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/* sweepgen.c
* Ncurses based Sweep generator, 16/8 bit, 2 channels if stereo card,
* Emulates an audio sweep signal generator
* both the swept and sweeping frequencies can be
* sine, square, triangle, sawtooth, pulse, noise waveforms
*
* Linux Version
*/
/*
* Copyright (C) 1997-2008 Jim Jackson jj@franjam.org.uk
*
* This program is free software; you can redistribute it and/or modify
* it under the terms of the GNU General Public License as published by
* the Free Software Foundation; either version 2 of the License, or
* (at your option) any later version.
*
* This program 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 General Public License for more details.
*
* You should have received a copy of the GNU General Public License
* along with this program - see the file COPYING; if not, write to
* the Free Software Foundation, Inc., 675 Mass Ave, Cambridge,
* MA 02139, USA.
*/
/*
* sweepgen :
*
* 1 secs worth of 1 Hz samples for each waveform are generated, and the
* sweeping frequency F is generated by picking out every Fth sample
* The swept freq, f is generated by using the samples from F to
* increment a selection pointer out of the swept waveform buffer.
* The selected samples are stored in a playbuff that is fed to the
* DSP when full.
*
*
* History:
* 2002 V1.2 Added fractional frequency settings, can be setup to
* generate freq. in 1Hz, 0.1Hz or 0.01Hz resolution
*
* 03Nov97 V1.0 Started based on siggen 1.5
*/
#include <stdio.h>
#include <string.h>
#include <stdlib.h>
#include <signal.h>
#include <unistd.h>
#include <errno.h>
#include <ctype.h>
#include <sys/time.h>
#include <sys/types.h>
#include <sys/stat.h>
#include <fcntl.h>
#include <sys/soundcard.h>
#include <math.h>
#include "sweepgen.h"
#define MAXPRM 32
#define chkword(a,b) ((n>=a)&&(strncmp(p,b,n)==0))
int vflg,dflg,vikeys;
int resolution; /* Freq. resolution for signal generation
* 1 for 1Hz res ; 10 for 0.1Hz res;
* 100 for 0.01Hz res */
int DAC; /* File Handle for DSP */
unsigned int samplerate; /* Samples/sec */
unsigned int stereo; /* stereo mono */
unsigned int afmt; /* format for DSP */
int Bufspersec; /* number of sounds fragments per second */
int Nfragbufs; /* number of driver frag buffers */
int fragsize; /* size of driver buffer fragments */
int fragsamplesize; /* size of fragments in samples */
int LWn; /* number of specified loadable waveforms */
char **LWaa; /* array of specifed loadable waveforms */
/* channel 1 the sweeping signal ... */
char wf[32]="sawtooth"; /* waveform type */
unsigned int freq=1; /* signal frequency */
int ratio=-1; /* used in pulse, sweep etc */
int Gain=1000; /* Amplification factor */
/* channel 2 the swept signal ... */
char wf2[32]="sine"; /* waveform type */
unsigned int freqF=500; /* signal low frequency */
unsigned int freqT=1500; /* signal high frequency */
unsigned int freqC=1000; /* signal centre frequency */
int frdev=500; /* signal deviation frequency */
int ratio2=-1; /* used in pulse, sweep etc */
int Gain2=1000; /* Amplification factor */
int phase=0; /* phase difference of chan2 from chan1 */
char *sys;
char *configfile;
char dac[130];
help(e)
int e;
{
char **aa;
fprintf(stderr,VERSTR,sys,VERSION);
fputs("\nUsage: \n 1: sweepgen [flags] [waveform [freq [param]]]\n",stderr);
#ifdef HAVE_DAC_DEVICE
fprintf(stderr,"Defaults: SINE wave swept by SAWTOOTH, output to %s, %d samples/sec,\n",
DAC_FILE,SAMPLERATE);
fputs(" 16 bit stereo samples if possible, else 8 bit and/or mono.\n",stderr);
#else
fprintf(stderr,"Defaults: SINE wave swept by SAWTOOTH, %d samples/sec,\n",SAMPLERATE);
fputs(" 16 bit stereo samples. Must be used with -o or -w option.\n",stderr);
#endif
fputs("Valid waveforms are:",stderr);
for ( aa=(char **)getWavNames(); *aa; aa++ ) fprintf(stderr," %s",*aa);
fputs("\n",stderr);
fprintf(stderr,"Default Config files are \"%s\", \"$HOME/%s\" and\n\"%s\", searched in that order.\n",
DEF_CONF_FILENAME, DEF_CONF_FILENAME, DEF_GLOBAL_CONF_FILE);
fputs("flags: -s samples generate with samplerate of samples/sec\n",stderr);
fputs(" -8/-16 or -b 8|16 force 8 bit or 16 bit mode.\n",stderr);
fputs(" -1 force mono - swept frequency output only\n",stderr);
fputs(" -2 force stereo - swept freq on one chan, sweeping on other chan.\n",stderr);
fputs(" -NB n Number of Buffers to create is n, def. is 3\n",stderr);
fputs(" -BPS n Number of Buffers to play per sec, def. is 15\n",stderr);
