utils.py 50.7 KB
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# Copyright (c) 2020 PaddlePaddle Authors. All Rights Reserved.
#
# Licensed under the Apache License, Version 2.0 (the "License");
# you may not use this file except in compliance with the License.
# You may obtain a copy of the License at
#
#     http://www.apache.org/licenses/LICENSE-2.0
#
# Unless required by applicable law or agreed to in writing, software
# distributed under the License is distributed on an "AS IS" BASIS,
# WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
# See the License for the specific language governing permissions and
# limitations under the License.

from __future__ import print_function

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import ast
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import astor
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import atexit
import copy
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import collections
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import gast
import inspect
import os
import six
import tempfile
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import textwrap
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import numpy as np
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from paddle.fluid import unique_name
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from paddle.fluid.data_feeder import convert_dtype
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# Note(Aurelius): Do not forget the dot `.` to distinguish other
# module such as paddlenlp.
PADDLE_MODULE_PREFIX = 'paddle.'
DYGRAPH_MODULE_PREFIX = 'paddle.fluid.dygraph'
DYGRAPH_TO_STATIC_MODULE_PREFIX = 'paddle.fluid.dygraph.dygraph_to_static'

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class BaseNodeVisitor(gast.NodeVisitor):
    """
    Implement customized NodeVisitor inherited from gast.NodeVisitor. 
    Ancestor nodes are traced to easily support more operations of currently
    visited node.
    """

    def __init__(self):
        self.ancestor_nodes = []

    def visit(self, node):
        """Visit a node."""
        self.ancestor_nodes.append(node)

        method = 'visit_' + node.__class__.__name__
        visitor = getattr(self, method, self.generic_visit)
        ret = visitor(node)
        self.ancestor_nodes.pop()
        return ret


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# imp is deprecated in python3
if six.PY2:
    import imp
else:
    from importlib.machinery import SourceFileLoader

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dygraph_class_to_static_api = {
    "CosineDecay": "cosine_decay",
    "ExponentialDecay": "exponential_decay",
    "InverseTimeDecay": "inverse_time_decay",
    "NaturalExpDecay": "natural_exp_decay",
    "NoamDecay": "noam_decay",
    "PiecewiseDecay": "piecewise_decay",
    "PolynomialDecay": "polynomial_decay",
}

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FOR_ITER_INDEX_PREFIX = '__for_loop_var_index'
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FOR_ITER_TUPLE_PREFIX = '__for_loop_iter_tuple'
FOR_ITER_TUPLE_INDEX_PREFIX = '__for_loop_iter_tuple_index'
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FOR_ITER_VAR_LEN_PREFIX = '__for_loop_var_len'
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FOR_ITER_VAR_NAME_PREFIX = '__for_loop_iter_var'
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# FullArgSpec is valid from Python3. Defined a Namedtuple to
# to make it available in Python2.
FullArgSpec = collections.namedtuple('FullArgSpec', [
    'args', 'varargs', 'varkw', 'defaults', 'kwonlyargs', 'kwonlydefaults',
    'annotations'
])


def getfullargspec(target):
    if hasattr(inspect, "getfullargspec"):
        return inspect.getfullargspec(target)
    else:
        argspec = inspect.getargspec(target)
        return FullArgSpec(
            args=argspec.args,
            varargs=argspec.varargs,
            varkw=argspec.keywords,
            defaults=argspec.defaults,
            kwonlyargs=[],
            kwonlydefaults=None,
            annotations={})


def parse_arg_and_kwargs(function):
    """
    Returns full argument names as list. e.g ['x', 'y', 'z']
    """
    fullargspec = getfullargspec(function)
    arg_names = fullargspec.args
    if arg_names and 'self' == arg_names[0]:
        arg_names = fullargspec.args[1:]

    # parse default kwargs
    default_kwargs = {}
    default_values = fullargspec.defaults
    if default_values:
        assert len(default_values) <= len(arg_names)
        default_kwarg_names = arg_names[-len(default_values):]
        default_kwargs = dict(zip(default_kwarg_names, default_values))

    return arg_names, default_kwargs


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def parse_varargs_name(function):
    """
    Returns varargs name string of function. e.g: 'input' from `foo(x, *input)`
    """
    fullargspec = getfullargspec(function)
    varargs = fullargspec.varargs
    return varargs


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def type_name(v):
    return type(v).__name__


def make_hashable(x, error_msg=None):
    """
    Makes input `x` hashable.

    For some unhashable objects, such as `dict/list/np.ndarray`,applying hash function by using their values.
    """
    if isinstance(x, (tuple, list)):
        return tuple(map(make_hashable, x))

    try:
        hash(x)
    except TypeError:
        if isinstance(x, np.ndarray):
            # Note: `tostring()` will return the binary data from np.ndarray that
            # means different value will lead to different hash code.
            return hash(x.tostring())
        elif isinstance(x, dict):
            return tuple(map(make_hashable, x.values()))

        error_msg = error_msg or "Requires a hashable object."
        raise ValueError(error_msg + " But received type: %s" % type_name(x))

    return x

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def _is_api_in_module_helper(obj, module_prefix):
    m = inspect.getmodule(obj)
    return m is not None and m.__name__.startswith(module_prefix)


def is_api_in_module(node, module_prefix):
    assert isinstance(node, gast.Call), "Input non-Call node for is_dygraph_api"
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    # Python can have gast.Call as function, for example: covert_call(func)(x)
    # We only check the most outside function
    func_node = node.func
    while isinstance(func_node, gast.Call):
        func_node = func_node.func

    func_str = astor.to_source(gast.gast_to_ast(func_node)).strip()
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    try:
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        # TODO(liym27):
        #  Consider a better to import modules like:
        #  source_file = inspect.getfile(dyfunc)
        #  import_statements = ImportVisitor(source_file).transform()
        #  import_str = "".join(import_statements)
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        import paddle
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        import paddle.fluid as fluid
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        import paddle.fluid.dygraph as dygraph
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        import paddle.fluid.layers as layers
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        from paddle.fluid.dygraph import to_variable
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        from paddle import to_tensor

