modules/audio_coding/codecs/isac/fix/test/test_iSACfixfloat.c - src/webrtc - Git at Google

 /*
  *  Copyright (c) 2011 The WebRTC project authors. All Rights Reserved.
  *
  *  Use of this source code is governed by a BSD-style license
  *  that can be found in the LICENSE file in the root of the source
  *  tree. An additional intellectual property rights grant can be found
  *  in the file PATENTS.  All contributing project authors may
  *  be found in the AUTHORS file in the root of the source tree.
  */

 /*
  * test_iSACfixfloat.c
  *
  * Test compatibility and quality between floating- and fixed-point code
  * */

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

 /* include API */
 #include "isac.h"
 #include "isacfix.h"


 /* max number of samples per frame (= 60 ms frame) */
 #define MAX_FRAMESAMPLES				960
 /* number of samples per 10ms frame */
 #define FRAMESAMPLES_10ms				160
 /* sampling frequency (Hz) */
 #define FS								16000


 /* Runtime statistics */
 #include <time.h>
 #define CLOCKS_PER_SEC  1000


 //	FILE *histfile, *ratefile;


 /* function for reading audio data from PCM file */
 int readframe(WebRtc_Word16 *data, FILE *inp, int length) {

 	short k, rlen, status = 0;

 	rlen = fread(data, sizeof(WebRtc_Word16), length, inp);
 	if (rlen < length) {
 		for (k = rlen; k < length; k++)
 			data[k] = 0;
 		status = 1;
 	}

 	return status;
 }

 typedef struct {
 	WebRtc_UWord32 send_time;            /* samples */
 	WebRtc_UWord32 arrival_time;            /* samples */
 	WebRtc_UWord32 sample_count;            /* samples */
 	WebRtc_UWord16 rtp_number;
 } BottleNeckModel;

 void get_arrival_time(int current_framesamples,   /* samples */
 					  int packet_size,            /* bytes */
 					  int bottleneck,             /* excluding headers; bits/s */
 					  BottleNeckModel *BN_data)
 {
 	const int HeaderSize = 35;
 	int HeaderRate;

 	HeaderRate = HeaderSize * 8 * FS / current_framesamples;     /* bits/s */

 	/* everything in samples */
 	BN_data->sample_count = BN_data->sample_count + current_framesamples;

 	BN_data->arrival_time += ((packet_size + HeaderSize) * 8 * FS) / (bottleneck + HeaderRate);
 	BN_data->send_time += current_framesamples;

 	if (BN_data->arrival_time < BN_data->sample_count)
 		BN_data->arrival_time = BN_data->sample_count;

 	BN_data->rtp_number++;
 }


 int main(int argc, char* argv[])
 {

 	char inname[50], outname[50], bottleneck_file[50], bitfilename[60], bitending[10]="_bits.pcm";
 	FILE *inp, *outp, *f_bn, *bitsp;
 	int framecnt, endfile;


 	int i,j,errtype, plc=0;
 	WebRtc_Word16 CodingMode;
 	WebRtc_Word16 bottleneck;

 	WebRtc_Word16 framesize = 30;           /* ms */
     //WebRtc_Word16 framesize = 60; /* To invoke cisco complexity case at frame 2252 */

 	int cur_framesmpls, err;

 	/* Runtime statistics */
 	double starttime;
 	double runtime;
 	double length_file;

 	WebRtc_Word16 stream_len = 0;
 	WebRtc_Word16 declen;

 	WebRtc_Word16 shortdata[FRAMESAMPLES_10ms];
 	WebRtc_Word16 decoded[MAX_FRAMESAMPLES];
 	WebRtc_UWord16 streamdata[600];
 	WebRtc_Word16	speechType[1];

 //	WebRtc_Word16	*iSACstruct;

 	char version_number[20];
 	int mode=-1, tmp, nbTest=0; /*,sss;*/

 #ifdef _DEBUG
 	FILE *fy;
 	double kbps;
 	int totalbits =0;
 	int totalsmpls =0;
 #endif /* _DEBUG */


 	/* only one structure used for ISAC encoder */
 	ISAC_MainStruct *ISAC_main_inst;
 	ISACFIX_MainStruct *ISACFIX_main_inst;

 	BottleNeckModel       BN_data;
 	f_bn  = NULL;

 #ifdef _DEBUG
 	fy = fopen("bit_rate.dat", "w");
 	fclose(fy);
 	fy = fopen("bytes_frames.dat", "w");
 	fclose(fy);
 #endif /* _DEBUG */


 //histfile = fopen("histo.dat", "ab");
 //ratefile = fopen("rates.dat", "ab");

 	/* handling wrong input arguments in the command line */
 	if ((argc<6) || (argc>10))  {
 		printf("\n\nWrong number of arguments or flag values.\n\n");

 		printf("\n");
 		WebRtcIsacfix_version(version_number);
 		printf("iSAC version %s \n\n", version_number);

 		printf("Usage:\n\n");
 		printf("./kenny.exe [-I] bottleneck_value infile outfile \n\n");
 		printf("with:\n");

 		printf("[-I]			:	if -I option is specified, the coder will use\n");
 		printf("				an instantaneous Bottleneck value. If not, it\n");
 		printf("				will be an adaptive Bottleneck value.\n\n");
 		printf("bottleneck_value	:	the value of the bottleneck provided either\n");
 		printf("				as a fixed value (e.g. 25000) or\n");
 		printf("				read from a file (e.g. bottleneck.txt)\n\n");
 		printf("[-m] mode		: Mode (encoder - decoder):\n");
 		printf("				:		0 - float - float \n");
 		printf("				:		1 - float - fix \n");
 		printf("				:		2 - fix - float \n");
 		printf("				:		3 - fix - fix \n");
 		printf("[-PLC]	 		:	Test PLC packetlosses\n");
 		printf("[-NB] num		:	Test NB interfaces, num=1 encNB, num=2 decNB\n");
 		printf("infile			:	Normal speech input file\n\n");
 		printf("outfile			:	Speech output file\n\n");
 		printf("Example usage:\n\n");
 		printf("./kenny.exe -I bottleneck.txt -m 1 speechIn.pcm speechOut.pcm\n\n");
 		exit(0);

