Exemplos de lame_get_in_samplerate em C++ (Cpp)

Exemplo n.º 1

Arquivo: LameLibEncoder.cpp Projeto: bryangrim/darkice

/*------------------------------------------------------------------------------
 *  Open an encoding session
 *----------------------------------------------------------------------------*/
bool
LameLibEncoder :: open ( void )
                                                            throw ( Exception )
{
    if ( isOpen() ) {
        close();
    }

    lameGlobalFlags = lame_init();

    // ugly lame returns -1 in a pointer on allocation errors
    if ( !lameGlobalFlags || ((int)lameGlobalFlags) == -1 ) {
        throw Exception( __FILE__, __LINE__,
                         "lame lib init error",
                         (int) lameGlobalFlags);
    }

    if ( 0 > lame_set_num_channels( lameGlobalFlags, getInChannel()) ) {
        throw Exception( __FILE__, __LINE__,
                         "lame lib setting channels error",
                         getInChannel() );
    }

    if ( 0 > lame_set_mode( lameGlobalFlags,
                            getOutChannel() == 1 ? MONO : JOINT_STEREO) ) {
        throw Exception( __FILE__, __LINE__,
                         "lame lib setting mode error",
                         JOINT_STEREO );
    }

    reportEvent( 5, "set lame mode", lame_get_mode( lameGlobalFlags));
    
    reportEvent( 5,
                 "set lame channels",
                 lame_get_num_channels( lameGlobalFlags));
    
    if ( 0 > lame_set_in_samplerate( lameGlobalFlags, getInSampleRate()) ) {
        throw Exception( __FILE__, __LINE__,
                         "lame lib setting input sample rate error",
                         getInSampleRate() );
    }

    reportEvent( 5,
                 "set lame in sample rate",
                 lame_get_in_samplerate( lameGlobalFlags));
    
    if ( 0 > lame_set_out_samplerate( lameGlobalFlags, getOutSampleRate()) ) {
        throw Exception( __FILE__, __LINE__,
                         "lame lib setting output sample rate error",
                         getOutSampleRate() );
    }

    reportEvent( 5,
                 "set lame out sample rate",
                 lame_get_out_samplerate( lameGlobalFlags));
    
    switch ( getOutBitrateMode() ) {
        
        case cbr: {

            if ( 0 > lame_set_brate( lameGlobalFlags, getOutBitrate()) ) {
                throw Exception( __FILE__, __LINE__,
                                "lame lib setting output bit rate error",
                                getOutBitrate() );
            }
            
            reportEvent( 5,
                         "set lame bit rate",
                         lame_get_brate( lameGlobalFlags));
            
            double  d = (1.0 - getOutQuality()) * 10.0;
            int     q = int (d + 0.499999);

            if ( 0 > lame_set_quality( lameGlobalFlags, q) ) {
                throw Exception( __FILE__, __LINE__,
                                "lame lib setting quality error", q);
            }
            
            reportEvent( 5,
                         "set lame quality",
                         lame_get_quality( lameGlobalFlags));
            } break;

        case abr:

            if ( 0 > lame_set_VBR( lameGlobalFlags,vbr_abr)) {
                throw Exception( __FILE__, __LINE__,
                                 "lame lib setting abr error", vbr_abr);
            }
            
            reportEvent( 5,
                         "set lame abr bitrate",
                         lame_get_VBR( lameGlobalFlags));
            
            if ( 0 > lame_set_VBR_mean_bitrate_kbps( lameGlobalFlags,
                                                     getOutBitrate())) {
                throw Exception( __FILE__, __LINE__,
                                 "lame lib setting abr mean bitrate error",
                                 getOutBitrate());
            }
            
            reportEvent( 5,
                         "set lame abr mean bitrate", 
                         lame_get_VBR_mean_bitrate_kbps( lameGlobalFlags));
            break;

