ES-DE/es-core/src/components/GIFAnimComponent.cpp

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// SPDX-License-Identifier: MIT
//
// EmulationStation Desktop Edition
// GIFAnimComponent.cpp
//
// Component to play GIF animations.
//
#define DEBUG_ANIMATION false
#if defined(_MSC_VER) // MSVC compiler.
#define _CRT_SECURE_NO_WARNINGS
#endif
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#include "components/GIFAnimComponent.h"
#include "Log.h"
#include "Window.h"
#include "resources/ResourceManager.h"
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#include "utils/StringUtil.h"
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GIFAnimComponent::GIFAnimComponent()
: mRenderer {Renderer::getInstance()}
, mFrameSize {0}
, mAnimFile {nullptr}
, mAnimation {nullptr}
, mFrame {nullptr}
, mStartDirection {"normal"}
, mTotalFrames {0}
, mFrameNum {0}
, mFrameTime {0}
, mFileWidth {0}
, mFileHeight {0}
, mFrameRate {0.0}
, mSpeedModifier {1.0f}
, mTargetPacing {0}
, mTimeAccumulator {0}
, mLastRenderedFrame {-1}
, mSkippedFrames {0}
, mHoldFrame {false}
, mPause {false}
, mExternalPause {false}
, mAlternate {false}
, mKeepAspectRatio {true}
{
// Get an empty texture for rendering the animation.
mTexture = TextureResource::get("");
mAnimIO.read_proc = readProc;
mAnimIO.write_proc = writeProc;
mAnimIO.seek_proc = seekProc;
mAnimIO.tell_proc = tellProc;
// Set component defaults.
setOrigin(0.5f, 0.5f);
setSize(Renderer::getScreenWidth() * 0.2f, Renderer::getScreenHeight() * 0.2f);
setPosition(Renderer::getScreenWidth() * 0.3f, Renderer::getScreenHeight() * 0.3f);
setDefaultZIndex(10.0f);
setZIndex(10.0f);
mTexture->setLinearMagnify(false);
}
GIFAnimComponent::~GIFAnimComponent()
{
if (mAnimFile != nullptr) {
fclose(mAnimFile);
mAnimFile = nullptr;
}
}
void GIFAnimComponent::setAnimation(const std::string& path)
{
if (mAnimation != nullptr) {
FreeImage_CloseMultiBitmap(mAnimation, 0);
mAnimation = nullptr;
mPictureRGBA.clear();
mLastRenderedFrame = -1;
mFileWidth = 0;
mFileHeight = 0;
}
mPath = path;
if (mPath.empty()) {
LOG(LogError) << "Path to GIF animation is empty";
return;
}
if (mPath.front() == ':')
mPath = ResourceManager::getInstance().getResourcePath(mPath);
else
mPath = Utils::FileSystem::expandHomePath(mPath);
if (!(Utils::FileSystem::isRegularFile(mPath) || Utils::FileSystem::isSymlink(mPath))) {
LOG(LogError) << "Couldn't open GIF animation file \"" << mPath << "\"";
return;
}
FREE_IMAGE_FORMAT fileFormat;
#if defined(_WIN64)
fileFormat = FreeImage_GetFileTypeU(Utils::String::stringToWideString(mPath).c_str());
#else
fileFormat = FreeImage_GetFileType(mPath.c_str());
#endif
if (fileFormat == FIF_UNKNOWN)
#if defined(_WIN64)
fileFormat =
FreeImage_GetFIFFromFilenameU(Utils::String::stringToWideString(mPath).c_str());
#else
fileFormat = FreeImage_GetFIFFromFilename(mPath.c_str());
#endif
if (fileFormat != FIF_GIF) {
LOG(LogError)
<< "GIFAnimComponent::setAnimation(): Image not recognized as being in GIF format";
return;
}
// Make sure that we can actually read this format.
