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ROperator_Identity.hxx
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1#ifndef TMVA_SOFIE_ROPERATOR_IDENTITY
2#define TMVA_SOFIE_ROPERATOR_IDENTITY
3
4#include "TMVA/SOFIE_common.hxx"
5#include "TMVA/ROperator.hxx"
6#include "TMVA/RModel.hxx"
7
8#include <sstream>
9
10namespace TMVA{
11namespace Experimental{
12namespace SOFIE{
13
14template <typename T>
15class ROperator_Identity final : public ROperator
16{
17
18private:
19
20 bool fIsInputInitialized = false;
21 std::string fNX;
22 std::string fNY;
23 std::vector<size_t> fShape;
24
25public:
26 ROperator_Identity(){}
27 ROperator_Identity(std::string nameX, std::string nameY):
28 fNX(UTILITY::Clean_name(nameX)), fNY(UTILITY::Clean_name(nameY)){
29 fInputTensorNames = { fNX };
30 fOutputTensorNames = { fNY };
31 }
32
33 std::vector<ETensorType> TypeInference(std::vector<ETensorType> input) override {
34 return input;
35 }
36
37 std::vector<std::vector<size_t>> ShapeInference(std::vector<std::vector<size_t>> input) override {
38 auto ret = input; //suggest copy to compiler
39 return ret;
40 }
41
42 void Initialize(RModel& model) override {
43 //input must be a graph input, or already initialized intermediate tensor
44 if (model.CheckIfTensorAlreadyExist(fNX) == false){
45 throw std::runtime_error("TMVA SOFIE Identity Op Input Tensor is not found in model");
46 }
47 fShape = model.GetTensorShape(fNX);
48 if (model.IsInitializedTensor(fNX)) {
49 // we need to check if is a weight (initialized) or a constant tensor
50 // in the first case we need to create a constant tensor with the output, in teh second we
51 // need to generate the identy code in the GenerateInitCode
52 if (model.IsConstantTensor(fNX)) {
53 auto inputData = static_cast<T*>(model.GetInitializedTensorData(fNX).get());
54 model.AddConstantTensor<T>(fNY, fShape, inputData);
55 fIsOutputConstant = true;
56 } else {
57 fIsInputInitialized = true;
58 // need to create a dummy intermediate tensor for the declaration
59 // this could probably be improved to save memory
60 model.AddIntermediateTensor(fNY, model.GetTensorType(fNX), fShape);
61 }
62 } else
63 model.AddIntermediateTensor(fNY, model.GetTensorType(fNX), fShape);
64 }
65
66 std::string GenerateInitCode() override {
67 // generate init code for identity operator
68 if (!fIsInputInitialized) return "";
69 std::stringstream out;
70 out << "\n//------ IDENTITY\n";
71 // just copy the tensor pointers
72 out << SP << SP << "tensor_" << fNY << " = tensor_" << fNX << ";\n";
73 return out.str();
74 }
75
76
77 std::string Generate(std::string OpName) override {
78 if (fIsOutputConstant || fIsInputInitialized) return "";
79 OpName = "op_" + OpName;
80 if (fShape.empty()) {
81 throw std::runtime_error("TMVA SOFIE Operator Identity called to Generate without being initialized first");
82 }
83 std::stringstream out;
84 out << "\n//------ IDENTITY\n";
85 // just copy the tensor pointers
86 out << SP << SP << "tensor_" << fNY << " = tensor_" << fNX << ";\n";
87 return out.str();
88 }
89
90};
91
92}//SOFIE
93}//Experimental
94}//TMVA
95
96
97#endif //TMVA_SOFIE_ROPERATOR_IDENTITY
ret
char * ret
Definition Rotated.cxx:221
SOFIE_common.hxx
TMVA::Experimental::SOFIE::ROperator_Identity::fNY
std::string fNY
Definition ROperator_Identity.hxx:22
TMVA::Experimental::SOFIE::ROperator_Identity::GenerateInitCode
std::string GenerateInitCode() override
Definition ROperator_Identity.hxx:66
TMVA::Experimental::SOFIE::ROperator_Identity::TypeInference
std::vector< ETensorType > TypeInference(std::vector< ETensorType > input) override
Definition ROperator_Identity.hxx:33
TMVA::Experimental::SOFIE::ROperator_Identity::fNX
std::string fNX
Definition ROperator_Identity.hxx:21
TMVA::Experimental::SOFIE::ROperator_Identity::ShapeInference
std::vector< std::vector< size_t > > ShapeInference(std::vector< std::vector< size_t > > input) override
Definition ROperator_Identity.hxx:37
TMVA::Experimental::SOFIE::ROperator_Identity::ROperator_Identity
ROperator_Identity()
Definition ROperator_Identity.hxx:26
TMVA::Experimental::SOFIE::ROperator_Identity::Initialize
void Initialize(RModel &model) override
Definition ROperator_Identity.hxx:42
TMVA::Experimental::SOFIE::ROperator_Identity::ROperator_Identity
ROperator_Identity(std::string nameX, std::string nameY)
Definition ROperator_Identity.hxx:27
TMVA::Experimental::SOFIE::ROperator_Identity::fShape
std::vector< size_t > fShape
Definition ROperator_Identity.hxx:23
TMVA::Experimental::SOFIE::ROperator_Identity::fIsInputInitialized
bool fIsInputInitialized
Definition ROperator_Identity.hxx:20
TMVA::Experimental::SOFIE::ROperator_Identity::Generate
std::string Generate(std::string OpName) override
Definition ROperator_Identity.hxx:77
TMVA::Experimental::SOFIE::ROperator::fInputTensorNames
std::vector< std::string_view > fInputTensorNames
Definition ROperator.hxx:50
TMVA::Experimental::SOFIE::ROperator::fIsOutputConstant
bool fIsOutputConstant
flag to identify if operator has a constant output (no need to generate code)
Definition ROperator.hxx:47
TMVA::Experimental::SOFIE::ROperator::SP
const std::string SP
space used to correctly indent the generated C++ code
Definition ROperator.hxx:45
TMVA::Experimental::SOFIE::ROperator::fOutputTensorNames
std::vector< std::string_view > fOutputTensorNames
Definition ROperator.hxx:51
TMVA
create variable transformations
Definition GeneticMinimizer.h:22