        case vbr: {
        
            if ( 0 > lame_set_VBR( lameGlobalFlags, vbr_mtrh)) {
                throw Exception( __FILE__, __LINE__,
                                 "lame lib setting vbr error", vbr_mtrh );
            }
        
            reportEvent( 5,
                         "set lame vbr bitrate",
                         lame_get_VBR( lameGlobalFlags));

            double  d = (1.0 - getOutQuality()) * 10.0;
            int     q = int (d + 0.499999);

            if ( 0 > lame_set_VBR_q( lameGlobalFlags, q) ) {
                throw Exception( __FILE__, __LINE__,
                                 "lame lib setting vbr quality error", q);
            }
        
            reportEvent( 5,
                         "set lame vbr quality",
                         lame_get_VBR_q( lameGlobalFlags));
            } break;
    }


    if ( 0 > lame_set_lowpassfreq( lameGlobalFlags, lowpass) ) {
        throw Exception( __FILE__, __LINE__,
                         "lame lib setting lowpass frequency error",
                         lowpass );
    }

    reportEvent( 5,
                 "set lame lowpass frequency",
                 lame_get_lowpassfreq( lameGlobalFlags));
    
    if ( 0 > lame_set_highpassfreq( lameGlobalFlags, highpass) ) {
        throw Exception( __FILE__, __LINE__,
                         "lame lib setting highpass frequency error",
                         lowpass );
    }

    reportEvent( 5,
                 "set lame highpass frequency",
                 lame_get_highpassfreq( lameGlobalFlags));


    
    
    // not configurable lame settings
    
    if ( 0 > lame_set_exp_nspsytune( lameGlobalFlags, 1) ) {
        throw Exception( __FILE__, __LINE__,
                         "lame lib setting  psycho acoustic model error");
    }

    reportEvent( 5,
                 "set lame psycho acoustic model",
                 lame_get_exp_nspsytune( lameGlobalFlags));
    
    if ( 0 > lame_set_error_protection( lameGlobalFlags, 1) ) {
        throw Exception( __FILE__, __LINE__,
                         "lame lib setting error protection error",
                         1 );
    }

    reportEvent( 5,
                 "set lame error protection",
                 lame_get_error_protection( lameGlobalFlags));

    // let lame init its own params based on our settings
    if ( 0 > lame_init_params( lameGlobalFlags) ) {
        throw Exception( __FILE__, __LINE__,
                         "lame lib initializing params error" );
    }

    lame_print_config( lameGlobalFlags);

    // open the underlying sink
    if ( !sink->open() ) {
        throw Exception( __FILE__, __LINE__,
                         "lame lib opening underlying sink error");
    }
 
    return true;
}

Exemplo n.º 2

Arquivo: lame_main.c Projeto: TimothyGu/lame

static int
lame_decoder(lame_t gfp, FILE * outf, char *inPath, char *outPath)
{
    short int Buffer[2][1152];
    int     i, iread;
    double  wavsize;
    int     tmp_num_channels = lame_get_num_channels(gfp);
    int     skip_start = samples_to_skip_at_start();
    int     skip_end = samples_to_skip_at_end();
    DecoderProgress dp = 0;

    if (!(tmp_num_channels >= 1 && tmp_num_channels <= 2)) {
        error_printf("Internal error.  Aborting.");
        exit(-1);
    }

    if (global_ui_config.silent < 9) {
        console_printf("\rinput:  %s%s(%g kHz, %i channel%s, ",
                       strcmp(inPath, "-") ? inPath : "<stdin>",
                       strlen(inPath) > 26 ? "\n\t" : "  ",
                       lame_get_in_samplerate(gfp) / 1.e3,
                       tmp_num_channels, tmp_num_channels != 1 ? "s" : "");

        printInputFormat(gfp);

        console_printf(")\noutput: %s%s(16 bit, Microsoft WAVE)\n",
                       strcmp(outPath, "-") ? outPath : "<stdout>",
                       strlen(outPath) > 45 ? "\n\t" : "  ");