if (FreeImage_FIFSupportsReading(fileFormat)) {
#if defined(_WIN64)
mAnimFile = _wfopen(Utils::String::stringToWideString(mPath).c_str(), L"r+b");
#else
mAnimFile = fopen(mPath.c_str(), "r+b");
#endif
if (mAnimFile != nullptr)
mAnimation = FreeImage_OpenMultiBitmapFromHandle(
fileFormat, &mAnimIO, static_cast<fi_handle>(mAnimFile), GIF_PLAYBACK);
mFrame = FreeImage_LockPage(mAnimation, 0);
FITAG* tagFrameTime {nullptr};
FreeImage_GetMetadata(FIMD_ANIMATION, mFrame, "FrameTime", &tagFrameTime);
if (tagFrameTime != nullptr) {
if (FreeImage_GetTagCount(tagFrameTime) == 1) {
const uint32_t frameTime {
*static_cast<const uint32_t*>(FreeImage_GetTagValue(tagFrameTime))};
if (frameTime >= 20 && frameTime <= 1000)
mFrameTime = frameTime;
}
}
}
else {
LOG(LogError) << "GIFAnimComponent::setAnimation(): Couldn't process file \"" << mPath
<< "\"";
return;
}
if (!mAnimation) {
LOG(LogError) << "GIFAnimComponent::setAnimation(): Couldn't load animation file \""
<< mPath << "\"";
return;
}
if (!mKeepAspectRatio && (mSize.x == 0.0f || mSize.y == 0.0f)) {
LOG(LogWarning) << "GIFAnimComponent: Width or height auto sizing is incompatible with "
"disabling of <keepAspectRatio> so ignoring this setting";
}
size_t width {0};
size_t height {0};
unsigned int filePitch {0};
mTotalFrames = static_cast<size_t>(FreeImage_GetPageCount(mAnimation));
mFileWidth = FreeImage_GetWidth(mFrame);
mFileHeight = FreeImage_GetHeight(mFrame);
filePitch = FreeImage_GetPitch(mFrame);
if (mSize.x == 0.0f || mSize.y == 0.0f) {
double sizeRatio {static_cast<double>(mFileWidth) / static_cast<double>(mFileHeight)};
if (mSize.x == 0) {
width = static_cast<size_t>(static_cast<double>(mSize.y) * sizeRatio);
height = static_cast<size_t>(mSize.y);
}
else {
width = static_cast<size_t>(mSize.x);
height = static_cast<size_t>(static_cast<double>(mSize.x) / sizeRatio);
}
}
else {
width = static_cast<size_t>(mSize.x);
height = static_cast<size_t>(mSize.y);
}
mSize.x = static_cast<float>(width);
mSize.y = static_cast<float>(height);
mPictureRGBA.resize(mFileWidth * mFileHeight * 4);
FreeImage_ConvertToRawBits(reinterpret_cast<BYTE*>(&mPictureRGBA.at(0)), mFrame, filePitch, 32,
FI_RGBA_RED, FI_RGBA_GREEN, FI_RGBA_BLUE, 1);
mTexture->initFromPixels(&mPictureRGBA.at(0), mFileWidth, mFileHeight);
FreeImage_UnlockPage(mAnimation, mFrame, false);
FreeImage_CloseMultiBitmap(mAnimation, 0);
mDirection = mStartDirection;
mFrameRate = 1000.0 / static_cast<double>(mFrameTime);
mFrameSize = mFileWidth * mFileHeight * 4;
mTargetPacing = static_cast<int>((1000.0 / mFrameRate) / static_cast<double>(mSpeedModifier));
int duration {mTargetPacing * mTotalFrames};
if (mDirection == "reverse")
mFrameNum = mTotalFrames - 1;
if (DEBUG_ANIMATION) {
LOG(LogDebug) << "GIFAnimComponent::setAnimation(): Width: " << mFileWidth;
LOG(LogDebug) << "GIFAnimComponent::setAnimation(): Height: " << mFileHeight;
LOG(LogDebug) << "GIFAnimComponent::setAnimation(): Total number of frames: "
<< mTotalFrames;
LOG(LogDebug) << "GIFAnimComponent::setAnimation(): Frame rate: " << mFrameRate;
LOG(LogDebug) << "GIFAnimComponent::setAnimation(): Speed modifier: " << mSpeedModifier;
// This figure does not double if direction has been set to alternate or alternateReverse,
// it only tells the duration of a single playthrough of all frames.
