355 lines
15 KiB
C++
355 lines
15 KiB
C++
#include "Renderer.h"
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#include "AnimationStrategy.cpp"
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#include "TransitionStrategy.cpp"
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#include "NoneAnimation.h"
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#include "PageTurnAnimation.h"
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#include "PanAnimation.h"
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#include "PanOneWayAnimation.h"
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#include <android/log.h>
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#include <algorithm>
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#include <cmath>
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#include <thread>
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#include <chrono>
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extern void callNextMediaCallback();
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#define LOG_TAG "Renderer"
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#define LOGI(...) __android_log_print(ANDROID_LOG_INFO, LOG_TAG, __VA_ARGS__)
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#define LOGE(...) __android_log_print(ANDROID_LOG_ERROR, LOG_TAG, __VA_ARGS__)
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// ====================================================================
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// 생성자, 소멸자 및 설정(Setter) 함수들
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// ====================================================================
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Renderer::Renderer() {
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randomEngine_.seed(std::chrono::high_resolution_clock::now().time_since_epoch().count());
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setAnimationMode(static_cast<int>(AnimationMode::PAN));
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setTransitionMode(static_cast<int>(TransitionMode::FADE));
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}
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Renderer::~Renderer() {
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release();
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}
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void Renderer::release() {
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std::lock_guard<std::mutex> lock(renderMutex_);
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currentMedia_.release();
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nextMedia_.release();
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}
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void Renderer::setNextMedia(int fd) {
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preloader_.startNextPreload(fd);
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}
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void Renderer::setAnimationSpeed(float speed) {
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animationSpeed_ = speed > 0 ? speed : 1.0f;
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}
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void Renderer::setFadeDuration(int durationMs) {
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fadeDurationMs_ = durationMs > 0 ? durationMs : 3000;
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}
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void Renderer::setPageTurnDelay(int delayMs) {
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pageTurnDelayMs_ = delayMs > 0 ? delayMs : 5000;
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}
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void Renderer::setAnimationMode(int mode) {
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configuredAnimationMode_ = (mode >= 0 && mode <= static_cast<int>(AnimationMode::PAGE_TURN))
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? static_cast<AnimationMode>(mode)
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: AnimationMode::PAN;
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determineActiveAnimationMode();
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}
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void Renderer::setTransitionMode(int mode) {
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configuredTransitionMode_ = (mode >= 0 && mode <= static_cast<int>(TransitionMode::MOSAIC))
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? static_cast<TransitionMode>(mode)
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: TransitionMode::FADE;
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}
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void Renderer::determineActiveAnimationMode() {
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AnimationMode modeToSetActive;
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if (configuredAnimationMode_ == AnimationMode::RANDOM) {
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static const std::vector<AnimationMode> availableModes = {
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AnimationMode::PAN, AnimationMode::ZOOM, AnimationMode::NONE,
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AnimationMode::PAN_ONE_WAY, AnimationMode::PAGE_TURN
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};
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std::uniform_int_distribution<size_t> dist(0, availableModes.size() - 1);
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modeToSetActive = availableModes[dist(randomEngine_)];
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} else {
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modeToSetActive = configuredAnimationMode_;
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}
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activeAnimationMode_ = modeToSetActive;
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switch (activeAnimationMode_) {
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case AnimationMode::PAN:
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animationStrategy_ = std::make_unique<PanAnimation>(animationSpeed_);
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break;
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case AnimationMode::PAN_ONE_WAY:
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animationStrategy_ = std::make_unique<PanOneWayAnimation>(animationSpeed_);
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break;
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case AnimationMode::ZOOM:
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animationStrategy_ = std::make_unique<NoneAnimation>(animationSpeed_);
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break;
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case AnimationMode::PAGE_TURN:
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animationStrategy_ = std::make_unique<PageTurnAnimation>(animationSpeed_, pageTurnDelayMs_);
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break;
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case AnimationMode::NONE:
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default:
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animationStrategy_ = std::make_unique<NoneAnimation>(animationSpeed_);
