"add registry interface" (#6449)

* "add registry interface" * "move function to registry" * "rename with meaningful name" * "add exposed layers" * "fixed based on comments" * "remove unsed comments"

"add registry interface" (#6449)
* "add registry interface" * "move function to registry" * "rename with meaningful name" * "add exposed layers" * "fixed based on comments" * "remove unsed comments"
697facc9 · dzhwinter · GitHub · 8ad36cdb · 697facc9 · 697facc9
3 changed file
--- a/python/paddle/v2/fluid/layers.py
+++ b/python/paddle/v2/fluid/layers.py
-import core
+import contextlib
 import proto.framework_pb2 as framework_pb2
+import core
 from framework import OpProtoHolder, Variable, Program, Operator
 from initializer import Constant, Normal, Xavier, Initializer
 from paddle.v2.fluid.layer_helper import LayerHelper, unique_name
-import re
+from registry import register_layer
-import cStringIO
 from param_attr import ParamAttr
-import contextlib
 __all__ = [
    'fc', 'data', 'cross_entropy', 'conv2d', 'pool2d', 'embedding', 'concat',
@@ -14,6 +14,15 @@ __all__ = [
    'batch_norm', 'accuracy', 'split_lod_tensor', 'While'
 ]
+_REGISTER_LAYER_FROM_OPS = [
+    'mean', 'mul', 'elementwise_add', 'elementwise_div', 'dropout', 'reshape',
+    'sigmoid', 'scale', 'transpose', 'sigmoid_cross_entropy_with_logits'
+]
+for _OP in set(_REGISTER_LAYER_FROM_OPS):
+    globals()[_OP] = register_layer(_OP)
+    __all__.append(_OP)
 def fc(input,
       size,
@@ -309,174 +318,6 @@ def create_tensor(dtype, name=None, main_program=None, startup_program=None):
    return helper.create_variable(name=helper.name, dtype=dtype)
-def _convert_(name):
-    """
-    Formatting.
-    Args:
-       name: The name/alias
-    This function takes in a name and converts it to a standard format of
-    group1_group2. Where as per the regular expression, group1 can have
-    alphabets and numbers and group2 has capital alphabets.
-    """
-    s1 = re.sub('(.)([A-Z][a-z]+)', r'\1_\2', name)
-    return re.sub('([a-z0-9])([A-Z])', r'\1_\2', s1).lower()
-def _generate_doc_string_(op_proto):
-    """
-    Generate docstring by OpProto
-    Args:
-        op_proto (framework_pb2.OpProto): a protobuf message typed OpProto
-    Returns:
-        str: the document string
-    """
-    def _type_to_str_(tp):
-        return framework_pb2.AttrType.Name(tp)
-    if not isinstance(op_proto, framework_pb2.OpProto):
-        raise TypeError("OpProto should be `framework_pb2.OpProto`")
-    buf = cStringIO.StringIO()
-    buf.write(op_proto.comment)
-    buf.write('\nArgs:\n')
-    for each_input in op_proto.inputs:
-        line_begin = '    {0}: '.format(_convert_(each_input.name))
-        buf.write(line_begin)
-        buf.write(each_input.comment)
-        buf.write('\n')
-        buf.write(' ' * len(line_begin))
-        buf.write('Duplicable: ')
-        buf.write(str(each_input.duplicable))
-        buf.write('  Optional: ')
-        buf.write(str(each_input.dispensable))
-        buf.write('\n')
-    for each_attr in op_proto.attrs:
-        buf.write('    ')
-        buf.write(each_attr.name)
-        buf.write(' (')
-        buf.write(_type_to_str_(each_attr.type))
-        buf.write('): ')
-        buf.write(each_attr.comment)
-        buf.write('\n')
-    if len(op_proto.outputs) != 0:
-        buf.write('\nReturns:\n')
-        buf.write('    ')
-        for each_opt in op_proto.outputs:
-            if not each_opt.intermediate:
-                break
-        buf.write(each_opt.comment)
-    return buf.getvalue()
-def _create_op_func_(op_type):
-    """
-    Create an Operator for a Function.
-    Args:
-       op_type: The name of the operator to be created
-    This function takes in the operator type (sigmoid, mean , average etc) and
-    creates the operator functionality.
-    """
-    op_proto = OpProtoHolder.instance().get_op_proto(op_type)
-    not_intermediate_outputs = \
-        filter(lambda output: not output.intermediate, op_proto.outputs)
-    intermediate_outputs = \
-        filter(lambda output: output.intermediate, op_proto.outputs)
-    if len(not_intermediate_outputs) != 1:
-        raise ValueError("Only one non intermediate output operator can be",
-                         "automatically generated")
-    if not_intermediate_outputs[0].duplicable:
-        raise ValueError(
-            "Only non duplicable op can be automatically generated")
-    for output in intermediate_outputs:
-        if output.duplicable:
-            raise ValueError("The op can be automatically generated only when ",
-                             "all intermediate ops are not duplicable")
-    o_name = not_intermediate_outputs[0].name
-    intermediate_output_names = [output.name for output in intermediate_outputs]
-    def infer_and_check_dtype(op_proto, **kwargs):
-        """
-        This function performs the sanity check for dtype and
-        instance type.
