// Tencent is pleased to support the open source community by making ncnn available. // // Copyright (C) 2019 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 "concat_vulkan.h" #include "layer_shader_type.h" namespace ncnn { Concat_vulkan::Concat_vulkan() { support_vulkan = true; support_image_storage = true; pipeline_concat[0] = 0; pipeline_concat[1] = 0; pipeline_concat_pack4[0] = 0; pipeline_concat_pack4[1] = 0; pipeline_concat_pack4to1[0] = 0; pipeline_concat_pack4to1[1] = 0; pipeline_concat_pack8[0] = 0; pipeline_concat_pack8[1] = 0; pipeline_concat_pack8to4[0] = 0; pipeline_concat_pack8to4[1] = 0; pipeline_concat_pack8to1[0] = 0; pipeline_concat_pack8to1[1] = 0; } int Concat_vulkan::create_pipeline(const Option& _opt) { Option opt = _opt; const Mat& shape = bottom_shapes.empty() ? Mat() : bottom_shapes[0]; const Mat& out_shape = top_shapes.empty() ? Mat() : top_shapes[0]; int positive_axis = axis < 0 ? shape.dims + axis : axis; int out_elempack = 1; if (out_shape.dims == 1) out_elempack = opt.use_shader_pack8 && out_shape.w % 8 == 0 ? 8 : out_shape.w % 4 == 0 ? 4 : 1; if (out_shape.dims == 2) out_elempack = opt.use_shader_pack8 && out_shape.h % 8 == 0 ? 8 : out_shape.h % 4 == 0 ? 4 : 1; if (out_shape.dims == 3 || out_shape.dims == 4) out_elempack = opt.use_shader_pack8 && out_shape.c % 8 == 0 ? 8 : out_shape.c % 4 == 0 ? 4 : 1; int elempack = 1; if (positive_axis == 0) { if (shape.dims == 1) elempack = opt.use_shader_pack8 && shape.w % 8 == 0 ? 8 : shape.w % 4 == 0 ? 4 : 1; if (shape.dims == 2) elempack = opt.use_shader_pack8 && shape.h % 8 == 0 ? 8 : shape.h % 4 == 0 ? 4 : 1; if (shape.dims == 3 || shape.dims == 4) elempack = opt.use_shader_pack8 && shape.c % 8 == 0 ? 8 : shape.c % 4 == 0 ? 4 : 1; for (size_t b = 1; b < bottom_shapes.size(); b++) { const Mat& shape1 = bottom_shapes[b]; int elempack1 = 1; if (shape1.dims == 1) elempack1 = opt.use_shader_pack8 && shape1.w % 8 == 0 ? 8 : shape1.w % 4 == 0 ? 4 : 1; if (shape1.dims == 2) elempack1 = opt.use_shader_pack8 && shape1.h % 8 == 0 ? 8 : shape1.h % 4 == 0 ? 4 : 1; if (shape1.dims == 3 || shape1.dims == 4) elempack1 = opt.use_shader_pack8 && shape1.c % 8 == 0 ? 8 : shape1.c % 4 == 0 ? 4 : 1; elempack = std::min(elempack, elempack1); } } else { elempack = out_elempack; } size_t elemsize; if (opt.use_fp16_storage) { elemsize = elempack * 2u; } else if (opt.use_fp16_packed) { elemsize = elempack == 1 ? 4u : elempack * 2u; } else { elemsize = elempack * 4u; } Mat out_shape_unpacked; if (out_shape.dims == 1) out_shape_unpacked = Mat(out_shape.w / elempack, (void*)0, elemsize, elempack); if (out_shape.dims == 2) out_shape_unpacked = Mat(out_shape.w, out_shape.h / elempack, (void*)0, elemsize, elempack); if (out_shape.dims == 3) out_shape_unpacked = Mat(out_shape.w, out_shape.h, out_shape.c / elempack, (void*)0, elemsize, elempack); if (out_shape.dims == 4) out_shape_unpacked = Mat(out_shape.w, out_shape.h, out_shape.d, out_shape.c / elempack, (void*)0, elemsize, elempack); if (!vkdev->shape_support_image_storage(out_shape_unpacked)) { support_image_storage = false; opt.use_image_storage = false; } std::vector specializations(1 + 12); specializations[0].i = axis; specializations[1 + 0].i = 0; // TODO handle shape_packed for concat2 specializations[1 + 1].i = 0; specializations[1 + 2].i = 0; specializations[1 + 3].i = 0; specializations[1 + 4].i = 0; specializations[1 + 5].i = 0; specializations[1 + 6].i = out_shape_unpacked.dims; specializations[1 + 7].i = out_shape_unpacked.w; specializations[1 + 8].i = out_shape_unpacked.h; specializations[1 + 9].i = out_shape_unpacked.d; specializations[1 + 10].i = out_shape_unpacked.c; specializations[1 + 11].i = out_shape_unpacked.cstep; Mat local_size_xyz; // TODO more precise group size guessed from out_shape_unpacked if (out_shape_unpacked.dims == 1) { local_size_xyz.w = 64; local_size_xyz.h = 1; local_size_xyz.c = 1; } if (out_shape_unpacked.dims == 2) { local_size_xyz.w = 8; local_size_xyz.h = 8; local_size_xyz.c = 1; } if (out_shape_unpacked.dims == 3) { local_size_xyz.w = 4; local_size_xyz.h = 4; local_size_xyz.c = 4; } if (out_shape_unpacked.dims == 4) { local_size_xyz.w = 4; local_size_xyz.h = 4; local_size_xyz.c = 4; } // pack1 if (shape.dims == 0 || elempack == 1) { pipeline_concat[0] = new Pipeline(vkdev); pipeline_concat[0]->set_optimal_local_size_xyz(local_size_xyz); pipeline_concat[0]->create(LayerShaderType::concat, opt, specializations); pipeline_concat[1] = new Pipeline(vkdev); pipeline_concat[1]->set_optimal_local_size_xyz(local_size_xyz); pipeline_concat[1]->create(LayerShaderType::concat, opt, specializations); } // pack4 if (shape.dims == 0 || elempack == 4) { pipeline_concat_pack4[0] = new Pipeline(vkdev); pipeline_concat_pack4[0]->set_optimal_local_size_xyz(local_size_xyz); pipeline_concat_pack4[0]->create(LayerShaderType::concat_pack4, opt, specializations); pipeline_concat_pack4[1] = new Pipeline(vkdev); pipeline_concat_pack4[1]->set_optimal_local_size_xyz(local_size_xyz); pipeline_concat_pack4[1]->create(LayerShaderType::concat_pack4, opt, specializations); } // pack4to1 if ((positive_axis <= 0 && shape.dims == 0) || elempack == 1) { pipeline_concat_pack4to1[0] = new Pipeline(vkdev); pipeline_concat_pack4to1[0]->set_optimal_local_size_xyz(local_size_xyz); pipeline_concat_pack4to1[0]->create(LayerShaderType::concat_pack4to1, opt, specializations); pipeline_concat_pack4to1[1] = new Pipeline(vkdev); pipeline_concat_pack4to1[1]->set_optimal_local_size_xyz(local_size_xyz); pipeline_concat_pack4to1[1]->create(LayerShaderType::concat_pack4to1, opt, specializations); } // pack8 if (opt.use_shader_pack8 && (shape.dims == 0 || elempack == 8)) { pipeline_concat_pack8[0] = new Pipeline(vkdev); pipeline_concat_pack8[0]->set_optimal_local_size_xyz(local_size_xyz); pipeline_concat_pack8[0]->create(LayerShaderType::concat_pack8, opt, specializations); pipeline_concat_pack8[1] = new