demboyz/external/SILK_SDK_SRC_FLP_v1.0.9/test/Encoder.c

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/*****************************/
/* Silk encoder test program */
/*****************************/

#ifdef _WIN32
#define _CRT_SECURE_NO_DEPRECATE    1
#endif

#include <stdio.h>
#include <stdlib.h>
#include <string.h>
#include "SKP_Silk_SDK_API.h"

/* Define codec specific settings */
#define MAX_BYTES_PER_FRAME     250 // Equals peak bitrate of 100 kbps 
#define MAX_INPUT_FRAMES        5
#define FRAME_LENGTH_MS         20
#define MAX_API_FS_KHZ          48

#ifdef _SYSTEM_IS_BIG_ENDIAN
/* Function to convert a little endian int16 to a */
/* big endian int16 or vica verca                 */
void swap_endian(
    SKP_int16       vec[],              /*  I/O array of */
    SKP_int         len                 /*  I   length      */
)
{
    SKP_int i;
    SKP_int16 tmp;
    SKP_uint8 *p1, *p2;

    for( i = 0; i < len; i++ ){
        tmp = vec[ i ];
        p1 = (SKP_uint8 *)&vec[ i ]; p2 = (SKP_uint8 *)&tmp;
        p1[ 0 ] = p2[ 1 ]; p1[ 1 ] = p2[ 0 ];
    }
}
#endif

#if (defined(_WIN32) || defined(_WINCE)) 
#include <windows.h>	/* timer */
#else    // Linux or Mac
#include <sys/time.h>
#endif

#ifdef _WIN32

unsigned long GetHighResolutionTime() /* O: time in usec*/
{
    /* Returns a time counter in microsec	*/
    /* the resolution is platform dependent */
    /* but is typically 1.62 us resolution  */
    LARGE_INTEGER lpPerformanceCount;
    LARGE_INTEGER lpFrequency;
    QueryPerformanceCounter(&lpPerformanceCount);
    QueryPerformanceFrequency(&lpFrequency);
    return (unsigned long)((1000000*(lpPerformanceCount.QuadPart)) / lpFrequency.QuadPart);
}
#else    // Linux or Mac
unsigned long GetHighResolutionTime() /* O: time in usec*/
{
    struct timeval tv;
    gettimeofday(&tv, 0);
    return((tv.tv_sec*1000000)+(tv.tv_usec));
}
#endif // _WIN32

static void print_usage( char* argv[] ) {
    printf( "\nusage: %s in.pcm out.bit [settings]\n", argv[ 0 ] );
    printf( "\nin.pcm               : Speech input to encoder" );
    printf( "\nout.bit              : Bitstream output from encoder" );
    printf( "\n   settings:" );
    printf( "\n-Fs_API <Hz>         : API sampling rate in Hz, default: 24000" );
    printf( "\n-Fs_maxInternal <Hz> : Maximum internal sampling rate in Hz, default: 24000" ); 
    printf( "\n-packetlength <ms>   : Packet interval in ms, default: 20" );
    printf( "\n-rate <bps>          : Target bitrate; default: 25000" );
    printf( "\n-loss <perc>         : Uplink loss estimate, in percent (0-100); default: 0" );
    printf( "\n-inbandFEC <flag>    : Enable inband FEC usage (0/1); default: 0" );
    printf( "\n-complexity <comp>   : Set complexity, 0: low, 1: medium, 2: high; default: 2" );
    printf( "\n-DTX <flag>          : Enable DTX (0/1); default: 0" );
    printf( "\n-quiet               : Print only some basic values" );
    printf( "\n");
}

int main( int argc, char* argv[] )
{
    unsigned long tottime, starttime;
    double    filetime;
    size_t    counter;
    SKP_int32 k, args, totPackets, totActPackets, ret;
    SKP_int16 nBytes;
    double    sumBytes, sumActBytes, avg_rate, act_rate, nrg;
    SKP_uint8 payload[ MAX_BYTES_PER_FRAME * MAX_INPUT_FRAMES ];
    SKP_int16 in[ FRAME_LENGTH_MS * MAX_API_FS_KHZ * MAX_INPUT_FRAMES ];
    char      speechInFileName[ 150 ], bitOutFileName[ 150 ];
    FILE      *bitOutFile, *speechInFile;
    SKP_int32 encSizeBytes;
    void      *psEnc;
#ifdef _SYSTEM_IS_BIG_ENDIAN
    SKP_int16 nBytes_LE;
#endif