 	}


 	printf("--------------------START---------------------\n\n");
 	WebRtcIsac_version(version_number);
 	printf("iSAC FLOAT version %s \n", version_number);
 	WebRtcIsacfix_version(version_number);
 	printf("iSAC FIX version   %s \n\n", version_number);

 	CodingMode = 0;
 	tmp=1;
 	for (i = 1; i < argc;i++)
 	{
 		if (!strcmp ("-I", argv[i]))
 		{
 			printf("\nInstantaneous BottleNeck\n");
 			CodingMode = 1;
 			i++;
 			tmp=0;
 		}

 		if (!strcmp ("-m", argv[i])) {
 			mode=atoi(argv[i+1]);
 			i++;
 		}

 		if (!strcmp ("-PLC", argv[i]))
 		{
 			plc=1;
 		}

 		if (!strcmp ("-NB", argv[i]))
 		{
 			nbTest = atoi(argv[i + 1]);
 			i++;
 		}

 	}

 	if(mode<0) {
 		printf("\nError! Mode must be set: -m 0 \n");
 		exit(0);
 	}

 	if (CodingMode == 0)
 	{
 		printf("\nAdaptive BottleNeck\n");
 	}


 	/* Get Bottleneck value */
 	bottleneck = atoi(argv[2-tmp]);
 	if (bottleneck == 0)
 	{
 		sscanf(argv[2-tmp], "%s", bottleneck_file);
 		f_bn = fopen(bottleneck_file, "rb");
 		if (f_bn  == NULL)
 		{
 			printf("No value provided for BottleNeck and cannot read file %s.\n", bottleneck_file);
 			exit(0);
 		}
 		else {
 			printf("reading bottleneck rates from file %s\n\n",bottleneck_file);
 			if (fscanf(f_bn, "%d", &bottleneck) == EOF) {
 					/* Set pointer to beginning of file */
 					fseek(f_bn, 0L, SEEK_SET);
 					fscanf(f_bn, "%d", &bottleneck);
 			}

 			/*	Bottleneck is a cosine function
 			*	Matlab code for writing the bottleneck file:
 			*	BottleNeck_10ms = 20e3 + 10e3 * cos((0:5999)/5999*2*pi);
 			*	fid = fopen('bottleneck.txt', 'wb');
 			*	fprintf(fid, '%d\n', BottleNeck_10ms); fclose(fid);
 			*/
 		}
 	}
 	else
 	{
 		printf("\nfixed bottleneck rate of %d bits/s\n\n", bottleneck);
 	}


 	/* Get Input and Output files */
 	sscanf(argv[argc-2], "%s", inname);
 	sscanf(argv[argc-1], "%s", outname);

 	if ((inp = fopen(inname,"rb")) == NULL) {
 		printf("  iSAC: Cannot read file %s.\n", inname);
 		exit(1);
 	}
 	if ((outp = fopen(outname,"wb")) == NULL) {
 		printf("  iSAC: Cannot write file %s.\n", outname);
 		exit(1);
 	}
 	printf("\nInput:%s\nOutput:%s\n", inname, outname);

 	i=0;
 	while (outname[i]!='\0') {
 		bitfilename[i]=outname[i];
 		i++;
 	}
 	i-=4;
 	for (j=0;j<9;j++, i++)
 		bitfilename[i]=bitending[j];
 	bitfilename[i]='\0';
 	if ((bitsp = fopen(bitfilename,"wb")) == NULL) {
 		printf("  iSAC: Cannot read file %s.\n", bitfilename);
 		exit(1);
 	}
 	printf("Bitstream:%s\n\n", bitfilename);


 	starttime = clock()/(double)CLOCKS_PER_SEC; /* Runtime statistics */


 	/* Initialize the ISAC and BN structs */
 	WebRtcIsac_create(&ISAC_main_inst);
 /*	WebRtcIsacfix_AssignSize(&sss);
 	iSACstruct=malloc(sss);
 	WebRtcIsacfix_Assign(&ISACFIX_main_inst,iSACstruct);*/
 	WebRtcIsacfix_Create(&ISACFIX_main_inst);

 	BN_data.send_time	  = 0;
 	BN_data.arrival_time  = 0;
 	BN_data.sample_count  = 0;
 	BN_data.rtp_number    = 0;

 	/* Initialize encoder and decoder */
     framecnt= 0;
     endfile	= 0;

 	if (mode==0) { /* Encode using FLOAT, decode using FLOAT */

 		printf("Coding mode: Encode using FLOAT, decode using FLOAT \n\n");

 		/* Init iSAC FLOAT */
 		WebRtcIsac_EncoderInit(ISAC_main_inst, CodingMode);
 		WebRtcIsac_DecoderInit(ISAC_main_inst);
 		if (CodingMode == 1) {
 			err = WebRtcIsac_Control(ISAC_main_inst, bottleneck, framesize);
 			if (err < 0) {
 				/* exit if returned with error */
 				errtype=WebRtcIsac_GetErrorCode(ISAC_main_inst);
 				printf("\n\n Error in initialization: %d.\n\n", errtype);
 			//	exit(EXIT_FAILURE);
 			}
 		}

 	} else if (mode==1) { /* Encode using FLOAT, decode using FIX */

 		printf("Coding mode: Encode using FLOAT, decode using FIX \n\n");

 		/* Init iSAC FLOAT */
 		WebRtcIsac_EncoderInit(ISAC_main_inst, CodingMode);
 		WebRtcIsac_DecoderInit(ISAC_main_inst);
 		if (CodingMode == 1) {
 			err = WebRtcIsac_Control(ISAC_main_inst, bottleneck, framesize);
 			if (err < 0) {
 				/* exit if returned with error */
 				errtype=WebRtcIsac_GetErrorCode(ISAC_main_inst);
 				printf("\n\n Error in initialization: %d.\n\n", errtype);
 			//	exit(EXIT_FAILURE);
 			}
 		}