        if (skip_start > 0)
            console_printf("skipping initial %i samples (encoder+decoder delay)\n", skip_start);
        if (skip_end > 0)
            console_printf("skipping final %i samples (encoder padding-decoder delay)\n", skip_end);

        switch (global_reader.input_format) {
        case sf_mp3:
        case sf_mp2:
        case sf_mp1:
            dp = decoder_progress_init(lame_get_num_samples(gfp),
                                       global_decoder.mp3input_data.framesize);
            break;
        case sf_raw:
        case sf_wave:
        case sf_aiff:
        default:
            dp = decoder_progress_init(lame_get_num_samples(gfp),
                                       lame_get_in_samplerate(gfp) < 32000 ? 576 : 1152);
            break;
        }
    }

    if (0 == global_decoder.disable_wav_header)
        WriteWaveHeader(outf, 0x7FFFFFFF, lame_get_in_samplerate(gfp), tmp_num_channels, 16);
    /* unknown size, so write maximum 32 bit signed value */

    wavsize = 0;
    do {
        iread = get_audio16(gfp, Buffer); /* read in 'iread' samples */
        if (iread >= 0) {
            wavsize += iread;
            if (dp != 0) {
                decoder_progress(dp, &global_decoder.mp3input_data, iread);
            }
            put_audio16(outf, Buffer, iread, tmp_num_channels);
        }
    } while (iread > 0);

    i = (16 / 8) * tmp_num_channels;
    assert(i > 0);
    if (wavsize <= 0) {
        if (global_ui_config.silent < 10)
            error_printf("WAVE file contains 0 PCM samples\n");
        wavsize = 0;
    }
    else if (wavsize > 0xFFFFFFD0 / i) {
        if (global_ui_config.silent < 10)
            error_printf("Very huge WAVE file, can't set filesize accordingly\n");
        wavsize = 0xFFFFFFD0;
    }
    else {
        wavsize *= i;
    }
    /* if outf is seekable, rewind and adjust length */
    if (!global_decoder.disable_wav_header && strcmp("-", outPath)
        && !fseek(outf, 0l, SEEK_SET))
        WriteWaveHeader(outf, (int) wavsize, lame_get_in_samplerate(gfp), tmp_num_channels, 16);
    fclose(outf);
    close_infile();

    if (dp != 0)
        decoder_progress_finish(dp);
    return 0;
}

Exemplo n.º 3

Arquivo: main.c Projeto: Molteris/monitord

int
lame_decoder(lame_global_flags * gfp, FILE * outf, int skip, char *inPath,
             char *outPath)
{
    short int Buffer[2][1152];
    int     iread;
    double  wavsize;
    int     i;
    void    (*WriteFunction) (FILE * fp, char *p, int n);
    int tmp_num_channels = lame_get_num_channels( gfp );



    if (silent < 10) fprintf(stderr, "\rinput:  %s%s(%g kHz, %i channel%s, ",
            strcmp(inPath, "-") ? inPath : "<stdin>",
            strlen(inPath) > 26 ? "\n\t" : "  ",
            lame_get_in_samplerate( gfp ) / 1.e3,
            tmp_num_channels, tmp_num_channels != 1 ? "s" : "");

    switch (input_format) {
    case sf_mp3:
        if (skip==0) {
            if (enc_delay>-1) skip = enc_delay + 528+1;
            else skip=lame_get_encoder_delay(gfp)+528+1;
        }else{
            /* user specified a value of skip. just add for decoder */
            skip += 528+1; /* mp3 decoder has a 528 sample delay, plus user supplied "skip" */
        }

