/** * * Lame ACM wrapper, encode/decode MP3 based RIFF/AVI files in MS Windows * * Copyright (c) 2002 Steve Lhomme <steve.lhomme at free.fr> * * This library is free software; you can redistribute it and/or * modify it under the terms of the GNU Lesser General Public * License as published by the Free Software Foundation; either * version 2.1 of the License, or (at your option) any later version. * * This library is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU * Lesser General Public License for more details. * * You should have received a copy of the GNU Lesser General Public * License along with this library; if not, write to the Free Software * Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA * */ /*! \author Steve Lhomme \version \$Id: ACMStream.cpp,v 1.10 2004/07/11 18:11:39 bouvigne Exp $ */ #if !defined(STRICT) #define STRICT #endif // STRICT #include <assert.h> #include <windows.h> #include "adebug.h" #include "ACMStream.h" // static methods ACMStream * ACMStream::Create() { ACMStream * Result; Result = new ACMStream; return Result; } const bool ACMStream::Erase(const ACMStream * a_ACMStream) { delete a_ACMStream; return true; } // class methods ACMStream::ACMStream() : m_WorkingBufferUseSize(0), gfp(NULL) { /// \todo get the debug level from the registry my_debug = new ADbg(DEBUG_LEVEL_CREATION); if (my_debug != NULL) { unsigned char DebugFileName[512]; my_debug->setPrefix("LAMEstream"); /// \todo get it from the registry my_debug->setIncludeTime(true); /// \todo get it from the registry // Check in the registry if we have to Output Debug information DebugFileName[0] = '\0'; HKEY OssKey; if (RegOpenKeyEx( HKEY_LOCAL_MACHINE, "SOFTWARE\\MUKOLI", 0, KEY_READ , &OssKey ) == ERROR_SUCCESS) { DWORD DataType; DWORD DebugFileNameSize = 512; if (RegQueryValueEx( OssKey, "DebugFile", NULL, &DataType, DebugFileName, &DebugFileNameSize ) == ERROR_SUCCESS) { if (DataType == REG_SZ) { my_debug->setUseFile(true); my_debug->setDebugFile((char *)DebugFileName); my_debug->OutPut("Debug file is %s",(char *)DebugFileName); } } } my_debug->OutPut(DEBUG_LEVEL_FUNC_START, "ACMStream Creation (0X%08X)",this); } else { ADbg debug; debug.OutPut("ACMStream::ACMACMStream : Impossible to create my_debug"); } } ACMStream::~ACMStream() { // release memory - encoding is finished if (gfp) lame_close( gfp ); if (my_debug != NULL) { my_debug->OutPut(DEBUG_LEVEL_FUNC_START, "ACMStream Deletion (0X%08X)",this); delete my_debug; } } bool ACMStream::init(const int nSamplesPerSec, const int nOutputSamplesPerSec, const int nChannels, const int nAvgBytesPerSec, const vbr_mode mode) { bool bResult = false; my_SamplesPerSec = nSamplesPerSec; my_OutBytesPerSec = nOutputSamplesPerSec; my_Channels = nChannels; my_AvgBytesPerSec = nAvgBytesPerSec; my_VBRMode = mode; bResult = true; return bResult; } bool ACMStream::open(const AEncodeProperties & the_Properties) { bool bResult = false; // Init the MP3 Stream // Init the global flags structure gfp = lame_init(); // Set input sample frequency lame_set_in_samplerate( gfp, my_SamplesPerSec ); // Set output sample frequency lame_set_out_samplerate( gfp, my_OutBytesPerSec ); lame_set_num_channels( gfp, my_Channels ); if (my_Channels == 1) lame_set_mode( gfp, MONO ); else lame_set_mode( gfp, (MPEG_mode_e)the_Properties.GetChannelModeValue()) ; /// \todo Get the mode from the default configuration // lame_set_VBR( gfp, vbr_off ); /// \note VBR not supported for the moment lame_set_VBR( gfp, my_VBRMode ); /// \note VBR not supported for the moment if (my_VBRMode == vbr_abr) { lame_set_VBR_q( gfp, 1 ); lame_set_VBR_mean_bitrate_kbps( gfp, (my_AvgBytesPerSec * 8 + 500) / 1000 ); if (24000 > lame_get_in_samplerate( gfp )) { // For MPEG-II