/* * Copyright 2011-2016 Branimir Karadzic. All rights reserved. * License: https://github.com/bkaradzic/bgfx#license-bsd-2-clause */ #ifndef AVIWRITER_H_HEADER_GUARD #define AVIWRITER_H_HEADER_GUARD #include // Simple AVI writer. VideoLAN and VirtualDub can decode it. // Needs some bits to get jiggled to work with other players. But it's good // enough for an example. struct AviWriter { AviWriter(bx::FileWriterI* _writer) : m_writer(_writer) , m_frame(NULL) , m_frameSize(0) , m_numFrames(0) , m_width(0) , m_height(0) , m_yflip(false) { } bool open(const char* _filePath, uint32_t _width, uint32_t _height, uint32_t _fps, bool _yflip) { if (0 != m_writer->open(_filePath) ) { return false; } m_frameSize = _width * _height * 3; m_frame = new uint8_t[m_frameSize + 8]; m_numFrames = 0; m_width = _width; m_height = _height; // Bgfx returns _yflip true for OpenGL since bottom left corner is 0, 0. In D3D top left corner // is 0, 0. DIB expect OpenGL style coordinates, so this is inverted logic for AVI writer. m_yflip = !_yflip; bx::StaticMemoryBlockWriter mem(m_frame, 8); // Stream Data (LIST 'movi' Chunk) http://msdn.microsoft.com/en-us/library/ms899496.aspx bx::write(&mem, BX_MAKEFOURCC('0', '0', 'd', 'b') ); bx::write(&mem, m_frameSize); bx::write(m_writer, BX_MAKEFOURCC('R', 'I', 'F', 'F') ); m_riffSizeOffset = m_writer->seek(); bx::write(m_writer, UINT32_C(0) ); bx::write(m_writer, BX_MAKEFOURCC('A', 'V', 'I', ' ') ); // AVI RIFF Form http://msdn.microsoft.com/en-us/library/ms899422.aspx bx::write(m_writer, BX_MAKEFOURCC('L', 'I', 'S', 'T') ); bx::write(m_writer, UINT32_C(192) ); bx::write(m_writer, BX_MAKEFOURCC('h', 'd', 'r', 'l') ); // AVI Main Header http://msdn.microsoft.com/en-us/library/ms779632.aspx bx::write(m_writer, BX_MAKEFOURCC('a', 'v', 'i', 'h') ); bx::write(m_writer, UINT32_C(56) ); bx::write(m_writer, UINT32_C(0) ); // dwMicroSecPerFrame bx::write(m_writer, UINT32_C(0) ); // dwMaxBytesPerSec bx::write(m_writer, UINT32_C(0) ); // dwPaddingGranularity bx::write(m_writer, UINT32_C(0x110) ); // dwFlags m_totalFramesOffset = m_writer->seek(); bx::write(m_writer, UINT32_C(0) ); // dwTotalFrames bx::write(m_writer, UINT32_C(0) ); // dwInitialFrames bx::write(m_writer, UINT32_C(1) ); // dwStreams bx::write(m_writer, UINT32_C(0) ); // dwSuggestedBufferSize bx::write(m_writer, _width); // dwWidth bx::write(m_writer, _height); // dwHeight bx::write(m_writer, UINT32_C(0) ); // dwReserved0 bx::write(m_writer, UINT32_C(0) ); // dwReserved1 bx::write(m_writer, UINT32_C(0) ); // dwReserved2 bx::write(m_writer, UINT32_C(0) ); // dwReserved3 bx::write(m_writer, BX_MAKEFOURCC('L', 'I', 'S', 'T') ); bx::write(m_writer, UINT32_C(116) ); bx::write(m_writer, BX_MAKEFOURCC('s', 't', 'r', 'l') ); // AVISTREAMHEADER Structure http://msdn.microsoft.com/en-us/library/ms779638.aspx bx::write(m_writer, BX_MAKEFOURCC('s', 't', 'r', 'h') ); bx::write(m_writer, UINT32_C(56) ); // AVI Stream Headers http://msdn.microsoft.com/en-us/library/ms899423.aspx bx::write(m_writer, BX_MAKEFOURCC('v', 'i', 'd', 's') ); // fccType bx::write(m_writer, BX_MAKEFOURCC('D', 'I', 'B', ' ') ); // fccHandler bx::write(m_writer, UINT32_C(0) ); // dwFlags bx::write(m_writer, uint16_t(0) ); // wPriority bx::write(m_writer, uint16_t(0) ); // wLanguage bx::write(m_writer, UINT32_C(0) ); // dwInitialFrames bx::write(m_writer, UINT32_C(1) ); // dwScale