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break;
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case AnimationMode::RANDOM:
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break;
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}
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}
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// ====================================================================
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// 상태 머신(State Machine) 핸들러 함수들
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// ====================================================================
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void Renderer::handleAnimationState(ANativeWindow_Buffer& buffer, int surfaceWidth, int surfaceHeight) {
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AnimationState animState;
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if (animationStrategy_) {
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float overflowX = 0.0f, overflowY = 0.0f;
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if (activeAnimationMode_ == AnimationMode::PAN || activeAnimationMode_ == AnimationMode::PAN_ONE_WAY) {
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float mediaW = static_cast<float>(currentMedia_.getWidth());
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float mediaH = static_cast<float>(currentMedia_.getHeight());
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if ((mediaW / mediaH) > (static_cast<float>(surfaceWidth) / surfaceHeight)) {
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float scale = static_cast<float>(surfaceHeight) / mediaH;
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overflowX = std::max(0.0f, mediaW * scale - surfaceWidth);
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} else {
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float scale = static_cast<float>(surfaceWidth) / mediaW;
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overflowY = std::max(0.0f, mediaH * scale - surfaceHeight);
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}
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}
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animState = animationStrategy_->update(overflowX, overflowY);
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}
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memset(buffer.bits, 0, buffer.stride * buffer.height * sizeof(uint32_t));
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float finalOffsetX, finalOffsetY, finalScale;
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if (activeAnimationMode_ == AnimationMode::PAN || activeAnimationMode_ == AnimationMode::PAN_ONE_WAY) {
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float scale;
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if ((static_cast<float>(currentMedia_.getWidth()) / currentMedia_.getHeight()) > (static_cast<float>(surfaceWidth) / surfaceHeight)) {
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scale = static_cast<float>(surfaceHeight) / currentMedia_.getHeight();
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} else {
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scale = static_cast<float>(surfaceWidth) / currentMedia_.getWidth();
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}
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finalScale = scale * animState.scale;
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finalOffsetX = animState.offsetX;
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finalOffsetY = animState.offsetY;
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} else {
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float baseScale, baseOffsetX, baseOffsetY;
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calculateFitScaleAndOffset(currentMedia_, surfaceWidth, surfaceHeight, baseScale, baseOffsetX, baseOffsetY);
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finalScale = baseScale * animState.scale;
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finalOffsetX = baseOffsetX + animState.offsetX;
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finalOffsetY = baseOffsetY + animState.offsetY;
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}
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drawMedia(buffer, currentMedia_, 1.0f, finalOffsetX, finalOffsetY, finalScale);
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if (animState.cycleComplete && nextMedia_.isValid()) {
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currentState_ = RenderState::TRANSITIONING;
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transitionStartTime_ = std::chrono::steady_clock::now();
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TransitionMode transModeToUse = configuredTransitionMode_;
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if (transModeToUse == TransitionMode::RANDOM) {
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std::uniform_int_distribution<int> dist(0, 2);
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transModeToUse = static_cast<TransitionMode>(dist(randomEngine_));
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}
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if (transModeToUse == TransitionMode::SLIDE) {
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transitionStrategy_ = std::make_unique<SlideTransition>(fadeDurationMs_, surfaceWidth);
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} else if (transModeToUse == TransitionMode::MOSAIC) {
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transitionStrategy_ = std::make_unique<MosaicTransition>(fadeDurationMs_, 20, 32, randomEngine_);
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} else {
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transitionStrategy_ = std::make_unique<FadeTransition>(fadeDurationMs_);
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}
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if(transitionStrategy_) transitionStrategy_->reset();
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}
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}
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void Renderer::handleTransitionState(ANativeWindow_Buffer& buffer, int surfaceWidth, int surfaceHeight) {
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if (!transitionStrategy_ || !nextMedia_.isValid()) {
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currentState_ = RenderState::ANIMATING;
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if(animationStrategy_) animationStrategy_->reset();
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return;
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}
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auto now = std::chrono::steady_clock::now();
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long long elapsed = std::chrono::duration_cast<std::chrono::milliseconds>(now - transitionStartTime_).count();
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// 1. 상태 보고: isComplete()를 호출해서 끝났는지 "물어보기만" 함
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bool isComplete = transitionStrategy_->isComplete(elapsed);
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transitionStrategy_->execute(this, buffer, currentMedia_, nextMedia_, elapsed);
