# Copyright (c) 2016-present, Facebook, Inc. # # 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. ############################################################################## from __future__ import absolute_import from __future__ import division from __future__ import print_function from __future__ import unicode_literals from caffe2.python import core, workspace, test_util from caffe2.python.transformations import addNNPACK, fuseNNPACKConvRelu def str_compare(a, b, encoding="utf8"): if isinstance(a, bytes): a = a.decode(encoding) if isinstance(b, bytes): b = b.decode(encoding) return a == b class TestTransformations(test_util.TestCase): def test_addNNPACK(self): net = core.Net("net") net.Conv( ["X", "w", "b"], ["Y"], stride=1, pad=0, kernel=3, order="NCHW" ) net.Relu(["Y"], ["Y2"]) addNNPACK(net) assert str_compare(net.Proto().op[0].engine, "NNPACK") def test_fuseNNPACKConvRelu(self): net = core.Net("net") net.Conv( ["X", "w", "b"], ["Y"], stride=1, pad=0, kernel=3, order="NCHW" ) net.Relu(["Y"], ["Y2"]) addNNPACK(net) # get the NNPACK engine assert str_compare(net.Proto().op[0].engine, "NNPACK") fuseNNPACKConvRelu(net) assert (len(net.Proto().op) == 1) has_activation_arg = False for arg in net.Proto().op[0].arg: if str_compare(arg.name, "activation"): assert str_compare(arg.s, "Relu") has_activation_arg = True assert has_activation_arg def test_noFuseNNPACKConvRelu(self): net = core.Net("net") net.Conv( ["X", "w", "b"], ["Y"], stride=1, pad=0, kernel=3, order="NCHW" ) net.Relu(["Y"], ["Y2"]) net.Relu(["Y"], ["Y3"]) addNNPACK(net) # get the NNPACK engine assert str_compare(net.Proto().op[0].engine, "NNPACK") fuseNNPACKConvRelu(net) assert (len(net.Proto().op) == 3) has_activation_arg = False for arg in net.Proto().op[0].arg: if str_compare(arg.name, "activation") and str_compare(arg.s, "Relu"): has_activation_arg = True assert not has_activation_arg def test_fuseNNPACKConvReluNoInplace(self): net = core.Net("net") net.Conv( ["X", "w", "b"], ["Y"], stride=1, pad=0, kernel=3, order="NCHW" ) net.Relu(["Y"], ["X"]) addNNPACK(net) # get the NNPACK engine assert str_compare(net.Proto().op[0].engine, "NNPACK") fuseNNPACKConvRelu(net) assert (len(net.Proto().op) == 1) has_activation_arg = False for arg in net.Proto().op[0].arg: if str_compare(arg.name, "activation"): assert str_compare(arg.s, "Relu") has_activation_arg = True assert has_activation_arg assert net.Proto().op[0].output[0] != net.Proto().op[0].input[0] def test_fuseNNPACKConvReluInplaceRelu(self): net = core.Net("net") net.Conv( ["X", "w", "b"], ["Y"], stride=1, pad=0, kernel=3, order="NCHW" ) net.Relu(["Y"], ["Y"]) addNNPACK(net) # get the NNPACK engine assert str_compare(net.Proto().op[0].engine, "NNPACK") fuseNNPACKConvRelu(net) assert (len(net.Proto().op) == 1) has_activation_arg = False for arg in net.Proto().op[0].arg: if str_compare(arg.name, "activation"): assert str_compare(arg.s, "Relu") has_activation_arg = True assert has_activation_arg assert net.Proto().op[0].output[0] != net.Proto().op[0].input[0] def test_fuseNNPACKConvReluPingPongNaming(self): net = core.Net("net") net.Conv( ["X", "w", "b"], ["Y"], stride=1, pad=0, kernel=3, order="NCHW" ) net.Relu(["Y"], ["X"]) net.Conv( ["X", "w", "b"], ["Y"], stride=1, pad=0, kernel=3, order="NCHW" ) addNNPACK(net) # get the NNPACK engine assert str_compare(net.Proto().op[0].engine, "NNPACK") fuseNNPACKConvRelu(net) assert (len(net.Proto().op) == 2) has_activation_arg = False for arg in net.Proto().op[0].arg: if str_compare(arg.name, "activation"): assert str_compare(arg.s, "Relu") has_activation_arg = True assert has_activation_arg assert net.Proto().op[0].output[0] != net.Proto().op[0].input[0] assert net.Proto().op[1].output[0] != net.Proto().op[1].input[0] def test_fuseNNPACKConvReluFollowedByMultipleInputOp(self): net = core.Net("net") net.Conv( ["X", "w", "b"], ["Y"], stride=1, pad=0, kernel=3, order="NCHW" ) net.Relu(["Y"], ["Y2"]) net.Conv( ["Y2", "w", "b"], ["Y"], stride=1, pad=0, kernel=3, order="NCHW" ) net.Relu(["Y"], ["Y2"]) addNNPACK(net) # get the NNPACK engine assert str_compare(net.Proto().op[0].engine, "NNPACK") fuseNNPACKConvRelu(net) assert (len(net.Proto().op) == 2) has_activation_arg = False for arg in net.Proto().op[0].arg: if str_compare(arg.name, "activation"): assert str_compare(arg.s, "Relu") has_activation_arg = True assert has_activation_arg assert net.Proto().op[0].output[0] != net.Proto().op[0].input[0] assert net.Proto().op[1].output[0] != net.Proto().op[1].input[0] def test_fuseNNPACKConvReluInplaceFollowedByMultipleInputOp(self): net = core.Net("net") net.Conv( ["X", "w", "b"], ["Y"], stride=1, pad=0, kernel=3, order="NCHW" ) net.Relu(["Y"], ["Y"]) net.Conv( ["Y", "w", "b"], ["Y2"], stride=1, pad=0, kernel=3, order="NCHW" ) net.Relu(["Y2"], ["Y2"]) addNNPACK(net) # get the NNPACK engine assert str_compare(net.Proto().op[0].engine, "NNPACK") fuseNNPACKConvRelu(net) assert (len(net.Proto().op) == 2) has_activation_arg = False for arg in net.Proto().op[0].arg: if str_compare(arg.name, "activation"): assert str_compare(arg.s, "Relu") has_activation_arg = True assert has_activation_arg assert net.Proto().op[0].output[0] != net.Proto().op[0].input[0] assert net.Proto().op[1].output[0] != net.Proto().op[1].input[0]