        if (silent < 10) fprintf(stderr, "MPEG-%u%s Layer %s", 2 - lame_get_version(gfp),
                lame_get_out_samplerate( gfp ) < 16000 ? ".5" : "", "III");
        break;
    case sf_mp2:
        skip += 240 + 1;
        if (silent < 10) fprintf(stderr, "MPEG-%u%s Layer %s", 2 - lame_get_version(gfp),
                lame_get_out_samplerate( gfp ) < 16000 ? ".5" : "", "II");
        break;
    case sf_mp1:
        skip += 240 + 1;
        if (silent < 10) fprintf(stderr, "MPEG-%u%s Layer %s", 2 - lame_get_version(gfp),
                lame_get_out_samplerate( gfp ) < 16000 ? ".5" : "", "I");
        break;
    case sf_raw:
        if (silent < 10) fprintf(stderr, "raw PCM data");
        mp3input_data.nsamp = lame_get_num_samples( gfp );
        mp3input_data.framesize = 1152;
        skip = 0;       /* other formats have no delay *//* is += 0 not better ??? */
        break;
    case sf_wave:
        if (silent < 10) fprintf(stderr, "Microsoft WAVE");
        mp3input_data.nsamp = lame_get_num_samples( gfp );
        mp3input_data.framesize = 1152;
        skip = 0;       /* other formats have no delay *//* is += 0 not better ??? */
        break;
    case sf_aiff:
        if (silent < 10) fprintf(stderr, "SGI/Apple AIFF");
        mp3input_data.nsamp = lame_get_num_samples( gfp );
        mp3input_data.framesize = 1152;
        skip = 0;       /* other formats have no delay *//* is += 0 not better ??? */
        break;
    default:
        if (silent < 10) fprintf(stderr, "unknown");
        mp3input_data.nsamp = lame_get_num_samples( gfp );
        mp3input_data.framesize = 1152;
        skip = 0;       /* other formats have no delay *//* is += 0 not better ??? */
        assert(0);
        break;
    }

    if (silent < 10) {
	fprintf(stderr, ")\noutput: %s%s(16 bit, Microsoft WAVE)\n",
		strcmp(outPath, "-") ? outPath : "<stdout>",
		strlen(outPath) > 45 ? "\n\t" : "  ");

	if (skip > 0)
	    fprintf(stderr,
		    "skipping initial %i samples (encoder+decoder delay)\n",
		    skip);
    }

    if ( 0 == disable_wav_header )
        WriteWaveHeader(outf, 0x7FFFFFFF, lame_get_in_samplerate( gfp ),
                        tmp_num_channels,
                        16);
    /* unknown size, so write maximum 32 bit signed value */

    wavsize = -skip;
    WriteFunction = swapbytes ? WriteBytesSwapped : WriteBytes;
    mp3input_data.totalframes = mp3input_data.nsamp / mp3input_data.framesize;

    assert(tmp_num_channels >= 1 && tmp_num_channels <= 2);

    do {
        iread = get_audio16(gfp, Buffer); /* read in 'iread' samples */
        mp3input_data.framenum += iread / mp3input_data.framesize;
        wavsize += iread;

        if (silent <= 0)
            decoder_progress(gfp, &mp3input_data);

        skip -= (i = skip < iread ? skip : iread); /* 'i' samples are to skip in this frame */

        for (; i < iread; i++) {
            if ( disable_wav_header ) {
                WriteFunction(outf, (char *) &Buffer[0][i], sizeof(short));
                if (tmp_num_channels == 2)
                    WriteFunction(outf, (char *) &Buffer[1][i], sizeof(short));
            }
            else {
                Write16BitsLowHigh(outf, Buffer[0][i]);
                if (tmp_num_channels == 2)
                    Write16BitsLowHigh(outf, Buffer[1][i]);
            }
        }
    } while (iread);

    i = (16 / 8) * tmp_num_channels;
    assert(i > 0);
    if (wavsize <= 0) {
        if (silent < 10) fprintf(stderr, "WAVE file contains 0 PCM samples\n");
        wavsize = 0;
    }
    else if (wavsize > 0xFFFFFFD0 / i) {
        if (silent < 10) fprintf(stderr,
                "Very huge WAVE file, can't set filesize accordingly\n");
        wavsize = 0xFFFFFFD0;
    }
    else {
        wavsize *= i;
    }

