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monitord / lame-3.97 / Dll / .svn / text-base / BladeMP3EncDLL.c.svn-base
@root root on 23 Jan 2012 24 KB Migration from SVN revision 455
/*
 *	Blade DLL Interface for LAME.
 *
 *	Copyright (c) 1999 - 2002 A.L. Faber
 *
 * 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 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.
 */

#include <windows.h>
#include <Windef.h>
#include "BladeMP3EncDLL.h"
#include <assert.h>

#include "lame.h"
#include "config.h"
// sample_t should not be needed by any libmp3lame wrapper:
//#include "machine.h" /* for sample_t type */


#define         Min(A, B)       ((A) < (B) ? (A) : (B))
#define         Max(A, B)       ((A) > (B) ? (A) : (B))

#define _RELEASEDEBUG 0

// lame_enc DLL version number
const int MAJORVERSION = 1;
const int MINORVERSION = 32;


// Local variables
static DWORD				dwSampleBufferSize=0;
static HANDLE				gs_hModule=NULL;
static BOOL					gs_bLogFile=FALSE;
static lame_global_flags*	gfp_save = NULL;

// Local function prototypes
static void dump_config( 	lame_global_flags*	gfp );
static void DebugPrintf( const char* pzFormat, ... );
static void DispErr( LPSTR strErr );
static void PresetOptions( lame_global_flags *gfp, LONG myPreset );


static void DebugPrintf(const char* pzFormat, ...)
{
    char	szBuffer[1024]={'\0',};
	char	szFileName[MAX_PATH+1]={'\0',};
    va_list ap;

	// Get the full module (DLL) file name
	GetModuleFileName(	gs_hModule, 
						szFileName,
						sizeof( szFileName ) );

	// change file name extention
	szFileName[ strlen(szFileName) - 3 ] = 't';
	szFileName[ strlen(szFileName) - 2 ] = 'x';
	szFileName[ strlen(szFileName) - 1 ] = 't';

	// start at beginning of the list
	va_start(ap, pzFormat);

	// copy it to the string buffer
	_vsnprintf(szBuffer, sizeof(szBuffer), pzFormat, ap);

	// log it to the file?
	if ( gs_bLogFile ) 
	{	
        FILE* fp = NULL;
		
		// try to open the log file
		fp=fopen( szFileName, "a+" );

		// check file open result
        if (fp)
		{
			// write string to the file
            fputs(szBuffer,fp);

			// close the file
            fclose(fp);
        }
    }

#if defined _DEBUG || defined _RELEASEDEBUG
    OutputDebugString( szBuffer );
#endif

	va_end(ap);
}


static void PresetOptions( lame_global_flags *gfp, LONG myPreset )
{
	switch (myPreset)
	{
/*-1*/		case LQP_NOPRESET:
			break;

/*0*/		case LQP_NORMAL_QUALITY:
			/*	lame_set_quality( gfp, 5 );*/
			break;

/*1*/		case LQP_LOW_QUALITY:
				lame_set_quality( gfp, 9 );
			break;

/*2*/		case LQP_HIGH_QUALITY:
				lame_set_quality( gfp, 2 );
			break;

/*3*/		case LQP_VOICE_QUALITY:				// --voice flag for experimental voice mode
				lame_set_mode( gfp, MONO );
		        lame_set_preset( gfp, 56);
			break;

/*4*/		case LQP_R3MIX:					// --R3MIX
		        lame_set_preset( gfp, R3MIX);
			break;

/*5*/		case LQP_VERYHIGH_QUALITY:
				lame_set_quality( gfp, 0 );
			break;

/*6*/		case LQP_STANDARD:				// --PRESET STANDARD
		        lame_set_preset( gfp, STANDARD);
			break;

/*7*/		case LQP_FAST_STANDARD:				// --PRESET FAST STANDARD
		        lame_set_preset( gfp, STANDARD_FAST);
			break;

/*8*/		case LQP_EXTREME:				// --PRESET EXTREME
		        lame_set_preset( gfp, EXTREME);
			break;

