Commit 77cbab3a authored by Stefan Behnel's avatar Stefan Behnel

merged fix for ticket #717 into master

parents 6bfb6480 847ef5d1
......@@ -3722,11 +3722,10 @@ class GeneralCallNode(CallNode):
# function ExprNode
# positional_args ExprNode Tuple of positional arguments
# keyword_args ExprNode or None Dict of keyword arguments
# starstar_arg ExprNode or None Dict of extra keyword args
type = py_object_type
subexprs = ['function', 'positional_args', 'keyword_args', 'starstar_arg']
subexprs = ['function', 'positional_args', 'keyword_args']
nogil_check = Node.gil_error
......@@ -3734,15 +3733,14 @@ class GeneralCallNode(CallNode):
function = self.function.compile_time_value(denv)
positional_args = self.positional_args.compile_time_value(denv)
keyword_args = self.keyword_args.compile_time_value(denv)
starstar_arg = self.starstar_arg.compile_time_value(denv)
try:
keyword_args.update(starstar_arg)
return function(*positional_args, **keyword_args)
except Exception, e:
self.compile_time_value_error(e)
def explicit_args_kwds(self):
if self.starstar_arg or not isinstance(self.positional_args, TupleNode):
if (self.keyword_args and not isinstance(self.keyword_args, DictNode) or
not isinstance(self.positional_args, TupleNode)):
raise CompileError(self.pos,
'Compile-time keyword arguments must be explicit.')
return self.positional_args.args, self.keyword_args
......@@ -3754,8 +3752,6 @@ class GeneralCallNode(CallNode):
self.positional_args.analyse_types(env)
if self.keyword_args:
self.keyword_args.analyse_types(env)
if self.starstar_arg:
self.starstar_arg.analyse_types(env)
if not self.function.type.is_pyobject:
if self.function.type.is_error:
self.type = error_type
......@@ -3766,9 +3762,6 @@ class GeneralCallNode(CallNode):
self.function = self.function.coerce_to_pyobject(env)
self.positional_args = \
self.positional_args.coerce_to_pyobject(env)
if self.starstar_arg:
self.starstar_arg = \
self.starstar_arg.coerce_to_pyobject(env)
function = self.function
if function.is_name and function.type_entry:
# We are calling an extension type constructor. As long
......@@ -3782,37 +3775,16 @@ class GeneralCallNode(CallNode):
def generate_result_code(self, code):
if self.type.is_error: return
kwargs_call_function = "PyEval_CallObjectWithKeywords"
if self.keyword_args and self.starstar_arg:
code.put_error_if_neg(self.pos,
"PyDict_Update(%s, %s)" % (
self.keyword_args.py_result(),
self.starstar_arg.py_result()))
keyword_code = self.keyword_args.py_result()
elif self.keyword_args:
keyword_code = self.keyword_args.py_result()
elif self.starstar_arg:
keyword_code = self.starstar_arg.py_result()
if self.starstar_arg.type is not Builtin.dict_type:
# CPython supports calling functions with non-dicts, so do we
code.globalstate.use_utility_code(kwargs_call_utility_code)
kwargs_call_function = "__Pyx_PyEval_CallObjectWithKeywords"
else:
keyword_code = None
if not keyword_code:
call_code = "PyObject_Call(%s, %s, NULL)" % (
self.function.py_result(),
self.positional_args.py_result())
if self.keyword_args:
kwargs = self.keyword_args.py_result()
else:
call_code = "%s(%s, %s, %s)" % (
kwargs_call_function,
self.function.py_result(),
self.positional_args.py_result(),
keyword_code)
kwargs = 'NULL'
code.putln(
"%s = %s; %s" % (
"%s = PyObject_Call(%s, %s, %s); %s" % (
self.result(),
call_code,
self.function.py_result(),
self.positional_args.py_result(),
kwargs,
code.error_goto_if_null(self.result(), self.pos)))
code.put_gotref(self.py_result())
......@@ -5280,6 +5252,7 @@ class DictItemNode(ExprNode):
def __iter__(self):
return iter([self.key, self.value])
class ModuleNameMixin(object):
def set_mod_name(self, env):
self.module_name = env.global_scope().qualified_name
......@@ -5372,36 +5345,66 @@ class Py3ClassNode(ExprNode):
code.put_gotref(self.py_result())
class KeywordArgsNode(ExprNode):
