8c8601e1fd
* CMakeLists - Set Std updates
* Jenkins - Code coverage
* Jenkins - Fix and cleanup
* Jenkins - Fix
* Jenkins - Fix
* Jenkins - Fix
* Jenkins - Fix
* Use amdclang compiler
* Remove slash in front of quote
* Jenkins - Fix
* Jenkins - Fix location
* Jenkins - Fix perf export
* Jenkins - .so fix
* Jenkins - lcov
* Install fix
* Use repo token for codecov
* Pass in sha to codecov
* Use clang19 for ubu24
* Use default clang
* CMakeLists - Set Std updates
* Jenkins - Code coverage
* Jenkins - Fix and cleanup
* Jenkins - Fix
* Jenkins - Fix
* Jenkins - Fix
* Jenkins - Fix
* Use amdclang compiler
* Remove slash in front of quote
* Jenkins - Fix
* Jenkins - Fix location
* Jenkins - Fix perf export
* Jenkins - .so fix
* Jenkins - lcov
* Install fix
* Use repo token for codecov
* Pass in sha to codecov
* Use clang19 for ubu24
* Use default clang
* Set proxy for codecov uploader
Needed for gfx90a
---------
Co-authored-by: Sam Wu <22262939+samjwu@users.noreply.github.com>
[ROCm/rocdecode commit: 5eab03d198]
Video decode sample
The VideoToSequence sample illustrates decoding a single packetized video stream using FFMPEG demuxer and splitting it into multiple video sequences. This uses seek functionality to seek to a random position and extract a batch of video sequences in YUV format with step and stride. This sample can be configured with a device ID and optionally able to dump the output to a file. This sample uses the high-level RocVideoDecoder class which connects both the video parser and Rocdecoder. This process repeats until a batch of sequences are extracted or EOS is reached.
Prerequisites:
-
Install rocDecode
-
- On
Ubuntu
sudo apt install libavcodec-dev libavformat-dev libavutil-dev- On
RHEL/SLES- install ffmpeg development packages manually or use rocDecode-setup.py script
- On
Build
mkdir video_decode_sample && cd video_decode_sample
cmake ../
make -j
Run
./videotosequence -i <Input file/folder Path [required]>
-o <Output folder to dump sequences - dumps output if requested [optional]>
-d <GPU device ID - 0:device 0 / 1:device 1/ ... [optional - default:0]>
-b <batch_size - specify the number of sequences to be decoded [optional - default:1]>
-step <frame interval between each sequence [optional - default:1]>
-stride <distance between consective frames in a sequence [optional - default:1]>
-l <Number of frames in each sequence [optional - default:1]>
-crop <crop rectangle for output (not used when using interopped decoded frame) [optional - default:1]>
-seek_mode <option for seeking (0: no seek 1: seek to prev key frame) [optional - default: 0]>
-crop <crop rectangle for output (not used when using interopped decoded frame) [optional - default: 0,0,0,0]>
-m <output_surface_memory_type - decoded surface memory [optional - default: 0][0 : OUT_SURFACE_MEM_DEV_INTERNAL/ 1 : OUT_SURFACE_MEM_DEV_COPIED/ 2 : OUT_SURFACE_MEM_HOST_COPIED/3 : OUT_SURFACE_MEM_NOT_MAPPED]>