 		/* Init iSAC FIX */
 		WebRtcIsacfix_EncoderInit(ISACFIX_main_inst, CodingMode);
 		WebRtcIsacfix_DecoderInit(ISACFIX_main_inst);
 		if (CodingMode == 1) {
 			err = WebRtcIsacfix_Control(ISACFIX_main_inst, bottleneck, framesize);
 			if (err < 0) {
 				/* exit if returned with error */
 				errtype=WebRtcIsacfix_GetErrorCode(ISACFIX_main_inst);
 				printf("\n\n Error in initialization: %d.\n\n", errtype);
 				//exit(EXIT_FAILURE);
 			}
 		}
 	} else if (mode==2) { /* Encode using FIX, decode using FLOAT */

 		printf("Coding mode: Encode using FIX, decode using FLOAT \n\n");

 		/* Init iSAC FLOAT */
 		WebRtcIsac_EncoderInit(ISAC_main_inst, CodingMode);
 		WebRtcIsac_DecoderInit(ISAC_main_inst);
 		if (CodingMode == 1) {
 			err = WebRtcIsac_Control(ISAC_main_inst, bottleneck, framesize);
 			if (err < 0) {
 				/* exit if returned with error */
 				errtype=WebRtcIsac_GetErrorCode(ISAC_main_inst);
 				printf("\n\n Error in initialization: %d.\n\n", errtype);
 				//exit(EXIT_FAILURE);
 			}
 		}

 		/* Init iSAC FIX */
 		WebRtcIsacfix_EncoderInit(ISACFIX_main_inst, CodingMode);
 		WebRtcIsacfix_DecoderInit(ISACFIX_main_inst);
 		if (CodingMode == 1) {
 			err = WebRtcIsacfix_Control(ISACFIX_main_inst, bottleneck, framesize);
 			if (err < 0) {
 				/* exit if returned with error */
 				errtype=WebRtcIsacfix_GetErrorCode(ISACFIX_main_inst);
 				printf("\n\n Error in initialization: %d.\n\n", errtype);
 				//exit(EXIT_FAILURE);
 			}
 		}
 	} else if (mode==3) {

 		printf("Coding mode: Encode using FIX, decode using FIX \n\n");

 		WebRtcIsacfix_EncoderInit(ISACFIX_main_inst, CodingMode);
 		WebRtcIsacfix_DecoderInit(ISACFIX_main_inst);
 		if (CodingMode == 1) {
 			err = WebRtcIsacfix_Control(ISACFIX_main_inst, bottleneck, framesize);
 			if (err < 0) {
 				/* exit if returned with error */
 				errtype=WebRtcIsacfix_GetErrorCode(ISACFIX_main_inst);
 				printf("\n\n Error in initialization: %d.\n\n", errtype);
 				//exit(EXIT_FAILURE);
 			}
 		}

 	} else
 		printf("Mode must be value between 0 and 3\n");
 	*speechType = 1;

 //#define BI_TEST 1
 #ifdef BI_TEST
     err = WebRtcIsacfix_SetMaxPayloadSize(ISACFIX_main_inst, 300);
     if (err < 0) {
             /* exit if returned with error */
             errtype=WebRtcIsacfix_GetErrorCode(ISACFIX_main_inst);
             printf("\n\n Error in setMaxPayloadSize: %d.\n\n", errtype);
             fclose(inp);
             fclose(outp);
             fclose(bitsp);
             return(EXIT_FAILURE);
     }
 #endif


     while (endfile == 0) {

 		cur_framesmpls = 0;
 		while (1) {
 			/* Read 10 ms speech block */
 			if (nbTest != 1)
 				endfile = readframe(shortdata, inp, FRAMESAMPLES_10ms);
 			else
 				endfile = readframe(shortdata, inp, (FRAMESAMPLES_10ms/2));

 			/* iSAC encoding */

 			if (mode==0 || mode ==1) {
 				stream_len = WebRtcIsac_Encode(ISAC_main_inst, shortdata,	streamdata);
 				if (stream_len < 0) {
 					/* exit if returned with error */
 					errtype=WebRtcIsac_GetErrorCode(ISAC_main_inst);
 					printf("\n\nError in encoder: %d.\n\n", errtype);
 				//	exit(EXIT_FAILURE);
 				}
 			} else if (mode==2 || mode==3) {
 				/* iSAC encoding */
 				if (nbTest != 1)
 					stream_len = WebRtcIsacfix_Encode(ISACFIX_main_inst, shortdata,	streamdata);
 				else
 					stream_len = WebRtcIsacfix_EncodeNb(ISACFIX_main_inst, shortdata, streamdata);

 				if (stream_len < 0) {
 					/* exit if returned with error */
 					errtype=WebRtcIsacfix_GetErrorCode(ISACFIX_main_inst);
 					printf("\n\nError in encoder: %d.\n\n", errtype);
 				//	exit(EXIT_FAILURE);
 				}
 			}

 			cur_framesmpls += FRAMESAMPLES_10ms;

 			/* read next bottleneck rate */
 			if (f_bn != NULL) {
 				if (fscanf(f_bn, "%d", &bottleneck) == EOF) {
 					/* Set pointer to beginning of file */
 					fseek(f_bn, 0L, SEEK_SET);
 					fscanf(f_bn, "%d", &bottleneck);
 				}
 				if (CodingMode == 1) {
 					if (mode==0 || mode==1)
 					  WebRtcIsac_Control(ISAC_main_inst, bottleneck, framesize);
 					else if	(mode==2 || mode==3)
 						WebRtcIsacfix_Control(ISACFIX_main_inst, bottleneck, framesize);
 				}
 			}

