/* Copyright (c) 2007 by Ian Piumarta * All rights reserved. * * Permission is hereby granted, free of charge, to any person obtaining a * copy of this software and associated documentation files (the 'Software'), * to deal in the Software without restriction, including without limitation * the rights to use, copy, modify, merge, publish, distribute, and/or sell * copies of the Software, and to permit persons to whom the Software is * furnished to do so, provided that the above copyright notice(s) and this * permission notice appear in all copies of the Software. Acknowledgement * of the use of this Software in supporting documentation would be * appreciated but is not required. * * THE SOFTWARE IS PROVIDED 'AS IS'. USE ENTIRELY AT YOUR OWN RISK. * * Last edited: 2007-05-15 10:32:09 by piumarta on emilia */ #include #include #include #include #include "greg.h" Node *actions= 0; Node *rules= 0; Node *thisRule= 0; Node *start= 0; FILE *output= 0; int actionCount= 0; int ruleCount= 0; int lastToken= -1; #ifndef STATIC_INLINE # if defined(__GNUC__) || defined(__cplusplus) || (defined(__STDC_VERSION__) && (__STDC_VERSION__ >= 199901L)) /* # define STATIC_INLINE static inline */ # define STATIC_INLINE static # else # define STATIC_INLINE static # endif #endif /* STATIC_INLINE */ STATIC_INLINE Node *_newNode(int type, int size) { Node *node= (Node*)calloc(1, size); node->type= type; ((struct Any *) node)->errblock= NULL; return node; } #define newNode(T) _newNode(T, sizeof(struct T)) Node *makeRule(char *name, int defined) { Node *node= newNode(Rule); node->rule.name= strdup(name); node->rule.id= ++ruleCount; node->rule.flags= defined ? RuleUsed : 0; node->rule.next= rules; rules= node; return node; } Node *findRule(char *name, int defined) { Node *n; char *ptr; for (ptr= name; *ptr; ptr++) if ('-' == *ptr) *ptr= '_'; for (n= rules; n; n= n->any.next) { assert(Rule == n->type); if (!strcmp(name, n->rule.name)) return n; } return makeRule(name, defined); } Node *beginRule(Node *rule) { actionCount= 0; return thisRule= rule; } void Rule_setExpression(Node *node, Node *expression) { assert(node); #ifdef DEBUG Node_print(node); fprintf(stderr, " [%d]<- ", node->type); Node_print(expression); fprintf(stderr, "\n"); #endif assert(Rule == node->type); node->rule.expression= expression; if (!start || !strcmp(node->rule.name, "start")) start= node; } Node *makeVariable(char *name) { Node *node; assert(thisRule); for (node= thisRule->rule.variables; node; node= node->variable.next) if (!strcmp(name, node->variable.name)) return node; node= newNode(Variable); node->variable.name= strdup(name); node->variable.next= thisRule->rule.variables; thisRule->rule.variables= node; return node; } Node *makeName(Node *rule) { Node *node= newNode(Name); node->name.rule= rule; node->name.variable= 0; rule->rule.flags |= RuleUsed; return node; } Node *makeDot(void) { return newNode(Dot); } Node *makeCharacter(char *text) { Node *node= newNode(Character); node->character.value= strdup(text); return node; } Node *makeString(char *text) { Node *node= newNode(String); node->string.value= strdup(text); return node; } Node *makeClass(char *text) { Node *node= newNode(Class); node->cclass.value= (unsigned char *)strdup(text); return node; } Node *makeAction(char *text) { Node *node= newNode(Action); char name[1024]; assert(thisRule); sprintf(name, "_%d_%s", ++actionCount, thisRule->rule.name); node->action.name= strdup(name); node->action.text= strdup(text); node->action.list= actions; node->action.rule= thisRule; actions= node; { char *ptr; for (ptr= node->action.text; *ptr; ++ptr) if ('$' == ptr[0] && '$' == ptr[1]) ptr[1]= ptr[0]= 'y'; } return node; } Node *makePredicate(const char *text) { Node *node= newNode(Predicate); node->predicate.text= strdup(text); return