Pipeline(vkdev); pipeline_concat_pack8[1]->set_optimal_local_size_xyz(local_size_xyz); pipeline_concat_pack8[1]->create(LayerShaderType::concat_pack8, opt, specializations); } // pack8to4 if (opt.use_shader_pack8 && ((positive_axis <= 0 && shape.dims == 0) || elempack == 4)) { pipeline_concat_pack8to4[0] = new Pipeline(vkdev); pipeline_concat_pack8to4[0]->set_optimal_local_size_xyz(local_size_xyz); pipeline_concat_pack8to4[0]->create(LayerShaderType::concat_pack8to4, opt, specializations); pipeline_concat_pack8to4[1] = new Pipeline(vkdev); pipeline_concat_pack8to4[1]->set_optimal_local_size_xyz(local_size_xyz); pipeline_concat_pack8to4[1]->create(LayerShaderType::concat_pack8to4, opt, specializations); } // pack8to1 if (opt.use_shader_pack8 && ((positive_axis <= 0 && shape.dims == 0) || elempack == 1)) { pipeline_concat_pack8to1[0] = new Pipeline(vkdev); pipeline_concat_pack8to1[0]->set_optimal_local_size_xyz(local_size_xyz); pipeline_concat_pack8to1[0]->create(LayerShaderType::concat_pack8to1, opt, specializations); pipeline_concat_pack8to1[1] = new Pipeline(vkdev); pipeline_concat_pack8to1[1]->set_optimal_local_size_xyz(local_size_xyz); pipeline_concat_pack8to1[1]->create(LayerShaderType::concat_pack8to1, opt, specializations); } return 0; } int Concat_vulkan::destroy_pipeline(const Option& /*opt*/) { delete pipeline_concat[0]; delete pipeline_concat[1]; pipeline_concat[0] = 0; pipeline_concat[1] = 0; delete pipeline_concat_pack4[0]; delete pipeline_concat_pack4[1]; pipeline_concat_pack4[0] = 0; pipeline_concat_pack4[1] = 0; delete pipeline_concat_pack4to1[0]; delete pipeline_concat_pack4to1[1]; pipeline_concat_pack4to1[0] = 0; pipeline_concat_pack4to1[1] = 0; delete pipeline_concat_pack8[0]; delete pipeline_concat_pack8[1]; pipeline_concat_pack8[0] = 0; pipeline_concat_pack8[1] = 0; delete pipeline_concat_pack8to4[0]; delete pipeline_concat_pack8to4[1]; pipeline_concat_pack8to4[0] = 0; pipeline_concat_pack8to4[1] = 0; delete pipeline_concat_pack8to1[0]; delete pipeline_concat_pack8to1[1]; pipeline_concat_pack8to1[0] = 0; pipeline_concat_pack8to1[1] = 0; return 0; } int Concat_vulkan::forward(const std::vector& bottom_blobs, std::vector& top_blobs, VkCompute& cmd, const Option& opt) const { int dims = bottom_blobs[0].dims; int positive_axis = axis < 0 ? dims + axis : axis; if (dims == 1) // positive_axis == 0 { // concat vector // total length size_t elemsize = bottom_blobs[0].elemsize; int elempack = bottom_blobs[0].elempack; int top_w = 0; for (size_t b = 0; b < bottom_blobs.size(); b++) { const VkMat& bottom_blob = bottom_blobs[b]; elemsize = std::min(elemsize, bottom_blob.elemsize); elempack = std::min(elempack, bottom_blob.elempack); top_w += bottom_blob.w * bottom_blob.elempack; } int out_elempack = opt.use_shader_pack8 && top_w % 8 == 0 ? 8 : top_w % 4 == 0 ? 4 : 1; size_t out_elemsize = elemsize / elempack * out_elempack; if (opt.use_fp16_packed && !opt.use_fp16_storage) { if (out_elempack == 8) out_elemsize = 8 * 2u; if (out_elempack == 4) out_elemsize = 4 * 2u; if (out_elempack == 1) out_elemsize = 4u; } VkMat& top_blob = top_blobs[0]; top_blob.create(top_w / out_elempack, out_elemsize, out_elempack, opt.blob_vkallocator); if (top_blob.empty()) return -100; VkMat top_blob_unpacked = top_blob; if (elempack < out_elempack) { top_blob_unpacked.create(top_w / elempack, elemsize, elempack, opt.workspace_vkallocator); if (top_blob_unpacked.empty()) return -100; } int woffset = 0; for (size_t b = 0; b < bottom_blobs.size(); b++) { const VkMat& bottom_blob = bottom_blobs[b]; std::vector bindings(2); bindings[0] = bottom_blob; bindings[1] = top_blob_unpacked; std::vector constants(13); constants[0].i = bottom_blob.dims; constants[1].i = bottom_blob.w; constants[2].i = bottom_blob.h; constants[3].i = bottom_blob.d; constants[4].i = bottom_blob.c; constants[5].i = bottom_blob.cstep; constants[6].i = top_blob_unpacked.dims; constants[7].i = top_blob_unpacked.w; constants[8].i = top_blob_unpacked.h; constants[9].i = top_blob_unpacked.d; constants[10].i = top_blob_unpacked.c; constants[11].i = top_blob_unpacked.cstep; constants[12].i = woffset; const Pipeline* pipeline = 0; if (bottom_blob.elempack == 1 && elempack == 1) { pipeline = pipeline_concat[b % 2]; } else if (bottom_blob.elempack == 4 && elempack == 4) { pipeline = pipeline_concat_pack4[b % 2]; } else if (bottom_blob.elempack == 4 && elempack == 1) { pipeline = pipeline_concat_pack4to1[b % 2]; } else if (bottom_blob.elempack == 8 && elempack == 8) { pipeline = pipeline_concat_pack8[b % 2]; } else if (bottom_blob.elempack == 8 && elempack == 4) { pipeline = pipeline_concat_pack8to4[b % 2]; } else if (bottom_blob.elempack == 8 && elempack == 1) { pipeline = pipeline_concat_pack8to1[b % 2]; } cmd.record_pipeline(pipeline, bindings, constants, bottom_blob); woffset += bottom_blob.w * bottom_blob.elempack / elempack; } // packing if (elempack < out_elempack) { vkdev->convert_packing(top_blob_unpacked, top_blob, out_elempack, cmd, opt); } return 0; } if (dims == 2 && positive_axis == 0) { // concat image int w = bottom_blobs[0].w; // total height size_t elemsize = bottom_blobs[0].elemsize; int elempack = bottom_blobs[0].elempack; int top_h = 0; for (size_t b = 0; b < bottom_blobs.size(); b++) { const VkMat& bottom_blob = bottom_blobs[b]; elemsize = std::min(elemsize, bottom_blob.elemsize); elempack = std::min(elempack, bottom_blob.elempack); top_h += bottom_blob.h * bottom_blob.elempack; } int out_elempack = opt.use_shader_pack8 && top_h % 8 == 0 ? 8 : top_h % 4 == 0 ? 