/* * Copyright © 2019, VideoLAN and dav1d authors * All rights reserved. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions are met: * * 1. Redistributions of source code must retain the above copyright notice, this * list of conditions and the following disclaimer. * * 2. Redistributions in binary form must reproduce the above copyright notice, * this list of conditions and the following disclaimer in the documentation * and/or other materials provided with the distribution. * * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS" AND * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED * WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE * DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT OWNER OR CONTRIBUTORS BE LIABLE FOR * ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES * (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; * LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND * ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT * (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS * SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. */ #include "config.h" #include "vcs_version.h" #include #include #include #include "dav1d/dav1d.h" #include "common/attributes.h" #include "tools/input/input.h" #include "dp_fifo.h" #include "dp_renderer.h" #define FRAME_OFFSET_TO_PTS(foff) \ (uint64_t)(((foff) * rd_ctx->spf) * 1000000000.0 + .5) #define TS_TO_PTS(ts) \ (uint64_t)(((ts) * rd_ctx->timebase) * 1000000000.0 + .5) // Selected renderer callbacks and cookie static const Dav1dPlayRenderInfo *renderer_info = { NULL }; /** * Render context structure * This structure contains informations necessary * to be shared between the decoder and the renderer * threads. */ typedef struct render_context { Dav1dPlaySettings settings; Dav1dSettings lib_settings; // Renderer private data (passed to callbacks) void *rd_priv; // Lock to protect access to the context structure SDL_mutex *lock; // Timestamp of last displayed frame (in timebase unit) int64_t last_ts; // Timestamp of last decoded frame (in timebase unit) int64_t current_ts; // Ticks when last frame was received uint32_t last_ticks; // PTS time base double timebase; // Seconds per frame double spf; // Number of frames uint32_t total; // Fifo Dav1dPlayPtrFifo *fifo; // Custom SDL2 event types uint32_t event_types; // User pause state uint8_t user_paused; // Internal pause state uint8_t paused; // Start of internal pause state uint32_t pause_start; // Duration of internal pause state uint32_t pause_time; // Seek accumulator int seek; // Indicates if termination of the decoder thread was requested uint8_t dec_should_terminate; } Dav1dPlayRenderContext; static void dp_settings_print_usage(const char *const app, const char *const reason, ...) { if (reason) { va_list args; va_start(args, reason); vfprintf(stderr, reason, args); va_end(args); fprintf(stderr, "\n\n"); } fprintf(stderr, "Usage: %s [options]\n\n", app); fprintf(stderr, "Supported options:\n" " --input/-i $file: input file\n" " --untimed/-u: ignore PTS, render as fast as possible\n" " --threads $num: number of threads (default: 0)\n" " --framedelay $num: maximum frame delay, capped at $threads (default: 0);\n" " set to 1 for low-latency decoding\n" " --highquality: enable high quality rendering\n" " --zerocopy/-z: enable zero copy upload path\n" " --gpugrain/-g: