND IS PROVIDED "AS-IS"
TO THE RECIPIENT WITHOUT WARRANTY OF ANY KIND, INCLUDING ANY
WARRANTIES OF PERFORMANCE OR MERCHANTABILITY OR FITNESS FOR A
PARTICULAR USE OR PURPOSE (AS SET FORTH IN UNITED STATES UCC
SECTIONS 2312-2313) OR FOR ANY PURPOSE WHATSOEVER, FOR THE
SOFTWARE AND RELATED MATERIALS, HOWEVER USED.
IN NO EVENT SHALL CALTECH, ITS JET PROPULSION LABORATORY, OR NASA
BE LIABLE FOR ANY DAMAGES AND/OR COSTS, INCLUDING, BUT NOT
LIMITED TO, INCIDENTAL OR CONSEQUENTIAL DAMAGES OF ANY KIND,
INCLUDING ECONOMIC DAMAGE OR INJURY TO PROPERTY AND LOST PROFITS,
REGARDLESS OF WHETHER CALTECH, JPL, OR NASA BE ADVISED, HAVE
REASON TO KNOW, OR, IN FACT, SHALL KNOW OF THE POSSIBILITY.
RECIPIENT BEARS ALL RISK RELATING TO QUALITY AND PERFORMANCE OF
THE SOFTWARE AND ANY RELATED MATERIALS, AND AGREES TO INDEMNIFY
CALTECH AND NASA FOR ALL THIRD-PARTY CLAIMS RESULTING FROM THE
ACTIONS OF RECIPIENT IN THE USE OF THE SOFTWARE.
-Required_Reading
None.
-Particulars
CSPICE data types
=================
To assist with long-term maintainability of CSPICE, NAIF has elected
to use typedefs to represent data types occurring in argument lists
and as return values of CSPICE functions. These are:
SpiceBoolean
SpiceChar
SpiceDouble
SpiceInt
ConstSpiceBoolean
ConstSpiceChar
ConstSpiceDouble
ConstSpiceInt
The SPICE typedefs map in an arguably natural way to ANSI C types:
SpiceBoolean -> int
SpiceChar -> char
SpiceDouble -> double
SpiceInt -> int or long
ConstX -> const X (X = any of the above types)
The type SpiceInt is a special case: the corresponding type is picked
so as to be half the size of a double. On most currently supported
platforms, type double occupies 8 bytes and type long occupies 4
bytes. Other platforms may require a SpiceInt to map to type int.
The Alpha/Digital Unix platform is an example of the latter case.
While other data types may be used internally in CSPICE, no other
types appear in the API.
CSPICE enumerated types
=======================
These are provided to enhance readability of the code.
Type name Value set
--------- ---------
_Spicestatus { SPICEFAILURE = -1, SPICESUCCESS = 0 }
-Literature_References
None.
-Author_and_Institution
N.J. Bachman (JPL)
B.V. Semenov (JPL)
E.D. Wright (JPL)
-Restrictions
None.
-Version
-CSPICE Version 6.1.0, 14-MAY-2010 (EDW)(BVS)
Updated for:
MAC-OSX-64BIT-INTEL_C
SUN-SOLARIS-64BIT-NATIVE_C
SUN-SOLARIS-INTEL-64BIT-CC_C
environments. Added the corresponding tags:
CSPICE_MAC_OSX_INTEL_64BIT_GCC
CSPICE_SUN_SOLARIS_64BIT_NATIVE
CSPICE_SUN_SOLARIS_INTEL_64BIT_CC
tag to the #ifdefs set.
-CSPICE Version 6.0.0, 21-FEB-2006 (NJB)
Updated to support the PC Linux 64 bit mode/gcc platform.
-CSPICE Version 5.0.0, 27-JAN-2003 (NJB)
Updated to support the Sun Solaris 64 bit mode/gcc platform.
-CSPICE Version 4.0.0 27-JUL-2002 (NJB)
Added definition of SpiceDataType.
-CSPICE Version 3.0.0 18-SEP-1999 (NJB)
SpiceBoolean implementation changed from enumerated type to
typedef mapping to int.
-CSPICE Version 2.0.0 29-JAN-1999 (NJB)
Made definition of SpiceInt and ConstSpiceInt platform
dependent to accommodate the Alpha/Digital Unix platform.
Removed definitions of SpiceVoid and ConstSpiceVoid.
-CSPICE Version 1.0.0 25-OCT-1997 (KRG) (NJB) (EDW)
*/
#ifndef HAVE_SPICEDEFS_H
#define HAVE_SPICEDEFS_H
/*
Include platform definitions, if they haven't been executed already.
*/
#ifndef HAVE_PLATFORM_MACROS_H
#include "SpiceZpl.h"
#endif
/*
Basic data types. These are defined to be compatible with the
types used by f2c, and so they follow the Fortran notion of what
these things are. See the f2c documentation for the details
about the choices for the sizes of these types.
*/
typedef char SpiceChar;
typedef double SpiceDouble;
typedef float SpiceFloat;
#if ( defined(CSPICE_ALPHA_DIGITAL_UNIX ) \
|| defined(CSPICE_SUN_SOLARIS_64BIT_NATIVE) \
|| defined(CSPICE_SUN_SOLARIS_64BIT_GCC ) \
|| defined(CSPICE_MAC_OSX_INTEL_64BIT_GCC ) \
|| defined(CSPICE_SUN_SOLARIS_INTEL_64BIT_CC ) \
|| defined(CSPICE_PC_LINUX_64BIT_GCC ) )
typedef int SpiceInt;
#else
typedef long SpiceInt;
#endif
typedef const char ConstSpiceChar;
typedef const double ConstSpiceDouble;
typedef const float ConstSpiceFloat;
#if ( defined(CSPICE_ALPHA_DIGITAL_UNIX ) \
|| defined(CSPICE_SUN_SOLARIS_64BIT_NATIVE) \
|| defined(CSPICE_SUN_SOLARIS_64BIT_GCC ) \
|| defined(CSPICE_MAC_OSX_INTEL_64BIT_GCC ) \
|| defined(CSPICE_SUN_SOLARIS_INTEL_64BIT_CC ) \
|| defined(CSPICE_PC_LINUX_64BIT_GCC ) )
typedef const int ConstSpiceInt;
#else
typedef const long ConstSpiceInt;
#endif
/*
More basic data types. These give mnemonics for some other data
types in C that are not used in Fortran written by NAIF or
supported by ANSI Fortran 77. These are for use in C functions
but should not be passed to any C SPICE wrappers, ``*_c.c''
since they are not Fortran compatible.
*/
typedef long SpiceLong;
typedef short SpiceShort;
/*
Unsigned data types
*/
typedef unsigned char SpiceUChar;
typedef unsigned int SpiceUInt;
typedef unsigned long SpiceULong;
typedef unsigned short SpiceUShort;
/*
Signed data types
*/
typedef signed char SpiceSChar;
/*
Other basic types
*/
typedef int SpiceBoolean;
typedef const int ConstSpiceBoolean;
#define SPICETRUE 1
#define SPICEFALSE 0
enum _Spicestatus { SPICEFAILURE = -1, SPICESUCCESS = 0 };
typedef enum _Spicestatus SpiceStatus;
enum _SpiceDataType { SPICE_CHR = 0,
SPICE_DP = 1,
SPICE_INT = 2,
SPICE_TIME = 3,
SPICE_BOOL = 4 };
typedef enum _SpiceDataType SpiceDataType;
#endif

