// // ShapeResize.cpp // MNN // // Created by MNN on 2019/01/10. // Copyright © 2018, Alibaba Group Holding Limited // #include "shape/SizeComputer.hpp" #include "core/Macro.h" namespace MNN { // Size Computer class ResizeComputer : public SizeComputer { virtual bool onComputeSize(const MNN::Op *op, const std::vector &inputs, const std::vector &outputs) const override { MNN_ASSERT(1 == inputs.size()); MNN_ASSERT(1 == outputs.size()); // copy dims auto resize = op->main_as_Resize(); auto &input = inputs[0]->buffer(); auto &output = outputs[0]->buffer(); TensorUtils::copyShape(inputs[0], outputs[0], true); // set dims output.dim[3].extent = input.dim[3].extent * resize->xScale(); output.dim[2].extent = input.dim[2].extent * resize->yScale(); output.type = inputs[0]->getType(); return true; } virtual float onComputeFlops(const MNN::Op *op, const std::vector &inputs, const std::vector &outputs) const override { return (float)outputs[0]->elementSize() / 1024.0f / 1024.0f * 4; } }; class ImageProcessComputer : public SizeComputer { virtual bool onComputeSize(const MNN::Op *op, const std::vector &inputs, const std::vector &outputs) const override { MNN_ASSERT(1 == inputs.size() || inputs.size() == 3); MNN_ASSERT(1 == outputs.size()); if (inputs.size() == 3) { auto &output = outputs[0]->buffer(); output.dimensions = 1; output.dim[0].extent = 1; return true; } // copy dims auto &input = inputs[0]->buffer(); auto &output = outputs[0]->buffer(); TensorUtils::copyShape(inputs[0], outputs[0], true); // set dims auto process = op->main_as_ImageProcessParam(); int c = process->shape()->Get(1); int h = process->shape()->Get(2); int w = process->shape()->Get(3); if (MNN_DATA_FORMAT_NHWC == TensorUtils::getDescribe(inputs[0])->dimensionFormat) { output.dim[1].extent = h; output.dim[2].extent = w; output.dim[3].extent = c; } else { output.dim[1].extent = c; output.dim[2].extent = h; output.dim[3].extent = w; } // set dtype outputs[0]->setType(process->outputType()); return true; } virtual float onComputeFlops(const MNN::Op *op, const std::vector &inputs, const std::vector &outputs) const override { return (float)outputs[0]->elementSize() / 1024.0f / 1024.0f * 4; } }; REGISTER_SHAPE(ResizeComputer, OpType_Resize); REGISTER_SHAPE(ImageProcessComputer, OpType_ImageProcess); } // namespace MNN