# Helper class for keyword arguments
# Helper class for keyword arguments.
#
# keyword_args ExprNode or None Keyword arguments
# starstar_arg ExprNode or None Extra arguments
# starstar_arg DictNode
# keyword_args [DictItemNode]
subexprs = ['keyword_args', 'starstar_arg']
subexprs = ['starstar_arg', 'keyword_args']
is_temp = 1
type = dict_type
def calculate_constant_result(self):
result = dict(self.starstar_arg.constant_result)
for item in self.keyword_args:
key, value = item.constant_result
if key in result:
raise ValueError("duplicate keyword argument found: %s" % key)
result[key] = value
self.constant_result = result
def compile_time_value(self, denv):
result = self.starstar_arg.compile_time_value(denv)
pairs = [ (item.key.compile_time_value(denv), item.value.compile_time_value(denv))
for item in self.keyword_args ]
try:
result = dict(result)
for key, value in pairs:
if key in result:
raise ValueError("duplicate keyword argument found: %s" % key)
result[key] = value
except Exception, e:
self.compile_time_value_error(e)
return result
def type_dependencies(self, env):
return ()
def infer_type(self, env):
return dict_type
def analyse_types(self, env):
if self.keyword_args:
self.keyword_args.analyse_types(env)
if self.starstar_arg:
self.starstar_arg.analyse_types(env)
# make sure we have a Python object as **kwargs mapping
self.starstar_arg = \
self.starstar_arg.coerce_to_pyobject(env)
self.type = py_object_type
self.is_temp = 1
self.starstar_arg = self.starstar_arg.coerce_to_pyobject(env).as_none_safe_node(
# FIXME: CPython's error message starts with the runtime function name
'argument after ** must be a mapping, not NoneType')
for item in self.keyword_args:
item.analyse_types(env)
def may_be_none(self):
return False
gil_message = "Constructing Keyword Args"
gil_message = "Constructing Python dict"
def generate_result_code(self, code):
if self.keyword_args and self.starstar_arg:
code.put_error_if_neg(self.pos,
"PyDict_Update(%s, %s)" % (
self.keyword_args.py_result(),
self.starstar_arg.py_result()))
def generate_evaluation_code(self, code):
code.mark_pos(self.pos)
self.allocate_temp_result(code)
self.starstar_arg.generate_evaluation_code(code)
if self.starstar_arg.type is not Builtin.dict_type:
# CPython supports calling functions with non-dicts, so do we
code.putln('if (likely(PyDict_Check(%s))) {' %
self.starstar_arg.py_result())
if self.keyword_args:
code.putln("%s = %s;" % (self.result(), self.keyword_args.result()))
code.put_incref(self.keyword_args.result(), self.keyword_args.ctype())
elif self.starstar_arg:
code.putln(
"%s = PyDict_Copy(%s); %s" % (
self.result(),
......@@ -5409,11 +5412,49 @@ class KeywordArgsNode(ExprNode):
code.error_goto_if_null(self.result(), self.pos)))
code.put_gotref(self.py_result())
else:
code.putln("%s = %s;" % (
self.result(),
self.starstar_arg.py_result()))
code.put_incref(self.result(), py_object_type)
if self.starstar_arg.type is not Builtin.dict_type:
code.putln('} else {')
code.putln(
"%s = PyDict_New(); %s" % (
"%s = PyObject_CallFunctionObjArgs("
"(PyObject*)&PyDict_Type, %s, NULL); %s" % (
self.result(),
self.starstar_arg.py_result(),
code.error_goto_if_null(self.result(), self.pos)))
code.put_gotref(self.py_result())
code.putln('}')
self.starstar_arg.generate_disposal_code(code)
self.starstar_arg.free_temps(code)
if not self.keyword_args:
return
code.globalstate.use_utility_code(Nodes.raise_double_keywords_utility_code)
for item in self.keyword_args:
item.generate_evaluation_code(code)
code.putln("if (unlikely(PyDict_GetItem(%s, %s))) {" % (
self.result(),
item.key.py_result()))
# FIXME: find out function name at runtime!
code.putln('__Pyx_RaiseDoubleKeywordsError("function", %s); %s' % (
item.key.py_result(),
code.error_goto(self.pos)))
code.putln("}")
code.put_error_if_neg(self.pos,
"PyDict_SetItem(%s, %s, %s)" % (
self.result(),
item.key.py_result(),
item.value.py_result()))
item.generate_disposal_code(code)
item.free_temps(code)
def annotate(self, code):
self.starstar_arg.annotate(code)
for item in self.keyword_args:
item.annotate(code)
class PyClassMetaclassNode(ExprNode):
# Helper class holds Python3 metaclass object
......
