[Dy2Stat] Refine PartialProgramLayer logic (#33796)

* refine temp_scope_vec logic * polish partial_program * fix fake var * add stop_gradient in spec * fix fake_var * fix unittest

[Dy2Stat] Refine PartialProgramLayer logic (#33796)
* refine temp_scope_vec logic * polish partial_program * fix fake var * add stop_gradient in spec * fix fake_var * fix unittest
97f86d84 · Aurelius84 · GitHub · 9347df84 · 97f86d84 · 97f86d84
2 changed file
--- a/python/paddle/fluid/dygraph/dygraph_to_static/function_spec.py
+++ b/python/paddle/fluid/dygraph/dygraph_to_static/function_spec.py
@@ -103,8 +103,11 @@ class FunctionSpec(object):
        for idx, input_var in enumerate(flatten(args)):
            if isinstance(input_var, np.ndarray):
                input_var = paddle.static.InputSpec.from_numpy(input_var)
+                _set_spec_stop_gradient(input_var, True)
            elif isinstance(input_var, core.VarBase):
+                stop_gradient = input_var.stop_gradient
                input_var = paddle.static.InputSpec.from_tensor(input_var)
+                _set_spec_stop_gradient(input_var, stop_gradient)

            args_with_spec.append(input_var)

@@ -172,13 +175,15 @@ class FunctionSpec(object):
        block = main_program.global_block()
        for i, var_spec in enumerate(flat_input_spec):
            if isinstance(var_spec, paddle.static.InputSpec):
+                stop_gradient = getattr(var_spec, 'stop_gradient', False)
                feed_layer = block.create_var(
                    # TODO(Aurelius84): consider a more elegant way to name this
                    name=var_spec.name or "feed_%s" % i,
                    shape=var_spec.shape,
                    dtype=var_spec.dtype,
                    is_data=True,
-                    need_check_feed=False)
+                    need_check_feed=False,
+                    stop_gradient=stop_gradient)
            else:
                feed_layer = var_spec
            inputs.append(feed_layer)
@@ -302,7 +307,7 @@ def convert_to_input_spec(inputs, input_spec):
                if isinstance(rest_input, (core.VarBase, np.ndarray)):
                    logging_utils.warn(
                        "The inputs constain `{}` without specificing InputSpec, its shape and dtype will be treated immutable. "
-                        "Please specific InputSpec information in `@declarative` if you expect them as mutable inputs.".
+                        "Please specific InputSpec information in `@to_static` if you expect them as mutable inputs.".
                        format(type_name(rest_input)))
        input_with_spec.extend(inputs[len(input_spec):])

@@ -380,3 +385,12 @@ def _replace_spec_name(name, input_spec):
        return processed_specs
    else:
        return input_spec
+
+
+def _set_spec_stop_gradient(spec, stop_gradient):
+    """
+    Set new attribute ``stop_gradient`` for InputSpec to avoid generating redundant grad_op
+    while append_backward.
+    """
+    assert isinstance(spec, paddle.static.InputSpec)
+    spec.stop_gradient = stop_gradient
--- a/python/paddle/fluid/dygraph/dygraph_to_static/partial_program.py
+++ b/python/paddle/fluid/dygraph/dygraph_to_static/partial_program.py
@@ -35,6 +35,7 @@ class NestSequence(object):

    def __init__(self, raw_input, need_check=False):
        self.__raw_input = raw_input
+        self.__input_list = self.tolist()
        self.__var_ids = self._get_var_ids()
        self._check_non_variable(need_check)

@@ -48,12 +49,12 @@ class NestSequence(object):
        """
        Restores the nested sequence from value list.
        """
-        assert len(self.tolist()) == len(value_list)
+        assert len(self.__input_list) == len(value_list)
        return pack_sequence_as(self.__raw_input, value_list)

    def _get_var_ids(self):
        var_ids = []
-        for idx, var in enumerate(self.tolist()):
+        for idx, var in enumerate(self.__input_list):
            if isinstance(var, (framework.Variable, core.VarBase)):
                var_ids.append(idx)

@@ -65,7 +66,7 @@ class NestSequence(object):
        """
        if need_check:
            warning_types = set()
-            for var in self.tolist():
+            for var in self.__input_list:
                if not isinstance(var, (framework.Variable, core.VarBase)):
                    warning_types.add(type(var))
            if warning_types:
@@ -80,7 +81,7 @@ class NestSequence(object):
        return self.__var_ids

    def __getitem__(self, item):
-        return self.tolist()[item]
+        return self.__input_list[item]


 class LazyInitialized(object):
@@ -106,7 +107,7 @@ def _change_is_test_status(program, is_test):
    return program


