// 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. #include "lite/operators/fc_op.h" #include "lite/core/op_registry.h" namespace paddle { namespace lite { namespace operators { bool FcOpLite::CheckShape() const { CHECK_OR_FALSE(param_.input); CHECK_OR_FALSE(param_.output); CHECK_OR_FALSE(param_.w); // bias is optional. const auto input_dims = param_.input->dims(); const auto w_dims = param_.w->dims(); if (param_.bias) { const auto bias_dims = param_.bias->dims(); if (bias_dims.size() == 2) { CHECK_EQ_OR_FALSE(bias_dims[0], 1); CHECK_EQ_OR_FALSE(bias_dims[1], w_dims[1]); } else if (bias_dims.size() == 1) { CHECK_EQ_OR_FALSE(bias_dims[0], w_dims[1]); } } CHECK_EQ_OR_FALSE(w_dims.size(), 2UL); CHECK_GT_OR_FALSE(input_dims.size(), static_cast(param_.in_num_col_dims)); param_.in_mat_dims = input_dims.Flatten2D(param_.in_num_col_dims); // CHECK_EQ_OR_FALSE(param_.in_mat_dims[1], w_dims[0]); return true; } bool FcOpLite::InferShape() const { const auto input_dims = param_.input->dims(); const auto w_dims = param_.w->dims(); // Set output dims std::vector output_dims(param_.in_num_col_dims + 1, 0); for (int i = 0; i < param_.in_num_col_dims; ++i) { output_dims[i] = input_dims[i]; } output_dims.back() = w_dims[1]; param_.output->Resize(lite::DDim(output_dims)); // share LoD // param_.output->set_lod(param_.input->lod()); return true; } bool FcOpLite::AttachImpl(const cpp::OpDesc &op_desc, lite::Scope *scope) { auto input = op_desc.Input("Input").front(); auto W = op_desc.Input("W").front(); auto out = op_desc.Output("Out").front(); param_.input = scope->FindVar(input)->GetMutable(); param_.w = scope->FindVar(W)->GetMutable(); std::vector input_arg_names = op_desc.InputArgumentNames(); if (std::find(input_arg_names.begin(), input_arg_names.end(), "Bias") != input_arg_names.end()) { auto bias_arguments = op_desc.Input("Bias"); if (bias_arguments.size() > 0) { auto bias_var = scope->FindVar(bias_arguments.front()); if (bias_var != nullptr) { param_.bias = bias_var->GetMutable(); } } } CHECK(scope->FindVar(out)); param_.output = scope->FindVar(out)->GetMutable(); param_.in_num_col_dims = op_desc.GetAttr("in_num_col_dims"); if (op_desc.HasAttr("activation_type")) { param_.activation_type = op_desc.GetAttr("activation_type"); } if (op_desc.HasAttr("padding_weights")) { param_.activation_type = op_desc.GetAttr("padding_weights"); } // For Int8 if (op_desc.HasAttr("enable_int8")) { param_.enable_int8 = op_desc.GetAttr("enable_int8"); if (op_desc.HasAttr("input_scale")) param_.input_scale = op_desc.GetAttr("input_scale"); if (op_desc.HasAttr("weight_scale")) param_.weight_scale = op_desc.GetAttr>("weight_scale"); if (op_desc.HasAttr("output_scale")) param_.output_scale = op_desc.GetAttr("output_scale"); } return true; } } // namespace operators } // namespace lite } // namespace paddle REGISTER_LITE_OP(fc, paddle::lite::operators::FcOpLite);