# 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.pytorch_optimizer.pattern_matcher import FuseBase from x2paddle.core.program import PaddleGraph, PaddleLayer from x2paddle.core.util import * class InterpolateBilinearFuser(FuseBase): def __init__(self): super(InterpolateBilinearFuser, self).__init__(graph_type="dygraph") import torch torch_version = torch.__version__ torch_version_part = torch_version.split(".") if int(torch_version_part[0]) == 1 and int(torch_version_part[1]) > 5: self.version_gt_150 = True else: self.version_gt_150 = False def build_pattern(self): """ 描述需要替换的双线性插值图结构。 interpolate_bilinear层模式python实现代码示例: x3016 = fluid.layers.shape(input=x3005) x3016 = len(x3016) x3017 = x3016 - 2 x3018 = [] for _x3020 in range(x3017): x3018.append(None) x3021 = (x3005, x8, None, None) x3022 = fluid.layers.shape(input=x3005) x3022 = len(x3022) x3023 = x3022 == 3 if x3023 : raise RaiseException('Exception') x3024 = None else: x3026 = fluid.layers.shape(input=x3005) x3026 = len(x3026) x3027 = x3026 == 4 if x3027 : x3044, x3045, x3046, x3047 = x3021 x3048 = x3045 is None if x3048 : x3051 = x3046 is None x3049 = x3051 x3050 = x3045 else: x3052 = x3045 x3049 = False x3050 = x3052 if x3049 : raise RaiseException('Exception') x3055 = x3050 is not None if x3055 : x3058 = x3050 x3059 = x3046 is not None x3056 = x3059 x3057 = x3058 else: x3056 = False x3057 = x3050 if x3056 : raise RaiseException('Exception') x3060 = None x3061 = None else: x3060 = x3046 x3061 = x3057 x3063 = x3060 is not None if x3063 : x3065 = x3060 x3066 = len(x3065) x3067 = x3066 != 2 if x3067 : raise RaiseException('Exception') x3064 = x3065 else: x3064 = x3060 x3070 = x3061 is not None if x3070 : x3072 = x3061 x3071 = x3072 else: x3071 = None if x3070 : x3073 = x3071 else: x3074 = x3064 is not None if x3074 : x3076 = x3064 x3075 = x3076 else: raise RaiseException('Exception') x3075 = None x3078 = x3047 is None if x3078 : x3080 = len(x3075) x3081 = x3080 > 0 x3086 = 0 for x3083 in range(2147483647): x3087 = x3075[x3086] x3088 = math.floor(x3087) x3089 = x3088 != x3087 if x3089 : x3090 = False x3091 = x3089 else: x3090 = None x3091 = None if x3089 : x3092 = x3090 x3093 = x3091 else: x3092 = True x3093 = x3089 x3094 = x3086 + 1 x3095 = x3094 < x3080 x3096 = x3095 and x3092 x3082 = x3093 x3083 = x3094 if x3082 : import warnings warnings.warn('The default behavior for interpolate/upsample with float scale_factor will change in 1.6.0 to align with other frameworks/libraries, and use scale_factor directly, instead of relying on the computed output size. If you wish to keep the old behavior, please set recompute_scale_factor=True. See the documentation of nn.Upsample for details. ', stacklevel=2) x3099 = [] for _x3101 in range(2): x3102 = _x3101 + 2 x3103 = fluid.layers.shape(x3044)[x3102] x3104 = float(x3103) x3105 = x3075[_x3101] x3106 = x3104 * x3105 x3107 = math.floor(x3106) x3099.append(x3107) x3073 = x3099 x3108 = x3018[0] x3109 = x3018[1] x3073_isinstance = isinstance(x3073, paddle.fluid.Variable) if x3073_isinstance : x3073 = x3073.numpy().tolist() assert x3108 == x3109, 'The x3108 must be x3109!' x3110 = paddle.nn.functional.interpolate(x=x3005, size=x3073, scale_factor=x3108, align_corners=False, align_mode=0) x3028 = x3110 else: x3111 = fluid.layers.shape(input=x3005) x3111 = len(x3111) x3112 = x3111 == 5 if x3112 : raise RaiseException('Exception') else: raise RaiseException('Exception') x3028 = None x3024 = x3028 """ def gen_name(id): return "x" + str(id) if self.version_gt_150: self.pattern.add_layer( "fluid.layers.shape", inputs={"input": "interpolate-input-0"}, outputs=[gen_name(9)]) self.pattern.add_layer( "prim.len", inputs={"input": gen_name(9)}, outputs=[gen_name(9)]) self.pattern.add_layer( "prim.sub", inputs={"x": gen_name(9)}, outputs=[gen_name(10)], y=2) self.pattern.add_layer( "prim.list", inputs={}, outputs=[gen_name(11)]) self.pattern.add_layer( "prim.loop", inputs={"input": gen_name(10)}, outputs=[gen_name(12.1), gen_name(12.2)]) loop_layer = self.pattern.layers[list(self.pattern.layers.keys())[ -1]] pattern_block = PaddleGraph(loop_layer, graph_type="dygraph") pattern_block.add_layer( "prim.append", inputs={"list": gen_name(11)}, outputs=[], element=None) loop_layer.inputs["input-0"] = gen_name(11) loop_layer.add_block(pattern_block) self.pattern.add_layer( "prim.tuple", inputs={ "input0": "interpolate-input-0", "input1": "interpolate-input-1", }, outputs=[gen_name(13)], input2=None, input3=None) self.pattern.add_layer( "fluid.layers.shape", inputs={"input": "interpolate-input-0"}, outputs=[gen_name(14)]) self.pattern.add_layer( "prim.len", inputs={"input": gen_name(14)}, outputs=[gen_name(14)]) self.pattern.add_layer( "prim.eq", inputs={"x": gen_name(14)}, outputs=[gen_name(15)], y=3) self.pattern.add_layer( "prim.if", inputs={"input": gen_name(15)}, outputs=[gen_name(16)]) if_layer1 = self.pattern.layers[list(self.pattern.layers.keys())[ -1]] pattern_block = PaddleGraph(if_layer1, graph_type="dygraph") pattern_block.add_layer( "prim.exception", inputs={}, outputs=[gen_name(17)], input="Exception") pattern_block.add_layer( "prim.equal", inputs={}, outputs=[gen_name(16)], input=None) if_layer1.add_block(pattern_block) pattern_block = PaddleGraph(if_layer1, graph_type="dygraph") pattern_block.add_layer( "fluid.layers.shape", inputs={"input": "interpolate-input-0"}, outputs=[gen_name(18)]) pattern_block.add_layer( "prim.len", inputs={"input": gen_name(18)}, outputs=[gen_name(18)]) pattern_block.add_layer( "prim.eq", inputs={"x": gen_name(18)}, outputs=[gen_name(19)], y=4) pattern_block.add_layer( "prim.if", inputs={"input": gen_name(19)}, outputs=[gen_name(20)]) if_layer2 = pattern_block.layers[list(pattern_block.layers.keys())[ -1]] pattern_block_block = PaddleGraph(if_layer2, graph_type="dygraph") pattern_block_block.add_layer( "prim.tuple_unpack", inputs={"input": gen_name(13)}, outputs=[ gen_name(34), gen_name(35), gen_name(36), gen_name(37) ]) pattern_block_block.add_layer( "prim.is", inputs={"x": gen_name(35)}, outputs=[gen_name(38)], y=None) pattern_block_block.add_layer( "prim.if", inputs={"input": gen_name(38)}, outputs=[gen_name(39), gen_name(40)]) if_layer3 = pattern_block_block.layers[list( pattern_block_block.layers.keys())[-1]] pattern_block_block_block = PaddleGraph( if_layer3, graph_type="dygraph") pattern_block_block_block.add_layer( "prim.is", inputs={"x": gen_name(36)}, outputs=[gen_name(41)], y=None) pattern_block_block_block.add_layer( "prim.equal", inputs={"input": gen_name(41)}, outputs=[gen_name(39)]) pattern_block_block_block.add_layer( "prim.equal", inputs={"input": gen_name(35)}, outputs=[gen_name(40)]) if_layer3.add_block(pattern_block_block_block) pattern_block_block_block = PaddleGraph( if_layer3, graph_type="dygraph") pattern_block_block_block.add_layer( "prim.equal", inputs={"input": gen_name(35)}, outputs=[gen_name(42)]) pattern_block_block_block.add_layer( "prim.equal", inputs={}, outputs=[gen_name(39)], input=False) pattern_block_block_block.add_layer( "prim.equal", inputs={"input": gen_name(35)}, outputs=[gen_name(40)]) if_layer3.add_block(pattern_block_block_block) if_layer3.inputs.update({ "input-0": gen_name(36), 'input-1': gen_name(35), 'input-2': gen_name(35), }) pattern_block_block.add_layer( "prim.if", inputs={"input": gen_name(39)}, outputs=[gen_name(43)]) if_layer4 = pattern_block_block.layers[list( pattern_block_block.layers.keys())[-1]] pattern_block_block_block = PaddleGraph( if_layer4, graph_type="dygraph") pattern_block_block_block.add_layer( "prim.exception", inputs={}, outputs=[gen_name(44)], input="Exception") if_layer4.add_block(pattern_block_block_block) pattern_block_block_block = PaddleGraph( if_layer4, graph_type="dygraph") if_layer4.add_block(pattern_block_block_block) pattern_block_block.add_layer( "prim.isnot", inputs={"x": gen_name(40)}, outputs=[gen_name(45)], y=None) pattern_block_block.add_layer( "prim.if", inputs={"input": gen_name(45)}, outputs=[gen_name(46), gen_name(47)]) if_layer5 = pattern_block_block.layers[list( pattern_block_block.layers.keys())[-1]] pattern_block_block_block = PaddleGraph( if_layer5, graph_type="dygraph") pattern_block_block_block.add_layer( "prim.equal", inputs={"input": gen_name(40)}, outputs=[gen_name(48)]) pattern_block_block_block.add_layer( "prim.isnot", inputs={"x": gen_name(36)}, outputs=[gen_name(49)], y=None) pattern_block_block_block.add_layer( "prim.equal", inputs={"input": gen_name(49)}, outputs=[gen_name(46)]) pattern_block_block_block.add_layer( "prim.equal", inputs={"input": gen_name(48)}, outputs=[gen_name(47)]) if_layer5.add_block(pattern_block_block_block) pattern_block_block_block = PaddleGraph( if_layer5, graph_type="dygraph") pattern_block_block_block.add_layer( "prim.equal", inputs={}, outputs=[gen_name(46)], input=False) pattern_block_block_block.add_layer( "prim.equal", inputs={"input": gen_name(40)}, outputs=[gen_name(47)]) if_layer5.add_block(pattern_block_block_block) if_layer5.inputs.update({ "input-0": gen_name(40), "input-1": gen_name(36), "input-3": gen_name(40) }) pattern_block_block.add_layer( "prim.if", inputs={"input": gen_name(46)}, outputs=[gen_name(50), gen_name(51)]) if_layer6 = pattern_block_block.layers[list( pattern_block_block.layers.keys())[-1]] pattern_block_block_block = PaddleGraph( if_layer6, graph_type="dygraph") pattern_block_block_block.add_layer( "prim.exception", inputs={}, outputs=[gen_name(52)], input="Exception") pattern_block_block_block.add_layer( "prim.equal", inputs={}, outputs=[gen_name(50)], input=None) pattern_block_block_block.add_layer( "prim.equal", inputs={}, outputs=[gen_name(51)], input=None) if_layer6.add_block(pattern_block_block_block) pattern_block_block_block = PaddleGraph( if_layer6, graph_type="dygraph") pattern_block_block_block.add_layer( "prim.equal", inputs={"input": gen_name(36)}, outputs=[gen_name(50)]) pattern_block_block_block.add_layer( "prim.equal", inputs={"input": gen_name(47)}, outputs=[gen_name(51)]) if_layer6.add_block(pattern_block_block_block) if_layer6.inputs.update({ "input-0": gen_name(36), "input-1": gen_name(47) }) pattern_block_block.add_layer( "prim.isnot", inputs={"x": gen_name(50)}, outputs=[gen_name(53)], y=None) pattern_block_block.add_layer( "prim.if", inputs={"input": gen_name(53)}, outputs=[gen_name(54)]) if_layer7 = pattern_block_block.layers[list( pattern_block_block.layers.keys())[-1]] pattern_block_block_block = PaddleGraph( if_layer7, graph_type="dygraph") pattern_block_block_block.add_layer( "prim.equal", inputs={"input": gen_name(50)}, outputs=[gen_name(55)]) pattern_block_block_block.add_layer( "prim.len", inputs={"input": gen_name(55)}, outputs=[gen_name(56)]) pattern_block_block_block.add_layer( "prim.ne", inputs={"x": gen_name(56)}, outputs=[gen_name(57)], y=2) pattern_block_block_block.add_layer( "prim.if", inputs={"input": gen_name(57)}, outputs=[gen_name(58)]) if_layer8 = pattern_block_block_block.layers[list( pattern_block_block_block.layers.keys())[-1]] pattern_block_block_block_block = PaddleGraph( if_layer8, graph_type="dygraph") pattern_block_block_block_block.add_layer( "prim.exception", inputs={}, outputs=[gen_name(59)], input="Exception") if_layer8.add_block(pattern_block_block_block_block) pattern_block_block_block_block = PaddleGraph( if_layer8, graph_type="dygraph") if_layer8.add_block(pattern_block_block_block_block) pattern_block_block_block.add_layer( "prim.equal", inputs={"input": gen_name(55)}, outputs=[gen_name(54)]) if_layer7.add_block(pattern_block_block_block) pattern_block_block_block = PaddleGraph( if_layer7, graph_type="dygraph") pattern_block_block_block.add_layer( "prim.equal", inputs={"input": gen_name(50)}, outputs=[gen_name(54)]) if_layer7.add_block(pattern_block_block_block) if_layer7.inputs.update({ "input-0": gen_name(50), "input-1": gen_name(50) }) pattern_block_block.add_layer( "prim.isnot", inputs={"x": gen_name(51)}, outputs=[gen_name(60)], y=None) pattern_block_block.add_layer( "prim.if", inputs={"input": gen_name(60)}, outputs=[gen_name(61)]) if_layer9 = pattern_block_block.layers[list( pattern_block_block.layers.keys())[-1]] pattern_block_block_block = PaddleGraph( if_layer9, graph_type="dygraph") pattern_block_block_block.add_layer( "prim.equal", inputs={"input": gen_name(51)}, outputs=[gen_name(62)]) pattern_block_block_block.add_layer( "prim.equal", inputs={"input": gen_name(62)}, outputs=[gen_name(61)]) if_layer9.add_block(pattern_block_block_block) pattern_block_block_block = PaddleGraph( if_layer9, graph_type="dygraph") pattern_block_block_block.add_layer( "prim.isnot", inputs={"x": gen_name(54)}, outputs=[gen_name(64)], y=None) pattern_block_block_block.add_layer( "prim.if", inputs={"input": gen_name(64)}, outputs=[gen_name(65)]) if_layer11 = pattern_block_block_block.layers[list( pattern_block_block_block.layers.keys())[-1]] pattern_block_block_block_block = PaddleGraph( if_layer11, graph_type="dygraph") pattern_block_block_block_block.add_layer( "prim.equal", inputs={"input": gen_name(54)}, outputs=[gen_name(66)]) pattern_block_block_block_block.add_layer( "prim.equal", inputs={"input": gen_name(66)}, outputs=[gen_name(65)]) if_layer11.add_block(pattern_block_block_block_block) pattern_block_block_block_block = PaddleGraph( if_layer11, graph_type="dygraph") pattern_block_block_block_block.add_layer( "prim.exception", inputs={}, outputs=[gen_name(67)], input="Exception") pattern_block_block_block_block.add_layer( "prim.equal", inputs={}, outputs=[gen_name(65)], input=None) if_layer11.add_block(pattern_block_block_block_block) if_layer11.inputs.update({"input-0": gen_name(54), }) pattern_block_block_block.add_layer( "prim.is", inputs={"x": gen_name(37)}, outputs=[gen_name(68)], y=None) pattern_block_block_block.add_layer( "prim.if", inputs={"input": gen_name(68)}, outputs=[gen_name(69)]) if_layer12 = pattern_block_block_block.layers[list( pattern_block_block_block.layers.keys())[-1]] pattern_block_block_block_block = PaddleGraph( if_layer12, graph_type="dygraph") pattern_block_block_block_block.add_layer( "prim.len", inputs={"input": gen_name(65)}, outputs=[gen_name(70)]) pattern_block_block_block_block.add_layer( "prim.gt", inputs={"x": gen_name(70)}, outputs=[gen_name(71)], y=0) pattern_block_block_block_block.add_layer( "prim.equal", inputs={}, outputs=[gen_name(72)], input=0) pattern_block_block_block_block.add_layer( "prim.loop", inputs={}, outputs=[gen_name(74), gen_name(75), gen_name(76.1)], input=2147483647) loop_layer = pattern_block_block_block_block.layers[list( pattern_block_block_block_block.layers.keys())[-1]] pattern_loop_block = PaddleGraph(loop_layer, graph_type="dygraph") pattern_loop_block.add_layer( "prim.getitem", inputs={"list": gen_name(65), "element": gen_name(72)}, outputs=[gen_name(74.1)]) pattern_loop_block.add_layer( "prim.floor", inputs={"input": gen_name(74.1)}, outputs=[gen_name(75.1)]) pattern_loop_block.add_layer( "prim.ne", inputs={"x": gen_name(75.1), "y": gen_name(74.1)}, outputs=[gen_name(76)]) pattern_loop_block.add_layer( "prim.if", inputs={"input": gen_name(76)}, outputs=[gen_name(77)]) if_layer13 = pattern_loop_block.layers[list( pattern_loop_block.layers.keys())[-1]] pattern_loop_block_block = PaddleGraph( if_layer13, graph_type="dygraph") pattern_loop_block_block.add_layer( "prim.equal", inputs={}, outputs=[gen_name(77)], input=False) if_layer13.add_block(pattern_loop_block_block) pattern_loop_block_block = PaddleGraph( if_layer13, graph_type="dygraph") pattern_loop_block_block.add_layer( "prim.equal", inputs={}, outputs=[gen_name(77)], input=True) if_layer13.add_block(pattern_loop_block_block) pattern_loop_block.add_layer( "prim.add", inputs={"x": gen_name(72)}, outputs=[gen_name(81)], y=1) pattern_loop_block.add_layer( "prim.lt", inputs={"x": gen_name(81), "y": gen_name(70)}, outputs=[gen_name(82)]) pattern_loop_block.add_layer( "prim.and", inputs={"x": gen_name(82), "y": gen_name(77)}, outputs=[gen_name(83)]) pattern_loop_block.add_layer( "prim.equal", inputs={"input": gen_name(76)}, outputs=[gen_name(74)]) pattern_loop_block.add_layer( "prim.equal", inputs={"input": gen_name(81)}, outputs=[gen_name(75)]) loop_layer.add_block(pattern_loop_block) loop_layer.inputs.update({ "input-0": gen_name(65), "input-1": gen_name(72), "input-2": gen_name(72), "input-3": gen_name(70) }) pattern_block_block_block_block.add_layer( "prim.if", inputs={"input": gen_name(74)}, outputs=[gen_name(84)]) if_layer15 = pattern_block_block_block_block.layers[list( pattern_block_block_block_block.layers.keys())[-1]] pattern_block_block_block_block_block = PaddleGraph( if_layer15, graph_type="dygraph") pattern_block_block_block_block_block.add_layer( "prim.warnings", inputs={}, outputs=[gen_name(85)], stacklevel=2, input="...") if_layer15.add_block(pattern_block_block_block_block_block) pattern_block_block_block_block_block = PaddleGraph( if_layer15, graph_type="dygraph") if_layer15.add_block(pattern_block_block_block_block_block) if_layer12.add_block(pattern_block_block_block_block) pattern_block_block_block_block = PaddleGraph( if_layer12, graph_type="dygraph") if_layer12.add_block(pattern_block_block_block_block) if_layer12.inputs.update({ "input-0": gen_name(65), "input-1": gen_name(65), }) pattern_block_block_block.add_layer( "prim.list", inputs={}, outputs=[gen_name(86)]) pattern_block_block_block.add_layer( "prim.loop", inputs={}, outputs=[gen_name(87), gen_name(88)], input=2) loop_layer = pattern_block_block_block.layers[list( pattern_block_block_block.layers.keys())[-1]] pattern_loop_block = PaddleGraph(loop_layer, graph_type="dygraph") pattern_loop_block.add_layer( "prim.add", inputs={"x": gen_name(88)}, outputs=[gen_name(89)], y=2) pattern_loop_block.add_layer( "prim.shape_dim", inputs={"input": gen_name(34), "dim": gen_name(89)}, outputs=[gen_name(90)]) pattern_loop_block.add_layer( "prim.float", inputs={"input": gen_name(90)}, outputs=[gen_name(91)]) pattern_loop_block.add_layer( "prim.getitem", inputs={"list": gen_name(65), "element": gen_name(88)}, outputs=[gen_name(92)]) pattern_loop_block.add_layer( "prim.mul", inputs={"x": gen_name(91), "y": gen_name(92)}, outputs=[gen_name(93)]) pattern_loop_block.add_layer( "prim.floor", inputs={"input": gen_name(93)}, outputs=[gen_name(94)]) pattern_loop_block.add_layer( "prim.append", inputs={"list": gen_name(86), "element": gen_name(94)}, outputs=[]) loop_layer.add_block(pattern_loop_block) loop_layer.inputs.update({ "input-0": gen_name(34), "input-1": gen_name(65), "input-2": gen_name(86) }) pattern_block_block_block.add_layer( "prim.equal", inputs={"input": gen_name(86)}, outputs=[gen_name(61)]) if_layer9.add_block(pattern_block_block_block) if_layer9.inputs.update({ "input-0": gen_name(51), "input-1": gen_name(54), "input-2": gen_name(54), "input-3": gen_name(37), "input-4": gen_name(34) }) pattern_block_block.add_layer( "prim.getitem", inputs={"list": gen_name(11)}, outputs=[gen_name(95)], element=0) pattern_block_block.add_layer( "prim.getitem", inputs={"list": gen_name(11)}, outputs=[gen_name(96)], element=1) pattern_block_block.add_layer( "prim.isinstance", inputs={"input": gen_name(61)}, outputs=["interpolate-input-0_isinstance"], cls="paddle.fluid.Variable") pattern_block_block.add_layer( "prim.if", {"input": "interpolate-input-0_isinstance"}, outputs=["interpolate-input-0_if1"]) if_layer_isinstance = pattern_block_block.layers[list( pattern_block_block.layers.keys())[-1]] pattern_block_block_block = PaddleGraph( if_layer_isinstance, graph_type="dygraph") pattern_block_block_block.add_layer( "prim.var2list", inputs={"input": gen_name(61)}, outputs=[gen_name(61)]) if_layer_isinstance.add_block(pattern_block_block_block) pattern_block_block_block = PaddleGraph( if_layer_isinstance, graph_type="dygraph") if_layer_isinstance.add_block(pattern_block_block_block) if_layer_isinstance.inputs["input-0"] = gen_name(61) pattern_block_block.add_layer( "prim.assert", inputs={"key": gen_name(95), "value": gen_name(96)}, outputs=[gen_name(97) + "_assert"], type="eq") pattern_block_block.add_layer( "paddle.nn.functional.interpolate", inputs={ "input": "interpolate-input-0", "size": gen_name(61), "scale_factor": gen_name(95) }, outputs=[gen_name(97)], align_corners=False, align_mode=0) pattern_block_block.add_layer( "prim.equal", inputs={"input": gen_name(97)}, outputs=[gen_name(20)]) if_layer2.add_block(pattern_block_block) pattern_block_block = PaddleGraph(if_layer2, graph_type="dygraph") pattern_block_block.add_layer( "fluid.layers.shape", inputs={"input": "interpolate-input-0"}, outputs=[gen_name(98)]) pattern_block_block.add_layer( "prim.len", inputs={"input": gen_name(98)}, outputs=[gen_name(98)]) pattern_block_block.add_layer( "prim.eq", inputs={"x": gen_name(98)}, outputs=[gen_name(99)], y=5) pattern_block_block.add_layer( "prim.if", inputs={"input": gen_name(99)}, outputs=[gen_name(100)]) if_layer16 = pattern_block_block.layers[list( pattern_block_block.layers.keys())[-1]] pattern_block_block_block = PaddleGraph( if_layer16, graph_type="dygraph") pattern_block_block_block.add_layer( "prim.exception", inputs={}, outputs=[gen_name(101)], input="Exception") if_layer16.add_block(pattern_block_block_block) pattern_block_block_block = PaddleGraph( if_layer16, graph_type="dygraph") pattern_block_block_block.add_layer( "prim.exception", inputs={}, outputs=[gen_name(102)], input="Exception") if_layer16.add_block(pattern_block_block_block) pattern_block_block.add_layer( "prim.equal", inputs={}, outputs=[gen_name(20)], input=None) if_layer2.add_block(pattern_block_block) if_layer2.inputs.update({ "input-0": gen_name(13), "input-1": gen_name(13), "input-2": "interpolate-input-0", "input-3": gen_name(11), "input-5": gen_name(11), }) pattern_block.add_layer( "prim.equal", inputs={"input": gen_name(20)}, outputs=[gen_name(16)]) if_layer1.add_block(pattern_block) if_layer1.inputs.update({ "input-2": "interpolate-input-0", "input-4": gen_name(13), "input-7": gen_name(11), "input-9": gen_name(11), "input-11": "interpolate-input-0", "input-12": "interpolate-input-0", }) self.pattern.build(inputs={ "input-0": "interpolate-input-0", "input-1": "interpolate-input-1" }) else: self.pattern.add_layer( "fluid.layers.shape", inputs={"input": "interpolate-input-0"}, outputs=[gen_name(9)]) self.pattern.add_layer( "prim.len", inputs={"input": gen_name(9)}, outputs=[gen_name(9)]) self.pattern.add_layer( "prim.sub", inputs={"x": gen_name(9)}, outputs=[gen_name(10)], y=2) self.pattern.add_layer( "prim.list", inputs={}, outputs=[gen_name(11)]) self.pattern.add_layer( "prim.loop", inputs={"input": gen_name(10)}, outputs=[gen_name(12.1), gen_name(12.2)]) loop_layer = self.pattern.layers[list(self.pattern.layers.keys())[ -1]] pattern_block = PaddleGraph(loop_layer, graph_type="dygraph") pattern_block.add_layer( "prim.append", inputs={"list": gen_name(11)}, outputs=[], element=None) loop_layer.inputs["input-0"] = gen_name(11) loop_layer.add_block(pattern_block) self.pattern.add_layer( "prim.tuple", inputs={ "input0": "interpolate-input-0", "input1": "interpolate-input-1", }, outputs=[gen_name(13)], input2=None, input3=None) self.pattern.add_layer( "fluid.layers.shape", inputs={"input": "interpolate-input-0"}, outputs=[gen_name(14)]) self.pattern.add_layer( "prim.len", inputs={"input": gen_name(14)}, outputs=[gen_name(14)]) self.pattern.add_layer( "prim.eq", inputs={"x": gen_name(14)}, outputs=[gen_name(15)], y=3) self.pattern.add_layer( "prim.if", inputs={"input": gen_name(15)}, outputs=[gen_name(16)]) if_layer1 = self.pattern.layers[list(self.pattern.layers.keys())[ -1]] pattern_block = PaddleGraph(if_layer1, graph_type="dygraph") pattern_block.add_layer( "prim.exception", inputs={}, outputs=[gen_name(17)], input="Exception") pattern_block.add_layer( "prim.equal", inputs={}, outputs=[gen_name(16)], input=None) if_layer1.add_block(pattern_block) pattern_block = PaddleGraph(if_layer1, graph_type="dygraph") pattern_block.add_layer( "fluid.layers.shape", inputs={"input": "interpolate-input-0"}, outputs=[gen_name(18)]) pattern_block.add_layer( "prim.len", inputs={"input": gen_name(18)}, outputs=[gen_name(18)]) pattern_block.add_layer( "prim.eq", inputs={"x": gen_name(18)}, outputs=[gen_name(19)], y=4) pattern_block.add_layer( "prim.if", inputs={"input": gen_name(19)}, outputs=[gen_name(20)]) if_layer2 = pattern_block.layers[list(pattern_block.layers.keys())[ -1]] pattern_block_block = PaddleGraph(if_layer2, graph_type="dygraph") pattern_block_block.add_layer( "prim.tuple_unpack", inputs={"input": gen_name(13)}, outputs=[ gen_name(34), gen_name(35), gen_name(36), gen_name(37) ]) pattern_block_block.add_layer( "prim.is", inputs={"x": gen_name(35)}, outputs=[gen_name(38)], y=None) pattern_block_block.add_layer( "prim.if", inputs={"input": gen_name(38)}, outputs=[gen_name(39), gen_name(40)]) if_layer3 = pattern_block_block.layers[list( pattern_block_block.layers.keys())[-1]] pattern_block_block_block = PaddleGraph( if_layer3, graph_type="dygraph") pattern_block_block_block.add_layer( "prim.is", inputs={"x": gen_name(36)}, outputs=[gen_name(41)], y=None) pattern_block_block_block.add_layer( "prim.equal", inputs={"input": gen_name(41)}, outputs=[gen_name(39)]) pattern_block_block_block.add_layer( "prim.equal", inputs={"input": gen_name(35)}, outputs=[gen_name(40)]) if_layer3.add_block(pattern_block_block_block) pattern_block_block_block = PaddleGraph( if_layer3, graph_type="dygraph") pattern_block_block_block.add_layer( "prim.equal", inputs={"input": gen_name(35)}, outputs=[gen_name(42)]) pattern_block_block_block.add_layer( "prim.equal", inputs={}, outputs=[gen_name(39)], input=False) pattern_block_block_block.add_layer( "prim.equal", inputs={"input": gen_name(35)}, outputs=[gen_name(40)]) if_layer3.add_block(pattern_block_block_block) if_layer3.inputs.update({ "input-0": gen_name(36), 'input-1': gen_name(35), 'input-2': gen_name(35), }) pattern_block_block.add_layer( "prim.if", inputs={"input": gen_name(39)}, outputs=[gen_name(43)]) if_layer4 = pattern_block_block.layers[list( pattern_block_block.layers.keys())[-1]] pattern_block_block_block = PaddleGraph( if_layer4, graph_type="dygraph") pattern_block_block_block.add_layer( "prim.exception", inputs={}, outputs=[gen_name(44)], input="Exception") if_layer4.add_block(pattern_block_block_block) pattern_block_block_block = PaddleGraph( if_layer4, graph_type="dygraph") if_layer4.add_block(pattern_block_block_block) pattern_block_block.add_layer( "prim.isnot", inputs={"x": gen_name(40)}, outputs=[gen_name(45)], y=None) pattern_block_block.add_layer( "prim.if", inputs={"input": gen_name(45)}, outputs=[gen_name(46), gen_name(47)]) if_layer5 = pattern_block_block.layers[list( pattern_block_block.layers.keys())[-1]] pattern_block_block_block = PaddleGraph( if_layer5, graph_type="dygraph") pattern_block_block_block.add_layer( "prim.equal", inputs={"input": gen_name(40)}, outputs=[gen_name(48)]) pattern_block_block_block.add_layer( "prim.isnot", inputs={"x": gen_name(36)}, outputs=[gen_name(49)], y=None) pattern_block_block_block.add_layer( "prim.equal", inputs={"input": gen_name(49)}, outputs=[gen_name(46)]) pattern_block_block_block.add_layer( "prim.equal", inputs={"input": gen_name(48)}, outputs=[gen_name(47)]) if_layer5.add_block(pattern_block_block_block) pattern_block_block_block = PaddleGraph( if_layer5, graph_type="dygraph") pattern_block_block_block.add_layer( "prim.equal", inputs={}, outputs=[gen_name(46)], input=False) pattern_block_block_block.add_layer( "prim.equal", inputs={"input": gen_name(40)}, outputs=[gen_name(47)]) if_layer5.add_block(pattern_block_block_block) if_layer5.inputs.update({ "input-0": gen_name(40), "input-1": gen_name(36), "input-3": gen_name(40) }) pattern_block_block.add_layer( "prim.if", inputs={"input": gen_name(46)}, outputs=[gen_name(50), gen_name(51)]) if_layer6 = pattern_block_block.layers[list( pattern_block_block.layers.keys())[-1]] pattern_block_block_block = PaddleGraph( if_layer6, graph_type="dygraph") pattern_block_block_block.add_layer( "prim.exception", inputs={}, outputs=[gen_name(52)], input="Exception") pattern_block_block_block.add_layer( "prim.equal", inputs={}, outputs=[gen_name(50)], input=None) pattern_block_block_block.add_layer( "prim.equal", inputs={}, outputs=[gen_name(51)], input=None) if_layer6.add_block(pattern_block_block_block) pattern_block_block_block = PaddleGraph( if_layer6, graph_type="dygraph") pattern_block_block_block.add_layer( "prim.equal", inputs={"input": gen_name(36)}, outputs=[gen_name(50)]) pattern_block_block_block.add_layer( "prim.equal", inputs={"input": gen_name(47)}, outputs=[gen_name(51)]) if_layer6.add_block(pattern_block_block_block) if_layer6.inputs.update({ "input-0": gen_name(36), "input-1": gen_name(47) }) pattern_block_block.add_layer( "prim.isnot", inputs={"x": gen_name(50)}, outputs=[gen_name(53)], y=None) pattern_block_block.add_layer( "prim.if", inputs={"input": gen_name(53)}, outputs=[gen_name(54)]) if_layer7 = pattern_block_block.layers[list( pattern_block_block.layers.keys())[-1]] pattern_block_block_block = PaddleGraph( if_layer7, graph_type="dygraph") pattern_block_block_block.add_layer( "prim.equal", inputs={"input": gen_name(50)}, outputs=[gen_name(55)]) pattern_block_block_block.add_layer( "prim.len", inputs={"input": gen_name(55)}, outputs=[gen_name(56)]) pattern_block_block_block.add_layer( "prim.ne", inputs={"x": gen_name(56)}, outputs=[gen_name(57)], y=2) pattern_block_block_block.add_layer( "prim.if", inputs={"input": gen_name(57)}, outputs=[gen_name(58)]) if_layer8 = pattern_block_block_block.layers[list( pattern_block_block_block.layers.keys())[-1]] pattern_block_block_block_block = PaddleGraph( if_layer8, graph_type="dygraph") pattern_block_block_block_block.add_layer( "prim.exception", inputs={}, outputs=[gen_name(59)], input="Exception") if_layer8.add_block(pattern_block_block_block_block) pattern_block_block_block_block = PaddleGraph( if_layer8, graph_type="dygraph") if_layer8.add_block(pattern_block_block_block_block) pattern_block_block_block.add_layer( "prim.equal", inputs={"input": gen_name(55)}, outputs=[gen_name(54)]) if_layer7.add_block(pattern_block_block_block) pattern_block_block_block = PaddleGraph( if_layer7, graph_type="dygraph") pattern_block_block_block.add_layer( "prim.equal", inputs={"input": gen_name(50)}, outputs=[gen_name(54)]) if_layer7.add_block(pattern_block_block_block) if_layer7.inputs.update({ "input-0": gen_name(50), "input-1": gen_name(50) }) pattern_block_block.add_layer( "prim.isnot", inputs={"x": gen_name(51)}, outputs=[gen_name(60)], y=None) pattern_block_block.add_layer( "prim.if", inputs={"input": gen_name(60)}, outputs=[gen_name(61)]) if_layer9 = pattern_block_block.layers[list( pattern_block_block.layers.keys())[-1]] pattern_block_block_block = PaddleGraph( if_layer9, graph_type="dygraph") pattern_block_block_block.add_layer( "prim.equal", inputs={"input": gen_name(51)}, outputs=[gen_name(62)]) pattern_block_block_block.add_layer( "prim.equal", inputs={"input": gen_name(62)}, outputs=[gen_name(61)]) if_layer9.add_block(pattern_block_block_block) pattern_block_block_block = PaddleGraph( if_layer9, graph_type="dygraph") pattern_block_block_block.add_layer( "prim.equal", inputs={}, outputs=[gen_name(61)], input=None) if_layer9.add_block(pattern_block_block_block) if_layer9.inputs.update({"input-0": gen_name(51)}) pattern_block_block.add_layer( "prim.if", inputs={"input": gen_name(60)}, outputs=[gen_name(63)]) if_layer10 = pattern_block_block.layers[list( pattern_block_block.layers.keys())[-1]] pattern_block_block_block = PaddleGraph( if_layer10, graph_type="dygraph") pattern_block_block_block.add_layer( "prim.equal", inputs={"input": gen_name(61)}, outputs=[gen_name(63)]) if_layer10.add_block(pattern_block_block_block) pattern_block_block_block = PaddleGraph( if_layer10, graph_type="dygraph") pattern_block_block_block.add_layer( "prim.isnot", inputs={"x": gen_name(54)}, outputs=[gen_name(64)], y=None) pattern_block_block_block.add_layer( "prim.if", inputs={"input": gen_name(64)}, outputs=[gen_name(65)]) if_layer11 = pattern_block_block_block.layers[list( pattern_block_block_block.layers.keys())[-1]] pattern_block_block_block_block = PaddleGraph( if_layer11, graph_type="dygraph") pattern_block_block_block_block.add_layer( "prim.equal", inputs={"input": gen_name(54)}, outputs=[gen_name(66)]) pattern_block_block_block_block.add_layer( "prim.equal", inputs={"input": gen_name(66)}, outputs=[gen_name(65)]) if_layer11.add_block(pattern_block_block_block_block) pattern_block_block_block_block = PaddleGraph( if_layer11, graph_type="dygraph") pattern_block_block_block_block.add_layer( "prim.exception", inputs={}, outputs=[gen_name(67)], input="Exception") pattern_block_block_block_block.add_layer( "prim.equal", inputs={}, outputs=[gen_name(65)], input=None) if_layer11.add_block(pattern_block_block_block_block) if_layer11.inputs.update({"input-0": gen_name(54), }) pattern_block_block_block.add_layer( "prim.is", inputs={"x": gen_name(37)}, outputs=[gen_name(68)], y=None) pattern_block_block_block.add_layer( "prim.if", inputs={"input": gen_name(68)}, outputs=[gen_name(69)]) if_layer12 = pattern_block_block_block.layers[list( pattern_block_block_block.layers.keys())[-1]] pattern_block_block_block_block = PaddleGraph( if_layer12, graph_type="dygraph") pattern_block_block_block_block.add_layer( "prim.len", inputs={"input": gen_name(65)}, outputs=[gen_name(70)]) pattern_block_block_block_block.add_layer( "prim.gt", inputs={"x": gen_name(70)}, outputs=[gen_name(71)], y=0) pattern_block_block_block_block.add_layer( "prim.equal", inputs={}, outputs=[gen_name(72)], input=0) pattern_block_block_block_block.add_layer( "prim.loop", inputs={}, outputs=[gen_name(74), gen_name(75), gen_name(76.1)], input=2147483647) loop_layer = pattern_block_block_block_block.layers[list( pattern_block_block_block_block.layers.keys())[-1]] pattern_loop_block = PaddleGraph(loop_layer, graph_type="dygraph") pattern_loop_block.add_layer( "prim.getitem", inputs={"list": gen_name(65), "element": gen_name(72)}, outputs=[gen_name(74.1)]) pattern_loop_block.add_layer( "prim.floor", inputs={"input": gen_name(74.1)}, outputs=[gen_name(75.1)]) pattern_loop_block.add_layer( "prim.ne", inputs={"x": gen_name(75.1), "y": gen_name(74.1)}, outputs=[gen_name(76)]) pattern_loop_block.add_layer( "prim.if", inputs={"input": gen_name(76)}, outputs=[gen_name(77), gen_name(78)]) if_layer13 = pattern_loop_block.layers[list( pattern_loop_block.layers.keys())[-1]] pattern_loop_block_block = PaddleGraph( if_layer13, graph_type="dygraph") pattern_loop_block_block.add_layer( "prim.equal", inputs={}, outputs=[gen_name(77)], input=False) pattern_loop_block_block.add_layer( "prim.equal", inputs={"input": gen_name(76)}, outputs=[gen_name(78)]) if_layer13.add_block(pattern_loop_block_block) pattern_loop_block_block = PaddleGraph( if_layer13, graph_type="dygraph") pattern_loop_block_block.add_layer( "prim.equal", inputs={}, outputs=[gen_name(77)], input=None) pattern_loop_block_block.add_layer( "prim.equal", inputs={}, outputs=[gen_name(78)], input=None) if_layer13.add_block(pattern_loop_block_block) if_layer13.inputs.update({"input-0": gen_name(76), }) pattern_loop_block.add_layer( "prim.if", inputs={"input": gen_name(76)}, outputs=[gen_name(79), gen_name(80)]) if_layer14 = pattern_loop_block.layers[list( pattern_loop_block.layers.keys())[-1]] pattern_loop_block_block = PaddleGraph( if_layer14, graph_type="dygraph") pattern_loop_block_block.add_layer( "prim.equal", inputs={"input": gen_name(77)}, outputs=[gen_name(79)]) pattern_loop_block_block.add_layer( "prim.equal", inputs={"input": gen_name(78)}, outputs=[gen_name(80)]) if_layer14.add_block(pattern_loop_block_block) pattern_loop_block_block = PaddleGraph( if_layer14, graph_type="dygraph") pattern_loop_block_block.add_layer( "prim.equal", inputs={}, outputs=[gen_name(79)], input=True) pattern_loop_block_block.add_layer( "prim.equal", inputs={"input": gen_name(76)}, outputs=[gen_name(80)]) if_layer14.add_block(pattern_loop_block_block) if_layer14.inputs.update({ "input-0": gen_name(77), "input-1": gen_name(78), "input-2": gen_name(76) }) pattern_loop_block.add_layer( "prim.add", inputs={"x": gen_name(72)}, outputs=[gen_name(81)], y=1) pattern_loop_block.add_layer( "prim.lt", inputs={"x": gen_name(81), "y": gen_name(70)}, outputs=[gen_name(82)]) pattern_loop_block.add_layer( "prim.and", inputs={"x": gen_name(82), "y": gen_name(79)}, outputs=[gen_name(83)]) pattern_loop_block.add_layer( "prim.equal", inputs={"input": gen_name(80)}, outputs=[gen_name(74)]) pattern_loop_block.add_layer( "prim.equal", inputs={"input": gen_name(81)}, outputs=[gen_name(75)]) loop_layer.add_block(pattern_loop_block) loop_layer.inputs.update({ "input-0": gen_name(65), "input-1": gen_name(72), "input-2": gen_name(72), "input-3": gen_name(70) }) pattern_block_block_block_block.add_layer( "prim.if", inputs={"input": gen_name(74)}, outputs=[gen_name(84)]) if_layer15 = pattern_block_block_block_block.layers[list( pattern_block_block_block_block.layers.keys())[-1]] pattern_block_block_block_block_block = PaddleGraph( if_layer15, graph_type="dygraph") pattern_block_block_block_block_block.add_layer( "prim.warnings", inputs={}, outputs=[gen_name(85)], stacklevel=2, input="...") if_layer15.add_block(pattern_block_block_block_block_block) pattern_block_block_block_block_block = PaddleGraph( if_layer15, graph_type="dygraph") if_layer15.add_block(pattern_block_block_block_block_block) if_layer12.add_block(pattern_block_block_block_block) pattern_block_block_block_block = PaddleGraph( if_layer12, graph_type="dygraph") if_layer12.add_block(pattern_block_block_block_block) if_layer12.inputs.update({ "input-0": gen_name(65), "input-1": gen_name(65), }) pattern_block_block_block.add_layer( "prim.list", inputs={}, outputs=[gen_name(86)]) pattern_block_block_block.add_layer( "prim.loop", inputs={}, outputs=[gen_name(87), gen_name(88)], input=2) loop_layer = pattern_block_block_block.layers[list( pattern_block_block_block.layers.keys())[-1]] pattern_loop_block = PaddleGraph(loop_layer, graph_type="dygraph") pattern_loop_block.add_layer( "prim.add", inputs={"x": gen_name(88)}, outputs=[gen_name(89)], y=2) pattern_loop_block.add_layer( "prim.shape_dim", inputs={"input": gen_name(34), "dim": gen_name(89)}, outputs=[gen_name(90)]) pattern_loop_block.add_layer( "prim.float", inputs={"input": gen_name(90)}, outputs=[gen_name(91)]) pattern_loop_block.add_layer( "prim.getitem", inputs={"list": gen_name(65), "element": gen_name(88)}, outputs=[gen_name(92)]) pattern_loop_block.add_layer( "prim.mul", inputs={"x": gen_name(91), "y": gen_name(92)}, outputs=[gen_name(93)]) pattern_loop_block.add_layer( "prim.floor", inputs={"input": gen_name(93)}, outputs=[gen_name(94)]) pattern_loop_block.add_layer( "prim.append", inputs={"list": gen_name(86), "element": gen_name(94)}, outputs=[]) loop_layer.add_block(pattern_loop_block) loop_layer.inputs.update({ "input-0": gen_name(34), "input-1": gen_name(65), "input-2": gen_name(86) }) pattern_block_block_block.add_layer( "prim.equal", inputs={"input": gen_name(86)}, outputs=[gen_name(63)]) if_layer10.add_block(pattern_block_block_block) if_layer10.inputs.update({ "input-0": gen_name(61), "input-1": gen_name(54), "input-2": gen_name(54), "input-3": gen_name(37), "input-4": gen_name(34) }) pattern_block_block.add_layer( "prim.getitem", inputs={"list": gen_name(11)}, outputs=[gen_name(95)], element=0) pattern_block_block.add_layer( "prim.getitem", inputs={"list": gen_name(11)}, outputs=[gen_name(96)], element=1) pattern_block_block.add_layer( "prim.isinstance", inputs={"input": gen_name(63)}, outputs=["interpolate-input-0_isinstance"], cls="paddle.fluid.Variable") pattern_block_block.add_layer( "prim.if", {"input": "interpolate-input-0_isinstance"}, outputs=["interpolate-input-0_if1"]) if_layer_isinstance = pattern_block_block.layers[list( pattern_block_block.layers.keys())[-1]] pattern_block_block_block = PaddleGraph( if_layer_isinstance, graph_type="dygraph") pattern_block_block_block.add_layer( "prim.var2list", inputs={"input": gen_name(63)}, outputs=[gen_name(63)]) if_layer_isinstance.add_block(pattern_block_block_block) pattern_block_block_block = PaddleGraph( if_layer_isinstance, graph_type="dygraph") if_layer_isinstance.add_block(pattern_block_block_block) if_layer_isinstance.inputs["input-0"] = gen_name(63) pattern_block_block.add_layer( "prim.assert", inputs={"key": gen_name(95), "value": gen_name(96)}, outputs=[gen_name(97) + "_assert"], type="eq") pattern_block_block.add_layer( "paddle.nn.functional.interpolate", inputs={ "input": "interpolate-input-0", "size": gen_name(63), "scale_factor": gen_name(95) }, outputs=[gen_name(97)], align_corners=False, align_mode=0) pattern_block_block.add_layer( "prim.equal", inputs={"input": gen_name(97)}, outputs=[gen_name(20)]) if_layer2.add_block(pattern_block_block) pattern_block_block = PaddleGraph(if_layer2, graph_type="dygraph") pattern_block_block.add_layer( "fluid.layers.shape", inputs={"input": "interpolate-input-0"}, outputs=[gen_name(98)]) pattern_block_block.add_layer( "prim.len", inputs={"input": gen_name(98)}, outputs=[gen_name(98)]) pattern_block_block.add_layer( "prim.eq", inputs={"x": gen_name(98)}, outputs=[gen_name(99)], y=5) pattern_block_block.add_layer( "prim.if", inputs={"input": gen_name(99)}, outputs=[gen_name(100)]) if_layer16 = pattern_block_block.layers[list( pattern_block_block.layers.keys())[-1]] pattern_block_block_block = PaddleGraph( if_layer16, graph_type="dygraph") pattern_block_block_block.add_layer( "prim.exception", inputs={}, outputs=[gen_name(101)], input="Exception") if_layer16.add_block(pattern_block_block_block) pattern_block_block_block = PaddleGraph( if_layer16, graph_type="dygraph") pattern_block_block_block.add_layer( "prim.exception", inputs={}, outputs=[gen_name(102)], input="Exception") if_layer16.add_block(pattern_block_block_block) pattern_block_block.add_layer( "prim.equal", inputs={}, outputs=[gen_name(20)], input=None) if_layer2.add_block(pattern_block_block) if_layer2.inputs.update({ "input-0": gen_name(13), "input-1": gen_name(13), "input-2": "interpolate-input-0", "input-3": gen_name(11), "input-5": gen_name(11), }) pattern_block.add_layer( "prim.equal", inputs={"input": gen_name(20)}, outputs=[gen_name(16)]) if_layer1.add_block(pattern_block) if_layer1.inputs.update({ "input-2": "interpolate-input-0", "input-4": gen_name(13), "input-7": gen_name(11), "input-9": gen_name(11), "input-11": "interpolate-input-0", "input-12": "interpolate-input-0", }) self.pattern.build(inputs={ "input-0": "interpolate-input-0", "input-1": "interpolate-input-1" }) def insert_new_layer(self, graph, parameters, matches): new_layers = self.gen_new_layer(parameters, matches) new_layer_id = list(matches.keys())[0] graph.layers[new_layer_id] = new_layers[0] matches.pop(new_layer_id) new_layer_id = list(matches.keys())[0] graph.layers[new_layer_id] = new_layers[1] block_layer = new_layers[1].blocks[0].layers.pop( list(new_layers[1].blocks[0].layers.keys())[-1]) new_layers[1].blocks[0].layers[new_layer_id + ".0.0"] = block_layer matches.pop(new_layer_id) new_layer_id = list(matches.keys())[0] graph.layers[new_layer_id] = new_layers[2] matches.pop(new_layer_id) def gen_new_layer(self, parameters, matches): layers = list() layers_id = list(matches.keys()) layer = matches[layers_id[6]] size = layer.inputs["input1"] layer = matches[layers_id[92]] layer.inputs["input"] = size layers.append(layer) layer = matches[layers_id[93]] block_layer = layer.blocks[0].layers[list(layer.blocks[0].layers.keys()) [0]] block_layer.inputs["input"] = size block_layer.outputs[0] = size layer.inputs["input-0"] = size layers.append(layer) layer = matches[layers_id[-1]] outputs = layer.outputs layer = matches[layers_id[96]] layer.inputs.pop("scale_factor") layer.inputs["size"] = size layer.outputs = outputs layers.append(layer) return layers