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/*
-Disclaimer
THIS SOFTWARE AND ANY RELATED MATERIALS WERE CREATED BY THE
CALIFORNIA INSTITUTE OF TECHNOLOGY (CALTECH) UNDER A U.S.
GOVERNMENT CONTRACT WITH THE NATIONAL AERONAUTICS AND SPACE
ADMINISTRATION (NASA). THE SOFTWARE IS TECHNOLOGY AND SOFTWARE
PUBLICLY AVAILABLE UNDER U.S. EXPORT LAWS AND IS PROVIDED "AS-IS"
TO THE RECIPIENT WITHOUT WARRANTY OF ANY KIND, INCLUDING ANY
WARRANTIES OF PERFORMANCE OR MERCHANTABILITY OR FITNESS FOR A
PARTICULAR USE OR PURPOSE (AS SET FORTH IN UNITED STATES UCC
SECTIONS 2312-2313) OR FOR ANY PURPOSE WHATSOEVER, FOR THE
SOFTWARE AND RELATED MATERIALS, HOWEVER USED.
IN NO EVENT SHALL CALTECH, ITS JET PROPULSION LABORATORY, OR NASA
BE LIABLE FOR ANY DAMAGES AND/OR COSTS, INCLUDING, BUT NOT
LIMITED TO, INCIDENTAL OR CONSEQUENTIAL DAMAGES OF ANY KIND,
INCLUDING ECONOMIC DAMAGE OR INJURY TO PROPERTY AND LOST PROFITS,
REGARDLESS OF WHETHER CALTECH, JPL, OR NASA BE ADVISED, HAVE
REASON TO KNOW, OR, IN FACT, SHALL KNOW OF THE POSSIBILITY.
RECIPIENT BEARS ALL RISK RELATING TO QUALITY AND PERFORMANCE OF
THE SOFTWARE AND ANY RELATED MATERIALS, AND AGREES TO INDEMNIFY
CALTECH AND NASA FOR ALL THIRD-PARTY CLAIMS RESULTING FROM THE
ACTIONS OF RECIPIENT IN THE USE OF THE SOFTWARE.
*/
/*
CSPICE private macro file.
-Particulars
Current list of macros (spelling counts)
BLANK
C2F_MAP_CELL
C2F_MAP_CELL2
C2F_MAP_CELL3
CELLINIT
CELLINIT2
CELLINIT3
CELLISSETCHK
CELLISSETCHK2
CELLISSETCHK2_VAL
CELLISSETCHK3
CELLISSETCHK3_VAL
CELLISSETCHK_VAL
CELLMATCH2
CELLMATCH2_VAL
CELLMATCH3
CELLMATCH3_VAL
CELLTYPECHK
CELLTYPECHK2
CELLTYPECHK2_VAL
CELLTYPECHK3
CELLTYPECHK3_VAL
CELLTYPECHK_VAL
CHKFSTR
CHKFSTR_VAL
CHKOSTR
CHKOSTR_VAL
CHKPTR
Constants
Even
F2C_MAP_CELL
Index values
MOVED
MOVEI
MaxAbs
MaxVal
MinAbs
MinVal
Odd
SpiceError
TolOrFail
-Restrictions
This is a private macro file for use within CSPICE.
Do not use or alter any entry. Or else!
-Author_and_Institution
N.J. Bachman (JPL)
E.D. Wright (JPL)
-Version
-CSPICE Version 4.2.0, 16-FEB-2005 (NJB)
Bug fix: in the macro C2F_MAP_CELL, error checking has been
added after the sequence of calls to ssizec_ and scardc_.
If either of these routines signals an error, the dynamically
allocated memory for the "Fortran cell" is freed.
-CSPICE Version 4.1.0, 06-DEC-2002 (NJB)
Bug fix: added previous missing, bracketing parentheses to
references to input cell pointer argument in macro
CELLINIT.
Changed CELLINIT macro so it no longer initializes to zero
length all strings in data array of a character cell. Instead,
strings are terminated with a null in their final element.
-CSPICE Version 4.0.0, 22-AUG-2002 (NJB)
Added macro definitions to support CSPICE cells and sets:
C2F_MAP_CELL
C2F_MAP_CELL2
C2F_MAP_CELL3
CELLINIT
CELLINIT2
CELLINIT3
CELLISSETCHK
CELLISSETCHK2
CELLISSETCHK2_VAL
CELLISSETCHK3
CELLISSETCHK3_VAL
CELLISSETCHK_VAL
CELLMATCH2
CELLMATCH2_VAL
CELLMATCH3
CELLMATCH3_VAL
CELLTYPECHK
CELLTYPECHK2
CELLTYPECHK2_VAL
CELLTYPECHK3
CELLTYPECHK3_VAL
CELLTYPECHK_VAL
F2C_MAP_CELL
-CSPICE Version 3.0.0, 09-JAN-1998 (NJB)
Added output string check macros CHKOSTR and CHKOSTR_VAL.
Removed variable name arguments from macros
CHKPTR
CHKPTR_VAL
CHKFSTR
CHKRSTR_VAL
The strings containing names of the checked variables are now
generated from the variables themselves via the # operator.
-CSPICE Version 2.0.0, 03-DEC-1997 (NJB)
Added pointer check macro CHKPTR and Fortran string check macro
CHKFSTR.
-CSPICE Version 1.0.0, 25-OCT-1997 (EDW)
*/
#include <math.h>
#include <string.h>
#include "SpiceZdf.h"
#define MOVED( arrfrm, ndim, arrto ) \
\
( memmove ( (void*) (arrto) , \
(void*) (arrfrm), \
sizeof (SpiceDouble) * (ndim) ) )
#define MOVEI( arrfrm, ndim, arrto ) \
\
( memmove ( (void*) (arrto) , \
(void*) (arrfrm), \
sizeof (SpiceInt) * (ndim) ) )
/*
Define a tolerance test for those pesky double precision reals.
True if the difference is less than the tolerance, false otherwise.
The tolerance refers to a percentage. x, y and tol should be declared
double. All values are assumed to be non-zero. Okay?
*/
#define TolOrFail( x, y, tol ) \
\
( fabs( x-y ) < ( tol * fabs(x) ) )
/*
Simple error output through standard SPICE error system . Set the error
message and the type
*/
#define SpiceError( errmsg, errtype ) \
\
{ \
setmsg_c ( errmsg ); \
sigerr_c ( errtype ); \
}
/*
Return a value which is the maximum/minimum of the absolute values of
two values.
*/
#define MaxAbs(a,b) ( fabs(a) >= fabs(b) ? fabs(a) : fabs(b) )
#define MinAbs(a,b) ( fabs(a) < fabs(b) ? fabs(a) : fabs(b) )
/*
Return a value which is the maximum/minimum value of two values.
*/
#define MaxVal(A,B) ( (A) >= (B) ? (A) : (B) )
#define MinVal(A,B) ( (A) < (B) ? (A) : (B) )
/*
Determine whether a value is even or odd
*/
#define Even( x ) ( ( (x) & 1 ) == 0 )
#define Odd ( x ) ( ( (x) & 1 ) != 0 )
/*
Array indexes for vectors.
*/
#define SpiceX 0
#define SpiceY 1
#define SpiceZ 2
#define SpiceVx 3
#define SpiceVy 4
#define SpiceVz 5
/*
Physical constants and dates.
*/
#define B1900 2415020.31352
#define J1900 2415020.0
#define JYEAR 31557600.0
#define TYEAR 31556925.9747
#define J1950 2433282.5
#define SPD 86400.0
#define B1950 2433282.42345905
#define J2100 2488070.0
#define CLIGHT 299792.458
#define J2000 2451545.0
/*
Common literal values.
*/
#define NULLCHAR ( (SpiceChar ) 0 )
#define NULLCPTR ( (SpiceChar * ) 0 )
#define BLANK ( (SpiceChar ) ' ' )
/*
Macro CHKPTR is used for checking for a null pointer. CHKPTR uses
the constants
CHK_STANDARD
CHK_DISCOVER
CHK_REMAIN
to control tracing behavior. Values and meanings are:
CHK_STANDARD Standard tracing. If an error
is found, signal it, check out
and return.
CHK_DISCOVER Discovery check-in. If an
error is found, check in, signal
the error, check out, and return.
CHK_REMAIN If an error is found, signal it.
Do not check out or return. This
would allow the caller to clean up
before returning, if necessary.
In such cases the caller must test
failed_c() after the macro call.
CHKPTR should be used in void functions. In non-void functions,
use CHKPTR_VAL, which is defined below.
*/
#define CHK_STANDARD 1
#define CHK_DISCOVER 2
#define CHK_REMAIN 3
#define CHKPTR( errHandling, modname, pointer ) \
\
if ( (void *)(pointer) == (void *)0 ) \
{ \
if ( (errHandling) == CHK_DISCOVER ) \
{ \
chkin_c ( modname ); \
} \
\
setmsg_c ( "Pointer \"#\" is null; a non-null " \
"pointer is required." ); \
errch_c ( "#", (#pointer) ); \
sigerr_c ( "SPICE(NULLPOINTER)" ); \
\
if ( ( (errHandling) == CHK_DISCOVER ) \
|| ( (errHandling) == CHK_STANDARD ) ) \
{ \
chkout_c ( modname ); \
return; \
} \
}
#define CHKPTR_VAL( errHandling, modname, pointer, retval ) \
\
if ( (void *)(pointer) == (void *)0 ) \
{ \
if ( (errHandling) == CHK_DISCOVER ) \
{ \
chkin_c ( modname ); \
} \
\
setmsg_c ( "Pointer \"#\" is null; a non-null " \
"pointer is required." ); \
errch_c ( "#", (#pointer) ); \
sigerr_c ( "SPICE(NULLPOINTER)" ); \
\
if ( ( (errHandling) == CHK_DISCOVER ) \
|| ( (errHandling) == CHK_STANDARD ) ) \
{ \
chkout_c ( modname ); \
return ( retval ); \
} \
}
/*
Macro CHKFSTR checks strings that are to be passed to Fortran or
f2c'd Fortran routines. Such strings must have non-zero length,
and their pointers must be non-null.
CHKFSTR should be used in void functions. In non-void functions,
use CHKFSTR_VAL, which is defined below.
*/
#define CHKFSTR( errHandling, modname, string ) \
\
CHKPTR ( errHandling, modname, string ); \
\
if ( ( (void *)string != (void *)0 ) \
&& ( strlen(string) == 0 ) ) \
{ \
if ( (errHandling) == CHK_DISCOVER ) \
{ \
chkin_c ( modname ); \
} \
\
setmsg_c ( "String \"#\" has length zero." ); \
errch_c ( "#", (#string) ); \
sigerr_c ( "SPICE(EMPTYSTRING)" ); \
\
if ( ( (errHandling) == CHK_DISCOVER ) \
|| ( (errHandling) == CHK_STANDARD ) ) \
{ \
chkout_c ( modname ); \
return; \
} \
}
#define CHKFSTR_VAL( errHandling, modname, string, retval ) \
\
CHKPTR_VAL( errHandling, modname, string, retval); \
\
if ( ( (void *)string != (void *)0 ) \
&& ( strlen(string) == 0 ) ) \
{ \
if ( (errHandling) == CHK_DISCOVER ) \
{ \
chkin_c ( modname ); \
} \
\
setmsg_c ( "String \"#\" has length zero." ); \
errch_c ( "#", (#string) ); \
sigerr_c ( "SPICE(EMPTYSTRING)" ); \
\
if ( ( (errHandling) == CHK_DISCOVER ) \
|| ( (errHandling) == CHK_STANDARD ) ) \
{ \
chkout_c ( modname ); \
return ( retval ); \
} \
}
/*
Macro CHKOSTR checks output string pointers and the associated
string length values supplied as input arguments. Output string
pointers must be non-null, and the string lengths must be at
least 2, so Fortran routine can write at least one character to
the output string, and so a null terminator can be appended.
CHKOSTR should be used in void functions. In non-void functions,
use CHKOSTR_VAL, which is defined below.
*/
#define CHKOSTR( errHandling, modname, string, length ) \
\
CHKPTR ( errHandling, modname, string ); \
\
if ( ( (void *)string != (void *)0 ) \
&& ( length < 2 ) ) \
{ \
if ( (errHandling) == CHK_DISCOVER ) \
{ \
chkin_c ( modname ); \
} \
\
setmsg_c ( "String \"#\" has length #; must be >= 2." ); \
errch_c ( "#", (#string) ); \
errint_c ( "#", (length) ); \
sigerr_c ( "SPICE(STRINGTOOSHORT)" ); \
\
if ( ( (errHandling) == CHK_DISCOVER ) \
|| ( (errHandling) == CHK_STANDARD ) ) \
{ \
chkout_c ( modname ); \
return; \
} \
}
#define CHKOSTR_VAL( errHandling, modname, string, length, retval ) \
\
CHKPTR_VAL( errHandling, modname, string, retval ); \
\
if ( ( (void *)string != (void *)0 ) \
&& ( length < 2 ) ) \
{ \
if ( (errHandling) == CHK_DISCOVER ) \
{ \
chkin_c ( modname ); \
} \
\
setmsg_c ( "String \"#\" has length #; must be >= 2." ); \
errch_c ( "#", (#string) ); \
errint_c ( "#", (length) ); \
sigerr_c ( "SPICE(STRINGTOOSHORT)" ); \
\
if ( ( (errHandling) == CHK_DISCOVER ) \
|| ( (errHandling) == CHK_STANDARD ) ) \
{ \
chkout_c ( modname ); \
return ( retval ); \
} \
}
/*
Definitions for Cells and Sets
*/
/*
Cell initialization macros
*/
#define CELLINIT( cellPtr ) \
\
if ( !( (cellPtr)->init ) ) \
{ \
if ( (cellPtr)->dtype == SPICE_CHR ) \
{ \
/* \
Make sure all elements of the data array, including \
the control area, start off null-terminated. We place \
the null character in the final element of each string, \
so as to avoid wiping out data that may have been \
assigned to the data array prior to initialization. \
*/ \
SpiceChar * sPtr; \
SpiceInt i; \
SpiceInt nmax; \
\
nmax = SPICE_CELL_CTRLSZ + (cellPtr)->size; \
\
for ( i = 1; i <= nmax; i++ ) \
{ \
sPtr = (SpiceChar *)((cellPtr)->base) \
+ i * (cellPtr)->length \
- 1; \
\
*sPtr = NULLCHAR; \
} \
} \
else \
{ \
zzsynccl_c ( C2F, (cellPtr) ); \
} \
\
(cellPtr)->init = SPICETRUE; \
}
#define CELLINIT2( cellPtr1, cellPtr2 ) \
\
CELLINIT ( cellPtr1 ); \
CELLINIT ( cellPtr2 );
#define CELLINIT3( cellPtr1, cellPtr2, cellPtr3 ) \
\
CELLINIT ( cellPtr1 ); \
CELLINIT ( cellPtr2 ); \
CELLINIT ( cellPtr3 );
/*
Data type checking macros:
*/
#define CELLTYPECHK( errHandling, modname, dType, cellPtr1 ) \
\
if ( (cellPtr1)->dtype != (dType) ) \
{ \
SpiceChar * typstr[3] = \
{ \
"character", "double precision", "integer" \
}; \
\
if ( (errHandling) == CHK_DISCOVER ) \
{ \
chkin_c ( modname ); \
} \
\
setmsg_c ( "Data type of # is #; expected type " \
"is #." ); \
errch_c ( "#", (#cellPtr1) ); \
errch_c ( "#", typstr[ (cellPtr1)->dtype ] ); \
errch_c ( "#", typstr[ dType ] ); \
sigerr_c ( "SPICE(TYPEMISMATCH)" ); \
\
if ( ( (errHandling) == CHK_DISCOVER ) \
|| ( (errHandling) == CHK_STANDARD ) ) \
{ \
chkout_c ( modname ); \
return; \
} \
}
#define CELLTYPECHK_VAL( errHandling, modname, \
dType, cellPtr1, retval ) \
\
if ( (cellPtr1)->dtype != (dType) ) \
{ \
SpiceChar * typstr[3] = \
{ \
"character", "double precision", "integer" \
}; \
\
if ( (errHandling) == CHK_DISCOVER ) \
{ \
chkin_c ( modname ); \
} \
\
setmsg_c ( "Data type of # is #; expected type " \
"is #." ); \
errch_c ( "#", (#cellPtr1) ); \
errch_c ( "#", typstr[ (cellPtr1)->dtype ] ); \
errch_c ( "#", typstr[ dType ] ); \
sigerr_c ( "SPICE(TYPEMISMATCH)" ); \
\
if ( ( (errHandling) == CHK_DISCOVER ) \
|| ( (errHandling) == CHK_STANDARD ) ) \
{ \
chkout_c ( modname ); \
return (retval); \
} \
}
#define CELLTYPECHK2( errHandling, modname, dtype, \
cellPtr1, cellPtr2 ) \
\
CELLTYPECHK( errHandling, modname, dtype, cellPtr1 ); \
CELLTYPECHK( errHandling, modname, dtype, cellPtr2 );
#define CELLTYPECHK2_VAL( errHandling, modname, dtype, \
cellPtr1, cellPtr2, retval ) \
\
CELLTYPECHK_VAL( errHandling, modname, dtype, cellPtr1, \
retval ); \
CELLTYPECHK_VAL( errHandling, modname, dtype, cellPtr2, \
retval );
#define CELLTYPECHK3( errHandling, modname, dtype, \
cellPtr1, cellPtr2, cellPtr3 ) \
\
CELLTYPECHK( errHandling, modname, dtype, cellPtr1 ); \
CELLTYPECHK( errHandling, modname, dtype, cellPtr2 ); \
CELLTYPECHK( errHandling, modname, dtype, cellPtr3 );
#define CELLTYPECHK3_VAL( errHandling, modname, dtype, \
cellPtr1, cellPtr2, cellPtr3, \
retval ) \
\
CELLTYPECHK_VAL( errHandling, modname, dtype, cellPtr1, \
retval ); \
CELLTYPECHK_VAL( errHandling, modname, dtype, cellPtr2, \
retval ); \
CELLTYPECHK_VAL( errHandling, modname, dtype, cellPtr3 \
retval );
#define CELLMATCH2( errHandling, modname, cellPtr1, cellPtr2 ) \
\
if ( (cellPtr1)->dtype != (cellPtr2)->dtype ) \
{ \
SpiceChar * typstr[3] = \
{ \
"character", "double precision", "integer" \
}; \
\
if ( (errHandling) == CHK_DISCOVER ) \
{ \
chkin_c ( modname ); \
} \
\
setmsg_c ( "Data type of # is #; data type of # " \
"is #, but types must match." ); \
errch_c ( "#", (#cellPtr1) ); \
errch_c ( "#", typstr[ (cellPtr1)->dtype ] ); \
errch_c ( "#", (#cellPtr2) ); \
errch_c ( "#", typstr[ (cellPtr2)->dtype ] ); \
sigerr_c ( "SPICE(TYPEMISMATCH)" ); \
\
if ( ( (errHandling) == CHK_DISCOVER ) \
|| ( (errHandling) == CHK_STANDARD ) ) \
{ \
chkout_c ( modname ); \
return; \
} \
}
#define CELLMATCH2_VAL( errHandling, modname, \
cellPtr1, cellPtr2, retval ) \
\
if ( (cellPtr1)->dtype != (cellPtr2)->dtype ) \
{ \
SpiceChar * typstr[3] = \
{ \
"character", "double precision", "integer" \
}; \
\
if ( (errHandling) == CHK_DISCOVER ) \
{ \
chkin_c ( modname ); \
} \
\
setmsg_c ( "Data type of # is #; data type of # " \
"is #, but types must match." ); \
errch_c ( "#", (#cellPtr1) ); \
errch_c ( "#", typstr [ (cellPtr1)->dtype ] ); \
errch_c ( "#", (#cellPtr2) ); \
errch_c ( "#", typstr [ (cellPtr2)->dtype ] ); \
sigerr_c ( "SPICE(TYPEMISMATCH)" ); \
\
if ( ( (errHandling) == CHK_DISCOVER ) \
|| ( (errHandling) == CHK_STANDARD ) ) \
{ \
chkout_c ( modname ); \
return ( retval ); \
} \
}
#define CELLMATCH3( errHandling, modname, \
cellPtr1, cellPtr2, cellPtr3 ) \
\
CELLMATCH2 ( errHandling, modname, cellPtr1, cellPtr2 ); \
CELLMATCH2 ( errHandling, modname, cellPtr2, cellPtr3 );
#define CELLMATCH3_VAL( errHandling, modname, cellPtr1, \
cellPtr2, cellPtr3, retval ) \
\
CELLMATCH2_VAL ( errHandling, modname, \
cellPtr1, cellPtr2, retval ); \
\
CELLMATCH2_VAL ( errHandling, modname, \
cellPtr2, cellPtr3, retval );
/*
Set checking macros:
*/
#define CELLISSETCHK( errHandling, modname, cellPtr1 ) \
\
if ( !(cellPtr1)->isSet ) \
{ \
if ( (errHandling) == CHK_DISCOVER ) \
{ \
chkin_c ( modname ); \
} \
\
setmsg_c ( "Cell # must be sorted and have unique " \
"values in order to be a CSPICE set. " \
"The isSet flag in this cell is SPICEFALSE, " \
"indicating the cell may have been modified " \
"by a routine that doesn't preserve these " \
"properties." ); \
errch_c ( "#", (#cellPtr1) ); \
sigerr_c ( "SPICE(NOTASET)" ); \
\
if ( ( (errHandling) == CHK_DISCOVER ) \
|| ( (errHandling) == CHK_STANDARD ) ) \
{ \
chkout_c ( modname ); \
return; \
} \
}
#define CELLISSETCHK_VAL( errHandling, modname, \
cellPtr1, retval ) \
\
if ( !(cellPtr1)->isSet ) \
{ \
if ( (errHandling) == CHK_DISCOVER ) \
{ \
chkin_c ( modname ); \
} \
\
setmsg_c ( "Cell # must be sorted and have unique " \
"values in order to be a CSPICE set. " \
"The isSet flag in this cell is SPICEFALSE, " \
"indicating the cell may have been modified " \
"by a routine that doesn't preserve these " \
"properties." ); \
errch_c ( "#", (#cellPtr1) ); \
sigerr_c ( "SPICE(NOTASET)" ); \
\
if ( ( (errHandling) == CHK_DISCOVER ) \
|| ( (errHandling) == CHK_STANDARD ) ) \
{ \
chkout_c ( modname ); \
return (retval); \
} \
}
#define CELLISSETCHK2( errHandling, modname, \
cellPtr1, cellPtr2 ) \
\
CELLISSETCHK( errHandling, modname, cellPtr1 ); \
CELLISSETCHK( errHandling, modname, cellPtr2 );
#define CELLISSETCHK2_VAL( errHandling, modname, \
cellPtr1, cellPtr2, retval ) \
\
CELLISSETCHK_VAL( errHandling, modname, cellPtr1, retval ); \
CELLISSETCHK_VAL( errHandling, modname, cellPtr2, retval ); \
#define CELLISSETCHK3( errHandling, modname, \
cellPtr1, cellPtr2, cellPtr3 ) \
\
CELLISSETCHK ( errHandling, modname, cellPtr1 ); \
CELLISSETCHK ( errHandling, modname, cellPtr2 ); \
CELLISSETCHK ( errHandling, modname, cellPtr3 );
#define CELLISSETCHK3_VAL( errHandling, modname, cellPtr1, \
cellPtr2, cellPtr3, retval ) \
\
CELLISSETCHK_VAL ( errHandling, modname, cellPtr1, retval ); \
CELLISSETCHK_VAL ( errHandling, modname, cellPtr2, retval ); \
CELLISSETCHK_VAL ( errHandling, modname, cellPtr3, retval );
/*
C-to-Fortran and Fortran-to-C character cell translation macros:
*/
/*
Macros that map one or more character C cells to dynamically
allocated Fortran-style character cells:
*/
#define C2F_MAP_CELL( caller, CCell, fCell, fLen ) \
\
{ \
/* \
fCell and fLen are to be passed by reference, as if this \
macro were a function. \
\
\
Caution: dynamically allocates array fCell, which is to be \
freed by caller! \
*/ \
SpiceInt ndim; \
SpiceInt lenvals; \
\
\
ndim = (CCell)->size + SPICE_CELL_CTRLSZ; \
lenvals = (CCell)->length; \
\
C2F_MapFixStrArr ( (caller), ndim, lenvals, \
(CCell)->base, (fLen), (fCell) ); \
\
if ( !failed_c() ) \
{ \
/* \
Explicitly set the control area info in the Fortran cell.\
*/ \
ssizec_ ( ( integer * ) &((CCell)->size), \
( char * ) *(fCell), \
( ftnlen ) *(fLen) ); \
\
scardc_ ( ( integer * ) &((CCell)->card), \
( char * ) *(fCell), \
( ftnlen ) *(fLen) ); \
\
if ( failed_c() ) \
{ \
/* \
Setting size or cardinality of the Fortran cell \
can fail, for example if the cell's string length \
is too short. \
*/ \
free ( *(fCell) ); \
} \
} \
}
#define C2F_MAP_CELL2( caller, CCell1, fCell1, fLen1, \
CCell2, fCell2, fLen2 ) \
\
{ \
C2F_MAP_CELL( caller, CCell1, fCell1, fLen1 ); \
\
if ( !failed_c() ) \
{ \
C2F_MAP_CELL( caller, CCell2, fCell2, fLen2 ); \
\
if ( failed_c() ) \
{ \
free ( *(fCell1) ); \
} \
} \
}
#define C2F_MAP_CELL3( caller, CCell1, fCell1, fLen1, \
CCell2, fCell2, fLen2, \
CCell3, fCell3, fLen3 ) \
\
{ \
C2F_MAP_CELL2( caller, CCell1, fCell1, fLen1, \
CCell2, fCell2, fLen2 ); \
\
if ( !failed_c() ) \
{ \
C2F_MAP_CELL( caller, CCell3, fCell3, fLen3 ); \
\
if ( failed_c() ) \
{ \
free ( *(fCell1) ); \
free ( *(fCell2) ); \
} \
} \
}
/*
Macro that maps a Fortran-style character cell to a C cell
(Note: this macro frees the Fortran cell):
*/
#define F2C_MAP_CELL( fCell, fLen, CCell ) \
\
{ \
SpiceInt card; \
SpiceInt lenvals; \
SpiceInt ndim; \
SpiceInt nBytes; \
SpiceInt size; \
void * array; \
\
ndim = (CCell)->size + SPICE_CELL_CTRLSZ; \
lenvals = (CCell)->length; \
array = (CCell)->base; \
\
/* \
Capture the size and cardinality of the Fortran cell. \
*/ \
if ( !failed_c() ) \
{ \
size = sizec_ ( ( char * ) (fCell), \
( ftnlen ) fLen ); \
\
card = cardc_ ( ( char * ) (fCell), \
( ftnlen ) fLen ); \
} \
\
\
/* \
Copy the Fortran array into the output array. \
*/ \
\
nBytes = ndim * fLen * sizeof(SpiceChar); \
memmove ( array, fCell, nBytes ); \
/* \
Convert the output array from Fortran to C style. \
*/ \
F2C_ConvertTrStrArr ( ndim, lenvals, (SpiceChar *)array ); \
\
/* \
Sync the size and cardinality of the C cell. \
*/ \
if ( !failed_c() ) \
{ \
(CCell)->size = size; \
(CCell)->card = card; \
} \
}
/*
End of header SpiceZmc.h
*/

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ext/spice/include/SpiceZpl.h Normal file
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/*
-Header_File SpiceZpl.h ( CSPICE platform macros )
-Abstract
Define macros identifying the host platform for which this
version of CSPICE is targeted.
-Disclaimer
THIS SOFTWARE AND ANY RELATED MATERIALS WERE CREATED BY THE
CALIFORNIA INSTITUTE OF TECHNOLOGY (CALTECH) UNDER A U.S.
GOVERNMENT CONTRACT WITH THE NATIONAL AERONAUTICS AND SPACE
ADMINISTRATION (NASA). THE SOFTWARE IS TECHNOLOGY AND SOFTWARE
PUBLICLY AVAILABLE UNDER U.S. EXPORT LAWS AND IS PROVIDED "AS-IS"
TO THE RECIPIENT WITHOUT WARRANTY OF ANY KIND, INCLUDING ANY
WARRANTIES OF PERFORMANCE OR MERCHANTABILITY OR FITNESS FOR A
PARTICULAR USE OR PURPOSE (AS SET FORTH IN UNITED STATES UCC
SECTIONS 2312-2313) OR FOR ANY PURPOSE WHATSOEVER, FOR THE
SOFTWARE AND RELATED MATERIALS, HOWEVER USED.
IN NO EVENT SHALL CALTECH, ITS JET PROPULSION LABORATORY, OR NASA
BE LIABLE FOR ANY DAMAGES AND/OR COSTS, INCLUDING, BUT NOT
LIMITED TO, INCIDENTAL OR CONSEQUENTIAL DAMAGES OF ANY KIND,
INCLUDING ECONOMIC DAMAGE OR INJURY TO PROPERTY AND LOST PROFITS,
REGARDLESS OF WHETHER CALTECH, JPL, OR NASA BE ADVISED, HAVE
REASON TO KNOW, OR, IN FACT, SHALL KNOW OF THE POSSIBILITY.
RECIPIENT BEARS ALL RISK RELATING TO QUALITY AND PERFORMANCE OF
THE SOFTWARE AND ANY RELATED MATERIALS, AND AGREES TO INDEMNIFY
CALTECH AND NASA FOR ALL THIRD-PARTY CLAIMS RESULTING FROM THE
ACTIONS OF RECIPIENT IN THE USE OF THE SOFTWARE.
-Required_Reading
None.
-Literature_References
None.
-Particulars
This header file defines macros that enable CSPICE code to be
compiled conditionally based on the identity of the host platform.
The macros defined here ARE visible in the macro name space of
any file that includes SpiceUsr.h. The names are prefixed with
the string CSPICE_ to help prevent conflicts with macros defined
by users' applications.
-Author_and_Institution
N.J. Bachman (JPL)
B.V. Semenov (JPL)
E.D. Wright (JPL)
-Version
-CSPICE Version 2.2.0, 14-MAY-2010 (EDW)(BVS)
Updated for the:
MAC-OSX-64BIT-INTEL_C
PC-64BIT-MS_C
SUN-SOLARIS-64BIT-NATIVE_C
SUN-SOLARIS-INTEL-64BIT-CC_C
SUN-SOLARIS-INTEL-CC_C
environments.
-CSPICE Version 2.1.0, 15-NOV-2006 (BVS)
Updated for MAC-OSX-INTEL_C environment.
-CSPICE Version 2.0.0, 21-FEB-2006 (NJB)
Updated for PC-LINUX-64BIT-GCC_C environment.
-CSPICE Version 1.3.0, 06-MAR-2005 (NJB)
Updated for SUN-SOLARIS-64BIT-GCC_C environment.
-CSPICE Version 1.2.0, 03-JAN-2005 (BVS)
Updated for PC-CYGWIN_C environment.
-CSPICE Version 1.1.0, 27-JUL-2002 (BVS)
Updated for MAC-OSX-NATIVE_C environment.
-CSPICE Version 1.0.0, 26-FEB-1999 (NJB) (EDW)
-Index_Entries
platform ID defines for CSPICE
*/
#ifndef HAVE_PLATFORM_MACROS_H
#define HAVE_PLATFORM_MACROS_H
#define CSPICE_PC_LINUX_64BIT_GCC
#endif