enable GPU grain synthesis\n" " --fullscreen/-f: enable full screen mode\n" " --version/-v: print version and exit\n" " --renderer/-r: select renderer backend (default: auto)\n"); exit(1); } static unsigned parse_unsigned(const char *const optarg, const int option, const char *const app) { char *end; const unsigned res = (unsigned) strtoul(optarg, &end, 0); if (*end || end == optarg) dp_settings_print_usage(app, "Invalid argument \"%s\" for option %s; should be an integer", optarg, option); return res; } static void dp_rd_ctx_parse_args(Dav1dPlayRenderContext *rd_ctx, const int argc, char *const *const argv) { int o; Dav1dPlaySettings *settings = &rd_ctx->settings; Dav1dSettings *lib_settings = &rd_ctx->lib_settings; // Short options static const char short_opts[] = "i:vuzgfr:"; enum { ARG_THREADS = 256, ARG_FRAME_DELAY, ARG_HIGH_QUALITY, }; // Long options static const struct option long_opts[] = { { "input", 1, NULL, 'i' }, { "version", 0, NULL, 'v' }, { "untimed", 0, NULL, 'u' }, { "threads", 1, NULL, ARG_THREADS }, { "framedelay", 1, NULL, ARG_FRAME_DELAY }, { "highquality", 0, NULL, ARG_HIGH_QUALITY }, { "zerocopy", 0, NULL, 'z' }, { "gpugrain", 0, NULL, 'g' }, { "fullscreen", 0, NULL, 'f'}, { "renderer", 0, NULL, 'r'}, { NULL, 0, NULL, 0 }, }; while ((o = getopt_long(argc, argv, short_opts, long_opts, NULL)) != -1) { switch (o) { case 'i': settings->inputfile = optarg; break; case 'v': fprintf(stderr, "%s\n", dav1d_version()); exit(0); case 'u': settings->untimed = true; break; case ARG_HIGH_QUALITY: settings->highquality = true; break; case 'z': settings->zerocopy = true; break; case 'g': settings->gpugrain = true; break; case 'f': settings->fullscreen = true; break; case 'r': settings->renderer_name = optarg; break; case ARG_THREADS: lib_settings->n_threads = parse_unsigned(optarg, ARG_THREADS, argv[0]); break; case ARG_FRAME_DELAY: lib_settings->max_frame_delay = parse_unsigned(optarg, ARG_FRAME_DELAY, argv[0]); break; default: dp_settings_print_usage(argv[0], NULL); } } if (optind < argc) dp_settings_print_usage(argv[0], "Extra/unused arguments found, e.g. '%s'\n", argv[optind]); if (!settings->inputfile) dp_settings_print_usage(argv[0], "Input file (-i/--input) is required"); if (settings->renderer_name && strcmp(settings->renderer_name, "auto") == 0) settings->renderer_name = NULL; } /** * Destroy a Dav1dPlayRenderContext */ static void dp_rd_ctx_destroy(Dav1dPlayRenderContext *rd_ctx) { assert(rd_ctx != NULL); renderer_info->destroy_renderer(rd_ctx->rd_priv); dp_fifo_destroy(rd_ctx->fifo); SDL_DestroyMutex(rd_ctx->lock); free(rd_ctx); } /** * Create a Dav1dPlayRenderContext * * \note The Dav1dPlayRenderContext must be destroyed * again by using dp_rd_ctx_destroy. */ static Dav1dPlayRenderContext *dp_rd_ctx_create(int argc, char **argv) { Dav1dPlayRenderContext *rd_ctx; // Alloc rd_ctx = calloc(1, sizeof(Dav1dPlayRenderContext)); if (rd_ctx == NULL) { return NULL; } // Parse and validate arguments dav1d_default_settings(&rd_ctx->lib_settings); memset(&rd_ctx->settings, 0, sizeof(rd_ctx->settings)); dp_rd_ctx_parse_args(rd_ctx, argc, argv); // Init SDL2 library if (SDL_Init(SDL_INIT_VIDEO | SDL_INIT_TIMER) < 0) { fprintf(stderr, "SDL_Init failed: %s\n", SDL_GetError()); goto fail; } // Register a custom event to notify our SDL main thread // about new frames rd_ctx->event_types = SDL_RegisterEvents(3); if (rd_ctx->event_types == UINT32_MAX) { fprintf(stderr, "Failure to create custom SDL event types!