OpenSpace/modules/autonavigation/autonavigationhandler.cpp

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 * OpenSpace                                                                             *
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 * Copyright (c) 2014-2019                                                               *
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#include <modules/autonavigation/autonavigationhandler.h>

#include <modules/autonavigation/helperfunctions.h>
#include <modules/autonavigation/instruction.h>
#include <modules/autonavigation/pathcurves.h>
#include <modules/autonavigation/pathspecification.h>
#include <openspace/engine/globals.h>
#include <openspace/engine/windowdelegate.h>
#include <openspace/interaction/navigationhandler.h>
#include <openspace/scene/scenegraphnode.h>
#include <openspace/util/camera.h>
#include <openspace/util/timemanager.h>
#include <openspace/query/query.h>
#include <ghoul/logging/logmanager.h>
#include <glm/gtx/vector_angle.hpp>
#include <glm/gtx/quaternion.hpp>
#include <algorithm>

namespace {
    constexpr const char* _loggerCat = "AutoNavigationHandler";

    constexpr const openspace::properties::Property::PropertyInfo DefaultCurveOptionInfo = {
        "DefaultCurveOption",
        "Default Curve Option",
        "The defualt curve type chosen when generating a path, if none is specified."
    };

    constexpr const openspace::properties::Property::PropertyInfo IncludeRollInfo = {
        "IncludeRollInfo",
        "Include Roll",
        "If disabled, roll is removed from the interpolation of camera orientation."
    };

    constexpr const openspace::properties::Property::PropertyInfo StopAtTargetsPerDefaultInfo = {
        "StopAtTargetsPerDefault",
        "Stop At Targets Per Default",
        "Applied during path creation. If enabled, stops are automatically added between"
        " the path segments. The user must then choose to continue the apth after reaching a target"
    };

} // namespace

namespace openspace::autonavigation {

AutoNavigationHandler::AutoNavigationHandler()
    : properties::PropertyOwner({ "AutoNavigationHandler" })
    , _defaultCurveOption(DefaultCurveOptionInfo, properties::OptionProperty::DisplayType::Dropdown)
    , _includeRoll(IncludeRollInfo, false)
    , _stopAtTargetsPerDefault(StopAtTargetsPerDefaultInfo, false)
{
    _defaultCurveOption.addOptions({
        { CurveType::Bezier3, "Bezier3" },
        { CurveType::Linear, "Linear"} 
    });
    addProperty(_defaultCurveOption);
    addProperty(_includeRoll);
    addProperty(_stopAtTargetsPerDefault);
}

AutoNavigationHandler::~AutoNavigationHandler() {} // NOLINT

Camera* AutoNavigationHandler::camera() const {
    return global::navigationHandler.camera();
}

const SceneGraphNode* AutoNavigationHandler::anchor() const {
    return global::navigationHandler.anchorNode();
}

bool AutoNavigationHandler::hasFinished() const {
    unsigned int lastIndex = (unsigned int)_pathSegments.size() - 1;
    return _currentSegmentIndex > lastIndex; 
}

void AutoNavigationHandler::updateCamera(double deltaTime) {
    ghoul_assert(camera() != nullptr, "Camera must not be nullptr");

    if (!_isPlaying || _pathSegments.empty()) return;

    if (_activeStop) {
        applyStopBehaviour(deltaTime);
        return;
    }

    std::unique_ptr<PathSegment> &currentSegment = _pathSegments[_currentSegmentIndex];

    CameraPose newPose = currentSegment->traversePath(deltaTime);
    std::string newAnchor = currentSegment->getCurrentAnchor();

    // Set anchor node in orbitalNavigator, to render visible nodes and add activate
    // navigation when we reach the end.
    std::string currentAnchor = anchor()->identifier();
    if (currentAnchor != newAnchor) {
        global::navigationHandler.orbitalNavigator().setAnchorNode(newAnchor);
    }

    if (!_includeRoll) {
        removeRollRotation(newPose, deltaTime);
    }

    camera()->setPositionVec3(newPose.position);
    camera()->setRotation(newPose.rotation);

    if (currentSegment->hasReachedEnd()) {
        _currentSegmentIndex++;

        if (hasFinished()) {
            LINFO("Reached end of path.");
            _isPlaying = false;
            return;
        }

        int stopIndex = _currentSegmentIndex - 1;

        if (_stops[stopIndex].shouldStop) {
            pauseAtTarget(stopIndex);
            return;
        }
    }
}

void AutoNavigationHandler::createPath(PathSpecification& spec) {
    clearPath();

    if (spec.stopAtTargetsSpecified()) {
        _stopAtTargetsPerDefault = spec.stopAtTargets();
        LINFO("Property for stop at targets per default was overridden by path specification.");    
    }

    const int nrInstructions = spec.instructions()->size();

    for (int i = 0; i < nrInstructions; i++) {
        const Instruction* instruction = spec.instruction(i);
        if (instruction) {
            std::vector<Waypoint> waypoints = instruction->getWaypoints();

            if (waypoints.size() == 0) {
                LWARNING(fmt::format("No path segment was created from instruction {}. No waypoints could be created.", i));
                return;
            }

            // TODO: allow for a list of waypoints
            addSegment(waypoints[0], instruction);

            // Add info about stops between segments
            if (i < nrInstructions - 1) {
                addStopDetails(instruction);
            }
        }
    }

    // Check if we have a specified start navigation state. If so, update first segment
    if (spec.hasStartState() && _pathSegments.size() > 0) {
        Waypoint startState{ spec.startState() };
        _pathSegments[0]->setStart(startState);
    }