-        """
-        dtype = None
-        for ipt in op_proto.inputs:
-            name = _convert_(ipt.name)
-            val = kwargs.pop(name, [])
-            if not isinstance(val, list) and not isinstance(val, tuple):
-                val = [val]
-            for each in val:
-                if not isinstance(each, Variable):
-                    raise ValueError("input of {0} must be variable".format(
-                        op_type))
-                if dtype is None:
-                    dtype = each.dtype
-                elif dtype != each.dtype:
-                    raise ValueError(
-                        "operator {0} must input same dtype. {1} vs {2}".format(
-                            op_type, dtype, each.dtype))
-        return dtype
-    def func(**kwargs):
-        helper = LayerHelper(op_type, **kwargs)
-        dtype = infer_and_check_dtype(op_proto, **kwargs)
-        inputs = dict()
-        for ipt in op_proto.inputs:
-            name = _convert_(ipt.name)
-            val = kwargs.pop(name, [])
-            if not isinstance(val, list) and not isinstance(val, tuple):
-                val = [val]
-            inputs[ipt.name] = val
-        outputs = dict()
-        out = helper.create_tmp_variable(dtype=dtype)
-        outputs[o_name] = [out]
-        for name in intermediate_output_names:
-            outputs[name] = [helper.create_tmp_variable(dtype=dtype)]
-        helper.append_op(
-            type=op_type, inputs=inputs, outputs=outputs, attrs=kwargs)
-        return helper.append_activation(out)
-    func.__name__ = op_type
-    globals()[op_type] = func
-    func.__doc__ = _generate_doc_string_(op_proto)
-    global __all__
-    __all__.append(op_type)
-_create_op_func_('mean')
-_create_op_func_('mul')
-_create_op_func_('elementwise_add')
-_create_op_func_('elementwise_div')
-_create_op_func_('dropout')
-_create_op_func_('reshape')
-_create_op_func_('sigmoid')
-_create_op_func_('scale')
-_create_op_func_('reshape')
-_create_op_func_('transpose')
-_create_op_func_('sigmoid_cross_entropy_with_logits')
 def cast(x, dtype, main_program=None):
    """
    This function takes in the input with input_dtype

--- a/python/paddle/v2/fluid/registry.py
+++ b/python/paddle/v2/fluid/registry.py
+import re
+import cStringIO
+import warnings
+import functools
+import inspect
+import proto.framework_pb2 as framework_pb2
+from framework import OpProtoHolder, Variable, Program, Operator
+from paddle.v2.fluid.layer_helper import LayerHelper, unique_name
+__all__ = ['deprecated', 'register_layer']
+def _convert_(name):
+    """
+    Formatting.
+    Args:
+       name: The name/alias
+    This function takes in a name and converts it to a standard format of
+    group1_group2. Where as per the regular expression, group1 can have
+    alphabets and numbers and group2 has capital alphabets.
+    """
+    s1 = re.sub('(.)([A-Z][a-z]+)', r'\1_\2', name)
+    return re.sub('([a-z0-9])([A-Z])', r'\1_\2', s1).lower()
+def _generate_doc_string_(op_proto):
+    """
+    Generate docstring by OpProto
+    Args:
+        op_proto (framework_pb2.OpProto): a protobuf message typed OpProto
+    Returns:
+        str: the document string
+    """
+    def _type_to_str_(tp):
+        return framework_pb2.AttrType.Name(tp)
+    if not isinstance(op_proto, framework_pb2.OpProto):
+        raise TypeError("OpProto should be `framework_pb2.OpProto`")
+    buf = cStringIO.StringIO()
+    buf.write(op_proto.comment)
+    buf.write('\nArgs:\n')
+    for each_input in op_proto.inputs:
+        line_begin = '    {0}: '.format(_convert_(each_input.name))
+        buf.write(line_begin)
+        buf.write(each_input.comment)
+        buf.write('\n')
+        buf.write(' ' * len(line_begin))
+        buf.write('Duplicable: ')
+        buf.write(str(each_input.duplicable))
+        buf.write('  Optional: ')
+        buf.write(str(each_input.dispensable))
+        buf.write('\n')
+    for each_attr in op_proto.attrs:
+        buf.write('    ')
+        buf.write(each_attr.name)
+        buf.write(' (')
+        buf.write(_type_to_str_(each_attr.type))
+        buf.write('): ')
+        buf.write(each_attr.comment)
+        buf.write('\n')
+    if len(op_proto.outputs) != 0:
+        buf.write('\nReturns:\n')
+        buf.write('    ')
+        for each_opt in op_proto.outputs:
+            if not each_opt.intermediate:
+                break
+        buf.write(each_opt.comment)
+    return buf.getvalue()
+def register_layer(op_type):
+    """
+    Register an Python layer for an Operator
+    Args:
+       op_type: The name of the operator to be created
+    This function takes in the operator type (sigmoid, mean , average etc) and
+    creates the operator functionality.
