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2026-07-13 13:33:03 +08:00

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2.9 KiB
C++

//
// RasterGrad.cpp
// MNN
//
// Created by MNN on 2022/10/09.
// Copyright © 2018, Alibaba Group Holding Limited
//
#include "OpGrad.hpp"
#include "core/TensorUtils.hpp"
using namespace std;
namespace MNN {
using namespace MNN::Express;
class RasterGrad : public OpGrad {
public:
virtual std::vector<Express::VARP> onGrad(Express::EXPRP expr,
const std::vector<Express::VARP>& backwardOutput) override {
auto inputs = expr->inputs();
std::vector<VARP> result(inputs.size(), nullptr);
auto rasterInfo = expr->get()->main_as_Extra();
const int32_t* regionData = nullptr;
const int REGION_LENGTH = 11;
std::vector<int32_t> regionDataHolder;
if (nullptr != rasterInfo && nullptr != rasterInfo->attr()) {
for (int i=0; i<rasterInfo->attr()->size(); ++i) {
auto attr = rasterInfo->attr()->GetAs<Attribute>(i);
if (attr->key()->str() == "region") {
regionData = attr->list()->i()->data();
MNN_ASSERT(inputs.size() * REGION_LENGTH == attr->list()->i()->size());
break;
}
}
} else {
regionDataHolder.resize(inputs.size() * REGION_LENGTH);
regionData = regionDataHolder.data();
auto outputTensor = Variable::create(expr)->getTensor();
auto des = TensorUtils::getDescribe(outputTensor);
MNN_ASSERT(des->regions.size() == inputs.size());
for (int i=0; i<inputs.size(); ++i) {
auto& r = des->regions[i];
auto dstPtr = regionDataHolder.data() + REGION_LENGTH * i;
dstPtr[0] = r.src.offset;
dstPtr[1] = r.src.stride[0];
dstPtr[2] = r.src.stride[1];
dstPtr[3] = r.src.stride[2];
dstPtr[4] = r.dst.offset;
dstPtr[5] = r.dst.stride[0];
dstPtr[6] = r.dst.stride[1];
dstPtr[7] = r.dst.stride[2];
dstPtr[8] = r.size[0];
dstPtr[9] = r.size[1];
dstPtr[10] = r.size[2];
}
}
for (int i=0; i<inputs.size(); ++i) {
auto regionInfo = regionData + REGION_LENGTH * i;
auto info = inputs[i]->getInfo();
auto shape = info->dim;
std::vector<int> curRegion(REGION_LENGTH);
::memcpy(curRegion.data(), regionInfo, REGION_LENGTH * sizeof(int));
::memcpy(curRegion.data(), regionInfo + 4, 4 * sizeof(int));
::memcpy(curRegion.data() + 4, regionInfo, 4 * sizeof(int));
auto grad = _RasterRaw({backwardOutput[0]}, curRegion, shape, info->type, info->order);
result[i] = grad;
}
return result;
}
};
static void _create() {
static RasterGrad _c;
OpGrad::insert(OpType_Raster, &_c);
}
REGISTER_GRAD(RasterGrad_cpp, _create);
};