    LINFO(fmt::format(
        "Succefully generated camera path with {} segments.", _pathSegments.size()
    ));
    startPath();
}

void AutoNavigationHandler::clearPath() {
    LINFO("Clearing path...");
    _pathSegments.clear();
    _currentSegmentIndex = 0;
}

void AutoNavigationHandler::startPath() {
    if (_pathSegments.empty()) {
        LERROR("Cannot start an empty path.");
        return;
    }

    ghoul_assert(
        _stops.size() == (_pathSegments.size() - 1), 
        "Must have exactly one stop entry between every segment."
    );

    // TODO: remove this line at the end of our project. Used to simplify testing
    global::timeManager.setPause(true);

    //OBS! Until we can handle simulation time: early out if not paused
    if (!global::timeManager.isPaused()) {
        LERROR("Simulation time must be paused to run a camera path.");
        return;
    }

    LINFO("Starting path...");
    _isPlaying = true;
    _activeStop = nullptr;
}

void AutoNavigationHandler::pauseAtTarget(int i) {
    if (!_isPlaying || _activeStop) {
        LERROR("Cannot pause a path that isn't playing");
        return;
    }

    _activeStop = &_stops[i];

    if (!_activeStop) return;

    bool hasDuration = _activeStop->duration.has_value();
    std::string infoString = hasDuration 
        ? fmt::format("{} seconds", _activeStop->duration.value())
        : "until continued";

    LINFO(fmt::format("Paused path at target {} / {} ({})",
        _currentSegmentIndex,
        _pathSegments.size(),
        infoString
    ));

    _progressedTimeInStop = 0.0;
}

void AutoNavigationHandler::continuePath() {
    if (_pathSegments.empty() || hasFinished()) {
        LERROR("No path to resume (path is empty or has finished).");
        return;
    }

    if (_isPlaying && !_activeStop) {
        LERROR("Cannot resume a path that is already playing");
        return;
    }

    LINFO("Continuing path...");

    // Recompute start camera state for the upcoming path segment,
    _pathSegments[_currentSegmentIndex]->setStart(wayPointFromCamera());
    _activeStop = nullptr;
}

void AutoNavigationHandler::stopPath() {
    _isPlaying = false;
}

// TODO: remove when not needed
// Created for debugging
std::vector<glm::dvec3> AutoNavigationHandler::getCurvePositions(int nPerSegment) {
    std::vector<glm::dvec3> positions;

    if (_pathSegments.empty()) {
        LERROR("There is no current path to sample points from.");
        return positions;
    }

    const double du = 1.0 / nPerSegment;

    for (std::unique_ptr<PathSegment> &p : _pathSegments) {
        for (double u = 0.0; u < 1.0; u += du) {
            glm::dvec3 position = p->interpolatedPose(u).position;
            positions.push_back(position);
        }
    }

    return positions;
}

// TODO: remove when not needed
// Created for debugging
std::vector<glm::dvec3> AutoNavigationHandler::getControlPoints() {
    std::vector<glm::dvec3> points;

    if (_pathSegments.empty()) {
        LERROR("There is no current path to sample points from.");
        return points;
    }

    for (std::unique_ptr<PathSegment> &p : _pathSegments) {
        std::vector<glm::dvec3> curvePoints = p->getControlPoints();
        points.insert(points.end(), curvePoints.begin(), curvePoints.end());
    }

    return points;
}

Waypoint AutoNavigationHandler::wayPointFromCamera() {
    glm::dvec3 pos = camera()->positionVec3();
    glm::dquat rot = camera()->rotationQuaternion();
    std::string node = global::navigationHandler.anchorNode()->identifier();
    return Waypoint{ pos, rot, node };
}

Waypoint AutoNavigationHandler::lastWayPoint() {
    return _pathSegments.empty() ? wayPointFromCamera() : _pathSegments.back()->end();
}

void AutoNavigationHandler::removeRollRotation(CameraPose& pose, double deltaTime) {
    glm::dvec3 anchorPos = anchor()->worldPosition();
    const double notTooCloseDistance = deltaTime * glm::distance(anchorPos, pose.position);
    glm::dvec3 cameraDir = glm::normalize(pose.rotation * Camera::ViewDirectionCameraSpace);
    glm::dvec3 lookAtPos = pose.position + notTooCloseDistance * cameraDir;
    glm::dquat rollFreeRotation = helpers::getLookAtQuaternion(
        pose.position,
        lookAtPos,
        camera()->lookUpVectorWorldSpace()
    );
    pose.rotation = rollFreeRotation;
}

void AutoNavigationHandler::applyStopBehaviour(double deltaTime) {
    _progressedTimeInStop += deltaTime;
    // TODO: Apply pause behaviour

    if (!_activeStop->duration.has_value()) return;

    if (_progressedTimeInStop >= _activeStop->duration.value()) {
        continuePath();
    }
}

void AutoNavigationHandler::addSegment(Waypoint& waypoint, const Instruction* ins){
    // TODO: Improve how curve types are handled
    const int curveType = _defaultCurveOption;

    PathSegment segment = PathSegment(lastWayPoint(), waypoint, CurveType(curveType));

    // TODO: handle duration better
    if (ins->duration.has_value()) {
        segment.setDuration(ins->duration.value());
    }
    _pathSegments.push_back(std::unique_ptr<PathSegment>(new PathSegment(segment)));
}

void AutoNavigationHandler::addStopDetails(const Instruction* ins) {
    StopDetails stopEntry;
    stopEntry.shouldStop = _stopAtTargetsPerDefault.value();

    if (ins->stopAtTarget.has_value()) {
        stopEntry.shouldStop = ins->stopAtTarget.value();
    }

    if (stopEntry.shouldStop) {
        stopEntry.duration = ins->stopDuration;
    }

    _stops.push_back(stopEntry);
}

} // namespace openspace::autonavigation