def visit(self, node, scope=None): scope = Scope() self.current_function = self.register_function('main') instance = self.define_internal_local(scope=scope, name="instance") result = self.define_internal_local(scope=scope, name="result") self.register_instruction( cil.AllocateNode('Main', self.context.get_type('Main').tag, instance)) self.register_instruction( cil.CallNode(result, 'Main_init', [cil.ArgNode(instance)], "Main")) self.register_instruction( cil.CallNode(result, self.to_function_name('main', 'Main'), [cil.ArgNode(instance)], "Main")) self.register_instruction(cil.ReturnNode(None)) self.current_function = None self.register_data('Abort called from class ') self.register_data('\n') self.dotdata['empty_str'] = '' # Add built-in types in .TYPES section self.define_built_in(scope) # Add string equals function self.build_string_equals_function(scope) for declaration in node.declarations: self.visit(declaration, scope.create_child()) return cil.ProgramNode(self.dottypes, self.dotdata, self.dotcode)
def visit(self, node, scope): result_local = self.define_internal_local(scope=scope, name="result") op_local = self.define_internal_local(scope=scope, name="op") left_local = self.define_internal_local(scope=scope, name="left") right_local = self.define_internal_local(scope=scope, name="right") left_value = self.visit(node.lvalue, scope) right_value = self.visit(node.rvalue, scope) if node.lvalue.computed_type.name == 'String': self.register_instruction( cil.CallNode( op_local, 'String_equals', [cil.ArgNode(right_value), cil.ArgNode(left_value)], 'String')) # Allocate Bool result self.register_instruction( cil.AllocateNode('Bool', self.context.get_type('Bool').tag, result_local)) result_init = self.define_internal_local(scope=scope, name="result_init") self.register_instruction( cil.CallNode( result_init, 'Bool_init', [cil.ArgNode(op_local), cil.ArgNode(result_local)], "Bool")) return result_local elif node.lvalue.computed_type.name in ['Int', 'Bool']: self.register_instruction( cil.GetAttrNode(left_local, left_value, "value", node.lvalue.computed_type.name)) self.register_instruction( cil.GetAttrNode(right_local, right_value, "value", node.rvalue.computed_type.name)) else: self.register_instruction(cil.AssignNode(left_local, left_value)) self.register_instruction(cil.AssignNode(right_local, right_value)) self.register_instruction( cil.BinaryOperationNode(op_local, left_local, right_local, "=")) # Allocate Bool result self.register_instruction( cil.AllocateNode('Bool', self.context.get_type('Bool').tag, result_local)) result_init = self.define_internal_local(scope=scope, name="result_init") self.register_instruction( cil.CallNode(result_init, 'Bool_init', [cil.ArgNode(op_local), cil.ArgNode(result_local)], "Bool")) return result_local
def visit(self, node, scope): if not node.expr is None: expr_value = self.visit(node.expr, scope) let_var = self.define_internal_local(scope=scope, name=node.id, cool_var=node.id) self.register_instruction(cil.AssignNode(let_var, expr_value)) else: instance = None if node.type in ['Int', 'Bool']: instance = self.define_internal_local(scope=scope, name="instance") self.register_instruction( cil.AllocateNode(node.type, self.context.get_type(node.type).tag, instance)) value = self.define_internal_local(scope=scope, name="value") self.register_instruction(cil.LoadIntNode(0, value)) result_init = self.define_internal_local(scope=scope, name="result_init") self.register_instruction( cil.CallNode(result_init, f'{node.type}_init', [cil.ArgNode(value), cil.ArgNode(instance)], node.type)) elif node.type == 'String': instance = self.define_internal_local(scope=scope, name="instance") self.register_instruction( cil.AllocateNode(node.type, self.context.get_type(node.type).tag, instance)) value = self.define_internal_local(scope=scope, name="value") self.register_instruction( cil.LoadStringNode('empty_str', value)) result_init = self.define_internal_local(scope=scope, name="result_init") self.register_instruction( cil.CallNode(result_init, f'{node.type}_init', [cil.ArgNode(value), cil.ArgNode(instance)], node.type)) let_var = self.define_internal_local(scope=scope, name=node.id, cool_var=node.id) self.register_instruction(cil.AssignNode(let_var, instance)) return let_var
