first finalized form of set
This commit is contained in:
parent
c53c3c33f3
commit
8af6825567
288
src/set/set.c
288
src/set/set.c
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@ -9,15 +9,20 @@
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#include <sys/log.h>
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#include <glib.h>
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#include <assert.h>
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#include <math.h>
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#include <set/set.h>
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#include <mem/cache.h>
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extern ModuleFile *current_file;
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static GHashTable *declaredComposites = NULL;//pointer to composites with names
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static GHashTable *declaredBoxes = NULL;//pointer to typeboxes
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static GHashTable *declaredBoxes = NULL;//pointer to type
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static GHashTable *functionParameter = NULL;
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static GHashTable *definedFunctions = NULL;
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static GHashTable *declaredFunctions = NULL;
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static GArray *Scope = NULL;//list of hashtables. last Hashtable is current depth of program. hashtable key: ident, value: Variable* to var
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const Type ShortShortUnsingedIntType = {
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.kind = TypeKindComposite,
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.impl = {
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@ -214,6 +219,10 @@ int impl_composite_type(AST_NODE_PTR ast_type, CompositeType *composite) {
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composite->scale = composite->scale * nested_type->impl.composite.scale;
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if(composite->scale > 8 || composite->scale < 0.25) {
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return SEMANTIC_ERROR;
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}
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} else {
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print_diagnostic(current_file, &typeKind->location, Error, "Type must be either composite or primitive");
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return SEMANTIC_ERROR;
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@ -243,13 +252,15 @@ int get_type_impl(AST_NODE_PTR currentNode, Type **type) {
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if (g_hash_table_contains(declaredComposites, typekind) == TRUE) {
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*type = g_hash_table_lookup(declaredComposites, typekind);
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return SEMANTIC_OK;
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//TODO change composite based on other nodes
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}
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if (g_hash_table_contains(declaredBoxes, typekind) == TRUE) {
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*type = g_hash_table_lookup(declaredBoxes, typekind);
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if(currentNode->child_count > 1) {
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//TODO free
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return SEMANTIC_ERROR;
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}
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return SEMANTIC_OK;
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@ -314,7 +325,6 @@ int createRef(AST_NODE_PTR currentNode, Type** reftype) {
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int signal = get_type_impl(currentNode->children[0],&type);
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if(signal) {
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//TODO free type
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return SEMANTIC_ERROR;
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}
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referenceType->impl.reference = type;
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@ -1109,7 +1119,7 @@ int createTypeCast(Expression* ParentExpression, AST_NODE_PTR currentNode){
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if (ParentExpression->impl.typecast.operand->result->kind != TypeKindComposite
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&& ParentExpression->impl.typecast.operand->result->kind != TypeKindPrimitive){
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//TODO free everything
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return SEMANTIC_ERROR;
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}
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@ -1159,20 +1169,20 @@ int createDeref(Expression* ParentExpression, AST_NODE_PTR currentNode) {
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Type * indexType = deref.index->result;
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//indexType can only be a composite or a primitive
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if(indexType->kind != TypeKindComposite && indexType->kind != TypeKindPrimitive) {
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//TODO free deref index
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return SEMANTIC_ERROR;
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}
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//indexType can only be int
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if(indexType->kind == TypeKindPrimitive) {
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if (indexType->impl.primitive != Int) {
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//TODO free deref index
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return SEMANTIC_ERROR;
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}
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}
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if(indexType->kind == TypeKindComposite) {
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if (indexType->impl.composite.primitive != Int) {
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//TODO free deref index
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return SEMANTIC_ERROR;
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}
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}
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@ -1181,12 +1191,12 @@ int createDeref(Expression* ParentExpression, AST_NODE_PTR currentNode) {
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//variable has to be made
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if(deref.index == NULL) {
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//TODO free deref index
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return SEMANTIC_ERROR;
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}
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//variable can only be a reference
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if(deref.variable->result->kind != TypeKindReference) {
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//TODO free deref index and variable
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return SEMANTIC_ERROR;
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}
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@ -1204,7 +1214,7 @@ int createAddressOf(Expression* ParentExpression, AST_NODE_PTR currentNode) {
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address_of.variable = createExpression(AST_get_node(currentNode,0));
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if (address_of.variable == NULL) {
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//TODO free
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return SEMANTIC_ERROR;
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}
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@ -1330,14 +1340,14 @@ Expression *createExpression(AST_NODE_PTR currentNode){
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case AST_Dereference:
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expression->kind = ExpressionKindDereference;
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if(createDeref(expression, currentNode)) {
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//TODO free expression