lame_set_VBR_min_bitrate_kbps( gfp, 8); lame_set_VBR_max_bitrate_kbps( gfp, 160); } else { // For MPEG-I lame_set_VBR_min_bitrate_kbps( gfp, 32); lame_set_VBR_max_bitrate_kbps( gfp, 320); } } // Set bitrate lame_set_brate( gfp, my_AvgBytesPerSec * 8 / 1000 ); /// \todo Get the mode from the default configuration // Set copyright flag? lame_set_copyright( gfp, the_Properties.GetCopyrightMode()?1:0 ); // Do we have to tag it as non original lame_set_original( gfp, the_Properties.GetOriginalMode()?1:0 ); // Add CRC? lame_set_error_protection( gfp, the_Properties.GetCRCMode()?1:0 ); // Set private bit? lame_set_extension( gfp, the_Properties.GetPrivateMode()?1:0 ); // INFO tag support not possible in ACM - it requires rewinding // output stream to the beginning after encoding is finished. lame_set_bWriteVbrTag( gfp, 0 ); if (0 == lame_init_params( gfp )) { //LAME encoding call will accept any number of samples. if ( 0 == lame_get_version( gfp ) ) { // For MPEG-II, only 576 samples per frame per channel my_SamplesPerBlock = 576 * lame_get_num_channels( gfp ); } else { // For MPEG-I, 1152 samples per frame per channel my_SamplesPerBlock = 1152 * lame_get_num_channels( gfp ); } } my_debug->OutPut(DEBUG_LEVEL_FUNC_DEBUG, "version =%d",lame_get_version( gfp ) ); my_debug->OutPut(DEBUG_LEVEL_FUNC_DEBUG, "Layer =3"); switch ( lame_get_mode( gfp ) ) { case STEREO: my_debug->OutPut(DEBUG_LEVEL_FUNC_DEBUG, "mode =Stereo" ); break; case JOINT_STEREO: my_debug->OutPut(DEBUG_LEVEL_FUNC_DEBUG, "mode =Joint-Stereo" ); break; case DUAL_CHANNEL: my_debug->OutPut(DEBUG_LEVEL_FUNC_DEBUG, "mode =Forced Stereo" ); break; case MONO: my_debug->OutPut(DEBUG_LEVEL_FUNC_DEBUG, "mode =Mono" ); break; case NOT_SET: /* FALLTROUGH */ default: my_debug->OutPut(DEBUG_LEVEL_FUNC_DEBUG, "mode =Error (unknown)" ); break; } my_debug->OutPut(DEBUG_LEVEL_FUNC_DEBUG, "sampling frequency =%.1f kHz", lame_get_in_samplerate( gfp ) /1000.0 ); my_debug->OutPut(DEBUG_LEVEL_FUNC_DEBUG, "bitrate =%d kbps", lame_get_brate( gfp ) ); my_debug->OutPut(DEBUG_LEVEL_FUNC_DEBUG, "Vbr Min bitrate =%d kbps", lame_get_VBR_min_bitrate_kbps( gfp ) ); my_debug->OutPut(DEBUG_LEVEL_FUNC_DEBUG, "Vbr Max bitrate =%d kbps", lame_get_VBR_max_bitrate_kbps( gfp ) ); my_debug->OutPut(DEBUG_LEVEL_FUNC_DEBUG, "Quality Setting =%d", lame_get_quality( gfp ) ); my_debug->OutPut(DEBUG_LEVEL_FUNC_DEBUG, "Low pass frequency =%d", lame_get_lowpassfreq( gfp ) ); my_debug->OutPut(DEBUG_LEVEL_FUNC_DEBUG, "Low pass width =%d", lame_get_lowpasswidth( gfp ) ); my_debug->OutPut(DEBUG_LEVEL_FUNC_DEBUG, "High pass frequency =%d", lame_get_highpassfreq( gfp ) ); my_debug->OutPut(DEBUG_LEVEL_FUNC_DEBUG, "High pass width =%d", lame_get_highpasswidth( gfp ) ); my_debug->OutPut(DEBUG_LEVEL_FUNC_DEBUG, "No Short Blocks =%d", lame_get_no_short_blocks( gfp ) ); my_debug->OutPut(DEBUG_LEVEL_FUNC_DEBUG, "de-emphasis =%d", lame_get_emphasis( gfp ) ); my_debug->OutPut(DEBUG_LEVEL_FUNC_DEBUG, "private flag =%d", lame_get_extension( gfp ) ); my_debug->OutPut(DEBUG_LEVEL_FUNC_DEBUG, "copyright flag =%d", lame_get_copyright( gfp ) ); my_debug->OutPut(DEBUG_LEVEL_FUNC_DEBUG, "original flag =%d", lame_get_original( gfp ) ); my_debug->OutPut(DEBUG_LEVEL_FUNC_DEBUG, "CRC =%s", lame_get_error_protection( gfp ) ? "on" : "off" ); my_debug->OutPut(DEBUG_LEVEL_FUNC_DEBUG, "Fast mode =%s", ( lame_get_quality( gfp ) )? "enabled" : "disabled" ); my_debug->OutPut(DEBUG_LEVEL_FUNC_DEBUG, "Force mid/side stereo =%s", ( lame_get_force_ms( gfp ) )?"enabled":"disabled" ); my_debug->OutPut(DEBUG_LEVEL_FUNC_DEBUG, "Padding Type =%d", lame_get_padding_type( gfp ) ); my_debug->OutPut(DEBUG_LEVEL_FUNC_DEBUG, "Disable Resorvoir =%d", lame_get_disable_reservoir( gfp ) ); my_debug->OutPut(DEBUG_LEVEL_FUNC_DEBUG, "VBR =%s, VBR_q =%d, VBR method =", ( lame_get_VBR( gfp ) !