3853
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199
ext/spice/include/SpiceZst.h Normal file
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/*
-Header_File SpiceZst.h ( Fortran/C string conversion utilities )
-Abstract
Define prototypes for CSPICE Fortran/C string conversion utilities.
Caution: these prototypes are subject to revision without notice.
These are private routines and are not part of the official CSPICE
user interface.
-Disclaimer
THIS SOFTWARE AND ANY RELATED MATERIALS WERE CREATED BY THE
CALIFORNIA INSTITUTE OF TECHNOLOGY (CALTECH) UNDER A U.S.
GOVERNMENT CONTRACT WITH THE NATIONAL AERONAUTICS AND SPACE
ADMINISTRATION (NASA). THE SOFTWARE IS TECHNOLOGY AND SOFTWARE
PUBLICLY AVAILABLE UNDER U.S. EXPORT LAWS AND IS PROVIDED "AS-IS"
TO THE RECIPIENT WITHOUT WARRANTY OF ANY KIND, INCLUDING ANY
WARRANTIES OF PERFORMANCE OR MERCHANTABILITY OR FITNESS FOR A
PARTICULAR USE OR PURPOSE (AS SET FORTH IN UNITED STATES UCC
SECTIONS 2312-2313) OR FOR ANY PURPOSE WHATSOEVER, FOR THE
SOFTWARE AND RELATED MATERIALS, HOWEVER USED.
IN NO EVENT SHALL CALTECH, ITS JET PROPULSION LABORATORY, OR NASA
BE LIABLE FOR ANY DAMAGES AND/OR COSTS, INCLUDING, BUT NOT
LIMITED TO, INCIDENTAL OR CONSEQUENTIAL DAMAGES OF ANY KIND,
INCLUDING ECONOMIC DAMAGE OR INJURY TO PROPERTY AND LOST PROFITS,
REGARDLESS OF WHETHER CALTECH, JPL, OR NASA BE ADVISED, HAVE
REASON TO KNOW, OR, IN FACT, SHALL KNOW OF THE POSSIBILITY.
RECIPIENT BEARS ALL RISK RELATING TO QUALITY AND PERFORMANCE OF
THE SOFTWARE AND ANY RELATED MATERIALS, AND AGREES TO INDEMNIFY
CALTECH AND NASA FOR ALL THIRD-PARTY CLAIMS RESULTING FROM THE
ACTIONS OF RECIPIENT IN THE USE OF THE SOFTWARE.
-Required_Reading
None.
-Particulars
None.
-Literature_References
None.
-Author_and_Institution
N.J. Bachman (JPL)
K.R. Gehringer (JPL)
E.D. Wright (JPL)
-Version
-CSPICE Version 6.0.0, 10-JUL-2002 (NJB)
Added prototype for new functions C2F_MapStrArr and
C2F_MapFixStrArr.
-CSPICE Version 5.0.0, 18-MAY-2001 (WLT)
Added #ifdef's to add namespace specification for C++ compilation.
-CSPICE Version 4.0.0, 14-FEB-2000 (NJB)
Added prototype for new function C2F_CreateStrArr_Sig.
-CSPICE Version 3.0.0, 12-JUL-1999 (NJB)
Added prototype for function C2F_CreateFixStrArr.
Added prototype for function F2C_ConvertTrStrArr.
Removed reference in comments to C2F_CreateStrArr_Sig, which
does not exist.
-CSPICE Version 2.0.1, 06-MAR-1998 (NJB)
Type SpiceVoid was changed to void.
-CSPICE Version 2.0.1, 09-FEB-1998 (EDW)
Added prototype for F2C_ConvertStrArr.
-CSPICE Version 2.0.0, 04-JAN-1998 (NJB)
Added prototype for F2C_ConvertStr.
-CSPICE Version 1.0.0, 25-OCT-1997 (NJB) (KRG) (EDW)
-Index_Entries
protoypes of CSPICE Fortran/C string conversion utilities
*/
#include <stdlib.h>
#include <string.h>
#include "SpiceZdf.h"
#ifndef HAVE_FCSTRINGS_H
#define HAVE_FCSTRINGS_H
#ifdef __cplusplus
namespace Jpl_NAIF_CSpice {
#endif
SpiceStatus C2F_CreateStr ( ConstSpiceChar *,
SpiceInt *,
SpiceChar ** );
void C2F_CreateStr_Sig ( ConstSpiceChar *,
SpiceInt *,
SpiceChar ** );
void C2F_CreateFixStrArr ( SpiceInt nStr,
SpiceInt cStrDim,
ConstSpiceChar ** cStrArr,
SpiceInt * fStrLen,
SpiceChar ** fStrArr );
SpiceStatus C2F_CreateStrArr ( SpiceInt,
ConstSpiceChar **,
SpiceInt *,
SpiceChar ** );
void C2F_CreateStrArr_Sig ( SpiceInt nStr,
ConstSpiceChar ** cStrArr,
SpiceInt * fStrLen,
SpiceChar ** fStrArr );
void C2F_MapFixStrArr ( ConstSpiceChar * caller,
SpiceInt nStr,
SpiceInt cStrLen,
const void * cStrArr,
SpiceInt * fStrLen,
SpiceChar ** fStrArr );
void C2F_MapStrArr ( ConstSpiceChar * caller,
SpiceInt nStr,
SpiceInt cStrLen,
const void * cStrArr,
SpiceInt * fStrLen,
SpiceChar ** fStrArr );
SpiceStatus C2F_StrCpy ( ConstSpiceChar *,
SpiceInt,
SpiceChar * );
void F_Alloc ( SpiceInt,
SpiceChar** );
void F2C_ConvertStr ( SpiceInt,
SpiceChar * );
void F2C_ConvertStrArr ( SpiceInt n,
SpiceInt lenout,
SpiceChar * cvals );
void F2C_ConvertTrStrArr ( SpiceInt n,
SpiceInt lenout,
SpiceChar * cvals );
SpiceStatus F2C_CreateStr ( SpiceInt,
ConstSpiceChar *,
SpiceChar ** );
void F2C_CreateStr_Sig ( SpiceInt,
ConstSpiceChar *,
SpiceChar ** );
SpiceStatus F2C_CreateStrArr ( SpiceInt,
SpiceInt,
ConstSpiceChar *,
SpiceChar *** );
void F2C_CreateStrArr_Sig ( SpiceInt,
SpiceInt,
ConstSpiceChar *,
SpiceChar *** );
void F2C_FreeStrArr ( SpiceChar **cStrArr );
SpiceStatus F2C_StrCpy ( SpiceInt,
ConstSpiceChar *,
SpiceInt,
SpiceChar * );
SpiceInt F_StrLen ( SpiceInt,
ConstSpiceChar * );
#ifdef __cplusplus
}
#endif
#endif

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/*
-Header_File f2c.h ( CSPICE version of the f2c standard header file )
-Abstract
Perform standard f2c declarations, customized for the host
environment.
-Disclaimer
THIS SOFTWARE AND ANY RELATED MATERIALS WERE CREATED BY THE
CALIFORNIA INSTITUTE OF TECHNOLOGY (CALTECH) UNDER A U.S.
GOVERNMENT CONTRACT WITH THE NATIONAL AERONAUTICS AND SPACE
ADMINISTRATION (NASA). THE SOFTWARE IS TECHNOLOGY AND SOFTWARE
PUBLICLY AVAILABLE UNDER U.S. EXPORT LAWS AND IS PROVIDED "AS-IS"
TO THE RECIPIENT WITHOUT WARRANTY OF ANY KIND, INCLUDING ANY
WARRANTIES OF PERFORMANCE OR MERCHANTABILITY OR FITNESS FOR A
PARTICULAR USE OR PURPOSE (AS SET FORTH IN UNITED STATES UCC
SECTIONS 2312-2313) OR FOR ANY PURPOSE WHATSOEVER, FOR THE
SOFTWARE AND RELATED MATERIALS, HOWEVER USED.
IN NO EVENT SHALL CALTECH, ITS JET PROPULSION LABORATORY, OR NASA
BE LIABLE FOR ANY DAMAGES AND/OR COSTS, INCLUDING, BUT NOT
LIMITED TO, INCIDENTAL OR CONSEQUENTIAL DAMAGES OF ANY KIND,
INCLUDING ECONOMIC DAMAGE OR INJURY TO PROPERTY AND LOST PROFITS,
REGARDLESS OF WHETHER CALTECH, JPL, OR NASA BE ADVISED, HAVE
REASON TO KNOW, OR, IN FACT, SHALL KNOW OF THE POSSIBILITY.
RECIPIENT BEARS ALL RISK RELATING TO QUALITY AND PERFORMANCE OF
THE SOFTWARE AND ANY RELATED MATERIALS, AND AGREES TO INDEMNIFY
CALTECH AND NASA FOR ALL THIRD-PARTY CLAIMS RESULTING FROM THE
ACTIONS OF RECIPIENT IN THE USE OF THE SOFTWARE.
-Required_Reading
None.
-Particulars
The standard f2c header file f2c.h must be included by every function
generated by running f2c on Fortran source code. The header f2c.h
includes typedefs used to provide a level of indirection in mapping
Fortran data types to native C data types. For example, Fortran
INTEGER variables are mapped to variables of type integer, where
integer is a C typedef. In the standard f2c.h header, the typedef
integer translates to the C type long.
Because the standard version of f2c.h does not work on all platforms,
this header file contains two platform-dependent versions of it,
meant to be selected at build time via precompiler switches. The
precompiler switches reference macros defined in SpiceZpl.h to
determine for which host platform the code is targeted. The first
version of f2c.h, which works on most platforms, is copied directly
from the standard version of f2c.h. The second version is intended
for use on the DEC Alpha running Digital Unix and the Sun/Solaris
platform using 64 bit mode and running gcc. On those systems, longs
occupy 8 bytes, as do doubles. Because the Fortran standard requires
that INTEGERS occupy half the storage of DOUBLE PRECISION numbers,
INTEGERS should be mapped to 4-byte ints rather than 8-byte longs
on the platforms having 8-byte longs. In order to achieve this, the
header f2c.h was transformed using the sed command
sed 's/long //' f2c.h
The high-level structure of this file is then:
# if ( defined(CSPICE_ALPHA_DIGITAL_UNIX ) \
|| defined(CSPICE_SUN_SOLARIS_64BIT_GCC ) )
[ Alpha/Digital Unix and Sun Solaris 64 bit mode/gcc
version of f2c.h source code ]
# else
[ Standard version of f2c.h source code ]
# endif
-Restrictions
1) This header file must be updated whenever the f2c processor
or the f2c libraries libI77 and libF77 are updated.
2) This header may need to be updated to support new platforms.
The supported platforms at the time of the 31-JAN-1999 release
are:
ALPHA-DIGITAL-UNIX
HP
NEXT
PC-LINUX
PC-MS
SGI-IRIX-N32
SGI-IRIX-NO2
SUN-SOLARIS
-Literature_References
None.
-Author_and_Institution
N.J. Bachman (JPL)
B.V. Semenov (JPL)
E.D. Wright (JPL)
-Version
-CSPICE Version 4.1.0, 14-MAY-2010 (EDW)(BVS)
Updated for:
MAC-OSX-64BIT-INTEL_C
SUN-SOLARIS-64BIT-NATIVE_C
SUN-SOLARIS-INTEL-64BIT-CC_C
environments. Added the corresponding tags:
CSPICE_MAC_OSX_INTEL_64BIT_GCC
CSPICE_SUN_SOLARIS_64BIT_NATIVE
CSPICE_SUN_SOLARIS_INTEL_64BIT_CC
tag to the #ifdefs set.
-CSPICE Version 4.0.0, 21-FEB-2006 (NJB)
Updated to support the PC Linux 64 bit mode/gcc platform.
-CSPICE Version 3.0.0, 27-JAN-2003 (NJB)
Updated to support the Sun Solaris 64 bit mode/gcc platform.
-CSPICE Version 2.0.0, 19-DEC-2001 (NJB)
Updated to support linking CSPICE into executables that
also link in objects compiled from Fortran, in particular
ones that perform Fortran I/O. To enable this odd mix,
one defines the preprocessor flag
MIX_C_AND_FORTRAN
This macro is undefined by default, since the action it invokes
is usually not desirable. See the header
f2cMang.h
for further information.
-CSPICE Version 1.0.0, 07-FEB-1999 (NJB)
*/
/*
Optionally include name-mangling macros for f2c external symbols.
*/
#ifdef MIX_C_AND_FORTRAN
#include "f2cMang.h"
#endif
/*
Include CSPICE platform macro definitions.
*/
#include "SpiceZpl.h"
#if ( defined(CSPICE_ALPHA_DIGITAL_UNIX ) \
|| defined(CSPICE_SUN_SOLARIS_64BIT_GCC ) \
|| defined(CSPICE_SUN_SOLARIS_64BIT_NATIVE ) \
|| defined(CSPICE_MAC_OSX_INTEL_64BIT_GCC ) \
|| defined(CSPICE_SUN_SOLARIS_INTEL_64BIT_CC ) \
|| defined(CSPICE_PC_LINUX_64BIT_GCC ) )
/*
MODIFICATION
The following code is intended to be used on the platforms where
a long is the size of a double and an int is half the
size of a double.
Note that the comment line below indicating that the header is
"Standard" has been retained from the original, but is no longer
true.
*/
/* f2c.h -- Standard Fortran to C header file */
#ifndef F2C_INCLUDE
#define F2C_INCLUDE
typedef int integer;
typedef unsigned uinteger;
typedef char *address;
typedef short int shortint;
typedef float real;
typedef double doublereal;
typedef struct { real r, i; } complex;
typedef struct { doublereal r, i; } doublecomplex;
typedef int logical;
typedef short int shortlogical;
typedef char logical1;
typedef char integer1;
#if 0 /* Adjust for integer*8. */
typedef long longint; /* system-dependent */
typedef unsigned long ulongint; /* system-dependent */
#define qbit_clear(a,b) ((a) & ~((ulongint)1 << (b)))
#define qbit_set(a,b) ((a) | ((ulongint)1 << (b)))
#endif
#define TRUE_ (1)
#define FALSE_ (0)
/* Extern is for use with -E */
#ifndef Extern
#define Extern extern
#endif
/* I/O stuff */
#ifdef f2c_i2
/* for -i2 */
typedef short flag;
typedef short ftnlen;
typedef short ftnint;
#else
typedef int flag;
typedef int ftnlen;
typedef int ftnint;
#endif
/*external read, write*/
typedef struct
{ flag cierr;
ftnint ciunit;
flag ciend;
char *cifmt;
ftnint cirec;
} cilist;
/*internal read, write*/
typedef struct
{ flag icierr;
char *iciunit;
flag iciend;
char *icifmt;
ftnint icirlen;
ftnint icirnum;
} icilist;
/*open*/
typedef struct
{ flag oerr;
ftnint ounit;
char *ofnm;
ftnlen ofnmlen;
char *osta;
char *oacc;
char *ofm;
ftnint orl;
char *oblnk;
} olist;
/*close*/
typedef struct
{ flag cerr;
ftnint cunit;
char *csta;
} cllist;
/*rewind, backspace, endfile*/
typedef struct
{ flag aerr;
ftnint aunit;
} alist;
/* inquire */
typedef struct
{ flag inerr;
ftnint inunit;
char *infile;
ftnlen infilen;
ftnint *inex; /*parameters in standard's order*/
ftnint *inopen;
ftnint *innum;
ftnint *innamed;
char *inname;
ftnlen innamlen;
char *inacc;
ftnlen inacclen;
char *inseq;
ftnlen inseqlen;
char *indir;
ftnlen indirlen;
char *infmt;
ftnlen infmtlen;
char *inform;
ftnint informlen;
char *inunf;
ftnlen inunflen;
ftnint *inrecl;
ftnint *innrec;
char *inblank;
ftnlen inblanklen;
} inlist;
#define VOID void
union Multitype { /* for multiple entry points */
integer1 g;
shortint h;
integer i;
/* longint j; */
real r;
doublereal d;
complex c;
doublecomplex z;
};
typedef union Multitype Multitype;
/*typedef int Long;*/ /* No longer used; formerly in Namelist */
struct Vardesc { /* for Namelist */
char *name;
char *addr;
ftnlen *dims;
int type;
};
typedef struct Vardesc Vardesc;
struct Namelist {
char *name;
Vardesc **vars;
int nvars;
};
typedef struct Namelist Namelist;
#define abs(x) ((x) >= 0 ? (x) : -(x))
#define dabs(x) (doublereal)abs(x)
#define min(a,b) ((a) <= (b) ? (a) : (b))
#define max(a,b) ((a) >= (b) ? (a) : (b))
#define dmin(a,b) (doublereal)min(a,b)
#define dmax(a,b) (doublereal)max(a,b)
#define bit_test(a,b) ((a) >> (b) & 1)
#define bit_clear(a,b) ((a) & ~((uinteger)1 << (b)))
#define bit_set(a,b) ((a) | ((uinteger)1 << (b)))
/* procedure parameter types for -A and -C++ */
#define F2C_proc_par_types 1
#ifdef __cplusplus
typedef int /* Unknown procedure type */ (*U_fp)(...);
typedef shortint (*J_fp)(...);
typedef integer (*I_fp)(...);
typedef real (*R_fp)(...);
typedef doublereal (*D_fp)(...), (*E_fp)(...);
typedef /* Complex */ VOID (*C_fp)(...);
typedef /* Double Complex */ VOID (*Z_fp)(...);
typedef logical (*L_fp)(...);
typedef shortlogical (*K_fp)(...);
typedef /* Character */ VOID (*H_fp)(...);
typedef /* Subroutine */ int (*S_fp)(...);
#else
typedef int /* Unknown procedure type */ (*U_fp)();
typedef shortint (*J_fp)();
typedef integer (*I_fp)();
typedef real (*R_fp)();
typedef doublereal (*D_fp)(), (*E_fp)();
typedef /* Complex */ VOID (*C_fp)();
typedef /* Double Complex */ VOID (*Z_fp)();
typedef logical (*L_fp)();
typedef shortlogical (*K_fp)();
typedef /* Character */ VOID (*H_fp)();
typedef /* Subroutine */ int (*S_fp)();
#endif
/* E_fp is for real functions when -R is not specified */
typedef VOID C_f; /* complex function */
typedef VOID H_f; /* character function */
typedef VOID Z_f; /* double complex function */
typedef doublereal E_f; /* real function with -R not specified */
/* undef any lower-case symbols that your C compiler predefines, e.g.: */
#ifndef Skip_f2c_Undefs
#undef cray
#undef gcos
#undef mc68010
#undef mc68020
#undef mips
#undef pdp11
#undef sgi
#undef sparc
#undef sun
#undef sun2
#undef sun3
#undef sun4
#undef u370
#undef u3b
#undef u3b2
#undef u3b5
#undef unix
#undef vax
#endif
#endif
/*
This marks the end of the MODIFICATION section version of f2c.h.
*/
#else
/*
The following code is the standard f2c.h header. In this
header, an "integer" is defined to be of type long.
Because the code is copied verbatim, it does not follow the usual
CSPICE indentation pattern.
*/
/* f2c.h -- Standard Fortran to C header file */
#ifndef F2C_INCLUDE
#define F2C_INCLUDE
typedef long int integer;
typedef unsigned long uinteger;
typedef char *address;
typedef short int shortint;
typedef float real;
typedef double doublereal;
typedef struct { real r, i; } complex;
typedef struct { doublereal r, i; } doublecomplex;
typedef long int logical;
typedef short int shortlogical;
typedef char logical1;
typedef char integer1;
#if 0 /* Adjust for integer*8. */
typedef long long longint; /* system-dependent */
typedef unsigned long long ulongint; /* system-dependent */
#define qbit_clear(a,b) ((a) & ~((ulongint)1 << (b)))
#define qbit_set(a,b) ((a) | ((ulongint)1 << (b)))
#endif
#define TRUE_ (1)
#define FALSE_ (0)
/* Extern is for use with -E */
#ifndef Extern
#define Extern extern
#endif
/* I/O stuff */
#ifdef f2c_i2
/* for -i2 */
typedef short flag;
typedef short ftnlen;
typedef short ftnint;
#else
typedef long int flag;
typedef long int ftnlen;
typedef long int ftnint;
#endif
/*external read, write*/
typedef struct
{ flag cierr;
ftnint ciunit;
flag ciend;
char *cifmt;
ftnint cirec;
} cilist;
/*internal read, write*/
typedef struct
{ flag icierr;
char *iciunit;
flag iciend;
char *icifmt;
ftnint icirlen;
ftnint icirnum;
} icilist;
/*open*/
typedef struct
{ flag oerr;
ftnint ounit;
char *ofnm;
ftnlen ofnmlen;
char *osta;
char *oacc;
char *ofm;
ftnint orl;
char *oblnk;
} olist;
/*close*/
typedef struct
{ flag cerr;
ftnint cunit;
char *csta;
} cllist;
/*rewind, backspace, endfile*/
typedef struct
{ flag aerr;
ftnint aunit;
} alist;
/* inquire */
typedef struct
{ flag inerr;
ftnint inunit;
char *infile;
ftnlen infilen;
ftnint *inex; /*parameters in standard's order*/
ftnint *inopen;
ftnint *innum;
ftnint *innamed;
char *inname;
ftnlen innamlen;
char *inacc;
ftnlen inacclen;
char *inseq;
ftnlen inseqlen;
char *indir;
ftnlen indirlen;
char *infmt;
ftnlen infmtlen;
char *inform;
ftnint informlen;
char *inunf;
ftnlen inunflen;
ftnint *inrecl;
ftnint *innrec;
char *inblank;
ftnlen inblanklen;
} inlist;
#define VOID void
union Multitype { /* for multiple entry points */
integer1 g;
shortint h;
integer i;
/* longint j; */
real r;
doublereal d;
complex c;
doublecomplex z;
};
typedef union Multitype Multitype;
/*typedef long int Long;*/ /* No longer used; formerly in Namelist */
struct Vardesc { /* for Namelist */
char *name;
char *addr;
ftnlen *dims;
int type;
};
typedef struct Vardesc Vardesc;
struct Namelist {
char *name;
Vardesc **vars;
int nvars;
};
typedef struct Namelist Namelist;
#define abs(x) ((x) >= 0 ? (x) : -(x))
#define dabs(x) (doublereal)abs(x)
#define min(a,b) ((a) <= (b) ? (a) : (b))
#define max(a,b) ((a) >= (b) ? (a) : (b))
#define dmin(a,b) (doublereal)min(a,b)
#define dmax(a,b) (doublereal)max(a,b)
#define bit_test(a,b) ((a) >> (b) & 1)
#define bit_clear(a,b) ((a) & ~((uinteger)1 << (b)))
#define bit_set(a,b) ((a) | ((uinteger)1 << (b)))
/* procedure parameter types for -A and -C++ */
#define F2C_proc_par_types 1
#ifdef __cplusplus
typedef int /* Unknown procedure type */ (*U_fp)(...);
typedef shortint (*J_fp)(...);
typedef integer (*I_fp)(...);
typedef real (*R_fp)(...);
typedef doublereal (*D_fp)(...), (*E_fp)(...);
typedef /* Complex */ VOID (*C_fp)(...);
typedef /* Double Complex */ VOID (*Z_fp)(...);
typedef logical (*L_fp)(...);
typedef shortlogical (*K_fp)(...);
typedef /* Character */ VOID (*H_fp)(...);
typedef /* Subroutine */ int (*S_fp)(...);
#else
typedef int /* Unknown procedure type */ (*U_fp)();
typedef shortint (*J_fp)();
typedef integer (*I_fp)();
typedef real (*R_fp)();
typedef doublereal (*D_fp)(), (*E_fp)();
typedef /* Complex */ VOID (*C_fp)();
typedef /* Double Complex */ VOID (*Z_fp)();
typedef logical (*L_fp)();
typedef shortlogical (*K_fp)();
typedef /* Character */ VOID (*H_fp)();
typedef /* Subroutine */ int (*S_fp)();
#endif
/* E_fp is for real functions when -R is not specified */
typedef VOID C_f; /* complex function */
typedef VOID H_f; /* character function */
typedef VOID Z_f; /* double complex function */
typedef doublereal E_f; /* real function with -R not specified */
/* undef any lower-case symbols that your C compiler predefines, e.g.: */
#ifndef Skip_f2c_Undefs
#undef cray
#undef gcos
#undef mc68010
#undef mc68020
#undef mips
#undef pdp11
#undef sgi
#undef sparc
#undef sun
#undef sun2
#undef sun3
#undef sun4
#undef u370
#undef u3b
#undef u3b2
#undef u3b5
#undef unix
#undef vax
#endif
#endif
#endif