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        return eval("_is_api_in_module_helper({}, '{}')".format(func_str,
                                                                module_prefix))
    except NameError:
        return False


def is_dygraph_api(node):
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    # Note: A api in module dygraph_to_static is not a real dygraph api.
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    if is_api_in_module(node, DYGRAPH_TO_STATIC_MODULE_PREFIX):
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        return False

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    # TODO(liym27): A better way to determine whether it is a dygraph api.
    #  Consider the decorator @dygraph_only
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    return is_api_in_module(node, DYGRAPH_MODULE_PREFIX)
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def is_paddle_api(node):
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    return is_api_in_module(node, PADDLE_MODULE_PREFIX)


def is_paddle_func(func):
    m = inspect.getmodule(func)
    return m is not None and m.__name__.startswith(PADDLE_MODULE_PREFIX)
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# Is numpy_api cannot reuse is_api_in_module because of numpy module problem
def is_numpy_api(node):
    assert isinstance(node, gast.Call), "Input non-Call node for is_numpy_api"
    func_str = astor.to_source(gast.gast_to_ast(node.func))
    try:
        import numpy as np
        module_result = eval("_is_api_in_module_helper({}, '{}')".format(
            func_str, "numpy"))
        # BUG: np.random.uniform doesn't have module and cannot be analyzed
        # TODO: find a better way
        if not module_result:
            return func_str.startswith("numpy.") or func_str.startswith("np.")
    except NameError:
        return False


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def is_control_flow_to_transform(node,
                                 static_analysis_visitor=None,
                                 var_name_to_type=None):
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    """
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    Determines whether the node is a PaddlePaddle control flow statement which needs to
    be transformed into a static graph control flow statement.
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    """
    assert isinstance(node, gast.AST), \
        "The type of input node must be gast.AST, but received %s." % type(node)
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    visitor = IsControlFlowVisitor(
        node, static_analysis_visitor, node_var_type_map=var_name_to_type)
    need_to_transform = visitor.transform()
    return need_to_transform
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def _delete_keywords_from(node):
    assert isinstance(node, gast.Call)
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    func_src = astor.to_source(gast.gast_to_ast(node.func))
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    import paddle.fluid as fluid
    full_args = eval("inspect.getargspec({})".format(func_src))
    full_args_name = full_args[0]

    node.keywords = [k for k in node.keywords if k.arg in full_args_name]
    return


def to_static_api(dygraph_class):
    if dygraph_class in dygraph_class_to_static_api:
        return dygraph_class_to_static_api[dygraph_class]
    else:
        raise NotImplementedError("Paddle dygraph API {} cannot be converted "
                                  "to static graph at present.".format(
                                      dygraph_class))


def _add_keywords_to(node, dygraph_api_name):
    assert isinstance(node, gast.Call)
    if dygraph_api_name == "Linear":
        for ast_keyword in node.keywords:
            if ast_keyword.arg == "output_dim":
                ast_keyword.arg = "size"

        node.keywords.append(
            gast.keyword(
                arg="num_flatten_dims",
                value=gast.Constant(
                    value=-1, kind=None)))

    if dygraph_api_name == "BilinearTensorProduct":
        for ast_keyword in node.keywords:
            if ast_keyword.arg == "output_dim":
                ast_keyword.arg = "size"

    if dygraph_api_name == "PRelu":
        for ast_keyword in node.keywords:
            if ast_keyword.arg == "input":
                ast_keyword.arg = "x"
    return


def to_static_ast(node, class_node):
    assert isinstance(node, gast.Call)
    assert isinstance(class_node, gast.Call)
    static_api = to_static_api(class_node.func.attr)

    node.func = gast.Attribute(
        attr=static_api,
        ctx=gast.Load(),
        value=gast.Attribute(
            attr='layers',
            ctx=gast.Load(),
            value=gast.Name(
                ctx=gast.Load(), id='fluid', annotation=None,
                type_comment=None)))

    update_args_of_func(node, class_node, 'forward')

    node.args.extend(class_node.args)
    node.keywords.extend(class_node.keywords)
    _add_keywords_to(node, class_node.func.attr)
    _delete_keywords_from(node)

    gast.fix_missing_locations(node)

    return node


def update_args_of_func(node, dygraph_node, method_name):
    assert isinstance(node, gast.Call)
    if method_name not in ["__init__", "forward"]:
        raise ValueError(
            "The method name of class to update args should be '__init__' or 'forward'"
        )

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    class_src = astor.to_source(gast.gast_to_ast(dygraph_node.func))
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    import paddle.fluid as fluid
    if method_name == "__init__" or eval(
            "issubclass({}, fluid.dygraph.Layer)".format(class_src)):
        full_args = eval("inspect.getargspec({}.{})".format(class_src,
                                                            method_name))
        full_args_name = [
            arg_name for arg_name in full_args[0] if arg_name != "self"
        ]
    else:
        full_args_name = []
    added_keywords = []
    for idx, arg in enumerate(node.args):
        added_keywords.append(gast.keyword(arg=full_args_name[idx], value=arg))

    node.args = []
    node.keywords = added_keywords + node.keywords
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def create_api_shape_node(tensor_shape_node):
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    assert isinstance(tensor_shape_node,
                      (gast.Name, gast.Attribute, gast.Subscript))

    if isinstance(tensor_shape_node, gast.Name):
        api_shape_node = gast.Call(
            func=gast.parse('fluid.layers.shape').body[0].value,
            args=[tensor_shape_node],
            keywords=[])
        return api_shape_node
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    if isinstance(tensor_shape_node, gast.Attribute):
        api_shape_node = gast.Call(
            func=gast.parse('fluid.layers.shape').body[0].value,
            args=[tensor_shape_node.value],
            keywords=[])
        return api_shape_node

    if isinstance(tensor_shape_node, gast.Subscript):
        result_node = copy.deepcopy(tensor_shape_node)
        result_node.value = create_api_shape_node(result_node.value)
        return result_node
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def get_constant_variable_node(name, value, shape=[1], dtype='int64'):
    return gast.parse('%s = fluid.layers.fill_constant(%s, "%s", %s)' %
                      (name, str(shape), dtype, str(value)))


def get_attribute_full_name(node):
    assert isinstance(
        node,
        gast.Attribute), "Input non-Attribute node to get attribute full name"
    return astor.to_source(gast.gast_to_ast(node)).strip()


