first working implementation of set
This commit is contained in:
parent
4067339df8
commit
6502a7f4bb
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@ -142,6 +142,7 @@ static void build_target(ModuleFileStack *unit, const TargetConfig *target) {
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print_ast_to_file(ast, target);
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Module * test = create_set(ast);
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free(test);
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// TODO: parse AST to semantic values
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// TODO: backend codegen
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}
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146
src/set/set.c
146
src/set/set.c
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@ -15,6 +15,7 @@
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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 *functionParameter = 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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@ -63,16 +64,17 @@ int sign_from_string(const char* string, Sign* sign) {
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int primitive_from_string(const char* string, PrimitiveType* primitive) {
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assert(string != NULL);
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assert(primitive != NULL);
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DEBUG("find primitive in string");
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if (strcmp(string, "int") == 0) {
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*primitive = Int;
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return 0;
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return SEMANTIC_OK;
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} else if (strcmp(string, "float") == 0) {
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*primitive = Float;
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return 0;
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return SEMANTIC_OK;
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}
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return 1;
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return SEMANTIC_ERROR;
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}
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int scale_factor_from(const char* string, double* factor) {
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@ -237,7 +239,6 @@ int get_type_impl(AST_NODE_PTR currentNode, Type** type) {
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*type = g_hash_table_lookup(declaredBoxes, typekind);
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return SEMANTIC_OK;
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}
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// type is not yet declared, make a new one
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Type* new_type = malloc(sizeof(Type));
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@ -254,8 +255,10 @@ int get_type_impl(AST_NODE_PTR currentNode, Type** type) {
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// if err continue at composite construction
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if (status == SEMANTIC_OK) {
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*type = new_type;
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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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new_type->kind = TypeKindComposite;
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@ -263,6 +266,8 @@ int get_type_impl(AST_NODE_PTR currentNode, Type** type) {
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status = impl_composite_type(currentNode, &new_type->impl.composite);
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*type = new_type;
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return status;
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}
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@ -432,19 +437,38 @@ int getVariableFromScope(const char* name, Variable** variable) {
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assert(name != NULL);
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assert(variable != NULL);
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assert(Scope != NULL);
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DEBUG("getting var from scope");
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int found = 0;
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// loop through all variable scope and find a variable
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if(functionParameter != NULL) {
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if(g_hash_table_contains(functionParameter, name)) {
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*variable = g_hash_table_lookup(functionParameter, name);
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found += 1;
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}
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}
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for(size_t i = 0; i < Scope->len; i++) {
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GHashTable* variable_table = g_array_index(Scope,GHashTable* ,i );
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if(g_hash_table_contains(variable_table, name)) {
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if(found == 0){
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*variable = g_hash_table_lookup(variable_table, name);
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}
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found += 1;
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}
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}
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if (found == 1){
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DEBUG("Var: %s",(*variable)->name);
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DEBUG("Var Typekind: %d", (*variable)->kind);
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DEBUG("Found var");
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return SEMANTIC_OK;
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}else if (found > 1) {
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WARN("Variable %s is a parameter and a declared variable. Returning parameter", name);
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return SEMANTIC_OK;
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}
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}
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DEBUG("nothing found");
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return SEMANTIC_ERROR;
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}
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@ -481,6 +505,7 @@ int fillTablesWithVars(GHashTable *variableTable, GArray* variables) {
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[[nodiscard("type must be freed")]]
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TypeValue createTypeValue(AST_NODE_PTR currentNode){
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DEBUG("create TypeValue");
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TypeValue value;
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Type *type = malloc(sizeof(Type));
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value.type = type;
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@ -515,6 +540,7 @@ static inline void* clone(int size, void* ptr) {
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#define CLONE(x) clone(sizeof(x), (void*)&(x))
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TypeValue createString(AST_NODE_PTR currentNode) {
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DEBUG("create String");
