#include #include #include #include #include #include "symbol.h" #include "debug.h" /* Symbol processor. Stores symbols for the lexical scanner. Can later print them. Implementation uses a hashtable, the size of which is defined in symbols.h. */ /* accessible for externals */ int globalError; //!< If >0, stdout output goes to stderr (for e.g. terms) char *globalStream; //!< Defaults to stdout /* external declarations */ extern int yylineno; /* global declarations */ //! Symbol hash table. Symbol symbtab[HASHSIZE]; //! List of available (freed) symbol blocks. Symbol symb_list; //! List of all allocated symbol blocks. Symbol symb_alloc; /* main code */ //! Open symbols code. void symbolsInit (void) { int i; for (i = 0; i < HASHSIZE; i++) symbtab[i] = NULL; symb_list = NULL; symb_alloc = NULL; globalError = 0; globalStream = (char *) stdout; } //! Close symbols code. void symbolsDone (void) { Symbol s; while (symb_alloc != NULL) { s = symb_alloc; symb_alloc = s->allocnext; free (s); } } //! Create a memory block for a symbol. /** * Internal memory management is used. *@return A pointer to a memory block of size struct. */ Symbol get_symb (void) { Symbol t; if (symb_list != NULL) { t = symb_list; symb_list = symb_list->next; } else { t = (Symbol) malloc (sizeof (struct symbol)); t->allocnext = symb_alloc; symb_alloc = t; } t->keylevel = INT_MAX; return t; } //! Declare a symbol to be freed. void free_symb (const Symbol s) { if (s == NULL) return; s->next = symb_list; symb_list = s; } //! Return the index in the hash table for the string. int hash (const char *s) { int hv = 0; int i; for (i = 0; s[i] != EOS; i++) { int v = (hv >> 28) ^ (s[i] & 0xf); hv = (hv << 4) | v; } hv = hv & 0x7fffffff; return hv % HASHSIZE; } //! Insert a string into the hash table. void insert (const Symbol s) { int hv; if (s == NULL) return; /* illegal insertion of empty stuff */ hv = hash (s->text); s->next = symbtab[hv]; symbtab[hv] = s; } //! Find a string in the hash table. Symbol lookup (const char *s) { int hv; Symbol t; if (s == NULL) return NULL; hv = hash (s); t = symbtab[hv]; while (t != NULL) { if (strcmp (t->text, s) == 0) break; else t = t->next; } return t; } //! Print a symbol. void symbolPrint (const Symbol s) { if (s == NULL) return; /* TODO maybe action depending on type? */ eprintf ("%s", s->text); } //! Print all symbols void symbolPrintAll (void) { int i, count; eprintf ("List of all symbols\n"); count = 0; for (i = 0; i < HASHSIZE; i++) { Symbol sym; sym = symbtab[i]; if (sym != NULL) { eprintf ("H%i:\t", i); while (sym != NULL) { count++; eprintf ("[%s]\t", sym->text); sym = sym->next; } eprintf ("\n"); } } eprintf ("Total:\t%i\n", count); } //! Insert a string into the symbol table, if it wasn't there yet. /** * Also sets line numbers and type. *\sa T_SYSCONST */ Symbol symbolSysConst (const char *str) { Symbol symb; symb = lookup (str); if (symb == NULL) { symb = get_symb (); symb->lineno = yylineno; symb->type = T_SYSCONST; symb->text = str; insert (symb); } return symb; } //! Generate the first fresh free number symbol, prefixed by a certain symbol's string. /** * Note that there is an upper limit to this, to avoid some problems with buffer overflows etc. */ Symbol symbolNextFree (Symbol prefixsymbol) { char *prefixstr; int n; int len; if (prefixsymbol != NULL) { prefixstr = (char *) prefixsymbol->text; len = strlen (prefixstr); } else { prefixstr = ""; len = 0; } n = 1; while (n <= 9999) { char buffer[len + 5]; // thus we must enforce a maximum of 9.999 (allowing for storage of \0 ) Symbol symb; int slen; slen = sprintf (buffer, "%s%i", prefixstr, n); buffer[slen] = EOS; symb = lookup (buffer); if (symb == NULL) { char *newstring; // Copy the buffer to something that will survive /** * Memory leak: although this routine should not be called recursively, it will never de-allocate this memory. * Thus, some precaution is necessary. * [x][CC] */ newstring = (char *) malloc (slen + 1); memcpy (newstring, buffer, slen + 1); /* This persistent string can be used to return a fresh symbol */ return symbolSysConst (newstring); } // Try next one n++; } error ("We ran out of numbers (%i) when trying to generate a fresh symbol.", n); } //! Fix all the unset keylevels void symbol_fix_keylevels (void) { int i; for (i = 0; i < HASHSIZE; i++) { Symbol sym; sym = symbtab[i]; while (sym != NULL) { #ifdef DEBUG if (DEBUGL (5)) { eprintf ("Symbol "); symbolPrint (sym); } #endif if (sym->keylevel == INT_MAX) { // Nothing currently, this simply does not originate on a strand. #ifdef DEBUG if (DEBUGL (5)) { eprintf (" doesn't have a keylevel yet.\n"); } #endif } #ifdef DEBUG else { if (DEBUGL (5)) { eprintf (" has keylevel %i\n", sym->keylevel); } } #endif sym = sym->next; } } } //! Get output stream pointer FILE * getOutputStream (void) { if (globalError == 0) return (FILE *) globalStream; else #ifdef linux return stderr; #else // For non-linux, we simply omit it return NULL; #endif } //! Print out according to globalError /** * Input is comparable to printf, only depends on globalError. This should be * used by any function trying to do output. * * Furthermore, if globalError == 0, it can still be overriden by * globalStream, which can be another stream pointer. If it is null, stdout * is assumed. * *\sa globalError */ void eprintf (char *fmt, ...) { va_list args; FILE *stream; va_start (args, fmt); stream = getOutputStream (); if (stream != NULL) { vfprintf (stream, fmt, args); } va_end (args); } // Variable list variant void veprintf (const char *fmt, va_list args) { FILE *stream; stream = getOutputStream (); if (stream != NULL) { vfprintf (stream, fmt, args); } }