/* * Copyright (c) 2016 The ZLMediaKit project authors. All Rights Reserved. * * This file is part of ZLMediaKit(https://github.com/xia-chu/ZLMediaKit). * * Use of this source code is governed by MIT license that can be found in the * LICENSE file in the root of the source tree. All contributing project authors * may be found in the AUTHORS file in the root of the source tree. */ #include "mk_transcode.h" #include "Extension/Track.h" using namespace mediakit; std::vector toCodecList(const char *codec_name_list[]) { std::vector codec_list; auto i = 0U; while (codec_name_list[i]) { codec_list.emplace_back(codec_name_list[i]); ++i; } return codec_list; } #ifdef ENABLE_FFMPEG #include "Codec/Transcode.h" API_EXPORT mk_decoder API_CALL mk_decoder_create(mk_track track, int thread_num) { assert(track); return new FFmpegDecoder(*((Track::Ptr *) track), thread_num); } API_EXPORT mk_decoder API_CALL mk_decoder_create2(mk_track track, int thread_num, const char *codec_name_list[]) { assert(track && codec_name_list); return new FFmpegDecoder(*((Track::Ptr *) track), thread_num, toCodecList(codec_name_list)); } API_EXPORT void API_CALL mk_decoder_release(mk_decoder ctx, int flush_frame) { assert(ctx); auto decoder = (FFmpegDecoder *) ctx; if (flush_frame) { decoder->stopThread(false); } delete decoder; } API_EXPORT void API_CALL mk_decoder_decode(mk_decoder ctx, mk_frame frame, int async, int enable_merge) { assert(ctx && frame); ((FFmpegDecoder *) ctx)->inputFrame(*((Frame::Ptr *) frame), false, async, enable_merge); } API_EXPORT void API_CALL mk_decoder_set_max_async_frame_size(mk_decoder ctx, size_t size) { assert(ctx && size); ((FFmpegDecoder *) ctx)->setMaxTaskSize(size); } API_EXPORT void API_CALL mk_decoder_set_cb(mk_decoder ctx, on_mk_decode cb, void *user_data) { assert(ctx && cb); ((FFmpegDecoder *) ctx)->setOnDecode([cb, user_data](const FFmpegFrame::Ptr &pix_frame) { cb(user_data, (mk_frame_pix) &pix_frame); }); } API_EXPORT const AVCodecContext *API_CALL mk_decoder_get_context(mk_decoder ctx) { assert(ctx); return ((FFmpegDecoder *) ctx)->getContext(); } ///////////////////////////////////////////////////////////////////////////////////////////// API_EXPORT mk_frame_pix API_CALL mk_frame_pix_ref(mk_frame_pix frame) { assert(frame); return new FFmpegFrame::Ptr(*(FFmpegFrame::Ptr *) frame); } API_EXPORT mk_frame_pix API_CALL mk_frame_pix_from_av_frame(AVFrame *frame) { assert(frame); return new FFmpegFrame::Ptr(std::make_shared(std::shared_ptr(av_frame_clone(frame), [](AVFrame *frame){ av_frame_free(&frame); }))); } API_EXPORT mk_frame_pix API_CALL mk_frame_pix_from_buffer(mk_buffer plane_data[], int line_size[], int plane) { assert(plane <= AV_NUM_DATA_POINTERS); std::shared_ptr frame(av_frame_alloc(), [](AVFrame *ptr) { av_frame_free(&ptr); }); std::vector buffer_array; for (auto i = 0; i < plane; ++i) { auto buffer = mk_buffer_ref(plane_data[i]); frame->data[i] = (uint8_t *) mk_buffer_get_data(buffer); frame->linesize[i] = line_size[i]; buffer_array.emplace_back(buffer); } return new FFmpegFrame::Ptr(new FFmpegFrame(std::move(frame)), [buffer_array](FFmpegFrame *frame) { for (auto &buffer : buffer_array) { mk_buffer_unref(buffer); } delete frame; }); } API_EXPORT void API_CALL mk_frame_pix_unref(mk_frame_pix frame) { assert(frame); delete (FFmpegFrame::Ptr *) frame; } API_EXPORT AVFrame *API_CALL mk_frame_pix_get_av_frame(mk_frame_pix frame) { assert(frame); return (*(FFmpegFrame::Ptr *) frame)->get(); } ///////////////////////////////////////////////////////////////////////////////////////////// API_EXPORT mk_swscale mk_swscale_create(int output, int width, int height) { return new FFmpegSws((AVPixelFormat) output, width, height); } API_EXPORT void mk_swscale_release(mk_swscale ctx) { delete (FFmpegSws *) ctx; } API_EXPORT int mk_swscale_input_frame(mk_swscale ctx, mk_frame_pix frame, uint8_t *data) { return ((FFmpegSws *) ctx)->inputFrame(*(FFmpegFrame::Ptr *) frame, data); } API_EXPORT mk_frame_pix mk_swscale_input_frame2(mk_swscale ctx, mk_frame_pix frame){ return new FFmpegFrame::Ptr(((FFmpegSws *) ctx)->inputFrame(*(FFmpegFrame::Ptr *) frame)); } API_EXPORT uint8_t **API_CALL mk_get_av_frame_data(AVFrame *frame) { return frame->data; } API_EXPORT void API_CALL mk_set_av_frame_data(AVFrame *frame, uint8_t *data, int plane) { frame->data[plane] = data; } API_EXPORT int *API_CALL mk_get_av_frame_line_size(AVFrame *frame) { return frame->linesize; } API_EXPORT void API_CALL mk_set_av_frame_line_size(AVFrame *frame, int line_size, int plane) { frame->linesize[plane] = line_size; } API_EXPORT int64_t API_CALL mk_get_av_frame_dts(AVFrame *frame) { return frame->pkt_dts; } API_EXPORT void API_CALL mk_set_av_frame_dts(AVFrame *frame, int64_t dts) { frame->pkt_dts = dts; } API_EXPORT int64_t API_CALL mk_get_av_frame_pts(AVFrame *frame) { return frame->pts; } API_EXPORT void API_CALL mk_set_av_frame_pts(AVFrame *frame, int64_t pts) { frame->pts = pts; } API_EXPORT int API_CALL mk_get_av_frame_width(AVFrame *frame) { return frame->width; } API_EXPORT void API_CALL mk_set_av_frame_width(AVFrame *frame, int width) { frame->width = width; } API_EXPORT int API_CALL mk_get_av_frame_height(AVFrame *frame) { return frame->height; } API_EXPORT void API_CALL mk_set_av_frame_height(AVFrame *frame, int height) { frame->height = height; } API_EXPORT int API_CALL mk_get_av_frame_format(AVFrame *frame) { return frame->format; } API_EXPORT void API_CALL mk_set_av_frame_format(AVFrame *frame, int format) { frame->format = format; } #endif //ENABLE_FFMPEG