......@@ -3386,9 +3386,12 @@ class PyClassDefNode(ClassDefNode):
# find metaclass" dance at runtime
self.metaclass = item.value
del keyword_args.key_value_pairs[i]
if starstar_arg or (keyword_args and keyword_args.key_value_pairs):
if starstar_arg:
self.mkw = ExprNodes.KeywordArgsNode(
pos, keyword_args = keyword_args, starstar_arg = starstar_arg)
pos, keyword_args = keyword_args and keyword_args.key_value_pairs or [],
starstar_arg = starstar_arg)
elif keyword_args and keyword_args.key_value_pairs:
self.mkw = keyword_args
else:
self.mkw = ExprNodes.NullNode(pos)
if self.metaclass is None:
......
......@@ -1638,9 +1638,6 @@ class EarlyReplaceBuiltinCalls(Visitor.EnvTransform):
return node
if not isinstance(kwargs, ExprNodes.DictNode):
return node
if node.starstar_arg:
# we could optimize this by updating the kw dict instead
return node
return kwargs
......@@ -1663,11 +1660,13 @@ class OptimizeBuiltinCalls(Visitor.EnvTransform):
arg_tuple = node.positional_args
if not isinstance(arg_tuple, ExprNodes.TupleNode):
return node
if node.starstar_arg:
keyword_args = node.keyword_args
if keyword_args and not isinstance(keyword_args, ExprNodes.DictNode):
# can't handle **kwargs
return node
args = arg_tuple.args
return self._dispatch_to_handler(
node, function, args, node.keyword_args)
node, function, args, keyword_args)
def visit_SimpleCallNode(self, node):
self.visitchildren(node)
......
......@@ -440,7 +440,8 @@ def p_call_parse_args(s, allow_genexp = True):
s.expect(')')
return positional_args, keyword_args, star_arg, starstar_arg
def p_call_build_packed_args(pos, positional_args, keyword_args, star_arg):
def p_call_build_packed_args(pos, positional_args, keyword_args,
star_arg, starstar_arg=None):
arg_tuple = None
keyword_dict = None
if positional_args or not star_arg:
......@@ -454,11 +455,17 @@ def p_call_build_packed_args(pos, positional_args, keyword_args, star_arg):
operand2 = star_arg_tuple)
else:
arg_tuple = star_arg_tuple
if keyword_args:
if keyword_args or starstar_arg:
keyword_args = [ExprNodes.DictItemNode(pos=key.pos, key=key, value=value)
for key, value in keyword_args]
keyword_dict = ExprNodes.DictNode(pos,
key_value_pairs = keyword_args)
if starstar_arg:
keyword_dict = ExprNodes.KeywordArgsNode(
pos,
starstar_arg = starstar_arg,
keyword_args = keyword_args)
else:
keyword_dict = ExprNodes.DictNode(
pos, key_value_pairs = keyword_args)
return arg_tuple, keyword_dict
def p_call(s, function):
......@@ -474,12 +481,11 @@ def p_call(s, function):
args = positional_args)
else:
arg_tuple, keyword_dict = p_call_build_packed_args(
pos, positional_args, keyword_args, star_arg)
pos, positional_args, keyword_args, star_arg, starstar_arg)
return ExprNodes.GeneralCallNode(pos,
function = function,
positional_args = arg_tuple,
keyword_args = keyword_dict,
starstar_arg = starstar_arg)
keyword_args = keyword_dict)
#lambdef: 'lambda' [varargslist] ':' test
......
......@@ -40,7 +40,7 @@ def call_non_dict_test():
return func(**NonDict())
def call_non_dict_test_kw():
return func(a=5, **NonDict())
return func(b=5, **NonDict())
class SubDict(dict):
......@@ -51,4 +51,4 @@ def call_sub_dict_test():
return func(**SubDict())
def call_sub_dict_test_kw():
return func(a=5, **SubDict())
return func(b=5, **SubDict())
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