/*9*/		case LQP_FAST_EXTREME:				// --PRESET FAST EXTREME:
		        lame_set_preset( gfp, EXTREME_FAST);
			break;

/*10*/		case LQP_INSANE:				// --PRESET INSANE
		        lame_set_preset( gfp, INSANE);
			break;

/*11*/		case LQP_ABR:					// --PRESET ABR
				// handled in beInitStream
			break;

/*12*/		case LQP_CBR:					// --PRESET CBR
				// handled in beInitStream
			break;

/*13*/		case LQP_MEDIUM:					// --PRESET MEDIUM
		        lame_set_preset( gfp, MEDIUM);
			break;

/*14*/		case LQP_FAST_MEDIUM:					// --PRESET FAST MEDIUM
		        lame_set_preset( gfp, MEDIUM_FAST);
			break;

/*1000*/	case LQP_PHONE:
				lame_set_mode( gfp, MONO );
		        lame_set_preset( gfp, 16);
			break;

/*2000*/	case LQP_SW:
				lame_set_mode( gfp, MONO );
		        lame_set_preset( gfp, 24);
			break;

/*3000*/	case LQP_AM:
				lame_set_mode( gfp, MONO );
		        lame_set_preset( gfp, 40);
			break;

/*4000*/	case LQP_FM:
		        lame_set_preset( gfp, 112);
			break;

/*5000*/	case LQP_VOICE:
				lame_set_mode( gfp, MONO );
		        lame_set_preset( gfp, 56);
			break;

/*6000*/	case LQP_RADIO:
		        lame_set_preset( gfp, 112);
			break;

/*7000*/	case LQP_TAPE:
		        lame_set_preset( gfp, 112);
			break;

/*8000*/	case LQP_HIFI:
		        lame_set_preset( gfp, 160);
			break;

/*9000*/	case LQP_CD:
		        lame_set_preset( gfp, 192);
			break;

/*10000*/	case LQP_STUDIO:
		        lame_set_preset( gfp, 256);
			break;

	}
}


__declspec(dllexport) BE_ERR	beInitStream(PBE_CONFIG pbeConfig, PDWORD dwSamples, PDWORD dwBufferSize, PHBE_STREAM phbeStream)
{
	int actual_bitrate;
//2001-12-18
	int					nDllArgC = 0;
	BE_CONFIG			lameConfig = { 0, };
	int					nInitReturn = 0;
	lame_global_flags*	gfp = NULL;

	// Init the global flags structure
	gfp = lame_init();
	*phbeStream = (HBE_STREAM)gfp;

	// clear out structure
	memset(&lameConfig,0x00,CURRENT_STRUCT_SIZE);

	// Check if this is a regular BLADE_ENCODER header
	if (pbeConfig->dwConfig!=BE_CONFIG_LAME)
	{
		int nCRC=pbeConfig->format.mp3.bCRC;
		int nVBR=(nCRC>>12)&0x0F;

		// Copy parameter from old Blade structure
		lameConfig.format.LHV1.dwSampleRate	=pbeConfig->format.mp3.dwSampleRate;
		//for low bitrates, LAME will automatically downsample for better
		//sound quality.  Forcing output samplerate = input samplerate is not a good idea 
		//unless the user specifically requests it:
		//lameConfig.format.LHV1.dwReSampleRate=pbeConfig->format.mp3.dwSampleRate;
		lameConfig.format.LHV1.nMode		=(pbeConfig->format.mp3.byMode&0x0F);
		lameConfig.format.LHV1.dwBitrate	=pbeConfig->format.mp3.wBitrate;
		lameConfig.format.LHV1.bPrivate		=pbeConfig->format.mp3.bPrivate;
		lameConfig.format.LHV1.bOriginal	=pbeConfig->format.mp3.bOriginal;
		lameConfig.format.LHV1.bCRC		=nCRC&0x01;
		lameConfig.format.LHV1.bCopyright	=pbeConfig->format.mp3.bCopyright;
	
		// Fill out the unknowns
		lameConfig.format.LHV1.dwStructSize=CURRENT_STRUCT_SIZE;
		lameConfig.format.LHV1.dwStructVersion=CURRENT_STRUCT_VERSION;