4 : 1; size_t out_elemsize = elemsize / elempack * out_elempack; if (opt.use_fp16_packed && !opt.use_fp16_storage) { if (out_elempack == 8) out_elemsize = 8 * 2u; if (out_elempack == 4) out_elemsize = 4 * 2u; if (out_elempack == 1) out_elemsize = 4u; } VkMat& top_blob = top_blobs[0]; top_blob.create(w, top_h / out_elempack, out_elemsize, out_elempack, opt.blob_vkallocator); if (top_blob.empty()) return -100; VkMat top_blob_unpacked = top_blob; if (elempack < out_elempack) { top_blob_unpacked.create(w, top_h / elempack, elemsize, elempack, opt.workspace_vkallocator); if (top_blob_unpacked.empty()) return -100; } int hoffset = 0; for (size_t b = 0; b < bottom_blobs.size(); b++) { const VkMat& bottom_blob = bottom_blobs[b]; std::vector bindings(2); bindings[0] = bottom_blob; bindings[1] = top_blob_unpacked; std::vector constants(13); constants[0].i = bottom_blob.dims; constants[1].i = bottom_blob.w; constants[2].i = bottom_blob.h; constants[3].i = bottom_blob.d; constants[4].i = bottom_blob.c; constants[5].i = bottom_blob.cstep; constants[6].i = top_blob_unpacked.dims; constants[7].i = top_blob_unpacked.w; constants[8].i = top_blob_unpacked.h; constants[9].i = top_blob_unpacked.d; constants[10].i = top_blob_unpacked.c; constants[11].i = top_blob_unpacked.cstep; constants[12].i = hoffset; const Pipeline* pipeline = 0; if (bottom_blob.elempack == 1 && elempack == 1) { pipeline = pipeline_concat[b % 2]; } else if (bottom_blob.elempack == 4 && elempack == 4) { pipeline = pipeline_concat_pack4[b % 2]; } else if (bottom_blob.elempack == 4 && elempack == 1) { pipeline = pipeline_concat_pack4to1[b % 2]; } else if (bottom_blob.elempack == 8 && elempack == 8) { pipeline = pipeline_concat_pack8[b % 2]; } else if (bottom_blob.elempack == 8 && elempack == 4) { pipeline = pipeline_concat_pack8to4[b % 2]; } else if (bottom_blob.elempack == 8 && elempack == 1) { pipeline = pipeline_concat_pack8to1[b % 2]; } cmd.record_pipeline(pipeline, bindings, constants, bottom_blob); hoffset += bottom_blob.h * bottom_blob.elempack / elempack; } // packing if (elempack < out_elempack) { vkdev->convert_packing(top_blob_unpacked, top_blob, out_elempack, cmd, opt); } return 0; } if (dims == 2 && positive_axis == 1) { // interleave image row int h = bottom_blobs[0].h; size_t elemsize = bottom_blobs[0].elemsize; int elempack = bottom_blobs[0].elempack; // total width int top_w = 0; for (size_t b = 0; b < bottom_blobs.size(); b++) { const VkMat& bottom_blob = bottom_blobs[b]; top_w += bottom_blob.w; } VkMat& top_blob = top_blobs[0]; top_blob.create(top_w, h, elemsize, elempack, opt.blob_vkallocator); if (top_blob.empty()) return -100; int woffset = 0; for (size_t b = 0; b < bottom_blobs.size(); b++) { const VkMat& bottom_blob = bottom_blobs[b]; std::vector bindings(2); bindings[0] = bottom_blob; bindings[1] = top_blob; std::vector constants(13); constants[0].i = bottom_blob.dims; constants[1].i = bottom_blob.w; constants[2].i = bottom_blob.h; constants[3].i = bottom_blob.d; constants[4].i = bottom_blob.c; constants[5].i = bottom_blob.cstep; constants[6].i = top_blob.dims; constants[7].i = top_blob.w; constants[8].i = top_blob.h; constants[9].i = top_blob.d; constants[10].i = top_blob.c; constants[11].i = top_blob.cstep; constants[12].i = woffset; const Pipeline* pipeline = elempack == 8 ? pipeline_concat_pack8[b % 2] : elempack == 4 ? pipeline_concat_pack4[b % 2] : pipeline_concat[b % 2]; cmd.record_pipeline(pipeline, bindings, constants, bottom_blob); woffset += bottom_blob.w; } return 0; } if (dims == 3 && positive_axis == 0) { // concat dim int w = bottom_blobs[0].w; int h = bottom_blobs[0].h; // total channels size_t elemsize = bottom_blobs[0].elemsize; int elempack = bottom_blobs[0].elempack; int top_channels = 0; for (size_t b = 0; b < bottom_blobs.size(); b++) { const VkMat& bottom_blob = bottom_blobs[b]; elemsize = std::min(elemsize, bottom_blob.elemsize); elempack = std::min(elempack, bottom_blob.elempack); top_channels += bottom_blob.c * bottom_blob.elempack; } int out_elempack = opt.use_shader_pack8 && top_channels % 8 == 0 ? 8 : top_channels % 4 == 0 ? 4 : 1; size_t out_elemsize = elemsize / elempack * out_elempack; if (opt.use_fp16_packed && !opt.use_fp16_storage) { if (out_elempack == 8) out_elemsize = 8 * 2u; if (out_elempack == 4) out_elemsize = 4 * 2u; if (out_elempack == 1) out_elemsize = 4u; } VkMat& top_blob = top_blobs[0]; top_blob.create(w, h, top_channels / out_elempack, out_elemsize, out_elempack, opt.blob_vkallocator); if (top_blob.empty()) return -100; VkMat top_blob_unpacked = top_blob; if (elempack < out_elempack) { top_blob_unpacked.create(w, h, top_channels / elempack, elemsize, elempack, opt.workspace_vkallocator); if (top_blob_unpacked.empty()) return -100; } int coffset = 0; for (size_t b = 0; b < bottom_blobs.size(); b++) { const VkMat& bottom_blob = bottom_blobs[b]; std::vector bindings(2); bindings[0] = bottom_blob; bindings[1] = top_blob_unpacked; std::vector constants(13); constants[0].i = bottom_blob.dims; constants[1].i = bottom_blob.w; constants[2].i = bottom_blob.h; constants[3].i = bottom_blob.d; constants[4].i = bottom_blob.c; constants[5].i = bottom_blob.cstep; constants[6].i = top_blob_unpacked.dims; constants[7].i = top_blob_unpacked.w; constants[8].i = top_blob_unpacked.h; constants[9].i = top_blob_unpacked.d; constants[10].i = top_blob_unpacked.c; constants[11].i = top_blob_unpacked.cstep; constants[12].i = coffset; const Pipeline* pipeline = 0; if (bottom_blob.elempack == 1 && elempack == 1) { pipeline = pipeline_concat[b % 2]; } else if (bottom_blob.elempack == 4 && elempack == 4) { pipeline = pipeline_concat_pack4[b % 2]; } else if (bottom_blob.elempack == 4 && elempack == 1) { pipeline = pipeline_concat_pack4to1[b % 2]; } else if (bottom_blob.elempack == 8 && elempack == 8) { pipeline = pipeline_concat_pack8[b % 2]; } else if (bottom_blob.elempack == 8 && elempack == 4) { pipeline = pipeline_concat_pack8to4[b % 2]; } else if (bottom_blob.elempack == 8 && elempack == 1) { pipeline = pipeline_concat_pack8to1[b % 2]; } cmd.record_pipeline(pipeline, bindings, constants, bottom_blob); coffset += bottom_blob.c * bottom_blob.elempack / elempack; } // packing if (elempack < out_elempack) { vkdev->convert_packing(top_blob_unpacked, top_blob, out_elempack, cmd, opt); } return 