    /* default settings */
    SKP_int32 API_fs_Hz = 24000;
    SKP_int32 max_internal_fs_Hz = 0;
    SKP_int32 targetRate_bps = 25000;
    SKP_int32 smplsSinceLastPacket, packetSize_ms = 20;
    SKP_int32 frameSizeReadFromFile_ms = 20;
    SKP_int32 packetLoss_perc = 0;
#if LOW_COMPLEXITY_ONLY
    SKP_int32 complexity_mode = 0;
#else
    SKP_int32 complexity_mode = 2;
#endif
    SKP_int32 DTX_enabled = 0, INBandFEC_enabled = 0, quiet = 0;
    SKP_SILK_SDK_EncControlStruct encControl; // Struct for input to encoder
    SKP_SILK_SDK_EncControlStruct encStatus;  // Struct for status of encoder

    if( argc < 3 ) {
        print_usage( argv );
        exit( 0 );
    } 
    
    /* get arguments */
    args = 1;
    strcpy( speechInFileName, argv[ args ] );
    args++;
    strcpy( bitOutFileName,   argv[ args ] );
    args++;
    while( args < argc ) {
        if( SKP_STR_CASEINSENSITIVE_COMPARE( argv[ args ], "-Fs_API" ) == 0 ) {
            sscanf( argv[ args + 1 ], "%d", &API_fs_Hz );
            args += 2;
        } else if( SKP_STR_CASEINSENSITIVE_COMPARE( argv[ args ], "-Fs_maxInternal" ) == 0 ) {
            sscanf( argv[ args + 1 ], "%d", &max_internal_fs_Hz );
            args += 2;
        } else if( SKP_STR_CASEINSENSITIVE_COMPARE( argv[ args ], "-packetlength" ) == 0 ) {
            sscanf( argv[ args + 1 ], "%d", &packetSize_ms );
            args += 2;
        } else if( SKP_STR_CASEINSENSITIVE_COMPARE( argv[ args ], "-rate" ) == 0 ) {
            sscanf( argv[ args + 1 ], "%d", &targetRate_bps );
            args += 2;
        } else if( SKP_STR_CASEINSENSITIVE_COMPARE( argv[ args ], "-loss" ) == 0 ) {
            sscanf( argv[ args + 1 ], "%d", &packetLoss_perc );
            args += 2;
        } else if( SKP_STR_CASEINSENSITIVE_COMPARE( argv[ args ], "-complexity" ) == 0 ) {
            sscanf( argv[ args + 1 ], "%d", &complexity_mode );
            args += 2;
        } else if( SKP_STR_CASEINSENSITIVE_COMPARE( argv[ args ], "-inbandFEC" ) == 0 ) {
            sscanf( argv[ args + 1 ], "%d", &INBandFEC_enabled );
            args += 2;
        } else if( SKP_STR_CASEINSENSITIVE_COMPARE( argv[ args ], "-DTX") == 0 ) {
            sscanf( argv[ args + 1 ], "%d", &DTX_enabled );
            args += 2;
        } else if( SKP_STR_CASEINSENSITIVE_COMPARE( argv[ args ], "-quiet" ) == 0 ) {
            quiet = 1;
            args++;
        } else {
            printf( "Error: unrecognized setting: %s\n\n", argv[ args ] );
            print_usage( argv );
            exit( 0 );
        }
    }

    /* If no max internal is specified, set to minimum of API fs and 24 kHz */
    if( max_internal_fs_Hz == 0 ) {
        max_internal_fs_Hz = 24000;
        if( API_fs_Hz < max_internal_fs_Hz ) {
            max_internal_fs_Hz = API_fs_Hz;
        }
    }

    /* Print options */
    if( !quiet ) {
        if( sizeof(SKP_float) == sizeof(float) ) {
            printf("********** Silk Encoder (Single Precision) v %s ***************\n", SKP_Silk_SDK_get_version());
        } else {
            printf("********** Silk Encoder (Double Precision) v %s ***************\n", SKP_Silk_SDK_get_version());
        }
        printf("********** Compiled for %d bit cpu ******************************* \n", (int)sizeof(void*) * 8 );
        printf( "Input:                          %s\n",     speechInFileName );
        printf( "Output:                         %s\n",     bitOutFileName );
        printf( "API sampling rate:              %d Hz\n",  API_fs_Hz );
        printf( "Maximum internal sampling rate: %d Hz\n",  max_internal_fs_Hz );
        printf( "Packet interval:                %d ms\n",  packetSize_ms );
        printf( "Inband FEC used:                %d\n",     INBandFEC_enabled );
        printf( "DTX used:                       %d\n",     DTX_enabled );
        printf( "Complexity:                     %d\n",     complexity_mode );
        printf( "Target bitrate:                 %d bps\n", targetRate_bps );
    }

    /* Open files */
    speechInFile = fopen( speechInFileName, "rb" );
    if( speechInFile == NULL ) {
        printf( "Error: could not open input file %s\n", speechInFileName );
        exit( 0 );
    }
    bitOutFile = fopen( bitOutFileName, "wb" );
    if( bitOutFile == NULL ) {
        printf( "Error: could not open output file %s\n", bitOutFileName );
        exit( 0 );
    }

    /* Add Silk header to stream */
    {
        static const char Silk_header[] = "#!SILK_V3";
        fwrite( Silk_header, sizeof( char ), strlen( Silk_header ), bitOutFile );
    }

    /* Create Encoder */
    ret = SKP_Silk_SDK_Get_Encoder_Size( &encSizeBytes );
    if( ret ) {
        printf( "\nError: SKP_Silk_create_encoder returned %d\n", ret );
        exit( 0 );
    }

    psEnc = malloc( encSizeBytes );

