trace_fc_fuser.py

#   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 numpy as np
from x2paddle.optimizer.pattern_matcher import FuseBase
from x2paddle.core.program import PaddleGraph, PaddleLayer
from x2paddle.core.util import *


class TraceFcFuser(FuseBase):
    def __init__(self):
        self.linear_index = 0
        super(TraceFcFuser, self).__init__(graph_type="dygraph")
        self.patterns = list()
        
    def build_pattern(self):
        """ 描述需要替换的fc图结构。
        fc层模式python实现代码示例:
           模式一：
           encoder_layer_8_attention_self_key_weight = self.encoder_layer_8_attention_self_key_weight
           x748 = paddle.transpose(x=encoder_layer_8_attention_self_key_weight, perm=[1, 0])
           x749 = paddle.matmul(x=x732, y=x748)
           encoder_layer_8_attention_self_key_bias = self.encoder_layer_8_attention_self_key_bias
           x750 = x749 + 1 * encoder_layer_8_attention_self_key_bias
           模式二：
           x13 = self.x13
           x14 = paddle.transpose(x=x13, perm=[1, 0])
           x15 = self.x15
           x16 = paddle.addmm(input=x15, x=x12, y=x14, beta=1, alpha=1)
        """

        def gen_name(id):
            return "x" + str(id)

        pattern = PaddleGraph(graph_type="dygraph")
        pattern.add_layer(
            "self.create_parameter",
            inputs={},
            outputs=[gen_name(0)])
        pattern.add_layer(
            "paddle.transpose",
            inputs={"x": gen_name(0)},
            outputs=[gen_name(1)],
            perm=[1, 0])
        pattern.add_layer(
            "paddle.matmul",
            inputs={"x": "fc-input-0",
                    "y": gen_name(1)},
            outputs=[gen_name(2)])
        pattern.add_layer(
            "self.create_parameter",
            inputs={},
            outputs=[gen_name(3)])
        pattern.add_layer(
            "prim.add_",
            inputs={"x": gen_name(2),
                    "y": gen_name(3)},
            outputs=[gen_name(4)],
            alpha=1)
        pattern.build(inputs={"input-0": "fc-input-0"})
        self.patterns.append(pattern)
        
        pattern = PaddleGraph(graph_type="dygraph")
        pattern.add_layer(
            "self.create_parameter",
            inputs={},
            outputs=[gen_name(0)])
        pattern.add_layer(
            "paddle.transpose",
            inputs={"x": gen_name(0)},
            outputs=[gen_name(1)],
            perm=[1, 0])
        pattern.add_layer(
            "self.create_parameter",
            inputs={},
            outputs=[gen_name(2)])
        pattern.add_layer(
            "paddle.addmm",
            inputs={"input": gen_name(2),
                    "x": "fc-input-0",
                    "y": gen_name(1)},
            outputs=[gen_name(4)],
            alpha=1,
            beta=1)
        pattern.build(inputs={"input-0": "fc-input-0"})
        self.patterns.append(pattern)
        

    def insert_new_layer(self, graph, parameters, matches):
        new_layer = self.gen_new_layer(parameters, matches)
        new_layer_id = list(matches.keys())[0]
        graph.layers[new_layer_id] = new_layer
        matches.pop(new_layer_id)

    def gen_new_layer(self, parameters, matches):
        layers_id = list(matches.keys())
        if len(layers_id) == 5:
            layer = matches[layers_id[2]]
        else:
            layer = matches[layers_id[-1]]
        input_name = layer.inputs["x"]
        scope_name = layer.scope_name
        layer = matches[layers_id[-1]]
        output_name = layer.outputs[0]
        layer = matches[layers_id[0]]
        weight_name = layer.outputs[0]
        layer = matches[layers_id[-2]]
        bias_name = layer.outputs[0]
        attrs = dict()
        attrs["in_features"] = parameters[weight_name].shape[1]
        attrs["out_features"] = parameters[weight_name].shape[0]
        linear_name = "linear{}".format(self.linear_index)
        self.linear_index += 1
        parameters["{}.weight".format(linear_name)] = parameters[
            weight_name].transpose((1, 0))
        parameters["{}.bias".format(linear_name)] = np.squeeze(parameters[
            bias_name])
        new_layer = PaddleLayer(
            layers_id[0],
            "paddle.nn.Linear",
            inputs={"input": input_name},
            outputs=[linear_name, output_name],
            scope_name=scope_name,
            **attrs)
        return new_layer