OpenSpace/modules/base/rendering/renderableplaneimagelocal.cpp

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 * OpenSpace                                                                             *
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 * Copyright (c) 2014-2019                                                               *
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#include <modules/base/rendering/renderableplaneimagelocal.h>

// Included for testing purposes
#include <modules/fitsfilereader/include/fitsfilereader.h>
//#include <filesystem>
#include <ghoul/opengl/framebufferobject.h>
#include <cctype>
// <- End of experimental includes

#include <modules/base/basemodule.h>
#include <openspace/documentation/documentation.h>
#include <openspace/documentation/verifier.h>
#include <ghoul/filesystem/file.h>
#include <ghoul/filesystem/filesystem.h>
#include <ghoul/filesystem/directory.h>
#include <ghoul/io/texture/texturereader.h>
#include <ghoul/logging/logmanager.h>
#include <ghoul/misc/crc32.h>
#include <ghoul/opengl/texture.h>
#include <fstream>

namespace {
    constexpr const char* _loggerCat = "RenderableImagePlaneLocal";
} // namespace

namespace {
    constexpr openspace::properties::Property::PropertyInfo TextureInfo = {
        "Texture",
        "Texture",
        "This value specifies an image that is loaded from disk and is used as a texture "
        "that is applied to this plane. This image has to be square."
    };
} // namespace

namespace openspace {

documentation::Documentation RenderablePlaneImageLocal::Documentation() {
    using namespace documentation;
    return {
        "Renderable Plane Image Local",
        "base_renderable_plane_image_local",
        {
            {
                TextureInfo.identifier,
                new StringVerifier,
                Optional::No,
                TextureInfo.description,
            }
        }
    };
}

RenderablePlaneImageLocal::RenderablePlaneImageLocal(const ghoul::Dictionary& dictionary)
    : RenderablePlane(dictionary)
    , _texturePath(TextureInfo)
{
    documentation::testSpecificationAndThrow(
        Documentation(),
        dictionary,
        "RenderablePlaneImageLocal"
    );

    _texturePath = absPath(dictionary.value<std::string>(TextureInfo.identifier));
    _textureFile = std::make_unique<ghoul::filesystem::File>(_texturePath);

    addProperty(_texturePath);
    _texturePath.onChange([this]() {loadTexture(); });
    _textureFile->setCallback(
        [this](const ghoul::filesystem::File&) { _textureIsDirty = true; }
    );
}

bool RenderablePlaneImageLocal::isReady() const {
    return RenderablePlane::isReady() && (_texture != nullptr);
}

void RenderablePlaneImageLocal::initializeGL() {
    RenderablePlane::initializeGL();

    loadTexture();
}

void RenderablePlaneImageLocal::deinitializeGL() {
    _textureFile = nullptr;

    BaseModule::TextureManager.release(_texture);
    RenderablePlane::deinitializeGL();
}

void RenderablePlaneImageLocal::bindTexture() {

    _texture->bind();
    //glBindTexture(GL_TEXTURE_3D, *_texture);

}

void RenderablePlaneImageLocal::update(const UpdateData& data) {
    RenderablePlane::update(data);

    if (_textureIsDirty) {
        loadTexture();
        _textureIsDirty = false;
    }
}

void RenderablePlaneImageLocal::loadTexture() {
    if (!_texturePath.value().empty()) {
        ghoul::opengl::Texture* t = _texture;

        unsigned int hash = ghoul::hashCRC32File(_texturePath);

        _texture = BaseModule::TextureManager.request(
            std::to_string(hash),
            [path = _texturePath]() -> std::unique_ptr<ghoul::opengl::Texture> {
             /*   std::unique_ptr<ghoul::opengl::Texture> texture =
                    ghoul::io::TextureReader::ref().loadTexture(absPath(path));

                LDEBUGC(
                    "RenderablePlaneImageLocal",
                    fmt::format("Loaded texture from '{}'", absPath(path))
                );
                texture->uploadTexture();

                texture->setFilter(ghoul::opengl::Texture::FilterMode::LinearMipMap);

