source: buchla-68k/orig/BUCHLA/NEWSINE.C@ cbe2c15

/*
   ============================================================================
        newsine.c -- Buchla 700 sine PROM generator
        see VER for version message -- written by:  D.N. Lynx Crowe

        Creates two Motorola S-Record files for the Sine PROM:
                one for the MS bytes, and one for the LS bytes.
   ============================================================================
*/

#define VER     "Version 10 -- 1987-12-19"

#include "stdio.h"
#include "limits.h"
#include "math.h"
#include "stddefs.h"

#define VOID    void

#define TWOPI   ((double)2.0 * (double)PI)      /* 2 * PI */

#define ISHIFT  ((double)PI * (double)0.625)    /* phase shift */
#define OSCALE  ((double)30000.0)               /* output scale factor */

#define BRLEN   15                              /* address length */
#define TABLEN  32768                           /* sine table length (integer) */
#define DTABLEN ((double)32768.0)               /* sine table length (real) */

#define LO_FILE "SINELO.MOT"                    /* LS byte file name */
#define HI_FILE "SINEHI.MOT"                    /* MS byte file name */
#define THE_LOG "SINE.LOG"                      /* log file name */

#define RECLEN  32                              /* 32 bytes per S-record */
#define BUFLEN  512                             /* LS/MS buffer length */

char    *fname1;                                /* file name for LS bytes */
char    *fname2;                                /* file name for MS bytes */
char    *fname3;                                /* file name for log */

int     t[TABLEN];                              /* sine table */

char    hi_buf[BUFLEN];                         /* buffer for MS bytes */
char    lo_buf[BUFLEN];                         /* buffer for LS bytes */

int     csum;                                   /* current record checksum */

unsigned bitmask[] = {                          /* bit mask table for bitrev */

        0x0001, 0x0002, 0x0004, 0x0008,
        0x0010, 0x0020, 0x0040, 0x0080,
        0x0100, 0x0200, 0x0400, 0x0800,
        0x1000, 0x2000, 0x4000, 0x8000
};

char    hexdig[] = "0123456789ABCDEF";          /* hex table */

/* 

*/

/*
   ============================================================================
        msdone() -- outputs the final S-Record
   ============================================================================
*/

VOID
msdone(fp)
FILE *fp;
{
        fprintf(fp, "S904000000FB\n");  /* end of S-records */
}

/*
   ============================================================================
        outhex(fp,val) -- output a byte in ASCII hex

        Outputs the byte 'val' on file 'fp' in ASCII hex and updates
        the accumulated checksum csum.
   ============================================================================
*/

VOID
outhex(fp,val)
FILE *fp;               /* file pointer for output */
unsigned int val;       /* byte to be output */
{
        fputc(hexdig[(val >> 4) & 0x0F], fp);
        fputc(hexdig[val & 0x0F], fp);
        csum += (val & 0x0FF);
}

/* 

*/

/*
   ============================================================================
        outrec(fp,adr,len,buf) -- output a Motorola S-record

        Outputs len bytes from buffer buf to file fp with S-record
        address adr.
   ============================================================================
*/

VOID
outrec(fp,adr,len,buf)
FILE *fp;               /* file pointer for output */
long adr;               /* beginning address for S-record */
int len;                /* length of data in record */
char *buf;              /* buffer address of record */
{
        int i;

        csum = 0;                               /* zero the checksum */
        fprintf(fp, "S2");                      /* record header */
        outhex(fp, (unsigned int)(len+4));      /* record length */

        /* record address */
        outhex(fp, (unsigned int)((adr >> 16) & 0x0FFL));
        outhex(fp, (unsigned int)((adr >> 8) & 0x0FFL));
        outhex(fp, (unsigned int)(adr & 0x0FFL));

        /* data */
        for (i = 0; i < len; i++)
                outhex(fp, (unsigned int)*buf++);

        outhex(fp, (~csum) & 0x0FFL);           /* checksum */
        fprintf(fp, "\n");                      /* CR/LF */
}

/* 

*/

/*
   ============================================================================
        msrec(fp,adr,len,buf) -- output data in Motorola S-record format

        Outputs len bytes of data from buffer buf to file fp with an initial
        S-record address of adr.
   ============================================================================
*/

VOID
msrec(fp,adr,len,buf)
FILE *fp;               /* file pointer for output */
long adr;               /* beginning address for S-records */
long len;               /* length of data in buffer */
char *buf;              /* buffer address */
{
        long recadr = adr;
        char *rp = buf;
        int j;
        long i = len;

        while (i) {     /* while there's data ... */

                if (i GE RECLEN) {      /* full record */

                        outrec(fp, recadr, RECLEN, rp);
                        i -= RECLEN;
                        rp += RECLEN;
                        recadr += RECLEN;

                } else {                /* final short record */

                        j = i;
                        outrec(fp, recadr, j ,rp);
                        i = 0;

                }
        }
}

/* 

*/

/*
   =============================================================================
        bitrev(bitsin, nbits) -- reverses the rightmost nbits of bitsin.