 			/* exit encoder loop if the encoder returned a bitstream */
 			if (stream_len != 0) break;
 		}

 		fwrite(streamdata, 1, stream_len, bitsp); /* NOTE! Writes bytes to file */

 		/* simulate packet handling through NetEq and the modem */
 		get_arrival_time(cur_framesmpls, stream_len, bottleneck,
 						 &BN_data);
 //*****************************
 		if (1){
 		if (mode==0) {
 			err = WebRtcIsac_UpdateBwEstimate(ISAC_main_inst,
 									  streamdata,
 									  stream_len,
 									  BN_data.rtp_number,
 									  BN_data.arrival_time);

 			if (err < 0) {
 				/* exit if returned with error */
 				errtype=WebRtcIsac_GetErrorCode(ISAC_main_inst);
 				printf("\n\nError in decoder: %d.\n\n", errtype);
 				//exit(EXIT_FAILURE);
 			}
 			/* iSAC decoding */
 			declen = WebRtcIsac_Decode(ISAC_main_inst,
 										  streamdata,
 									  	  stream_len,
 										  decoded,
 										  speechType);
 			if (declen <= 0) {
 				/* exit if returned with error */
 				errtype=WebRtcIsac_GetErrorCode(ISAC_main_inst);
 				printf("\n\nError in decoder: %d.\n\n", errtype);
 				//exit(EXIT_FAILURE);
 			}
 		} else if (mode==1) {

 			err = WebRtcIsac_UpdateBwEstimate(ISAC_main_inst,
 									  streamdata,
 									  stream_len,
 									  BN_data.rtp_number,
 									  BN_data.arrival_time);
 			err = WebRtcIsacfix_UpdateBwEstimate1(ISACFIX_main_inst,
 									  streamdata,
 									  stream_len,
 									  BN_data.rtp_number,
 									  BN_data.arrival_time);
 			if (err < 0) {
 				/* exit if returned with error */
 				errtype=WebRtcIsacfix_GetErrorCode(ISACFIX_main_inst);
 				printf("\n\nError in decoder: %d.\n\n", errtype);
 				//exit(EXIT_FAILURE);
 			}

 			declen = WebRtcIsac_Decode(ISAC_main_inst,
 										  streamdata,
 									  	  stream_len,
 										  decoded,
 										  speechType);

 			/* iSAC decoding */
 			if (plc && (framecnt+1)%10 == 0) {
 				if (nbTest !=2 )
 					declen = WebRtcIsacfix_DecodePlc( ISACFIX_main_inst, decoded, 1 );
 				else
 					declen = WebRtcIsacfix_DecodePlcNb( ISACFIX_main_inst, decoded, 1 );
 			} else {
 				if (nbTest !=2 )
 					declen = WebRtcIsacfix_Decode(ISACFIX_main_inst,
 												  streamdata,
 											  	  stream_len,
 												  decoded,
 												  speechType);
 				else
 					declen = WebRtcIsacfix_DecodeNb(ISACFIX_main_inst,
 												  streamdata,
 											  	  stream_len,
 												  decoded,
 												  speechType);
 			}

 			if (declen <= 0) {
 				/* exit if returned with error */
 				errtype=WebRtcIsacfix_GetErrorCode(ISACFIX_main_inst);
 				printf("\n\nError in decoder: %d.\n\n", errtype);
 				//exit(EXIT_FAILURE);
 			}
 		} else if (mode==2) {
 			err = WebRtcIsacfix_UpdateBwEstimate1(ISACFIX_main_inst,
 									  streamdata,
 									  stream_len,
 									  BN_data.rtp_number,
 									  BN_data.arrival_time);

 			err = WebRtcIsac_UpdateBwEstimate(ISAC_main_inst,
 									  streamdata,
 									  stream_len,
 									  BN_data.rtp_number,
 									  BN_data.arrival_time);

 			if (err < 0) {
 				/* exit if returned with error */
 				errtype=WebRtcIsac_GetErrorCode(ISAC_main_inst);
 				printf("\n\nError in decoder: %d.\n\n", errtype);
 				//exit(EXIT_FAILURE);
 			}
 			/* iSAC decoding */
 			declen = WebRtcIsac_Decode(ISAC_main_inst,
 										  streamdata,
 									  	  stream_len,
 										  decoded,
 										  speechType);
 			if (declen <= 0) {
 				/* exit if returned with error */
 				errtype=WebRtcIsac_GetErrorCode(ISAC_main_inst);
 				printf("\n\nError in decoder: %d.\n\n", errtype);
 				//exit(EXIT_FAILURE);
 			}
 		}  else if (mode==3) {
 			err = WebRtcIsacfix_UpdateBwEstimate(ISACFIX_main_inst,
 									  streamdata,
 									  stream_len,
 									  BN_data.rtp_number,
 									  BN_data.send_time,
 									  BN_data.arrival_time);

 			if (err < 0) {
 				/* exit if returned with error */
 				errtype=WebRtcIsacfix_GetErrorCode(ISACFIX_main_inst);
 				printf("\n\nError in decoder: %d.\n\n", errtype);
 				//exit(EXIT_FAILURE);
 			}
 			/* iSAC decoding */

 			if (plc && (framecnt+1)%10 == 0) {
 				if (nbTest !=2 )
 					declen = WebRtcIsacfix_DecodePlc( ISACFIX_main_inst, decoded, 1 );
 				else
 					declen = WebRtcIsacfix_DecodePlcNb( ISACFIX_main_inst, decoded, 1 );
 			} else {
 				if (nbTest !=2 )
 					declen = WebRtcIsacfix_Decode(ISACFIX_main_inst,
 												  streamdata,
 											  	  stream_len,
 												  decoded,
 												  speechType);
 				else
 					declen = WebRtcIsacfix_DecodeNb(ISACFIX_main_inst,
 												  streamdata,
 											  	  stream_len,
 												  decoded,
 												  speechType);
 			}
 			if (declen <= 0) {
 				/* exit if returned with error */
 				errtype=WebRtcIsacfix_GetErrorCode(ISACFIX_main_inst);
 				printf("\n\nError in decoder: %d.\n\n", errtype);
 				//exit(EXIT_FAILURE);
 			}
 		}

 		/* Write decoded speech frame to file */
 		fwrite(decoded, sizeof(WebRtc_Word16), declen, outp);
 		}

 		fprintf(stderr,"  \rframe = %d", framecnt);
 		framecnt++;


 #ifdef _DEBUG

 		totalsmpls += declen;
 		totalbits += 8 * stream_len;
 		kbps = ((double) FS) / ((double) cur_framesmpls) * 8.0 * stream_len / 1000.0;// kbits/s
 		fy = fopen("bit_rate.dat", "a");
 		fprintf(fy, "Frame %i = %0.14f\n", framecnt, kbps);
 		fclose(fy);

 #endif /* _DEBUG */

 	}

 #ifdef _DEBUG
 	printf("\n\ntotal bits				= %d bits", totalbits);
 	printf("\nmeasured average bitrate		= %0.3f kbits/s", (double)totalbits *(FS/1000) / totalsmpls);
 	printf("\n");
 #endif /* _DEBUG */