\n"); goto fail; } rd_ctx->fifo = dp_fifo_create(5); if (rd_ctx->fifo == NULL) { fprintf(stderr, "Failed to create FIFO for output pictures!\n"); goto fail; } rd_ctx->lock = SDL_CreateMutex(); if (rd_ctx->lock == NULL) { fprintf(stderr, "SDL_CreateMutex failed: %s\n", SDL_GetError()); goto fail; } // Select renderer renderer_info = dp_get_renderer(rd_ctx->settings.renderer_name); if (renderer_info == NULL) { printf("No suitable renderer matching %s found.\n", (rd_ctx->settings.renderer_name) ? rd_ctx->settings.renderer_name : "auto"); } else { printf("Using %s renderer\n", renderer_info->name); } rd_ctx->rd_priv = (renderer_info) ? renderer_info->create_renderer(&rd_ctx->settings) : NULL; if (rd_ctx->rd_priv == NULL) { goto fail; } return rd_ctx; fail: if (rd_ctx->lock) SDL_DestroyMutex(rd_ctx->lock); if (rd_ctx->fifo) dp_fifo_destroy(rd_ctx->fifo); free(rd_ctx); SDL_Quit(); return NULL; } /** * Notify about new event */ static void dp_rd_ctx_post_event(Dav1dPlayRenderContext *rd_ctx, uint32_t type) { SDL_Event event; SDL_zero(event); event.type = type; SDL_PushEvent(&event); } /** * Update the decoder context with a new dav1d picture * * Once the decoder decoded a new picture, this call can be used * to update the internal texture of the render context with the * new picture. */ static void dp_rd_ctx_update_with_dav1d_picture(Dav1dPlayRenderContext *rd_ctx, Dav1dPicture *dav1d_pic) { rd_ctx->current_ts = dav1d_pic->m.timestamp; renderer_info->update_frame(rd_ctx->rd_priv, dav1d_pic, &rd_ctx->settings); } /** * Toggle pause state */ static void dp_rd_ctx_toggle_pause(Dav1dPlayRenderContext *rd_ctx) { SDL_LockMutex(rd_ctx->lock); rd_ctx->user_paused = !rd_ctx->user_paused; if (rd_ctx->seek) goto out; rd_ctx->paused = rd_ctx->user_paused; uint32_t now = SDL_GetTicks(); if (rd_ctx->paused) rd_ctx->pause_start = now; else { rd_ctx->pause_time += now - rd_ctx->pause_start; rd_ctx->pause_start = 0; rd_ctx->last_ticks = now; } out: SDL_UnlockMutex(rd_ctx->lock); } /** * Query pause state */ static int dp_rd_ctx_is_paused(Dav1dPlayRenderContext *rd_ctx) { int ret; SDL_LockMutex(rd_ctx->lock); ret = rd_ctx->paused; SDL_UnlockMutex(rd_ctx->lock); return ret; } /** * Request seeking, in seconds */ static void dp_rd_ctx_seek(Dav1dPlayRenderContext *rd_ctx, int sec) { SDL_LockMutex(rd_ctx->lock); rd_ctx->seek += sec; if (!rd_ctx->paused) rd_ctx->pause_start = SDL_GetTicks(); rd_ctx->paused = 1; SDL_UnlockMutex(rd_ctx->lock); } static int decode_frame(Dav1dPicture **p, Dav1dContext *c, Dav1dData *data, DemuxerContext *in_ctx); static inline void destroy_pic(void *a); /** * Seek the stream, if requested */ static int dp_rd_ctx_handle_seek(Dav1dPlayRenderContext *rd_ctx, DemuxerContext *in_ctx, Dav1dContext *c, Dav1dData *data) { int res = 0; SDL_LockMutex(rd_ctx->lock); if (!rd_ctx->seek) goto out; int64_t seek = rd_ctx->seek * 1000000000ULL; uint64_t pts = TS_TO_PTS(rd_ctx->current_ts); pts = ((int64_t)pts > -seek) ? pts + seek : 0; int end = pts >= FRAME_OFFSET_TO_PTS(rd_ctx->total); if (end) pts = FRAME_OFFSET_TO_PTS(rd_ctx->total - 1); uint64_t target_pts = pts; dav1d_flush(c); uint64_t shift = FRAME_OFFSET_TO_PTS(5); while (1) { if (shift > pts) shift = pts; if ((res = input_seek(in_ctx, pts - shift))) goto