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def generate_name_node(name_ids, ctx=gast.Load(), gen_tuple_if_single=False):
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    """
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    If name_ids is list or tuple or set with multiple strings, this function
    generates gast.Tuple of gast.Name.
    If the name_ids is single string or contains only 1 string, this function
    returns gast.Name if gen_tuple_if_single==False else returns gast.Tuple
    with only one gast.Name

    This function is used at several gast.Return statements.
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    """
    if isinstance(name_ids, six.string_types):
        name_ids = [name_ids]
    if not isinstance(name_ids, (list, tuple, set)):
        raise TypeError('name_ids must be list or tuple or set, but received %s'
                        % type(type(name_ids)))
    gast_names = [
        gast.Name(
            id=name_id, ctx=ctx, annotation=None, type_comment=None)
        for name_id in name_ids
    ]
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    if len(gast_names) == 1 and not gen_tuple_if_single:
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        name_node = gast_names[0]
    else:
        name_node = gast.Tuple(elts=gast_names, ctx=ctx)
    return name_node


def create_funcDef_node(nodes, name, input_args, return_name_ids):
    """
    Wrapper all statements of nodes into one ast.FunctionDef, which can be
    called by ast.Call.
    """
    nodes = copy.copy(nodes)
    # add return statement
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    if return_name_ids:
        nodes.append(gast.Return(value=generate_name_node(return_name_ids)))
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    else:
        nodes.append(gast.Return(value=None))
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    func_def_node = gast.FunctionDef(
        name=name,
        args=input_args,
        body=nodes,
        decorator_list=[],
        returns=None,
        type_comment=None)
    return func_def_node


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def index_in_list(array_list, item):
    try:
        return array_list.index(item)
    except ValueError:
        # Item not in array_list
        return -1


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def create_assign_node(name, node):
    """
    Creates a `gast.Assign` node by given name_id as target and node as value.
    """
    targets = generate_name_node(name, ctx=gast.Store())
    assign_node = gast.Assign(targets=[targets], value=node)
    return targets, assign_node


class RenameTransformer(gast.NodeTransformer):
    def __init__(self, node):
        assert isinstance(
            node, gast.AST), "RenameTransformer only accepts gast.AST as input"
        self.root = node
        self.old_name = ""
        self.new_name = ""

    def rename(self, old_name, new_name):
        self.old_name = old_name
        self.new_name = new_name
        self.visit(self.root)

    def visit_Name(self, node):
        self.generic_visit(node)
        if node.id == self.old_name:
            node.id = self.new_name
        return node

    def visit_Attribute(self, node):
        self.generic_visit(node)
        attr_full_name = get_attribute_full_name(node)
        if attr_full_name == self.old_name:
            new_name_node = gast.parse(self.new_name).body[0].value
            return new_name_node
        return node


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def ast_to_func(ast_root, dyfunc, delete_on_exit=True):
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    """
    Transform modified AST of decorated function into python callable object.
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    TODO: If only decorate one of inner function instead of decorating the main
    function, the other inner functions are invisible for the decorated function.
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    """
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    def remove_if_exit(filepath):
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        if os.path.exists(filepath):
            os.remove(filepath)

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    source = ast_to_source_code(ast_root)
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    import_fluid = "import paddle\nimport paddle.fluid as fluid\n"
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    source = import_fluid + source
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    if six.PY2:
        source = source.encode('utf-8')
        f = tempfile.NamedTemporaryFile(mode='w', suffix='.py', delete=False)
    else:
        f = tempfile.NamedTemporaryFile(
            mode='w', suffix='.py', delete=False, encoding='utf-8')
    with f:
        module_name = os.path.basename(f.name[:-3])
        f.write(source)

    if delete_on_exit:
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        atexit.register(lambda: remove_if_exit(f.name))
        atexit.register(lambda: remove_if_exit(f.name[:-3] + ".pyc"))
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    if six.PY2:
        module = imp.load_source(module_name, f.name)
    else:
        module = SourceFileLoader(module_name, f.name).load_module()
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    func_name = dyfunc.__name__
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    # The 'forward' or 'another_forward' of 'TranslatedLayer' cannot be obtained
    # through 'func_name'. So set the special function name '__i_m_p_l__'.
    if hasattr(module, '__i_m_p_l__'):
        callable_func = getattr(module, '__i_m_p_l__')
        callable_func.__name__ = func_name
    elif hasattr(module, func_name):
        callable_func = getattr(module, func_name)
    else:
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        raise ValueError(
            'Function: %s doesn\'t exist in the Module transformed from AST.' %
            func_name)
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    # After transform dygraph function into callable_func saved in tmp file,
    # it lost the global variables from imported statements or defined in source file.
    # Recovers the necessary variables by `__globals__`.
    recover_globals_attribute(dyfunc, callable_func)

    return callable_func, f.name


def recover_globals_attribute(src_obj, dst_obj):
    attr_name = '__globals__'

    src_globals = getattr(src_obj, attr_name, {})
    dst_globals = getattr(dst_obj, attr_name, {})
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    for k, v in six.iteritems(src_globals):
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        # ignore builtin attribute.
        if not (k.startswith('__') and k.endswith('__')):
            dst_globals[k] = v
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def func_to_source_code(function, dedent=True):
    """
    Transforms function into raw string of source code.
    """
    if not (inspect.isfunction(function) or inspect.ismethod(function)):
        raise TypeError(
            "The type of 'function' should be a function or method, but received {}.".
            format(type(function).__name__))
    source_code = inspect.getsource(function)
    if dedent:
        source_code = textwrap.dedent(source_code)

