# Copyright (c) 2019 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 os import copy import pickle import numpy as np from collections import OrderedDict from collections import Iterable from paddle.fluid.framework import Program, program_guard, Parameter, Variable __all__ = ['GraphWrapper', 'VarWrapper', 'OpWrapper'] OPTIMIZER_OPS = [ 'momentum', 'lars_momentum', 'adagrad', 'adam', 'adamax', 'dpsgd', 'decayed_adagrad', 'adadelta', 'rmsprop', ] class VarWrapper(object): def __init__(self, var, graph): assert isinstance(var, Variable) assert isinstance(graph, GraphWrapper) self._var = var self._graph = graph def __eq__(self, v): """ Overwrite this function for ...in... syntax in python. """ return (v is not None) and self._var.name == v._var.name def name(self): """ Get the name of the variable. """ return self._var.name def __repr__(self): return self._var.name def shape(self): """ Get the shape of the varibale. """ return self._var.shape def set_shape(self, shape): """ Set the shape of the variable. """ self._var.desc.set_shape(shape) def inputs(self): """ Get all the operators that use this variable as output. Returns: list: A list of operators. """ ops = [] for op in self._graph.ops(): if self in op.all_outputs(): ops.append(op) return ops def outputs(self): """ Get all the operators that use this variable as input. Returns: list: A list of operators. """ ops = [] for op in self._graph.ops(): if self in op.all_inputs(): ops.append(op) return ops def is_parameter(self): return isinstance(self._var, Parameter) class OpWrapper(object): def __init__(self, op, graph): assert isinstance(graph, GraphWrapper) self._op = op self._graph = graph def __eq__(self, op): """ Overwrite this function for ...in... syntax in python. """ return self.idx() == op.idx() def all_inputs(self): """ Get all the input variables of this operator. """ return [ self._graph.var(var_name) for var_name in self._op.input_arg_names ] def all_outputs(self): """ Get all the output variables of this operator. """ return [ self._graph.var(var_name) for var_name in self._op.output_arg_names ] def idx(self): """ Get the id of this operator. """ return self._op.idx def type(self): """ Get the type of this operator. """ return self._op.type def __repr__(self): return "op[id: {}, type: {}; inputs: {}]".format(self.idx(), self.type(), self.all_inputs()) def is_bwd_op(self): """ Whether this operator is backward op. """ return self.type().endswith('_grad') def is_opt_op(self): """ Whether this operator is optimizer op. """ return self.type() in OPTIMIZER_OPS def inputs(self, name): """ Get all the varibales by the input name. """ return [self._graph.var(var_name) for var_name in self._op.input(name)] def outputs(self, name): """ Get all the varibales by the output name. """ return [ self._graph.var(var_name) for var_name in self._op.output(name) ] def set_attr(self, key, value): """ Set the value of attribute by attribute's name. Args: key(str): the attribute name. value(bool|int|str|float|list): the value of the attribute. """ self._op._set_attr(key, value) def attr(self, name): """ Get the attribute by name. Args: name(str): the attribute name. Returns: bool|int|str|float|list: The attribute value. The return value can be any valid attribute type. """ return self._op.attr(name) class GraphWrapper(object): """ It is a wrapper of paddle.fluid.framework.IrGraph with some special functions for paddle slim framework. Args: program(framework.Program): A program with in_nodes(dict): A dict to indicate the input nodes of the graph. The key is user-defined and human-readable name. The value is the name of Variable. out_nodes(dict): A dict to indicate the input nodes of the graph. The key is user-defined and human-readable name. The value is the name of Variable. """ def __init__(self, program=None, in_nodes=[], out_nodes=[]): """ """ super(GraphWrapper, self).__init__() self.program = Program() if program is None else program self.persistables = {} self.teacher_persistables = {} for var in self.program.list_vars(): if var.persistable: self.persistables[var.name] = var self.compiled_graph = None in_nodes = [] if in_nodes is None else in_nodes out_nodes = [] if out_nodes is None else out_nodes self.in_nodes = OrderedDict(in_nodes) self.out_nodes = OrderedDict(out_nodes) self._attrs = OrderedDict() def all_parameters(self): """ Get all the parameters in this graph. Returns: list: A list of VarWrapper instances. """ params = [] for block in self.program.blocks: for param in block.all_parameters(): params.append(VarWrapper(param, self)) return params def is_parameter(self, var): """ Whether the given variable is parameter. Args: var(VarWrapper): The given varibale. """ return isinstance(var._var, Parameter) def is_persistable(self, var): """ Whether the given variable is persistable. Args: var(VarWrapper): The given varibale. """ return var._var.persistable def ops(self): """ Return all operator nodes included in the graph as a set. """ ops = [] for block in self.program.blocks: for op in block.ops: ops.append(OpWrapper(op, self)) return ops def vars(self): """ Get all the variables. """ return [VarWrapper(var, self) for var in self.program.list_vars()] def var(self, name): """ Get the variable by variable name. """ for block in self.program.blocks: if block.has_var(name): return VarWrapper(block.var(name), self) return None def clone(self, for_test=False): """ Clone a new graph from current graph. Returns: (GraphWrapper): The wrapper of a new graph. """ return GraphWrapper( self.program.clone(for_test), copy.deepcopy(self.in_nodes), copy.deepcopy(self.out_nodes)) def program(self): """ Get the program in current wrapper. """ return self.program def pre_ops(self, op): """ Get all the previous operators of target operator. Args: op(OpWrapper): Target operator. Returns: list: A list of operators. """ ops = [] for p in self.ops(): for in_var in op.all_inputs(): if in_var in p.all_outputs(): ops.append(p) return ops def next_ops(self, op): """ Get all the next operators of target operator. Args: op(OpWrapper): Target operator. Returns: list: A list of operators. """ ops = [] for p in self.ops(): for out_var in op.all_outputs(): if out_var in p.all_inputs(): ops.append(p) return ops def get_param_by_op(self, op): """ Get the parameters used by target operator. """ assert isinstance(op, OpWrapper) params = [] for var in op.all_inputs(): if isinstance(var._var, Parameter): params.append(var) assert len(params) > 0 return params def numel_params(self): """ Get the number of elements in all parameters. """ ret = 0 for param in self.all_parameters(): ret += np.product(param.shape()) return ret def update_param_shape(self, scope): """ Update the shape of parameters in the graph according to tensors in scope. It is used after loading pruned parameters from file. """ for param in self.all_parameters(): tensor_shape = np.array( scope.find_var(param.name()).get_tensor()).shape param.set_shape(tensor_shape) def infer_shape(self): """ Update the groups of convolution layer according to current filters. It is used after loading pruned parameters from file. """ for op in self.ops(): if op.type() != 'conditional_block': op._op.desc.infer_shape(op._op.block.desc) def update_groups_of_conv(self): for op in self.ops(): if op.type() == 'depthwise_conv2d' or op.type( ) == 'depthwise_conv2d_grad': op.set_attr('groups', op.inputs('Filter')[0].shape()[0])