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if (isComplete) {
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currentMedia_ = std::move(nextMedia_);
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currentState_ = RenderState::ANIMATING;
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determineActiveAnimationMode();
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if(animationStrategy_) animationStrategy_->reset();
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}
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}
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// ====================================================================
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// 메인 렌더링 루프 (교통정리 담당)
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// ====================================================================
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void Renderer::renderFrame(ANativeWindow* window) {
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if (!window) return;
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std::lock_guard<std::mutex> lock(renderMutex_);
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if (!currentMedia_.isValid() && preloader_.isPreloadedDataReady()) {
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currentMedia_ = preloader_.swapAndRelease();
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if (currentMedia_.isValid()) {
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currentState_ = RenderState::ANIMATING;
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determineActiveAnimationMode();
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if(animationStrategy_) animationStrategy_->reset();
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callNextMediaCallback();
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}
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}
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if (!currentMedia_.isValid()) {
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ANativeWindow_Buffer buffer;
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if (ANativeWindow_lock(window, &buffer, nullptr) == 0) {
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memset(buffer.bits, 0, buffer.stride * buffer.height * sizeof(uint32_t));
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ANativeWindow_unlockAndPost(window);
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}
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return;
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}
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if (!nextMedia_.isValid() && preloader_.isPreloadedDataReady()) {
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nextMedia_ = preloader_.swapAndRelease();
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if(nextMedia_.isValid()) { callNextMediaCallback(); }
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}
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ANativeWindow_Buffer buffer;
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if (ANativeWindow_lock(window, &buffer, nullptr) != 0) return;
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int surfaceWidth = ANativeWindow_getWidth(window);
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int surfaceHeight = ANativeWindow_getHeight(window);
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switch (currentState_) {
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case RenderState::ANIMATING:
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handleAnimationState(buffer, surfaceWidth, surfaceHeight);
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break;
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case RenderState::TRANSITIONING:
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handleTransitionState(buffer, surfaceWidth, surfaceHeight);
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break;
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}
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ANativeWindow_unlockAndPost(window);
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}
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// ====================================================================
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// 하위 그리기 함수 및 헬퍼 함수들
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// ====================================================================
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void Renderer::drawMedia(ANativeWindow_Buffer& buffer, MediaAsset& media, float alpha, float finalOffsetX, float finalOffsetY, float finalScale) {
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if (!media.isValid() || alpha <= 0.0f) return;
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if (media.getType() == MediaAsset::Type::IMAGE) {
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renderImageFrame(media, buffer, finalScale, finalOffsetX, finalOffsetY, alpha);
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} else {
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renderVideoFrame(media, buffer, finalScale, finalOffsetX, finalOffsetY, alpha);
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}
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}
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void Renderer::renderImageFrame(const MediaAsset& media, ANativeWindow_Buffer& buffer, float scale, float offsetX, float offsetY, float alpha) {
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uint32_t* dstPixels = (uint32_t*)buffer.bits;
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int dstStride = buffer.stride;
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const uint8_t* pixelData = media.getType() == MediaAsset::Type::IMAGE ? media.getImageData() : media.getRgbBuffer().data();
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if (!pixelData) return;
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int imgW = media.getWidth();
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int imgH = media.getHeight();
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uint8_t alphaByte = static_cast<uint8_t>(alpha * 255.0f);
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for (int y = 0; y < buffer.height; ++y) {
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int srcY = static_cast<int>((y + offsetY) / scale);
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if (srcY < 0 || srcY >= imgH) continue;
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uint32_t* dstRow = dstPixels + y * dstStride;
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for (int x = 0; x < buffer.width; ++x) {
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int srcX = static_cast<int>((x + offsetX) / scale);
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if (srcX < 0 || srcX >= imgW) continue;
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const uint8_t* srcPixel = &pixelData[(srcY * imgW + srcX) * 4];
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uint32_t dstPixelValue = dstRow[x];
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uint8_t dstB = (dstPixelValue >> 0) & 0xFF;
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uint8_t dstG = (dstPixelValue >> 8) & 0xFF;
