/* * (c) copyright 1987 by the Vrije Universiteit, Amsterdam, The Netherlands. * See the copyright notice in the ACK home directory, in the file "Copyright". * * Author: Ceriel J.H. Jacobs */ /* L E X I C A L A N A L Y S E R F O R M O D U L A - 2 */ /* $Header$ */ #include "debug.h" #include "idfsize.h" #include "numsize.h" #include "strsize.h" #include #include #include #include #include "LLlex.h" #include "input.h" #include "f_info.h" #include "Lpars.h" #include "class.h" #include "idf.h" #include "def.h" #include "type.h" #include "const.h" #include "warning.h" long str2long(); t_token dot, aside; t_type *toktype; int idfsize = IDFSIZE; int ForeignFlag; #ifdef DEBUG extern int cntlines; #endif static int eofseen; extern char options[]; STATIC SkipComment() { /* Skip Modula-2 comments (* ... *). Note that comments may be nested (par. 3.5). */ register int ch, c; register int CommentLevel = 0; LoadChar(ch); if (ch == '$') { LoadChar(ch); switch(ch) { case 'F': /* Foreign; This definition module has an implementation in another language. In this case, don't generate prefixes in front of the names. Also, don't generate call to initialization routine. */ ForeignFlag = D_FOREIGN; break; case 'U': inidf['_'] = 1; break; case 'A': /* Extra array bound checks, on or off */ case 'R': /* Range checks, on or off */ { int on_on_minus = ch == 'R'; LoadChar(c); if (c == '-') { options[ch] = on_on_minus; break; } if (c == '+') { options[ch] = !on_on_minus; break; } ch = c; } /* fall through */ default: break; } } for (;;) { if (class(ch) == STNL) { LineNumber++; #ifdef DEBUG cntlines++; #endif } else if (ch == '(') { LoadChar(ch); if (ch == '*') CommentLevel++; else continue; } else if (ch == '*') { LoadChar(ch); if (ch == ')') { CommentLevel--; if (CommentLevel < 0) break; } else continue; } else if (ch == EOI) { lexerror("unterminated comment"); break; } LoadChar(ch); } } STATIC struct string * GetString(upto) { /* Read a Modula-2 string, delimited by the character "upto". */ register int ch; register struct string *str = (struct string *) Malloc((unsigned) sizeof(struct string)); register char *p; register int len; len = ISTRSIZE; str->s_str = p = Malloc((unsigned int) ISTRSIZE); while (LoadChar(ch), ch != upto) { if (class(ch) == STNL) { lexerror("newline in string"); LineNumber++; #ifdef DEBUG cntlines++; #endif break; } if (ch == EOI) { lexerror("end-of-file in string"); break; } *p++ = ch; if (p - str->s_str == len) { str->s_str = Realloc(str->s_str, (unsigned int) len + RSTRSIZE); p = str->s_str + len; len += RSTRSIZE; } } str->s_length = p - str->s_str; *p = '\0'; str->s_str = Realloc(str->s_str, (unsigned)((str->s_length+(int)word_size) & ~((int)word_size-1))); if (str->s_length == 0) str->s_length = 1; /* ??? string length at least 1 ??? */ return str; } static char *s_error = "illegal line directive"; STATIC int getch() { register int ch; for (;;) { LoadChar(ch); if ((ch & 0200) && ch != EOI) { error("non-ascii '\\%03o' read", ch & 0377); continue; } break; } if (ch == EOI) { eofseen = 1; return '\n'; } return ch; } CheckForLineDirective() { register int ch = getch(); register int i = 0; char buf[IDFSIZE + 2]; register char *c = buf; if (ch != '#') { PushBack(); return; } do { /* * Skip to next digit * Do not skip newlines */ ch = getch(); if (class(ch) == STNL) { LineNumber++; error(s_error); return; } } while (class(ch) != STNUM); while (class(ch) == STNUM) { i = i*10 + (ch - '0'); ch = getch(); } while (ch != '"' && class(ch) != STNL) ch = getch(); if (ch == '"') { c = buf; do { *c++ = ch = getch(); if (class(ch) == STNL) { LineNumber++; error(s_error); return; } } while (ch != '"'); *--c = '\0'; do { ch = getch(); } while (class(ch) != STNL); /* * Remember the file name */ if (!eofseen && strcmp(FileName,buf)) { FileName = Salloc(buf,(unsigned) strlen(buf) + 1); } } if (eofseen) { error(s_error); return; } LineNumber = i; } static UnloadChar(ch) { if (ch == EOI) eofseen = 1; else PushBack(); } int LLlex() { /* LLlex() is the Lexical Analyzer. The putting aside of tokens is taken into account. */ register t_token *tk = ˙ char buf[(IDFSIZE > NUMSIZE ? IDFSIZE : NUMSIZE) + 2]; register int ch, nch; toktype = error_type; if (ASIDE) { /* a token is put aside */ *tk = aside; ASIDE = 0; return tk->tk_symb; } again1: if (eofseen) { eofseen = 0; ch = EOI; } else { again: LoadChar(ch); if ((ch & 0200) && ch != EOI) { error("non-ascii '\\%03o' read", ch & 0377); goto again; } } tk->tk_lineno = LineNumber; switch (class(ch)) { case STNL: LineNumber++; #ifdef DEBUG cntlines++; #endif CheckForLineDirective(); goto again1; case STSKIP: goto again; case STGARB: if ((unsigned) ch - 040 < 0137) { lexerror("garbage char %c", ch); } else lexerror("garbage char \\%03o", ch); goto again; case STSIMP: if (ch == '(') { LoadChar(nch); if (nch == '*') { SkipComment(); goto again; } UnloadChar(nch); } if (ch == '&') return tk->tk_symb = AND; if (ch == '~') return tk->tk_symb = NOT; return tk->tk_symb = ch; case STCOMP: LoadChar(nch); switch (ch) { case '.': if (nch == '.') { return tk->tk_symb = UPTO; } break; case ':': if (nch == '=') { return tk->tk_symb = BECOMES; } break; case '<': if (nch == '=') { return tk->tk_symb = LESSEQUAL; } if (nch == '>') { return tk->tk_symb = '#'; } break; case '>': if (nch == '=') { return tk->tk_symb = GREATEREQUAL; } break; default : crash("(LLlex, STCOMP)"); } UnloadChar(nch); return tk->tk_symb = ch; case STIDF: { register char *tag = &buf[0]; register t_idf *id; do { if (ch == '_' && *tag == '_') { lexerror("an identifier may not contain two consecutive underscores"); } if (tag - buf < idfsize) *tag++ = ch; LoadChar(ch); } while(in_idf(ch)); UnloadChar(ch); *tag = '\0'; if (*(tag - 1) == '_') { lexerror("last character of an identifier may not be an underscore"); } tk->TOK_IDF = id = str2idf(buf, 1); return tk->tk_symb = id->id_reserved ? id->id_reserved : IDENT; } case STSTR: { register struct string *str = GetString(ch); if (str->s_length == 1) { tk->TOK_INT = *(str->s_str) & 0377; toktype = char_type; free(str->s_str); free((char *) str); } else { tk->tk_data.tk_str = str; if (! fit((arith)(str->s_length), (int) word_size)) { lexerror("string too long"); } toktype = standard_type(T_STRING, 1, (arith)(str->s_length)); } return tk->tk_symb = STRING; } case STNUM: { /* The problem arising with the "parsing" of a number is that we don't know the base in advance so we have to read the number with the help of a rather complex finite automaton. */ enum statetp {Oct,OptHex,Hex,Dec,OctEndOrHex,End,OptReal,Real}; register enum statetp state; register int base; register char *np = &buf[1]; /* allow a '-' to be added */ buf[0] = '-'; *np++ = ch; state = is_oct(ch) ? Oct : Dec; LoadChar(ch); for (;;) { switch(state) { case Oct: while (is_oct(ch)) { if (np < &buf[NUMSIZE]) *np++ = ch; LoadChar(ch); } if (ch == 'B' || ch == 'C') { base = 8; state = OctEndOrHex; break; } /* Fall Through */ case Dec: base = 10; while (is_dig(ch)) { if (np < &buf[NUMSIZE]) { *np++ = ch; } LoadChar(ch); } if (ch == 'D') state = OptHex; else if (is_hex(ch)) state = Hex; else if (ch == '.') state = OptReal; else { state = End; if (ch == 'H') base = 16; else UnloadChar(ch); } break; case OptHex: LoadChar(ch); if (is_hex(ch)) { if (np < &buf[NUMSIZE]) *np++ = 'D'; state = Hex; } else { state = End; ch = 'D'; PushBack(); } break; case Hex: while (is_hex(ch)) { if (np < &buf[NUMSIZE]) *np++ = ch; LoadChar(ch); } base = 16; state = End; if (ch != 'H') { lexerror("H expected after hex number"); UnloadChar(ch); } break; case OctEndOrHex: if (np < &buf[NUMSIZE]) *np++ = ch; LoadChar(ch); if (ch == 'H') { base = 16; state = End; break; } if (is_hex(ch)) { state = Hex; break; } UnloadChar(ch); ch = *--np; *np++ = '\0'; base = 8; /* Fall through */ case End: { int sgnswtch = 0; *np = '\0'; if (np >= &buf[NUMSIZE]) { tk->TOK_INT = 1; lexerror("constant too long"); } else { np = &buf[1]; while (*np == '0') np++; tk->TOK_INT = 0; while (*np) { arith old = tk->TOK_INT; int c; if (is_dig(*np)) { c = *np++ - '0'; } else { assert(is_hex(*np)); c = *np++ - 'A' + 10; } tk->TOK_INT = tk->TOK_INT*base + c; sgnswtch += (old < 0) ^ (tk->TOK_INT < 0); } } toktype = card_type; if (sgnswtch >= 2) { lexwarning(W_ORDINARY, "overflow in constant"); } else if (ch == 'C' && base == 8) { toktype = char_type; if (sgnswtch != 0 || tk->TOK_INT>255) { lexwarning(W_ORDINARY, "character constant out of range"); } } else if (ch == 'D' && base == 10) { if (sgnswtch != 0 || tk->TOK_INT > max_int[(int)long_size]) { lexwarning(W_ORDINARY, "overflow in constant"); } toktype = longint_type; } else if (sgnswtch == 0 && tk->TOK_INT<=max_int[(int)int_size]) { toktype = intorcard_type; } else if (! chk_bounds(tk->TOK_INT, full_mask[(int)int_size], T_CARDINAL)) { lexwarning(W_ORDINARY, "overflow in constant"); } return tk->tk_symb = INTEGER; } case OptReal: /* The '.' could be the first of the '..' token. At this point, we need a look-ahead of two characters. */ LoadChar(ch); if (ch == '.') { /* Indeed the '..' token */ PushBack(); PushBack(); state = End; base = 10; break; } state = Real; break; } if (state == Real) break; } /* a real real constant */ if (np < &buf[NUMSIZE]) *np++ = '.'; toktype = real_type; while (is_dig(ch)) { /* Fractional part */ if (np < &buf[NUMSIZE]) *np++ = ch; LoadChar(ch); } if (ch == 'E' || ch == 'D') { /* Scale factor */ if (ch == 'D') { toktype = longreal_type; LoadChar(ch); if (!(ch == '+' || ch == '-' || is_dig(ch))) goto noscale; UnloadChar(ch); } if (np < &buf[NUMSIZE]) *np++ = 'E'; LoadChar(ch); if (ch == '+' || ch == '-') { /* Signed scalefactor */ if (np < &buf[NUMSIZE]) *np++ = ch; LoadChar(ch); } if (is_dig(ch)) { do { if (np < &buf[NUMSIZE]) *np++ = ch; LoadChar(ch); } while (is_dig(ch)); } else { lexerror("bad scale factor"); } } noscale: *np++ = '\0'; UnloadChar(ch); if (np >= &buf[NUMSIZE]) { tk->TOK_REL = Salloc("0.0", 5); lexerror("real constant too long"); } else tk->TOK_REL = Salloc(buf, (unsigned) (np - buf)) + 1; return tk->tk_symb = REAL; /*NOTREACHED*/ } case STEOI: return tk->tk_symb = -1; case STCHAR: default: crash("(LLlex) Impossible character class"); /*NOTREACHED*/ } /*NOTREACHED*/ }