    if ( 0 == disable_wav_header )
        if (!fseek(outf, 0l, SEEK_SET)) /* if outf is seekable, rewind and adjust length */
            WriteWaveHeader(outf, (int)wavsize, lame_get_in_samplerate( gfp ),
                            tmp_num_channels, 16);
    fclose(outf);

    if (silent <= 0)
	decoder_progress_finish(gfp);
    return 0;
}

Exemplo n.º 4

Arquivo: LameLibEncoder.cpp Projeto: bryangrim/darkice

/*------------------------------------------------------------------------------
 *  Open an encoding session
 *----------------------------------------------------------------------------*/
bool
LameLibEncoder :: open ( void )
                                                            throw ( Exception )
{
    if ( isOpen() ) {
        close();
    }

    lameGlobalFlags = lame_init();

    // ugly lame returns -1 in a pointer on allocation errors
    if ( !lameGlobalFlags || ((int)lameGlobalFlags) == -1 ) {
        throw Exception( __FILE__, __LINE__,
                         "lame lib init error",
                         (int) lameGlobalFlags);
    }

    if ( 0 > lame_set_num_channels( lameGlobalFlags, getInChannel()) ) {
        throw Exception( __FILE__, __LINE__,
                         "lame lib setting channels error",
                         getInChannel() );
    }

    if ( 0 > lame_set_mode( lameGlobalFlags,
                            getInChannel() == 1 ? MONO : JOINT_STEREO) ) {
        throw Exception( __FILE__, __LINE__,
                         "lame lib setting mode error",
                         JOINT_STEREO );
    }

    reportEvent( 5, "set lame mode", lame_get_mode( lameGlobalFlags));
    
    reportEvent( 5,
                 "set lame channels",
                 lame_get_num_channels( lameGlobalFlags));
    
    if ( 0 > lame_set_in_samplerate( lameGlobalFlags, getInSampleRate()) ) {
        throw Exception( __FILE__, __LINE__,
                         "lame lib setting input sample rate error",
                         getInSampleRate() );
    }

    reportEvent( 5,
                 "set lame in sample rate",
                 lame_get_in_samplerate( lameGlobalFlags));
    
    if ( 0 > lame_set_out_samplerate( lameGlobalFlags, getOutSampleRate()) ) {
        throw Exception( __FILE__, __LINE__,
                         "lame lib setting output sample rate error",
                         getOutSampleRate() );
    }

    reportEvent( 5,
                 "set lame out sample rate",
                 lame_get_out_samplerate( lameGlobalFlags));
    
    if ( 0 > lame_set_brate( lameGlobalFlags, getOutBitrate()) ) {
        throw Exception( __FILE__, __LINE__,
                         "lame lib setting output bit rate error",
                         getOutBitrate() );
    }

    reportEvent( 5, "set lame bit rate", lame_get_brate( lameGlobalFlags));
    
    if ( lowpass ) {
        if ( 0 > lame_set_lowpassfreq( lameGlobalFlags, lowpass) ) {
            throw Exception( __FILE__, __LINE__,
                             "lame lib setting lowpass frequency error",
                             lowpass );
        }

        reportEvent( 5,
                     "set lame lowpass frequency",
                     lame_get_lowpassfreq( lameGlobalFlags));
    }
    
    if ( highpass ) {
        if ( 0 > lame_set_highpassfreq( lameGlobalFlags, highpass) ) {
            throw Exception( __FILE__, __LINE__,
                             "lame lib setting highpass frequency error",
                             lowpass );
        }

        reportEvent( 5,
                     "set lame highpass frequency",
                     lame_get_highpassfreq( lameGlobalFlags));
    }