LOG(LogDebug) << "GIFAnimComponent::setAnimation(): Target duration: " << duration << " ms";
LOG(LogDebug) << "GIFAnimComponent::setAnimation(): Frame size: " << mFrameSize
<< " bytes (" << std::fixed << std::setprecision(1)
<< static_cast<double>(mFrameSize) / 1024.0 / 1024.0 << " MiB)";
LOG(LogDebug) << "GIFAnimComponent::setAnimation(): Animation size: "
<< mFrameSize * mTotalFrames << " bytes (" << std::fixed
<< std::setprecision(1)
<< static_cast<double>(mFrameSize * mTotalFrames) / 1024.0 / 1024.0
<< " MiB)";
}
mAnimationStartTime = std::chrono::system_clock::now();
}
void GIFAnimComponent::resetFileAnimation()
{
mExternalPause = false;
mTimeAccumulator = 0;
mFrameNum = mStartDirection == "reverse" ? mTotalFrames - 1 : 0;
if (mAnimation != nullptr)
mLastRenderedFrame = static_cast<int>(mFrameNum);
}
void GIFAnimComponent::onSizeChanged()
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{
// Setting the animation again will completely reinitialize it.
if (mPath != "")
setAnimation(mPath);
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}
void GIFAnimComponent::applyTheme(const std::shared_ptr<ThemeData>& theme,
const std::string& view,
const std::string& element,
unsigned int properties)
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{
using namespace ThemeFlags;
const ThemeData::ThemeElement* elem {theme->getElement(view, element, "animation")};
if (elem->has("size")) {
glm::vec2 size = elem->get<glm::vec2>("size");
if (size.x == 0.0f && size.y == 0.0f) {
LOG(LogWarning) << "GIFAnimComponent: Invalid theme configuration, <size> defined as \""
<< size.x << " " << size.y << "\"";
return;
}
}
if (elem->has("speed")) {
const float speed {elem->get<float>("speed")};
if (speed < 0.2f || speed > 3.0f) {
LOG(LogWarning)
<< "GIFAnimComponent: Invalid theme configuration, <speed> defined as \""
<< std::fixed << std::setprecision(1) << speed << "\"";
}
else {
mSpeedModifier = speed;
}
}
if (elem->has("keepAspectRatio"))
mKeepAspectRatio = elem->get<bool>("keepAspectRatio");
if (elem->has("direction")) {
std::string direction = elem->get<std::string>("direction");
if (direction == "normal") {
mStartDirection = "normal";
mAlternate = false;
}
else if (direction == "reverse") {
mStartDirection = "reverse";
mAlternate = false;
}
else if (direction == "alternate") {
mStartDirection = "normal";
mAlternate = true;
}
else if (direction == "alternateReverse") {
mStartDirection = "reverse";
mAlternate = true;
}
else {
LOG(LogWarning)
<< "GIFAnimComponent: Invalid theme configuration, <direction> defined as \""
<< direction << "\"";
mStartDirection = "normal";
mAlternate = false;
}
}
if (elem->has("interpolation")) {
const std::string interpolation {elem->get<std::string>("interpolation")};
if (interpolation == "linear") {
mTexture->setLinearMagnify(true);
}
else if (interpolation == "nearest") {
mTexture->setLinearMagnify(false);
}
else {
mTexture->setLinearMagnify(false);
LOG(LogWarning)
<< "GIFAnimComponent::applyTheme(): Invalid theme configuration, property "
"<interpolation> defined as \""
<< interpolation << "\"";
}
}
GuiComponent::applyTheme(theme, view, element, properties);
if (elem->has("path")) {
std::string path {elem->get<std::string>("path")};
if (path != "") {
setAnimation(path);
}
}
else {
LOG(LogWarning) << "GIFAnimComponent: Invalid theme configuration, <path> not set";
return;
}
}
void GIFAnimComponent::update(int deltaTime)
{
if (!isVisible() || mThemeOpacity == 0.0f || mAnimation == nullptr)
return;
if (mWindow->getAllowFileAnimation()) {
mPause = false;
}
else {
mPause = true;
mTimeAccumulator = 0;
return;
}
// If the time accumulator value is really high something must have happened such as the
// application having been suspended. Reset it to zero in this case as it would otherwise
// never recover.
if (mTimeAccumulator > deltaTime * 200)
mTimeAccumulator = 0;
// Prevent animation from playing too quickly.
if (mTimeAccumulator + deltaTime < mTargetPacing) {
mHoldFrame = true;
mTimeAccumulator += deltaTime;
}
else {
mHoldFrame = false;
mTimeAccumulator = mTimeAccumulator - mTargetPacing + deltaTime;
}
// Rudimentary frame skipping logic, not entirely accurate but probably good enough.