390
ext/spice/include/f2cMang.h Normal file
View File

@@ -0,0 +1,390 @@
/*
-Header_File f2cMang.h ( f2c external symbol mangling )
-Abstract
Define macros that mangle the external symbols in the f2c F77 and I77
libraries.
-Disclaimer
THIS SOFTWARE AND ANY RELATED MATERIALS WERE CREATED BY THE
CALIFORNIA INSTITUTE OF TECHNOLOGY (CALTECH) UNDER A U.S.
GOVERNMENT CONTRACT WITH THE NATIONAL AERONAUTICS AND SPACE
ADMINISTRATION (NASA). THE SOFTWARE IS TECHNOLOGY AND SOFTWARE
PUBLICLY AVAILABLE UNDER U.S. EXPORT LAWS AND IS PROVIDED "AS-IS"
TO THE RECIPIENT WITHOUT WARRANTY OF ANY KIND, INCLUDING ANY
WARRANTIES OF PERFORMANCE OR MERCHANTABILITY OR FITNESS FOR A
PARTICULAR USE OR PURPOSE (AS SET FORTH IN UNITED STATES UCC
SECTIONS 2312-2313) OR FOR ANY PURPOSE WHATSOEVER, FOR THE
SOFTWARE AND RELATED MATERIALS, HOWEVER USED.
IN NO EVENT SHALL CALTECH, ITS JET PROPULSION LABORATORY, OR NASA
BE LIABLE FOR ANY DAMAGES AND/OR COSTS, INCLUDING, BUT NOT
LIMITED TO, INCIDENTAL OR CONSEQUENTIAL DAMAGES OF ANY KIND,
INCLUDING ECONOMIC DAMAGE OR INJURY TO PROPERTY AND LOST PROFITS,
REGARDLESS OF WHETHER CALTECH, JPL, OR NASA BE ADVISED, HAVE
REASON TO KNOW, OR, IN FACT, SHALL KNOW OF THE POSSIBILITY.
RECIPIENT BEARS ALL RISK RELATING TO QUALITY AND PERFORMANCE OF
THE SOFTWARE AND ANY RELATED MATERIALS, AND AGREES TO INDEMNIFY
CALTECH AND NASA FOR ALL THIRD-PARTY CLAIMS RESULTING FROM THE
ACTIONS OF RECIPIENT IN THE USE OF THE SOFTWARE.
-Required_Reading
None.
-Particulars
This header supports linking CSPICE into executables that
also link in objects compiled from Fortran, in particular
ones that perform Fortran I/O. To enable this odd mix,
one defines the preprocessor flag
MIX_C_AND_FORTRAN
This macro is undefined by default, since the action it invokes
is usually not desirable. When the flag is defined, this header
defines macros that mangle the f2c library external symbols:
the symbol
xxx
gets mapped to
xxx_f2c
This mangling prevents name collisions between the f2c
implementations of the F77 and I77 library routines and those
in the corresponding Fortran libraries on a host system.
The set of external symbols defined in the f2c libraries can
be determined by combining objects from both F77 and I77 into
a single Unix archive libarary, then running the Unix utility
nm on the that archive. If available, an nm option that selects
only external symbols should be invoked.
-Literature_References
None.
-Author_and_Institution
N.J. Bachman (JPL)
-Restrictions
1) It is recommended that use of the features implemented by this
header be avoided if at all possible. There are robustness and
portability problems associated with linking Fortran and C objects
together in one executable.
2) When f2c external symbol name mangling is invoked, objects
derived from C code translated from Fortran by f2c won't
link against CSPICE any longer, if these objects reference
the standard f2c external symbols.
3) The features implemented by this header have been tested only
under the Sun Solaris GCC, Sun Solaris native ANSI C, and
PC/Linux/gcc environments.
-Version
-CSPICE Version 2.0.1, 07-MAR-2009 (NJB)
Restrictions header section was updated to note successful
testing on the PC/Linux/gcc platform.
-CSPICE Version 2.0.0, 19-DEC-2001 (NJB)
*/
/*
Define masking macros for f2c external symbols.
*/
#ifdef MIX_C_AND_FORTRAN
/*
Define the macros only once, if they need to be defined.
*/
#ifndef F2C_MANGLING_DONE
#define F77_aloc F77_aloc_f2c
#define F_err F_err_f2c
#define L_len L_len_f2c
#define abort_ abort__f2c
#define b_char b_char_f2c
#define c_abs c_abs_f2c
#define c_cos c_cos_f2c
#define c_dfe c_dfe_f2c
#define c_div c_div_f2c
#define c_due c_due_f2c
#define c_exp c_exp_f2c
#define c_le c_le_f2c
#define c_log c_log_f2c
#define c_sfe c_sfe_f2c
#define c_si c_si_f2c
#define c_sin c_sin_f2c
#define c_sqrt c_sqrt_f2c
#define c_sue c_sue_f2c
#define d_abs d_abs_f2c
#define d_acos d_acos_f2c
#define d_asin d_asin_f2c
#define d_atan d_atan_f2c
#define d_atn2 d_atn2_f2c
#define d_cnjg d_cnjg_f2c
#define d_cos d_cos_f2c
#define d_cosh d_cosh_f2c
#define d_dim d_dim_f2c
#define d_exp d_exp_f2c
#define d_imag d_imag_f2c
#define d_int d_int_f2c
#define d_lg10 d_lg10_f2c
#define d_log d_log_f2c
#define d_mod d_mod_f2c
#define d_nint d_nint_f2c
#define d_prod d_prod_f2c
#define d_sign d_sign_f2c
#define d_sin d_sin_f2c
#define d_sinh d_sinh_f2c
#define d_sqrt d_sqrt_f2c
#define d_tan d_tan_f2c
#define d_tanh d_tanh_f2c
#define derf_ derf__f2c
#define derfc_ derfc__f2c
#define do_fio do_fio_f2c
#define do_lio do_lio_f2c
#define do_ud do_ud_f2c
#define do_uio do_uio_f2c
#define do_us do_us_f2c
#define dtime_ dtime__f2c
#define e_rdfe e_rdfe_f2c
#define e_rdue e_rdue_f2c
#define e_rsfe e_rsfe_f2c
#define e_rsfi e_rsfi_f2c
#define e_rsle e_rsle_f2c
#define e_rsli e_rsli_f2c
#define e_rsue e_rsue_f2c
#define e_wdfe e_wdfe_f2c
#define e_wdue e_wdue_f2c
#define e_wsfe e_wsfe_f2c
#define e_wsfi e_wsfi_f2c
#define e_wsle e_wsle_f2c
#define e_wsli e_wsli_f2c
#define e_wsue e_wsue_f2c
#define ef1asc_ ef1asc__f2c
#define ef1cmc_ ef1cmc__f2c
#define en_fio en_fio_f2c
#define erf_ erf__f2c
#define erfc_ erfc__f2c
#define err__fl err__fl_f2c
#define etime_ etime__f2c
#define exit_ exit__f2c
#define f__Aquote f__Aquote_f2c
#define f__buflen f__buflen_f2c
#define f__cabs f__cabs_f2c
#define f__canseek f__canseek_f2c
#define f__cblank f__cblank_f2c
#define f__cf f__cf_f2c
#define f__cnt f__cnt_f2c
#define f__cp f__cp_f2c
#define f__cplus f__cplus_f2c
#define f__cursor f__cursor_f2c
#define f__curunit f__curunit_f2c
#define f__doed f__doed_f2c
#define f__doend f__doend_f2c
#define f__doned f__doned_f2c
#define f__donewrec f__donewrec_f2c
#define f__dorevert f__dorevert_f2c
#define f__elist f__elist_f2c
#define f__external f__external_f2c
#define f__fatal f__fatal_f2c
#define f__fmtbuf f__fmtbuf_f2c
#define f__formatted f__formatted_f2c
#define f__getn f__getn_f2c
#define f__hiwater f__hiwater_f2c
#define f__icend f__icend_f2c
#define f__icnum f__icnum_f2c
#define f__icptr f__icptr_f2c
#define f__icvt f__icvt_f2c
#define f__init f__init_f2c
#define f__inode f__inode_f2c
#define f__lchar f__lchar_f2c
#define f__lcount f__lcount_f2c
#define f__lioproc f__lioproc_f2c
#define f__lquit f__lquit_f2c
#define f__ltab f__ltab_f2c
#define f__ltype f__ltype_f2c
#define f__lx f__lx_f2c
#define f__ly f__ly_f2c
#define f__nonl f__nonl_f2c
#define f__nowreading f__nowreading_f2c
#define f__nowwriting f__nowwriting_f2c
#define f__parenlvl f__parenlvl_f2c
#define f__pc f__pc_f2c
#define f__putbuf f__putbuf_f2c
#define f__putn f__putn_f2c
#define f__r_mode f__r_mode_f2c
#define f__reading f__reading_f2c
#define f__reclen f__reclen_f2c
#define f__recloc f__recloc_f2c
#define f__recpos f__recpos_f2c
#define f__ret f__ret_f2c
#define f__revloc f__revloc_f2c
#define f__rp f__rp_f2c
#define f__scale f__scale_f2c
#define f__sequential f__sequential_f2c
#define f__svic f__svic_f2c
#define f__typesize f__typesize_f2c
#define f__units f__units_f2c
#define f__w_mode f__w_mode_f2c
#define f__workdone f__workdone_f2c
#define f_back f_back_f2c
#define f_clos f_clos_f2c
#define f_end f_end_f2c
#define f_exit f_exit_f2c
#define f_init f_init_f2c
#define f_inqu f_inqu_f2c
#define f_open f_open_f2c
#define f_rew f_rew_f2c
#define fk_open fk_open_f2c
#define flush_ flush__f2c
#define fmt_bg fmt_bg_f2c
#define fseek_ fseek__f2c
#define ftell_ ftell__f2c
#define g_char g_char_f2c
#define getenv_ getenv__f2c
#define h_abs h_abs_f2c
#define h_dim h_dim_f2c
#define h_dnnt h_dnnt_f2c
#define h_indx h_indx_f2c
#define h_len h_len_f2c
#define h_mod h_mod_f2c
#define h_nint h_nint_f2c
#define h_sign h_sign_f2c
#define hl_ge hl_ge_f2c
#define hl_gt hl_gt_f2c
#define hl_le hl_le_f2c
#define hl_lt hl_lt_f2c
#define i_abs i_abs_f2c
#define i_dim i_dim_f2c
#define i_dnnt i_dnnt_f2c
#define i_indx i_indx_f2c
#define i_len i_len_f2c
#define i_mod i_mod_f2c
#define i_nint i_nint_f2c
#define i_sign i_sign_f2c
#define iw_rev iw_rev_f2c
#define l_eof l_eof_f2c
#define l_ge l_ge_f2c
#define l_getc l_getc_f2c
#define l_gt l_gt_f2c
#define l_le l_le_f2c
#define l_lt l_lt_f2c
#define l_read l_read_f2c
#define l_ungetc l_ungetc_f2c
#define l_write l_write_f2c
#define lbit_bits lbit_bits_f2c
#define lbit_cshift lbit_cshift_f2c
#define lbit_shift lbit_shift_f2c
#define mk_hashtab mk_hashtab_f2c
#define nml_read nml_read_f2c
#define pars_f pars_f_f2c
#define pow_ci pow_ci_f2c
#define pow_dd pow_dd_f2c
#define pow_di pow_di_f2c
#define pow_hh pow_hh_f2c
#define pow_ii pow_ii_f2c
#define pow_ri pow_ri_f2c
#define pow_zi pow_zi_f2c
#define pow_zz pow_zz_f2c
#define r_abs r_abs_f2c
#define r_acos r_acos_f2c
#define r_asin r_asin_f2c
#define r_atan r_atan_f2c
#define r_atn2 r_atn2_f2c
#define r_cnjg r_cnjg_f2c
#define r_cos r_cos_f2c
#define r_cosh r_cosh_f2c
#define r_dim r_dim_f2c
#define r_exp r_exp_f2c
#define r_imag r_imag_f2c
#define r_int r_int_f2c
#define r_lg10 r_lg10_f2c
#define r_log r_log_f2c
#define r_mod r_mod_f2c
#define r_nint r_nint_f2c
#define r_sign r_sign_f2c
#define r_sin r_sin_f2c
#define r_sinh r_sinh_f2c
#define r_sqrt r_sqrt_f2c
#define r_tan r_tan_f2c
#define r_tanh r_tanh_f2c
#define rd_ed rd_ed_f2c
#define rd_ned rd_ned_f2c
#define s_cat s_cat_f2c
#define s_cmp s_cmp_f2c
#define s_copy s_copy_f2c
#define s_paus s_paus_f2c
#define s_rdfe s_rdfe_f2c
#define s_rdue s_rdue_f2c
#define s_rnge s_rnge_f2c
#define s_rsfe s_rsfe_f2c
#define s_rsfi s_rsfi_f2c
#define s_rsle s_rsle_f2c
#define s_rsli s_rsli_f2c
#define s_rsne s_rsne_f2c
#define s_rsni s_rsni_f2c
#define s_rsue s_rsue_f2c
#define s_stop s_stop_f2c
#define s_wdfe s_wdfe_f2c
#define s_wdue s_wdue_f2c
#define s_wsfe s_wsfe_f2c
#define s_wsfi s_wsfi_f2c
#define s_wsle s_wsle_f2c
#define s_wsli s_wsli_f2c
#define s_wsne s_wsne_f2c
#define s_wsni s_wsni_f2c
#define s_wsue s_wsue_f2c
#define sig_die sig_die_f2c
#define signal_ signal__f2c
#define system_ system__f2c
#define t_getc t_getc_f2c
#define t_runc t_runc_f2c
#define w_ed w_ed_f2c
#define w_ned w_ned_f2c
#define wrt_E wrt_E_f2c
#define wrt_F wrt_F_f2c
#define wrt_L wrt_L_f2c
#define x_endp x_endp_f2c
#define x_getc x_getc_f2c
#define x_putc x_putc_f2c
#define x_rev x_rev_f2c
#define x_rsne x_rsne_f2c
#define x_wSL x_wSL_f2c
#define x_wsne x_wsne_f2c
#define xrd_SL xrd_SL_f2c
#define y_getc y_getc_f2c
#define y_rsk y_rsk_f2c
#define z_abs z_abs_f2c
#define z_cos z_cos_f2c
#define z_div z_div_f2c
#define z_exp z_exp_f2c
#define z_getc z_getc_f2c
#define z_log z_log_f2c
#define z_putc z_putc_f2c
#define z_rnew z_rnew_f2c
#define z_sin z_sin_f2c
#define z_sqrt z_sqrt_f2c
#define z_wnew z_wnew_f2c
#define F2C_MANGLING_DONE
#endif
#endif

