/* * Copyright 1992 by Jutta Degener and Carsten Bormann, Technische * Universitaet Berlin. See the accompanying file "COPYRIGHT" for * details. THERE IS ABSOLUTELY NO WARRANTY FOR THIS SOFTWARE. */ /* $Header: /tmp_amd/presto/export/kbs/jutta/src/gsm/RCS/add_test.c,v 1.2 1994/05/10 20:18:17 jutta Exp $ */ #include <stdio.h> #include <stdlib.h> #include <string.h> #include <unistd.h> #include "gsm.h" #include "../src/add.c" int interactive = 1; char * opname; longword L_op1, L_op2, L_expect; word op1, op2, expect; int do_expect; word M_gsm_add P((word op1, word op2)); word M_gsm_sub P((word op1, word op2)); word M_gsm_mult P((word op1, word op2)); word M_gsm_mult_r P((word op1, word op2)); word M_gsm_abs P((word op1)); longword M_gsm_L_mult P((word op1, word op2)); longword M_gsm_L_add P((longword op1, longword op2)); void help() { puts( " add a b sub a b mult a b div a b" ); puts( "L_add A B L_sub A B L_mult A B mult_r a b" ); puts( "" ); puts( "abs a norm a >> a b << a b" ); puts( " L_>> A B L_<< A B" ); } char * strtek P2((str, sep), char * str, char * sep) { static char * S = (char *)0; char * c, * base; if (str) S = str; if (!S || !*S) return (char *)0; /* Skip delimiters. */ while (*S) { for (c = sep; *c && *c != *S; c++) ; if (*c) *S++ = 0; else break; } base = S; /* Skip non-delimiters. */ for (base = S; *S; S++) { for (c = sep; *c; c++) if (*c == *S) { *S++ = 0; return base; } } return base == S ? (char *)0 : base; } long value P1((s), char * s) { switch (*s) { case '-': switch (s[1]) { case '\0': return MIN_WORD; case '-': return MIN_LONGWORD; default: break; } break; case '+': switch (s[1]) { case '\0': return MAX_WORD; case '+': return MAX_LONGWORD; default: break; } default: break; } return strtol(s, (char **)0, 0); } char * parse P1((buf), char * buf) { char * s, * a; if ((a = strchr(buf, '=')) != 0) *a++ = 0; opname = s = strtek(buf, " \t("); if (!s) return (char *)0; op1 = op2 = L_op1 = L_op2 = 0; if ((s = strtek( (char *)0, "( \t,")) != 0) { op1 = L_op1 = value(s); if ((s = strtek( (char *)0, ", \t)")) != 0) op2 = L_op2 = value(s); } if (a) { do_expect = 1; while (*a == ' ' || *a == '\t') a++; expect = L_expect = value(a); } return opname; } void fprint_word P2((f, w), FILE * f, word w) { if (!w) putc('0', f); else fprintf(f, "0x%4.4x (%d%s)", (unsigned int)w, (int)w, w == MIN_WORD? "/-" : (w == MAX_WORD ? "/+" : "")); } void print_word P1((w), word w) { fprint_word( stdout, w ); } void fprint_longword P2((f, w), FILE * f, longword w) { if (!w) putc('0', f); else fprintf(f, "0x%8.8lx (%ld%s)", (unsigned long)w, (long)w, w == MIN_WORD ? "/-" : (w == MAX_WORD ? "/+" : (w == MIN_LONGWORD ? "/--" : (w == MAX_LONGWORD ? "/++" : "")))); } void print_longword P1((w),longword w) { fprint_longword(stdout, w); } void do_longword P1((w), longword w) { if (interactive) print_longword(w); if (do_expect) { if ((w & 0xfffffffful) != (L_expect & 0xfffffffful)) { if (!interactive) fprint_longword(stderr, w); fprintf(stderr, " != %s (%ld, %ld) -- expected ", opname, (long)L_op1, (long)L_op2 ); fprint_longword(stderr, L_expect); putc( '\n', stderr ); } } else if (interactive) putchar('\n'); } void do_word P1((w), word w ) { if (interactive) print_word(w); if (do_expect) { if (w != expect) { if (!interactive) fprint_word(stderr, w); fprintf(stderr, " != %s (%ld, %ld) -- expected ", opname, (long)L_op1, (long)L_op2 ); fprint_word(stderr, expect); putc('\n', stderr); } } else if (interactive) putchar('\n'); } int main(ac, av) char ** av; { char buf[299]; char * c; FILE * in; if (ac > 2) { fprintf(stderr, "Usage: %s [filename]\n", av[0]); fail: #ifdef EXIT_FAILURE exit(EXIT_FAILURE); #else exit(1); #endif } if (ac < 2) in = stdin; else if (!