while (mTimeAccumulator - deltaTime > mTargetPacing) {
if (DEBUG_ANIMATION && 0) {
LOG(LogDebug) << "GIFAnimComponent::update(): Skipped Frame, mTimeAccumulator / "
"mTargetPacing: "
<< mTimeAccumulator - deltaTime << " / " << mTargetPacing;
}
if (mDirection == "reverse")
--mFrameNum;
else
++mFrameNum;
++mSkippedFrames;
mTimeAccumulator -= mTargetPacing;
}
}
void GIFAnimComponent::render(const glm::mat4& parentTrans)
{
if (!isVisible() || mThemeOpacity == 0.0f || mAnimation == nullptr)
return;
glm::mat4 trans {parentTrans * getTransform()};
// This is necessary as there may otherwise be no texture to render when paused.
if ((mExternalPause || mPause) && mTexture->getSize().x == 0.0f) {
mTexture->initFromPixels(&mPictureRGBA.at(0), static_cast<size_t>(mSize.x),
static_cast<size_t>(mSize.y));
}
bool doRender {true};
// Don't render if a menu is open except if the cached background is getting invalidated.
if (mWindow->getGuiStackSize() > 1 && !mWindow->isInvalidatingCachedBackground())
doRender = false;
// Don't render any new frames if paused or if a menu is open (unless invalidating background).
if ((!mPause && !mExternalPause) && doRender) {
if ((mDirection == "normal" && mFrameNum >= mTotalFrames) ||
(mDirection == "reverse" && mFrameNum < 0)) {
if (DEBUG_ANIMATION) {
LOG(LogDebug) << "GIFAnimComponent::render(): Skipped frames: " << mSkippedFrames;
LOG(LogDebug) << "GIFAnimComponent::render(): Actual duration: "
<< std::chrono::duration_cast<std::chrono::milliseconds>(
std::chrono::system_clock::now() - mAnimationStartTime)
.count()
<< " ms";
}
if (mAlternate) {
if (mDirection == "normal")
mDirection = "reverse";
else
mDirection = "normal";
}
mTimeAccumulator = 0;
mSkippedFrames = 0;
if (mDirection == "reverse" && mAlternate)
mFrameNum = mTotalFrames - 2;
else if (mDirection == "reverse" && !mAlternate)
mFrameNum = mTotalFrames - 1;
else if (mDirection == "normal" && mAlternate)
mFrameNum = 1;
else
mFrameNum = 0;
if (DEBUG_ANIMATION)
mAnimationStartTime = std::chrono::system_clock::now();
}
if (!mHoldFrame) {
mAnimation = FreeImage_OpenMultiBitmapFromHandle(
FIF_GIF, &mAnimIO, static_cast<fi_handle>(mAnimFile), GIF_PLAYBACK);
mFrame = FreeImage_LockPage(mAnimation, mFrameNum);
mPictureRGBA.clear();
mPictureRGBA.resize(mFrameSize);
FreeImage_ConvertToRawBits(reinterpret_cast<BYTE*>(&mPictureRGBA.at(0)), mFrame,
FreeImage_GetPitch(mFrame), 32, FI_RGBA_RED, FI_RGBA_GREEN,
FI_RGBA_BLUE, 1);
mTexture->initFromPixels(&mPictureRGBA.at(0), mFileWidth, mFileHeight);
FreeImage_UnlockPage(mAnimation, mFrame, false);
FreeImage_CloseMultiBitmap(mAnimation, 0);
if (mDirection == "reverse")
--mFrameNum;
else
++mFrameNum;
}
}
mRenderer->setMatrix(trans);
if (Settings::getInstance()->getBool("DebugImage"))
mRenderer->drawRect(0.0f, 0.0f, mSize.x, mSize.y, 0xFF000033, 0xFF000033);
if (mTexture->getSize().x != 0.0f) {
mTexture->bind();
Renderer::Vertex vertices[4];
// clang-format off
vertices[0] = {{0.0f, 0.0f }, {0.0f, 0.0f}, 0xFFFFFFFF};
vertices[1] = {{0.0f, mSize.y}, {0.0f, 1.0f}, 0xFFFFFFFF};
vertices[2] = {{mSize.x, 0.0f }, {1.0f, 0.0f}, 0xFFFFFFFF};
vertices[3] = {{mSize.x, mSize.y}, {1.0f, 1.0f}, 0xFFFFFFFF};
// clang-format on
// Round vertices.
for (int i = 0; i < 4; ++i)
vertices[i].position = glm::round(vertices[i].position);
vertices->saturation = mSaturation;
vertices->opacity = mOpacity * mThemeOpacity;
vertices->dimming = mDimming;
vertices->shaderFlags = Renderer::ShaderFlags::BGRA_TO_RGBA;
// Render it.
mRenderer->drawTriangleStrips(&vertices[0], 4);
}
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}