		// Get VBR setting from fourth nibble
		if ( nVBR>0 )
		{
			lameConfig.format.LHV1.bWriteVBRHeader = TRUE;
			lameConfig.format.LHV1.bEnableVBR = TRUE;
			lameConfig.format.LHV1.nVBRQuality = nVBR-1;
		}

		// Get Quality from third nibble
		lameConfig.format.LHV1.nPreset=((nCRC>>8)&0x0F);

	}
	else
	{
		// Copy the parameters
		memcpy(&lameConfig,pbeConfig,pbeConfig->format.LHV1.dwStructSize);
	}

	// --------------- Set arguments to LAME encoder -------------------------

	// Set input sample frequency
	lame_set_in_samplerate( gfp, lameConfig.format.LHV1.dwSampleRate );

        // disable INFO/VBR tag by default.  
        // if this tag is used, the calling program must call beWriteVBRTag()
        // after encoding.  But the original DLL documentation does not 
        // require the 
        // app to call beWriteVBRTag() unless they have specifically
        // set LHV1.bWriteVBRHeader=TRUE.  Thus the default setting should
        // be disabled.  
	lame_set_bWriteVbrTag( gfp, 0 );

//2001-12-18 Dibrom's ABR preset stuff

	if(lameConfig.format.LHV1.nPreset == LQP_ABR)		// --ALT-PRESET ABR
	{
		actual_bitrate = lameConfig.format.LHV1.dwVbrAbr_bps / 1000;

		// limit range
		if( actual_bitrate > 320)
		{
			actual_bitrate = 320;
		}

		if( actual_bitrate < 8 )
		{
			actual_bitrate = 8;
		}

		lame_set_preset( gfp, actual_bitrate );
	}    

// end Dibrom's ABR preset 2001-12-18 ****** START OF CBR

	if(lameConfig.format.LHV1.nPreset == LQP_CBR)		// --ALT-PRESET CBR
	{
		actual_bitrate = lameConfig.format.LHV1.dwBitrate;
        lame_set_preset(gfp, actual_bitrate);
        lame_set_VBR(gfp, vbr_off);
	}

// end Dibrom's CBR preset 2001-12-18

	// The following settings only used when preset is not one of the LAME QUALITY Presets
	if ( (int)lameConfig.format.LHV1.nPreset < (int) LQP_STANDARD )
	{
		switch ( lameConfig.format.LHV1.nMode )
		{
			case BE_MP3_MODE_STEREO:
				lame_set_mode( gfp, STEREO );
				lame_set_num_channels( gfp, 2 );
				break;
			case BE_MP3_MODE_JSTEREO:
				lame_set_mode( gfp, JOINT_STEREO );
				lame_set_num_channels( gfp, 2 );
				break;
			case BE_MP3_MODE_MONO:
				lame_set_mode( gfp, MONO );
				lame_set_num_channels( gfp, 1 );
				break;
			case BE_MP3_MODE_DUALCHANNEL: //warning: there is NO dual channel option working in Lame
				lame_set_force_ms( gfp, 1 );
				lame_set_mode( gfp, STEREO );
				lame_set_num_channels( gfp, 2 );
				break;
			default:
			{
				DebugPrintf("Invalid lameConfig.format.LHV1.nMode, value is %d\n",lameConfig.format.LHV1.nMode);
				return BE_ERR_INVALID_FORMAT_PARAMETERS;
			}
		}

		if ( lameConfig.format.LHV1.bEnableVBR )
		{
			/* set VBR quality */
			lame_set_VBR_q( gfp, lameConfig.format.LHV1.nVBRQuality );

