/* $Header$ */ /* * (c) copyright 1987 by the Vrije Universiteit, Amsterdam, The Netherlands. * See the copyright notice in the ACK home directory, in the file "Copyright". */ /* @(#)comm5.c 1.1 */ #include "comm0.h" #include "comm1.h" #include "y.tab.h" extern YYSTYPE yylval; yylex() { register c; if (pass == PASS_1) { /* scan the input file */ do c = nextchar(); while (isspace(c) && c != '\n'); if (ISALPHA(c)) c = inident(c); else if (isdigit(c)) c = innumber(c); else switch (c) { case '=': case '<': case '>': case '|': case '&': c = induo(c); break; case ASC_SQUO: case ASC_DQUO: c = instring(c); break; case ASC_COMM: do c = nextchar(); while (c != '\n' && c != '\0'); break; case CTRL('A'): c = CODE1; readcode(1); break; case CTRL('B'): c = CODE2; readcode(2); break; case CTRL('C'): c = CODE4; readcode(4); break; } /* produce the intermediate token file */ if (c <= 0) return(0); if (c <= 127) putc(c, tempfile); else putval(c); } else { /* read from intermediate token file */ c = getc(tempfile); if (c == EOF) return(0); if (c > 127) { c += 128; c = getval(c); } } return(c); } putval(c) { register valu_t v; register n = 0; register char *p = 0; assert(c >= 256 && c < 256+128); switch (c) { case CODE1: n = 1; goto putnum; case CODE2: n = 2; goto putnum; case CODE4: n = 4; goto putnum; case NUMBER: v = yylval.y_valu; for (n = 0; n < sizeof(v); n++) { if (v == 0) break; v >>= 8; } c = NUMBER0 + n; putnum: putc(c-128, tempfile); v = yylval.y_valu; while (--n >= 0) putc((int) (v >> (n*8)), tempfile); return; case IDENT: case FBSYM: n = sizeof(item_t *); p = (char *) &yylval.y_item; break; #ifdef ASLD case MODULE: n = sizeof(char *); p = (char *) &yylval.y_strp; break; #endif case STRING: p = stringbuf; n = (*p & 0377) + 1; break; case OP_EQ: case OP_NE: case OP_LE: case OP_GE: case OP_LL: case OP_RR: case OP_OO: case OP_AA: break; default: n = sizeof(word_t); p = (char *) &yylval.y_word; break; } putc(c-128, tempfile); while (--n >= 0) putc(*p++, tempfile); } getval(c) { register n = 0; register valu_t v; register char *p = 0; switch (c) { case CODE1: n = 1; goto getnum; case CODE2: n = 2; goto getnum; case CODE4: n = 4; goto getnum; case NUMBER0: c = NUMBER; goto getnum; case NUMBER1: n = 1; c = NUMBER; goto getnum; case NUMBER2: n = 2; c = NUMBER; goto getnum; case NUMBER3: n = 3; c = NUMBER; goto getnum; case NUMBER: n = 4; getnum: v = 0; while (--n >= 0) { v <<= 8; v |= getc(tempfile); } yylval.y_valu = v; return(c); case IDENT: case FBSYM: n = sizeof(item_t *); p = (char *) &yylval.y_item; break; #ifdef ASLD case MODULE: n = sizeof(char *); p = (char *) &yylval.y_strp; break; #endif case STRING: p = stringbuf; *p++ = n = getc(tempfile); p[n] = '\0'; break; case OP_EQ: case OP_NE: case OP_LE: case OP_GE: case OP_LL: case OP_RR: case OP_OO: case OP_AA: break; default: n = sizeof(word_t); p = (char *) &yylval.y_word; break; } while (--n >= 0) *p++ = getc(tempfile); return(c); } /* ---------- lexical scan in pass 1 ---------- */ nextchar() { register c; if (peekc != -1) { c = peekc; peekc = -1; return(c); } #ifdef ASLD if (archmode && --archsize < 0) return(0); #endif if ((c = getc(input)) == EOF) return(0); if (isascii(c) == 0) fatal("non-ascii character"); #ifdef LISTING if (listflag & 0440) putc(c, listfile); #endif return(c); } readcode(n) { register c; yylval.y_valu = 0; do { if ( #ifdef ASLD (archmode && --archsize < 0) || #endif (c = getc(input)) == EOF ) fatal("unexpected EOF in compact input"); yylval.y_valu <<= 8; yylval.y_valu |= c; } while (--n); } induo(c) register c; { static short duo[] = { ('='<<8) | '=', OP_EQ, ('<'<<8) | '>', OP_NE, ('<'<<8) | '=', OP_LE, ('>'<<8) | '=', OP_GE, ('<'<<8) | '<', OP_LL, ('>'<<8) | '>', OP_RR, ('|'<<8) | '|', OP_OO, ('&'<<8) | '&', OP_AA, }; register short *p; c = (c<<8) | nextchar(); for (p = duo; *p; p++) if (*p++ == c) return(*p++); peekc = c & 0377; return(c>>8); } inident(c) char c; { register char *p; register item_t *ip; p = readident(c); ip = item_search(p); if (ip == 0) { ip = item_alloc(S_UND); ip->i_name = remember(p); /* printf("ident %s %o\n", ip->i_name, ip); */ unresolved++; item_insert(ip, H_LOCAL + (hashindex%H_SIZE)); } else if (hashindex < H_SIZE) { assert(H_KEY == 0); yylval.y_word = (word_t) ip->i_valu; return(ip->i_type); } yylval.y_item = ip; return(IDENT); } char * readident(c) register c; { static char name[NAMEMAX+1]; register n = NAMEMAX; register char *p = name; do { if (--n >= 0) *p++ = c; c = nextchar(); } while (ISALNUM(c)); *p++ = '\0'; peekc = c; return(name); } innumber(c) register c; { register char *p; register radix; static char num[20+1]; p = num; radix = 20; do { if (--radix < 0) fatal("number too long"); if (isupper(c)) c += ('a' - 'A'); *p++ = c; c = nextchar(); } while (isalnum(c)); peekc = c; *p = '\0'; c = *--p; p = num; radix = 10; if (*p == '0') { radix = 8; p++; if (*p == 'x') { radix = 16; p++; } else if (*p == 'b') { radix = 2; p++; } } if (radix != 16 && (c == 'f' || c == 'b')) return(infbsym(num)); yylval.y_valu = 0; while (c = *p++) { if (c > '9') c -= ('a' - '9' - 1); c -= '0'; if ((unsigned)c >= radix) serror("digit exceeds radix"); yylval.y_valu = yylval.y_valu * radix + c; } return(NUMBER); } instring(termc) { register char *p; register c; p = stringbuf+1; for (;;) { c = nextchar(); if (c == '\n' || c == '\0') { peekc = c; serror("non-terminated string"); break; } if (c == termc) break; if (c == '\\') c = inescape(); if (p >= &stringbuf[STRINGMAX - 1]) fatal("string buffer overflow"); *p++ = c; } stringbuf[0] = p - stringbuf - 1; *p = '\0'; return(STRING); } inescape() { register c, j, r; c = nextchar(); if (c >= '0' && c <= '7') { r = c - '0'; for (j = 0; j < 2; j++) { c = nextchar(); if (c < '0' || c > '7') { peekc = c; return(r); } r <<= 3; r += (c - '0'); } return(r); } switch (c) { case 'b': return('\b'); case 'f': return('\f'); case 'n': return('\n'); case 'r': return('\r'); case 't': return('\t'); case '\'': return('\''); case '"': return('"'); } return(c); } infbsym(p) register char *p; { register lab; register item_t *ip; lab = *p++ - '0'; if ((unsigned)lab < 10) { if (*p++ == 'f') { ip = fb_ptr[FB_FORW+lab]; if (ip == 0) { ip = fb_alloc(lab); fb_ptr[FB_FORW+lab] = ip; } goto ok; } ip = fb_ptr[FB_BACK+lab]; if (ip != 0 && *p == 0) goto ok; } serror("bad numeric label"); ip = fb_alloc(0); ok: yylval.y_item = ip; return(FBSYM); } hash(p) register char *p; { register unsigned h; register c; h = 0; while (c = *p++) { h <<= 2; h += c; } return(h % H_SIZE); } item_t * item_search(p) register char *p; { register h; register item_t *ip; for (h = hash(p); h < H_TOTAL; h += H_SIZE) { ip = hashtab[h]; while (ip != 0) { if (strcmp(p, ip->i_name) == 0) goto done; ip = ip->i_next; } } done: hashindex = h; return(ip); } item_insert(ip, h) item_t *ip; { ip->i_next = hashtab[h]; hashtab[h] = ip; } item_t * item_alloc(typ) { register item_t *ip; static nleft = 0; static item_t *next; if (--nleft < 0) { next = (item_t *) malloc(MEMINCR); if (next == 0) fatal("out of memory"); nleft += (MEMINCR / sizeof(item_t)); } ip = next++; ip->i_next = 0; ip->i_type = typ; ip->i_name = 0; ip->i_valu = 0; return(ip); } item_t * fb_alloc(lab) register lab; { register item_t *ip, *p; ip = item_alloc(S_UND); p = fb_ptr[FB_TAIL+lab]; if (p == 0) fb_ptr[FB_HEAD+lab] = ip; else p->i_next = ip; fb_ptr[FB_TAIL+lab] = ip; return(ip); } item_t * fb_shift(lab) register lab; { register item_t *ip; ip = fb_ptr[FB_FORW+lab]; if (ip == 0) if (pass == PASS_1) ip = fb_alloc(lab); else ip = fb_ptr[FB_HEAD+lab]; fb_ptr[FB_BACK+lab] = ip; fb_ptr[FB_FORW+lab] = ip->i_next; return(ip); }