 	/* Runtime statistics */
 	runtime = (double)(clock()/(double)CLOCKS_PER_SEC-starttime);
 	length_file = ((double)framecnt*(double)declen/FS);
 	printf("\n\nLength of speech file: %.1f s\n", length_file);
 	printf("Time to run iSAC:      %.2f s (%.2f %% of realtime)\n\n", runtime, (100*runtime/length_file));
 	printf("---------------------END----------------------\n");

 	fclose(inp);
 	fclose(outp);

 	WebRtcIsac_Free(ISAC_main_inst);
 	WebRtcIsacfix_Free(ISACFIX_main_inst);


 //	fclose(histfile);
 //	fclose(ratefile);

 	return 0;

 }
	/*
	* Copyright (c) 2011 The WebRTC project authors. All Rights Reserved.
	*
	* Use of this source code is governed by a BSD-style license
	* that can be found in the LICENSE file in the root of the source
	* tree. An additional intellectual property rights grant can be found
	* in the file PATENTS. All contributing project authors may
	* be found in the AUTHORS file in the root of the source tree.
	*/

	/*
	* test_iSACfixfloat.c
	*
	* Test compatibility and quality between floating- and fixed-point code
	* */

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

	/* include API */
	#include "isac.h"
	#include "isacfix.h"


	/* max number of samples per frame (= 60 ms frame) */
	#define MAX_FRAMESAMPLES 960
	/* number of samples per 10ms frame */
	#define FRAMESAMPLES_10ms 160
	/* sampling frequency (Hz) */
	#define FS 16000



	/* Runtime statistics */
	#include <time.h>
	#define CLOCKS_PER_SEC 1000



	// FILE histfile, ratefile;


	/* function for reading audio data from PCM file */
	int readframe(WebRtc_Word16 data, FILE inp, int length) {

	short k, rlen, status = 0;

	rlen = fread(data, sizeof(WebRtc_Word16), length, inp);
	if (rlen < length) {
	for (k = rlen; k < length; k++)
	data[k] = 0;
	status = 1;
	}

	return status;
	}

	typedef struct {
	WebRtc_UWord32 send_time; /* samples */
	WebRtc_UWord32 arrival_time; /* samples */
	WebRtc_UWord32 sample_count; /* samples */
	WebRtc_UWord16 rtp_number;
	} BottleNeckModel;

	void get_arrival_time(int current_framesamples, /* samples */
	int packet_size, /* bytes */
	int bottleneck, /* excluding headers; bits/s */
	BottleNeckModel *BN_data)
	{
	const int HeaderSize = 35;
	int HeaderRate;

	HeaderRate = HeaderSize * 8 * FS / current_framesamples; /* bits/s */

	/* everything in samples */
	BN_data->sample_count = BN_data->sample_count + current_framesamples;

	BN_data->arrival_time += ((packet_size + HeaderSize) * 8 * FS) / (bottleneck + HeaderRate);
	BN_data->send_time += current_framesamples;

	if (BN_data->arrival_time < BN_data->sample_count)
	BN_data->arrival_time = BN_data->sample_count;

	BN_data->rtp_number++;
	}



	int main(int argc, char* argv[])
	{

	char inname[50], outname[50], bottleneck_file[50], bitfilename[60], bitending[10]="_bits.pcm";
	FILE inp, outp, f_bn, bitsp;
	int framecnt, endfile;


	int i,j,errtype, plc=0;
	WebRtc_Word16 CodingMode;
	WebRtc_Word16 bottleneck;

	WebRtc_Word16 framesize = 30; /* ms */
	//WebRtc_Word16 framesize = 60; /* To invoke cisco complexity case at frame 2252 */

	int cur_framesmpls, err;

	/* Runtime statistics */
	double starttime;
	double runtime;
	double length_file;

	WebRtc_Word16 stream_len = 0;
	WebRtc_Word16 declen;

	WebRtc_Word16 shortdata[FRAMESAMPLES_10ms];
	WebRtc_Word16 decoded[MAX_FRAMESAMPLES];
	WebRtc_UWord16 streamdata[600];
	WebRtc_Word16 speechType[1];

	// WebRtc_Word16 *iSACstruct;

	char version_number[20];
	int mode=-1, tmp, nbTest=0; /,sss;/

	#ifdef _DEBUG
	FILE *fy;
	double kbps;
	int totalbits =0;
	int totalsmpls =0;
	#endif /* _DEBUG */




	/* only one structure used for ISAC encoder */
	ISAC_MainStruct *ISAC_main_inst;
	ISACFIX_MainStruct *ISACFIX_main_inst;

	BottleNeckModel BN_data;
	f_bn = NULL;

	#ifdef _DEBUG
	fy = fopen("bit_rate.dat", "w");
	fclose(fy);
	fy = fopen("bytes_frames.dat", "w");
	fclose(fy);
	#endif /* _DEBUG */


	//histfile = fopen("histo.dat", "ab");
	//ratefile = fopen("rates.dat", "ab");

	/* handling wrong input arguments in the command line */
	if ((argc<6) \|\| (argc>10)) {
	printf("\n\nWrong number of arguments or flag values.\n\n");

	printf("\n");
	WebRtcIsacfix_version(version_number);
	printf("iSAC version %s \n\n", version_number);

	printf("Usage:\n\n");
	printf("./kenny.exe [-I] bottleneck_value infile outfile \n\n");
	printf("with:\n");

	printf("[-I] : if -I option is specified, the coder will use\n");
	printf(" an instantaneous Bottleneck value. If not, it\n");
	printf(" will be an adaptive Bottleneck value.\n\n");
	printf("bottleneck_value : the value of the bottleneck provided either\n");
	printf(" as a fixed value (e.g. 25000) or\n");
	printf(" read from a file (e.g. bottleneck.txt)\n\n");
	printf("[-m] mode : Mode (encoder - decoder):\n");
	printf(" : 0 - float - float \n");
	printf(" : 1 - float - fix \n");
	printf(" : 2 - fix - float \n");
	printf(" : 3 - fix - fix \n");
	printf("[-PLC] : Test PLC packetlosses\n");
	printf("[-NB] num : Test NB interfaces, num=1 encNB, num=2 decNB\n");
	printf("infile : Normal speech input file\n\n");
	printf("outfile : Speech output file\n\n");
	printf("Example usage:\n\n");
	printf("./kenny.exe -I bottleneck.txt -m 1 speechIn.pcm speechOut.pcm\n\n");
	exit(0);