(in = fopen(av[1], "r"))) { perror(av[1]); fprintf(stderr, "%s: cannot open file \"%s\" for reading\n", av[0], av[1]); goto fail; } interactive = isatty(fileno(in)); for (;;) { if (interactive) fprintf(stderr, "? "); if (!fgets(buf, sizeof(buf), in)) exit(0); if ((c = strchr(buf, '\n')) != 0) *c = 0; if (*buf == ';' || *buf == '#') continue; if (*buf == '\'') { puts(buf + 1); continue; } if (*buf == '\"') { fprintf(stderr, "%s\n", buf + 1); continue; } c = parse(buf); if (!c) continue; if (!strcmp(c, "add")) { do_word( gsm_add( op1, op2 )); continue; } if (!strcmp(c, "M_add")) { do_word( M_gsm_add( op1, op2 )); continue; } if (!strcmp(c, "sub")) { do_word( gsm_sub( op1, op2 )); continue; } if (!strcmp(c, "M_sub")) { do_word( M_gsm_sub( op1, op2 )); continue; } if (!strcmp(c, "mult")) { do_word( gsm_mult( op1, op2 )); continue; } if (!strcmp(c, "M_mult")) { do_word( M_gsm_mult( op1, op2 )); continue; } if (!strcmp(c, "mult_r")) { do_word( gsm_mult_r(op1, op2)); continue; } if (!strcmp(c, "M_mult_r")) { do_word( M_gsm_mult_r(op1, op2)); continue; } if (!strcmp(c, "abs" )) { do_word( gsm_abs(op1) ); continue; } if (!strcmp(c, "M_abs" )) { do_word( M_gsm_abs(op1) ); continue; } if (!strcmp(c, "div" )) { do_word( gsm_div( op1, op2 )); continue; } if (!strcmp(c, "norm" )) { do_word( gsm_norm(L_op1)); continue; } if (!strcmp(c, "<<" )) { do_word( gsm_asl( op1, op2)); continue; } if (!strcmp(c, ">>" )) { do_word( gsm_asr( op1, op2 )); continue; } if (!strcmp(c, "L_mult")) { do_longword( gsm_L_mult( op1, op2 )); continue; } if (!strcmp(c, "M_L_mult")) { do_longword( M_gsm_L_mult( op1, op2 )); continue; } if (!strcmp(c, "L_add" )) { do_longword( gsm_L_add( L_op1, L_op2 )); continue; } if (!strcmp(c, "M_L_add" )) { do_longword( M_gsm_L_add( L_op1, L_op2 )); continue; } if (!strcmp(c, "L_sub" )) { do_longword( gsm_L_sub( L_op1, L_op2 )); continue; } if (!strcmp(c, "L_<<" )) { do_longword( gsm_L_asl( L_op1, L_op2 )); continue; } if (!strcmp(c, "L_>>")) { do_longword( gsm_L_asr( L_op1, L_op2 )); continue; } help(); } } #include "private.h" /* * Function stubs for macro implementations of commonly used * math functions */ word M_gsm_add P2((op1, op2),word op1, word op2) { longword ltmp; return GSM_ADD(op1, op2); } word M_gsm_sub P2((op1, op2), word op1, word op2) { longword ltmp; return GSM_SUB(op1, op2); } word M_gsm_mult P2((op1, op2), word op1, word op2) { return GSM_MULT(op1, op2); } word M_gsm_mult_r P2((op1, op2), word op1, word op2) { return GSM_MULT_R(op1, op2); } word M_gsm_abs P1((op1), word op1) { return GSM_ABS(op1); } longword M_gsm_L_mult P2((op1, op2), word op1, word op2) { return GSM_L_MULT(op1, op2); } longword M_gsm_L_add P2((op1, op2), longword op1, longword op2) { ulongword utmp; return GSM_L_ADD(op1, op2); }