def check_and_populate_args(self, arg_names, args, exec_ctx):
res = RTResult()
res.register(self.check_args(arg_names, args))
if res.should_return():
return res
self.populate_args(arg_names, args, exec_ctx)
return res.success(None)
def visit_WhileNode(self, node, context):
res = RTResult()
elements = []
while True:
condition = res.register(self.visit(node.condition_node, context))
if res.should_return():
return res
if not condition.is_true():
break
value = res.register(self.visit(node.body_node, context))
if res.should_return() and res.loop_should_continue == False and res.loop_should_break == False:
return res
if res.loop_should_continue:
continue
if res.loop_should_break:
break
elements.append(value)
return res.success(
Number.null if node.should_return_null else
List(elements).set_context(context).set_pos(
node.pos_start, node.pos_end)
)
def visit_VarAssignNode(self, node, context):
res = RTResult()
var_name = node.var_name_tok.value
value = res.register(self.visit(node.value_node, context))
if res.should_return():
return res
context.symbol_table.set(var_name, value)
return res.success(value)
def visit_DictNode(self, node, context):
res = RTResult()
elements = []
for element_node in node.element_nodes:
elements.append(res.register(self.visit(element_node, context)))
if res.should_return():
return res
return res.success(
Dictionary(elements).set_context(context).set_pos(
node.pos_start, node.pos_end)
)
def visit_FuncDefNode(self, node, context):
res = RTResult()
func_name = node.var_name_tok.value if node.var_name_tok else None
body_node = node.body_node
arg_names = [arg_name.value for arg_name in node.arg_name_toks]
func_value = Function(func_name, body_node, arg_names, node.should_auto_return).set_context(
context).set_pos(node.pos_start, node.pos_end)
if node.var_name_tok:
context.symbol_table.set(func_name, func_value)
return res.success(func_value)
def visit_IfNode(self, node, context):
res = RTResult()
for condition, expr, should_return_null in node.cases:
condition_value = res.register(self.visit(condition, context))
if res.should_return():
return res
if condition_value.is_true():
expr_value = res.register(self.visit(expr, context))
if res.should_return():
return res
return res.success(Number.null if should_return_null else expr_value)
if node.else_case:
expr, should_return_null = node.else_case
expr_value = res.register(self.visit(expr, context))
if res.should_return():
return res
return res.success(Number.null if should_return_null else expr_value)
return res.success(Number.null)
def visit_VarAccessNode(self, node, context):
res = RTResult()
var_name = node.var_name_tok.value
value = context.symbol_table.get(var_name)
if not value:
return res.failure(RTError(
node.pos_start, node.pos_end,
f"'{var_name}' is not defined",
context
))
value = value.copy().set_pos(node.pos_start, node.pos_end).set_context(context)
return res.success(value)
def visit_ForNode(self, node, context):
res = RTResult()
elements = []
start_value = res.register(self.visit(node.start_value_node, context))
if res.should_return():
return res
end_value = res.register(self.visit(node.end_value_node, context))
if res.should_return():
return res
if node.step_value_node:
step_value = res.register(
self.visit(node.step_value_node, context))
if res.should_return():
return res
else:
step_value = Number(1)
i = start_value.value
if step_value.value >= 0:
def condition(): return i < end_value.value
else:
def condition(): return i > end_value.value
while condition():
context.symbol_table.set(node.var_name_tok.value, Number(i))
i += step_value.value
value = res.register(self.visit(node.body_node, context))
if res.should_return() and res.loop_should_continue == False and res.loop_should_break == False:
return res
if res.loop_should_continue:
continue
if res.loop_should_break:
break
elements.append(value)
return res.success(
Number.null if node.should_return_null else
List(elements).set_context(context).set_pos(
node.pos_start, node.pos_end)
)
def execute(self, args):
res = RTResult()
exec_ctx = self.generate_new_context()
method_name = f'execute_{self.name}'
method = getattr(self, method_name, self.no_visit_method)
res.register(
self.check_and_populate_args(method.arg_names, args, exec_ctx))
if res.should_return():
return res
return_value = res.register(method(exec_ctx))
if res.should_return():
return res
return res.success(return_value)
def execute(self, args):
res = RTResult()
interpreter = Interpreter()
exec_ctx = self.generate_new_context()
res.register(
self.check_and_populate_args(self.arg_names, args, exec_ctx))
if res.should_return():
return res
value = res.register(interpreter.visit(self.body_node, exec_ctx))
if res.should_return() and res.func_return_value == None:
return res
ret_value = (value if self.should_auto_return else
None) or res.func_return_value or Number.null
return res.success(ret_value)
def visit_UnaryOpNode(self, node, context):
res = RTResult()
number = res.register(self.visit(node.node, context))
if res.should_return():
return res
error = None
if node.op_tok.type == TT_MINUS:
number, error = number.multed_by(Number(-1))
elif node.op_tok.matches(TT_KEYWORD, 'not'):
number, error = number.notted()
if error:
return res.failure(error)
else:
return res.success(number.set_pos(node.pos_start, node.pos_end))
def check_args(self, arg_names, args):
res = RTResult()
if len(args) > len(arg_names):
return res.failure(
RTError(
self.pos_start, self.pos_end,
f"{len(args) - len(arg_names)} too many args passed into {self}",
self.context))
if len(args) < len(arg_names):
return res.failure(
RTError(
self.pos_start, self.pos_end,
f"{len(arg_names) - len(args)} too few args passed into {self}",
self.context))
return res.success(None)
def visit_CallNode(self, node, context):
res = RTResult()
args = []
value_to_call = res.register(self.visit(node.node_to_call, context))
if res.should_return():
return res
value_to_call = value_to_call.copy().set_pos(node.pos_start, node.pos_end)
for arg_node in node.arg_nodes:
args.append(res.register(self.visit(arg_node, context)))
if res.should_return():
return res
return_value = res.register(value_to_call.execute(args))
if res.should_return():
return res
return_value = return_value.copy().set_pos(
node.pos_start, node.pos_end).set_context(context)
return res.success(return_value)
def visit_BinOpNode(self, node, context):
res = RTResult()
left = res.register(self.visit(node.left_node, context))
if res.should_return():
return res
right = res.register(self.visit(node.right_node, context))
if res.should_return():
return res
if node.op_tok.type == TT_PLUS:
result, error = left.added_to(right)
elif node.op_tok.type == TT_MINUS:
result, error = left.subbed_by(right)
elif node.op_tok.type == TT_MUL:
result, error = left.multed_by(right)
elif node.op_tok.type == TT_DIV:
result, error = left.dived_by(right)
elif node.op_tok.type == TT_POW:
result, error = left.powed_by(right)
elif node.op_tok.type == TT_EE:
result, error = left.get_comparison_eq(right)
elif node.op_tok.type == TT_NE:
result, error = left.get_comparison_ne(right)
elif node.op_tok.type == TT_LT:
result, error = left.get_comparison_lt(right)
elif node.op_tok.type == TT_GT:
result, error = left.get_comparison_gt(right)
elif node.op_tok.type == TT_LTE:
result, error = left.get_comparison_lte(right)
elif node.op_tok.type == TT_GTE:
result, error = left.get_comparison_gte(right)
elif node.op_tok.matches(TT_KEYWORD, 'and'):
result, error = left.anded_by(right)
elif node.op_tok.matches(TT_KEYWORD, 'or'):
result, error = left.ored_by(right)
if error:
return res.failure(error)
else:
return res.success(result.set_pos(node.pos_start, node.pos_end))