out; Dav1dSequenceHeader seq; uint64_t cur_pts; do { if ((res = input_read(in_ctx, data))) break; cur_pts = TS_TO_PTS(data->m.timestamp); res = dav1d_parse_sequence_header(&seq, data->data, data->sz); } while (res && cur_pts < pts); if (!res && cur_pts <= pts) break; if (shift > pts) shift = pts; pts -= shift; } if (!res) { pts = TS_TO_PTS(data->m.timestamp); while (pts < target_pts) { Dav1dPicture *p; if ((res = decode_frame(&p, c, data, in_ctx))) break; if (p) { pts = TS_TO_PTS(p->m.timestamp); if (pts < target_pts) destroy_pic(p); else { dp_fifo_push(rd_ctx->fifo, p); uint32_t type = rd_ctx->event_types + DAV1D_EVENT_SEEK_FRAME; dp_rd_ctx_post_event(rd_ctx, type); } } } if (!res) { rd_ctx->last_ts = data->m.timestamp - rd_ctx->spf / rd_ctx->timebase; rd_ctx->current_ts = data->m.timestamp; } } out: rd_ctx->paused = rd_ctx->user_paused; if (!rd_ctx->paused && rd_ctx->seek) { uint32_t now = SDL_GetTicks(); rd_ctx->pause_time += now - rd_ctx->pause_start; rd_ctx->pause_start = 0; rd_ctx->last_ticks = now; } rd_ctx->seek = 0; SDL_UnlockMutex(rd_ctx->lock); if (res) fprintf(stderr, "Error seeking, aborting\n"); return res; } /** * Terminate decoder thread (async) */ static void dp_rd_ctx_request_shutdown(Dav1dPlayRenderContext *rd_ctx) { SDL_LockMutex(rd_ctx->lock); rd_ctx->dec_should_terminate = 1; SDL_UnlockMutex(rd_ctx->lock); } /** * Query state of decoder shutdown request */ static int dp_rd_ctx_should_terminate(Dav1dPlayRenderContext *rd_ctx) { int ret = 0; SDL_LockMutex(rd_ctx->lock); ret = rd_ctx->dec_should_terminate; SDL_UnlockMutex(rd_ctx->lock); return ret; } /** * Render the currently available texture * * Renders the currently available texture, if any. */ static void dp_rd_ctx_render(Dav1dPlayRenderContext *rd_ctx) { SDL_LockMutex(rd_ctx->lock); // Calculate time since last frame was received uint32_t ticks_now = SDL_GetTicks(); uint32_t ticks_diff = (rd_ctx->last_ticks != 0) ? ticks_now - rd_ctx->last_ticks : 0; // Calculate when to display the frame int64_t ts_diff = rd_ctx->current_ts - rd_ctx->last_ts; int32_t pts_diff = (ts_diff * rd_ctx->timebase) * 1000.0 + .5; int32_t wait_time = pts_diff - ticks_diff; // In untimed mode, simply don't wait if (rd_ctx->settings.untimed) wait_time = 0; // This way of timing the playback is not accurate, as there is no guarantee // that SDL_Delay will wait for exactly the requested amount of time so in a // accurate player this would need to be done in a better way. if (wait_time > 0) { SDL_Delay(wait_time); } else if (wait_time < -10 && !rd_ctx->paused) { // Do not warn for minor time drifts fprintf(stderr, "Frame displayed %f seconds too late\n", wait_time / 1000.0); } renderer_info->render(rd_ctx->rd_priv, &rd_ctx->settings); rd_ctx->last_ts = rd_ctx->current_ts; rd_ctx->last_ticks = SDL_GetTicks(); SDL_UnlockMutex(rd_ctx->lock); } static int decode_frame(Dav1dPicture **p, Dav1dContext *c, Dav1dData *data, DemuxerContext *in_ctx) { int res; // Send data packets we got from the demuxer to dav1d if ((res = dav1d_send_data(c, data)) < 0) { // On EAGAIN, dav1d can not consume more data and // dav1d_get_picture needs to be called first, which // will happen below, so just keep going in that case // and do not error out. if (res != DAV1D_ERR(EAGAIN)) { dav1d_data_unref(data); goto err; } } *p = calloc(1, sizeof(**p)); // Try to get a decoded frame if ((res = dav1d_get_picture(c, *p)) < 0) { // In all error cases, even EAGAIN, p needs to be freed as // it is never added to the queue and would leak. free(*p); *p = NULL; // On EAGAIN, it means dav1d has not enough data to decode // therefore this is not a decoding error but just means // we need to feed it more data, which happens in the next // run of the decoder loop. if (res != DAV1D_ERR(EAGAIN)) goto err; } return data->sz == 0 ? input_read(in_ctx, data) : 0; err: fprintf(stderr, "Error decoding frame: %s\n", strerror(-res)); return res; } static inline void destroy_pic(void *a) { Dav1dPicture *p = (Dav1dPicture *)a; dav1d_picture_unref(p); free(p); } /* Decoder thread "main" function */ static int decoder_thread_main(void *cookie) { Dav1dPlayRenderContext *rd_ctx = cookie; Dav1dPicture *p; Dav1dContext *c = NULL; Dav1dData data; DemuxerContext *in_ctx = NULL; int res = 0; unsigned total, timebase[2], fps[2]; Dav1dPlaySettings settings = rd_ctx->settings; if ((res = input_open(&in_ctx, "ivf", settings.inputfile, fps, &total, timebase)) < 0) { fprintf(stderr, "Failed to open demuxer\n"); res = 1; goto cleanup; } rd_ctx->timebase = (double)timebase[1] / timebase[0]; rd_ctx->spf = (double)fps[1] / fps[0]; rd_ctx->total = total; if ((res = dav1d_open(&c, &rd_ctx->lib_settings))) { fprintf(stderr, "Failed opening dav1d decoder\n"); res = 1; goto cleanup; } if ((res = input_read(in_ctx, &data)) < 0) { fprintf(stderr, "Failed demuxing input\n"); res = 1; goto cleanup; } // Decoder loop while (1) { if (dp_rd_ctx_should_terminate(rd_ctx) || (res = dp_rd_ctx_handle_seek(rd_ctx, in_ctx, c, &data)) || (res = decode_frame(&p, c, &data, in_ctx))) { break; } else if (p) { // Queue frame SDL_LockMutex(rd_ctx->lock); int seek = rd_ctx->seek; SDL_UnlockMutex(rd_ctx->lock); if (!seek) { dp_fifo_push(rd_ctx->fifo, p); uint32_t type = rd_ctx->event_types + DAV1D_EVENT_NEW_FRAME; dp_rd_ctx_post_event(rd_ctx, type); } } } // Release remaining data if (data.sz > 0) dav1d_data_unref(&data); // Do not drain in case an error occured and caused us to leave the // decoding loop early. if (res < 0) goto cleanup; // Drain decoder // When there is no more data to feed to the decoder, for example // because the file ended, we still need to request pictures, as // even though we do not have more data, there can be frames decoded // from data we sent before. So we need to call dav1d_get_picture until // we get an EAGAIN error. do { if (dp_rd_ctx_should_terminate(rd_ctx)) break; p = calloc(1, sizeof(*p)); res = dav1d_get_picture(c, p); if (res < 0) { free(p); if (res != DAV1D_ERR(EAGAIN)) { fprintf(stderr, "Error decoding frame: %s\n", strerror(-res)); break; } } else { // Queue frame dp_fifo_push(rd_ctx->fifo, p); uint32_t type = rd_ctx->event_types + DAV1D_EVENT_NEW_FRAME; dp_rd_ctx_post_event(rd_ctx, type); } } while (res != DAV1D_ERR(EAGAIN)); cleanup: dp_rd_ctx_post_event(rd_ctx, rd_ctx->event_types + DAV1D_EVENT_DEC_QUIT); if (in_ctx) input_close(in_ctx); if (c) dav1d_close(&c); return (res != DAV1D_ERR(EAGAIN) && res < 0); } int main(int argc, char **argv) { SDL_Thread *decoder_thread; // Check for version mismatch between library and tool const char *version = dav1d_version(); if (strcmp(version, DAV1D_VERSION)) { fprintf(stderr, "Version mismatch (library: %s, executable: %s)\n", version, DAV1D_VERSION); return 1; } // Create render context