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return NULL;
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}
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break;
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case AST_AddressOf:
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expression->kind = ExpressionKindAddressOf;
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if(createAddressOf(expression,currentNode)) {
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//TODO free space
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return NULL;
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}
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break;
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@ -1542,6 +1552,82 @@ int createBranch(Statement* ParentStatement,AST_NODE_PTR currentNode){
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return SEMANTIC_OK;
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}
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int getFunction(const char *name, Function **function);
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int createfuncall(Statement *parentStatement, AST_NODE_PTR currentNode) {
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assert(currentNode != NULL);
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assert(currentNode->child_count == 2);
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AST_NODE_PTR argsListNode = AST_get_node(currentNode, 1);
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AST_NODE_PTR nameNode = AST_get_node(currentNode, 0);
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FunctionCall funcall;
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Function * fun = NULL;
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if(nameNode->kind == AST_Ident) {
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int result = getFunction(nameNode->value, &fun);
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if (result == SEMANTIC_ERROR) {
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return SEMANTIC_ERROR;
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}
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}
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if(nameNode->kind == AST_IdentList) {
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assert(nameNode->child_count > 1);
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//idents.boxname.funname()
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//only boxname and funname are needed, because the combination is unique
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const char* boxName = AST_get_node( nameNode, (nameNode->child_count - 2))->value;
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const char* funName = AST_get_node( nameNode, (nameNode->child_count - 1))->value;
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const char* name = g_strjoin("", boxName, "." , funName, NULL );
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int result = getFunction(name,&fun);
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if (result) {
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return SEMANTIC_ERROR;
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}
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}
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funcall.function = fun;
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funcall.nodePtr = currentNode;
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size_t paramCount = 0;
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if(fun->kind == FunctionDeclarationKind) {
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paramCount = fun->impl.declaration.parameter->len;
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}else if(fun->kind == FunctionDefinitionKind) {
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paramCount = fun->impl.definition.parameter->len;
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}
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size_t count = 0;
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for(size_t i = 0; i < argsListNode->child_count; i++) {
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count += AST_get_node(argsListNode, i)->child_count;
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}
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if(count != paramCount) {
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return SEMANTIC_ERROR;
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}
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GArray * expressions = mem_new_g_array(MemoryNamespaceSet,(sizeof(Expression*)));
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//exprlists
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for( size_t i = 0; i < argsListNode->child_count; i++) {
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AST_NODE_PTR currentExprList = AST_get_node(argsListNode, i);
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for( size_t j = 0; j < currentExprList->child_count; j++) {
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Expression *expr = createExpression(AST_get_node(currentExprList, j));
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if(expr == NULL) {
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return SEMANTIC_ERROR;
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}
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g_array_append_val(expressions, expr);
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}
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}
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funcall.expressions = expressions;
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parentStatement->impl.call = funcall;
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return SEMANTIC_OK;
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}
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int createStatement(Block * Parentblock , AST_NODE_PTR currentNode){
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DEBUG("create Statement");
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}
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break;
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case AST_Call:
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//TODO both funcall and boxfuncall
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Statement * statement = mem_alloc(MemoryNamespaceSet,sizeof(Statement));
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statement->nodePtr = currentNode;
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statement->kind = StatementKindFunctionCall;
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int result = createfuncall(statement, currentNode);
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if(result == SEMANTIC_ERROR) {
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return SEMANTIC_ERROR;
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}
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break;
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default:
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PANIC("Node is not a statement");
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break;
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}
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@ -1733,6 +1827,71 @@ int createFunDef(Function * Parentfunction ,AST_NODE_PTR currentNode){
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}
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bool compareParameter(GArray *leftParameter,GArray *rightParameter) {
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if(leftParameter->len != rightParameter->len) {
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return FALSE;
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}
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for(size_t i = 0; i < leftParameter->len; i++) {
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Parameter currentLeftParam = g_array_index(leftParameter,Parameter ,i);
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Parameter currentRightParam = g_array_index(leftParameter,Parameter ,i);
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if(strcmp(currentLeftParam.name, currentRightParam.name) !=0 ) {
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return FALSE;
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}
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if(currentLeftParam.kind != currentRightParam.kind) {
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return FALSE;