0; } if (dims == 3 && positive_axis == 1) { // interleave dim height int w = bottom_blobs[0].w; int channels = bottom_blobs[0].c; size_t elemsize = bottom_blobs[0].elemsize; int elempack = bottom_blobs[0].elempack; // total height int top_h = 0; for (size_t b = 0; b < bottom_blobs.size(); b++) { const VkMat& bottom_blob = bottom_blobs[b]; top_h += bottom_blob.h; } VkMat& top_blob = top_blobs[0]; top_blob.create(w, top_h, channels, elemsize, elempack, opt.blob_vkallocator); if (top_blob.empty()) return -100; int hoffset = 0; for (size_t b = 0; b < bottom_blobs.size(); b++) { const VkMat& bottom_blob = bottom_blobs[b]; std::vector bindings(2); bindings[0] = bottom_blob; bindings[1] = top_blob; std::vector constants(13); constants[0].i = bottom_blob.dims; constants[1].i = bottom_blob.w; constants[2].i = bottom_blob.h; constants[3].i = bottom_blob.d; constants[4].i = bottom_blob.c; constants[5].i = bottom_blob.cstep; constants[6].i = top_blob.dims; constants[7].i = top_blob.w; constants[8].i = top_blob.h; constants[9].i = top_blob.d; constants[10].i = top_blob.c; constants[11].i = top_blob.cstep; constants[12].i = hoffset; const Pipeline* pipeline = elempack == 8 ? pipeline_concat_pack8[b % 2] : elempack == 4 ? pipeline_concat_pack4[b % 2] : pipeline_concat[b % 2]; cmd.record_pipeline(pipeline, bindings, constants, bottom_blob); hoffset += bottom_blob.h; } return 0; } if (dims == 3 && positive_axis == 2) { // interleave dim width int h = bottom_blobs[0].h; int channels = bottom_blobs[0].c; size_t elemsize = bottom_blobs[0].elemsize; int elempack = bottom_blobs[0].elempack; // total height int top_w = 0; for (size_t b = 0; b < bottom_blobs.size(); b++) { const VkMat& bottom_blob = bottom_blobs[b]; top_w += bottom_blob.w; } VkMat& top_blob = top_blobs[0]; top_blob.create(top_w, h, channels, elemsize, elempack, opt.blob_vkallocator); if (top_blob.empty()) return -100; int woffset = 0; for (size_t b = 0; b < bottom_blobs.size(); b++) { const VkMat& bottom_blob = bottom_blobs[b]; std::vector bindings(2); bindings[0] = bottom_blob; bindings[1] = top_blob; std::vector constants(13); constants[0].i = bottom_blob.dims; constants[1].i = bottom_blob.w; constants[2].i = bottom_blob.h; constants[3].i = bottom_blob.d; constants[4].i = bottom_blob.c; constants[5].i = bottom_blob.cstep; constants[6].i = top_blob.dims; constants[7].i = top_blob.w; constants[8].i = top_blob.h; constants[9].i = top_blob.d; constants[10].i = top_blob.c; constants[11].i = top_blob.cstep; constants[12].i = woffset; const Pipeline* pipeline = elempack == 8 ? pipeline_concat_pack8[b % 2] : elempack == 4 ? pipeline_concat_pack4[b % 2] : pipeline_concat[b % 2]; cmd.record_pipeline(pipeline, bindings, constants, bottom_blob); woffset += bottom_blob.w; } return 0; } if (dims == 4 && positive_axis == 0) { int w = bottom_blobs[0].w; int h = bottom_blobs[0].h; int d = bottom_blobs[0].d; // total channels size_t elemsize = bottom_blobs[0].elemsize; int elempack = bottom_blobs[0].elempack; int top_channels = 0; for (size_t b = 0; b < bottom_blobs.size(); b++) { const VkMat& bottom_blob = bottom_blobs[b]; elemsize = std::min(elemsize, bottom_blob.elemsize); elempack = std::min(elempack, bottom_blob.elempack); top_channels += bottom_blob.c * bottom_blob.elempack; } int out_elempack = opt.use_shader_pack8 && top_channels % 8 == 0 ? 8 : top_channels % 4 == 0 ? 4 : 1; size_t out_elemsize = elemsize / elempack * out_elempack; if (opt.use_fp16_packed && !opt.use_fp16_storage) { if (out_elempack == 8) out_elemsize = 8 * 2u; if (out_elempack == 4) out_elemsize = 4 * 2u; if (out_elempack == 1) out_elemsize = 4u; } VkMat& top_blob = top_blobs[0]; top_blob.create(w, h, d, top_channels / out_elempack, out_elemsize, out_elempack, opt.blob_vkallocator); if (top_blob.empty()) return -100; VkMat top_blob_unpacked = top_blob; if (elempack < out_elempack) { top_blob_unpacked.create(w, h, d, top_channels / elempack, elemsize, elempack, opt.workspace_vkallocator); if (top_blob_unpacked.empty()) return -100; } int coffset = 0; for (size_t b = 0; b < bottom_blobs.size(); b++) { const VkMat& bottom_blob = bottom_blobs[b]; std::vector bindings(2); bindings[0] = bottom_blob; bindings[1] = top_blob_unpacked; std::vector constants(13); constants[0].i = bottom_blob.dims; constants[1].i = bottom_blob.w; constants[2].i = bottom_blob.h; constants[3].i = bottom_blob.d; constants[4].i = bottom_blob.c; constants[5].i = bottom_blob.cstep; constants[6].i = top_blob_unpacked.dims; constants[7].i = top_blob_unpacked.w; constants[8].i = top_blob_unpacked.h; constants[9].i = top_blob_unpacked.d; constants[10].i = top_blob_unpacked.c; constants[11].i = top_blob_unpacked.cstep; constants[12].i = coffset; const Pipeline* pipeline = 0; if (bottom_blob.elempack == 1 && elempack == 1) { pipeline = pipeline_concat[b % 2]; } else if (bottom_blob.elempack == 4 && elempack == 4) { pipeline = pipeline_concat_pack4[b % 2]; } else if (bottom_blob.elempack == 4 && elempack == 1) { pipeline = pipeline_concat_pack4to1[b % 2]; } else if (bottom_blob.elempack == 8 && elempack == 8) { pipeline = pipeline_concat_pack8[b % 2]; } else if (bottom_blob.elempack == 8 && elempack == 4) { pipeline = pipeline_concat_pack8to4[b % 2]; } else if (bottom_blob.elempack == 8 && elempack == 1) { pipeline = pipeline_concat_pack8to1[b % 2]; } cmd.record_pipeline(pipeline, bindings, constants, bottom_blob); coffset += bottom_blob.c * bottom_blob.elempack / elempack; } // packing if (elempack < out_elempack) { vkdev->convert_packing(top_blob_unpacked, top_blob, out_elempack, cmd, opt); } return 0; } if (dims == 4 && positive_axis == 1) { int w = bottom_blobs[0].w; int h = bottom_blobs[0].h; int channels = bottom_blobs[0].c; size_t elemsize = bottom_blobs[0].elemsize; int elempack = bottom_blobs[0].elempack; // total depth int top_d = 0; for (size_t b = 0; b < bottom_blobs.size(); b++) { const VkMat& bottom_blob = bottom_blobs[b]; top_d += bottom_blob.d; } VkMat& top_blob = top_blobs[0]; top_blob.create(w, h, top_d, channels, elemsize, elempack, opt.blob_vkallocator); if (top_blob.empty()) return -100; int doffset = 0; for (size_t b = 0; b < bottom_blobs.size(); b++) { const VkMat& bottom_blob = bottom_blobs[b]; std::vector bindings(2); bindings[0] = bottom_blob; bindings[1] = top_blob; std::vector constants(13); constants[0].i = bottom_blob.dims; constants[1].i = bottom_blob.w; constants[2].i = bottom_blob.h; constants[3].i = bottom_blob.d; constants[4].i = bottom_blob.c; constants[5].i = bottom_blob.cstep; constants[6].i = top_blob.dims; constants[7].i = top_blob.w; constants[8].i = top_blob.h; constants[9].i = top_blob.d; constants[10].i = top_blob.c; constants[11].i = top_blob.cstep; constants[12].i = doffset; const Pipeline* pipeline = elempack == 8 ? pipeline_concat_pack8[b % 2] : elempack == 4 ? pipeline_concat_pack4[b % 2] : pipeline_concat[b % 2]; cmd.record_pipeline(pipeline, bindings, constants, bottom_blob); doffset += bottom_blob.d; } return 0; } if (dims == 4 && positive_axis == 2) { int w = bottom_blobs[0].w; int d = bottom_blobs[0].d; int channels = bottom_blobs[0].c; size_t elemsize = bottom_blobs[0].elemsize; int elempack = bottom_blobs[0].elempack; // total height int top_h = 0; for (size_t b = 0; b < bottom_blobs.size(); b++) { const VkMat& bottom_blob = bottom_blobs[b]; top_h += bottom_blob.h; } VkMat& top_blob = top_blobs[0]; top_blob.create(w, top_h, d, channels, elemsize, elempack, opt.blob_vkallocator); if (top_blob.empty()) return -100; int hoffset = 0; for (size_t b = 0; b < bottom_blobs.size(); b++) { const VkMat& bottom_blob = bottom_blobs[b]; std::vector bindings(2); bindings[0] = bottom_blob; bindings[1] = top_blob; std::vector constants(13); constants[0].i = bottom_blob.dims; constants[1].i = bottom_blob.w; constants[2].i = bottom_blob.h; constants[3].i = bottom_blob.d; constants[4].i = bottom_blob.c; constants[5].i = bottom_blob.cstep; constants[6].i = top_blob.dims; constants[7].i = top_blob.w; constants[8].i = top_blob.h; constants[9].i = top_blob.d; constants[10].i = top_blob.c; constants[11].i = top_blob.cstep; constants[12].i = hoffset; const Pipeline* pipeline = elempack == 8 ? pipeline_concat_pack8[b % 2] : elempack == 4 ? pipeline_concat_pack4[b % 2] : pipeline_concat[b % 2]; cmd.record_pipeline(pipeline, bindings, constants, bottom_blob); hoffset += bottom_blob.h; } return 0; } if (dims == 4 && positive_axis == 3) { int h = bottom_blobs[0].h; int d = bottom_blobs[0].d; int channels = bottom_blobs[0].c; size_t elemsize = bottom_blobs[0].elemsize; int elempack = bottom_blobs[0].elempack; // total height int top_w = 0; for (size_t b = 0; b < bottom_blobs.size(); b++) { const VkMat& bottom_blob = bottom_blobs[b]; top_w += bottom_blob.w; } VkMat& top_blob = top_blobs[0]; top_blob.create(top_w, h, d, channels, elemsize, elempack, opt.blob_vkallocator); if (top_blob.empty()) return -100; int woffset = 0; for (size_t b = 0; b < bottom_blobs.size(); b++) { const VkMat& bottom_blob = bottom_blobs[b]; std::vector bindings(2); bindings[0] = bottom_blob; bindings[1] = top_blob; std::vector constants(13); constants[0].i = bottom_blob.dims; constants[1].i = bottom_blob.w; constants[2].i = bottom_blob.h; constants[3].i = bottom_blob.d; constants[4].i = bottom_blob.c; constants[5].i = bottom_blob.cstep; constants[6].i = top_blob.dims; constants[7].i = top_blob.w; constants[8].i = top_blob.h; constants[9].i = top_blob.d; constants[10].i = top_blob.c; constants[11].i = top_blob.cstep; constants[12].i = woffset; const Pipeline* pipeline = elempack == 8 ? pipeline_concat_pack8[b % 2] : elempack == 4 ? pipeline_concat_pack4[b % 2] : pipeline_concat[b % 2]; cmd.record_pipeline(pipeline, bindings, constants, bottom_blob); woffset += bottom_blob.w; } return 0; } return 0; } int Concat_vulkan::forward(const std::vector& bottom_blobs, std::vector& top_blobs, VkCompute& cmd, const Option& opt) const { int dims = bottom_blobs[0].dims; int positive_axis = axis < 0 ? dims + axis : axis; if (dims == 1) // positive_axis == 0 { // concat vector // total length size_t elemsize = bottom_blobs[0].elemsize; int elempack = bottom_blobs[0].elempack; int top_w = 0; for (size_t b = 0; b < bottom_blobs.size(); b++) { const VkImageMat& bottom_blob = bottom_blobs[b]; elemsize = std::min(elemsize, bottom_blob.elemsize); elempack = std::min(elempack, bottom_blob.elempack); top_w += bottom_blob.w * bottom_blob.elempack; } int out_elempack = opt.use_shader_pack8 && top_w % 8 == 0 ? 8 : top_w % 4 == 0 ? 4 : 1; size_t out_elemsize = elemsize / elempack * out_elempack; if (opt.use_fp16_packed && !opt.use_fp16_storage) { if (out_elempack == 8) out_elemsize = 8 * 2u; if (out_elempack == 4) out_elemsize = 4 * 2u; if (out_elempack == 1) out_elemsize = 4u; } VkImageMat& top_blob = top_blobs[0]; top_blob.create(top_w / out_elempack, out_elemsize, out_elempack, opt.blob_vkallocator); if (top_blob.empty()) return -100; VkImageMat top_blob_unpacked = top_blob; if (elempack < out_elempack) { top_blob_unpacked.create(top_w / elempack, elemsize, elempack, opt.workspace_vkallocator); if (top_blob_unpacked.empty()) return -100; } int woffset = 0; for (size_t b = 0; b < bottom_blobs.size(); b++) { const VkImageMat& bottom_blob = bottom_blobs[b]; std::vector bindings(2); bindings[0] = bottom_blob; bindings[1] = top_blob_unpacked; std::vector constants(13); constants[0].i = bottom_blob.dims; constants[1].i = bottom_blob.w; constants[2].i = bottom_blob.h; constants[3].i = bottom_blob.d; constants[4].i = bottom_blob.c; constants[5].i = 0; //bottom_blob.cstep; constants[6].i = top_blob_unpacked.dims; constants[7].i = top_blob_unpacked.w; constants[8].i = top_blob_unpacked.h; constants[9].i = top_blob_unpacked.d; constants[10].i = top_blob_unpacked.c; constants[11].i = 0; //top_blob_unpacked.cstep; constants[12].i = woffset; const