    // not configurable lame settings

    if ( 0 > lame_set_quality( lameGlobalFlags, 2) ) {
        throw Exception( __FILE__, __LINE__,
                         "lame lib setting quality error",
                         2 );
    }

    reportEvent( 5, "set lame quality", lame_get_quality( lameGlobalFlags));
    
    if ( 0 > lame_set_exp_nspsytune( lameGlobalFlags, 1) ) {
        throw Exception( __FILE__, __LINE__,
                         "lame lib setting  psycho acoustic model error");
    }

    reportEvent( 5,
                 "set lame psycho acoustic model",
                 lame_get_exp_nspsytune( lameGlobalFlags));
    
    if ( 0 > lame_set_error_protection( lameGlobalFlags, 1) ) {
        throw Exception( __FILE__, __LINE__,
                         "lame lib setting error protection error",
                         1 );
    }

    reportEvent( 5,
                 "set lame error protection",
                 lame_get_error_protection( lameGlobalFlags));

    // let lame init its own params based on our settings
    if ( 0 > lame_init_params( lameGlobalFlags) ) {
        throw Exception( __FILE__, __LINE__,
                         "lame lib initializing params error" );
    }

    lame_print_config( lameGlobalFlags);

    // open the underlying sink
    if ( !sink->open() ) {
        throw Exception( __FILE__, __LINE__,
                         "lame lib opening underlying sink error");
    }
 
    return true;
}

Exemplo n.º 5

Arquivo: ACMStream.cpp Projeto: BOTCrusher/sagetv

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;
}

Exemplo n.º 6

Arquivo: DTLameEncoderDetails.cpp Projeto: TechLord-Forever/four-k-download

int lame_encoder_impl_internal::get_input_sample_rate() const
{
    return lame_get_in_samplerate(m_Lame.get());
}

Exemplo n.º 7

Arquivo: lame.c Projeto: ian-llewellyn/rotter

encoder_funcs_t* init_lame( output_format_t* format, int channels, int bitrate )
{
  encoder_funcs_t* funcs = NULL;

  lame_opts = lame_init();
  if (lame_opts==NULL) {
    rotter_error("lame error: failed to initialise.");
    return NULL;
  }

  if ( 0 > lame_set_num_channels( lame_opts, channels ) ) {
    rotter_error("lame error: failed to set number of channels.");
    return NULL;
  }

  if ( 0 > lame_set_in_samplerate( lame_opts, jack_get_sample_rate( client ) )) {
    rotter_error("lame error: failed to set input samplerate.");
    return NULL;
  }

  if ( 0 > lame_set_out_samplerate( lame_opts, jack_get_sample_rate( client ) )) {
    rotter_error("lame error: failed to set output samplerate.");
    return NULL;
  }

  if ( 0 > lame_set_brate( lame_opts, bitrate) ) {
    rotter_error("lame error: failed to set bitrate.");
    return NULL;
  }

  if ( 0 > lame_init_params( lame_opts ) ) {
    rotter_error("lame error: failed to initialize parameters.");
    return NULL;
  }


  rotter_info( "Encoding using liblame version %s.", get_lame_version() );
  rotter_debug( "  Input: %d Hz, %d channels",
            lame_get_in_samplerate(lame_opts),
            lame_get_num_channels(lame_opts));
  rotter_debug( "  Output: %s Layer 3, %d kbps, %s",
            lame_get_version_name(lame_opts),
            lame_get_brate(lame_opts),
            lame_get_mode_name(lame_opts));

  // Allocate memory for encoded audio
  mpeg_buffer = malloc( 1.25*SAMPLES_PER_FRAME + 7200 );
  if ( mpeg_buffer==NULL ) {
    rotter_error( "Failed to allocate memery for encoded audio." );
    return NULL;
  }

  // Allocate memory for callback functions
  funcs = calloc( 1, sizeof(encoder_funcs_t) );
  if ( funcs==NULL ) {
    rotter_error( "Failed to allocate memery for encoder callback functions structure." );
    return NULL;
  }


  funcs->file_suffix = "mp3";
  funcs->open = open_mpegaudio_file;
  funcs->close = close_mpegaudio_file;
  funcs->write = write_lame;
  funcs->deinit = deinit_lame;


  return funcs;
}