/* fputs(" -load wave_file load waveform from wav_file\n",stderr);*/
fputs(" -res n n=1, 0.1 or 0.01 - frequency resolution\n",stderr);
return(e);
}
/* main
*
*/
main(argc,argv)
int argc;
char **argv;
{
unsigned int v[MAXPRM],maxv,i,j,k,l,m,n,N;
FILE *f;
char *p,bf[130];
int c;
unsigned int t;
if ((p=strrchr(sys=*argv++,'/'))!=NULL) sys=++p;
argc--;
configfile=DEF_CONF_FILENAME;
samplerate=0; afmt=AFMT_QUERY;
Bufspersec=0;
Nfragbufs=0;
vflg=dflg=0;
stereo=-1;
resolution=0;
while (argc && **argv=='-') { /* all flags and options must come */
n=strlen(p=(*argv++)+1); argc--; /* before paramters */
if (chkword(1,"samplerate")) {
if (argc && isdigit(**argv)) { samplerate=atoi(*argv++); argc--; }
}
else if (chkword(2,"NB")) {
if (argc && isdigit(**argv)) { Nfragbufs=atoi(*argv++); argc--; }
}
else if (chkword(3,"BPS")) { /* Buffers played per second - defines size */
if (argc && isdigit(**argv)) { Bufspersec=atoi(*argv++); argc--; }
}
else if (chkword(2,"16")) { afmt=AFMT_S16_LE; }
else if (chkword(1,"bits")) {
i=0;
if (argc) {
i=atoi(*argv++); argc--;
}
if (i==8) afmt=AFMT_U8;
else if (i==16) afmt=AFMT_S16_LE;
else exit(err_rpt(EINVAL,"must be '-b 8' or '-b 16'."));
}
else if (chkword(1,"A")) {
if (argc && isdigit(**argv)) {
Gain=atoi(*argv++); argc--;
}
}
else if (chkword(3,"resolution")) { /* set freq generation resolution */
if (argc) {
if ((resolution=set_resolution(*argv++))==0) {
exit(err_rpt(EINVAL,"bad resolution value, must be 1, 0.1 or 0.01"));
}
argc--;
}
}
else { /* check for single char. flags */
for (; *p; p++) {
if (*p=='h') exit(help(EFAIL));
else if (*p=='1') stereo=0;
else if (*p=='2') stereo=1;
else if (*p=='8') afmt=AFMT_U8;
else if (*p=='d') dflg=1;
else if (*p=='v') vflg++;
else {
*bf='-'; *(bf+1)=*p; *(bf+2)=0;
exit(help(err_rpt(EINVAL,bf)));
}
}
}
}
if (argc) {
strncpy(wf,*argv++,32); wf[31]=0; argc--; /* waveform type */
if (argc) {
freq=atoi(*argv++); argc--;
if (argc) { ratio=atoi(*argv++); argc--; }
if (argc) exit(help(err_rpt(EINVAL,"Too many parameters")));
}
}
/* interrogate config file....... */
init_conf_files(configfile,DEF_CONF_FILENAME,DEF_GLOBAL_CONF_FILE,vflg);
if (vflg==0) {
vflg=atoi(get_conf_value(sys,"verbose","0"));
}
if (samplerate==0) {
samplerate=atoi(get_conf_value(sys,"samplerate",QSAMPLERATE));
}
if (stereo==-1) {
stereo=atoi(get_conf_value(sys,"channels","1"));
if (stereo) stereo--;
}
if (Nfragbufs==0) {
Nfragbufs=atoi(get_conf_value(sys,"fragments",QDEFAULT_FRAGMENTS));
}
if (resolution==0) {
resolution=set_resolution(get_conf_value(sys,"resolution",DEFAULT_RESOLUTION));
if (resolution==0) {
exit(err_rpt(EINVAL,"bad resolution value, must be 1, 0.1 or 0.01"));
}
}
if (Bufspersec==0) {
Bufspersec=atoi(get_conf_value(sys,"buffspersec",QDEFAULT_BUFFSPERSEC));
}
if (afmt==AFMT_QUERY) {
afmt=atoi(get_conf_value(sys,"samplesize",QAFMT_QUERY));
}
strncpy(dac,get_conf_value(sys,"dacfile",DAC_FILE),sizeof(dac)-1);
vikeys=atoi(get_conf_value(sys,"vi_keys",QVI_KEYS));
/* if no format specified then try 16 bit */
i=afmt;
n=stereo;
if ((DAC=DACopen(dac,"w",&samplerate,&i,&n))<0) {
exit(err_rpt(errno,dac));
}
if (((afmt!=AFMT_QUERY) && (i!=afmt)) ||
((stereo!=-1) && (n!=stereo))) {
exit(err_rpt(EINVAL,"Sound card doesn't support format requested."));
}
afmt=i; stereo=n;
if ((fragsize=setfragsize(DAC,Nfragbufs,Bufspersec,samplerate,afmt,stereo))<0) {
exit(err_rpt(errno,"Problem setting appropriate fragment size."));
}
fragsamplesize=(fragsize>>(afmt==AFMT_S16_LE))>>(stereo);
if (freq > samplerate/2) {
fprintf(stderr,"%d Hz is more than half the sampling rate\n",freq);
}
if (vflg) {
printf("%s %s bit samples being generated.\n",
(stereo)?"Stereo, ":"Mono, ",(afmt==AFMT_S16_LE)?"16":"8");
printf("Samples scaled by a factor of %d/1000\n",Gain);
printf("Playing at %d samples/sec\n",samplerate);
printf("Frequency resolution is %.2fHz\n",1.0/resolution);
printf("Buffer fragment size is %d bytes (%d samples). Aprox. %d millisecs.\n",
fragsize, fragsamplesize,
1000*((fragsize>>(stereo))>>(afmt==AFMT_S16_LE))/samplerate);
printf("Requested %d buffers/sec and have %d buffs/sec\n",Bufspersec,
(samplerate+(fragsamplesize/2))/fragsamplesize);
}
WinGen(DAC);
close(DAC);
exit(0);
}
set_resolution(p)
char *p;
{
char *s;
int r;
double d;
d=strtod(p,&s); r=0;
if (d==1.0) r=1;
else if (d==0.1) r=10;
else if (d==0.01) r=100;
return(r);
}
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