    return source_code


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def ast_to_source_code(ast_node):
    """
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    Transforms ast node into source code.
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    """
    if not isinstance(ast_node, (gast.AST, ast.AST)):
        raise TypeError(
            "Type of ast_root should be gast.AST or ast.AST, but received %s." %
            type(ast_node))
    if isinstance(ast_node, gast.AST):
        ast_node = gast.gast_to_ast(ast_node)
    source_code = astor.to_source(ast_node)
    return source_code
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def is_candidate_node(node):
    """
    Nodes with specified type will be dependent on tensor.
    """
    is_compare_node = isinstance(node, (gast.Compare, gast.BoolOp, gast.UnaryOp,
                                        gast.For, gast.If, gast.While))
    # TODO(Aurelius84): `.numpy()` may be an customized function,
    # and should consider a more elegant way to solve this problem.
    has_numpy_attr = ".numpy()" in ast_to_source_code(node)
    return is_compare_node or has_numpy_attr


def compare_with_none(node):
    """
    Whether the comparator of `gast.Compare` node is `None`.
    """
    if isinstance(node, gast.Compare):
        for child in [node.left, node.comparators]:
            # node.comparators is a list.
            if isinstance(child, list):
                child = child[0]
            if (isinstance(child, gast.Constant) and child.value is None) or (
                    isinstance(child, gast.Name) and child.id == 'None'):
                return True
    return False


class IsControlFlowVisitor(gast.NodeVisitor):
    """
    Judge whether the ast_node of control flow from Dygraph code dependent on paddle Tensor.
    `ast_node` can be gast.If, gast.For, gast.While, gast.If.test(gast.Compare, gast.BoolOp, gast.UnaryOp).

    If returns True,
    gast.If.test must meet at least one of the following requirements:
        1. involves at least one var whose type is Tensor.
        2. the Tensor var calls `.numpy()[]` interface or Tensor.shape is [1].
        3. involves Tensor.shape[i] and the shape[i] is unknown in compile time.
    gast.While must meet at least one of the requirements 1 to 5:
        4. has `break` statement.
        5. has `continue` statement.
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    gast.For must meet at least one of the requirements 4 to 8:
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        6. calls `range` function in `for` statement and the argument of range is Tensor.
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        7. calls `enumerate` function in `for` statement and the argument of enumerate is Tensor.
        8. the iterable varaible in `for` statement is Tensor.
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        TODO: Support non-range case

    The following examples should not be considered as control_flow_if:
        1. `if Tensor_var` or `if Tensor_var is None`
        2. if Tensor.shape[i] is determined with fixed value (not -1 or None)

    Note: pred in ConditionalBlock require variable, which means all vars should be Tensor
          or transformed into Tensor, like fill_constant(shape=[1], dtype='int32', value=Tensor.shape[i]).

    TODO: 1. need to deal with `tensor.shape[i]` which need to eval the data of shape[i],
             because reshape_op may be called before this statement.
    """

    def __init__(self,
                 ast_node,
                 static_analysis_visitor=None,
                 node_var_type_map=None):
        assert isinstance(
            ast_node, gast.AST
        ), "Type of input node should be gast.AST, but received %s." % type(
            ast_node)
        self.ast_root = ast_node
        if static_analysis_visitor is None:
            from .static_analysis import StaticAnalysisVisitor
            static_analysis_visitor = StaticAnalysisVisitor(ast_node)
        self.static_analysis_visitor = static_analysis_visitor
        self.node_to_wrapper_map = self.static_analysis_visitor.get_node_to_wrapper_map(
        )
        self.node_var_type_map = node_var_type_map

        self.is_control_flow_num = 0
        self._compare_node_tenor_set = set()

    def transform(self):
        node = self.ast_root
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        if isinstance(node, gast.If):
            self._visit_If(node)
        elif isinstance(node, gast.For):
            self._visit_For(node)
        elif isinstance(node, gast.While):
            self._visit_While(node)
        else:
            self.visit(node)
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        return self.is_control_flow_num > 0

    def _visit_If(self, node):
        assert isinstance(node, gast.If)
        self.visit(node.test)
        return

    def _visit_For(self, node):
        assert isinstance(node, gast.For)
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        if isinstance(node.iter, gast.Call):
            # for in range(var[0]|var.numpy()[0]) or for in enumerate(var|var.numpy())
            if isinstance(node.iter.func, gast.Name):
                if node.iter.func.id == "range" or node.iter.func.id == "enumerate":
                    for arg in node.iter.args:
                        self.visit(arg)
                else:
                    return
            # for in var.numpy()
            elif isinstance(node.iter.func, gast.Attribute):
                if node.iter.func.attr == 'numpy':
                    self._visit_Call(node.iter)
                else:
                    return
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            else:
                return
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        elif isinstance(node.iter, gast.Name):
            # for in var
            self.visit(node.iter)
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        else:
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            return

        for child_node in gast.walk(node):
            if isinstance(child_node, (gast.Continue, gast.Break)):
                self._visit_break_continue(child_node)
        return

    def _visit_While(self, node):
        assert isinstance(node, gast.While)
        test = node.test
        self.generic_visit(test)
        for child_node in gast.walk(node):
            if isinstance(child_node, (gast.Continue, gast.Break)):
                self._visit_break_continue(child_node)
        return

    def _visit_break_continue(self, node):
        assert isinstance(node, (gast.Break, gast.Continue))
        wrapper_node = self.node_to_wrapper_map.get(node)
        if not wrapper_node:
            # Transformed node is not in node_to_wrapper_map
            return

        while wrapper_node.parent:
            parent_node = wrapper_node.parent.node
            if isinstance(parent_node, (gast.For, gast.While)):
                if parent_node is self.ast_root:
                    self.is_control_flow_num += 1
                    return
                else:
                    return

            wrapper_node = wrapper_node.parent

        return

    def visit_BoolOp(self, node):
        for i, child in enumerate(node.values):
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            self.visit(child)
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        return node

    def visit_Compare(self, node):
        pre_control_flow_num = self.is_control_flow_num
        if not compare_with_none(node):
            self.generic_visit(node)
            for child in gast.walk(node):
                if isinstance(child, gast.Subscript):
                    self._visit_Subscript(child)
        if self.is_control_flow_num > pre_control_flow_num:
            self._compare_node_tenor_set.add(node)
        return node