			/* select proper VBR method */
			switch ( lameConfig.format.LHV1.nVbrMethod)
			{
				case VBR_METHOD_NONE:
					lame_set_VBR( gfp, vbr_off );
				break;

				case VBR_METHOD_DEFAULT:
					lame_set_VBR( gfp, vbr_default ); 
				break;

				case VBR_METHOD_OLD:
					lame_set_VBR( gfp, vbr_rh ); 
				break;

				case VBR_METHOD_MTRH:
				case VBR_METHOD_NEW:
					/*                                
					 * the --vbr-mtrh commandline switch is obsolete. 
					 * now --vbr-mtrh is known as --vbr-new
					 */
					lame_set_VBR( gfp, vbr_mtrh ); 
				break;

				case VBR_METHOD_ABR:
					lame_set_VBR( gfp, vbr_abr ); 
				break;

				default:
					/* unsupported VBR method */
					assert( FALSE );
			}
		}
		else
		{
			/* use CBR encoding method, so turn off VBR */
			lame_set_VBR( gfp, vbr_off );
		}

		/* Set bitrate.  (CDex users always specify bitrate=Min bitrate when using VBR) */
		lame_set_brate( gfp, lameConfig.format.LHV1.dwBitrate );
			
		/* check if we have to use ABR, in order to backwards compatible, this
		 * condition should still be checked indepedent of the nVbrMethod method
		 */
		if (lameConfig.format.LHV1.dwVbrAbr_bps > 0 )
		{
			/* set VBR method to ABR */
			lame_set_VBR( gfp, vbr_abr );

			/* calculate to kbps, round to nearest kbps */
			lame_set_VBR_mean_bitrate_kbps( gfp, ( lameConfig.format.LHV1.dwVbrAbr_bps + 500 ) / 1000 );

			/* limit range */
			if( lame_get_VBR_mean_bitrate_kbps( gfp ) > 320)
			{
				lame_set_VBR_mean_bitrate_kbps( gfp, 320 );
			}

			if( lame_get_VBR_mean_bitrate_kbps( gfp ) < 8 )
			{
				lame_set_VBR_mean_bitrate_kbps( gfp, 8 );
			}
		}

	}

    // First set all the preset options
    if ( LQP_NOPRESET !=  lameConfig.format.LHV1.nPreset )
    {
		PresetOptions( gfp, lameConfig.format.LHV1.nPreset );
    }


	// Set frequency resampling rate, if specified
	if ( lameConfig.format.LHV1.dwReSampleRate > 0 )
	{
		lame_set_out_samplerate( gfp, lameConfig.format.LHV1.dwReSampleRate );
	}
		

    switch ( lameConfig.format.LHV1.nMode )
	{
		case BE_MP3_MODE_MONO:
			lame_set_mode( gfp, MONO );
			lame_set_num_channels( gfp, 1 );
		break;

		default:
            break;
	}


	// Use strict ISO encoding?
	lame_set_strict_ISO( gfp, ( lameConfig.format.LHV1.bStrictIso ) ? 1 : 0 );
	
	// Set copyright flag?
	if ( lameConfig.format.LHV1.bCopyright )
	{
		lame_set_copyright( gfp, 1 );
	}

	// Do we have to tag  it as non original 
	if ( !lameConfig.format.LHV1.bOriginal )
	{
		lame_set_original( gfp, 0 );
	}
	else
	{
		lame_set_original( gfp, 1 );
	}

	// Add CRC?
	if ( lameConfig.format.LHV1.bCRC )
	{
		lame_set_error_protection( gfp, 1 );
	}
	else
	{
		lame_set_error_protection( gfp, 0 );
	}

	// Set private bit?
	if ( lameConfig.format.LHV1.bPrivate )
	{
		lame_set_extension( gfp, 1 );
	}
	else
	{
		lame_set_extension( gfp, 0 );
	}
	

	// Set VBR min bitrate, if specified
	if ( lameConfig.format.LHV1.dwBitrate > 0 )
	{
		lame_set_VBR_min_bitrate_kbps( gfp, lameConfig.format.LHV1.dwBitrate );
	}

	// Set Maxbitrate, if specified
	if ( lameConfig.format.LHV1.dwMaxBitrate > 0 )
	{
		lame_set_VBR_max_bitrate_kbps( gfp, lameConfig.format.LHV1.dwMaxBitrate );
	}
	// Set bit resovoir option
	if ( lameConfig.format.LHV1.bNoRes )
	{
		lame_set_disable_reservoir( gfp,1 );
		lame_set_padding_type( gfp, PAD_NO );
	}

