ES-DE/es-core/src/resources/TextureResource.cpp

//
//  TextureResource.cpp
//
//  Handles OpenGL textures.
//

#include "resources/TextureResource.h"

#include "utils/FileSystemUtil.h"
#include "resources/TextureData.h"

TextureDataManager TextureResource::sTextureDataManager;
std::map< TextureResource::TextureKeyType,
        std::weak_ptr<TextureResource>> TextureResource::sTextureMap;
std::set<TextureResource*> TextureResource::sAllTextures;

TextureResource::TextureResource(
        const std::string& path,
        bool tile,
        bool dynamic)
        : mTextureData(nullptr),
        mForceLoad(false)
{
    // Create a texture data object for this texture.
    if (!path.empty()) {
        // If there is a path then the 'dynamic' flag tells us whether to use the texture
        // data manager to manage loading/unloading of this texture.
        std::shared_ptr<TextureData> data;
        if (dynamic) {
            data = sTextureDataManager.add(this, tile);
            data->initFromPath(path);
            // Force the texture manager to load it using a blocking load.
            sTextureDataManager.load(data, true);
        }
        else {
            mTextureData = std::shared_ptr<TextureData>(new TextureData(tile));
            data = mTextureData;
            data->initFromPath(path);
            // Load it so we can read the width/height.
            data->load();
        }

        mSize = Vector2i((int)data->width(), (int)data->height());
        mSourceSize = Vector2f(data->sourceWidth(), data->sourceHeight());
    }
    else {
        // Create a texture managed by this class because it cannot be dynamically
        // loaded and unloaded. This would normally be a video texture, where the player
        // reserves a texture to later be used for the video rendering.
        mTextureData = std::shared_ptr<TextureData>(new TextureData(tile));
        mSize = Vector2i(0, 0);
    }
    sAllTextures.insert(this);
}

TextureResource::~TextureResource()
{
    if (mTextureData == nullptr)
        sTextureDataManager.remove(this);

    sAllTextures.erase(sAllTextures.find(this));
}

void TextureResource::initFromPixels(const unsigned char* dataRGBA, size_t width, size_t height)
{
    // This is only valid if we have a local texture data object.
    assert(mTextureData != nullptr);
    mTextureData->releaseVRAM();
    mTextureData->releaseRAM();
    mTextureData->initFromRGBA(dataRGBA, width, height);
    // Cache the image dimensions.
    mSize = Vector2i((int)width, (int)height);
    mSourceSize = Vector2f(mTextureData->sourceWidth(), mTextureData->sourceHeight());
}

void TextureResource::initFromMemory(const char* data, size_t length)
{
    // This is only valid if we have a local texture data object.
    assert(mTextureData != nullptr);
    mTextureData->releaseVRAM();
    mTextureData->releaseRAM();
    mTextureData->initImageFromMemory((const unsigned char*)data, length);
    // Get the size from the texture data.
    mSize = Vector2i((int)mTextureData->width(), (int)mTextureData->height());
    mSourceSize = Vector2f(mTextureData->sourceWidth(), mTextureData->sourceHeight());
}

const Vector2i TextureResource::getSize() const
{
    return mSize;
}

bool TextureResource::isTiled() const
{
    if (mTextureData != nullptr)
        return mTextureData->tiled();
    std::shared_ptr<TextureData> data = sTextureDataManager.get(this);
    return data->tiled();
}

bool TextureResource::bind()
{
    if (mTextureData != nullptr) {
        mTextureData->uploadAndBind();
        return true;
    }
    else {
        return sTextureDataManager.bind(this);
    }
}

std::shared_ptr<TextureResource> TextureResource::get(const std::string& path, bool tile,
        bool forceLoad, bool dynamic)
{
    std::shared_ptr<ResourceManager>& rm = ResourceManager::getInstance();

    const std::string canonicalPath = Utils::FileSystem::getCanonicalPath(path);
    if (canonicalPath.empty()) {
        std::shared_ptr<TextureResource> tex(new TextureResource("", tile, false));
        // Make sure we get properly deinitialized even though we do nothing on reinitialization.
        rm->addReloadable(tex);
        return tex;
    }

    TextureKeyType key(canonicalPath, tile);
    auto foundTexture = sTextureMap.find(key);

    if (foundTexture != sTextureMap.cend()) {
        if (!foundTexture->second.expired())
            return foundTexture->second.lock();
    }

    // Need to create it.
    std::shared_ptr<TextureResource> tex;
    tex = std::shared_ptr<TextureResource>(new TextureResource(key.first, tile, dynamic));
    std::shared_ptr<TextureData> data = sTextureDataManager.get(tex.get());

    // Is it an SVG?
    if (key.first.substr(key.first.size() - 4, std::string::npos) != ".svg") {
        // Probably not. Add it to our map. We don't add SVGs because 2 svgs might be
        // rasterized at different sizes.
        sTextureMap[key] = std::weak_ptr<TextureResource>(tex);
    }

    // Add it to the reloadable list.
    rm->addReloadable(tex);

    // Force load it if necessary. Note that it may get dumped from VRAM if we run low.
    if (forceLoad) {
        tex->mForceLoad = forceLoad;
        data->load();
    }

    return tex;
}

// For scalable source images in textures we want to set the resolution to rasterize at.
void TextureResource::rasterizeAt(size_t width, size_t height)
{
    std::shared_ptr<TextureData> data;
    if (mTextureData != nullptr)
        data = mTextureData;
    else
        data = sTextureDataManager.get(this);
    mSourceSize = Vector2f((float)width, (float)height);
    data->setSourceSize((float)width, (float)height);
    if (mForceLoad || (mTextureData != nullptr))
        data->load();
}

Vector2f TextureResource::getSourceImageSize() const
{
    return mSourceSize;
}

bool TextureResource::isInitialized() const
{
    return true;
}

size_t TextureResource::getTotalMemUsage()
{
    size_t total = 0;
    // Count up all textures that manage their own texture data.
    for (auto tex : sAllTextures) {
        if (tex->mTextureData != nullptr)
            total += tex->mTextureData->getVRAMUsage();
    }
    // Now get the committed memory from the manager.
    total += sTextureDataManager.getCommittedSize();
    // And the size of the loading queue.
    total += sTextureDataManager.getQueueSize();
    return total;
}

size_t TextureResource::getTotalTextureSize()
{
    size_t total = 0;
    // Count up all textures that manage their own texture data.
    for (auto tex : sAllTextures) {
        if (tex->mTextureData != nullptr)
            total += tex->getSize().x() * tex->getSize().y() * 4;
    }
    // Now get the total memory from the manager.
    total += sTextureDataManager.getTotalSize();
    return total;
}

void TextureResource::unload(std::shared_ptr<ResourceManager>& /*rm*/)
{
    // Release the texture's resources.
    std::shared_ptr<TextureData> data;
    if (mTextureData == nullptr)
        data = sTextureDataManager.get(this);
    else
        data = mTextureData;

    data->releaseVRAM();
    data->releaseRAM();
}

void TextureResource::reload(std::shared_ptr<ResourceManager>& /*rm*/)
{
    // For dynamically loaded textures the texture manager will load them on demand.
    // For manually loaded textures we have to reload them here.
    if (mTextureData)
        mTextureData->load();
}