    def _visit_Subscript(self, node):
        self.generic_visit(node)
        if hasattr(node, 'value') and isinstance(node.value, gast.Call):
            self._visit_Call(node.value)
        return node

    def _visit_Call(self, node):
        assert isinstance(node, gast.Call)
        if isinstance(node.func, gast.Attribute):
            attr_node = node.func
            if attr_node.attr == 'numpy':
                self.is_control_flow_num += 1

    def visit_Call(self, node):
        self._visit_Call(node)
        if is_paddle_api(node):
            self.is_control_flow_num += 1
        return node

    def visit_Name(self, node):
        if self._is_node_with_tensor(node, node.id):
            self.is_control_flow_num += 1
        return node

    def visit_Constant(self, node):
        if self._is_node_with_tensor(node, node.value):
            self.is_control_flow_num += 1
        return node

    def _is_node_with_tensor(self, node, name_id):
        from paddle.fluid.dygraph.dygraph_to_static.static_analysis import NodeVarType

        # Look up the node_var_type_map by name_id.
        if self.node_var_type_map:
            if name_id and isinstance(name_id, six.string_types):
                var_type = self.node_var_type_map.get(name_id, None)
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                if var_type and var_type & NodeVarType.TENSOR_TYPES:
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                    return True
        # if not found, look up the node_to_wrapper_map by node.
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        wrapper_node = self.node_to_wrapper_map.get(node, None)
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        if wrapper_node is not None:
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            if wrapper_node.node_var_type & NodeVarType.TENSOR_TYPES:
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                return True

        return False

    def get_compare_nodes_with_tensor(self):
        return self._compare_node_tenor_set
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class NameNodeReplaceTransformer(gast.NodeTransformer):
    """
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    This class replaces specified gast.Name node by replace_node.
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    """

    def __init__(self, root_node, target_name, replace_node):
        assert isinstance(target_name, str)
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        # NOTE(liym27):
        # Use gast.Name to replace gast.Name, otherwise, errors may occur.
        #
        # For examples:
        # If using a gast.Subscript to replace gast.Name, and the original gast.Name
        # is in the arguments of FunctionDef, an exception will be raised.
        #
        # ```
        # def func(x[i])) # x[i] can not be a argument
        #    # ...
        # ```

        assert isinstance(replace_node, gast.Name)
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        self.target_name = target_name
        self.replace_node = replace_node

        self.visit(root_node)

    def visit_Name(self, node):
        if node.id == self.target_name:
            return self.replace_node
        return node


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class ForLoopTuplePreTransformer(gast.NodeTransformer):
    """
    ForNodeVisitor parses 3 type statements (Here var is VarBase(Tensor) or python variable):
        1). for x in range(var[*]|var.numpy()[*])
        2). for x in var|var.numpy()
        3). for i, x in enumerate(var|var.numpy())

        We chose these 3 types because they are easier (x can be variable name iterating in var).
        However, users can write tuples in Python for loop, such as
        1). for var1, var2 in var|var.numpy()
        2). for t in enumerate(var|var.numpy())
        2). for i, (var1, var2, va3) in enumerate(var|var.numpy())

        To handle these case, this method will do the rewrite tuple pre-process:
        1). Non-enumerate case: for var1, var2 in var|var.numpy() will be re-written as:
          for FOR_ITER_TUPLE_PREFIX_x in var | var.numpy():
            var1 = FOR_ITER_TUPLE_PREFIX_x[0]
            var2 = FOR_ITER_TUPLE_PREFIX_x[1]
        2). Enumerate out tuple case: for t in enumerate(var|var.numpy) will be rewritten as:
          for FOR_ITER_TUPLE_INDEX_PREFIX_x, FOR_ITER_TUPLE_PREFIX_x in enumerate(var|var.numpy):
            t = (FOR_ITER_TUPLE_INDEX_PREFIX_x, FOR_ITER_TUPLE_PREFIX_x)
        3). Enumerate inner tuple case: for i, (var1, (var2, va3)) in enumerate(var|var.numpy()) will
        be re-written as:
          for i, FOR_ITER_TUPLE_PREFIX_x in var | var.numpy():
            var1 = FOR_ITER_TUPLE_PREFIX_x[0]
            var2 = FOR_ITER_TUPLE_PREFIX_x[1][0]
            var3 = FOR_ITER_TUPLE_PREFIX_x[1][1]
    """

    def __init__(self, wrapper_root):
        self.wrapper_root = wrapper_root
        self.root = wrapper_root.node

    def transform(self):
        self.visit(self.root)

    def visit_For(self, node):
        if self.is_for_enumerate_iter(node):
            if isinstance(node.target, (gast.Name, gast.Attribute)):
                # Out tuple case
                out_tuple_name = ast_to_source_code(node.target).strip()
                tuple_iter_name = unique_name.generate(
                    FOR_ITER_TUPLE_INDEX_PREFIX)
                tuple_var_name = unique_name.generate(FOR_ITER_TUPLE_PREFIX)
                node.target = gast.Tuple(
                    elts=[
                        gast.Name(
                            id=tuple_iter_name,
                            ctx=gast.Store(),
                            annotation=None,
                            type_comment=None), gast.Name(
                                id=tuple_var_name,
                                ctx=gast.Store(),
                                annotation=None,
                                type_comment=None)
                    ],
                    ctx=gast.Store())
                node.body.insert(
                    0,
                    gast.Assign(
                        targets=[
                            gast.Name(
                                id=out_tuple_name,
                                ctx=gast.Store(),
                                annotation=None,
                                type_comment=None)
                        ],
                        value=gast.Tuple(
                            elts=[
                                gast.Name(
                                    id=tuple_iter_name,
                                    ctx=gast.Load(),
                                    annotation=None,
                                    type_comment=None), gast.Name(
                                        id=tuple_var_name,
                                        ctx=gast.Load(),
                                        annotation=None,
                                        type_comment=None)
                            ],
                            ctx=gast.Load())))
            elif isinstance(node.target, (
                    gast.List,
                    gast.Tuple)) and len(node.target.elts) >= 2 and isinstance(
                        node.target.elts[1], (gast.List, gast.Tuple)):
                # Inner tuple case
                inner_tuple_name = unique_name.generate(FOR_ITER_TUPLE_PREFIX)
                origin_inner_tuple_node = node.target.elts[1]
                node.target.elts[1] = gast.Name(
                    id=inner_tuple_name,
                    ctx=gast.Store(),
                    annotation=None,
                    type_comment=None)
                node.body[0:0] = self.tuple_to_stmts(origin_inner_tuple_node,
                                                     inner_tuple_name)
        elif self.is_for_iter(node) and isinstance(node.target,
                                                   (gast.List, gast.Tuple)):
            # Non-enumrate case:
            tuple_name = unique_name.generate(FOR_ITER_TUPLE_PREFIX)
            origin_tuple_node = node.target
            node.target = gast.Name(
                id=tuple_name,
                ctx=gast.Store(),
                annotation=None,
                type_comment=None)
            node.body[0:0] = self.tuple_to_stmts(origin_tuple_node, tuple_name)
        return node