	// check if the VBR tag is required
	if ( lameConfig.format.LHV1.bWriteVBRHeader) 
	{
		lame_set_bWriteVbrTag( gfp, 1 );
	}
	else
	{
		lame_set_bWriteVbrTag( gfp, 0 );
	}

	// Override Quality setting, use HIGHBYTE = NOT LOWBYTE to be backwards compatible
	if (	( lameConfig.format.LHV1.nQuality & 0xFF ) ==
			((~( lameConfig.format.LHV1.nQuality >> 8 )) & 0xFF) )
	{
		lame_set_quality( gfp, lameConfig.format.LHV1.nQuality & 0xFF );
	}
	
	if ( 0 != ( nInitReturn = lame_init_params( gfp ) ) )
	{
		return nInitReturn;
	}

	//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
		*dwSamples= 576 * lame_get_num_channels( gfp );
	}
	else
	{
		// For MPEG-I, 1152 samples per frame per channel
		*dwSamples= 1152 * lame_get_num_channels( gfp );
	}

	// Set the input sample buffer size, so we know what we can expect
	dwSampleBufferSize = *dwSamples;

	// Set MP3 buffer size, conservative estimate
	*dwBufferSize=(DWORD)( 1.25 * ( *dwSamples / lame_get_num_channels( gfp ) ) + 7200 );

	// For debugging purposes
	dump_config( gfp );

	// Everything went OK, thus return SUCCESSFUL
	return BE_ERR_SUCCESSFUL;
}



__declspec(dllexport) BE_ERR	beFlushNoGap(HBE_STREAM hbeStream, PBYTE pOutput, PDWORD pdwOutput)
{
	int nOutputSamples = 0;

	lame_global_flags*	gfp = (lame_global_flags*)hbeStream;

	// Init the global flags structure
    nOutputSamples = lame_encode_flush_nogap( gfp, pOutput, LAME_MAXMP3BUFFER );

	if ( nOutputSamples < 0 )
	{
		*pdwOutput = 0;
		return BE_ERR_BUFFER_TOO_SMALL;
	}
	else
	{
		*pdwOutput = nOutputSamples;
	}

	return BE_ERR_SUCCESSFUL;
}

__declspec(dllexport) BE_ERR	beDeinitStream(HBE_STREAM hbeStream, PBYTE pOutput, PDWORD pdwOutput)
{
	int nOutputSamples = 0;

	lame_global_flags*	gfp = (lame_global_flags*)hbeStream;

    nOutputSamples = lame_encode_flush( gfp, pOutput, 0 );

	if ( nOutputSamples < 0 )
	{
		*pdwOutput = 0;
		return BE_ERR_BUFFER_TOO_SMALL;
	}
	else
	{
		*pdwOutput = nOutputSamples;
	}
  
	return BE_ERR_SUCCESSFUL;
}


__declspec(dllexport) BE_ERR	beCloseStream(HBE_STREAM hbeStream)
{
	lame_global_flags*	gfp = (lame_global_flags*)hbeStream;

	// lame will be close in VbrWriteTag function
	if ( !lame_get_bWriteVbrTag( gfp ) )
	{
		// clean up of allocated memory
		lame_close( gfp );

		gfp_save = NULL;
	}
	else
	{
		gfp_save = (lame_global_flags*)hbeStream;
	}

	// DeInit encoder
	return BE_ERR_SUCCESSFUL;
}



__declspec(dllexport) VOID		beVersion(PBE_VERSION pbeVersion)
{
	// DLL Release date
	char lpszDate[20]	= { '\0', };
	char lpszTemp[5]	= { '\0', };
	lame_version_t lv   = { 0, };


	// Set DLL interface version
	pbeVersion->byDLLMajorVersion=MAJORVERSION;
	pbeVersion->byDLLMinorVersion=MINORVERSION;

	get_lame_version_numerical ( &lv );

	// Set Engine version number (Same as Lame version)
	pbeVersion->byMajorVersion = lv.major;
	pbeVersion->byMinorVersion = lv.minor;
	pbeVersion->byAlphaLevel   = lv.alpha;
	pbeVersion->byBetaLevel	   = lv.beta;