	}


	printf("--------------------START---------------------\n\n");
	WebRtcIsac_version(version_number);
	printf("iSAC FLOAT version %s \n", version_number);
	WebRtcIsacfix_version(version_number);
	printf("iSAC FIX version %s \n\n", version_number);

	CodingMode = 0;
	tmp=1;
	for (i = 1; i < argc;i++)
	{
	if (!strcmp ("-I", argv[i]))
	{
	printf("\nInstantaneous BottleNeck\n");
	CodingMode = 1;
	i++;
	tmp=0;
	}

	if (!strcmp ("-m", argv[i])) {
	mode=atoi(argv[i+1]);
	i++;
	}

	if (!strcmp ("-PLC", argv[i]))
	{
	plc=1;
	}

	if (!strcmp ("-NB", argv[i]))
	{
	nbTest = atoi(argv[i + 1]);
	i++;
	}

	}

	if(mode<0) {
	printf("\nError! Mode must be set: -m 0 \n");
	exit(0);
	}

	if (CodingMode == 0)
	{
	printf("\nAdaptive BottleNeck\n");
	}



	/* Get Bottleneck value */
	bottleneck = atoi(argv[2-tmp]);
	if (bottleneck == 0)
	{
	sscanf(argv[2-tmp], "%s", bottleneck_file);
	f_bn = fopen(bottleneck_file, "rb");
	if (f_bn == NULL)
	{
	printf("No value provided for BottleNeck and cannot read file %s.\n", bottleneck_file);
	exit(0);
	}
	else {
	printf("reading bottleneck rates from file %s\n\n",bottleneck_file);
	if (fscanf(f_bn, "%d", &bottleneck) == EOF) {
	/* Set pointer to beginning of file */
	fseek(f_bn, 0L, SEEK_SET);
	fscanf(f_bn, "%d", &bottleneck);
	}

	/* Bottleneck is a cosine function
	* Matlab code for writing the bottleneck file:
	* BottleNeck_10ms = 20e3 + 10e3 * cos((0:5999)/59992pi);
	* fid = fopen('bottleneck.txt', 'wb');
	* fprintf(fid, '%d\n', BottleNeck_10ms); fclose(fid);
	*/
	}
	}
	else
	{
	printf("\nfixed bottleneck rate of %d bits/s\n\n", bottleneck);
	}



	/* Get Input and Output files */
	sscanf(argv[argc-2], "%s", inname);
	sscanf(argv[argc-1], "%s", outname);

	if ((inp = fopen(inname,"rb")) == NULL) {
	printf(" iSAC: Cannot read file %s.\n", inname);
	exit(1);
	}
	if ((outp = fopen(outname,"wb")) == NULL) {
	printf(" iSAC: Cannot write file %s.\n", outname);
	exit(1);
	}
	printf("\nInput:%s\nOutput:%s\n", inname, outname);

	i=0;
	while (outname[i]!='\0') {
	bitfilename[i]=outname[i];
	i++;
	}
	i-=4;
	for (j=0;j<9;j++, i++)
	bitfilename[i]=bitending[j];
	bitfilename[i]='\0';
	if ((bitsp = fopen(bitfilename,"wb")) == NULL) {
	printf(" iSAC: Cannot read file %s.\n", bitfilename);
	exit(1);
	}
	printf("Bitstream:%s\n\n", bitfilename);



	starttime = clock()/(double)CLOCKS_PER_SEC; /* Runtime statistics */


	/* Initialize the ISAC and BN structs */
	WebRtcIsac_create(&ISAC_main_inst);
	/* WebRtcIsacfix_AssignSize(&sss);
	iSACstruct=malloc(sss);
	WebRtcIsacfix_Assign(&ISACFIX_main_inst,iSACstruct);*/
	WebRtcIsacfix_Create(&ISACFIX_main_inst);

	BN_data.send_time = 0;
	BN_data.arrival_time = 0;
	BN_data.sample_count = 0;
	BN_data.rtp_number = 0;

	/* Initialize encoder and decoder */
	framecnt= 0;
	endfile = 0;

	if (mode==0) { /* Encode using FLOAT, decode using FLOAT */

	printf("Coding mode: Encode using FLOAT, decode using FLOAT \n\n");

	/* Init iSAC FLOAT */
	WebRtcIsac_EncoderInit(ISAC_main_inst, CodingMode);
	WebRtcIsac_DecoderInit(ISAC_main_inst);
	if (CodingMode == 1) {
	err = WebRtcIsac_Control(ISAC_main_inst, bottleneck, framesize);
	if (err < 0) {
	/* exit if returned with error */
	errtype=WebRtcIsac_GetErrorCode(ISAC_main_inst);
	printf("\n\n Error in initialization: %d.\n\n", errtype);
	// exit(EXIT_FAILURE);
	}
	}

	} else if (mode==1) { /* Encode using FLOAT, decode using FIX */

	printf("Coding mode: Encode using FLOAT, decode using FIX \n\n");

	/* Init iSAC FLOAT */
	WebRtcIsac_EncoderInit(ISAC_main_inst, CodingMode);
	WebRtcIsac_DecoderInit(ISAC_main_inst);
	if (CodingMode == 1) {
	err = WebRtcIsac_Control(ISAC_main_inst, bottleneck, framesize);
	if (err < 0) {
	/* exit if returned with error */
	errtype=WebRtcIsac_GetErrorCode(ISAC_main_inst);
	printf("\n\n Error in initialization: %d.\n\n", errtype);
	// exit(EXIT_FAILURE);
	}
	}

