// Tencent is pleased to support the open source community by making ncnn available. // // Copyright (C) 2017 THL A29 Limited, a Tencent company. All rights reserved. // // Licensed under the BSD 3-Clause License (the "License"); you may not use this file except // in compliance with the License. You may obtain a copy of the License at // // https://opensource.org/licenses/BSD-3-Clause // // 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 "softmax_arm.h" #include #include #if __ARM_NEON #include #include "neon_mathfun.h" #endif // __ARM_NEON namespace ncnn { DEFINE_LAYER_CREATOR(Softmax_arm) Softmax_arm::Softmax_arm() { #if __ARM_NEON support_packing = true; #endif // __ARM_NEON } int Softmax_arm::forward_inplace(Mat& bottom_top_blob, const Option& opt) const { int dims = bottom_top_blob.dims; size_t elemsize = bottom_top_blob.elemsize; int elempack = bottom_top_blob.elempack; #if __ARM_NEON if (opt.use_packing_layout) { if (elempack == 4) { if (dims == 1) // axis == 0 { int w = bottom_top_blob.w; float* ptr = bottom_top_blob; float32x4_t _max = vdupq_n_f32(-FLT_MAX); for (int i=0; i> 2; int remain = size - (nn << 2); #else int remain = size; #endif // __ARM_NEON #if __ARM_NEON for (; nn>0; nn--) { float32x4_t _p = vld1q_f32(ptr); float32x4_t _max = vld1q_f32(maxptr); _p = exp_ps(vsubq_f32(_p, _max)); vst1q_f32(ptr, _p); ptr += 4; maxptr += 4; } #endif // __ARM_NEON for (; remain>0; remain--) { *ptr = exp(*ptr - *maxptr); ptr++; maxptr++; } } Mat sum; sum.create(w, h, elemsize, opt.workspace_allocator); if (sum.empty()) return -100; sum.fill(0.f); for (int q=0; q> 2; int remain = size - (nn << 2); #else int remain = size; #endif // __ARM_NEON #if __ARM_NEON for (; nn>0; nn--) { float32x4_t _p = vld1q_f32(ptr); float32x4_t _sum = vld1q_f32(sumptr); _sum = vaddq_f32(_sum, _p); vst1q_f32(sumptr, _sum); ptr += 4; sumptr += 4; } #endif // __ARM_NEON for (; remain>0; remain--) { *sumptr += *ptr; ptr++; sumptr++; } } #pragma omp parallel for num_threads(opt.num_threads) for (int q=0; q> 2; int remain = size - (nn << 2); #else int remain = size; #endif // __ARM_NEON #if __ARM_NEON for (; nn>0; nn--) { float32x4_t _p = vld1q_f32(ptr); float32x4_t _sum = vld1q_f32(sumptr); #if __aarch64__ _p = vdivq_f32(_p, _sum); #else _p = div_ps(_p, _sum); #endif // __aarch64__ vst1q_f32(ptr, _p); ptr += 4; sumptr += 4; } #endif // __ARM_NEON for (; remain>0; remain--) { *ptr /= *sumptr; ptr++; sumptr++; } } return 0; } } // namespace ncnn