#ifdef MMX_choose_table
	pbeVersion->byMMXEnabled=1;
#else
	pbeVersion->byMMXEnabled=0;
#endif

	memset( pbeVersion->btReserved, 0, sizeof( pbeVersion->btReserved ) );

	// Get compilation date
	strcpy(lpszDate,__DATE__);

	// Get the first three character, which is the month
	strncpy(lpszTemp,lpszDate,3);
	lpszTemp[3] = '\0';
	pbeVersion->byMonth=1;

	// Set month
	if (strcmp(lpszTemp,"Jan")==0)	pbeVersion->byMonth = 1;
	if (strcmp(lpszTemp,"Feb")==0)	pbeVersion->byMonth = 2;
	if (strcmp(lpszTemp,"Mar")==0)	pbeVersion->byMonth = 3;
	if (strcmp(lpszTemp,"Apr")==0)	pbeVersion->byMonth = 4;
	if (strcmp(lpszTemp,"May")==0)	pbeVersion->byMonth = 5;
	if (strcmp(lpszTemp,"Jun")==0)	pbeVersion->byMonth = 6;
	if (strcmp(lpszTemp,"Jul")==0)	pbeVersion->byMonth = 7;
	if (strcmp(lpszTemp,"Aug")==0)	pbeVersion->byMonth = 8;
	if (strcmp(lpszTemp,"Sep")==0)	pbeVersion->byMonth = 9;
	if (strcmp(lpszTemp,"Oct")==0)	pbeVersion->byMonth = 10;
	if (strcmp(lpszTemp,"Nov")==0)	pbeVersion->byMonth = 11;
	if (strcmp(lpszTemp,"Dec")==0)	pbeVersion->byMonth = 12;

	// Get day of month string (char [4..5])
	pbeVersion->byDay=atoi( lpszDate + 4 );

	// Get year of compilation date (char [7..10])
	pbeVersion->wYear = atoi( lpszDate + 7 );

	memset( pbeVersion->zHomepage, 0x00, BE_MAX_HOMEPAGE );

	strcpy( pbeVersion->zHomepage, "http://www.mp3dev.org/" );
}

__declspec(dllexport) BE_ERR	beEncodeChunk(HBE_STREAM hbeStream, DWORD nSamples, 
			 PSHORT pSamples, PBYTE pOutput, PDWORD pdwOutput)
{
	// Encode it
	int dwSamples;
	int	nOutputSamples = 0;
	lame_global_flags*	gfp = (lame_global_flags*)hbeStream;

	dwSamples = nSamples / lame_get_num_channels( gfp );

	// old versions of lame_enc.dll required exactly 1152 samples
	// and worked even if nSamples accidently set to 2304 
	// simulate this behavoir:
	if ( 1 == lame_get_num_channels( gfp ) && nSamples == 2304)
	{
	  dwSamples/= 2;
	}


	if ( 1 == lame_get_num_channels( gfp ) )
	{
		nOutputSamples = lame_encode_buffer(gfp,pSamples,pSamples,dwSamples,pOutput,0);
	}
	else
	{
		nOutputSamples = lame_encode_buffer_interleaved(gfp,pSamples,dwSamples,pOutput,0);
	}


	if ( nOutputSamples < 0 )
	{
		*pdwOutput=0;
		return BE_ERR_BUFFER_TOO_SMALL;
	}
	else
	{
		*pdwOutput = (DWORD)nOutputSamples;
	}

	return BE_ERR_SUCCESSFUL;
}


// accept floating point audio samples, scaled to the range of a signed 16-bit
//  integer (within +/- 32768), in non-interleaved channels  -- DSPguru, jd
__declspec(dllexport) BE_ERR	beEncodeChunkFloatS16NI(HBE_STREAM hbeStream, DWORD nSamples, 
			PFLOAT buffer_l, PFLOAT buffer_r, PBYTE pOutput, PDWORD pdwOutput)
{
	int nOutputSamples;
	lame_global_flags*	gfp = (lame_global_flags*)hbeStream;

	nOutputSamples = lame_encode_buffer_float(gfp,buffer_l,buffer_r,nSamples,pOutput,0);