Pipeline* pipeline = 0; if (bottom_blob.elempack == 1 && elempack == 1) { pipeline = pipeline_concat[b % 2]; } else if (bottom_blob.elempack == 4 && elempack == 4) { pipeline = pipeline_concat_pack4[b % 2]; } else if (bottom_blob.elempack == 4 && elempack == 1) { pipeline = pipeline_concat_pack4to1[b % 2]; } else if (bottom_blob.elempack == 8 && elempack == 8) { pipeline = pipeline_concat_pack8[b % 2]; } else if (bottom_blob.elempack == 8 && elempack == 4) { pipeline = pipeline_concat_pack8to4[b % 2]; } else if (bottom_blob.elempack == 8 && elempack == 1) { pipeline = pipeline_concat_pack8to1[b % 2]; } cmd.record_pipeline(pipeline, bindings, constants, bottom_blob); woffset += bottom_blob.w * bottom_blob.elempack / elempack; } // packing if (elempack < out_elempack) { vkdev->convert_packing(top_blob_unpacked, top_blob, out_elempack, cmd, opt); } return 0; } if (dims == 2 && positive_axis == 0) { // concat image int w = bottom_blobs[0].w; // total height size_t elemsize = bottom_blobs[0].elemsize; int elempack = bottom_blobs[0].elempack; int top_h = 0; for (size_t b = 0; b < bottom_blobs.size(); b++) { const VkImageMat& bottom_blob = bottom_blobs[b]; elemsize = std::min(elemsize, bottom_blob.elemsize); elempack = std::min(elempack, bottom_blob.elempack); top_h += bottom_blob.h * bottom_blob.elempack; } int out_elempack = opt.use_shader_pack8 && top_h % 8 == 0 ? 8 : top_h % 4 == 0 ? 4 : 1; size_t out_elemsize = elemsize / elempack * out_elempack; if (opt.use_fp16_packed && !opt.use_fp16_storage) { if (out_elempack == 8) out_elemsize = 8 * 2u; if (out_elempack == 4) out_elemsize = 4 * 2u; if (out_elempack == 1) out_elemsize = 4u; } VkImageMat& top_blob = top_blobs[0]; top_blob.create(w, top_h / out_elempack, out_elemsize, out_elempack, opt.blob_vkallocator); if (top_blob.empty()) return -100; VkImageMat top_blob_unpacked = top_blob; if (elempack < out_elempack) { top_blob_unpacked.create(w, top_h / elempack, elemsize, elempack, opt.workspace_vkallocator); if (top_blob_unpacked.empty()) return -100; } int hoffset = 0; for (size_t b = 0; b < bottom_blobs.size(); b++) { const VkImageMat& bottom_blob = bottom_blobs[b]; std::vector bindings(2); bindings[0] = bottom_blob; bindings[1] = top_blob_unpacked; std::vector constants(13); constants[0].i = bottom_blob.dims; constants[1].i = bottom_blob.w; constants[2].i = bottom_blob.h; constants[3].i = bottom_blob.d; constants[4].i = bottom_blob.c; constants[5].i = 0; //bottom_blob.cstep; constants[6].i = top_blob_unpacked.dims; constants[7].i = top_blob_unpacked.w; constants[8].i = top_blob_unpacked.h; constants[9].i = top_blob_unpacked.d; constants[10].i = top_blob_unpacked.c; constants[11].i = 0; //top_blob_unpacked.cstep; constants[12].i = hoffset; const Pipeline* pipeline = 0; if (bottom_blob.elempack == 1 && elempack == 1) { pipeline = pipeline_concat[b % 2]; } else if (bottom_blob.elempack == 4 && elempack == 4) { pipeline = pipeline_concat_pack4[b % 2]; } else if (bottom_blob.elempack == 4 && elempack == 1) { pipeline = pipeline_concat_pack4to1[b % 2]; } else if (bottom_blob.elempack == 8 && elempack == 8) { pipeline = pipeline_concat_pack8[b % 2]; } else if (bottom_blob.elempack == 8 && elempack == 4) { pipeline = pipeline_concat_pack8to4[b % 2]; } else if (bottom_blob.elempack == 8 && elempack == 1) { pipeline = pipeline_concat_pack8to1[b % 2]; } cmd.record_pipeline(pipeline, bindings, constants, bottom_blob); hoffset += bottom_blob.h * bottom_blob.elempack / elempack; } // packing if (elempack < out_elempack) { vkdev->convert_packing(top_blob_unpacked, top_blob, out_elempack, cmd, opt); } return 0; } if (dims == 2 && positive_axis == 1) { // interleave image row int h = bottom_blobs[0].h; size_t elemsize = bottom_blobs[0].elemsize; int elempack = bottom_blobs[0].elempack; // total width int top_w = 0; for (size_t b = 0; b < bottom_blobs.size(); b++) { const VkImageMat& bottom_blob = bottom_blobs[b]; top_w += bottom_blob.w; } VkImageMat& top_blob = top_blobs[0]; top_blob.create(top_w, h, elemsize, elempack, opt.blob_vkallocator); if (top_blob.empty()) return -100; int woffset = 0; for (size_t b = 0; b < bottom_blobs.size(); b++) { const VkImageMat& bottom_blob = bottom_blobs[b]; std::vector bindings(2); bindings[0] = bottom_blob; bindings[1] = top_blob; std::vector constants(13); constants[0].i = bottom_blob.dims; constants[1].i = bottom_blob.w; constants[2].i = bottom_blob.h; constants[3].i = bottom_blob.d; constants[4].i = bottom_blob.c; constants[5].i = 0; //bottom_blob.cstep; constants[6].i = top_blob.dims; constants[7].i = top_blob.w; constants[8].i = top_blob.h; constants[9].i = top_blob.d; constants[10].i = top_blob.c; constants[11].i = 0; //top_blob.cstep; constants[12].i = woffset; const Pipeline* pipeline = elempack == 8 ? pipeline_concat_pack8[b % 2] : elempack == 4 ? pipeline_concat_pack4[b % 2] : pipeline_concat[b % 2]; cmd.record_pipeline(pipeline, bindings, constants, bottom_blob); woffset += bottom_blob.w; } return 0; } if (dims == 3 && positive_axis == 0) { // concat dim int w = bottom_blobs[0].w; int h = bottom_blobs[0].h; // total channels size_t elemsize = bottom_blobs[0].elemsize; int elempack = bottom_blobs[0].elempack; int top_channels = 0; for (size_t b = 0; b < bottom_blobs.size(); b++) { const VkImageMat& bottom_blob = bottom_blobs[b]; elemsize = std::min(elemsize, bottom_blob.elemsize); elempack = std::min(elempack, bottom_blob.elempack); top_channels += bottom_blob.c * bottom_blob.elempack; } int out_elempack = opt.use_shader_pack8 && top_channels % 8 == 0 ? 8 : top_channels % 4 == 0 ? 