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

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C++

//
// PackTflite.cpp
// MNNConverter
//
// Created by MNN on 2019/11/25.
// Copyright © 2018, Alibaba Group Holding Limited
//
#include <stdio.h>
#include "liteOpConverter.hpp"
DECLARE_OP_COVERTER(PackTflite);
MNN::OpType PackTflite::opType(int quantizedModel) {
return MNN::OpType_Pack;
}
MNN::OpParameter PackTflite::type(int quantizedModel) {
return MNN::OpParameter_PackParam;
}
void PackTflite::run(MNN::OpT* dstOp, const std::unique_ptr<tflite::OperatorT>& tfliteOp,
const std::vector<std::unique_ptr<tflite::TensorT>>& tfliteTensors,
const std::vector<std::unique_ptr<tflite::BufferT>>& tfliteModelBuffer,
const std::vector<std::unique_ptr<tflite::OperatorCodeT>>& tfliteOpSet, int quantizedModel){
auto param = new MNN::PackParamT;
auto opt=tfliteOp->builtin_options.AsPackOptions();
param->axis=opt->axis;
dstOp->main.value = param;
}
DECLARE_OP_COVERTER(SplitTflite);
MNN::OpType SplitTflite::opType(int quantizedModel) {
return MNN::OpType_Slice;
}
MNN::OpParameter SplitTflite::type(int quantizedModel) {
return MNN::OpParameter_Slice;
}
void SplitTflite::run(MNN::OpT* dstOp, const std::unique_ptr<tflite::OperatorT>& tfliteOp,
const std::vector<std::unique_ptr<tflite::TensorT>>& tfliteTensors,
const std::vector<std::unique_ptr<tflite::BufferT>>& tfliteModelBuffer,
const std::vector<std::unique_ptr<tflite::OperatorCodeT>>& tfliteOpSet, int quantizedModel){
auto param = new MNN::SliceT;
param->sourceType = MNN::NetSource_TENSORFLOW;
auto opt=tfliteOp->builtin_options.AsSplitOptions();
param->slicePoints.resize(1);
param->slicePoints[0] = opt->num_splits;
dstOp->main.value = param;
auto originInput = dstOp->inputIndexes[1];
auto axisInput = dstOp->inputIndexes[0];
const auto& axisTensor = tfliteTensors[axisInput];
auto axisBuffer = tfliteModelBuffer[axisTensor->buffer].get();
param->axis = ((int32_t*)(axisBuffer->data.data()))[0];
dstOp->inputIndexes.resize(1);
dstOp->inputIndexes[0] = originInput;
}
DECLARE_OP_COVERTER(StridedSliceTflite);
MNN::OpType StridedSliceTflite::opType(int quantizedModel) {
return MNN::OpType_StridedSlice;
}
MNN::OpParameter StridedSliceTflite::type(int quantizedModel) {
return MNN::OpParameter_StridedSliceParam;
}
void StridedSliceTflite::run(MNN::OpT* dstOp, const std::unique_ptr<tflite::OperatorT>& tfliteOp,
const std::vector<std::unique_ptr<tflite::TensorT>>& tfliteTensors,
const std::vector<std::unique_ptr<tflite::BufferT>>& tfliteModelBuffer,
const std::vector<std::unique_ptr<tflite::OperatorCodeT>>& tfliteOpSet, int quantizedModel){
auto param = new MNN::StridedSliceParamT;
param->T = MNN::DataType_DT_FLOAT;
auto opt=tfliteOp->builtin_options.AsStridedSliceOptions();
param->beginMask = opt->begin_mask;
param->endMask = opt->end_mask;
param->ellipsisMask = opt->ellipsis_mask;
param->newAxisMask = opt->new_axis_mask;
param->shrinkAxisMask = opt->shrink_axis_mask;
dstOp->main.value = param;
}
using namespace tflite;
REGISTER_CONVERTER(PackTflite, BuiltinOperator_PACK);
REGISTER_CONVERTER(SplitTflite, BuiltinOperator_SPLIT);
REGISTER_CONVERTER(StridedSliceTflite, BuiltinOperator_STRIDED_SLICE);