+    """
+    op_proto = OpProtoHolder.instance().get_op_proto(op_type)
+    not_intermediate_outputs = \
+        filter(lambda output: not output.intermediate, op_proto.outputs)
+    intermediate_outputs = \
+        filter(lambda output: output.intermediate, op_proto.outputs)
+    if len(not_intermediate_outputs) != 1:
+        raise ValueError("Only one non intermediate output operator can be",
+                         "automatically generated")
+    if not_intermediate_outputs[0].duplicable:
+        raise ValueError(
+            "Only non duplicable op can be automatically generated")
+    for output in intermediate_outputs:
+        if output.duplicable:
+            raise ValueError("The op can be automatically generated only when ",
+                             "all intermediate ops are not duplicable")
+    o_name = not_intermediate_outputs[0].name
+    intermediate_output_names = [output.name for output in intermediate_outputs]
+    def infer_and_check_dtype(op_proto, **kwargs):
+        """
+        This function performs the sanity check for dtype and
+        instance type.
+        """
+        dtype = None
+        for ipt in op_proto.inputs:
+            name = _convert_(ipt.name)
+            val = kwargs.pop(name, [])
+            if not isinstance(val, list) and not isinstance(val, tuple):
+                val = [val]
+            for each in val:
+                if not isinstance(each, Variable):
+                    raise ValueError("input of {0} must be variable".format(
+                        op_type))
+                if dtype is None:
+                    dtype = each.dtype
+                elif dtype != each.dtype:
+                    raise ValueError(
+                        "operator {0} must input same dtype. {1} vs {2}".format(
+                            op_type, dtype, each.dtype))
+        return dtype
+    def func(**kwargs):
+        helper = LayerHelper(op_type, **kwargs)
+        dtype = infer_and_check_dtype(op_proto, **kwargs)
+        inputs = dict()
+        for ipt in op_proto.inputs:
+            name = _convert_(ipt.name)
+            val = kwargs.pop(name, [])
+            if not isinstance(val, list) and not isinstance(val, tuple):
+                val = [val]
+            inputs[ipt.name] = val
+        outputs = dict()
+        out = helper.create_tmp_variable(dtype=dtype)
+        outputs[o_name] = [out]
+        for name in intermediate_output_names:
+            outputs[name] = [helper.create_tmp_variable(dtype=dtype)]
+        helper.append_op(
+            type=op_type, inputs=inputs, outputs=outputs, attrs=kwargs)
+        return helper.append_activation(out)
+    func.__name__ = op_type
+    func.__doc__ = _generate_doc_string_(op_proto)
+    return func
+def deprecated(func_or_class):
+    """
+    Deprecated warning decorator. It will result a warning message.
+    Should be used before class or function, member function
+    """
+    @functools.wraps(func)
+    def func_wrapper(*args, **kwargs):
+        """
+        Wrap func with deprecated warning
+        """
+        warnings.simplefilter('always', DeprecationWarning)  #turn off filter
+        warnings.warn(
+            "Call to deprecated function {}.".format(func.__name__),
+            category=DeprecationWarning,
+            stacklevel=2)
+        warnings.simplefilter('default', DeprecationWarning)  #reset filter
+        return func(*args, **kwargs)
+    return func_wrapper
--- a/python/paddle/v2/fluid/tests/test_registry.py
+++ b/python/paddle/v2/fluid/tests/test_registry.py
+import unittest
+import warnings
+import paddle.v2.fluid as fluid
+import paddle.v2.fluid.framework as framework
+import paddle.v2.fluid.layers as layers
+import paddle.v2.fluid.registry as registry
+class TestRegistry(unittest.TestCase):
+    def test_registry_layer(self):
+        self.layer_type = "mean"
+        program = framework.Program()
+        x = fluid.layers.data(name='X', shape=[10, 10], dtype='float32')
+        output = layers.mean(x)
+        place = fluid.CPUPlace()
+        exe = fluid.Executor(place)
+        X = np.random.random((10, 10)).astype("float32")
+        mean_out = exe.run(program, feed={"X": X}, fetch_list=[output])
+        self.assertAlmostEqual(np.mean(X), mean_out)