/* Copyright (c) 2018 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 "operators/math/math_function.h" #include #include "common/enforce.h" #include "framework/data_type.h" #include "framework/tensor.h" #include "operators/math/gemm.h" namespace paddle_mobile { namespace operators { namespace math { struct TensorSetConstant { TensorSetConstant(framework::Tensor *tensor, float value) : tensor_(tensor), value_(value) {} template void apply() const { auto *begin = tensor_->mutable_data(); std::fill(begin, begin + tensor_->numel(), static_cast(value_)); } framework::Tensor *tensor_; float value_; }; void SetConstant(framework::Tensor *tensor, float value) { framework::VisitDataType(framework::ToDataType(tensor->type()), TensorSetConstant(tensor, value)); } template <> void MatMul(const framework::Tensor &matrix_a, bool trans_a, const framework::Tensor &matrix_b, bool trans_b, float alpha, framework::Tensor *matrix_out, float beta, bool relu, float *bias) { auto dim_a = matrix_a.dims(); auto dim_b = matrix_b.dims(); auto dim_out = matrix_out->dims(); PADDLE_MOBILE_ENFORCE( dim_a.size() == 2 && dim_b.size() == 2 && dim_out.size() == 2, "The input and output of MatMul be matrix"); int M = dim_out[0]; int N = dim_out[1]; int K = (!trans_a) ? dim_a[1] : dim_a[0]; Gemm gemm; if (trans_a) { int numel = matrix_a.numel(); int m = matrix_a.dims()[0]; int n = matrix_a.dims()[1]; float *tmp = (float *)(matrix_a.data()); // NOLINT float *a = static_cast( paddle_mobile::memory::Alloc(sizeof(float) * numel)); int index = 0; for (int j = 0; j < n; j++) { for (int i = 0; i < m; i++) { a[index++] = tmp[i * n + j]; } } #ifdef _OPENMP gemm.Sgemm_omp(M, N, K, alpha, a, K, matrix_b.data(), N, beta, matrix_out->data(), N, relu, bias); #else gemm.Sgemm(M, N, K, alpha, a, K, matrix_b.data(), N, beta, matrix_out->data(), N, relu, bias); #endif } else { #ifdef _OPENMP gemm.Sgemm_omp(M, N, K, alpha, matrix_a.data(), K, matrix_b.data(), N, beta, matrix_out->data(), N, relu, bias); #else gemm.Sgemm(M, N, K, alpha, matrix_a.data(), K, matrix_b.data(), N, beta, matrix_out->data(), N, relu, bias); #endif } } void MatMulWithBn(const framework::Tensor &matrix_a, bool trans_a, const framework::Tensor &matrix_b, bool trans_b, float alpha, framework::Tensor *matrix_out, float beta, bool relu, framework::Tensor *new_scale, framework::Tensor *new_bias, int group, float *bias) { Gemm gemm; auto dim_a = matrix_a.dims(); auto dim_b = matrix_b.dims(); auto dim_out = matrix_out->dims(); PADDLE_MOBILE_ENFORCE( dim_a.size() == 2 && dim_b.size() == 2 && dim_out.size() == 2, "The input and output of MatMul be matrix"); int M = dim_out[0]; int N = dim_out[1]; int K = (!trans_a) ? dim_a[1] : dim_a[0]; #ifdef _OPENMP gemm.SgemmWithBn_omp( M, N, K, alpha, matrix_a.data(), K, matrix_b.data(), N, beta, matrix_out->data(), N, relu, new_scale->data() + group, new_bias->data() + group, bias); #else gemm.SgemmWithBn(M, N, K, alpha, matrix_a.data(), K, matrix_b.data(), N, beta, matrix_out->data(), N, relu, new_scale->data() + group, new_bias->data() + group, bias); #endif } void MatMulWithPRelu(const framework::Tensor &matrix_a, bool trans_a, const framework::Tensor &matrix_b, bool trans_b, framework::Tensor *matrix_out, float *p, std::string mode, float *bias, float *bias1) { Gemm gemm; auto dim_a = matrix_a.dims(); auto dim_b = matrix_b.dims(); auto dim_out = matrix_out->dims(); PADDLE_MOBILE_ENFORCE( dim_a.size() == 2 && dim_b.size() == 2 && dim_out.size() == 2, "The input and output of MatMul be matrix"); int M = dim_out[0]; int N = dim_out[1]; int K = (!trans_a) ? dim_a[1] : dim_a[0]; #ifdef _OPENMP gemm.SgemmWithPRelu_omp(M, N, K, matrix_a.data(), K, matrix_b.data(), N, matrix_out->data(), N, p, mode, bias, bias1); #else gemm.SgemmWithPRelu(M, N, K, matrix_a.data(), K, matrix_b.data(), N, matrix_out->data(), N, p, mode, bias, bias1); #endif } template struct ClearTensor { void operator()(framework::Tensor *tensor) { auto size = tensor->numel(); auto *tensor_data = tensor->data(); memset((void *)tensor_data, 0, sizeof(T) * size); // NOLINT } }; template struct RowwiseAdd { void operator()(const framework::Tensor &input, const framework::Tensor &vector, framework::Tensor *output) { auto in_dims = input.dims(); auto size = input.numel() / in_dims[0]; PADDLE_MOBILE_ENFORCE((vector.numel() == size), "vector.numel() must be equal to size."); PADDLE_MOBILE_ENFORCE((output->dims() == in_dims), "output->dims() must be equal to in_dims."); auto *input_data = input.data(); auto *out_data = output->data(); auto *vec_data = vector.data(); for (int64_t i = 0; i < in_dims[0]; ++i) { for (int64_t j = 0; j < size; ++j) { out_data[i * size + j] = input_data[i * size + j] + vec_data[j]; } } } }; template struct RowwiseAdd; template struct ClearTensor; } // namespace math } // namespace operators } // namespace paddle_mobile