    /* Reset Encoder */
    ret = SKP_Silk_SDK_InitEncoder( psEnc, &encStatus );
    if( ret ) {
        printf( "\nError: SKP_Silk_reset_encoder returned %d\n", ret );
        exit( 0 );
    }

    /* Set Encoder parameters */
    encControl.API_sampleRate        = API_fs_Hz;
    encControl.maxInternalSampleRate = max_internal_fs_Hz;
    encControl.packetSize            = ( packetSize_ms * API_fs_Hz ) / 1000;
    encControl.packetLossPercentage  = packetLoss_perc;
    encControl.useInBandFEC          = INBandFEC_enabled;
    encControl.useDTX                = DTX_enabled;
    encControl.complexity            = complexity_mode;
    encControl.bitRate               = ( targetRate_bps > 0 ? targetRate_bps : 0 );

    if( API_fs_Hz > MAX_API_FS_KHZ * 1000 || API_fs_Hz < 0 ) {
        printf( "\nError: API sampling rate = %d out of range, valid range 8000 - 48000 \n \n", API_fs_Hz );
        exit( 0 );
    }

    tottime              = 0;
    totPackets           = 0;
    totActPackets        = 0;
    smplsSinceLastPacket = 0;
    sumBytes             = 0.0;
    sumActBytes          = 0.0;
    smplsSinceLastPacket = 0;
    
    while( 1 ) {
        /* Read input from file */
        counter = fread( in, sizeof( SKP_int16 ), ( frameSizeReadFromFile_ms * API_fs_Hz ) / 1000, speechInFile );
#ifdef _SYSTEM_IS_BIG_ENDIAN
        swap_endian( in, counter );
#endif
        if( ( SKP_int )counter < ( ( frameSizeReadFromFile_ms * API_fs_Hz ) / 1000 ) ) {
            break;
        }

        /* max payload size */
        nBytes = MAX_BYTES_PER_FRAME * MAX_INPUT_FRAMES;

        starttime = GetHighResolutionTime();

        /* Silk Encoder */
        ret = SKP_Silk_SDK_Encode( psEnc, &encControl, in, (SKP_int16)counter, payload, &nBytes );
        if( ret ) {
            printf( "\nSKP_Silk_Encode returned %d", ret );
        }

        tottime += GetHighResolutionTime() - starttime;

        /* Get packet size */
        packetSize_ms = ( SKP_int )( ( 1000 * ( SKP_int32 )encControl.packetSize ) / encControl.API_sampleRate );

        smplsSinceLastPacket += ( SKP_int )counter;
        
        if( ( ( 1000 * smplsSinceLastPacket ) / API_fs_Hz ) == packetSize_ms ) {
            /* Sends a dummy zero size packet in case of DTX period  */
            /* to make it work with the decoder test program.        */
            /* In practice should be handled by RTP sequence numbers */
            totPackets++;
            sumBytes  += nBytes;
            nrg = 0.0;
            for( k = 0; k < ( SKP_int )counter; k++ ) {
                nrg += in[ k ] * (double)in[ k ];
            }
            if( ( nrg / ( SKP_int )counter ) > 1e3 ) {
                sumActBytes += nBytes;
                totActPackets++;
            }

            /* Write payload size */
#ifdef _SYSTEM_IS_BIG_ENDIAN
            nBytes_LE = nBytes;
            swap_endian( &nBytes_LE, 1 );
            fwrite( &nBytes_LE, sizeof( SKP_int16 ), 1, bitOutFile );
#else
            fwrite( &nBytes, sizeof( SKP_int16 ), 1, bitOutFile );
#endif

            /* Write payload */
            fwrite( payload, sizeof( SKP_uint8 ), nBytes, bitOutFile );

            smplsSinceLastPacket = 0;
        
            if( !quiet ) {
                fprintf( stderr, "\rPackets encoded:                %d", totPackets );
            }
        }
    }

    /* Write dummy because it can not end with 0 bytes */
    nBytes = -1;

    /* Write payload size */
    fwrite( &nBytes, sizeof( SKP_int16 ), 1, bitOutFile );

    /* Free Encoder */
    free( psEnc );

    fclose( speechInFile );
    fclose( bitOutFile   );

    filetime  = totPackets * 1e-3 * packetSize_ms;
    avg_rate  = 8.0 / packetSize_ms * sumBytes       / totPackets;
    act_rate  = 8.0 / packetSize_ms * sumActBytes    / totActPackets;
    if( !quiet ) {
        printf( "\nFile length:                    %.3f s", filetime );
        printf( "\nTime for encoding:              %.3f s (%.3f%% of realtime)", 1e-6 * tottime, 1e-4 * tottime / filetime );
        printf( "\nAverage bitrate:                %.3f kbps", avg_rate  );
        printf( "\nActive bitrate:                 %.3f kbps", act_rate  );
        printf( "\n\n" );
    } else {
        /* print time and % of realtime */
        printf("%.3f %.3f %d ", 1e-6 * tottime, 1e-4 * tottime / filetime, totPackets );
        /* print average and active bitrates */
        printf( "%.3f %.3f \n", avg_rate, act_rate );
    }

    return 0;
}