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#include "stdio.h"
#include "errno.h"
#ifndef NULL
/* ANSI C */
#include "stddef.h"
#endif
#ifndef SEEK_SET
#define SEEK_SET 0
#define SEEK_CUR 1
#define SEEK_END 2
#endif
#ifdef MSDOS
#ifndef NON_UNIX_STDIO
#define NON_UNIX_STDIO
#endif
#endif
#ifdef UIOLEN_int
typedef int uiolen;
#else
typedef long uiolen;
#endif
/*units*/
typedef struct
{ FILE *ufd; /*0=unconnected*/
char *ufnm;
#ifndef MSDOS
long uinode;
int udev;
#endif
int url; /*0=sequential*/
flag useek; /*true=can backspace, use dir, ...*/
flag ufmt;
flag urw; /* (1 for can read) | (2 for can write) */
flag ublnk;
flag uend;
flag uwrt; /*last io was write*/
flag uscrtch;
} unit;
extern flag f__init;
extern cilist *f__elist; /*active external io list*/
extern flag f__reading,f__external,f__sequential,f__formatted;
#undef Void
#ifdef KR_headers
#define Void /*void*/
extern int (*f__getn)(); /* for formatted input */
extern void (*f__putn)(); /* for formatted output */
extern void x_putc();
extern long f__inode();
extern VOID sig_die();
extern int (*f__donewrec)(), t_putc(), x_wSL();
extern int c_sfe(), err__fl(), xrd_SL(), f__putbuf();
#else
#define Void void
#ifdef __cplusplus
extern "C" {
#endif
extern int (*f__getn)(void); /* for formatted input */
extern void (*f__putn)(int); /* for formatted output */
extern void x_putc(int);
extern long f__inode(char*,int*);
extern void sig_die(char*,int);
extern void f__fatal(int,char*);
extern int t_runc(alist*);
extern int f__nowreading(unit*), f__nowwriting(unit*);
extern int fk_open(int,int,ftnint);
extern int en_fio(void);
extern void f_init(void);
extern int (*f__donewrec)(void), t_putc(int), x_wSL(void);
extern void b_char(char*,char*,ftnlen), g_char(char*,ftnlen,char*);
extern int c_sfe(cilist*), z_rnew(void);
extern int isatty(int);
extern int err__fl(int,int,char*);
extern int xrd_SL(void);
extern int f__putbuf(int);
#ifdef __cplusplus
}
#endif
#endif
extern int (*f__doend)(Void);
extern FILE *f__cf; /*current file*/
extern unit *f__curunit; /*current unit*/
extern unit f__units[];
#define err(f,m,s) {if(f) errno= m; else f__fatal(m,s); return(m);}
#define errfl(f,m,s) return err__fl((int)f,m,s)
/*Table sizes*/
#define MXUNIT 100
extern int f__recpos; /*position in current record*/
extern int f__cursor; /* offset to move to */
extern int f__hiwater; /* so TL doesn't confuse us */
#define WRITE 1
#define READ 2
#define SEQ 3
#define DIR 4
#define FMT 5
#define UNF 6
#define EXT 7
#define INT 8
#define buf_end(x) (x->_flag & _IONBF ? x->_ptr : x->_base + BUFSIZ)

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struct syl
{ int op;
int p1;
union { int i[2]; char *s;} p2;
};
#define RET1 1
#define REVERT 2
#define GOTO 3
#define X 4
#define SLASH 5
#define STACK 6
#define I 7
#define ED 8
#define NED 9
#define IM 10
#define APOS 11
#define H 12
#define TL 13
#define TR 14
#define T 15
#define COLON 16
#define S 17
#define SP 18
#define SS 19
#define P 20
#define BN 21
#define BZ 22
#define F 23
#define E 24
#define EE 25
#define D 26
#define G 27
#define GE 28
#define L 29
#define A 30
#define AW 31
#define O 32
#define NONL 33
#define OM 34
#define Z 35
#define ZM 36
extern int f__pc,f__parenlvl,f__revloc;
typedef union
{ real pf;
doublereal pd;
} ufloat;
typedef union
{ short is;
#ifndef KR_headers
signed
#endif
char ic;
integer il;
#ifdef Allow_TYQUAD
longint ili;
#endif
} Uint;
#ifdef KR_headers
extern int (*f__doed)(),(*f__doned)();
extern int (*f__dorevert)();
extern int rd_ed(),rd_ned();
extern int w_ed(),w_ned();
#else
#ifdef __cplusplus
extern "C" {
#endif
extern int (*f__doed)(struct syl*, char*, ftnlen),(*f__doned)(struct syl*);
extern int (*f__dorevert)(void);
extern void fmt_bg(void);
extern int pars_f(char*);
extern int rd_ed(struct syl*, char*, ftnlen),rd_ned(struct syl*);
extern int w_ed(struct syl*, char*, ftnlen),w_ned(struct syl*);
extern int wrt_E(ufloat*, int, int, int, ftnlen);
extern int wrt_F(ufloat*, int, int, ftnlen);
extern int wrt_L(Uint*, int, ftnlen);
#ifdef __cplusplus
}
#endif
#endif
extern flag f__cblank,f__cplus,f__workdone, f__nonl;
extern char *f__fmtbuf;
extern int f__scale;
#define GET(x) if((x=(*f__getn)())<0) return(x)
#define VAL(x) (x!='\n'?x:' ')
#define PUT(x) (*f__putn)(x)
extern int f__cursor;
#undef TYQUAD
#ifndef Allow_TYQUAD
#undef longint
#define longint long
#else
#define TYQUAD 14
#endif
#ifdef KR_headers
extern char *f__icvt();
#else
extern char *f__icvt(longint, int*, int*, int);
#endif

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#define FMAX 40
#define EXPMAXDIGS 8
#define EXPMAX 99999999
/* FMAX = max number of nonzero digits passed to atof() */
/* EXPMAX = 10^EXPMAXDIGS - 1 = largest allowed exponent absolute value */
#ifdef V10 /* Research Tenth-Edition Unix */
#include "local.h"
#endif
/* MAXFRACDIGS and MAXINTDIGS are for wrt_F -- bounds (not necessarily
tight) on the maximum number of digits to the right and left of
* the decimal point.
*/
#ifdef VAX
#define MAXFRACDIGS 56
#define MAXINTDIGS 38
#else
#ifdef CRAY
#define MAXFRACDIGS 9880
#define MAXINTDIGS 9864
#else
/* values that suffice for IEEE double */
#define MAXFRACDIGS 344
#define MAXINTDIGS 308
#endif
#endif

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/* copy of ftypes from the compiler */
/* variable types
* numeric assumptions:
* int < reals < complexes
* TYDREAL-TYREAL = TYDCOMPLEX-TYCOMPLEX
*/
/* 0-10 retain their old (pre LOGICAL*1, etc.) */
/* values to allow mixing old and new objects. */
#define TYUNKNOWN 0
#define TYADDR 1
#define TYSHORT 2
#define TYLONG 3
#define TYREAL 4
#define TYDREAL 5
#define TYCOMPLEX 6
#define TYDCOMPLEX 7
#define TYLOGICAL 8
#define TYCHAR 9
#define TYSUBR 10
#define TYINT1 11
#define TYLOGICAL1 12
#define TYLOGICAL2 13
#ifdef Allow_TYQUAD
#undef TYQUAD
#define TYQUAD 14
#endif
#define LINTW 24
#define LINE 80
#define LLOGW 2
#ifdef Old_list_output
#define LLOW 1.0
#define LHIGH 1.e9
#define LEFMT " %# .8E"
#define LFFMT " %# .9g"
#else
#define LGFMT "%.9G"
#endif
/* LEFBL 20 should suffice; 24 overcomes a NeXT bug. */
#define LEFBL 24
typedef union
{
char flchar;
short flshort;
ftnint flint;
#ifdef Allow_TYQUAD
longint fllongint;
#endif
real flreal;
doublereal fldouble;
} flex;
extern int f__scale;
#ifdef KR_headers
extern int (*f__lioproc)(), (*l_getc)(), (*l_ungetc)();
extern int l_read(), l_write();
#else
#ifdef __cplusplus
extern "C" {
#endif
extern int (*f__lioproc)(ftnint*, char*, ftnlen, ftnint);
extern int l_write(ftnint*, char*, ftnlen, ftnint);
extern void x_wsne(cilist*);
extern int c_le(cilist*), (*l_getc)(void), (*l_ungetc)(int,FILE*);
extern int l_read(ftnint*,char*,ftnlen,ftnint);
extern integer e_rsle(void), e_wsle(void), s_wsne(cilist*);
extern int z_rnew(void);
#ifdef __cplusplus
}
#endif
#endif
extern ftnint L_len;

41
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#ifndef KR_headers
#ifdef MSDOS
#include "io.h"
#ifndef WATCOM
#define close _close
#define creat _creat
#define open _open
#define read _read
#define write _write
#endif /*WATCOM*/
#endif /*MSDOS*/
#ifdef __cplusplus
extern "C" {
#endif
#ifndef MSDOS
#ifdef OPEN_DECL
extern int creat(const char*,int), open(const char*,int);
#endif
extern int close(int);
extern int read(int,void*,size_t), write(int,void*,size_t);
extern int unlink(const char*);
#ifndef _POSIX_SOURCE
#ifndef NON_UNIX_STDIO
extern FILE *fdopen(int, const char*);
#endif
#endif
#endif /*KR_HEADERS*/
extern char *mktemp(char*);
#ifdef __cplusplus
}
#endif
#endif
#include "fcntl.h"
#ifndef O_WRONLY
#define O_RDONLY 0
#define O_WRONLY 1
#endif

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/*
-Header_File signal1.h (CSPICE version of the f2c signal1.h header file)
-Abstract
Define macros associated with signal handling, customized for the
host environment.
-Disclaimer
THIS SOFTWARE AND ANY RELATED MATERIALS WERE CREATED BY THE
CALIFORNIA INSTITUTE OF TECHNOLOGY (CALTECH) UNDER A U.S.
GOVERNMENT CONTRACT WITH THE NATIONAL AERONAUTICS AND SPACE
ADMINISTRATION (NASA). THE SOFTWARE IS TECHNOLOGY AND SOFTWARE
PUBLICLY AVAILABLE UNDER U.S. EXPORT LAWS AND IS PROVIDED "AS-IS"
TO THE RECIPIENT WITHOUT WARRANTY OF ANY KIND, INCLUDING ANY
WARRANTIES OF PERFORMANCE OR MERCHANTABILITY OR FITNESS FOR A
PARTICULAR USE OR PURPOSE (AS SET FORTH IN UNITED STATES UCC
SECTIONS 2312-2313) OR FOR ANY PURPOSE WHATSOEVER, FOR THE
SOFTWARE AND RELATED MATERIALS, HOWEVER USED.
IN NO EVENT SHALL CALTECH, ITS JET PROPULSION LABORATORY, OR NASA
BE LIABLE FOR ANY DAMAGES AND/OR COSTS, INCLUDING, BUT NOT
LIMITED TO, INCIDENTAL OR CONSEQUENTIAL DAMAGES OF ANY KIND,
INCLUDING ECONOMIC DAMAGE OR INJURY TO PROPERTY AND LOST PROFITS,
REGARDLESS OF WHETHER CALTECH, JPL, OR NASA BE ADVISED, HAVE
REASON TO KNOW, OR, IN FACT, SHALL KNOW OF THE POSSIBILITY.
RECIPIENT BEARS ALL RISK RELATING TO QUALITY AND PERFORMANCE OF
THE SOFTWARE AND ANY RELATED MATERIALS, AND AGREES TO INDEMNIFY
CALTECH AND NASA FOR ALL THIRD-PARTY CLAIMS RESULTING FROM THE
ACTIONS OF RECIPIENT IN THE USE OF THE SOFTWARE.
-Required_Reading
None.
-Particulars
This header defines the macro signal1 referenced in main.c,
which is a generic main routine used in CSPICE executables that
link to code generated by f2c.
-Literature_References
None.
-Author_and_Institution
N.J. Bachman (JPL)
-Restrictions
1) This header file must be updated whenever the f2c processor
or the f2c libraries libI77 and libF77 are updated.
2) This header may need to be updated to support new platforms.
The supported platforms at the time of the 03-FEB-2000 release
are:
ALPHA-DIGITAL-UNIX_C
HP_C
NEXT_C
PC-LINUX_C
PC-MS_C
SGI-IRIX-N32_C
SGI-IRIX-NO2_C
SUN-SOLARIS-GCC_C
SUN-SOLARIS-NATIVE_C
-Version
-CSPICE Version 1.0.0, 03-FEB-2000 (NJB)
*/
/* You may need to adjust the definition of signal1 to supply a */
/* cast to the correct argument type. This detail is system- and */
/* compiler-dependent. The #define below assumes signal.h declares */
/* type SIG_PF for the signal function's second argument. */
#include <signal.h>
#ifndef Sigret_t
#define Sigret_t void
#endif
#ifndef Sigarg_t
#ifdef KR_headers
#define Sigarg_t
#else
#ifdef __cplusplus
#define Sigarg_t ...
#else
#define Sigarg_t int
#endif
#endif
#endif /*Sigarg_t*/
#ifdef USE_SIG_PF /* compile with -DUSE_SIG_PF under IRIX */
#define sig_pf SIG_PF
#else
typedef Sigret_t (*sig_pf)(Sigarg_t);
#endif
#define signal1(a,b) signal(a,(sig_pf)b)
#ifdef __cplusplus
#define Sigarg ...
#define Use_Sigarg
#else
#define Sigarg Int n
#define Use_Sigarg n = n /* shut up compiler warning */
#endif