node; } Node *makeAlternate(Node *e) { if (Alternate != e->type) { Node *node= newNode(Alternate); assert(e); assert(!e->any.next); node->alternate.first= node->alternate.last= e; return node; } return e; } Node *Alternate_append(Node *a, Node *e) { assert(a); a= makeAlternate(a); assert(a->alternate.last); assert(e); a->alternate.last->any.next= e; a->alternate.last= e; return a; } Node *makeSequence(Node *e) { if (Sequence != e->type) { Node *node= newNode(Sequence); assert(e); assert(!e->any.next); node->sequence.first= node->sequence.last= e; return node; } return e; } Node *Sequence_append(Node *a, Node *e) { assert(a); a= makeSequence(a); assert(a->sequence.last); assert(e); a->sequence.last->any.next= e; a->sequence.last= e; return a; } Node *makePeekFor(Node *e) { Node *node= newNode(PeekFor); node->peekFor.element= e; return node; } Node *makePeekNot(Node *e) { Node *node= newNode(PeekNot); node->peekNot.element= e; return node; } Node *makeQuery(Node *e) { Node *node= newNode(Query); node->query.element= e; return node; } Node *makeStar(Node *e) { Node *node= newNode(Star); node->star.element= e; return node; } Node *makePlus(Node *e) { Node *node= newNode(Plus); node->plus.element= e; return node; } static Node *stack[1024]; static Node **stackPointer= stack; #ifdef DEBUG static void dumpStack(void) { Node **p; for (p= stack + 1; p <= stackPointer; ++p) { fprintf(stderr, "### %ld\t", p - stack); Node_print(*p); fprintf(stderr, "\n"); } } #endif Node *push(Node *node) { assert(node); assert(stackPointer < stack + 1023); #ifdef DEBUG dumpStack(); fprintf(stderr, " PUSH "); Node_print(node); fprintf(stderr, "\n"); #endif return *++stackPointer= node; } Node *top(void) { assert(stackPointer > stack); return *stackPointer; } Node *pop(void) { assert(stackPointer > stack); #ifdef DEBUG dumpStack(); fprintf(stderr, " POP\n"); #endif return *stackPointer--; } static void Node_fprint(FILE *stream, Node *node) { assert(node); switch (node->type) { case Rule: fprintf(stream, " %s", node->rule.name); break; case Name: fprintf(stream, " %s", node->name.rule->rule.name); break; case Dot: fprintf(stream, " ."); break; case Character: fprintf(stream, " '%s'", node->character.value); break; case String: fprintf(stream, " \"%s\"", node->string.value); break; case Class: fprintf(stream, " [%s]", node->cclass.value); break; case Action: fprintf(stream, " { %s }", node->action.text); break; case Predicate: fprintf(stream, " ?{ %s }", node->action.text); break; case Alternate: node= node->alternate.first; fprintf(stream, " ("); Node_fprint(stream, node); while ((node= node->any.next)) { fprintf(stream, " |"); Node_fprint(stream, node); } fprintf(stream, " )"); break; case Sequence: node= node->sequence.first; fprintf(stream, " ("); Node_fprint(stream, node); while ((node= node->any.next)) Node_fprint(stream, node); fprintf(stream, " )"); break; case PeekFor: fprintf(stream, "&"); Node_fprint(stream, node->query.element); break; case PeekNot: fprintf(stream, "!"); Node_fprint(stream, node->query.element); break; case Query: Node_fprint(stream, node->query.element); fprintf(stream, "?"); break; case Star: Node_fprint(stream, node->query.element); fprintf(stream, "*"); break; case Plus: Node_fprint(stream, node->query.element); fprintf(stream, "+"); break; default: fprintf(stream, "\nunknown node type %d\n", node->type); exit(1); } } void Node_print(Node *node) { Node_fprint(stderr, node); } static void Rule_fprint(FILE *stream, Node *node) { assert(node); assert(Rule == node->type); fprintf(stream, "%s.%d =", node->rule.name, node->rule.id); if (node->rule.expression) Node_fprint(stream, node->rule.expression); else fprintf(stream, " UNDEFINED"); fprintf(stream, " ;\n"); } void Rule_print(Node *node) { Rule_fprint(stderr, node); }