symbolsTable.c
Description du code
symbolsTable.c est un fichier du projet Compilateur LSD010.Ce fichier est situé dans /var/www/bin/sniplets/lsd010/.
Projet Compilateur LSD010 :
Compilateur LSD010 développé dans le cadre du cours de syntaxe et sémantiqueref 1
Code source ou contenu du fichier
Code c (symbolsTable.c) (558 lignes)
/* * symbolsTable.c : Implementation to manage the symbols table * Part of the compiler project for LSD10 language * Gaudry Stéphane * More information on http://www.gaudry.be/langages-table-des-symboles.html * ********************************************************** */ #include <stdio.h> #include <stdlib.h> #include <string.h> #if(VERBOSE_LEVEL<=DEB_E) #include <errno.h> #endif #include "symbolsTableDataRepresentation.h" #include "scopeStack.h" #include "scopeHelper.h" #include "common.h" #include "hashCode.h" /* * ********************************************************** * Internal business implementations * ********************************************************** */ int symbolsTableAvailable=0; /** * Memory location of the last declaration */ int memoryUpperBound=INITIAL_INT; /** * Creates a new SymTableEntry instance. */ SymTableEntry* createSymTableEntry(AstNode *declarationNode) { if(!(entry)) { if(VERBOSE_LEVEL<=DEB_E) { printMsg(DEB_E,"Allocation Error(SymTableEntry)", __FILE__, __LINE__); } //Failure of the compiler behavior, independent of the parsed code } entry->next = NULL; ScopeStack *scopeStack = createScopeStack(); scopeStack->declarationNode = declarationNode; scopeStack->parentPtr = NULL; declarationNode->info->memoryLocation=memoryUpperBound; scopeStack->functionNode = (AstNode *)scopeHelperGetCurrentFunction(); if(declarationNode==getMain()) { scopeStack->usage=VAR_USAGE_ALWAYS; } entry->scopeStack = scopeStack; #if(VERBOSE_LEVEL<=DEB_SYM) "\n;\tCreation of an entry for %s on scope %d (compiler %s, %d)....main=%s\n", declarationNode->info->name, getScopeDepth(scopeStack), __FILE__, __LINE__, getMain()==NULL?"null":"ok" ); #endif return entry; } void finalizeSymTableEntry(SymTableEntry *entry) { if(entry!=NULL) { finalizeSymTableEntry(entry->next); } } /** * Search only on a given scope stack for a declaration * Pre-condition: the scope stack matches the identifier * @param astNode, pointer to the node for witch we search the declaration * @param scopeId * @param scopeStack, pointer to the stack where to search */ ScopeStack* searchDeclarationOnStack(AstNode *astNode, int scopeId, ScopeStack *scopeStack) { if(scopeStack==NULL) { return NULL; } int foundScopeId=getScopeDepth(scopeStack); #if(VERBOSE_LEVEL<=DEB_SYM) "\n;------Search for %s [%p, scope %d] on scope %d (compiler %s,%d)\n", astNode->info->name, astNode, foundScopeId, scopeId, __FILE__, __LINE__ ); #endif // there is a scopeStackPtr for this identifier if(foundScopeId!=ERROR_INT && foundScopeId<=scopeId) { return scopeStack; } #if(VERBOSE_LEVEL<=DEB_SYM) "\n; Nothing found for %s (%p) on scope %d (compiler %s,%d)\n", astNode->info->name, astNode, scopeId, __FILE__, __LINE__ ); #endif // search into the wrapper scope ScopeStack *parentScope = scopeStack->parentPtr; if(parentScope!