def visit(self, node, scope): left_infered = node.left.inferenced_type #.clone() right_infered = node.right.inferenced_type #.clone() self.visit(node.left, scope) self.visit(node.right, scope) new_left = node.left.inferenced_type new_right = node.right.inferenced_type int_type = self.context.get_type("Int") if not equal(left_infered, new_left): left_clone = new_left.clone() if not conforms(left_infered, int_type): self.add_error( node.left, f"Type Error: Arithmetic Error: Left member type({left_clone.name}) does not conforms to Int type." ) if not equal(right_infered, new_right): right_clone = new_left.clone() if not conforms(right_infered, int_type): self.add_error( node.right, f"Type Error: Arithmetic Error: Right member type({right_clone.name}) does not conforms to Int type." )
def visit(self, node, scope): left_infered = node.left.inferenced_type #.clone() right_infered = node.right.inferenced_type #.clone() self.visit(node.left, scope) self.visit(node.right, scope) new_left = node.left.inferenced_type new_right = node.right.inferenced_type left_clone = new_left.clone() right_clone = new_right.clone() if equal(left_infered, new_left) and equal(right_infered, new_right): return if not conforms(left_clone, new_right) and not conforms( right_clone, new_left): self.add_error( node, f"Type Error: Left expression type({new_left.name}) does not conforms to right expression type({new_right.name})" )
def visit(self, node, scope): expr_infered = node.expr.inferenced_type #.clone() self.visit(node.expr, scope) new_expr = node.expr.inferenced_type expr_clone = new_expr.clone() int_type = self.context.get_type("Int") if equal(expr_infered, new_expr): return if not conforms(new_expr, int_type): self.add_error( node.value, f"Type Error: Not's expresion type({expr_clone.name} does not conforms to Int type" )
def visit(self, node, scope: Scope): if not node.expr: return expr_infered = node.expr.inferenced_type.clone() self.visit(node.expr, scope) new_expr_inferred = node.expr.inferenced_type if equal(expr_infered, new_expr_inferred): return node_infered = node.inferenced_type new_clone_infered = new_expr_inferred.clone() if not conforms(new_expr_inferred, node_infered): self.add_error( node, f"Semantic Error: Variable \'{node.id}\' expression type({new_clone_infered.name}) does not conforms to declared type({node_infered.name})." )
def visit(self, node, scope): if not node.expr: return node_infered = node.inferenced_type expr_infered = node.expr.inferenced_type.clone() self.visit(node.expr, scope) new_expr_infered = node.expr.inferenced_type if equal(expr_infered, new_expr_infered): return new_clone_inferred = new_expr_infered.clone() if not conforms(new_expr_infered, node_infered): self.add_error( node, f"Type Error: In class '{self.current_type.name}' attribue '{node.id}' expression type({new_clone_inferred.name}) does not conforms to declared type ({node_infered.name})." )
def visit(self, node, scope: Scope): if not node.defined and node.id != "self": return expr_infered = node.expr.inferenced_type.clone() self.visit(node.expr, scope) new_expr_infered = node.expr.inferenced_type if equal(expr_infered, new_expr_infered): return var_type = scope.find_variable(node.id).type new_clone_infered = new_expr_infered.clone() if not conforms(new_expr_infered, var_type): self.add_error( node, f"Type Error: Cannot assign new value to variable '{node.id}'. Expression type({new_clone_infered.name}) does not conforms to declared type ({var_type.name})." ) var_type = ErrorType() node.inferenced_type = var_type
def visit(self, node, scopex: Scope): scope = scopex.next_child() ret_type_infered = node.body.inferenced_type.clone() self.visit(node.body, scope) new_type_infered = node.body.inferenced_type if equal(ret_type_infered, new_type_infered): return current_method = self.current_type.get_method(node.id) ret_type_decl = current_method.return_type.swap_self_type( self.current_type) new_clone_infered = new_type_infered.clone() if not conforms(new_type_infered, ret_type_decl): self.add_error( node, f"Type Error: In Class \'{self.current_type.name}\' method \'{current_method.name}\' return expression type({new_clone_infered.name}) does not conforms to declared return type ({ret_type_decl.name})" ) ret_type_expr = ErrorType() node.inferenced_type = ret_type_expr ret_type_decl.swap_self_type(self.current_type, back=True)
def visit(self, node, scope): caller = node.inferenced_caller if node.type and node.expr: bridge_infered = node.expr.inferenced_type.clone() self.visit(node.expr, scope) bridge = node.expr.inferenced_type if not equal(bridge_infered, bridge): bridge_clone = bridge.clone() if not conforms(bridge, caller): self.add_error( node, f"Semantic Error: Cannot effect dispatch because expression type({bridge_clone.name}) does not conforms to caller type({caller.name})." ) caller = ErrorType() elif node.expr: self.visit(node.expr, scope) caller = node.expr.inferenced_type if len(caller.type_set) > 1: methods_by_name = self.context.get_method_by_name( node.id, len(node.args)) types = [typex for _, typex in methods_by_name] conforms(caller, TypeBag(set(types), types)) if len(caller.heads) > 1: error = f"Semantic Error: Method \"{node.id}\" found in {len(caller.heads)} unrelated types:\n" error += " -Found in: " error += ", ".join(typex.name for typex in caller.heads) self.add_error(node, error) caller = ErrorType() elif len(caller.heads) == 0: self.add_error( node, f"There is no method called {node.id} which takes {len(node.args)} paramters." ) caller = ErrorType() if len(caller.heads) == 1: caller_type = caller.heads[0] method = caller_type.get_method(node.id) if len(node.args) != len(method.param_types): self.add_error( node, f"Semantic Error: Method '{node.id}' from class '{caller_type.name}' takes {len(node.args)} arguments but {method.param_types} were given.'" ) node.inferenced_type = ErrorType() decl_return_type = method.return_type.clone() decl_return_type.swap_self_type(caller_type) type_set = set() heads = [] type_set = smart_add(type_set, heads, decl_return_type) for i in range(len(node.args)): arg = node.args[i] p_type = method.param_types[i] arg_infered = arg.inferenced_type.clone() self.visit(arg, scope) new_arg_infered = arg.inferenced_type new_clone_infered = new_arg_infered.clone() if not conforms(new_arg_infered, p_type): self.add_error( node.arg, f"Type Error: Argument expression type ({new_clone_infered.name}) does not conforms parameter declared type({p_type.name})" ) node.inferenced_type = TypeBag(type_set, heads) else: node.inferenced_type = ErrorType() node.inferenced_caller = caller