        Any bits to the left of the reversed bits in the result will be zeros.
   =============================================================================
*/

unsigned
bitrev(bitsin, nbits)
unsigned bitsin, nbits;
{
        unsigned m, n;

        n = 0;

        for (m = 0; m < nbits; m++)
                if (bitsin & bitmask[m])
                        n |= bitmask[nbits-1-m];

        return(n);
}

/* 

*/

/*
   =============================================================================
        main function -- sine.c -- Buchla 700 sine PROM generator
   =============================================================================
*/

main()
{
        FILE *fp1, *fp2, *fp3;
        register long i, j, nr;
        double k, q, ip, os;

        printf("Buchla 700 Sine PROM Generator %s\n", VER);

        q = TWOPI / DTABLEN;    /* step size */
        ip = ISHIFT;            /* offset */
        os = OSCALE;            /* output scaling */

        fname1 = LO_FILE;       /* LS byte file */
        fname2 = HI_FILE;       /* MS byte file */
        fname3 = THE_LOG;       /* log file */

        if( (fp1 = fopen(fname1, "wa")) == NULL)  {

                printf("sine:  ERROR - couldn't open [%s]\n", fname1);
                exit(1);
        }

        if( (fp2 = fopen(fname2, "wa")) == NULL) {

                printf("sine:  ERROR - couldn't open [%s]\n", fname2);
                fclose(fp1);
                exit(1);
        }

        if( (fp3 = fopen(fname3, "wa")) == NULL) {

                printf("sine:  ERROR - couldn't open [%s]\n", fname3);
                fclose(fp1);
                fclose(fp2);
                exit(1);
        }

        printf("  size = %ld, step = %f, offset = %f, scaling = %f\n",
                (long)TABLEN, q, ip, os);

        fprintf(fp3, "Buchla 700 Sine PROM Generator %s\n", VER);
        fprintf(fp3, "  size = %ld, step = %f, offset = %f, scaling = %f\n\n",
                (long)TABLEN, q, ip, os);
        fprintf(fp3, "Addr Rev  Data Value\n");

        printf("  output on %s and %s, log on %s\n\n", fname1, fname2, fname3);

/* 

*/
        printf("Beginning calculation phase.\n\n");

        printf("Addr Rev  Data Value\n");

        for(i = 0; i < TABLEN; i++) {

                k = sin(((double)i * q) + ip);

                if( k >= 1.0 )
                        k = 0.9999999999;

                t[bitrev(i, BRLEN)] = k * os;

                if (! (i & 0x03FF)) {

                        printf("%04x %04x %04x %f\n",
                                i, bitrev(i, BRLEN), t[i], k);

                        fprintf(fp3, "%04x %04x %04x %f\n",
                                i, bitrev(i, BRLEN), t[i], k);
                }
        }
/* 

*/
        printf("\nSine table created, starting output phase.\n");

        i = 0L;         /* initialize sine table index */
        nr = 0L;        /* initialize output address */

        while (i < (long)TABLEN) {

                for (j = 0; j < (long)BUFLEN; j++) {    /* split the words */

                        lo_buf[j] = t[i] & 0x00FF;
                        hi_buf[j] = (t[i] >> 8) & 0x00FF;
                        i++;
                }

                msrec(fp1, nr, (long)BUFLEN, lo_buf);   /* write the S-Records */
                msrec(fp2, nr, (long)BUFLEN, hi_buf);

                printf("S-Record %5ld complete\n", nr);

                nr += (long)BUFLEN;
        }

        msdone(fp1);    /* write final S-Records */
        msdone(fp2);

        fflush(fp1);    /* flush the files */
        fflush(fp2);
        fflush(fp3);

        fclose(fp1);    /* close the files */
        fclose(fp2);
        fclose(fp3);

        exit(0);        /* exit back to the operating system */
}