	if ( nOutputSamples >= 0 )
	{
		*pdwOutput = (DWORD) nOutputSamples;
	}
	else
	{
		*pdwOutput=0;
		return BE_ERR_BUFFER_TOO_SMALL;
	}

	return BE_ERR_SUCCESSFUL;
}

__declspec(dllexport) BE_ERR beWriteInfoTag( HBE_STREAM hbeStream,
											 LPCSTR lpszFileName )
{
	FILE* fpStream	= NULL;
	BE_ERR beResult	= BE_ERR_SUCCESSFUL;

	lame_global_flags*	gfp = (lame_global_flags*)hbeStream;

	if ( NULL != gfp )
	{
		// Do we have to write the VBR tag?
		if ( lame_get_bWriteVbrTag( gfp ) )
		{

			// Try to open the file
			fpStream=fopen( lpszFileName, "rb+" );

			// Check file open result
			if ( NULL == fpStream )
			{
				beResult = BE_ERR_INVALID_FORMAT_PARAMETERS;
			}
			else
			{
				// Write Xing header again
				lame_mp3_tags_fid( gfp, fpStream );

				// Close the file stream
				fclose( fpStream );
			}

			// clean up of allocated memory
			lame_close( gfp );
		}
	}
	else
	{
		beResult = BE_ERR_INVALID_FORMAT_PARAMETERS;
	}

	// return result
	return beResult;
}

// for backwards compatiblity
__declspec(dllexport) BE_ERR beWriteVBRHeader(LPCSTR lpszFileName)
{
	return beWriteInfoTag( (HBE_STREAM)gfp_save, lpszFileName );
}


BOOL APIENTRY DllMain(HANDLE hModule, 
                      DWORD  ul_reason_for_call, 
                      LPVOID lpReserved)
{
	gs_hModule=hModule;

    switch( ul_reason_for_call )
	{
		case DLL_PROCESS_ATTACH:
			// Enable debug/logging?
			gs_bLogFile = GetPrivateProfileInt("Debug","WriteLogFile",gs_bLogFile,"lame_enc.ini");
		break;
		case DLL_THREAD_ATTACH:
		break;
		case DLL_THREAD_DETACH:
		break;
		case DLL_PROCESS_DETACH:
		break;
    }
    return TRUE;
}


static void dump_config( 	lame_global_flags*	gfp )
{
	DebugPrintf("\n\nLame_enc configuration options:\n");
	DebugPrintf("==========================================================\n");

	DebugPrintf("version                =%d\n",lame_get_version( gfp ) );
	DebugPrintf("Layer                  =3\n");
	DebugPrintf("mode                   =");
	switch ( lame_get_mode( gfp ) )
	{
		case STEREO:       DebugPrintf( "Stereo\n" ); break;
		case JOINT_STEREO: DebugPrintf( "Joint-Stereo\n" ); break;
		case DUAL_CHANNEL: DebugPrintf( "Forced Stereo\n" ); break;
		case MONO:         DebugPrintf( "Mono\n" ); break;
		case NOT_SET:      /* FALLTROUGH */
		default:           DebugPrintf( "Error (unknown)\n" ); break;
	}

	DebugPrintf("Input sample rate      =%.1f kHz\n", lame_get_in_samplerate( gfp ) /1000.0 );
	DebugPrintf("Output sample rate     =%.1f kHz\n", lame_get_out_samplerate( gfp ) /1000.0 );

	DebugPrintf("bitrate                =%d kbps\n", lame_get_brate( gfp ) );
	DebugPrintf("Quality Setting        =%d\n", lame_get_quality( gfp ) );

	DebugPrintf("Low pass frequency     =%d\n", lame_get_lowpassfreq( gfp ) );
	DebugPrintf("Low pass width         =%d\n", lame_get_lowpasswidth( gfp ) );

	DebugPrintf("High pass frequency    =%d\n", lame_get_highpassfreq( gfp ) );
	DebugPrintf("High pass width        =%d\n", lame_get_highpasswidth( gfp ) );