	/* Init iSAC FIX */
	WebRtcIsacfix_EncoderInit(ISACFIX_main_inst, CodingMode);
	WebRtcIsacfix_DecoderInit(ISACFIX_main_inst);
	if (CodingMode == 1) {
	err = WebRtcIsacfix_Control(ISACFIX_main_inst, bottleneck, framesize);
	if (err < 0) {
	/* exit if returned with error */
	errtype=WebRtcIsacfix_GetErrorCode(ISACFIX_main_inst);
	printf("\n\n Error in initialization: %d.\n\n", errtype);
	//exit(EXIT_FAILURE);
	}
	}
	} else if (mode==2) { /* Encode using FIX, decode using FLOAT */

	printf("Coding mode: Encode using FIX, decode using FLOAT \n\n");

	/* Init iSAC FLOAT */
	WebRtcIsac_EncoderInit(ISAC_main_inst, CodingMode);
	WebRtcIsac_DecoderInit(ISAC_main_inst);
	if (CodingMode == 1) {
	err = WebRtcIsac_Control(ISAC_main_inst, bottleneck, framesize);
	if (err < 0) {
	/* exit if returned with error */
	errtype=WebRtcIsac_GetErrorCode(ISAC_main_inst);
	printf("\n\n Error in initialization: %d.\n\n", errtype);
	//exit(EXIT_FAILURE);
	}
	}

	/* Init iSAC FIX */
	WebRtcIsacfix_EncoderInit(ISACFIX_main_inst, CodingMode);
	WebRtcIsacfix_DecoderInit(ISACFIX_main_inst);
	if (CodingMode == 1) {
	err = WebRtcIsacfix_Control(ISACFIX_main_inst, bottleneck, framesize);
	if (err < 0) {
	/* exit if returned with error */
	errtype=WebRtcIsacfix_GetErrorCode(ISACFIX_main_inst);
	printf("\n\n Error in initialization: %d.\n\n", errtype);
	//exit(EXIT_FAILURE);
	}
	}
	} else if (mode==3) {

	printf("Coding mode: Encode using FIX, decode using FIX \n\n");

	WebRtcIsacfix_EncoderInit(ISACFIX_main_inst, CodingMode);
	WebRtcIsacfix_DecoderInit(ISACFIX_main_inst);
	if (CodingMode == 1) {
	err = WebRtcIsacfix_Control(ISACFIX_main_inst, bottleneck, framesize);
	if (err < 0) {
	/* exit if returned with error */
	errtype=WebRtcIsacfix_GetErrorCode(ISACFIX_main_inst);
	printf("\n\n Error in initialization: %d.\n\n", errtype);
	//exit(EXIT_FAILURE);
	}
	}

	} else
	printf("Mode must be value between 0 and 3\n");
	*speechType = 1;

	//#define BI_TEST 1
	#ifdef BI_TEST
	err = WebRtcIsacfix_SetMaxPayloadSize(ISACFIX_main_inst, 300);
	if (err < 0) {
	/* exit if returned with error */
	errtype=WebRtcIsacfix_GetErrorCode(ISACFIX_main_inst);
	printf("\n\n Error in setMaxPayloadSize: %d.\n\n", errtype);
	fclose(inp);
	fclose(outp);
	fclose(bitsp);
	return(EXIT_FAILURE);
	}
	#endif


	while (endfile == 0) {

	cur_framesmpls = 0;
	while (1) {
	/* Read 10 ms speech block */
	if (nbTest != 1)
	endfile = readframe(shortdata, inp, FRAMESAMPLES_10ms);
	else
	endfile = readframe(shortdata, inp, (FRAMESAMPLES_10ms/2));

	/* iSAC encoding */

	if (mode==0 \|\| mode ==1) {
	stream_len = WebRtcIsac_Encode(ISAC_main_inst, shortdata, streamdata);
	if (stream_len < 0) {
	/* exit if returned with error */
	errtype=WebRtcIsac_GetErrorCode(ISAC_main_inst);
	printf("\n\nError in encoder: %d.\n\n", errtype);
	// exit(EXIT_FAILURE);
	}
	} else if (mode==2 \|\| mode==3) {
	/* iSAC encoding */
	if (nbTest != 1)
	stream_len = WebRtcIsacfix_Encode(ISACFIX_main_inst, shortdata, streamdata);
	else
	stream_len = WebRtcIsacfix_EncodeNb(ISACFIX_main_inst, shortdata, streamdata);

	if (stream_len < 0) {
	/* exit if returned with error */
	errtype=WebRtcIsacfix_GetErrorCode(ISACFIX_main_inst);
	printf("\n\nError in encoder: %d.\n\n", errtype);
	// exit(EXIT_FAILURE);
	}
	}

	cur_framesmpls += FRAMESAMPLES_10ms;

	/* read next bottleneck rate */
	if (f_bn != NULL) {
	if (fscanf(f_bn, "%d", &bottleneck) == EOF) {
	/* Set pointer to beginning of file */
	fseek(f_bn, 0L, SEEK_SET);
	fscanf(f_bn, "%d", &bottleneck);
	}
	if (CodingMode == 1) {
	if (mode==0 \|\| mode==1)
	WebRtcIsac_Control(ISAC_main_inst, bottleneck, framesize);
	else if (mode==2 \|\| mode==3)
	WebRtcIsacfix_Control(ISACFIX_main_inst, bottleneck, framesize);
	}
	}

	/* exit encoder loop if the encoder returned a bitstream */
	if (stream_len != 0) break;
	}

	fwrite(streamdata, 1, stream_len, bitsp); /* NOTE! Writes bytes to file */

	/* simulate packet handling through NetEq and the modem */
	get_arrival_time(cur_framesmpls, stream_len, bottleneck,
	&BN_data);
	//*****************************
	if (1){
	if (mode==0) {
	err = WebRtcIsac_UpdateBwEstimate(ISAC_main_inst,
	streamdata,
	stream_len,
	BN_data.rtp_number,
	BN_data.arrival_time);

	if (err < 0) {
	/* exit if returned with error */
	errtype=WebRtcIsac_GetErrorCode(ISAC_main_inst);
	printf("\n\nError in decoder: %d.\n\n", errtype);
	//exit(EXIT_FAILURE);
	}
	/* iSAC decoding */
	declen = WebRtcIsac_Decode(ISAC_main_inst,
	streamdata,
	stream_len,
	decoded,
	speechType);
	if (declen <= 0) {
	/* exit if returned with error */
	errtype=WebRtcIsac_GetErrorCode(ISAC_main_inst);
	printf("\n\nError in decoder: %d.\n\n", errtype);
	//exit(EXIT_FAILURE);
	}
	} else if (mode==1) {

