MNN/source/shape/ShapeInterp.cpp

//
//  ShapeInterp.cpp
//  MNN
//
//  Created by MNN on 2019/01/10.
//  Copyright © 2018, Alibaba Group Holding Limited
//

#include "core/Macro.h"
#include "core/SizeComputer.hpp"

namespace MNN {

// Size Computer
class InterpComputer : public SizeComputer {
    virtual bool onComputeSize(const MNN::Op* op, const std::vector<Tensor*>& inputs,
                               const std::vector<Tensor*>& outputs) const override {
        MNN_ASSERT(1 == inputs.size() || 2 == inputs.size());
        MNN_ASSERT(1 == outputs.size());

        auto& input         = inputs[0]->buffer(); // input tensor(data)
        auto& output        = outputs[0]->buffer();
        int w               = 0;
        int h               = 0;
        const int inputSize = (int)inputs.size();
        // copy dims
        memcpy(output.dim, input.dim, sizeof(halide_dimension_t) * input.dimensions);
        if (1 == inputSize) {
            auto interp = op->main_as_Interp();
            // get output dims
            w = interp->outputWidth();
            h = interp->outputHeight();
            if (w == 0 || h == 0) {
                w = input.dim[3].extent * interp->widthScale();
                h = input.dim[2].extent * interp->heightScale();
            }
            output.dim[3].extent = w;
            output.dim[2].extent = h;
        } else {
            auto shape = inputs[1]; // input shape(shape)
            MNN_ASSERT(2 == shape->buffer().dim[0].extent);
            if (shape->getType().code == halide_type_float) {
                const float *shapeData = shape->host<float>();
                w                      = shapeData[1];
                h                      = shapeData[0];
                output.dim[3].extent   = w;
                output.dim[2].extent   = h;
            } else {
                const int32_t *shapeData = shape->host<int32_t>();
                w                        = shapeData[1];
                h                        = shapeData[0];
                output.dim[3].extent     = w;
                output.dim[2].extent     = h;
            }
        }

        if (0 == w || 0 == h) {
            return false;
        }
        outputs[0]->buffer().dimensions = inputs[0]->dimensions();
        outputs[0]->buffer().type = inputs[0]->getType();
        TensorUtils::getDescribe(outputs[0])->dimensionFormat = TensorUtils::getDescribe(inputs[0])->dimensionFormat;

        return true;
    }
    virtual float onComputeFlops(const MNN::Op* op, const std::vector<Tensor*>& inputs,
                                 const std::vector<Tensor*>& outputs) const override {
        auto elementInM = (float)outputs[0]->elementSize() / 1024.0f / 1024.0f;
        auto interp     = op->main_as_Interp();
        auto unit       = 0;
        switch (interp->resizeType()) {
            case 1:
                unit = 1;
                break;
            case 2:
                unit = 4;
                break;
            case 3:
                unit = 16;
                break;
            default:
                break;
        }
        return unit * elementInM;
    }
};

REGISTER_SHAPE_INPUTS(InterpComputer, OpType_Interp, {1});
} // namespace MNN
beta 0.1.0 2019-04-17 10:49:11 +08:00			`//`
			`// ShapeInterp.cpp`
			`// MNN`
			`//`
			`// Created by MNN on 2019/01/10.`
			`// Copyright © 2018, Alibaba Group Holding Limited`
			`//`

Update 2019-12-27 22:16:57 +08:00			`#include "core/Macro.h"`
			`#include "core/SizeComputer.hpp"`
beta 0.1.0 2019-04-17 10:49:11 +08:00
			`namespace MNN {`

			`// Size Computer`
			`class InterpComputer : public SizeComputer {`
			`virtual bool onComputeSize(const MNN::Op* op, const std::vector<Tensor*>& inputs,`
			`const std::vector<Tensor*>& outputs) const override {`
			`MNN_ASSERT(1 == inputs.size() \|\| 2 == inputs.size());`
			`MNN_ASSERT(1 == outputs.size());`