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TypeValue value;
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Type *type = CLONE(StringLiteralType);
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value.type = type;
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@ -524,8 +550,11 @@ TypeValue createString(AST_NODE_PTR currentNode) {
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}
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Type* createTypeFromOperands(Type* LeftOperandType, Type* RightOperandType, AST_NODE_PTR currentNode) {
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DEBUG("create type from operands");
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Type *result = malloc(sizeof(Type));
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result->nodePtr = currentNode;
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DEBUG("LeftOperandType->kind: %i", LeftOperandType->kind);
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DEBUG("RightOperandType->kind: %i", RightOperandType->kind);
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if (LeftOperandType->kind == TypeKindComposite && RightOperandType->kind == TypeKindComposite) {
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result->kind = TypeKindComposite;
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@ -539,6 +568,7 @@ Type* createTypeFromOperands(Type* LeftOperandType, Type* RightOperandType, AST_
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result->impl.composite = resultImpl;
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} else if (LeftOperandType->kind == TypeKindPrimitive && RightOperandType->kind == TypeKindPrimitive) {
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DEBUG("both operands are primitive");
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result->kind = TypeKindPrimitive;
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result->impl.primitive = MAX(LeftOperandType->impl.primitive , RightOperandType->impl.primitive);
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@ -562,26 +592,28 @@ Type* createTypeFromOperands(Type* LeftOperandType, Type* RightOperandType, AST_
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free(result);
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return NULL;
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}
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DEBUG("Succsessfully created type");
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return result;
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}
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int createArithOperation(Expression* ParentExpression, AST_NODE_PTR currentNode, [[maybe_unused]] size_t expectedChildCount) {
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DEBUG("create arithmetic operation");
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ParentExpression->impl.operation.kind = Arithmetic;
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ParentExpression->impl.operation.nodePtr = currentNode;
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ParentExpression->impl.operation.operands = g_array_new(FALSE, FALSE,sizeof(Expression*));
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assert(expectedChildCount > currentNode->child_count);
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assert(expectedChildCount == currentNode->child_count);
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for (size_t i = 0; i < currentNode->child_count; i++) {
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Expression* expression = createExpression(currentNode->children[i]);
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if(NULL == expression) {
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return SEMANTIC_OK;
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return SEMANTIC_ERROR;
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}
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g_array_append_val(ParentExpression->impl.operation.operands, expression);
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}
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DEBUG("created all Expressions");
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switch (currentNode->kind) {
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case AST_Add:
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ParentExpression->impl.operation.impl.arithmetic = Add;
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@ -604,7 +636,8 @@ int createArithOperation(Expression* ParentExpression, AST_NODE_PTR currentNode,
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}
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if (ParentExpression->impl.operation.impl.arithmetic == Negate) {
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Type* result = ((Expression**) ParentExpression->impl.operation.operands->data)[0]->result;
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Type* result = g_array_index(ParentExpression->impl.operation.operands,Expression *,0)->result;
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result->nodePtr = currentNode;
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if (result->kind == TypeKindReference || result->kind == TypeKindBox) {
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@ -616,9 +649,8 @@ int createArithOperation(Expression* ParentExpression, AST_NODE_PTR currentNode,
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ParentExpression->result = result;
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} else {
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Type* LeftOperandType = ((Expression**) ParentExpression->impl.operation.operands->data)[0]->result;
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Type* RightOperandType = ((Expression**) ParentExpression->impl.operation.operands->data)[1]->result;
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Type* LeftOperandType = g_array_index(ParentExpression->impl.operation.operands,Expression *,0)->result;
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Type* RightOperandType = g_array_index(ParentExpression->impl.operation.operands,Expression *,1)->result;
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ParentExpression->result = createTypeFromOperands(LeftOperandType, RightOperandType, currentNode);
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}
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@ -634,7 +666,7 @@ int createRelationalOperation(Expression* ParentExpression, AST_NODE_PTR current
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// fill kind and Nodeptr
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ParentExpression->impl.operation.kind = Relational;
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ParentExpression->impl.operation.nodePtr = currentNode;
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ParentExpression->impl.operation.operands = g_array_new(FALSE,FALSE,sizeof(Expression*));
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// fill Operands
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for (size_t i = 0; i < currentNode->child_count; i++) {
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Expression* expression = createExpression(currentNode->children[i]);
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@ -1045,6 +1077,7 @@ int createBoxAccess(Expression* ParentExpression,AST_NODE_PTR currentNode) {
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}
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int createTypeCast(Expression* ParentExpression, AST_NODE_PTR currentNode){
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DEBUG("create type cast");
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ParentExpression->impl.typecast.nodePtr = currentNode;
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ParentExpression->impl.typecast.operand = createExpression(currentNode->children[0]);