    def tuple_to_stmts(self, node, tuple_name, idx=[]):
        if not isinstance(node, (gast.Tuple, gast.List)):
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            value_node_str = tuple_name
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            for i in idx:
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                value_node_str = value_node_str + "[{}]".format(i)

            node_str = ast_to_source_code(node).strip()
            assign_node_str = "{} = {}".format(node_str, value_node_str)
            assign_node = gast.parse(assign_node_str).body[0]
            return [assign_node]

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        # isinstance(node, (gast.Tuple, gast.List))
        ret = []
        for i, element in enumerate(node.elts):
            ret += self.tuple_to_stmts(node.elts[i], tuple_name, idx + [i])
        return ret

    def is_for_iter(self, for_node):
        assert isinstance(for_node,
                          gast.For), "Input node is not gast.For node."
        if isinstance(for_node.iter, (gast.Name, gast.Attribute)):
            return True
        elif isinstance(for_node.iter, gast.Call) and isinstance(
                for_node.iter.func,
                gast.Attribute) and for_node.iter.func.attr == 'numpy':
            return True
        elif isinstance(for_node.iter, gast.Subscript):
            return True
        else:
            return False

    def is_for_enumerate_iter(self, for_node):
        assert isinstance(for_node,
                          gast.For), "Input node is not gast.For node."
        return isinstance(for_node.iter, gast.Call) and isinstance(
            for_node.iter.func,
            gast.Name) and for_node.iter.func.id == "enumerate"


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class ForNodeVisitor(object):
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    """
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    This class parses python for statement, get transformed 3 statement components of for node
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    three key statements:
        1). init_stmts: list[node], prepare nodes of for loop, may not only one
        2). cond_stmt: node, condition node to judge whether continue loop
        3). body_stmts: list[node], updated loop body, sometimes we should change
            the original statement in body, not just append new statement

    In this process, the semantics of for does not change.

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    Now only can parse 3 type statements (Here var is VarBase(Tensor) or python variable):
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        1). for x in range(var[*]|var.numpy()[*])
        2). for x in var|var.numpy()
        3). for i, x enumerate(var|var.numpy())
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    """

    def __init__(self, for_node):
        assert isinstance(
            for_node, gast.For
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        ), "Input node for the initialization of ForNodeVisitor is not gast.For node."
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        # 1. original for node
        self.node = for_node

        # 2. gast.For node main parts
        self.target = for_node.target
        # NOTE: type may be Node or list[Node]
        self.iter_args = for_node.iter if self.is_for_iter(
        ) else for_node.iter.args
        self.body = for_node.body

        # 3. key shared node or names
        # - x:
        #   - for x in range(***)
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        #   - for x in var|var.numpy()
        #   - for i, x enumerate(var|var.numpy())
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        self.iter_var_name = self._get_iter_var_name()

        # - created index var to slice Variable: __for_loop_var_index_0
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        #   - for x in var|var.numpy()
        #   - for i, x enumerate(var|var.numpy())
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        self.iter_idx_name = unique_name.generate(FOR_ITER_INDEX_PREFIX)

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        # - created shape var to build loop condition: __for_loop_var_len_0
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        #   - for x in var|var.numpy()
        #   - for i, x enumerate(var|var.numpy())
        #   - for x in var
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        self.iter_var_len_name = unique_name.generate(FOR_ITER_VAR_LEN_PREFIX)
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        # - var.numpy()/var
        #   - for x in var|var.numpy()
        #   - for i, x enumerate(var|var.numpy())
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        self.iter_node = self._get_iter_node()

        # - enumeate i:
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        #   - for i, x enumerate(var|var.numpy())
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        self.enum_idx_name = self._get_enum_idx_name()

        # - range/enumerate args length
        self.args_length = None

    def parse(self):
        self._args_check()
        if self.is_for_range_iter():
            return self._parse_for_range_stmts()
        elif self.is_for_iter():
            return self._parse_for_stmts()
        elif self.is_for_enumerate_iter():
            return self._parse_for_enumerate_stmts()
        else:
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            return None
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    def is_for_range_iter(self):
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        return isinstance(self.node.iter, gast.Call) and isinstance(
            self.node.iter.func,
            gast.Name) and self.node.iter.func.id == "range"
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    def is_for_iter(self):
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        if isinstance(self.node.iter, (gast.Name, gast.Attribute)):
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            return True
        elif isinstance(self.node.iter, gast.Call) and isinstance(
                self.node.iter.func,
                gast.Attribute) and self.node.iter.func.attr == 'numpy':
            return True
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        elif isinstance(self.node.iter, gast.Subscript):
            return True
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        else:
            return False
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    def is_for_enumerate_iter(self):
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        return isinstance(self.node.iter, gast.Call) and isinstance(
            self.node.iter.func,
            gast.Name) and self.node.iter.func.id == "enumerate"
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    def _args_check(self):
        if self.is_for_range_iter():
            self.args_length = len(self.iter_args)
            assert self.args_length >= 1 and self.args_length <= 3, "range() function takes 1 to 3 arguments"
        elif self.is_for_enumerate_iter():
            self.args_length = len(self.iter_args)
            assert self.args_length >= 1 and self.args_length <= 2, "enumerate() function takes 1 to 2 arguments"
        else:
            self.args_length = None