	DebugPrintf("No short blocks        =%d\n", lame_get_no_short_blocks( gfp ) );
	DebugPrintf("Force short blocks     =%d\n", lame_get_force_short_blocks( gfp ) );

	DebugPrintf("de-emphasis            =%d\n", lame_get_emphasis( gfp ) );
	DebugPrintf("private flag           =%d\n", lame_get_extension( gfp ) );

	DebugPrintf("copyright flag         =%d\n", lame_get_copyright( gfp ) );
	DebugPrintf("original flag          =%d\n",	lame_get_original( gfp ) );
	DebugPrintf("CRC                    =%s\n", lame_get_error_protection( gfp ) ? "on" : "off" );
	DebugPrintf("Fast mode              =%s\n", ( lame_get_quality( gfp ) )? "enabled" : "disabled" );
	DebugPrintf("Force mid/side stereo  =%s\n", ( lame_get_force_ms( gfp ) )?"enabled":"disabled" );
	DebugPrintf("Padding Type           =%d\n", lame_get_padding_type( gfp ) );
	DebugPrintf("Disable Reservoir      =%d\n", lame_get_disable_reservoir( gfp ) );
	DebugPrintf("Allow diff-short       =%d\n", lame_get_allow_diff_short( gfp ) );
	DebugPrintf("Interchannel masking   =%f\n", lame_get_interChRatio( gfp ) );
	DebugPrintf("Strict ISO Encoding    =%s\n", ( lame_get_strict_ISO( gfp ) ) ?"Yes":"No");
	DebugPrintf("Scale                  =%5.2f\n", lame_get_scale( gfp ) );

	DebugPrintf("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:	DebugPrintf( "vbr_off\n" );	break;
		case vbr_mt :	DebugPrintf( "vbr_mt \n" );	break;
		case vbr_rh :	DebugPrintf( "vbr_rh \n" );	break;
		case vbr_mtrh:	DebugPrintf( "vbr_mtrh \n" );	break;
		case vbr_abr: 
			DebugPrintf( "vbr_abr (average bitrate %d kbps)\n", lame_get_VBR_mean_bitrate_kbps( gfp ) );
		break;
		default:
			DebugPrintf("error, unknown VBR setting\n");
		break;
	}

	DebugPrintf("Vbr Min bitrate        =%d kbps\n", lame_get_VBR_min_bitrate_kbps( gfp ) );
	DebugPrintf("Vbr Max bitrate        =%d kbps\n", lame_get_VBR_max_bitrate_kbps( gfp ) );

	DebugPrintf("Write VBR Header       =%s\n", ( lame_get_bWriteVbrTag( gfp ) ) ?"Yes":"No");
	DebugPrintf("VBR Hard min           =%d\n", lame_get_VBR_hard_min( gfp ) );

	DebugPrintf("ATH Only               =%d\n", lame_get_ATHonly( gfp ) );
	DebugPrintf("ATH short              =%d\n", lame_get_ATHshort( gfp ) );
	DebugPrintf("ATH no                 =%d\n", lame_get_noATH( gfp ) );
	DebugPrintf("ATH type               =%d\n", lame_get_ATHtype( gfp ) );
	DebugPrintf("ATH lower              =%f\n", lame_get_ATHlower( gfp ) );
	DebugPrintf("ATH aa                 =%d\n", lame_get_athaa_type( gfp ) );
	DebugPrintf("ATH aa  loudapprox     =%d\n", lame_get_athaa_loudapprox( gfp ) );
	DebugPrintf("ATH aa  sensitivity    =%f\n", lame_get_athaa_sensitivity( gfp ) );

	DebugPrintf("Experimental nspsytune =%d\n", lame_get_exp_nspsytune( gfp ) );
	DebugPrintf("Experimental X         =%d\n", lame_get_experimentalX( gfp ) );
	DebugPrintf("Experimental Y         =%d\n", lame_get_experimentalY( gfp ) );
	DebugPrintf("Experimental Z         =%d\n", lame_get_experimentalZ( gfp ) );
}


static void DispErr(LPSTR strErr)
{
	MessageBox(NULL,strErr,"",MB_OK);
}