4 : 1; size_t out_elemsize = elemsize / elempack * out_elempack; if (opt.use_fp16_packed && !opt.use_fp16_storage) { if (out_elempack == 8) out_elemsize = 8 * 2u; if (out_elempack == 4) out_elemsize = 4 * 2u; if (out_elempack == 1) out_elemsize = 4u; } VkImageMat& top_blob = top_blobs[0]; top_blob.create(w, h, top_channels / out_elempack, out_elemsize, out_elempack, opt.blob_vkallocator); if (top_blob.empty()) return -100; VkImageMat top_blob_unpacked = top_blob; if (elempack < out_elempack) { top_blob_unpacked.create(w, h, top_channels / elempack, elemsize, elempack, opt.workspace_vkallocator); if (top_blob_unpacked.empty()) return -100; } int coffset = 0; for (size_t b = 0; b < bottom_blobs.size(); b++) { const VkImageMat& bottom_blob = bottom_blobs[b]; std::vector bindings(2); bindings[0] = bottom_blob; bindings[1] = top_blob_unpacked; std::vector constants(13); constants[0].i = bottom_blob.dims; constants[1].i = bottom_blob.w; constants[2].i = bottom_blob.h; constants[3].i = bottom_blob.d; constants[4].i = bottom_blob.c; constants[5].i = 0; //bottom_blob.cstep; constants[6].i = top_blob_unpacked.dims; constants[7].i = top_blob_unpacked.w; constants[8].i = top_blob_unpacked.h; constants[9].i = top_blob_unpacked.d; constants[10].i = top_blob_unpacked.c; constants[11].i = 0; //top_blob_unpacked.cstep; constants[12].i = coffset; const Pipeline* pipeline = 0; if (bottom_blob.elempack == 1 && elempack == 1) { pipeline = pipeline_concat[b % 2]; } else if (bottom_blob.elempack == 4 && elempack == 4) { pipeline = pipeline_concat_pack4[b % 2]; } else if (bottom_blob.elempack == 4 && elempack == 1) { pipeline = pipeline_concat_pack4to1[b % 2]; } else if (bottom_blob.elempack == 8 && elempack == 8) { pipeline = pipeline_concat_pack8[b % 2]; } else if (bottom_blob.elempack == 8 && elempack == 4) { pipeline = pipeline_concat_pack8to4[b % 2]; } else if (bottom_blob.elempack == 8 && elempack == 1) { pipeline = pipeline_concat_pack8to1[b % 2]; } cmd.record_pipeline(pipeline, bindings, constants, bottom_blob); coffset += bottom_blob.c * bottom_blob.elempack / elempack; } // packing if (elempack < out_elempack) { vkdev->convert_packing(top_blob_unpacked, top_blob, out_elempack, cmd, opt); } return 0; } if (dims == 3 && positive_axis == 1) { // interleave dim height int w = bottom_blobs[0].w; int channels = bottom_blobs[0].c; size_t elemsize = bottom_blobs[0].elemsize; int elempack = bottom_blobs[0].elempack; // total height int top_h = 0; for (size_t b = 0; b < bottom_blobs.size(); b++) { const VkImageMat& bottom_blob = bottom_blobs[b]; top_h += bottom_blob.h; } VkImageMat& top_blob = top_blobs[0]; top_blob.create(w, top_h, channels, elemsize, elempack, opt.blob_vkallocator); if (top_blob.empty()) return -100; int hoffset = 0; for (size_t b = 0; b < bottom_blobs.size(); b++) { const VkImageMat& bottom_blob = bottom_blobs[b]; std::vector bindings(2); bindings[0] = bottom_blob; bindings[1] = top_blob; std::vector constants(13); constants[0].i = bottom_blob.dims; constants[1].i = bottom_blob.w; constants[2].i = bottom_blob.h; constants[3].i = bottom_blob.d; constants[4].i = bottom_blob.c; constants[5].i = 0; //bottom_blob.cstep; constants[6].i = top_blob.dims; constants[7].i = top_blob.w; constants[8].i = top_blob.h; constants[9].i = top_blob.d; constants[10].i = top_blob.c; constants[11].i = 0; //top_blob.cstep; constants[12].i = hoffset; const Pipeline* pipeline = elempack == 8 ? pipeline_concat_pack8[b % 2] : elempack == 4 ? pipeline_concat_pack4[b % 2] : pipeline_concat[b % 2]; cmd.record_pipeline(pipeline, bindings, constants, bottom_blob); hoffset += bottom_blob.h; } return 0; } if (dims == 3 && positive_axis == 2) { // interleave dim width int h = bottom_blobs[0].h; int channels = bottom_blobs[0].c; size_t elemsize = bottom_blobs[0].elemsize; int elempack = bottom_blobs[0].elempack; // total height int top_w = 0; for (size_t b = 0; b < bottom_blobs.size(); b++) { const VkImageMat& bottom_blob = bottom_blobs[b]; top_w += bottom_blob.w; } VkImageMat& top_blob = top_blobs[0]; top_blob.create(top_w, h, channels, elemsize, elempack, opt.blob_vkallocator); if (top_blob.empty()) return -100; int woffset = 0; for (size_t b = 0; b < bottom_blobs.size(); b++) { const VkImageMat& bottom_blob = bottom_blobs[b]; std::vector bindings(2); bindings[0] = bottom_blob; bindings[1] = top_blob; std::vector constants(13); constants[0].i = bottom_blob.dims; constants[1].i = bottom_blob.w; constants[2].i = bottom_blob.h; constants[3].i = bottom_blob.d; constants[4].i = bottom_blob.c; constants[5].i = 0; //bottom_blob.cstep; constants[6].i = top_blob.dims; constants[7].i = top_blob.w; constants[8].i = top_blob.h; constants[9].i = top_blob.d; constants[10].i = top_blob.c; constants[11].i = 0; //top_blob.cstep; constants[12].i = woffset; const Pipeline* pipeline = elempack == 8 ? pipeline_concat_pack8[b % 2] : elempack == 4 ? pipeline_concat_pack4[b % 2] : pipeline_concat[b % 2]; cmd.record_pipeline(pipeline, bindings, constants, bottom_blob); woffset += bottom_blob.w; } return 0; } if (dims == 4 && positive_axis == 0) { int w = bottom_blobs[0].w; int h = bottom_blobs[0].h; int d = bottom_blobs[0].d; // total channels size_t elemsize = bottom_blobs[0].elemsize; int elempack = bottom_blobs[0].elempack; int top_channels = 0; for (size_t b = 0; b < bottom_blobs.size(); b++) { const VkImageMat& bottom_blob = bottom_blobs[b]; elemsize = std::min(elemsize, bottom_blob.elemsize); elempack = std::min(elempack, bottom_blob.elempack); top_channels += bottom_blob.c * bottom_blob.elempack; } int out_elempack = opt.use_shader_pack8 && top_channels % 8 == 0 ? 8 : top_channels % 4 == 0 ? 