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}
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if(currentLeftParam.kind == ParameterDeclarationKind) {
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ParameterDeclaration leftDecl = currentLeftParam.impl.declaration;
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ParameterDeclaration rightDecl = currentLeftParam.impl.declaration;
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if(leftDecl.qualifier != rightDecl.qualifier) {
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return FALSE;
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}
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if(compareTypes(leftDecl.type, rightDecl.type) == FALSE) {
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return FALSE;
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}
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}
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}
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return TRUE;
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}
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int addFunction(const char *name, Function *function) {
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if(function->kind == FunctionDefinitionKind) {
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if(g_hash_table_contains(definedFunctions, name)) {
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return SEMANTIC_ERROR;
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}
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g_hash_table_insert(declaredFunctions, (gpointer) name, function);
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}else if(function->kind == FunctionDeclarationKind) {
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if(g_hash_table_contains(declaredFunctions, name)) {
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Function * declaredFunction = g_hash_table_lookup(declaredFunctions, name);
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bool result = compareParameter(declaredFunction->impl.declaration.parameter, function->impl.declaration.parameter);
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if(result == FALSE) {
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return SEMANTIC_ERROR;
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}
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//a function can have multiple declartations but all have to be identical
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}
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g_hash_table_insert(declaredFunctions,(gpointer)name, function);
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}
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return SEMANTIC_OK;
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}
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int getFunction(const char *name, Function **function) {
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if(g_hash_table_contains(definedFunctions, name)) {
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Function * fun = g_hash_table_lookup(definedFunctions, name);
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*function = fun;
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return SEMANTIC_OK;
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}
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if(g_hash_table_contains(declaredFunctions, name)) {
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Function * fun = g_hash_table_lookup(declaredFunctions, name);
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*function = fun;
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return SEMANTIC_OK;
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}
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return SEMANTIC_ERROR;
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}
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int createFunDecl(Function * Parentfunction ,AST_NODE_PTR currentNode){
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DEBUG("start fundecl");
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AST_NODE_PTR nameNode = currentNode->children[0];
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@ -1768,9 +1927,9 @@ int createFunDecl(Function * Parentfunction ,AST_NODE_PTR currentNode){
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Parentfunction->name = fundecl.name;
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return SEMANTIC_OK;
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}
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//TODO check if a function is present and if a declaration is present and identical.
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int createFunction(GHashTable* functions, AST_NODE_PTR currentNode){
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int createFunction(Function ** function, AST_NODE_PTR currentNode){
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assert(currentNode->kind == AST_Fun);
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Function * fun = mem_alloc(MemoryNamespaceSet,sizeof(Function));
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functionParameter = g_hash_table_new(g_str_hash,g_str_equal);
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}else {
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PANIC("function should have 2 or 3 children");
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}
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if(g_hash_table_contains(functions,fun->name)){
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// TODO: delete fun
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return SEMANTIC_ERROR;
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}
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g_hash_table_insert(functions,(gpointer)fun->name, fun);
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g_hash_table_destroy(functionParameter);
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int result = addFunction(fun->name,fun);
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if(result == SEMANTIC_ERROR) {
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return SEMANTIC_ERROR;
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}
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*function = fun;
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return SEMANTIC_OK;
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}
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@ -1855,26 +2018,64 @@ int createDefMember(BoxType *ParentBox, AST_NODE_PTR currentNode){
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return SEMANTIC_OK;
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}
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int createBoxFunction(const char* boxName, Type *ParentBoxType, AST_NODE_PTR currentNode) {
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Function * function = mem_alloc(MemoryNamespaceSet, sizeof(Function));
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int result = createFunction(&function,currentNode);
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if( result == SEMANTIC_ERROR) {
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return SEMANTIC_ERROR;
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}
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function->name = g_strjoin("", boxName , "." , function->name, NULL );
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Parameter param;
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param.name = "self";
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param.nodePtr = currentNode;
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param.kind = ParameterDeclarationKind;
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param.impl.declaration.qualifier = In;
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param.impl.declaration.nodePtr = currentNode;
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param.impl.declaration.type = ParentBoxType;
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if(function->kind == FunctionDeclarationKind) {
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g_array_prepend_val(function->impl.declaration.parameter,param);
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}else {
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g_array_append_val(function->impl.definition.parameter, param);
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}
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addFunction(function->name,function);
