#include #include #include #include #include #include #include #include #include #include #include #include #include "tgnet/FileLog.h" #include "tgnet/ConnectionsManager.h" #include "c_utils.h" extern "C" { using namespace rlottie; typedef struct LottieInfo { ~LottieInfo() { if (decompressBuffer != nullptr) { delete[]decompressBuffer; decompressBuffer = nullptr; } } std::unique_ptr animation; size_t frameCount = 0; int32_t fps = 30; bool precache = false; bool createCache = false; bool limitFps = false; std::string path; std::string cacheFile; uint8_t *decompressBuffer = nullptr; uint32_t decompressBufferSize = 0; volatile uint32_t maxFrameSize = 0; uint32_t imageSize = 0; uint32_t fileOffset = 0; bool nextFrameIsCacheFrame = false; FILE *precacheFile = nullptr; char *compressBuffer = nullptr; const char *buffer = nullptr; bool firstFrame = false; int bufferSize = 0; int compressBound = 0; int firstFrameSize = 0; volatile uint32_t framesAvailableInCache = 0; }; JNIEXPORT jlong Java_org_telegram_ui_Components_RLottieDrawable_create(JNIEnv *env, jclass clazz, jstring src, jstring json, jint w, jint h, jintArray data, jboolean precache, jintArray colorReplacement, jboolean limitFps, jint fitzModifier) { auto info = new LottieInfo(); std::map *colors = nullptr; int color = 0; if (colorReplacement != nullptr) { jint *arr = env->GetIntArrayElements(colorReplacement, nullptr); if (arr != nullptr) { jsize len = env->GetArrayLength(colorReplacement); colors = new std::map(); for (int32_t a = 0; a < len / 2; a++) { (*colors)[arr[a * 2]] = arr[a * 2 + 1]; if (color == 0) { color = arr[a * 2 + 1]; } } env->ReleaseIntArrayElements(colorReplacement, arr, 0); } } FitzModifier modifier = FitzModifier::None; switch (fitzModifier) { case 12: modifier = FitzModifier::Type12; break; case 3: modifier = FitzModifier::Type3; break; case 4: modifier = FitzModifier::Type4; break; case 5: modifier = FitzModifier::Type5; break; case 6: modifier = FitzModifier::Type6; break; } char const *srcString = env->GetStringUTFChars(src, nullptr); info->path = srcString; if (json != nullptr) { char const *jsonString = env->GetStringUTFChars(json, nullptr); if (jsonString) { info->animation = rlottie::Animation::loadFromData(jsonString, info->path, colors, modifier); env->ReleaseStringUTFChars(json, jsonString); } } else { info->animation = rlottie::Animation::loadFromFile(info->path, colors, modifier); } if (srcString) { env->ReleaseStringUTFChars(src, srcString); } if (info->animation == nullptr) { delete info; return 0; } info->frameCount = info->animation->totalFrame(); info->fps = (int) info->animation->frameRate(); info->limitFps = limitFps; if (info->fps > 60 || info->frameCount > 600) { delete info; return 0; } info->precache = precache; if (info->precache) { info->cacheFile = info->path; std::string::size_type index = info->cacheFile.find_last_of('/'); if (index != std::string::npos) { std::string dir = info->cacheFile.substr(0, index) + "/acache"; mkdir(dir.c_str(), 0777); info->cacheFile.insert(index, "/acache"); } info->cacheFile += std::to_string(w) + "_" + std::to_string(h); if (color != 0) { info->cacheFile += "_" + std::to_string(color); } if (limitFps) { info->cacheFile += ".s.cache"; } else { info->cacheFile += ".cache"; } FILE *precacheFile = fopen(info->cacheFile.c_str(), "r+"); if (precacheFile == nullptr) { info->createCache = true; } else { uint8_t temp; size_t read = fread(&temp, sizeof(uint8_t), 1, precacheFile); info->createCache = read != 1 || temp == 0; if (!info->createCache) { uint32_t maxFrameSize; fread(&maxFrameSize, sizeof(uint32_t), 1, precacheFile); info->maxFrameSize = maxFrameSize; fread(&(info->imageSize), sizeof(uint32_t), 1, precacheFile); info->fileOffset = 9; utimensat(0, info->cacheFile.c_str(), nullptr, 0); } fclose(precacheFile); } } jint *dataArr = env->GetIntArrayElements(data, nullptr); if (dataArr != nullptr) { dataArr[0] = (jint) info->frameCount; dataArr[1] = (jint) info->animation->frameRate(); dataArr[2] = info->createCache ? 