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@ -1060,7 +1093,6 @@ int createTypeCast(Expression* ParentExpression, AST_NODE_PTR currentNode){
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}
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ParentExpression->impl.typecast.targetType = target;
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ParentExpression->result = target;
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return SEMANTIC_OK;
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}
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@ -1106,8 +1138,9 @@ Expression *createExpression(AST_NODE_PTR currentNode){
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expression->result = expression->impl.constant.type;
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break;
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case AST_Ident:
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DEBUG("find var");
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expression->kind = ExpressionKindVariable;
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int status = getVariableFromScope(currentNode->value, &expression->impl.variable );
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int status = getVariableFromScope(currentNode->value, &(expression->impl.variable) );
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if(status == SEMANTIC_ERROR){
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DEBUG("Identifier is not in current scope");
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print_diagnostic(current_file, ¤tNode->location, Error, "Variable not found");
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@ -1116,6 +1149,7 @@ Expression *createExpression(AST_NODE_PTR currentNode){
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switch (expression->impl.variable->kind) {
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case VariableKindDeclaration:
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expression->result = expression->impl.variable->impl.declaration.type;
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DEBUG("%d",expression->impl.variable->impl.declaration.type->kind );
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break;
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case VariableKindDefinition:
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expression->result = expression->impl.variable->impl.definiton.declaration.type;
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@ -1200,11 +1234,15 @@ Expression *createExpression(AST_NODE_PTR currentNode){
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PANIC("Node is not an expression but from kind: %i", currentNode->kind);
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break;
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}
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DEBUG("expression result typekind: %d",expression->result->kind);
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DEBUG("successfully created Expression");
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return expression;
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}
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int createAssign(Statement* ParentStatement, AST_NODE_PTR currentNode){
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DEBUG("create Assign");
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Assignment assign;
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assign.nodePtr = currentNode;
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const char* varName = currentNode->children[0]->value;
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@ -1220,20 +1258,20 @@ Expression *createExpression(AST_NODE_PTR currentNode){
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}
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ParentStatement->impl.assignment = assign;
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return SEMANTIC_ERROR;
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return SEMANTIC_OK;
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}
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int createStatement(Block * block, AST_NODE_PTR currentNode);
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int fillBlock(Block * block,AST_NODE_PTR currentNode){
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DEBUG("start filling Block");
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block->nodePtr = currentNode;
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block->statemnts = g_array_new(FALSE,FALSE,sizeof(Statement*));
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GHashTable * lowerScope = g_hash_table_new(g_str_hash,g_str_equal);
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g_array_append_val(Scope, lowerScope);
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for(size_t i = 0; i < currentNode->child_count; i++){
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int signal = createStatement(block, currentNode->children[i]);
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int signal = createStatement(block, AST_get_node(currentNode, i));
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if(signal){
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return SEMANTIC_ERROR;
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}
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@ -1247,8 +1285,8 @@ int fillBlock(Block * block,AST_NODE_PTR currentNode){
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}
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int createWhile(Statement * ParentStatement, AST_NODE_PTR currentNode){
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assert(ParentStatement == NULL);
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assert(currentNode == NULL);
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assert(ParentStatement != NULL);
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assert(currentNode != NULL);
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assert(currentNode->kind == AST_While);
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While whileStruct;
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@ -1438,24 +1476,23 @@ int createStatement(Block * Parentblock , AST_NODE_PTR currentNode){
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int createParam(GArray * Paramlist ,AST_NODE_PTR currentNode){
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assert(currentNode->kind == AST_Parameter);
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DEBUG("start param");
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DEBUG("current node child count: %i",currentNode->kind);
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if( currentNode->kind == AST_Parameter){
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DEBUG("current n");
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}
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DEBUG("current node child count: %i",currentNode->child_count);
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AST_NODE_PTR paramdecl = currentNode->children[1];
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AST_NODE_PTR ioQualifierList = currentNode->children[0];
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ParameterDeclaration decl;
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decl.nodePtr = paramdecl;
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DEBUG("paramnode child count: %i", ioQualifierList->child_count );
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DEBUG("iolistnode child count: %i", ioQualifierList->child_count );
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if(ioQualifierList->child_count == 2){
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decl.qualifier = InOut;
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}else if(ioQualifierList->child_count == 1){
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if(strcmp(ioQualifierList->children[0]->value , "in")){