4 : 1; size_t out_elemsize = elemsize / elempack * out_elempack; if (opt.use_fp16_packed && !opt.use_fp16_storage) { if (out_elempack == 8) out_elemsize = 8 * 2u; if (out_elempack == 4) out_elemsize = 4 * 2u; if (out_elempack == 1) out_elemsize = 4u; } VkImageMat& top_blob = top_blobs[0]; top_blob.create(w, h, d, top_channels / out_elempack, out_elemsize, out_elempack, opt.blob_vkallocator); if (top_blob.empty()) return -100; VkImageMat top_blob_unpacked = top_blob; if (elempack < out_elempack) { top_blob_unpacked.create(w, h, d, top_channels / elempack, elemsize, elempack, opt.workspace_vkallocator); if (top_blob_unpacked.empty()) return -100; } int coffset = 0; for (size_t b = 0; b < bottom_blobs.size(); b++) { const VkImageMat& bottom_blob = bottom_blobs[b]; std::vector bindings(2); bindings[0] = bottom_blob; bindings[1] = top_blob_unpacked; std::vector constants(13); constants[0].i = bottom_blob.dims; constants[1].i = bottom_blob.w; constants[2].i = bottom_blob.h; constants[3].i = bottom_blob.d; constants[4].i = bottom_blob.c; constants[5].i = 0; //bottom_blob.cstep; constants[6].i = top_blob_unpacked.dims; constants[7].i = top_blob_unpacked.w; constants[8].i = top_blob_unpacked.h; constants[9].i = top_blob_unpacked.d; constants[10].i = top_blob_unpacked.c; constants[11].i = 0; //top_blob_unpacked.cstep; constants[12].i = coffset; const Pipeline* pipeline = 0; if (bottom_blob.elempack == 1 && elempack == 1) { pipeline = pipeline_concat[b % 2]; } else if (bottom_blob.elempack == 4 && elempack == 4) { pipeline = pipeline_concat_pack4[b % 2]; } else if (bottom_blob.elempack == 4 && elempack == 1) { pipeline = pipeline_concat_pack4to1[b % 2]; } else if (bottom_blob.elempack == 8 && elempack == 8) { pipeline = pipeline_concat_pack8[b % 2]; } else if (bottom_blob.elempack == 8 && elempack == 4) { pipeline = pipeline_concat_pack8to4[b % 2]; } else if (bottom_blob.elempack == 8 && elempack == 1) { pipeline = pipeline_concat_pack8to1[b % 2]; } cmd.record_pipeline(pipeline, bindings, constants, bottom_blob); coffset += bottom_blob.c * bottom_blob.elempack / elempack; } // packing if (elempack < out_elempack) { vkdev->convert_packing(top_blob_unpacked, top_blob, out_elempack, cmd, opt); } return 0; } if (dims == 4 && positive_axis == 1) { int w = bottom_blobs[0].w; int h = bottom_blobs[0].h; int channels = bottom_blobs[0].c; size_t elemsize = bottom_blobs[0].elemsize; int elempack = bottom_blobs[0].elempack; // total depth int top_d = 0; for (size_t b = 0; b < bottom_blobs.size(); b++) { const VkImageMat& bottom_blob = bottom_blobs[b]; top_d += bottom_blob.d; } VkImageMat& top_blob = top_blobs[0]; top_blob.create(w, h, top_d, channels, elemsize, elempack, opt.blob_vkallocator); if (top_blob.empty()) return -100; int doffset = 0; for (size_t b = 0; b < bottom_blobs.size(); b++) { const VkImageMat& bottom_blob = bottom_blobs[b]; std::vector bindings(2); bindings[0] = bottom_blob; bindings[1] = top_blob; std::vector constants(13); constants[0].i = bottom_blob.dims; constants[1].i = bottom_blob.w; constants[2].i = bottom_blob.h; constants[3].i = bottom_blob.d; constants[4].i = bottom_blob.c; constants[5].i = 0; //bottom_blob.cstep; constants[6].i = top_blob.dims; constants[7].i = top_blob.w; constants[8].i = top_blob.h; constants[9].i = top_blob.d; constants[10].i = top_blob.c; constants[11].i = 0; //top_blob.cstep; constants[12].i = doffset; const Pipeline* pipeline = elempack == 8 ? pipeline_concat_pack8[b % 2] : elempack == 4 ? pipeline_concat_pack4[b % 2] : pipeline_concat[b % 2]; cmd.record_pipeline(pipeline, bindings, constants, bottom_blob); doffset += bottom_blob.d; } return 0; } if (dims == 4 && positive_axis == 2) { int w = bottom_blobs[0].w; int d = bottom_blobs[0].d; int channels = bottom_blobs[0].c; size_t elemsize = bottom_blobs[0].elemsize; int elempack = bottom_blobs[0].elempack; // total height int top_h = 0; for (size_t b = 0; b < bottom_blobs.size(); b++) { const VkImageMat& bottom_blob = bottom_blobs[b]; top_h += bottom_blob.h; } VkImageMat& top_blob = top_blobs[0]; top_blob.create(w, top_h, d, channels, elemsize, elempack, opt.blob_vkallocator); if (top_blob.empty()) return -100; int hoffset = 0; for (size_t b = 0; b < bottom_blobs.size(); b++) { const VkImageMat& bottom_blob = bottom_blobs[b]; std::vector bindings(2); bindings[0] = bottom_blob; bindings[1] = top_blob; std::vector constants(13); constants[0].i = bottom_blob.dims; constants[1].i = bottom_blob.w; constants[2].i = bottom_blob.h; constants[3].i = bottom_blob.d; constants[4].i = bottom_blob.c; constants[5].i = 0; //bottom_blob.cstep; constants[6].i = top_blob.dims; constants[7].i = top_blob.w; constants[8].i = top_blob.h; constants[9].i = top_blob.d; constants[10].i = top_blob.c; constants[11].i = 0; //top_blob.cstep; constants[12].i = hoffset; const Pipeline* pipeline = elempack == 8 ? pipeline_concat_pack8[b % 2] : elempack == 4 ? pipeline_concat_pack4[b % 2] : pipeline_concat[b % 2]; cmd.record_pipeline(pipeline, bindings, constants, bottom_blob); hoffset += bottom_blob.h; } return 0; } if (dims == 4 && positive_axis == 3) { int h = bottom_blobs[0].h; int d = bottom_blobs[0].d; int channels = bottom_blobs[0].c; size_t elemsize = bottom_blobs[0].elemsize; int elempack = bottom_blobs[0].elempack; // total height int top_w = 0; for (size_t b = 0; b < bottom_blobs.size(); b++) { const VkImageMat& bottom_blob = bottom_blobs[b]; top_w += bottom_blob.w; } VkImageMat& top_blob = top_blobs[0]; top_blob.create(top_w, h, d, channels, elemsize, elempack, opt.blob_vkallocator); if (top_blob.empty()) return -100; int woffset = 0; for (size_t b = 0; b < bottom_blobs.size(); b++) { const VkImageMat& bottom_blob = bottom_blobs[b]; std::vector bindings(2); bindings[0] = bottom_blob; bindings[1] = top_blob; std::vector constants(13); constants[0].i = bottom_blob.dims; constants[1].i = bottom_blob.w; constants[2].i = bottom_blob.h; constants[3].i = bottom_blob.d; constants[4].i = bottom_blob.c; constants[5].i = 0; //bottom_blob.cstep; constants[6].i = top_blob.dims; constants[7].i = top_blob.w; constants[8].i = top_blob.h; constants[9].i = top_blob.d; constants[10].i = top_blob.c; constants[11].i = 0; //top_blob.cstep; constants[12].i = woffset; const Pipeline* pipeline = elempack == 8 ? pipeline_concat_pack8[b % 2] : elempack == 4 ? pipeline_concat_pack4[b % 2] : pipeline_concat[b % 2]; cmd.record_pipeline(pipeline, bindings, constants, bottom_blob); woffset += bottom_blob.w; } return 0; } return 0; } } // namespace ncnn