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/*
-Abstract
The memory allocation prototypes and macros for use in CSPICE.
-Disclaimer
THIS SOFTWARE AND ANY RELATED MATERIALS WERE CREATED BY THE
CALIFORNIA INSTITUTE OF TECHNOLOGY (CALTECH) UNDER A U.S.
GOVERNMENT CONTRACT WITH THE NATIONAL AERONAUTICS AND SPACE
ADMINISTRATION (NASA). THE SOFTWARE IS TECHNOLOGY AND SOFTWARE
PUBLICLY AVAILABLE UNDER U.S. EXPORT LAWS AND IS PROVIDED "AS-IS"
TO THE RECIPIENT WITHOUT WARRANTY OF ANY KIND, INCLUDING ANY
WARRANTIES OF PERFORMANCE OR MERCHANTABILITY OR FITNESS FOR A
PARTICULAR USE OR PURPOSE (AS SET FORTH IN UNITED STATES UCC
SECTIONS 2312-2313) OR FOR ANY PURPOSE WHATSOEVER, FOR THE
SOFTWARE AND RELATED MATERIALS, HOWEVER USED.
IN NO EVENT SHALL CALTECH, ITS JET PROPULSION LABORATORY, OR NASA
BE LIABLE FOR ANY DAMAGES AND/OR COSTS, INCLUDING, BUT NOT
LIMITED TO, INCIDENTAL OR CONSEQUENTIAL DAMAGES OF ANY KIND,
INCLUDING ECONOMIC DAMAGE OR INJURY TO PROPERTY AND LOST PROFITS,
REGARDLESS OF WHETHER CALTECH, JPL, OR NASA BE ADVISED, HAVE
REASON TO KNOW, OR, IN FACT, SHALL KNOW OF THE POSSIBILITY.
RECIPIENT BEARS ALL RISK RELATING TO QUALITY AND PERFORMANCE OF
THE SOFTWARE AND ANY RELATED MATERIALS, AND AGREES TO INDEMNIFY
CALTECH AND NASA FOR ALL THIRD-PARTY CLAIMS RESULTING FROM THE
ACTIONS OF RECIPIENT IN THE USE OF THE SOFTWARE.
-Particulars
The routines maintain a count of the number of mallocs vs. free,
signalling an error if any unreleased memory exists at the end
of an Icy interface call.
The macro ALLOC_CHECK performs malloc/free test. If used, the macro
should exists at the end of any routine using these memory management
routines.
Prototypes in this file:
alloc_count
zzalloc_count
alloc_SpiceMemory
alloc_SpiceString_C_array
alloc_SpiceString_C_Copy_array
alloc_SpiceDouble_C_array
alloc_SpiceInt_C_array
alloc_SpiceString
alloc_SpiceString_Pointer_array
free_SpiceString_C_array
free_SpiceMemory
-Version
CSPICE 1.0.3 02-MAY-2008 (EDW)
Added alloc_count prototype.
CSPICE 1.0.2 10-MAY-2007 (EDW)
Minor edits to clarify 'size' in alloc_SpiceMemory as
size_t.
CSPICE 1.0.1 23-JUN-2005 (EDW)
Add prototype for alloc_SpiceString_Pointer_array, allocate
an array of pointers to SpiceChar.
Icy 1.0.0 December 19, 2003 (EDW)
Initial release.
*/
#ifndef ZZALLOC_H
#define ZZALLOC_H
/*
Allocation call prototypes:
*/
int alloc_count ();
SpiceChar ** alloc_SpiceString_C_array ( int string_length,
int string_count );
SpiceChar ** alloc_SpiceString_C_Copy_array ( int array_len ,
int string_len,
SpiceChar ** array );
SpiceDouble * alloc_SpiceDouble_C_array ( int rows,
int cols );
SpiceInt * alloc_SpiceInt_C_array ( int rows,
int cols );
SpiceChar * alloc_SpiceString ( int length );
SpiceChar ** alloc_SpiceString_Pointer_array( int array_len );
void free_SpiceString_C_array ( int dim,
SpiceChar ** array );
void * alloc_SpiceMemory ( size_t size );
void free_SpiceMemory ( void * ptr );
/*
Simple macro to ensure a zero value alloc count at end of routine.
Note, the need to use this macro exists only in those routines
allocating/deallocating memory.
*/
#define ALLOC_CHECK if ( alloc_count() != 0 ) \
{ \
setmsg_c ( "Malloc/Free count not zero at end of routine." \
" Malloc count = #."); \
errint_c ( "#", alloc_count() ); \
sigerr_c ( "SPICE(MALLOCCOUNT)" ); \
}
#endif

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/*
-Abstract
The error control routine prototypes for use in CSPICE.
-Disclaimer
THIS SOFTWARE AND ANY RELATED MATERIALS WERE CREATED BY THE
CALIFORNIA INSTITUTE OF TECHNOLOGY (CALTECH) UNDER A U.S.
GOVERNMENT CONTRACT WITH THE NATIONAL AERONAUTICS AND SPACE
ADMINISTRATION (NASA). THE SOFTWARE IS TECHNOLOGY AND SOFTWARE
PUBLICLY AVAILABLE UNDER U.S. EXPORT LAWS AND IS PROVIDED "AS-IS"
TO THE RECIPIENT WITHOUT WARRANTY OF ANY KIND, INCLUDING ANY
WARRANTIES OF PERFORMANCE OR MERCHANTABILITY OR FITNESS FOR A
PARTICULAR USE OR PURPOSE (AS SET FORTH IN UNITED STATES UCC
SECTIONS 2312-2313) OR FOR ANY PURPOSE WHATSOEVER, FOR THE
SOFTWARE AND RELATED MATERIALS, HOWEVER USED.
IN NO EVENT SHALL CALTECH, ITS JET PROPULSION LABORATORY, OR NASA
BE LIABLE FOR ANY DAMAGES AND/OR COSTS, INCLUDING, BUT NOT
LIMITED TO, INCIDENTAL OR CONSEQUENTIAL DAMAGES OF ANY KIND,
INCLUDING ECONOMIC DAMAGE OR INJURY TO PROPERTY AND LOST PROFITS,
REGARDLESS OF WHETHER CALTECH, JPL, OR NASA BE ADVISED, HAVE
REASON TO KNOW, OR, IN FACT, SHALL KNOW OF THE POSSIBILITY.
RECIPIENT BEARS ALL RISK RELATING TO QUALITY AND PERFORMANCE OF
THE SOFTWARE AND ANY RELATED MATERIALS, AND AGREES TO INDEMNIFY
CALTECH AND NASA FOR ALL THIRD-PARTY CLAIMS RESULTING FROM THE
ACTIONS OF RECIPIENT IN THE USE OF THE SOFTWARE.
-Particulars
Routines prototyped in this file:
zzerrorinit
zzerror
-Examples
See the examples section in zzerror() and zzerrorinit().
-Restrictions
None.
-Exceptions
None.
-Files
None.
-Author_and_Institution
E. D. Wright (JPL)
-Literature_References
None.
-Version
CSPICE 1.0.0 17-OCT-2005 (EDW)
Initial release.
*/
#ifndef ZZERROR_H
#define ZZERROR_H
const char * zzerror( long cnt );
void zzerrorinit();
#endif

32
ext/spice/src/cspice/F77_aloc.c Normal file
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#include "f2c.h"
#undef abs
#undef min
#undef max
#include "stdio.h"
static integer memfailure = 3;
#ifdef KR_headers
extern char *malloc();
extern void exit_();
char *
F77_aloc(Len, whence) integer Len; char *whence;
#else
#include "stdlib.h"
extern void exit_(integer*);
char *
F77_aloc(integer Len, char *whence)
#endif
{
char *rv;
unsigned int uLen = (unsigned int) Len; /* for K&R C */
if (!(rv = (char*)malloc(uLen))) {
fprintf(stderr, "malloc(%u) failure in %s\n",
uLen, whence);
exit_(&memfailure);
}
return rv;
}

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ext/spice/src/cspice/SpiceCK.h Normal file
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/*
-Header_File SpiceCK.h ( CSPICE CK definitions )
-Abstract
Perform CSPICE definitions to support CK wrapper interfaces.
-Disclaimer
THIS SOFTWARE AND ANY RELATED MATERIALS WERE CREATED BY THE
CALIFORNIA INSTITUTE OF TECHNOLOGY (CALTECH) UNDER A U.S.
GOVERNMENT CONTRACT WITH THE NATIONAL AERONAUTICS AND SPACE
ADMINISTRATION (NASA). THE SOFTWARE IS TECHNOLOGY AND SOFTWARE
PUBLICLY AVAILABLE UNDER U.S. EXPORT LAWS AND IS PROVIDED "AS-IS"
TO THE RECIPIENT WITHOUT WARRANTY OF ANY KIND, INCLUDING ANY
WARRANTIES OF PERFORMANCE OR MERCHANTABILITY OR FITNESS FOR A
PARTICULAR USE OR PURPOSE (AS SET FORTH IN UNITED STATES UCC
SECTIONS 2312-2313) OR FOR ANY PURPOSE WHATSOEVER, FOR THE
SOFTWARE AND RELATED MATERIALS, HOWEVER USED.
IN NO EVENT SHALL CALTECH, ITS JET PROPULSION LABORATORY, OR NASA
BE LIABLE FOR ANY DAMAGES AND/OR COSTS, INCLUDING, BUT NOT
LIMITED TO, INCIDENTAL OR CONSEQUENTIAL DAMAGES OF ANY KIND,
INCLUDING ECONOMIC DAMAGE OR INJURY TO PROPERTY AND LOST PROFITS,
REGARDLESS OF WHETHER CALTECH, JPL, OR NASA BE ADVISED, HAVE
REASON TO KNOW, OR, IN FACT, SHALL KNOW OF THE POSSIBILITY.
RECIPIENT BEARS ALL RISK RELATING TO QUALITY AND PERFORMANCE OF
THE SOFTWARE AND ANY RELATED MATERIALS, AND AGREES TO INDEMNIFY
CALTECH AND NASA FOR ALL THIRD-PARTY CLAIMS RESULTING FROM THE
ACTIONS OF RECIPIENT IN THE USE OF THE SOFTWARE.
-Required_Reading
None.
-Particulars
This header defines types that may be referenced in
application code that calls CSPICE CK functions.
Typedef
=======
Name Description
---- ----------
SpiceCK05Subtype Typedef for enum indicating the
mathematical representation used
in an CK type 05 segment. Possible
values and meanings are:
C05TP0:
Hermite interpolation, 8-
element packets containing
q0, q1, q2, q3,
dq0/dt, dq1/dt, dq2/dt dq3/dt
where q0, q1, q2, q3 represent
quaternion components and dq0/dt,
dq1/dt, dq2/dt, dq3/dt represent
quaternion time derivative components.
Quaternions are unitless. Quaternion
time derivatives have units of
1/second.
C05TP1:
Lagrange interpolation, 4-
element packets containing
q0, q1, q2, q3,
where q0, q1, q2, q3 represent
quaternion components. Quaternion
derivatives are obtained by
differentiating interpolating
polynomials.
C05TP2:
Hermite interpolation, 14-
element packets containing
q0, q1, q2, q3,
dq0/dt, dq1/dt, dq2/dt dq3/dt,
av0, av1, av2,
dav0/dt, dav1/dt, dav2/dt
where q0, q1, q2, q3 represent
quaternion components and dq0/dt,
dq1/dt, dq2/dt, dq3/dt represent
quaternion time derivative components,
av0, av1, av2 represent angular
velocity components, and
dav0/dt, dav1/dt, dav2/dt represent
angular acceleration components.
C05TP3:
Lagrange interpolation, 7-
element packets containing
q0, q1, q2, q3,
av0, av1, av2
where q0, q1, q2, q3 represent
quaternion components and
av0, av1, av2 represent angular
velocity components.
Literature_References
None.
-Author_and_Institution
N.J. Bachman (JPL)
-Restrictions
None.
-Version
-CSPICE Version 1.0.0, 20-AUG-2002 (NJB)
*/
#ifndef HAVE_SPICE_CK_H
#define HAVE_SPICE_CK_H
/*
CK type 05 subtype codes:
*/
enum _SpiceCK05Subtype { C05TP0, C05TP1, C05TP2, C05TP3 };
typedef enum _SpiceCK05Subtype SpiceCK05Subtype;
#endif

441
ext/spice/src/cspice/SpiceCel.h Normal file
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/*
-Header_File SpiceCel.h ( CSPICE Cell definitions )
-Abstract
Perform CSPICE definitions for the SpiceCell data type.
-Disclaimer
THIS SOFTWARE AND ANY RELATED MATERIALS WERE CREATED BY THE
CALIFORNIA INSTITUTE OF TECHNOLOGY (CALTECH) UNDER A U.S.
GOVERNMENT CONTRACT WITH THE NATIONAL AERONAUTICS AND SPACE
ADMINISTRATION (NASA). THE SOFTWARE IS TECHNOLOGY AND SOFTWARE
PUBLICLY AVAILABLE UNDER U.S. EXPORT LAWS AND IS PROVIDED "AS-IS"
TO THE RECIPIENT WITHOUT WARRANTY OF ANY KIND, INCLUDING ANY
WARRANTIES OF PERFORMANCE OR MERCHANTABILITY OR FITNESS FOR A
PARTICULAR USE OR PURPOSE (AS SET FORTH IN UNITED STATES UCC
SECTIONS 2312-2313) OR FOR ANY PURPOSE WHATSOEVER, FOR THE
SOFTWARE AND RELATED MATERIALS, HOWEVER USED.
IN NO EVENT SHALL CALTECH, ITS JET PROPULSION LABORATORY, OR NASA
BE LIABLE FOR ANY DAMAGES AND/OR COSTS, INCLUDING, BUT NOT
LIMITED TO, INCIDENTAL OR CONSEQUENTIAL DAMAGES OF ANY KIND,
INCLUDING ECONOMIC DAMAGE OR INJURY TO PROPERTY AND LOST PROFITS,
REGARDLESS OF WHETHER CALTECH, JPL, OR NASA BE ADVISED, HAVE
REASON TO KNOW, OR, IN FACT, SHALL KNOW OF THE POSSIBILITY.
RECIPIENT BEARS ALL RISK RELATING TO QUALITY AND PERFORMANCE OF
THE SOFTWARE AND ANY RELATED MATERIALS, AND AGREES TO INDEMNIFY
CALTECH AND NASA FOR ALL THIRD-PARTY CLAIMS RESULTING FROM THE
ACTIONS OF RECIPIENT IN THE USE OF THE SOFTWARE.
-Required_Reading
CELLS
-Particulars
This header defines structures, macros, and enumerated types that
may be referenced in application code that calls CSPICE cell
functions.
CSPICE cells are data structures that implement functionality
parallel to that of the cell abstract data type in SPICELIB. In
CSPICE, a cell is a C structure containing bookkeeping information,
including a pointer to an associated data array.
For numeric data types, the data array is simply a SPICELIB-style
cell, including a valid control area. For character cells, the data
array has the same number of elements as the corresponding
SPICELIB-style cell, but the contents of the control area are not
maintained, and the data elements are null-terminated C-style
strings.
CSPICE cells should be declared using the declaration macros
provided in this header file. See the table of macros below.
Structures
==========
Name Description
---- ----------
SpiceCell Structure containing CSPICE cell metadata.
The members are:
dtype: Data type of cell: character,
integer, or double precision.
dtype has type
SpiceCellDataType.
length: For character cells, the
declared length of the
cell's string array.
size: The maximum number of data
items that can be stored in
the cell's data array.
card: The cell's "cardinality": the
number of data items currently
present in the cell.
isSet: Boolean flag indicating whether
the cell is a CSPICE set.
Sets have no duplicate data
items, and their data items are
stored in increasing order.
adjust: Boolean flag indicating whether
the cell's data area has
adjustable size. Adjustable
size cell data areas are not
currently implemented.
init: Boolean flag indicating whether
the cell has been initialized.
base: is a void pointer to the
associated data array. base
points to the start of the
control area of this array.
data: is a void pointer to the
first data slot in the
associated data array. This
slot is the element following
the control area.
ConstSpiceCell A const SpiceCell.
Declaration Macros
==================
Name Description
---- ----------
SPICECHAR_CELL ( name, size, length ) Declare a
character CSPICE
cell having cell
name name,
maximum cell
cardinality size,
and string length
length. The
macro declares
both the cell and
the associated
data array. The
name of the data
array begins with
"SPICE_".
SPICEDOUBLE_CELL ( name, size ) Like SPICECHAR_CELL,
but declares a
double precision
cell.
SPICEINT_CELL ( name, size ) Like
SPICECHAR_CELL,
but declares an
integer cell.
Assignment Macros
=================
Name Description
---- ----------
SPICE_CELL_SET_C( item, i, cell ) Assign the ith
element of a
character cell.
Arguments cell
and item are
pointers.
SPICE_CELL_SET_D( item, i, cell ) Assign the ith
element of a
double precision
cell. Argument
cell is a
pointer.
SPICE_CELL_SET_I( item, i, cell ) Assign the ith
element of an
integer cell.
Argument cell is
a pointer.
Fetch Macros
==============
Name Description
---- ----------
SPICE_CELL_GET_C( cell, i, lenout, item ) Fetch the ith
element from a
character cell.
Arguments cell
and item are
pointers.
Argument lenout
is the available
space in item.
SPICE_CELL_GET_D( cell, i, item ) Fetch the ith
element from a
double precision
cell. Arguments
cell and item are
pointers.
SPICE_CELL_GET_I( cell, i, item ) Fetch the ith
element from an
integer cell.
Arguments cell
and item are
pointers.
Element Pointer Macros
======================
Name Description
---- ----------
SPICE_CELL_ELEM_C( cell, i ) Macro evaluates
to a SpiceChar
pointer to the
ith data element
of a character
cell. Argument
cell is a
pointer.
SPICE_CELL_ELEM_D( cell, i ) Macro evaluates
to a SpiceDouble
pointer to the
ith data element
of a double
precision cell.
Argument cell is
a pointer.
SPICE_CELL_ELEM_I( cell, i ) Macro evaluates
to a SpiceInt
pointer to the
ith data element
of an integer
cell. Argument
cell is a
pointer.
-Literature_References
None.
-Author_and_Institution
N.J. Bachman (JPL)
-Restrictions
None.
-Version
-CSPICE Version 1.0.0, 22-AUG-2002 (NJB)
*/
#ifndef HAVE_SPICE_CELLS_H
#define HAVE_SPICE_CELLS_H
/*
Data type codes:
*/
typedef enum _SpiceDataType SpiceCellDataType;
/*
Cell structure:
*/
struct _SpiceCell
{ SpiceCellDataType dtype;
SpiceInt length;
SpiceInt size;
SpiceInt card;
SpiceBoolean isSet;
SpiceBoolean adjust;
SpiceBoolean init;
void * base;
void * data; };
typedef struct _SpiceCell SpiceCell;
typedef const SpiceCell ConstSpiceCell;
/*
SpiceCell control area size:
*/
#define SPICE_CELL_CTRLSZ 6
/*
Declaration macros:
*/
#define SPICECHAR_CELL( name, size, length ) \
\
static SpiceChar SPICE_CELL_##name[SPICE_CELL_CTRLSZ + size][length]; \
\
static SpiceCell name = \
\
{ SPICE_CHR, \
length, \
size, \
0, \
SPICETRUE, \
SPICEFALSE, \
SPICEFALSE, \
(void *) &(SPICE_CELL_##name), \
(void *) &(SPICE_CELL_##name[SPICE_CELL_CTRLSZ]) }
#define SPICEDOUBLE_CELL( name, size ) \
\
static SpiceDouble SPICE_CELL_##name [SPICE_CELL_CTRLSZ + size]; \
\
static SpiceCell name = \
\
{ SPICE_DP, \
0, \
size, \
0, \
SPICETRUE, \
SPICEFALSE, \
SPICEFALSE, \
(void *) &(SPICE_CELL_##name), \
(void *) &(SPICE_CELL_##name[SPICE_CELL_CTRLSZ]) }
#define SPICEINT_CELL( name, size ) \
\
static SpiceInt SPICE_CELL_##name [SPICE_CELL_CTRLSZ + size]; \
\
static SpiceCell name = \
\
{ SPICE_INT, \
0, \
size, \
0, \
SPICETRUE, \
SPICEFALSE, \
SPICEFALSE, \
(void *) &(SPICE_CELL_##name), \
(void *) &(SPICE_CELL_##name[SPICE_CELL_CTRLSZ]) }
/*
Access macros for individual elements:
*/
/*
Data element pointer macros:
*/
#define SPICE_CELL_ELEM_C( cell, i ) \
\
( ( (SpiceChar *) (cell)->data ) + (i)*( (cell)->length ) )
#define SPICE_CELL_ELEM_D( cell, i ) \
\
( ( (SpiceDouble *) (cell)->data )[(i)] )
#define SPICE_CELL_ELEM_I( cell, i ) \
\
( ( (SpiceInt *) (cell)->data )[(i)] )
/*
"Fetch" macros:
*/
#define SPICE_CELL_GET_C( cell, i, lenout, item ) \
\
{ \
SpiceInt nBytes; \
\
nBytes = brckti_c ( (cell)->length, 0, (lenout-1) ) \
* sizeof ( SpiceChar ); \
\
memmove ( (item), SPICE_CELL_ELEM_C((cell), (i)), nBytes ); \
\
item[nBytes] = NULLCHAR; \
}
#define SPICE_CELL_GET_D( cell, i, item ) \
\
( (*item) = ( (SpiceDouble *) (cell)->data)[i] )
#define SPICE_CELL_GET_I( cell, i, item ) \
\
( (*item) = ( (SpiceInt *) (cell)->data)[i] )
/*
Assignment macros:
*/
#define SPICE_CELL_SET_C( item, i, cell ) \
\
{ \
SpiceChar * sPtr; \
SpiceInt nBytes; \
\
nBytes = brckti_c ( strlen(item), 0, (cell)->length - 1 ) \
* sizeof ( SpiceChar ); \
\
sPtr = SPICE_CELL_ELEM_C((cell), (i)); \
\
memmove ( sPtr, (item), nBytes ); \
\
sPtr[nBytes] = NULLCHAR; \
}
#define SPICE_CELL_SET_D( item, i, cell ) \
\
( ( (SpiceDouble *) (cell)->data)[i] = (item) )
#define SPICE_CELL_SET_I( item, i, cell ) \
\
( ( (SpiceInt *) (cell)->data)[i] = (item) )
/*
The enum SpiceTransDir is used to indicate language translation
direction: C to Fortran or vice versa.
*/
enum _SpiceTransDir { C2F = 0, F2C = 1 };
typedef enum _SpiceTransDir SpiceTransDir;
#endif