bx::write(m_writer, _fps); // dwRate bx::write(m_writer, UINT32_C(0) ); // dwStart m_lengthOffset = m_writer->seek(); bx::write(m_writer, UINT32_C(0) ); // dwLength bx::write(m_writer, m_frameSize); // dwSuggestedBufferSize bx::write(m_writer, UINT32_MAX); // dwQuality bx::write(m_writer, UINT32_C(0) ); // dwSampleSize bx::write(m_writer, int16_t(0) ); // rcFrame.left bx::write(m_writer, int16_t(0) ); // rcFrame.top bx::write(m_writer, uint16_t(_width) ); // rcFrame.right bx::write(m_writer, uint16_t(_height) );// rcFrame.bottom bx::write(m_writer, BX_MAKEFOURCC('s', 't', 'r', 'f') ); bx::write(m_writer, UINT32_C(40) ); // BITMAPINFOHEADER structure http://msdn.microsoft.com/en-us/library/windows/desktop/dd318229%28v=vs.85%29.aspx bx::write(m_writer, UINT32_C(40) ); // biSize bx::write(m_writer, _width); // biWidth bx::write(m_writer, _height); // biHeight bx::write(m_writer, uint16_t(1) ); // biPlanes bx::write(m_writer, uint16_t(24) ); // biBitCount bx::write(m_writer, UINT32_C(0) ); // biCompression bx::write(m_writer, m_frameSize); // biSizeImage bx::write(m_writer, UINT32_C(0) ); // biXPelsPerMeter bx::write(m_writer, UINT32_C(0) ); // biYPelsPerMeter bx::write(m_writer, UINT32_C(0) ); // biClrUsed bx::write(m_writer, UINT32_C(0) ); // biClrImportant bx::write(m_writer, BX_MAKEFOURCC('L', 'I', 'S', 'T') ); m_moviListOffset = m_writer->seek(); bx::write(m_writer, UINT32_C(0) ); bx::write(m_writer, BX_MAKEFOURCC('m', 'o', 'v', 'i') ); return true; } void close() { if (NULL != m_frame) { int64_t pos = m_writer->seek(); m_writer->seek(m_moviListOffset, bx::Whence::Begin); bx::write(m_writer, uint32_t(pos-m_moviListOffset-4) ); m_writer->seek(pos, bx::Whence::Begin); bx::write(m_writer, BX_MAKEFOURCC('i', 'd', 'x', '1') ); bx::write(m_writer, m_numFrames*16); for (uint32_t ii = 0, offset = 4; ii < m_numFrames; ++ii) { bx::write(m_writer, BX_MAKEFOURCC('0', '0', 'd', 'b') ); bx::write(m_writer, UINT32_C(16) ); bx::write(m_writer, offset); bx::write(m_writer, m_frameSize); offset += m_frameSize + 8; } pos = m_writer->seek(); m_writer->seek(m_riffSizeOffset, bx::Whence::Begin); bx::write(m_writer, uint32_t(pos-m_riffSizeOffset-4) ); m_writer->seek(m_totalFramesOffset, bx::Whence::Begin); bx::write(m_writer, m_numFrames); m_writer->seek(m_lengthOffset, bx::Whence::Begin); bx::write(m_writer, m_numFrames); m_writer->close(); delete [] m_frame; m_frame = NULL; m_frameSize = 0; } } void frame(const void* _data) { if (NULL != m_frame) { ++m_numFrames; uint32_t width = m_width; uint32_t height = m_height; uint8_t* bgr = &m_frame[8]; if (m_yflip) { for (uint32_t yy = 0; yy < height; ++yy) { const uint8_t* bgra = (const uint8_t*)_data + (height-1-yy)*width*4; for (uint32_t ii = 0; ii < width; ++ii) { bgr[0] = bgra[0]; bgr[1] = bgra[1]; bgr[2] = bgra[2]; bgr += 3; bgra += 4; } } } else { const uint8_t* bgra = (const uint8_t*)_data; for (uint32_t ii = 0, num = m_frameSize/3; ii < num; ++ii) { bgr[0] = bgra[0]; bgr[1] = bgra[1]; bgr[2] = bgra[2]; bgr += 3; bgra += 4; } } bx::write(m_writer, m_frame, m_frameSize+8); } } bx::FileWriterI* m_writer; int64_t m_riffSizeOffset; int64_t m_totalFramesOffset; int64_t m_lengthOffset; int64_t m_moviListOffset; uint8_t* m_frame; uint32_t m_frameSize; uint32_t m_numFrames; uint32_t m_width; uint32_t m_height; bool m_yflip; }; #endif // AVIWRITER_H_HEADER_GUARD