def visit(self, node, scope): result_local = self.define_internal_local(scope=scope, name="result") op_local = self.define_internal_local(scope=scope, name="op") expr_local = self.define_internal_local(scope=scope) expr_value = self.visit(node.expr, scope) self.register_instruction( cil.GetAttrNode(expr_local, expr_value, "value", node.expr.computed_type.name)) self.register_instruction( cil.UnaryOperationNode(op_local, expr_local, "not")) # Allocate Bool result self.register_instruction( cil.AllocateNode('Bool', self.context.get_type('Bool').tag, result_local)) result_init = self.define_internal_local(scope=scope, name="result_init") self.register_instruction( cil.CallNode(result_init, 'Bool_init', [cil.ArgNode(op_local), cil.ArgNode(result_local)], "Bool")) return result_local
def visit(self, node, scope): result_local = self.define_internal_local(scope=scope, name="result") op_local = self.define_internal_local(scope=scope, name="op") left_local = self.define_internal_local(scope=scope, name="left") right_local = self.define_internal_local(scope=scope, name="right") left_value = self.visit(node.lvalue, scope) right_value = self.visit(node.rvalue, scope) self.register_instruction( cil.GetAttrNode(left_local, left_value, "value", node.lvalue.computed_type.name)) self.register_instruction( cil.GetAttrNode(right_local, right_value, "value", node.rvalue.computed_type.name)) self.register_instruction( cil.BinaryOperationNode(op_local, left_local, right_local, "/")) # Allocate Int result self.register_instruction( cil.AllocateNode('Int', self.context.get_type('Int').tag, result_local)) result_init = self.define_internal_local(scope=scope, name="result_init") self.register_instruction( cil.CallNode(result_init, 'Int_init', [cil.ArgNode(op_local), cil.ArgNode(result_local)], "Int")) return result_local
def visit(self, node, scope): result_local = self.define_internal_local(scope=scope, name="result") result_init = self.define_internal_local(scope=scope, name="init") if node.id == "SELF_TYPE": self.register_instruction( cil.AllocateNode(self.current_type.name, self.current_type.tag, result_local)) self.register_instruction( cil.CallNode(result_init, f'{self.current_type.name}_init', [result_local], self.current_type.name)) else: self.register_instruction( cil.AllocateNode(node.id, self.context.get_type(node.id).tag, result_local)) self.register_instruction( cil.CallNode(result_init, f'{node.id}_init', [cil.ArgNode(result_local)], self.current_type.name)) return result_local
def visit(self, node, scope): instance = self.define_internal_local(scope=scope, name="instance") self.register_instruction( cil.AllocateNode('Int', self.context.get_type('Int').tag, instance)) value = self.define_internal_local(scope=scope, name="value") self.register_instruction(cil.LoadIntNode(node.id, value)) result_init = self.define_internal_local(scope=scope, name="result_init") self.register_instruction( cil.CallNode( result_init, 'Int_init', [cil.ArgNode(value), cil.ArgNode(instance)], "Int")) return instance
def visit(self, node, scope): expr_value = self.visit(node.expr, scope) result_local = self.define_internal_local(scope=scope, name="isvoid_result") self.register_instruction(cil.IsVoidNode(result_local, expr_value)) instance = self.define_internal_local(scope=scope, name="instance") self.register_instruction( cil.AllocateNode('Bool', self.context.get_type('Bool').tag, instance)) result_init = self.define_internal_local(scope=scope, name="result_init") self.register_instruction( cil.CallNode(result_init, 'Bool_init', [cil.ArgNode(result_local), cil.ArgNode(instance)], "Bool")) return instance