             //   return texture; */ //end OG code


            FitsFileReader fitsFileReader(false);
            
            // Given that the node-part is located just outside the openspace-directory
            const std::string fitsDir = "../../../../../../node/FITSdata/mrzqs190501/";     //Mac
            //const std::string fitsDir = "../../../node/FITSdata/mrzqs190501/";            //PC
            std::string testpath = absPath(fitsDir + "mrzqs190501t0014c2216_007.fits");
            LERROR(testpath);
            
            // All the files in the given directory
            std::vector<std::string> fitsFiles = ghoul::filesystem::Directory(fitsDir).readFiles();
            
//            int zdim = fitsFiles.size();
            LERROR("antal filer: " + std::to_string(fitsFiles.size()));
            const int zdim = 4; //can't be varying
            GLfloat fitsImage[360][180][zdim];
            int counter = 0;
                
            for (const auto & entry : fitsFiles) {
                LERROR(entry);

                std::string dateID ="";
                const auto tempBild = fitsFileReader.readImageFloat(entry);
//                const auto tempBild = fitsFileReader.readImageFloat(testpath);

                int magicalCounter = -6;
                for (char c : entry) {
                    if (std::isdigit(c)) {
                        if (magicalCounter >= 0 && magicalCounter < 10) {
                            dateID += c;
                        }
                        magicalCounter++;
                    }
                }
                
//                const float minvalue = *fitsFileReader.readHeaderValueFloat("IMGMIN01");
//                const float maxvalue = *fitsFileReader.readHeaderValueFloat("IMGMAX01");
                const float stdvalue = *fitsFileReader.readHeaderValueFloat("IMGRMS01");

//                const int imageHeight = tempBild->height;
//                const int imageWidth = tempBild->width;

                float color;
                for (int i = 0; i < 360; i++) {
                    for (int j = 0; j < 180; j++) {
                        color = tempBild->contents[(i * 180) + j];
//                        color = (color - minvalue) / (maxvalue - minvalue);
                        color = (color+stdvalue)/stdvalue; //some semirandom operation to actually se something in the texture
                        fitsImage[i][j][counter] = static_cast<GLfloat>(color);
                    }
                }
                counter++;
                if(counter == zdim) break;
                LERROR(dateID + " pixelvärde på position 100 100: " + std::to_string(fitsImage[100][100][counter]));
                
            }
                
                
                auto textureFits = std::make_unique<ghoul::opengl::Texture>(fitsImage, glm::vec3(360, 180, zdim),ghoul::opengl::Texture::Format::Red, GL_R32F,GL_FLOAT, ghoul::opengl::Texture::FilterMode::Nearest);
                textureFits->setWrapping({ghoul::opengl::Texture::WrappingMode::Repeat, ghoul::opengl::Texture::WrappingMode::Repeat,ghoul::opengl::Texture::WrappingMode::ClampToEdge});
            textureFits->uploadTexture();

            //auto testbild = fitsFileReader.readImageFloat(testpath);

            //const float minvalue = *fitsFileReader.readHeaderValueFloat("IMGMIN01");
            //const float maxvalue = *fitsFileReader.readHeaderValueFloat("IMGMAX01");
            //LERROR(testpath);
            //LERROR("Min / Max respectively: " + std::to_string(minvalue) + " / " + std::to_string(maxvalue) + " -- Width: " + std::to_string(imageWidth) + " -- Height: " + std::to_string(imageHeight) + " size: "+ std::to_string(testbild->contents.size()));
            
                return textureFits;
            }
        );
        
        if(_texture->type() == GL_TEXTURE_3D){
            LERROR("det är 3d");
        }else LERROR("ej 3d");
        
        

        BaseModule::TextureManager.release(t);

        _textureFile = std::make_unique<ghoul::filesystem::File>(_texturePath);
        _textureFile->setCallback(
            [&](const ghoul::filesystem::File&) { _textureIsDirty = true; }
        );
    }
}

} // namespace openspace