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uint8_t dstR = (dstPixelValue >> 16) & 0xFF;
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uint8_t finalR = (srcPixel[0] * alphaByte + dstR * (255 - alphaByte)) / 255;
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uint8_t finalG = (srcPixel[1] * alphaByte + dstG * (255 - alphaByte)) / 255;
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uint8_t finalB = (srcPixel[2] * alphaByte + dstB * (255 - alphaByte)) / 255;
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dstRow[x] = (0xFF << 24) | (finalR << 16) | (finalG << 8) | finalB;
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}
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}
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}
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void Renderer::renderVideoFrame(MediaAsset& media, ANativeWindow_Buffer& buffer, float scale, float offsetX, float offsetY, float alpha) {
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AVFormatContext* fmt_ctx = media.getFormatContext();
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AVCodecContext* codec_ctx = media.getCodecContext();
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AVFrame* frame = media.getFrame();
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AVPacket* pkt = media.getPacket();
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SwsContext* sws_ctx = media.getSwsContext();
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int video_stream_idx = media.getVideoStreamIndex();
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if (!fmt_ctx || !codec_ctx || !frame || !pkt || !sws_ctx) return;
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int ret = av_read_frame(fmt_ctx, pkt);
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if (ret >= 0) {
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if (pkt->stream_index == video_stream_idx) {
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if (avcodec_send_packet(codec_ctx, pkt) >= 0) {
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if (avcodec_receive_frame(codec_ctx, frame) == 0) {
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std::vector<uint8_t>& rgbBuf = media.getRgbBuffer();
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uint8_t* dst[4] = { rgbBuf.data(), nullptr, nullptr, nullptr };
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int dstStride_arr[4] = { media.getWidth() * 4, 0, 0, 0 };
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sws_scale(sws_ctx, frame->data, frame->linesize, 0, media.getHeight(), dst, dstStride_arr);
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}
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}
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}
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av_packet_unref(pkt);
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} else if (ret == AVERROR_EOF) {
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av_seek_frame(fmt_ctx, video_stream_idx, 0, AVSEEK_FLAG_BACKWARD);
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}
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renderImageFrame(media, buffer, scale, offsetX, offsetY, alpha);
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}
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void Renderer::calculateFitScaleAndOffset(const MediaAsset& media, int surfaceWidth, int surfaceHeight, float& outScale, float& outOffsetX, float& outOffsetY) const {
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if (!media.isValid() || media.getWidth() == 0 || media.getHeight() == 0) {
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outScale = 1.0f; outOffsetX = 0.0f; outOffsetY = 0.0f;
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return;
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}
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float mediaAspect = static_cast<float>(media.getWidth()) / media.getHeight();
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float surfaceAspect = static_cast<float>(surfaceWidth) / surfaceHeight;
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if (mediaAspect > surfaceAspect) {
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outScale = static_cast<float>(surfaceHeight) / media.getHeight();
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outOffsetX = (static_cast<float>(surfaceWidth) - (media.getWidth() * outScale)) / 2.0f;
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outOffsetY = 0.0f;
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} else {
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outScale = static_cast<float>(surfaceWidth) / media.getWidth();
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outOffsetX = 0.0f;
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outOffsetY = (static_cast<float>(surfaceHeight) - (media.getHeight() * outScale)) / 2.0f;
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}
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}
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/**
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* @brief 현재 렌더러의 내부 상태를 문자열로 반환합니다. (디버깅용)
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*/
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std::string Renderer::getDebugInfo() const {
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std::stringstream ss;
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ss << "========== Native State ==========\n";
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ss << " Configured Anim: " << static_cast<int>(configuredAnimationMode_) << "\n";
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ss << " Active Anim : " << static_cast<int>(activeAnimationMode_) << "\n";
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ss << " Configured Trans: " << static_cast<int>(configuredTransitionMode_) << "\n";
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ss << " In CurrentState: " << static_cast<int>(currentState_) << "\n";
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if (currentMedia_.isValid()) {
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ss << " Current Media: VALID ["
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<< (currentMedia_.getType() == MediaAsset::Type::IMAGE ? "Image" : "Video")
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<< " " << currentMedia_.getWidth() << "x" << currentMedia_.getHeight() << "]\n";
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} else {
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ss << " Current Media: INVALID\n";
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}
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if (nextMedia_.isValid()) {
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ss << " Next Media : VALID ["
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<< (nextMedia_.getType() == MediaAsset::Type::IMAGE ? "Image" : "Video")
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<< " " << nextMedia_.getWidth() << "x" << nextMedia_.getHeight() << "]";
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} else {
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ss << " Next Media : INVALID";
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}
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return ss.str();
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} |