    def _parse_for_range_stmts(self):
        init_stmts = []
        init_stmts.append(self._build_index_init_node())

        compare_node = self._build_compare_node()
        step_node = self._build_step_node()
        cond_stmt = self._build_cond_stmt(step_node, compare_node)

        body_stmts = self.body
        body_stmts.append(self._build_index_increase_node(step_node))

        return init_stmts, cond_stmt, body_stmts

    def _parse_for_stmts(self):
        init_stmts = []
        init_stmts.append(self._build_index_init_node())
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        init_stmts.append(self._build_var_len_assign_node())
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        compare_node = self._build_compare_node()
        step_node = self._build_step_node()
        cond_stmt = self._build_cond_stmt(step_node, compare_node)

        body_stmts = self.body
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        # NOTE(liym27): Here add a gast.Assign, and the target of it is gast.Name.
        # In NameNodeReplaceTransformer, using gast.Name to replace gast.Name is safe.
        target_node, assign_node = self._build_assign_var_slice_node()
        body_stmts[0:0] = [assign_node]
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        for body_node in body_stmts:
            NameNodeReplaceTransformer(body_node, self.iter_var_name,
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                                       target_node)
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        body_stmts.append(self._build_index_increase_node(step_node))

        return init_stmts, cond_stmt, body_stmts

    def _parse_for_enumerate_stmts(self):
        init_stmts = []
        init_stmts.append(self._build_index_init_node())
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        init_stmts.append(self._build_var_len_assign_node())
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        init_stmts.append(self._build_enum_init_node())

        compare_node = self._build_compare_node()
        step_node = self._build_step_node()
        cond_stmt = self._build_cond_stmt(step_node, compare_node)

        body_stmts = self.body
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        target_node, assign_node = self._build_assign_var_slice_node()
        body_stmts[0:0] = [assign_node]
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        for body_node in body_stmts:
            NameNodeReplaceTransformer(body_node, self.iter_var_name,
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                                       target_node)

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        body_stmts.append(self._build_index_increase_node(step_node))
        body_stmts.append(self._build_enum_increase_node())

        return init_stmts, cond_stmt, body_stmts

    def _build_index_init_node(self):
        if self.is_for_range_iter():
            if self.args_length == 1:
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                index_init_value_str = '0'
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            else:
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                index_init_value_str = ast_to_source_code(self.iter_args[
                    0]).strip()

            index_init_var_name = self.iter_var_name
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        else:
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            index_init_value_str = '0'
            index_init_var_name = self.iter_idx_name

        index_init_node_source_str = "{target} = {value}".format(
            target=index_init_var_name, value=index_init_value_str)

        index_init_node = gast.parse(index_init_node_source_str).body[0]

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        return index_init_node

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    def _build_var_len_assign_node(self):
        # get the length of iterable variable
        if isinstance(self.iter_node, gast.Call) and isinstance(
                self.iter_node.func,
                gast.Attribute) and self.iter_node.func.attr == 'numpy':
            iter_var_name = ast_to_source_code(self.iter_node.func.value).strip(
            )
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        else:
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            iter_var_name = ast_to_source_code(self.iter_node).strip()

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        convert_len_node_source_str = '{} = paddle.jit.dy2static.convert_len({})'.format(
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            self.iter_var_len_name, iter_var_name)

        convert_len_node = gast.parse(convert_len_node_source_str).body[0]

        return convert_len_node
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    def _build_enum_init_node(self):
        if self.is_for_enumerate_iter() and self.args_length != 1:
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            init_value_str = ast_to_source_code(self.iter_args[1]).strip()
        else:
            init_value_str = '0'

        enum_init_node_source_str = "{} = {}".format(self.enum_idx_name,
                                                     init_value_str)
        enum_init_node = gast.parse(enum_init_node_source_str).body[0]
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        return enum_init_node

    def _build_compare_node(self):
        if self.is_for_range_iter():
            compare_node = self.iter_args[
                0] if self.args_length == 1 else self.iter_args[1]
        else:
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            compare_node = gast.Name(
                id=self.iter_var_len_name,
                ctx=gast.Load(),
                annotation=None,
                type_comment=None)
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        return compare_node

    def _build_step_node(self):
        if self.is_for_range_iter():
            step_node = self.iter_args[
                2] if self.args_length == 3 else gast.Constant(
                    value=1, kind=None)
        else:
            step_node = gast.Constant(value=1, kind=None)
        return step_node

    def _build_cond_stmt(self, step_node, compare_node):
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        if not isinstance(step_node, (gast.Constant, gast.UnaryOp)):
            raise NotImplementedError(
                "Dynamic-to-Static only supports the step value is a constant or negative constant in 'for-range' statements, "
                "such as '2', '-3'. But received: '{}'. Please fix code to be compatible with Dynamic-to-Static."
                .format(ast_to_source_code(step_node).strip()))

        if isinstance(step_node, gast.UnaryOp) or step_node.value < 0:
            # eg:
            # range(max, min, -2)
            # ->
            # i > min
            return gast.Compare(
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                left=gast.Name(
                    id=self.iter_var_name
                    if self.is_for_range_iter() else self.iter_idx_name,
                    ctx=gast.Load(),
                    annotation=None,
                    type_comment=None),
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                ops=[gast.Gt()],
                comparators=[compare_node])
        else:
            # eg:
            # range(min, max, 2)
            # ->
            # i < max
            return gast.Compare(
                left=gast.Name(
                    id=self.iter_var_name
                    if self.is_for_range_iter() else self.iter_idx_name,
                    ctx=gast.Load(),
                    annotation=None,
                    type_comment=None),
                ops=[gast.Lt()],
                comparators=[compare_node])
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    def _build_index_increase_node(self, step_node):
        return gast.AugAssign(
            target=gast.Name(
                id=self.iter_var_name
                if self.is_for_range_iter() else self.iter_idx_name,
                ctx=gast.Store(),
                annotation=None,
                type_comment=None),
            op=gast.Add(),
            value=step_node)