			`auto& input = inputs[0]->buffer(); // input tensor(data)`
			`auto& output = outputs[0]->buffer();`
			`int w = 0;`
			`int h = 0;`
			`const int inputSize = (int)inputs.size();`
			`// copy dims`
			`memcpy(output.dim, input.dim, sizeof(halide_dimension_t) * input.dimensions);`
			`if (1 == inputSize) {`
			`auto interp = op->main_as_Interp();`
			`// get output dims`
			`w = interp->outputWidth();`
			`h = interp->outputHeight();`
			`if (w == 0 \|\| h == 0) {`
			`w = input.dim[3].extent * interp->widthScale();`
			`h = input.dim[2].extent * interp->heightScale();`
			`}`
			`output.dim[3].extent = w;`
			`output.dim[2].extent = h;`
			`} else {`
			`auto shape = inputs[1]; // input shape(shape)`
			`MNN_ASSERT(2 == shape->buffer().dim[0].extent);`
[PATCH 135/160] [Bugfix] fix interp with shape in float type 2020-03-17 15:04:56 +08:00			`if (shape->getType().code == halide_type_float) {`
			`const float *shapeData = shape->host<float>();`
			`w = shapeData[1];`
			`h = shapeData[0];`
			`output.dim[3].extent = w;`
			`output.dim[2].extent = h;`
			`} else {`
			`const int32_t *shapeData = shape->host<int32_t>();`
			`w = shapeData[1];`
			`h = shapeData[0];`
			`output.dim[3].extent = w;`
			`output.dim[2].extent = h;`
			`}`
beta 0.1.0 2019-04-17 10:49:11 +08:00			`}`

			`if (0 == w \|\| 0 == h) {`
			`return false;`
			`}`
[PATCH 07/24] [MNN:Bugfix] Fix bug for interp and pool set dim failed 2020-02-26 17:44:28 +08:00			`outputs[0]->buffer().dimensions = inputs[0]->dimensions();`
Sync. Fix OpenGL related building issues. Build the whole suite on Android CI (#580) * Sync code with latest internal version * Update CMake * Fix logging issues * Fix OpenGL Building * Bump CMakeLists version. Update Podspec * Update MetalLib Lookup logic * Fix Windows Build 2020-01-15 13:33:47 +08:00			`outputs[0]->buffer().type = inputs[0]->getType();`
beta 0.2.0.8 - add NaN check-up - add quantification support for ScaleAdd Op - add binary to eltwise optimization - add console logs for quantization tool - better document for quantization tool - replace redundant dimension flags with dimension format - optimize performance of TensorFlow Lite Quantized Convolution - fix axis support for ONNX softmax - fix get performance compile error on Windows 2019-08-22 20:13:46 +08:00			`TensorUtils::getDescribe(outputs[0])->dimensionFormat = TensorUtils::getDescribe(inputs[0])->dimensionFormat;`
beta 0.1.0 2019-04-17 10:49:11 +08:00
			`return true;`
			`}`
			`virtual float onComputeFlops(const MNN::Op* op, const std::vector<Tensor*>& inputs,`
			`const std::vector<Tensor*>& outputs) const override {`
			`auto elementInM = (float)outputs[0]->elementSize() / 1024.0f / 1024.0f;`
			`auto interp = op->main_as_Interp();`
			`auto unit = 0;`
			`switch (interp->resizeType()) {`
			`case 1:`
			`unit = 1;`
			`break;`
			`case 2:`
			`unit = 4;`
			`break;`
			`case 3:`
			`unit = 16;`
			`break;`
			`default:`
			`break;`
			`}`
			`return unit * elementInM;`
			`}`
			`};`

beta 0.2.0.8 - add NaN check-up - add quantification support for ScaleAdd Op - add binary to eltwise optimization - add console logs for quantization tool - better document for quantization tool - replace redundant dimension flags with dimension format - optimize performance of TensorFlow Lite Quantized Convolution - fix axis support for ONNX softmax - fix get performance compile error on Windows 2019-08-22 20:13:46 +08:00			`REGISTER_SHAPE_INPUTS(InterpComputer, OpType_Interp, {1});`
beta 0.1.0 2019-04-17 10:49:11 +08:00			`} // namespace MNN`