ROperator_Basic_Is.hxx

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#ifndef TMVA_EXPERIMENTAL_SOFIE_ROPERATOR_BASIC_IS
#define TMVA_EXPERIMENTAL_SOFIE_ROPERATOR_BASIC_IS
 
#include <TMVA/ROperator.hxx>
#include <TMVA/RModel.hxx>
#include <TMVA/SOFIE_common.hxx>
#include <cmath>
 
namespace TMVA {
namespace Experimental {
namespace SOFIE {
 
enum class EBasicIsOperator { kIsInf, kIsInfPos, kIsInfNeg, kIsNaN };
 
template <EBasicIsOperator Op>
struct IsOpTraits {
};
template<>
struct IsOpTraits<EBasicIsOperator::kIsInf> {
   static std::string Name() { return "IsInf"; }
   static std::string Op(const std::string &x) { return "std::isinf(" + x + ")"; }
   static bool Impl(float x) { return std::isinf(x);}
};
template<>
struct IsOpTraits<EBasicIsOperator::kIsInfPos> {
   static std::string Name() { return "IsInfPos"; }
   static std::string Op(const std::string &x) { return "(std::isinf(" + x + ") && " + x + "> 0)"; }
   static bool Impl(float x) { return std::isinf(x) && x > 0;}
};
template<>
struct IsOpTraits<EBasicIsOperator::kIsInfNeg> {
   static std::string Name() { return "IsInfNeg"; }
   static std::string Op(const std::string &x) { return "(std::isinf(" + x + ") && " + x + "< 0)"; }
   static bool Impl(float x) { return std::isinf(x) && x < 0;}
};
template<>
struct IsOpTraits<EBasicIsOperator::kIsNaN> {
   static std::string Name() { return "IsInf"; }
   static std::string Op(const std::string &x) { return "std::isnan(" + x + ")"; }
   static bool Impl(float x) { return std::isnan(x);}
};
 
 
 
template <EBasicIsOperator Op>
class ROperator_Basic_Is final : public ROperator {
private:
   std::string fNX;
   std::string fNY;
 
   std::vector<Dim> fShapeX;
   std::vector<Dim> fShapeY;
 
public:
   ROperator_Basic_Is() {}
 
   ROperator_Basic_Is(std::string nameX, std::string nameY)
      : fNX(UTILITY::Clean_name(nameX)), fNY(UTILITY::Clean_name(nameY))
   {
         fInputTensorNames =  { fNX };
         fOutputTensorNames = { fNY };
   }
 
   void Initialize(RModel& model) override {
      if (!model.CheckIfTensorAlreadyExist(fNX)) {
         throw std::runtime_error("TMVA::SOFIE - Tensor " + fNX + " not found.");
      }
      fShapeX = model.GetDimTensorShape(fNX);
      fShapeY = fShapeX;
      model.AddIntermediateTensor(fNY, ETensorType::BOOL, fShapeY);
   }
 
   std::string Generate(std::string opName) override
   {
      opName = "op_" + opName;
      std::stringstream out;
 
      out << SP << "\n//---- Operator" << IsOpTraits<Op>::Name() << " " << opName << "\n";
      auto length = ConvertDimShapeToLength(fShapeX);
      out << SP << "for (size_t i = 0; i < " << length << "; i++) {\n";
      out << SP << SP << "tensor_" << fNY << "[i] = " << IsOpTraits<Op>::Op("tensor_" + fNX + "[i]") << ";\n";
      out << SP << "}\n";
      return out.str();
   }
 
   std::vector<std::string> GetStdLibs() override {
      return { std::string("cmath") };
   }
};
 
} // namespace SOFIE
} // namespace Experimental
} // namespace TMVA
 
#endif