def visit(self, node, scope): boolean = 0 if str(node.id) == "true": boolean = 1 instance = self.define_internal_local(scope=scope, name="instance") self.register_instruction( cil.AllocateNode('Bool', self.context.get_type('Bool').tag, instance)) value = self.define_internal_local(scope=scope, name="value") self.register_instruction(cil.LoadIntNode(boolean, value)) result_init = self.define_internal_local(scope=scope, name="result_init") self.register_instruction( cil.CallNode( result_init, 'Bool_init', [cil.ArgNode(value), cil.ArgNode(instance)], "Bool")) return instance
def visit(self, node, scope): self.current_type = self.context.get_type(node.id) # Handle all the .TYPE section cil_type = self.register_type(self.current_type.name) cil_type.attributes = [ f'{attr.name}' for c, attr in self.current_type.get_all_attributes() ] cil_type.methods = { f'{m}': f'{c}.{m}' for c, m in self.current_type.get_all_methods() } scope.define_cil_local("self", self.current_type.name, self.current_type) func_declarations = [ f for f in node.features if isinstance(f, FuncDeclarationNode) ] attr_declarations = [ a for a in node.features if isinstance(a, AttrDeclarationNode) ] for attr in attr_declarations: scope.define_cil_local(attr.id, attr.id, node.id) # -------------------------Init--------------------------------- self.current_function = self.register_function(f'{node.id}_init') self.register_param(VariableInfo('self', None)) # Init parents recursively result = self.define_internal_local(scope=scope, name="result") self.register_instruction( cil.CallNode(result, f'{node.parent}_init', [cil.ArgNode('self')], node.parent)) self.register_instruction(cil.ReturnNode(None)) for attr in attr_declarations: self.visit(attr, scope) # --------------------------------------------------------------- self.current_function = None for func in func_declarations: self.visit(func, scope.create_child()) self.current_type = None
def visit(self, node, scope): str_name = "" for s in self.dotdata.keys(): if self.dotdata[s] == node.id: str_name = s break if str_name == "": str_name = self.register_data(node.id) result_local = self.define_internal_local(scope=scope) self.register_instruction(cil.LoadStringNode(str_name, result_local)) instance = self.define_internal_local(scope=scope, name="instance") self.register_instruction( cil.AllocateNode('String', self.context.get_type('String').tag, instance)) result_init = self.define_internal_local(scope=scope, name="result_init") self.register_instruction( cil.CallNode(result_init, 'String_init', [cil.ArgNode(result_local), cil.ArgNode(instance)], "String")) return instance
def define_built_in(self, scope): for t in ['Object', 'Int', 'String', 'Bool', 'IO']: builtin_type = self.context.get_type(t) cil_type = self.register_type(t) cil_type.attributes = [ f'{attr}' for attr in builtin_type.attributes] cil_type.methods = {f'{m}': f'{c}.{m}' for c, m in builtin_type.get_all_methods()} if t in ['Int', 'String', 'Bool']: cil_type.attributes.append('value') # ----------------Object--------------------- # init self.current_function = self.register_function('Object_init') self.register_param(VariableInfo('self', None)) self.register_instruction(cil.ReturnNode(None)) # abort self.current_function = self.register_function( self.to_function_name('abort', 'Object')) self.register_param(VariableInfo('self', None)) msg = self.define_internal_local(scope=scope, name="msg") key_msg = '' for s in self.dotdata.keys(): if self.dotdata[s] == 'Abort called from class ': key_msg = s self.register_instruction(cil.LoadStringNode(key_msg, msg)) self.register_instruction(cil.PrintStringNode(msg)) type_name = self.define_internal_local(scope=scope, name="type_name") self.register_instruction(cil.TypeOfNode('self', type_name)) self.register_instruction(cil.PrintStringNode(type_name)) eol_local = self.define_internal_local(scope=scope, name="eol") for s in self.dotdata.keys(): if self.dotdata[s] == '\n': eol = s