=vbr_off ) ? "enabled": "disabled", lame_get_VBR_q( gfp ) ); switch ( lame_get_VBR( gfp ) ) { case vbr_off: my_debug->OutPut(DEBUG_LEVEL_FUNC_DEBUG, "vbr_off" ); break; case vbr_mt : my_debug->OutPut(DEBUG_LEVEL_FUNC_DEBUG, "vbr_mt" ); break; case vbr_rh : my_debug->OutPut(DEBUG_LEVEL_FUNC_DEBUG, "vbr_rh" ); break; case vbr_mtrh: my_debug->OutPut(DEBUG_LEVEL_FUNC_DEBUG, "vbr_mtrh" ); break; case vbr_abr: my_debug->OutPut(DEBUG_LEVEL_FUNC_DEBUG, "vbr_abr (average bitrate %d kbps)", lame_get_VBR_mean_bitrate_kbps( gfp ) ); break; default: my_debug->OutPut(DEBUG_LEVEL_FUNC_DEBUG, "error, unknown VBR setting"); break; } my_debug->OutPut(DEBUG_LEVEL_FUNC_DEBUG, "Write VBR Header =%s\n", ( lame_get_bWriteVbrTag( gfp ) ) ?"Yes":"No"); #ifdef FROM_DLL beConfig.format.LHV1.dwReSampleRate = my_OutBytesPerSec; // force the user resampling #endif // FROM_DLL bResult = true; return bResult; } bool ACMStream::close(LPBYTE pOutputBuffer, DWORD *pOutputSize) { bool bResult = false; int nOutputSamples = 0; nOutputSamples = lame_encode_flush( gfp, pOutputBuffer, 0 ); if ( nOutputSamples < 0 ) { // BUFFER_TOO_SMALL *pOutputSize = 0; } else { *pOutputSize = nOutputSamples; bResult = true; } // lame will be closed in destructor //lame_close( gfp ); return bResult; } DWORD ACMStream::GetOutputSizeForInput(const DWORD the_SrcLength) const { /* double OutputInputRatio; if (my_VBRMode == vbr_off) OutputInputRatio = double(my_AvgBytesPerSec) / double(my_OutBytesPerSec * 2); else // reserve the space for 320 kbps OutputInputRatio = 40000.0 / double(my_OutBytesPerSec * 2); OutputInputRatio *= 1.15; // allow 15% more*/ DWORD Result; // Result = DWORD(double(the_SrcLength) * OutputInputRatio); Result = DWORD(1.25*the_SrcLength + 7200); my_debug->OutPut(DEBUG_LEVEL_FUNC_CODE, "Result = %d",Result); return Result; } bool ACMStream::ConvertBuffer(LPACMDRVSTREAMHEADER a_StreamHeader) { bool result; if (my_debug != NULL) { my_debug->OutPut(DEBUG_LEVEL_FUNC_DEBUG, "enter ACMStream::ConvertBuffer"); } DWORD InSize = a_StreamHeader->cbSrcLength / 2, OutSize = a_StreamHeader->cbDstLength; // 2 for 8<->16 bits // Encode it int dwSamples; int nOutputSamples = 0; dwSamples = InSize / lame_get_num_channels( gfp ); if ( 1 == lame_get_num_channels( gfp ) ) { nOutputSamples = lame_encode_buffer(gfp,(PSHORT)a_StreamHeader->pbSrc,(PSHORT)a_StreamHeader->pbSrc,dwSamples,a_StreamHeader->pbDst,a_StreamHeader->cbDstLength); } else { nOutputSamples = lame_encode_buffer_interleaved(gfp,(PSHORT)a_StreamHeader->pbSrc,dwSamples,a_StreamHeader->pbDst,a_StreamHeader->cbDstLength); } a_StreamHeader->cbSrcLengthUsed = a_StreamHeader->cbSrcLength; a_StreamHeader->cbDstLengthUsed = nOutputSamples; result = a_StreamHeader->cbDstLengthUsed <= a_StreamHeader->cbDstLength; my_debug->OutPut(DEBUG_LEVEL_FUNC_CODE, "UsedSize = %d / EncodedSize = %d, result = %d (%d <= %d)", InSize, OutSize, result, a_StreamHeader->cbDstLengthUsed, a_StreamHeader->cbDstLength); if (my_debug != NULL) { my_debug->OutPut(DEBUG_LEVEL_FUNC_DEBUG, "ACMStream::ConvertBuffer result = %d (0x%02X 0x%02X)",result,a_StreamHeader->pbDst[0],a_StreamHeader->pbDst[1]); } return result; } unsigned int ACMStream::GetOutputSampleRate(int samples_per_sec, int bitrate, int channels) { if (bitrate==0) bitrate = (64000*channels)/8; /// \todo pass through the same LAME routine unsigned int OutputFrequency; double compression_ratio = double(samples_per_sec * 16 * channels / (bitrate * 8)); if (compression_ratio > 13.) OutputFrequency = map2MP3Frequency( (10. * bitrate * 8) / (16 * channels)); else OutputFrequency = map2MP3Frequency( 0.97 * samples_per_sec ); return OutputFrequency; }