#include "getfile.h" #include #include #include #include void getfile(QString fname, bool xpol, int dbDgrd) { char name[80]; strcpy(name,fname.toAscii()); FILE* fp=fopen(name,"rb"); int npts=30*48000; memset(mscom_.d2,0,2*npts); if(fp != NULL) { // Read (and ignore) a 44-byte WAV header; then read data fread(mscom_.d2,1,44,fp); int nrd=fread(mscom_.d2,2,npts,fp); qDebug() << "Getfile" << npts << nrd; fclose(fp); } } void savewav(QString fname) { struct { char ariff[4]; int nchunk; char awave[4]; char afmt[4]; int lenfmt; short int nfmt2; short int nchan2; int nsamrate; int nbytesec; short int nbytesam2; short int nbitsam2; char adata[4]; int ndata; } hdr; int npts=30*48000; // qint16* buf=(qint16*)malloc(2*npts); char name[80]; strcpy(name,fname.toAscii()); FILE* fp=fopen(name,"wb"); if(fp != NULL) { // Write a WAV header hdr.ariff[0]='R'; hdr.ariff[1]='I'; hdr.ariff[2]='F'; hdr.ariff[3]='F'; hdr.nchunk=0; hdr.awave[0]='W'; hdr.awave[0]='A'; hdr.awave[0]='V'; hdr.awave[0]='E'; hdr.afmt[0]='f'; hdr.afmt[1]='m'; hdr.afmt[2]='t'; hdr.afmt[3]=' '; hdr.lenfmt=16; hdr.nfmt2=1; hdr.nchan2=1; hdr.nsamrate=48000; hdr.nbytesec=2*48000; hdr.nbytesam2=2; hdr.nbitsam2=16; hdr.adata[0]='d'; hdr.adata[1]='a'; hdr.adata[2]='t'; hdr.adata[3]='a'; hdr.ndata=2*npts; fwrite(&hdr,sizeof(hdr),1,fp); // memcpy(mscom_.d2,buf,2*npts); // fwrite(buf,2,npts,fp); fwrite(mscom_.d2,2,npts,fp); fclose(fp); } // free(buf); } //#define MAX_RANDOM 0x7fffffff /* Generate gaussian random float with mean=0 and std_dev=1 */ float gran() { float fac,rsq,v1,v2; static float gset; static int iset; if(iset){ /* Already got one */ iset = 0; return gset; } /* Generate two evenly distributed numbers between -1 and +1 * that are inside the unit circle */ do { v1 = 2.0 * (float)rand() / RAND_MAX - 1; v2 = 2.0 * (float)rand() / RAND_MAX - 1; rsq = v1*v1 + v2*v2; } while(rsq >= 1.0 || rsq == 0.0); fac = sqrt(-2.0*log(rsq)/rsq); gset = v1*fac; iset++; return v2*fac; }