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/*
-Header_File SpiceEK.h ( CSPICE EK-specific definitions )
-Abstract
Perform CSPICE EK-specific definitions, including macros and user-
defined types.
-Disclaimer
THIS SOFTWARE AND ANY RELATED MATERIALS WERE CREATED BY THE
CALIFORNIA INSTITUTE OF TECHNOLOGY (CALTECH) UNDER A U.S.
GOVERNMENT CONTRACT WITH THE NATIONAL AERONAUTICS AND SPACE
ADMINISTRATION (NASA). THE SOFTWARE IS TECHNOLOGY AND SOFTWARE
PUBLICLY AVAILABLE UNDER U.S. EXPORT LAWS AND IS PROVIDED "AS-IS"
TO THE RECIPIENT WITHOUT WARRANTY OF ANY KIND, INCLUDING ANY
WARRANTIES OF PERFORMANCE OR MERCHANTABILITY OR FITNESS FOR A
PARTICULAR USE OR PURPOSE (AS SET FORTH IN UNITED STATES UCC
SECTIONS 2312-2313) OR FOR ANY PURPOSE WHATSOEVER, FOR THE
SOFTWARE AND RELATED MATERIALS, HOWEVER USED.
IN NO EVENT SHALL CALTECH, ITS JET PROPULSION LABORATORY, OR NASA
BE LIABLE FOR ANY DAMAGES AND/OR COSTS, INCLUDING, BUT NOT
LIMITED TO, INCIDENTAL OR CONSEQUENTIAL DAMAGES OF ANY KIND,
INCLUDING ECONOMIC DAMAGE OR INJURY TO PROPERTY AND LOST PROFITS,
REGARDLESS OF WHETHER CALTECH, JPL, OR NASA BE ADVISED, HAVE
REASON TO KNOW, OR, IN FACT, SHALL KNOW OF THE POSSIBILITY.
RECIPIENT BEARS ALL RISK RELATING TO QUALITY AND PERFORMANCE OF
THE SOFTWARE AND ANY RELATED MATERIALS, AND AGREES TO INDEMNIFY
CALTECH AND NASA FOR ALL THIRD-PARTY CLAIMS RESULTING FROM THE
ACTIONS OF RECIPIENT IN THE USE OF THE SOFTWARE.
-Required_Reading
None.
-Particulars
This header defines macros, enumerated types, structures, and
typedefs that may be referenced in application code that calls CSPICE
EK functions.
Macros
======
General limits
--------------
Name Description
---- ----------
SPICE_EK_MXCLSG Maximum number of columns per segment.
SPICE_EK_TYPLEN Maximum length of a short string
indicating a data type (one of
{"CHR", "DP", "INT", "TIME"}). Such
strings are returned by some of the
Fortran SPICELIB EK routines, hence also
by their f2c'd counterparts.
Sizes of EK objects
-------------------
Name Description
---- ----------
SPICE_EK_CNAMSZ Maximum length of column name.
SPICE_EK_CSTRLN Length of string required to hold column
name.
SPICE_EK_TNAMSZ Maximum length of table name.
SPICE_EK_TSTRLN Length of string required to hold table
name.
Query-related limits
--------------------
Name Description
---- ----------
SPICE_EK_MAXQRY Maximum length of an input query. This
value is currently equivalent to
twenty-five 80-character lines.
SPICE_EK_MAXQSEL Maximum number of columns that may be
listed in the `SELECT clause' of a query.
SPICE_EK_MAXQTAB Maximum number of tables that may be
listed in the `FROM clause' of a query.
SPICE_EK_MAXQCON Maximum number of relational expressions
that may be listed in the `constraint
clause' of a query.
This limit applies to a query when it is
represented in `normalized form': that
is, the constraints have been expressed
as a disjunction of conjunctions of
relational expressions. The number of
relational expressions in a query that
has been expanded in this fashion may be
greater than the number of relations in
the query as orginally written. For
example, the expression
( ( A LT 1 ) OR ( B GT 2 ) )
AND
( ( C NE 3 ) OR ( D EQ 4 ) )
which contains 4 relational expressions,
expands to the equivalent normalized
constraint
( ( A LT 1 ) AND ( C NE 3 ) )
OR
( ( A LT 1 ) AND ( D EQ 4 ) )
OR
( ( B GT 2 ) AND ( C NE 3 ) )
OR
( ( B GT 2 ) AND ( D EQ 4 ) )
which contains eight relational
expressions.
SPICE_EK_MAXQJOIN Maximum number of tables that can be
joined.
SPICE_EK_MAXQJCON Maximum number of join constraints
allowed.
SPICE_EK_MAXQORD Maximum number of columns that may be
used in the `order-by clause' of a query.
SPICE_EK_MAXQTOK Maximum number of tokens in a query.
Tokens
are reserved words, column names,
parentheses, and values. Literal strings
and time values count as single tokens.
SPICE_EK_MAXQNUM Maximum number of numeric tokens in a
query.
SPICE_EK_MAXQCLN Maximum total length of character tokens
in a query.
SPICE_EK_MAXQSTR Maximum length of literal string values
allowed in queries.
Codes
-----
Name Description
---- ----------
SPICE_EK_VARSIZ Code used to indicate variable-size
objects. Usually this is used in a
context where a non-negative integer
indicates the size of a fixed-size object
and the presence of this code indicates a
variable-size object.
The value of this constant must match the
parameter IFALSE used in the Fortran
library SPICELIB.
Enumerated Types
================
Enumerated code values
----------------------
Name Description
---- ----------
SpiceEKDataType Codes for data types used in the EK
interface: character, double precision,
integer, and "time."
The values are:
{ SPICE_CHR = 0,
SPICE_DP = 1,
SPICE_INT = 2,
SPICE_TIME = 3 }
SpiceEKExprClass Codes for types of expressions that may
appear in the SELECT clause of EK
queries. Values and meanings are:
SPICE_EK_EXP_COL Selected item was a
column. The column
may qualified by a
table name.
SPICE_EK_EXP_FUNC Selected item was
a simple function
invocation of the
form
F ( <column> )
or else was
COUNT(*)
SPICE_EK_EXP_EXPR Selected item was a
more general
expression than
those shown above.
Numeric values are:
{ SPICE_EK_EXP_COL = 0,
SPICE_EK_EXP_FUNC = 1,
SPICE_EK_EXP_EXPR = 2 }
Structures
==========
EK API structures
-----------------
Name Description
---- ----------
SpiceEKAttDsc EK column attribute descriptor. Note
that this object is distinct from the EK
column descriptors used internally in
the EK routines; those descriptors
contain pointers as well as attribute
information.
The members are:
cclass: Column class code.
dtype: Data type code: has type
SpiceEKDataType.
strlen: String length. Applies to
SPICE_CHR type. Value is
SPICE_EK_VARSIZ for
variable-length strings.
size: Column entry size; this is
the number of array
elements in a column
entry. The value is
SPICE_EK_VARSIZ for
variable-size columns.
indexd: Index flag; value is
SPICETRUE if the column is
indexed, SPICEFALSE
otherwise.
nullok: Null flag; value is
SPICETRUE if the column
may contain null values,
SPICEFALSE otherwise.
SpiceEKSegSum EK segment summary. This structure
contains user interface level descriptive
information. The structure contains the
following members:
tabnam The name of the table to
which the segment belongs.
nrows The number of rows in the
segment.
ncols The number of columns in
the segment.
cnames An array of names of
columns in the segment.
Column names may contain
as many as SPICE_EK_CNAMSZ
characters. The array
contains room for
SPICE_EK_MXCLSG column
names.
cdescrs An array of column
attribute descriptors of
type SpiceEKAttDsc.
The array contains room
for SPICE_EK_MXCLSG
descriptors. The Ith
descriptor corresponds to
the column whose name is
the Ith element of the
array cnames.
-Literature_References
None.
-Author_and_Institution
N.J. Bachman (JPL)
-Restrictions
None.
-Version
-CSPICE Version 2.0.0 27-JUL-2002 (NJB)
Defined SpiceEKDataType using SpiceDataType. Removed declaration
of enum _SpiceEKDataType.
-CSPICE Version 1.0.0, 05-JUL-1999 (NJB)
Renamed _SpiceEKAttDsc member "class" to "cclass." The
former name is a reserved word in C++.
-CSPICE Version 1.0.0, 24-FEB-1999 (NJB)
*/
#ifndef HAVE_SPICE_EK_H
#define HAVE_SPICE_EK_H
/*
Constants
*/
/*
Sizes of EK objects:
*/
#define SPICE_EK_CNAMSZ 32
#define SPICE_EK_CSTRLN ( SPICE_EK_CNAMSZ + 1 )
#define SPICE_EK_TNAMSZ 64
#define SPICE_EK_TSTRLN ( SPICE_EK_TNAMSZ + 1 )
/*
Maximum number of columns per segment:
*/
#define SPICE_EK_MXCLSG 100
/*
Maximum length of string indicating data type:
*/
#define SPICE_EK_TYPLEN 4
/*
Query-related limits (see header for details):
*/
#define SPICE_EK_MAXQRY 2000
#define SPICE_EK_MAXQSEL 50
#define SPICE_EK_MAXQTAB 10
#define SPICE_EK_MAXQCON 1000
#define SPICE_EK_MAXQJOIN 10
#define SPICE_EK_MAXQJCON 100
#define SPICE_EK_MAXQORD 10
#define SPICE_EK_MAXQTOK 500
#define SPICE_EK_MAXQNUM 100
#define SPICE_EK_MAXQCLN SPICE_EK_MAXQRY
#define SPICE_EK_MAXQSTR 1024
/*
Code indicating "variable size":
*/
#define SPICE_EK_VARSIZ (-1)
/*
Data type codes:
*/
typedef SpiceDataType SpiceEKDataType;
/*
SELECT clause expression type codes:
*/
enum _SpiceEKExprClass{ SPICE_EK_EXP_COL = 0,
SPICE_EK_EXP_FUNC = 1,
SPICE_EK_EXP_EXPR = 2 };
typedef enum _SpiceEKExprClass SpiceEKExprClass;
/*
EK column attribute descriptor:
*/
struct _SpiceEKAttDsc
{ SpiceInt cclass;
SpiceEKDataType dtype;
SpiceInt strlen;
SpiceInt size;
SpiceBoolean indexd;
SpiceBoolean nullok; };
typedef struct _SpiceEKAttDsc SpiceEKAttDsc;
/*
EK segment summary:
*/
struct _SpiceEKSegSum
{ SpiceChar tabnam [SPICE_EK_TSTRLN];
SpiceInt nrows;
SpiceInt ncols;
SpiceChar cnames [SPICE_EK_MXCLSG][SPICE_EK_CSTRLN];
SpiceEKAttDsc cdescrs[SPICE_EK_MXCLSG]; };
typedef struct _SpiceEKSegSum SpiceEKSegSum;
#endif

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/*
-Header_File SpiceEll.h ( CSPICE Ellipse definitions )
-Abstract
Perform CSPICE definitions for the SpiceEllipse data type.
-Disclaimer
THIS SOFTWARE AND ANY RELATED MATERIALS WERE CREATED BY THE
CALIFORNIA INSTITUTE OF TECHNOLOGY (CALTECH) UNDER A U.S.
GOVERNMENT CONTRACT WITH THE NATIONAL AERONAUTICS AND SPACE
ADMINISTRATION (NASA). THE SOFTWARE IS TECHNOLOGY AND SOFTWARE
PUBLICLY AVAILABLE UNDER U.S. EXPORT LAWS AND IS PROVIDED "AS-IS"
TO THE RECIPIENT WITHOUT WARRANTY OF ANY KIND, INCLUDING ANY
WARRANTIES OF PERFORMANCE OR MERCHANTABILITY OR FITNESS FOR A
PARTICULAR USE OR PURPOSE (AS SET FORTH IN UNITED STATES UCC
SECTIONS 2312-2313) OR FOR ANY PURPOSE WHATSOEVER, FOR THE
SOFTWARE AND RELATED MATERIALS, HOWEVER USED.
IN NO EVENT SHALL CALTECH, ITS JET PROPULSION LABORATORY, OR NASA
BE LIABLE FOR ANY DAMAGES AND/OR COSTS, INCLUDING, BUT NOT
LIMITED TO, INCIDENTAL OR CONSEQUENTIAL DAMAGES OF ANY KIND,
INCLUDING ECONOMIC DAMAGE OR INJURY TO PROPERTY AND LOST PROFITS,
REGARDLESS OF WHETHER CALTECH, JPL, OR NASA BE ADVISED, HAVE
REASON TO KNOW, OR, IN FACT, SHALL KNOW OF THE POSSIBILITY.
RECIPIENT BEARS ALL RISK RELATING TO QUALITY AND PERFORMANCE OF
THE SOFTWARE AND ANY RELATED MATERIALS, AND AGREES TO INDEMNIFY
CALTECH AND NASA FOR ALL THIRD-PARTY CLAIMS RESULTING FROM THE
ACTIONS OF RECIPIENT IN THE USE OF THE SOFTWARE.
-Required_Reading
None.
-Particulars
This header defines structures and typedefs that may be referenced in
application code that calls CSPICE Ellipse functions.
Structures
==========
Name Description
---- ----------
SpiceEllipse Structure representing an ellipse in 3-
dimensional space.
The members are:
center: Vector defining ellipse's
center.
semiMajor: Vector defining ellipse's
semi-major axis.
semiMinor: Vector defining ellipse's
semi-minor axis.
The ellipse is the set of points
{X: X = center
+ cos(theta) * semiMajor
+ sin(theta) * semiMinor,
theta in [0, 2*Pi) }
ConstSpiceEllipse A const SpiceEllipse.
-Literature_References
None.
-Author_and_Institution
N.J. Bachman (JPL)
-Restrictions
None.
-Version
-CSPICE Version 1.0.0, 04-MAR-1999 (NJB)
*/
#ifndef HAVE_SPICE_ELLIPSES
#define HAVE_SPICE_ELLIPSES
/*
Ellipse structure:
*/
struct _SpiceEllipse
{ SpiceDouble center [3];
SpiceDouble semiMajor [3];
SpiceDouble semiMinor [3]; };
typedef struct _SpiceEllipse SpiceEllipse;
typedef const SpiceEllipse ConstSpiceEllipse;
#endif