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if(strcmp(ioQualifierList->children[0]->value , "in") == 0){
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decl.qualifier = In;
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}else if(strcmp(ioQualifierList->children[0]->value , "out")){
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}else if(strcmp(ioQualifierList->children[0]->value , "out") == 0){
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decl.qualifier = Out;
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}else{
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PANIC("IO_Qualifier is not in or out");
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@ -1464,19 +1501,35 @@ int createParam(GArray * Paramlist ,AST_NODE_PTR currentNode){
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PANIC("IO_Qualifier has not the right amount of children");
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}
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int signal = get_type_impl(paramdecl->children[0],&decl.type);
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int signal = get_type_impl(paramdecl->children[0], &(decl.type));
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if(signal){
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return SEMANTIC_ERROR;
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}
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Parameter param;
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param.nodePtr = currentNode;
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param.kind = ParameterDeclarationKind;
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param.impl.declaration = decl;
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param.name = paramdecl->children[1]->value;
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g_array_append_val(Paramlist,param);
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DEBUG("param name: %s", param.name);
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g_array_append_val(Paramlist, param);
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DEBUG("create var for param");
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Variable * paramvar = malloc(sizeof(Variable));
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paramvar->kind = VariableKindDeclaration;
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paramvar->name = param.name;
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paramvar->nodePtr = currentNode;
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paramvar->impl.declaration.nodePtr = currentNode;
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paramvar->impl.declaration.qualifier = Local;
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paramvar->impl.declaration.type = param.impl.declaration.type;
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if (g_hash_table_contains(functionParameter, param.name)){
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return SEMANTIC_ERROR;
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}
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g_hash_table_insert(functionParameter, (gpointer)param.name, paramvar);
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DEBUG("created param successfully");
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return SEMANTIC_OK;
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}
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@ -1495,26 +1548,29 @@ int createFunDef(Function * Parentfunction ,AST_NODE_PTR currentNode){
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fundef.nodePtr = currentNode;
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fundef.name = nameNode->value;
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fundef.body = malloc(sizeof(Block));
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fundef.parameter = malloc(sizeof(GArray));
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int signal = fillBlock(fundef.body, statementlist);
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if(signal){
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return SEMANTIC_ERROR;
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}
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fundef.parameter = g_array_new(FALSE, FALSE, sizeof(Parameter));
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DEBUG("paramlistlist child count: %i", paramlistlist->child_count);
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for(size_t i = 0; i < paramlistlist->child_count; i++){
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//all parameterlists
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AST_NODE_PTR paramlist = paramlistlist->children[i];
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DEBUG("paramlist child count: %i", paramlist->child_count);
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for (size_t j = 0; j < paramlist->child_count; j++){
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for (size_t j = 0; j < paramlistlist->child_count; j++){
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int signal = createParam(fundef.parameter ,paramlist->children[i]);
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DEBUG("param child count: %i", AST_get_node(paramlist, j)->child_count);
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int signal = createParam(fundef.parameter ,AST_get_node(paramlist, j));
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//all params per list
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if (signal){
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return SEMANTIC_ERROR;
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}
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}
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DEBUG("End of Paramlist");
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}
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int signal = fillBlock(fundef.body, statementlist);
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if(signal){
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return SEMANTIC_ERROR;
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}
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Parentfunction->nodePtr = currentNode;
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@ -1566,7 +1622,7 @@ int createFunDecl(Function * Parentfunction ,AST_NODE_PTR currentNode){
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int createFunction(GHashTable* functions, AST_NODE_PTR currentNode){
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assert(currentNode->kind == AST_Fun);
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Function * fun = malloc(sizeof(Function));
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functionParameter = g_hash_table_new(g_str_hash,g_str_equal);
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if(currentNode->child_count == 2){
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int signal = createFunDecl(fun, currentNode);
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@ -1585,6 +1641,8 @@ int createFunction(GHashTable* functions, AST_NODE_PTR currentNode){
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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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return SEMANTIC_OK;
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}
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@ -1823,7 +1881,7 @@ Module *create_set(AST_NODE_PTR currentNode){
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}
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}
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DEBUG("created set successfully");
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return rootModule;
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}
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