1 : 0; env->ReleaseIntArrayElements(data, dataArr, 0); } return (jlong) (intptr_t) info; } JNIEXPORT jlong Java_org_telegram_ui_Components_RLottieDrawable_createWithJson(JNIEnv *env, jclass clazz, jstring json, jstring name, jintArray data, jintArray colorReplacement) { std::map *colors = nullptr; if (colorReplacement != nullptr) { jint *arr = env->GetIntArrayElements(colorReplacement, nullptr); if (arr != nullptr) { jsize len = env->GetArrayLength(colorReplacement); colors = new std::map(); for (int32_t a = 0; a < len / 2; a++) { (*colors)[arr[a * 2]] = arr[a * 2 + 1]; } env->ReleaseIntArrayElements(colorReplacement, arr, 0); } } auto info = new LottieInfo(); char const *jsonString = env->GetStringUTFChars(json, nullptr); char const *nameString = env->GetStringUTFChars(name, nullptr); info->animation = rlottie::Animation::loadFromData(jsonString, nameString, colors); if (jsonString) { env->ReleaseStringUTFChars(json, jsonString); } if (nameString) { env->ReleaseStringUTFChars(name, nameString); } if (info->animation == nullptr) { delete info; return 0; } info->frameCount = info->animation->totalFrame(); info->fps = (int) info->animation->frameRate(); jint *dataArr = env->GetIntArrayElements(data, nullptr); if (dataArr != nullptr) { dataArr[0] = (int) info->frameCount; dataArr[1] = (int) info->animation->frameRate(); dataArr[2] = 0; env->ReleaseIntArrayElements(data, dataArr, 0); } return (jlong) (intptr_t) info; } JNIEXPORT void Java_org_telegram_ui_Components_RLottieDrawable_destroy(JNIEnv *env, jclass clazz, jlong ptr) { if (!ptr) { return; } auto info = (LottieInfo *) (intptr_t) ptr; delete info; } JNIEXPORT void Java_org_telegram_ui_Components_RLottieDrawable_setLayerColor(JNIEnv *env, jclass clazz, jlong ptr, jstring layer, jint color) { if (!ptr || layer == nullptr) { return; } auto info = (LottieInfo *) (intptr_t) ptr; char const *layerString = env->GetStringUTFChars(layer, nullptr); info->animation->setValue(layerString, Color(((color) & 0xff) / 255.0f, ((color >> 8) & 0xff) / 255.0f, ((color >> 16) & 0xff) / 255.0f)); if (layerString) { env->ReleaseStringUTFChars(layer, layerString); } } JNIEXPORT void Java_org_telegram_ui_Components_RLottieDrawable_replaceColors(JNIEnv *env, jclass clazz, jlong ptr, jintArray colorReplacement) { if (!ptr || colorReplacement == nullptr) { return; } auto info = (LottieInfo *) (intptr_t) ptr; jint *arr = env->GetIntArrayElements(colorReplacement, nullptr); if (arr != nullptr) { jsize len = env->GetArrayLength(colorReplacement); for (int32_t a = 0; a < len / 2; a++) { (*info->animation->colorMap)[arr[a * 2]] = arr[a * 2 + 1]; } info->animation->resetCurrentFrame(); env->ReleaseIntArrayElements(colorReplacement, arr, 0); } } bool cacheWriteThreadCreated{false}; LottieInfo *cacheWriteThreadTask{nullptr}; bool cacheWriteThreadDone{false}; std::thread worker; std::mutex cacheMutex; std::condition_variable cacheCv; std::mutex cacheDoneMutex; std::condition_variable cacheDoneCv; std::atomic frameReady{false}; void CacheWriteThreadProc() { while (!cacheWriteThreadDone) { std::unique_lock lk(cacheMutex); cacheCv.wait(lk, [] { return frameReady.load(); }); std::lock_guard lg(cacheDoneMutex); LottieInfo *task; if (cacheWriteThreadTask != nullptr) { task = cacheWriteThreadTask; cacheWriteThreadTask = nullptr; } else { task = nullptr; } lk.unlock(); if (task != nullptr) { auto size = (uint32_t) LZ4_compress_default(task->buffer, task->compressBuffer, task->bufferSize, task->compressBound); if (task->firstFrame) { task->firstFrameSize = size; task->fileOffset = 9 + sizeof(uint32_t) + task->firstFrameSize; } task->maxFrameSize = MAX(task->maxFrameSize, size); fwrite(&size, sizeof(uint32_t), 1, task->precacheFile); fwrite(task->compressBuffer, sizeof(uint8_t), size, task->precacheFile); fflush(task->precacheFile); fsync(fileno(task->precacheFile)); task->framesAvailableInCache++; } frameReady = false; cacheDoneCv.notify_one(); } } JNIEXPORT void Java_org_telegram_ui_Components_RLottieDrawable_createCache(JNIEnv *env, jclass clazz, jlong ptr, jint w, jint h) { if (ptr == NULL) { return; } auto info = (LottieInfo *) (intptr_t) ptr; FILE *cacheFile = fopen(info->cacheFile.c_str(), "r+"); if (cacheFile != nullptr) { uint8_t temp; size_t read = fread(&temp, sizeof(uint8_t), 1, cacheFile); fclose(cacheFile); if (read == 1 && temp != 0) { return; } } if (!cacheWriteThreadCreated) { cacheWriteThreadCreated = true; worker = std::thread(CacheWriteThreadProc); } if (info->nextFrameIsCacheFrame && info->createCache && info->frameCount != 0) { info->precacheFile = fopen(info->cacheFile.c_str(), "w+"); if (info->precacheFile != nullptr) { fseek(info->precacheFile, info->fileOffset = 9, SEEK_SET); info->maxFrameSize = 0; info->bufferSize = w * h * 4; info->imageSize = (uint32_t) w * h * 4; info->compressBound = LZ4_compressBound(info->bufferSize); info->compressBuffer = new char[info->compressBound]; auto firstBuffer = new uint8_t[info->bufferSize]; auto secondBuffer = new uint8_t[info->bufferSize]; //long time = ConnectionsManager::getInstance(0).getCurrentTimeMonotonicMillis(); Surface surface1((uint32_t *) firstBuffer, (size_t) w, (size_t) h, (size_t) w * 4); Surface surface2((uint32_t *) secondBuffer, (size_t) w, (size_t) h, (size_t) w * 4); int framesPerUpdate = !info->limitFps || info->fps < 60 ? 1 : 2; int num = 0; for (size_t a = 0; a < info->frameCount; a += framesPerUpdate) { Surface &surfaceToRender = num % 2 == 0 ? surface1 : surface2; num++; info->animation->renderSync(a, surfaceToRender, true); if (a != 0) { std::unique_lock lk(cacheDoneMutex); cacheDoneCv.wait(lk, [] { return !frameReady.load(); }); } std::lock_guard lg(cacheMutex); cacheWriteThreadTask = info; info->firstFrame = a == 0; info->buffer = (const char *) surfaceToRender.buffer(); frameReady = true; cacheCv.notify_one(); } std::unique_lock lk(cacheDoneMutex); cacheDoneCv.wait(lk, [] { return !frameReady.load(); }); //DEBUG_D("sticker time = %d", (int) (ConnectionsManager::getInstance(0).getCurrentTimeMonotonicMillis() - time)); delete[] info->compressBuffer; delete[] firstBuffer; delete[] secondBuffer; fseek(info->precacheFile, 0, SEEK_SET); uint8_t byte = 1; fwrite(&byte, sizeof(uint8_t), 1, info->precacheFile); uint32_t maxFrameSize = info->maxFrameSize; fwrite(&maxFrameSize, sizeof(uint32_t), 1, info->precacheFile); fwrite(&info->imageSize, sizeof(uint32_t), 1, info->precacheFile); fflush(info->precacheFile); fsync(fileno(info->precacheFile)); info->createCache = false; fclose(info->precacheFile); } } } JNIEXPORT jint Java_org_telegram_ui_Components_RLottieDrawable_getFrame(JNIEnv *env, jclass clazz, jlong ptr, jint frame, jobject bitmap, jint w, jint h, jint stride, jboolean clear) { if (!ptr || bitmap == nullptr) { return 0; } auto info = (LottieInfo *) (intptr_t) ptr; int framesPerUpdate = !info->limitFps || info->fps < 60 ? 1 : 2; int framesAvailableInCache = info->framesAvailableInCache; if (info->createCache && info->precache && frame > 0) { if (frame / framesPerUpdate >= framesAvailableInCache) { return -1; } } void *pixels; if (AndroidBitmap_lockPixels(env, bitmap, &pixels) >= 0) { bool loadedFromCache = false; uint32_t maxFrameSize = info->maxFrameSize; if (info->precache && (!info->createCache || frame > 0) && w * 4 == stride && maxFrameSize <= w * h * 4 && info->imageSize == w * h * 4) { FILE *precacheFile = fopen(info->cacheFile.c_str(), "r"); if (precacheFile != nullptr) { if (info->decompressBuffer != nullptr && info->decompressBufferSize < maxFrameSize) { delete[] info->decompressBuffer; info->decompressBuffer = nullptr; } if (info->decompressBuffer == nullptr) { info->decompressBufferSize = maxFrameSize; if (info->createCache) { info->decompressBufferSize += 10000; } info->decompressBuffer = new uint8_t[info->decompressBufferSize]; } fseek(precacheFile, info->fileOffset, SEEK_SET); uint32_t frameSize; fread(&frameSize, sizeof(uint32_t), 1, precacheFile); if (frameSize > 0 && frameSize <= info->decompressBufferSize) { fread(info->decompressBuffer, sizeof(uint8_t), frameSize, precacheFile); info->fileOffset += 4 + frameSize; LZ4_decompress_safe((const char *) info->decompressBuffer, (char *) pixels, frameSize, w * h * 4); loadedFromCache = true; } fclose(precacheFile); if (frame + framesPerUpdate >= info->frameCount) { info->fileOffset = 9; } } } if (!loadedFromCache) { if (!info->nextFrameIsCacheFrame || !info->precache) { Surface surface((uint32_t *) pixels, (size_t) w, (size_t) h, (size_t) stride); info->animation->renderSync((size_t) frame, surface, clear); info->nextFrameIsCacheFrame = true; } } AndroidBitmap_unlockPixels(env, bitmap); } return frame; } }