-class PartialProgramLayer(layers.Layer):
+class PartialProgramLayer:
    """
    PartialProgramLayer wraps all the ops from layers decorated by `@declarative`
    and execute them as a static subgraph.
@@ -134,7 +135,9 @@ class PartialProgramLayer(layers.Layer):
        self._params = parameters if parameters is not None else []

        self._origin_main_program = self._verify_program(main_program)
-        self._inner_scope = core.Scope()
+        self._tmp_scope_vec = self._create_scope_vec()
+        # A fake_var to handle empty input or output
+        self.__fake_vars = _create_fake_var()
        # Set default mode to train
        self._double_grads = self._get_double_grads(self._origin_main_program)
        self.training = True
@@ -217,19 +220,19 @@ class PartialProgramLayer(layers.Layer):
                                            var_desc.name(),
                                            var_desc.type(), False)
                    double_grads.append(var_base)
-        return double_grads
+        return self._valid_vars(double_grads)

-    def forward(self, inputs):
-        in_vars, out_vars, tmp_scope_vec = self._prepare(inputs)
+    def __call__(self, inputs):
+        in_vars, out_vars = self._prepare(inputs)

        attrs = ('global_block', self.program.desc.block(0), 'start_op_index',
                 0, 'end_op_index', self._infer_program.desc.block(0).op_size(),
                 'is_test', not self.training)
        core.ops.run_program(
-            valid_vars(in_vars),
-            valid_vars(self._params),
-            valid_vars(out_vars), tmp_scope_vec,
-            valid_vars(self._double_grads), *attrs)
+            self._valid_vars(in_vars),
+            self._valid_vars(self._params),
+            self._valid_vars(out_vars), self._tmp_scope_vec, self._double_grads,
+            *attrs)

        restored_nest_out = self._restore_out(out_vars)
        return self._remove_no_value(restored_nest_out)
@@ -264,7 +267,6 @@ class PartialProgramLayer(layers.Layer):
                        expected_place):
                    var = value._copy_to(expected_place, False)
                    var.stop_gradient = True
-                    var.name = value.name
                else:
                    var = value
                var.name = self._inputs[i].desc.name()
@@ -272,25 +274,29 @@ class PartialProgramLayer(layers.Layer):
                continue
            input_vars.append(var)

-        # Create VarBase to receive output data.
-        out_vars = []
-        for idx in self._outputs.var_ids:
-            var = self._outputs[idx]
+        def create_out(var_id):
+            var = self._outputs[var_id]
            assert isinstance(var, framework.Variable)
            var_desc = var.desc
            var_base = core.VarBase(var_desc.dtype(),
                                    var_desc.shape(),
                                    var_desc.name(), var_desc.type(), False)
-            out_vars.append(var_base)
+            return var_base
+
+        # Create VarBase to receive output data.
+        out_vars = list(map(create_out, self._outputs.var_ids))
+
+        return input_vars, out_vars

+    def _create_scope_vec(self):
        # Hold forward variables
        tmp_scope_vec = core.VarBase(core.VarDesc.VarType.FP32, [],
                                     "program_out_scope",
                                     core.VarDesc.VarType.STEP_SCOPES, True)

-        tmp_scope_vec.value().set_scope(self._inner_scope)
-
-        return input_vars, out_vars, tmp_scope_vec
+        inner_scope = core.Scope()
+        tmp_scope_vec.value().set_scope(inner_scope)
+        return tmp_scope_vec

    def _restore_out(self, out_vars):
        """
@@ -311,8 +317,9 @@ class PartialProgramLayer(layers.Layer):
        return main_program.clone(for_test=True)

    def _is_no_value(self, var):
-        if isinstance(var, core.VarBase):
-            if var.shape == [1] and var.numpy()[0] == RETURN_NO_VALUE_MAGIC_NUM:
+        if isinstance(var, core.VarBase) and var.shape == [1]:
+            # NOTE: .numpy() will insert MemcpySync operation, it hits performance.
+            if var.numpy()[0] == RETURN_NO_VALUE_MAGIC_NUM:
                return True
        return False

@@ -405,20 +412,22 @@ class PartialProgramLayer(layers.Layer):
                            "Please define the layer with parameters in `__init__` function."
                            % name)

+    def _valid_vars(self, vars):
+        """
+        Note: run_program_op.InferShape requires `X`/'Out' not be null.
+        But it's common in dy2static, fake varBase is created to handle the
+        problem.
+        """
+        return vars if vars else self.__fake_vars
+

-def valid_vars(vars):
+def _create_fake_var():
    """
-    Note: run_program_op.InferShape requires `X`/'Out' not be null.
-    But it's common in dy2static, fake varBase is created to handle the
-    problem.
+    Create a fake_var (force on CPU) to handle empty input or output
    """
-    if vars:
-        return vars
    return [
-        core.VarBase(
-            value=[1],
-            name='Fake_var',
-            place=framework._current_expected_place())
+        core.VarBase(core.VarDesc.VarType.FP32, [], "Fake_var",
+                     core.VarDesc.VarType.RAW, False)
    ]