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/*
-Header_File SpiceGF.h ( CSPICE GF-specific definitions )
-Abstract
Perform CSPICE GF-specific definitions.
-Disclaimer
THIS SOFTWARE AND ANY RELATED MATERIALS WERE CREATED BY THE
CALIFORNIA INSTITUTE OF TECHNOLOGY (CALTECH) UNDER A U.S.
GOVERNMENT CONTRACT WITH THE NATIONAL AERONAUTICS AND SPACE
ADMINISTRATION (NASA). THE SOFTWARE IS TECHNOLOGY AND SOFTWARE
PUBLICLY AVAILABLE UNDER U.S. EXPORT LAWS AND IS PROVIDED "AS-IS"
TO THE RECIPIENT WITHOUT WARRANTY OF ANY KIND, INCLUDING ANY
WARRANTIES OF PERFORMANCE OR MERCHANTABILITY OR FITNESS FOR A
PARTICULAR USE OR PURPOSE (AS SET FORTH IN UNITED STATES UCC
SECTIONS 2312-2313) OR FOR ANY PURPOSE WHATSOEVER, FOR THE
SOFTWARE AND RELATED MATERIALS, HOWEVER USED.
IN NO EVENT SHALL CALTECH, ITS JET PROPULSION LABORATORY, OR NASA
BE LIABLE FOR ANY DAMAGES AND/OR COSTS, INCLUDING, BUT NOT
LIMITED TO, INCIDENTAL OR CONSEQUENTIAL DAMAGES OF ANY KIND,
INCLUDING ECONOMIC DAMAGE OR INJURY TO PROPERTY AND LOST PROFITS,
REGARDLESS OF WHETHER CALTECH, JPL, OR NASA BE ADVISED, HAVE
REASON TO KNOW, OR, IN FACT, SHALL KNOW OF THE POSSIBILITY.
RECIPIENT BEARS ALL RISK RELATING TO QUALITY AND PERFORMANCE OF
THE SOFTWARE AND ANY RELATED MATERIALS, AND AGREES TO INDEMNIFY
CALTECH AND NASA FOR ALL THIRD-PARTY CLAIMS RESULTING FROM THE
ACTIONS OF RECIPIENT IN THE USE OF THE SOFTWARE.
-Required_Reading
GF
-Keywords
GEOMETRY
SEARCH
-Exceptions
None
-Files
None
-Particulars
This header defines macros that may be referenced in application
code that calls CSPICE GF functions.
Macros
======
Workspace parameters
--------------------
CSPICE applications normally don't declare workspace arguments
and therefore don't directly reference workspace size parameters.
However, CSPICE GF APIs dealing with numeric constraints
dynamically allocate workspace memory; the amount allocated
depends on the number of intervals the workspace windows can
hold. This amount is an input argument to the GF numeric quantity
APIs.
The parameters below are used to calculate the amount of memory
required. Each workspace window contains 6 double precision
numbers in its control area and 2 double precision numbers for
each interval it can hold.
Name Description
---- ----------
SPICE_GF_NWMAX Maximum number of windows required for
a user-defined workspace array.
SPICE_GF_NWDIST Number of workspace windows used by
gfdist_c and the underlying SPICELIB
routine GFDIST.
SPICE_GF_NWSEP Number of workspace windows used by
gfsep_c and the underlying SPICELIB
routine GFSEP.
Field of view (FOV) parameters
------------------------------
Name Description
---- ----------
SPICE_GF_MAXVRT Maximum allowed number of boundary
vectors for a polygonal FOV.
SPICE_GF_CIRFOV Parameter identifying a circular FOV.
SPICE_GF_ELLFOV Parameter identifying a elliptical FOV.
SPICE_GF_POLFOV Parameter identifying a polygonal FOV.
SPICE_GF_RECFOV Parameter identifying a rectangular FOV.
SPICE_GF_SHPLEN Parameter specifying maximum length of
a FOV shape name.
SPICE_GF_MARGIN is a small positive number used to
constrain the orientation of the
boundary vectors of polygonal FOVs. Such
FOVs must satisfy the following
constraints:
1) The boundary vectors must be
contained within a right circular
cone of angular radius less than
than (pi/2) - MARGIN radians; in
other words, there must be a vector
A such that all boundary vectors
have angular separation from A of
less than (pi/2)-MARGIN radians.
2) There must be a pair of boundary
vectors U, V such that all other
boundary vectors lie in the same
half space bounded by the plane
containing U and V. Furthermore, all
other boundary vectors must have
orthogonal projections onto a plane
normal to this plane such that the
projections have angular separation
of at least 2*MARGIN radians from
the plane spanned by U and V.
MARGIN is currently set to 1.D-12.
Occultation parameters
----------------------
SPICE_GF_ANNULR Parameter identifying an "annular
occultation." This geometric condition
is more commonly known as a "transit."
The limb of the background object must
not be blocked by the foreground object
in order for an occultation to be
"annular."
SPICE_GF_ANY Parameter identifying any type of
occultation or transit.
SPICE_GF_FULL Parameter identifying a full
occultation: the foreground body
entirely blocks the background body.
SPICE_GF_PARTL Parameter identifying an "partial
occultation." This is an occultation in
which the foreground body blocks part,
but not all, of the limb of the
background body.
Target shape parameters
-----------------------
SPICE_GF_EDSHAP Parameter indicating a target object's
shape is modeled as an ellipsoid.
SPICE_GF_PTSHAP Parameter indicating a target object's
shape is modeled as a point.
SPICE_GF_RYSHAP Parameter indicating a target object's
"shape" is modeled as a ray emanating
from an observer's location. This model
may be used in visibility computations
for targets whose direction, but not
position, relative to an observer is
known.
SPICE_GF_SPSHAP Parameter indicating a target object's
shape is modeled as a point.
Search parameters
-----------------
These parameters affect the manner in which GF searches are
performed.
SPICE_GF_ADDWIN is a parameter used in numeric quantity
searches that use an equality
constraint. This parameter is used to
expand the confinement window (the
window over which the search is
performed) by a small amount at both
ends. This expansion accommodates the
case where a geometric quantity is equal
to a reference value at a boundary point
of the original confinement window.
SPICE_GF_CNVTOL is the default convergence tolerance
used by GF routines that don't support a
user-supplied tolerance value. GF
searches for roots will terminate when a
root is bracketed by times separated by
no more than this tolerance. Units are
seconds.
Configuration parameter
-----------------------
SPICE_GFEVNT_MAXPAR Parameter indicating the maximum number of
elements needed for the 'qnames' and 'q*pars'
arrays used in gfevnt_c.
SpiceChar qcpars[SPICE_GFEVNT_MAXPAR][LNSIZE];
SpiceDouble qdpars[SPICE_GFEVNT_MAXPAR];
SpiceInt qipars[SPICE_GFEVNT_MAXPAR];
SpiceBoolean qlpars[SPICE_GFEVNT_MAXPAR];
-Examples
None
-Restrictions
None.
-Literature_References
None.
-Author_and_Institution
N.J. Bachman (JPL)
L.S. Elson (JPL)
-Version
-CSPICE Version 2.0.0, 23-JUN-2009 (NJB)
Added parameter for maximum length of FOV shape string.
-CSPICE Version 1.0.0, 11-MAR-2009 (NJB)
*/
#ifndef HAVE_SPICE_GF_H
#define HAVE_SPICE_GF_H
/*
See the Particulars section above for parameter descriptions.
*/
/*
Workspace parameters
*/
#define SPICE_GF_NWMAX 15
#define SPICE_GF_NWDIST 5
#define SPICE_GF_NWSEP 5
/*
Field of view (FOV) parameters
*/
#define SPICE_GF_MAXVRT 10000
#define SPICE_GF_CIRFOV "CIRCLE"
#define SPICE_GF_ELLFOV "ELLIPSE"
#define SPICE_GF_POLFOV "POLYGON"
#define SPICE_GF_RECFOV "RECTANGLE"
#define SPICE_GF_SHPLEN 10
#define SPICE_GF_MARGIN ( 1.e-12 )
/*
Occultation parameters
*/
#define SPICE_GF_ANNULR "ANNULAR"
#define SPICE_GF_ANY "ANY"
#define SPICE_GF_FULL "FULL"
#define SPICE_GF_PARTL "PARTIAL"
/*
Target shape parameters
*/
#define SPICE_GF_EDSHAP "ELLIPSOID"
#define SPICE_GF_PTSHAP "POINT"
#define SPICE_GF_RYSHAP "RAY"
#define SPICE_GF_SPSHAP "SPHERE"
/*
Search parameters
*/
#define SPICE_GF_ADDWIN 1.0
#define SPICE_GF_CNVTOL 1.e-6
/*
Configuration parameters.
*/
#define SPICE_GFEVNT_MAXPAR 10
#endif
/*
End of header file SpiceGF.h
*/

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/*
-Header_File SpicePln.h ( CSPICE Plane definitions )
-Abstract
Perform CSPICE definitions for the SpicePlane data type.
-Disclaimer
THIS SOFTWARE AND ANY RELATED MATERIALS WERE CREATED BY THE
CALIFORNIA INSTITUTE OF TECHNOLOGY (CALTECH) UNDER A U.S.
GOVERNMENT CONTRACT WITH THE NATIONAL AERONAUTICS AND SPACE
ADMINISTRATION (NASA). THE SOFTWARE IS TECHNOLOGY AND SOFTWARE
PUBLICLY AVAILABLE UNDER U.S. EXPORT LAWS AND IS PROVIDED "AS-IS"
TO THE RECIPIENT WITHOUT WARRANTY OF ANY KIND, INCLUDING ANY
WARRANTIES OF PERFORMANCE OR MERCHANTABILITY OR FITNESS FOR A
PARTICULAR USE OR PURPOSE (AS SET FORTH IN UNITED STATES UCC
SECTIONS 2312-2313) OR FOR ANY PURPOSE WHATSOEVER, FOR THE
SOFTWARE AND RELATED MATERIALS, HOWEVER USED.
IN NO EVENT SHALL CALTECH, ITS JET PROPULSION LABORATORY, OR NASA
BE LIABLE FOR ANY DAMAGES AND/OR COSTS, INCLUDING, BUT NOT
LIMITED TO, INCIDENTAL OR CONSEQUENTIAL DAMAGES OF ANY KIND,
INCLUDING ECONOMIC DAMAGE OR INJURY TO PROPERTY AND LOST PROFITS,
REGARDLESS OF WHETHER CALTECH, JPL, OR NASA BE ADVISED, HAVE
REASON TO KNOW, OR, IN FACT, SHALL KNOW OF THE POSSIBILITY.
RECIPIENT BEARS ALL RISK RELATING TO QUALITY AND PERFORMANCE OF
THE SOFTWARE AND ANY RELATED MATERIALS, AND AGREES TO INDEMNIFY
CALTECH AND NASA FOR ALL THIRD-PARTY CLAIMS RESULTING FROM THE
ACTIONS OF RECIPIENT IN THE USE OF THE SOFTWARE.
-Required_Reading
None.
-Particulars
This header defines structures and typedefs that may be referenced in
application code that calls CSPICE Plane functions.
Structures
==========
Name Description
---- ----------
SpicePlane Structure representing a plane in 3-
dimensional space.
The members are:
normal: Vector normal to plane.
constant: Constant of plane equation
Plane =
{X: <normal,X> = constant}
ConstSpicePlane A const SpicePlane.
-Literature_References
None.
-Author_and_Institution
N.J. Bachman (JPL)
-Restrictions
None.
-Version
-CSPICE Version 1.0.0, 04-MAR-1999 (NJB)
*/
#ifndef HAVE_SPICE_PLANES
#define HAVE_SPICE_PLANES
/*
Plane structure:
*/
struct _SpicePlane
{ SpiceDouble normal [3];
SpiceDouble constant; };
typedef struct _SpicePlane SpicePlane;
typedef const SpicePlane ConstSpicePlane;
#endif

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/*
-Header_File SpiceSPK.h ( CSPICE SPK definitions )
-Abstract
Perform CSPICE definitions to support SPK wrapper interfaces.
-Disclaimer
THIS SOFTWARE AND ANY RELATED MATERIALS WERE CREATED BY THE
CALIFORNIA INSTITUTE OF TECHNOLOGY (CALTECH) UNDER A U.S.
GOVERNMENT CONTRACT WITH THE NATIONAL AERONAUTICS AND SPACE
ADMINISTRATION (NASA). THE SOFTWARE IS TECHNOLOGY AND SOFTWARE
PUBLICLY AVAILABLE UNDER U.S. EXPORT LAWS AND IS PROVIDED "AS-IS"
TO THE RECIPIENT WITHOUT WARRANTY OF ANY KIND, INCLUDING ANY
WARRANTIES OF PERFORMANCE OR MERCHANTABILITY OR FITNESS FOR A
PARTICULAR USE OR PURPOSE (AS SET FORTH IN UNITED STATES UCC
SECTIONS 2312-2313) OR FOR ANY PURPOSE WHATSOEVER, FOR THE
SOFTWARE AND RELATED MATERIALS, HOWEVER USED.
IN NO EVENT SHALL CALTECH, ITS JET PROPULSION LABORATORY, OR NASA
BE LIABLE FOR ANY DAMAGES AND/OR COSTS, INCLUDING, BUT NOT
LIMITED TO, INCIDENTAL OR CONSEQUENTIAL DAMAGES OF ANY KIND,
INCLUDING ECONOMIC DAMAGE OR INJURY TO PROPERTY AND LOST PROFITS,
REGARDLESS OF WHETHER CALTECH, JPL, OR NASA BE ADVISED, HAVE
REASON TO KNOW, OR, IN FACT, SHALL KNOW OF THE POSSIBILITY.
RECIPIENT BEARS ALL RISK RELATING TO QUALITY AND PERFORMANCE OF
THE SOFTWARE AND ANY RELATED MATERIALS, AND AGREES TO INDEMNIFY
CALTECH AND NASA FOR ALL THIRD-PARTY CLAIMS RESULTING FROM THE
ACTIONS OF RECIPIENT IN THE USE OF THE SOFTWARE.
-Required_Reading
None.
-Particulars
This header defines types that may be referenced in
application code that calls CSPICE SPK functions.
Typedef
=======
Name Description
---- ----------
SpiceSPK18Subtype Typedef for enum indicating the
mathematical representation used
in an SPK type 18 segment. Possible
values and meanings are:
S18TP0:
Hermite interpolation, 12-
element packets containing
x, y, z, dx/dt, dy/dt, dz/dt,
vx, vy, vz, dvx/dt, dvy/dt, dvz/dt
where x, y, z represent Cartesian
position components and vx, vy, vz
represent Cartesian velocity
components. Note well: vx, vy, and
vz *are not necessarily equal* to the
time derivatives of x, y, and z.
This packet structure mimics that of
the Rosetta/MEX orbit file from which
the data are taken.
Position units are kilometers,
velocity units are kilometers per
second, and acceleration units are
kilometers per second per second.
S18TP1:
Lagrange interpolation, 6-
element packets containing
x, y, z, dx/dt, dy/dt, dz/dt
where x, y, z represent Cartesian
position components and vx, vy, vz
represent Cartesian velocity
components.
Position units are kilometers;
velocity units are kilometers per
second.
-Literature_References
None.
-Author_and_Institution
N.J. Bachman (JPL)
-Restrictions
None.
-Version
-CSPICE Version 1.0.0, 16-AUG-2002 (NJB)
*/
#ifndef HAVE_SPICE_SPK_H
#define HAVE_SPICE_SPK_H
/*
SPK type 18 subtype codes:
*/
enum _SpiceSPK18Subtype { S18TP0, S18TP1 };
typedef enum _SpiceSPK18Subtype SpiceSPK18Subtype;
#endif

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/*
-Header_File SpiceUsr.h ( CSPICE user interface definitions )
-Abstract
Perform CSPICE user interface declarations, including type
definitions and function prototype declarations.
-Disclaimer
THIS SOFTWARE AND ANY RELATED MATERIALS WERE CREATED BY THE
CALIFORNIA INSTITUTE OF TECHNOLOGY (CALTECH) UNDER A U.S.
GOVERNMENT CONTRACT WITH THE NATIONAL AERONAUTICS AND SPACE
ADMINISTRATION (NASA). THE SOFTWARE IS TECHNOLOGY AND SOFTWARE
PUBLICLY AVAILABLE UNDER U.S. EXPORT LAWS AND IS PROVIDED "AS-IS"
TO THE RECIPIENT WITHOUT WARRANTY OF ANY KIND, INCLUDING ANY
WARRANTIES OF PERFORMANCE OR MERCHANTABILITY OR FITNESS FOR A
PARTICULAR USE OR PURPOSE (AS SET FORTH IN UNITED STATES UCC
SECTIONS 2312-2313) OR FOR ANY PURPOSE WHATSOEVER, FOR THE
SOFTWARE AND RELATED MATERIALS, HOWEVER USED.
IN NO EVENT SHALL CALTECH, ITS JET PROPULSION LABORATORY, OR NASA
BE LIABLE FOR ANY DAMAGES AND/OR COSTS, INCLUDING, BUT NOT
LIMITED TO, INCIDENTAL OR CONSEQUENTIAL DAMAGES OF ANY KIND,
INCLUDING ECONOMIC DAMAGE OR INJURY TO PROPERTY AND LOST PROFITS,
REGARDLESS OF WHETHER CALTECH, JPL, OR NASA BE ADVISED, HAVE
REASON TO KNOW, OR, IN FACT, SHALL KNOW OF THE POSSIBILITY.
RECIPIENT BEARS ALL RISK RELATING TO QUALITY AND PERFORMANCE OF
THE SOFTWARE AND ANY RELATED MATERIALS, AND AGREES TO INDEMNIFY
CALTECH AND NASA FOR ALL THIRD-PARTY CLAIMS RESULTING FROM THE
ACTIONS OF RECIPIENT IN THE USE OF THE SOFTWARE.
-Required_Reading
None.
-Particulars
This file is an umbrella header that includes all header files
required to support the CSPICE application programming interface
(API). Users' application code that calls CSPICE need include only
this single header file. This file includes function prototypes for
the entire set of CSPICE routines. Typedef statements used to create
SPICE data types are also included.
About SPICE data types
======================
To assist with long-term maintainability of CSPICE, NAIF has elected
to use typedefs to represent data types occurring in argument lists
and as return values of CSPICE functions. These are:
SpiceBoolean
SpiceChar
SpiceDouble
SpiceInt
ConstSpiceBoolean
ConstSpiceChar
ConstSpiceDouble
ConstSpiceInt
The SPICE typedefs map in an arguably natural way to ANSI C types:
SpiceBoolean -> enum { SPICEFALSE = 0, SPICETRUE = 1 }
SpiceChar -> char
SpiceDouble -> double
SpiceInt -> int or long
ConstX -> const X (X = any of the above types)
The type SpiceInt is a special case: the corresponding type is picked
so as to be half the size of a double. On all currently supported
platforms, type double occupies 8 bytes and type int occupies 4
bytes. Other platforms may require a SpiceInt to map to type long.
While other data types may be used internally in CSPICE, no other
types appear in the API.
About CSPICE function prototypes
================================
Because CSPICE function prototypes enable substantial
compile-time error checking, we recommend that user
applications always reference them. Including the header
file SpiceUsr.h in any module that calls CSPICE will
automatically make the prototypes available.
About CSPICE C style
====================
CSPICE is written in ANSI C. No attempt has been made to support K&R
conventions or restrictions.
About C++ compatibility
=======================
The preprocessor directive -D__cplusplus should be used when
compiling C++ source code that includes this header file. This
directive will suppress mangling of CSPICE names, permitting linkage
to a CSPICE object library built from object modules produced by
an ANSI C compiler.
-Literature_References
None.
-Author_and_Institution
N.J. Bachman (JPL)
E.D. Wright (JPL)
-Restrictions
The #include statements contained in this file are not part of
the CSPICE API. The set of files included may change without notice.
Users should not include these files directly in their own
application code.
-Version
-CSPICE Version 4.0.0, 30-SEP-2008 (NJB)
Updated to include header file
SpiceGF.h
-CSPICE Version 3.0.0, 19-AUG-2002 (NJB)
Updated to include header files
SpiceCel.h
SpiceCK.h
SpiceSPK.h
-CSPICE Version 3.0.0, 17-FEB-1999 (NJB)
Updated to support suppression of name mangling when included in
C++ source code. Also now interface macros to intercept function
calls and perform automatic type casting.
Now includes platform macro definition header file.
References to types SpiceVoid and ConstSpiceVoid were removed.
-CSPICE Version 2.0.0, 06-MAY-1998 (NJB) (EDW)
*/
#ifdef __cplusplus
extern "C" {
#endif
#ifndef HAVE_SPICE_USER
#define HAVE_SPICE_USER
/*
Include CSPICE platform macro definitions.
*/
#include "SpiceZpl.h"
/*
Include CSPICE data type definitions.
*/
#include "SpiceZdf.h"
/*
Include the CSPICE EK interface definitions.
*/
#include "SpiceEK.h"
/*
Include the CSPICE Cell interface definitions.
*/
#include "SpiceCel.h"
/*
Include the CSPICE CK interface definitions.
*/
#include "SpiceCK.h"
/*
Include the CSPICE SPK interface definitions.
*/
#include "SpiceSPK.h"
/*
Include the CSPICE GF interface definitions.
*/
#include "SpiceGF.h"
/*
Include CSPICE prototypes.
*/
#include "SpiceZpr.h"
/*
Define the CSPICE function interface macros.
*/
#include "SpiceZim.h"
#endif
#ifdef __cplusplus
}
#endif

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