	err = WebRtcIsac_UpdateBwEstimate(ISAC_main_inst,
	streamdata,
	stream_len,
	BN_data.rtp_number,
	BN_data.arrival_time);
	err = WebRtcIsacfix_UpdateBwEstimate1(ISACFIX_main_inst,
	streamdata,
	stream_len,
	BN_data.rtp_number,
	BN_data.arrival_time);
	if (err < 0) {
	/* exit if returned with error */
	errtype=WebRtcIsacfix_GetErrorCode(ISACFIX_main_inst);
	printf("\n\nError in decoder: %d.\n\n", errtype);
	//exit(EXIT_FAILURE);
	}

	declen = WebRtcIsac_Decode(ISAC_main_inst,
	streamdata,
	stream_len,
	decoded,
	speechType);

	/* iSAC decoding */
	if (plc && (framecnt+1)%10 == 0) {
	if (nbTest !=2 )
	declen = WebRtcIsacfix_DecodePlc( ISACFIX_main_inst, decoded, 1 );
	else
	declen = WebRtcIsacfix_DecodePlcNb( ISACFIX_main_inst, decoded, 1 );
	} else {
	if (nbTest !=2 )
	declen = WebRtcIsacfix_Decode(ISACFIX_main_inst,
	streamdata,
	stream_len,
	decoded,
	speechType);
	else
	declen = WebRtcIsacfix_DecodeNb(ISACFIX_main_inst,
	streamdata,
	stream_len,
	decoded,
	speechType);
	}

	if (declen <= 0) {
	/* exit if returned with error */
	errtype=WebRtcIsacfix_GetErrorCode(ISACFIX_main_inst);
	printf("\n\nError in decoder: %d.\n\n", errtype);
	//exit(EXIT_FAILURE);
	}
	} else if (mode==2) {
	err = WebRtcIsacfix_UpdateBwEstimate1(ISACFIX_main_inst,
	streamdata,
	stream_len,
	BN_data.rtp_number,
	BN_data.arrival_time);

	err = WebRtcIsac_UpdateBwEstimate(ISAC_main_inst,
	streamdata,
	stream_len,
	BN_data.rtp_number,
	BN_data.arrival_time);

	if (err < 0) {
	/* exit if returned with error */
	errtype=WebRtcIsac_GetErrorCode(ISAC_main_inst);
	printf("\n\nError in decoder: %d.\n\n", errtype);
	//exit(EXIT_FAILURE);
	}
	/* iSAC decoding */
	declen = WebRtcIsac_Decode(ISAC_main_inst,
	streamdata,
	stream_len,
	decoded,
	speechType);
	if (declen <= 0) {
	/* exit if returned with error */
	errtype=WebRtcIsac_GetErrorCode(ISAC_main_inst);
	printf("\n\nError in decoder: %d.\n\n", errtype);
	//exit(EXIT_FAILURE);
	}
	} else if (mode==3) {
	err = WebRtcIsacfix_UpdateBwEstimate(ISACFIX_main_inst,
	streamdata,
	stream_len,
	BN_data.rtp_number,
	BN_data.send_time,
	BN_data.arrival_time);

	if (err < 0) {
	/* exit if returned with error */
	errtype=WebRtcIsacfix_GetErrorCode(ISACFIX_main_inst);
	printf("\n\nError in decoder: %d.\n\n", errtype);
	//exit(EXIT_FAILURE);
	}
	/* iSAC decoding */

	if (plc && (framecnt+1)%10 == 0) {
	if (nbTest !=2 )
	declen = WebRtcIsacfix_DecodePlc( ISACFIX_main_inst, decoded, 1 );
	else
	declen = WebRtcIsacfix_DecodePlcNb( ISACFIX_main_inst, decoded, 1 );
	} else {
	if (nbTest !=2 )
	declen = WebRtcIsacfix_Decode(ISACFIX_main_inst,
	streamdata,
	stream_len,
	decoded,
	speechType);
	else
	declen = WebRtcIsacfix_DecodeNb(ISACFIX_main_inst,
	streamdata,
	stream_len,
	decoded,
	speechType);
	}
	if (declen <= 0) {
	/* exit if returned with error */
	errtype=WebRtcIsacfix_GetErrorCode(ISACFIX_main_inst);
	printf("\n\nError in decoder: %d.\n\n", errtype);
	//exit(EXIT_FAILURE);
	}
	}

	/* Write decoded speech frame to file */
	fwrite(decoded, sizeof(WebRtc_Word16), declen, outp);
	}

	fprintf(stderr," \rframe = %d", framecnt);
	framecnt++;



	#ifdef _DEBUG

	totalsmpls += declen;
	totalbits += 8 * stream_len;
	kbps = ((double) FS) / ((double) cur_framesmpls) * 8.0 * stream_len / 1000.0;// kbits/s
	fy = fopen("bit_rate.dat", "a");
	fprintf(fy, "Frame %i = %0.14f\n", framecnt, kbps);
	fclose(fy);

	#endif /* _DEBUG */

	}

	#ifdef _DEBUG
	printf("\n\ntotal bits = %d bits", totalbits);
	printf("\nmeasured average bitrate = %0.3f kbits/s", (double)totalbits *(FS/1000) / totalsmpls);
	printf("\n");
	#endif /* _DEBUG */

	/* Runtime statistics */
	runtime = (double)(clock()/(double)CLOCKS_PER_SEC-starttime);
	length_file = ((double)framecnt*(double)declen/FS);
	printf("\n\nLength of speech file: %.1f s\n", length_file);
	printf("Time to run iSAC: %.2f s (%.2f %% of realtime)\n\n", runtime, (100*runtime/length_file));
	printf("---------------------END----------------------\n");

	fclose(inp);
	fclose(outp);

	WebRtcIsac_Free(ISAC_main_inst);
	WebRtcIsacfix_Free(ISACFIX_main_inst);



	// fclose(histfile);
	// fclose(ratefile);

	return 0;

	}