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    def _build_assign_var_slice_node(self):
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        var_slice_str = "{}[{}]".format(
            ast_to_source_code(self.iter_node).strip(), self.iter_idx_name)
        var_slice_node = gast.parse(var_slice_str).body[0].value
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        new_iter_var_name = unique_name.generate(FOR_ITER_VAR_NAME_PREFIX)
        target_node, assign_node = create_assign_node(new_iter_var_name,
                                                      var_slice_node)
        return target_node, assign_node
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    def _build_enum_increase_node(self):
        return gast.AugAssign(
            target=gast.Name(
                id=self.enum_idx_name,
                ctx=gast.Store(),
                annotation=None,
                type_comment=None),
            op=gast.Add(),
            value=gast.Constant(
                value=1, kind=None))

    def _get_iter_var_name(self):
        if self.is_for_range_iter():
            return self.target.id
        elif self.is_for_iter():
            return self.target.id
        elif self.is_for_enumerate_iter():
            return self.target.elts[1].id
        return None

    def _get_iter_node(self):
        if self.is_for_iter():
            return self.iter_args
        elif self.is_for_enumerate_iter():
            return self.iter_args[0]
        return None

    def _get_enum_idx_name(self):
        if self.is_for_enumerate_iter():
            return self.target.elts[0].id
        return None
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class SplitAssignTransformer(gast.NodeTransformer):
    """
    This class transforms sequence assignments and multi-target assignments to normal assignments.
    """

    def __init__(self, ast_node):
        assert isinstance(ast_node, gast.AST)
        self.ast_root = ast_node

    def transform(self):
        self.visit(self.ast_root)

    def visit_Assign(self, node):
        target_nodes = node.targets
        if len(target_nodes) == 1:
            node = self._parse_sequence_assign(node)
        else:
            node = self._parse_multi_target_assign(node)
        return node

    def _parse_sequence_assign(self, node):
        """
        a, b = c, d
        ->
        a = c
        b = d
        """
        assert isinstance(node, gast.Assign)

        target_nodes = node.targets
        value_node = node.value
        if not isinstance(target_nodes[0], (gast.List, gast.Tuple)):
            return node
        if not isinstance(value_node, (gast.List, gast.Tuple)):
            return node

        targets = node.targets[0].elts
        values = node.value.elts
        if len(targets) != len(values):
            return node

        new_nodes = []
        for target, value in zip(targets, values):
            assign_node = gast.Assign(targets=[target], value=value)
            new_nodes.append(assign_node)

        return new_nodes

    def _parse_multi_target_assign(self, node):
        """
         Example 1:
         a = b = c
         ->
         b = c
         a = b

         Example 2:
         a, b = c, d = x
         ->
         c,d = x
         a = c
         b = d
         """
        assert isinstance(node, gast.Assign)

        target_nodes = node.targets
        value_node = node.value
        new_nodes = []
        for target in reversed(target_nodes):
            assign_node = gast.Assign(targets=[target], value=value_node)
            # NOTE: Because assign_node can be sequence assign statement like `a,b = c,d`,
            # it's necessary to visit this new assign_node
            parsed_node = self.visit_Assign(assign_node)
            if not isinstance(parsed_node, list):
                parsed_node = [parsed_node]

            new_nodes.extend(parsed_node)
            value_node = target

        return new_nodes
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# NOTE: inspect.unwrap() exits in PY3 but not in PY2.
def unwrap(func):
    """
    Returns the object wrapped by decorators.
    """

    def _is_wrapped(f):
        return hasattr(f, '__wrapped__')

    unwrapped_f = func
    while (_is_wrapped(unwrapped_f)):
        unwrapped_f = unwrapped_f.__wrapped__

    return unwrapped_f
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def input_specs_compatible(src_input_specs, desired_input_specs):
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    """
    Returns True if the two input specs are compatible, otherwise False.

    args:
        src_input_spec (list[InputSpec]|tuple(InputSpec)): list/tuple of
            paddle.static.InputSpec
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        desired_input_specs (list[InputSpec]|tuple(InputSpec)): list/tuple of
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            paddle.static.InputSpec
    """
    len_specs = len(src_input_specs)
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    if len_specs != len(desired_input_specs):
        # NOTE(chenweihang): if the input_spec of jit.save is a subset of
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        # input_spec of to_static, also compatible
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        for spec in src_input_specs:
            if spec not in desired_input_specs:
                return False
    else:
        for i in range(len_specs):
            src_shape = src_input_specs[i].shape
            other_shape = desired_input_specs[i].shape
            len_shape = len(src_shape)
            if len_shape != len(other_shape):
                return False
            for j in range(len_shape):
                if src_shape[j] is None or src_shape[j] < 0:
                    continue
                if other_shape[j] is None or other_shape[j] < 0:
                    continue
                if src_shape[j] != other_shape[j]:
                    return False

            src_dtype = convert_dtype(src_input_specs[i].dtype)
            other_dtype = convert_dtype(desired_input_specs[i].dtype)
            if src_dtype != other_dtype:
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                return False

    return True
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def slice_is_num(slice_node):
    # A slice_node.slice can be a:
    # (1) ast.Index, which is a simple number such as [1], [-2]
    # (2) ast.Slice, which is represented by bounds such as [2:-1]
    # (3) ast.Tuple, which includes the above two cases such as [2:-1, 1]
    # If slice node is case (1), return True, Otherwise, return False.
    #
    # NOTE: In (1) case, when gast>=0.4.0, gast.Index is not used, which is replaced
    # other gast node such as gast.Constant, gast.Name, gast.UnaryOp and so on.
    # Considering the compatibility of gast, here use ast note to check whether the
    # node is a num. For more details, please visit https://github.com/serge-sans-paille/gast

    assert isinstance(slice_node, gast.Subscript)
    slice_node_str = ast_to_source_code(slice_node).strip()
    ast_node = ast.parse(slice_node_str).body[0].value

    if isinstance(ast_node.slice, (ast.Tuple, ast.Slice)):
        return False

    if isinstance(ast_node.slice, ast.Index):
        return True

    return False