self.register_instruction(cil.LoadStringNode(eol, eol_local)) self.register_instruction(cil.PrintStringNode(eol_local)) self.register_instruction(cil.HaltNode()) # type_name self.current_function = self.register_function( self.to_function_name('type_name', 'Object')) self.register_param(VariableInfo('self', None)) type_name = self.define_internal_local(scope=scope, name="type_name") self.register_instruction(cil.TypeOfNode('self', type_name)) instance = self.define_internal_local(scope=scope, name="instance") self.register_instruction(cil.AllocateNode( 'String', self.context.get_type('String').tag, instance)) result_init = self.define_internal_local( scope=scope, name="result_init") self.register_instruction(cil.CallNode(result_init, 'String_init', [ cil.ArgNode(type_name), cil.ArgNode(instance)], "String")) self.register_instruction(cil.ReturnNode(instance)) # copy self.current_function = self.register_function( self.to_function_name('copy', 'Object')) self.register_param(VariableInfo('self', None)) copy = self.define_internal_local(scope=scope, name="copy") self.register_instruction(cil.CopyNode('self', copy)) self.register_instruction(cil.ReturnNode(copy)) # ----------------IO--------------------- # init self.current_function = self.register_function('IO_init') self.register_param(VariableInfo('self', None)) self.register_instruction(cil.ReturnNode(None)) # out_string self.current_function = self.register_function( self.to_function_name('out_string', 'IO')) self.register_param(VariableInfo('self', None)) self.register_param(VariableInfo('x', None)) v = self.define_internal_local(scope=scope, name="v") self.register_instruction(cil.GetAttrNode(v, 'x', 'value', 'String')) self.register_instruction(cil.PrintStringNode(v)) self.register_instruction(cil.ReturnNode('self')) # out_int self.current_function = self.register_function( self.to_function_name('out_int', 'IO')) self.register_param(VariableInfo('self', None)) self.register_param(VariableInfo('x', None)) v = self.define_internal_local(scope=scope, name="v") self.register_instruction(cil.GetAttrNode(v, 'x', 'value', 'Int')) self.register_instruction(cil.PrintIntNode(v)) self.register_instruction(cil.ReturnNode('self')) # in_string self.current_function = self.register_function( self.to_function_name('in_string', 'IO')) self.register_param(VariableInfo('self', None)) msg = self.define_internal_local(scope=scope, name="read_str") self.register_instruction(cil.ReadStringNode(msg)) instance = self.define_internal_local(scope=scope, name="instance") self.register_instruction(cil.AllocateNode( 'String', self.context.get_type('String').tag, instance)) result_init = self.define_internal_local( scope=scope, name="result_init") self.register_instruction(cil.CallNode(result_init, 'String_init', [ cil.ArgNode(msg), cil.ArgNode(instance)], "String")) self.register_instruction(cil.ReturnNode(instance)) # in_int self.current_function = self.register_function( self.to_function_name('in_int', 'IO')) self.register_param(VariableInfo('self', None)) number = self.define_internal_local(scope=scope, name="read_int") self.register_instruction(cil.ReadIntNode(number)) instance = self.define_internal_local(scope=scope, name="instance") self.register_instruction(cil.AllocateNode( 'Int', self.context.get_type('Int').tag, instance)) result_init = self.define_internal_local( scope=scope, name="result_init") self.register_instruction(cil.CallNode(result_init, 'Int_init', [ cil.ArgNode(number), cil.ArgNode(instance)], "Int")) self.register_instruction(cil.ReturnNode(instance)) # ----------------String--------------------- # init self.current_function = self.register_function('String_init') self.register_param(VariableInfo('self', None)) self.register_param(VariableInfo('v', None)) self.register_instruction( cil.SetAttrNode('self', 'value', 'v', 'String')) self.register_instruction(cil.ReturnNode(None)) # length self.current_function = self.register_function( self.to_function_name('length', 'String')) self.register_param(VariableInfo('self', None)) length_result = self.define_internal_local(scope=scope, name="length") self.register_instruction(cil.LengthNode('self', length_result)) instance = self.define_internal_local(scope=scope, name="instance") self.register_instruction(cil.AllocateNode( 'Int', self.context.get_type('Int').tag, instance)) result_init = self.define_internal_local( scope=scope, name="result_init") self.register_instruction(cil.CallNode(result_init, 'Int_init', [ cil.ArgNode(length_result), cil.ArgNode(instance)], "Int")) self.register_instruction(cil.ReturnNode(instance)) # concat self.current_function = self.register_function( self.to_function_name('concat', 'String')) self.register_param(VariableInfo('self', None)) self.register_param(VariableInfo('s', None)) str1 = self.define_internal_local(scope=scope, name="str1") self.register_instruction(cil.GetAttrNode( str1, 'self', 'value', 'String')) len1 = self.define_internal_local(scope=scope, name="len1") self.register_instruction(cil.CallNode( len1, 'String.length', [cil.ArgNode('self')], 'String')) str2 = self.define_internal_local(scope=scope, name="str2") self.register_instruction( cil.GetAttrNode(str2, 's', 'value', 'String')) len2 = self.define_internal_local(scope=scope, name="len2") self.register_instruction(cil.CallNode( len2, 'String.length', [cil.ArgNode('s')], 'String')) local_len1 = self.define_internal_local(scope=scope, name="local_len1") self.register_instruction(cil.GetAttrNode( local_len1, len1, 'value', 'Int')) local_len2 = self.define_internal_local(scope=scope, name="local_len2") self.register_instruction(cil.GetAttrNode( local_len2, len2, 'value', 'Int')) concat_result = self.define_internal_local(scope=scope, name="concat") self.register_instruction(cil.ConcatNode( str1, local_len1, str2, local_len2, concat_result)) instance = self.define_internal_local(scope=scope, name="instance") self.register_instruction(cil.AllocateNode( 'String', self.context.get_type('String').tag, instance)) result_init = self.define_internal_local( scope=scope, name="result_init") self.register_instruction(cil.CallNode(result_init, 'String_init', [ cil.ArgNode(concat_result), cil.ArgNode(instance)], "String")) self.register_instruction(cil.ReturnNode(instance)) # substr self.current_function = self.register_function( self.to_function_name('substr', 'String')) self.register_param(VariableInfo('self', None)) self.register_param(VariableInfo('i', None)) self.register_param(VariableInfo('l', None)) i_value = self.define_internal_local(scope=scope, name="i_value") self.register_instruction( cil.GetAttrNode(i_value, 'i', 'value', 'Int')) l_value = self.define_internal_local(scope=scope, name="l_value") self.register_instruction( cil.GetAttrNode(l_value, 'l', 'value', 'Int')) subs_result = self.define_internal_local( scope=scope, name="subs_result") self.register_instruction(cil.SubStringNode( i_value, l_value, 'self', subs_result)) instance = self.define_internal_local(scope=scope, name="instance") self.register_instruction(cil.AllocateNode( 'String', self.context.get_type('String').tag, instance)) result_init = self.define_internal_local( scope=scope, name="result_init") self.register_instruction(cil.CallNode(result_init, 'String_init', [ cil.ArgNode(subs_result), cil.ArgNode(instance)], "String")) self.register_instruction(cil.ReturnNode(instance)) # ----------------Bool--------------------- # init self.current_function = self.register_function('Bool_init') self.register_param(VariableInfo('self', None)) self.register_param(VariableInfo('v', None)) self.register_instruction( cil.SetAttrNode('self', 'value', 'v', 'Bool')) self.register_instruction(cil.ReturnNode(None)) # ----------------Int--------------------- # init self.current_function = self.register_function('Int_init') self.register_param(VariableInfo('self', None)) self.register_param(VariableInfo('v', None)) self.register_instruction(cil.SetAttrNode('self', 'value', 'v', 'Int')) self.register_instruction(cil.ReturnNode(None))