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return SEMANTIC_OK;
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}
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int createBox(GHashTable *boxes, AST_NODE_PTR currentNode){
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BoxType * box = mem_alloc(MemoryNamespaceSet,sizeof(BoxType));
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box->nodePtr = currentNode;
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const char * boxName = currentNode->children[0]->value;
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AST_NODE_PTR boxMemberList = currentNode->children[1];
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Type * boxType = mem_alloc(MemoryNamespaceSet, sizeof(Type));
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boxType->nodePtr = currentNode;
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boxType->impl.box = box;
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for (size_t i = 0; boxMemberList->child_count; i++){
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switch (boxMemberList->children[i]->kind) {
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case AST_Decl:
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if(createDeclMember(box, boxMemberList->children[i]->children[i])){
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if(createDeclMember(box, boxMemberList->children[i])){
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return SEMANTIC_ERROR;
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}
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break;
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case AST_Def:
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if(createDeclMember(box, boxMemberList->children[i]->children[i])){
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if(createDeclMember(box, boxMemberList->children[i])){
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return SEMANTIC_ERROR;
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}
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break;
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case AST_Fun:
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//TODO FUNCTION Wait for createFunction()
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case AST_Fun:{
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int result = createBoxFunction(boxName,boxType,AST_get_node(boxMemberList, i));
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if (result == SEMANTIC_ERROR){
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return SEMANTIC_ERROR;
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}
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}
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default:
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break;
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}
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@ -1885,28 +2086,10 @@ int createBox(GHashTable *boxes, AST_NODE_PTR currentNode){
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}
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g_hash_table_insert(boxes, (gpointer)boxName, box);
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return SEMANTIC_OK;
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//
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//box
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// name
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// list
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// decl
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// def // change BoxMember to have an
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// fun //create static function
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// a.b(dsadsadas)
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//type box: boxy {
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//
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//long short int: a
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//
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//short short float: floaty = 0.54
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//
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//fun main (){
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//int: a = 5
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//}
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}
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int createTypeDef(GHashTable *types, AST_NODE_PTR currentNode){
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@ -1943,6 +2126,8 @@ Module *create_set(AST_NODE_PTR currentNode){
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//create tables for types
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declaredComposites = g_hash_table_new(g_str_hash,g_str_equal);
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declaredBoxes = g_hash_table_new(g_str_hash,g_str_equal);
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declaredFunctions = g_hash_table_new(g_str_hash,g_str_equal);
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definedFunctions = g_hash_table_new(g_str_hash,g_str_equal);
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//create scope
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Scope = g_array_new(FALSE, FALSE, sizeof(GHashTable*));
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@ -1999,7 +2184,6 @@ Module *create_set(AST_NODE_PTR currentNode){
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if (status) {
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return NULL;
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}
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// TODO: free vars
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DEBUG("created Definition successfully");
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break;
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}
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@ -2014,9 +2198,16 @@ Module *create_set(AST_NODE_PTR currentNode){
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}
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case AST_Fun:{
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DEBUG("start function");
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int status = createFunction(functions,currentNode->children[i]);
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Function * function = mem_alloc(MemoryNamespaceSet,sizeof(Function));
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int status = createFunction(&function,currentNode->children[i]);
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if(status == SEMANTIC_ERROR) {
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return NULL;
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}
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if(g_hash_table_contains(functions,function->name)){
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return NULL;
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}
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g_hash_table_insert(functions,(gpointer)function->name, function);
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if (status){
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// TODO: cleanup global memory
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return NULL;
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}
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DEBUG("created function successfully");
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@ -2026,7 +2217,6 @@ Module *create_set(AST_NODE_PTR currentNode){
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case AST_Typedef:{
|
||||
int status = createTypeDef(types, currentNode->children[i]);
|
||||
if (status){
|
||||
// TODO: cleanup global memory
|
||||
return NULL;
|
||||
}
|
||||
DEBUG("created Typedef successfully");
|
||||
|
|
|
@ -450,7 +450,7 @@ typedef struct Expression_t {
|
|||
|
||||
typedef struct FunctionCall_t {
|
||||
// function to call
|
||||
FunctionDefinition* function;
|
||||
Function* function;
|
||||
// list of expression arguments
|
||||
GArray* expressions;
|
||||
AST_NODE_PTR nodePtr;
|
||||
|
@ -458,7 +458,7 @@ typedef struct FunctionCall_t {
|
|||
|
||||
typedef struct FunctionBoxCall_t {
|
||||
// function to call
|
||||
FunctionDefinition* function;
|
||||
Function* function;
|
||||
// list of expression arguments
|
||||
GArray* expressions;
|
||||
// box which has the function defined for it
|
||||
|
|
Loading…
Reference in New Issue