Dav1dPlayRenderContext *rd_ctx = dp_rd_ctx_create(argc, argv); if (rd_ctx == NULL) { fprintf(stderr, "Failed creating render context\n"); return 5; } if (rd_ctx->settings.zerocopy) { if (renderer_info->alloc_pic) { rd_ctx->lib_settings.allocator = (Dav1dPicAllocator) { .cookie = rd_ctx->rd_priv, .alloc_picture_callback = renderer_info->alloc_pic, .release_picture_callback = renderer_info->release_pic, }; } else { fprintf(stderr, "--zerocopy unsupported by selected renderer\n"); } } if (rd_ctx->settings.gpugrain) { if (renderer_info->supports_gpu_grain) { rd_ctx->lib_settings.apply_grain = 0; } else { fprintf(stderr, "--gpugrain unsupported by selected renderer\n"); } } // Start decoder thread decoder_thread = SDL_CreateThread(decoder_thread_main, "Decoder thread", rd_ctx); // Main loop #define NUM_MAX_EVENTS 8 SDL_Event events[NUM_MAX_EVENTS]; int num_frame_events = 0; uint32_t start_time = 0, n_out = 0; while (1) { int num_events = 0; SDL_WaitEvent(NULL); while (num_events < NUM_MAX_EVENTS && SDL_PollEvent(&events[num_events++])) break; for (int i = 0; i < num_events; ++i) { SDL_Event *e = &events[i]; if (e->type == SDL_QUIT) { dp_rd_ctx_request_shutdown(rd_ctx); dp_fifo_flush(rd_ctx->fifo, destroy_pic); goto out; } else if (e->type == SDL_WINDOWEVENT) { if (e->window.event == SDL_WINDOWEVENT_SIZE_CHANGED) { // TODO: Handle window resizes } else if(e->window.event == SDL_WINDOWEVENT_EXPOSED) { dp_rd_ctx_render(rd_ctx); } } else if (e->type == SDL_KEYDOWN) { SDL_KeyboardEvent *kbde = (SDL_KeyboardEvent *)e; if (kbde->keysym.sym == SDLK_SPACE) { dp_rd_ctx_toggle_pause(rd_ctx); } else if (kbde->keysym.sym == SDLK_ESCAPE) { dp_rd_ctx_request_shutdown(rd_ctx); dp_fifo_flush(rd_ctx->fifo, destroy_pic); goto out; } else if (kbde->keysym.sym == SDLK_LEFT || kbde->keysym.sym == SDLK_RIGHT) { if (kbde->keysym.sym == SDLK_LEFT) dp_rd_ctx_seek(rd_ctx, -5); else if (kbde->keysym.sym == SDLK_RIGHT) dp_rd_ctx_seek(rd_ctx, +5); dp_fifo_flush(rd_ctx->fifo, destroy_pic); SDL_FlushEvent(rd_ctx->event_types + DAV1D_EVENT_NEW_FRAME); num_frame_events = 0; } } else if (e->type == rd_ctx->event_types + DAV1D_EVENT_NEW_FRAME) { num_frame_events++; // Store current ticks for stats calculation if (start_time == 0) start_time = SDL_GetTicks(); } else if (e->type == rd_ctx->event_types + DAV1D_EVENT_SEEK_FRAME) { // Dequeue frame and update the render context with it Dav1dPicture *p = dp_fifo_shift(rd_ctx->fifo); // Do not update textures during termination if (!dp_rd_ctx_should_terminate(rd_ctx)) { dp_rd_ctx_update_with_dav1d_picture(rd_ctx, p); n_out++; } destroy_pic(p); } else if (e->type == rd_ctx->event_types + DAV1D_EVENT_DEC_QUIT) { goto out; } } if (num_frame_events && !dp_rd_ctx_is_paused(rd_ctx)) { // Dequeue frame and update the render context with it Dav1dPicture *p = dp_fifo_shift(rd_ctx->fifo); // Do not update textures during termination if (!dp_rd_ctx_should_terminate(rd_ctx)) { dp_rd_ctx_update_with_dav1d_picture(rd_ctx, p); dp_rd_ctx_render(rd_ctx); n_out++; } destroy_pic(p); num_frame_events--; } } out:; // Print stats uint32_t time_ms = SDL_GetTicks() - start_time - rd_ctx->pause_time; printf("Decoded %u frames in %d seconds, avg %.02f fps\n", n_out, time_ms / 1000, n_out/ (time_ms / 1000.0)); int decoder_ret = 0; SDL_WaitThread(decoder_thread, &decoder_ret); dp_rd_ctx_destroy(rd_ctx); SDL_Quit(); return decoder_ret; }