# 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. import astor from paddle.utils import gast from . import utils from .base_transformer import BaseTransformer __all__ = [] class BasicApiTransformer(BaseTransformer): """ Class to transform basic API from dygraph to static graph. """ def __init__(self, root): self.root = root self.class_node_dict = {} def transform(self): to_tensor_transformer = ToTensorTransformer(self.root) to_tensor_transformer.transform() attribute_transformer = AttributeJstTransformer(self.root) attribute_transformer.transform() self.visit(self.root) return self.root def visit_Assign(self, node): if self._update_class_node_dict(node): return None for child_node in gast.walk(node.value): if isinstance(child_node, gast.Call): self._visit_Call(child_node) return node def visit_Expr(self, node): value_node = node.value for child_node in gast.walk(value_node): if isinstance(child_node, gast.Call): # TODO(liym27): # Considers that a dygraph api which modifies the input or has a output. if utils.is_dygraph_api(child_node): return else: self._visit_Call(child_node) return node def _visit_Call(self, node): assert isinstance(node, gast.Call) func_name = astor.to_source(gast.gast_to_ast(node.func)) if self._is_dygraph_forward(func_name): class_node = self._get_class_node(func_name) static_node = utils.to_static_ast(node, class_node) return static_node else: return node def _is_dygraph_forward(self, func_id): return func_id in self.class_node_dict def _get_class_node(self, func_id): return self.class_node_dict[func_id] def _update_class_node_dict(self, node): assert isinstance(node, gast.Assign) node_value = node.value if isinstance(node_value, gast.Call): if is_to_variable(node_value): return False if utils.is_dygraph_api(node_value): dygraph_api = node_value.func.attr if not utils.dygraph_class_to_static_api.get(dygraph_api): return False utils.update_args_of_func(node_value, node_value, "__init__") target_str = astor.to_source(gast.gast_to_ast(node.targets[0])) self.class_node_dict[target_str] = node_value return True # TODO: node.value is not dygraph class return False class ToTensorTransformer(BaseTransformer): """ Class to transform paddle.to_tensor and paddle.to_variable to paddle.assign """ def __init__(self, node): assert isinstance( node, gast.AST ), "Input non-gast.AST node for the initialization of ToTensorTransformer." self.root = node def transform(self): self.visit(self.root) return self.root def visit_Call(self, node): assert isinstance(node, gast.Call) if is_to_variable(node): node = to_assign_node(node) self.generic_visit(node) return node class NameloadJstTransformer(BaseTransformer): """ change name and attribute load to __jst.Ld(name) pattern. for example: a.dtype --> __jst.Ld(__jst.Ld(a).dtype) In paddle science and deepxde, we have to support changing tensor into variable in arbitrary occasion such as global tensor. NOTE: we only deal with ctx=Load() case. """ def __init__(self, root): self.root = root def transform(self): self.visit(self.root) return self.root def _surround_with_ld(self, node): node = ( gast.parse(f"_jst.Ld({utils.ast_to_source_code(node).strip()})") .body[0] .value ) return node def visit_Call(self, node): """ Can't convert name of function call, bacause this will affect CallTransformer. """ node.args = [self.generic_visit(arg) for arg in node.args] return node def visit_Attribute(self, node): assert isinstance(node, gast.Attribute) assert isinstance(node.attr, str) self.generic_visit(node) if isinstance(node.ctx, gast.Load): node = self._surround_with_ld(node) return node def visit_Name(self, node): assert isinstance(node, gast.Name) self.generic_visit(node) if isinstance(node.ctx, gast.Load): node = self._surround_with_ld(node) return node class AttributeJstTransformer(BaseTransformer): """ change some special attribute into __jst.XXX(obj, "attr_name") format. for example: a.size --> __jst.attr(a, "size") because `size` have different behavier when in dygraph / static graph mode NOTE: we only deal with ctx=Load() case. """ def __init__(self, node): assert isinstance( node, gast.AST ), "Input non-gast.AST node for the initialization of ToTensorTransformer." self.interested_name = { 'size', } self.root = node def transform(self): self.visit(self.root) return self.root def visit_Attribute(self, node): assert isinstance(node, gast.Attribute) assert isinstance(node.attr, str) if ( isinstance(node.ctx, gast.Load) and node.attr in self.interested_name ): attr = node.attr value = node.value node = ( gast.parse( "_jst.Attr({}, \"{}\")".format( utils.ast_to_source_code(value).strip(), attr ) ) .body[0] .value ) self.generic_visit(node) return node def is_to_variable(node): assert isinstance(node, gast.Call) api_name = utils.ast_to_source_code(node.func).strip() if utils.is_dygraph_api(node): return api_name.endswith("to_variable") return False def to_assign_node(node): # Transform dygraph api `fluid.dygraph.to_variable` alias `paddle.to_tensor` to static api `paddle.assign`. # NOTE: # 1. Api `to_variable` supports data type {float16, float32, float64, int16, int32, int64, uint8, uint16}, # but api `assign` only supports {float32, float64, int32, int64, bool}; # 2. If the input of api `assign` is numpy.ndarray, its size cannot be greater than 1024 * 1024. assert isinstance(node, gast.Call) assign_api = gast.parse('paddle.assign').body[0].value node.func = assign_api if node.args: node.args = [node.args[0]] node.keywords = [] else: for idx, kw in enumerate(node.keywords): if kw.arg == 'value' or kw.arg == 'data': node.keywords[idx].arg = 'x' node.keywords = [node.keywords[idx]] node.args = [] break return node