meta/transform_kernels.h - platform/external/gemmlowp - Git at Google

 // Copyright 2016 The Gemmlowp Authors. All Rights Reserved.
 //
 // Licensed under the Apache License, Version 2.0 (the "License");
 // you may not use this file except in compliance with the License.
 // You may obtain a copy of the License at
 //
 //     http://www.apache.org/licenses/LICENSE-2.0
 //
 // Unless required by applicable law or agreed to in writing, software
 // distributed under the License is distributed on an "AS IS" BASIS,
 // WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
 // See the License for the specific language governing permissions and
 // limitations under the License.

 #ifndef GEMMLOWP_META_TRANSFORM_KERNELS_H_
 #define GEMMLOWP_META_TRANSFORM_KERNELS_H_

 #include "base.h"

 namespace gemmlowp {
 namespace meta {

 struct Quantize {
   float range_min;
   float range_offset;
   float range_scale;
   int count;
 };

 struct Dequantize {
   float range_min;
   float range_offset;
   float range_scale;
   int count;
 };

 struct Requantize {
   float input_range_min;
   float input_range_offset;
   float input_range_scale;
   float output_range_min;
   float output_range_offset;
   float one_over_output_range_scale;
   int count;
 };

 template <typename Type>
 struct MinMax {
   Type min;
   Type max;
   int count;
 };

 template <typename BiasType>
 struct BiasAdd {
   float input_range_min;
   float input_range_offset;
   float input_range_scale;
   float bias_range_min;
   float bias_range_offset;
   float bias_range_scale;
   float output_range_min;
   float output_range_offset;
   float one_over_output_range_scale;
   int count;
   int rows;
   const BiasType* bias;
 };

 template <typename InType, typename OutType, int kernel_size, int leftovers>
 class Transform1DKernel<InType, OutType, Quantize, kernel_size, leftovers> {
  public:
   static void Transform(const InType* in, const Quantize& params,
                         OutType* output) {
 #ifdef DEBUG
 #ifdef DEBUG_METAGEMM_VERBOSE
     std::cout << "Quantize::Transform(" << std::string(typeid(InType).name())
               << ", " << std::string(typeid(OutType).name()) << ") -- "
               << kernel_size << "x" << leftovers << std::endl;
 #endif
 #else
     std::cerr << "FATAL: Quantize::Transform not implemented." << std::endl;
     std::exit(1);
 #endif
   }
 };

 template <typename InType, typename OutType, int kernel_size, int leftovers>
 class Transform1DKernel<InType, OutType, Dequantize, kernel_size, leftovers> {
  public:
   static void Transform(const InType* in, const Dequantize& params,
                         OutType* output) {
 #ifdef DEBUG
 #ifdef DEBUG_METAGEMM_VERBOSE
     std::cout << "Dequantize::Transform(" << std::string(typeid(InType).name())
               << ", " << std::string(typeid(OutType).name()) << ") -- "
               << kernel_size << "x" << leftovers << std::endl;
 #endif
 #else
     std::cerr << "FATAL: Dequantize::Transform not implemented." << std::endl;
     std::exit(1);
 #endif
   }
 };

 template <typename InType, typename OutType, int kernel_size, int leftovers>
 class Transform1DKernel<InType, OutType, Requantize, kernel_size, leftovers> {
  public:
   static void Transform(const InType* in, const Requantize& params,
                         OutType* output) {
 #ifdef DEBUG
 #ifdef DEBUG_METAGEMM_VERBOSE
     std::cout << "Requantize::Transform(" << std::string(typeid(InType).name())
               << ", " << std::string(typeid(OutType).name()) << ") -- "
               << kernel_size << "x" << leftovers << std::endl;
 #endif
 #else
     std::cerr << "FATAL: Requantize::Transform not implemented." << std::endl;
     std::exit(1);
 #endif
   }
 };

 template <typename InType, typename OutType, int kernel_size, int leftovers,
           typename Type>
 class Transform1DKernel<InType, OutType, MinMax<Type>, kernel_size, leftovers> {
  public:
   static void Transform(const InType* in, const MinMax<Type>& params,
                         OutType* output) {
 #ifdef DEBUG
 #ifdef DEBUG_METAGEMM_VERBOSE
     std::cout << "MinMax::Transform(" << std::string(typeid(InType).name())
               << ", " << std::string(typeid(OutType).name()) << ") -- "
               << kernel_size << "x" << leftovers << std::endl;
 #endif
 #else
     std::cerr << "FATAL: MinMax::Transform not implemented." << std::endl;
     std::exit(1);
 #endif
   }
 };