=NULL) { #if(VERBOSE_LEVEL<=DEB_SYM) "\n;------Try to search on parent scope [%p] for %s [%p] (compiler %s,%d)\n", parentScope, astNode->info->name, astNode, __FILE__, __LINE__ ); #endif return searchDeclarationOnStack(astNode, scopeId, parentScope); } else { #if(VERBOSE_LEVEL<=DEB_SYM) "\n;------Scope %d, No parent scope where to search for %s (compiler %s,%d)\n", foundScopeId, astNode->info->name, __FILE__, __LINE__ ); #endif } return NULL; } /** * Search on all of the linked list of given scope stack for a declaration * @param currentNode, pointer to the node for witch we search the declaration * @param scopeId, scope where to search * @param scopeStack, pointer to the stack where to start search */ ScopeStack* searchDeclaration(AstNode *currentNode, int scopeId, SymTableEntry *entry) { if(entry==NULL || entry->scopeStack==NULL) { return NULL; } // if(currentNode==NULL) // { // return NULL; // } // if(currentNode->info==NULL) // { // return NULL; // } // test name to detect hashcode collisions { // printf( // "\n; collision: %s searched, %s found, %s next\n", // currentNode->info->name, // entry->scopeStack->declarationNode->info->name, // entry->next==NULL?"null":entry->next->scopeStack->declarationNode->info->name // ); // if there is collision of hashcodes, search into the next identifier stack return searchDeclaration(currentNode, scopeId, entry->next) ; } // printf( // "\nOK : %s searched, %s found\n", // currentNode->info->name, // entry->scopeStack->declarationNode->info->name // ); // the scope stack matches the identifier return searchDeclarationOnStack(currentNode, scopeId, entry->scopeStack); } /** * Search into the symbols table for a declaration of a given AST node for the current scope. * If no backward declaration exists, the program exits with an error message * pre-condition: astNode not NULL */ ScopeStack* getScopeDeclaration(AstNode* astNode) { int hash = getASTHashCode(astNode); ScopeStack* foundStack = NULL; #if(VERBOSE_LEVEL<=DEB_SYM) "\n;------Search for %s; current scope=%d, Table[%d] %s (compiler %s,%d)", astNode->info->name, astNode->info->scopeId, hash, declarations[hash]==NULL?"empty":"not empty", __FILE__, __LINE__ ); #endif if(declarations[hash]!=NULL) { foundStack = searchDeclaration(astNode, scopeHelperGetCurrentScope(), declarations[hash]); // printf( // "\n;\tnode=%s; founstack=%s\n", // astNode->info->name, // foundStack==NULL?"null":foundStack->declarationNode->info->name // ); if(foundStack!=NULL && isBefore(astNode, foundStack->declarationNode)==AST_CMP_BEFORE) { #if(VERBOSE_LEVEL<=DEB_E) ";\n;\tForward declaration detected for %s line %d col %d, declaration line %d col%d", astNode->info->name, astNode->debug->line, astNode->debug->linePsn, foundStack->declarationNode->debug->line, foundStack->declarationNode->debug->linePsn ); #endif foundStack=NULL; } } //else printf("\nentry null (%s,%d)",__FILE__, __LINE__); if(foundStack==NULL) { char errorStr[1024];//todo: minimize length errorStr, "No previous declaration found for %s line %d col %d (compiler %s,%d)", astNode->info->name, astNode->debug->line, astNode->debug->linePsn, __FILE__, __LINE__ ); onError(errorStr, __FILE__, __LINE__, astNode); } #if(VERBOSE_LEVEL<=DEB_SYM) #endif return foundStack; } /** * Adds a declaration into the symbols table * @param entry pointer to an existing item of linked list (to solve hash collisions) * @param declarationNode declaration to add into the symbols table * @param hash index of the item on the symbols table * pre-condition: entry not null */ void addSafeDeclaration(SymTableEntry *entry, AstNode* declarationNode, int hash) { { // hash collision detected; #if(VERBOSE_LEVEL<=DEB_SYM) "\n;------Collision detected for %s hash=%d [%s found on %p] (compiler %s,%d)", declarationNode->info->name, hash, getEntryName(entry), entry, __FILE__, __LINE__ ); #endif SymTableEntry *nextEntry = entry->next; if(nextEntry==NULL) { SymTableEntry *tempEntry = createSymTableEntry(declarationNode); tempEntry->next=entry; // we add the new entry as first item of the linked list(proximity possible usage) declarations[hash]=tempEntry; } else { addSafeDeclaration(nextEntry, declarationNode, hash); } } else { #if(VERBOSE_LEVEL<=DEB_SYM) "\n;------A scope exists for %s [%s] (compiler %s,%d)", declarationNode->info->name, getEntryName(entry), __FILE__, __LINE__ ); #endif int curScope = scopeHelperGetCurrentScope(); int foundScope = getScopeDepth(entry->scopeStack); if(foundScope==curScope) { AstNode* foundNode = entry->scopeStack->declarationNode; char errorStr[1024];//todo: minimize length errorStr, "A previous declaration for %s (scope %d line %d col %d) has been detected (scope %d line %d col %d) by compiler %s,%d", declarationNode->info->name, curScope, declarationNode->debug->line, declarationNode->debug->linePsn, foundScope, foundNode->debug->line, foundNode->debug->linePsn, __FILE__, __LINE__ ); onError(errorStr, __FILE__, __LINE__, declarationNode); } pushScopesStack(&(entry->scopeStack), scopeHelperGetCurrentScope(), declarationNode); entry->scopeStack->declarationNode->info->memoryLocation=memoryUpperBound; } } /** * Parses nodes from variable usage node to root to detect if we are on a conditional bloc */ void checkUsage(ScopeStack* scopeStack, AstNode *node) { if(scopeStack==NULL) { scopeStack = getScopeDeclaration(node); } if(scopeStack!=NULL && scopeStack->usage!=VAR_USAGE_ALWAYS) { while(node->parent!=NULL) { // printf( // "\n; Check usage for %s line %d col %d, parent=%s (compiler(%s, %d)", // node->info->name, // node->debug->line, // node->debug->linePsn, // node->parent==NULL?"NULL":node->parent->info->name, // __FILE__, // __LINE__ // ); switch(node->parent->subtype) { case LEXICAL_IF_STMT: case AST_IF_ELSE_STMT: scopeStack->usage = VAR_USAGE_SOMETIMES; return; } node=node->parent; } scopeStack->usage=VAR_USAGE_ALWAYS; } } /* * ********************************************************** * Implementation of the header exposed items * See symbolsTable.h for these functions comments * ********************************************************** */ int setUsage(AstNode *currentVarNode, VariableUsage usage) { switch(currentVarNode->type) { case NODE_TYPE_ID: case NODE_TYPE_FUNCTION_CALL: break; default:return EXIT_FAILURE; } ScopeStack* foundStack = getScopeDeclaration(currentVarNode); if(foundStack==NULL) { return EXIT_FAILURE; } foundStack->usage = usage; } char *getEntryName(SymTableEntry *entry) { if(entry==NULL)return "NULL entry"; // if(entry->scopeStack==NULL)return "NULL entry stack"; // if(entry->scopeStack->declarationNode==NULL)return "NULL entry declaration node"; // if(entry->scopeStack->declarationNode->info==NULL)return "NULL entry declaration node info"; return entry->scopeStack->declarationNode->info->name; } int isSymbolsTableAvailable() { return symbolsTableAvailable; } void initializeSymbolsTable() { setHashUpperBoundary(TABLES_SIZE); initializeScopeHelper(); //declare i before ‘for’ statement because ‘for’ loop initial declarations are only allowed in C99 mode int i; for(i=0;i<TABLES_SIZE;i++) { declarations[i]=NULL;//createSymTableEntry(NULL); } symbolsTableAvailable=1; } void finalizeSymbolsTable() { //printScopeUsage(); int i; for(i=0;i<TABLES_SIZE;i++) { finalizeSymTableEntry(declarations[i]); } symbolsTableAvailable=0; finalizeScopeHelper(); } void enterScope() { scopeHelperEnterScope(); } void exitScope() { scopeHelperExitScope(); } int enterFunctionScope(AstNode* functionNode) { scopeHelperEnterScope(); scopeHelperSetCurrentFunction(functionNode); } void addDeclaration(AstNode* declarationNode) { switch(declarationNode->type) { case NODE_TYPE_VAR_DECL: ++memoryUpperBound; case NODE_TYPE_PARAM_DECL: case NODE_TYPE_FUNCTION: { int hash = getASTHashCode(declarationNode); if(declarations[hash]==NULL) { #if(VERBOSE_LEVEL<=DEB_SYM) declarationNode->info->name, scopeHelperGetCurrentScope(), __FILE__, __LINE__ ); #endif declarations[hash]=createSymTableEntry(declarationNode); } else { #if(VERBOSE_LEVEL<=DEB_SYM) printf(";\n; Adding %s declaration into symbols table[existing entry], scope=%d (compiler %s, line %d)", declarationNode->info->name, scopeHelperGetCurrentScope(), __FILE__, __LINE__ ); #endif addSafeDeclaration(declarations[hash], declarationNode, hash); } #if(VERBOSE_LEVEL<=DEB_SYM) printSymbolsTableDebug(__FILE__, __LINE__); #endif } break; } // A declaration node is his own declaration declarationNode->info->declarationNode=declarationNode; } AstNode* getDeclaration(AstNode *node) { if(node==NULL) { #if(VERBOSE_LEVEL<=DEB_E) { printMsg(DEB_E,"Illegal argument (NULL)", __FILE__, __LINE__); } #endif //Failure of the compiler behavior, independent of the parsed code } #if(VERBOSE_LEVEL<=DEB_SYM) node->info->name, node->info->declarationNode==NULL?"no":"yes", __FILE__, __LINE__ ); #endif if(node->info->declarationNode!=NULL) { return node->info->declarationNode; } //node->info->scopeDepth=scopeHelperGetCurrentDepth(); ScopeStack* foundStack = NULL; switch(node->type) { case NODE_TYPE_VAR_DECL: return node; case NODE_TYPE_FUNCTION: case NODE_TYPE_PARAM: #if(VAR_USAGE_REPORT_REQUESTED) checkUsage(foundStack, node); #endif return node; case NODE_TYPE_ID: case NODE_TYPE_FUNCTION_CALL: // if(node->info->declarationNode==NULL) // { #if(VERBOSE_LEVEL<=DEB_SYM) ";\n; Declaration not yet found for %s line %d col %d, must search into table (compiler %s, line %d)", node->info->name, node->debug->line, node->debug->linePsn, __FILE__, __LINE__ ); #endif foundStack = getScopeDeclaration(node); node->info->declarationNode = foundStack==NULL?NULL:foundStack->declarationNode; // } #if(VAR_USAGE_REPORT_REQUESTED) checkUsage(foundStack, node); #endif return node->info->declarationNode; } #if(VERBOSE_LEVEL<=DEB_E) { ";\n; Error : Illegal argument (%s is not an id or a function call) On %s, Line%d", node->info->name, __FILE__, __LINE__ ); } #endif //Failure of the compiler behavior, independent of the parsed code } int getDeclarationsMemoryUpperBound() { return memoryUpperBound; } int getDeclarationMemoryLocation(AstNode *node) { AstNode *declarationNode = getDeclaration(node); return declarationNode==NULL?INITIAL_INT:declarationNode->info->memoryLocation; }
Structure et Fichiers du projet
Afficher/masquer...Icône | Nom | Taille | Modification |
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Icône | Nom | Taille | Modification |
| _ | Répertoire parent | 0 octets | 1732644591 26/11/2024 19:09:51 |
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Bij voorbaat dank.
Document heeft de 07/03/2010 gemaakt, de laatste keer de 28/10/2018 gewijzigd
Bron van het afgedrukte document:https://www.gaudry.be/nl/langages-lsd10-source-rf-project/source/symbolsTable.c.html
De infobrol is een persoonlijke site waarvan de inhoud uitsluitend mijn verantwoordelijkheid is. De tekst is beschikbaar onder CreativeCommons-licentie (BY-NC-SA). Meer info op de gebruiksvoorwaarden en de auteur.
- ↑a,b LSD010 : Langage Simple et Didactique Il existe une un certain nombre d'interprétations de l'acronyme LSD (Langage Symbolique Didactique, Langage Sans Difficulté, Langage Simple et Didactique). LSD010 est la version 2010 de la suite LSD80, LSD_02, LSD03, LSD04, LSD05, LSD06, LSD07, LSD08, et LSD09.
Referenties
- IHDCB332 - Théorie des langages : Syntaxe et sémantique : PY Schobbens,
Syntaxe et sémantique
(January 2010)
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