 template <typename InType, typename OutType, int kernel_size, int leftovers,
           typename Type>
 class Transform1DKernel<InType, OutType, BiasAdd<Type>, kernel_size,
                         leftovers> {
  public:
   static void Transform(const InType* in, const BiasAdd<Type>& params,
                         OutType* output) {
 #ifdef DEBUG
 #ifdef DEBUG_METAGEMM_VERBOSE
     std::cout << "BiasAdd::Transform(" << std::string(typeid(InType).name())
               << ", " << std::string(typeid(OutType).name()) << ") -- "
               << kernel_size << "x" << leftovers << std::endl;
 #endif
 #else
     std::cerr << "FATAL: BiasAdd::Transform not implemented." << std::endl;
     std::exit(1);
 #endif
   }
 };

 template <typename InType, typename OutType>
 class Transform1DUtil<InType, OutType, Quantize> {
  public:
   static int EstimateComputeCost(const Quantize& params) {
     return params.count * 8;
   }

   static const InType* OffsetInput(const Quantize& params, const InType* input,
                                    int offset) {
     return input + offset;
   }

   static OutType* OffsetOutput(const Quantize& params, OutType* output,
                                int offset) {
     return output + offset;
   }
 };

 template <typename InType, typename OutType>
 class Transform1DUtil<InType, OutType, Requantize> {
  public:
   static int EstimateComputeCost(const Requantize& params) {
     return params.count * 12;
   }

   static const InType* OffsetInput(const Requantize& params,
                                    const InType* input, int offset) {
     return input + offset;
   }

   static OutType* OffsetOutput(const Requantize& params, OutType* output,
                                int offset) {
     return output + offset;
   }
 };

 template <typename InType, typename OutType>
 class Transform1DUtil<InType, OutType, Dequantize> {
  public:
   static int EstimateComputeCost(const Dequantize& params) {
     return params.count * 12;
   }

   static const InType* OffsetInput(const Dequantize& params,
                                    const InType* input, int offset) {
     return input + offset;
   }

   static OutType* OffsetOutput(const Dequantize& params, OutType* output,
                                int offset) {
     return output + offset;
   }
 };

 template <typename InType, typename OutType, typename MinMaxType>
 class Transform1DUtil<InType, OutType, MinMax<MinMaxType>> {
  public:
   static int EstimateComputeCost(const MinMax<MinMaxType>& params) {
     return params.count * 4;
   }

   static const InType* OffsetInput(const MinMax<MinMaxType>& params,
                                    const InType* input, int offset) {
     return input + offset;
   }

   static OutType* OffsetOutput(const MinMax<MinMaxType>& params,
                                OutType* output, int offset) {
     return output + offset;
   }
 };

 }  // namespace meta
 }  // namespace gemmlowp

 #ifdef GEMMLOWP_NEON_32
 #include "transform_kernels_arm_32.h"
 #elif defined(GEMMLOWP_NEON_64)
 #include "transform_kernels_arm_64.h"
 #endif

 #endif  // GEMMLOWP_META_TRANSFORM_KERNELS_H_
	// Copyright 2016 The Gemmlowp Authors. All Rights Reserved.
	//
	// Licensed under the Apache License, Version 2.0 (the "License");
	// you may not use this file except in compliance with the License.
	// You may obtain a copy of the License at
	//
	// http://www.apache.org/licenses/LICENSE-2.0
	//
	// Unless required by applicable law or agreed to in writing, software
	// distributed under the License is distributed on an "AS IS" BASIS,
	// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
	// See the License for the specific language governing permissions and
	// limitations under the License.

	#ifndef GEMMLOWP_META_TRANSFORM_KERNELS_H_
	#define GEMMLOWP_META_TRANSFORM_KERNELS_H_

	#include "base.h"

	namespace gemmlowp {
	namespace meta {

	struct Quantize {
	float range_min;
	float range_offset;
	float range_scale;
	int count;
	};

	struct Dequantize {
	float range_min;
	float range_offset;
	float range_scale;
	int count;
	};

	struct Requantize {
	float input_range_min;
	float input_range_offset;
	float input_range_scale;
	float output_range_min;
	float output_range_offset;
	float one_over_output_range_scale;
	int count;
	};

	template <typename Type>
	struct MinMax {
	Type min;
	Type max;
	int count;
	};

	template <typename BiasType>
	struct BiasAdd {
	float input_range_min;
	float input_range_offset;
	float input_range_scale;
	float bias_range_min;
	float bias_range_offset;
	float bias_range_scale;
	float output_range_min;
	float output_range_offset;
	float one_over_output_range_scale;
	int count;
	int rows;
	const BiasType* bias;
	};

	template <typename InType, typename OutType, int kernel_size, int leftovers>
	class Transform1DKernel<InType, OutType, Quantize, kernel_size, leftovers> {
	public:
	static void Transform(const InType* in, const Quantize& params,
	OutType* output) {
	#ifdef DEBUG
	#ifdef DEBUG_METAGEMM_VERBOSE
	std::cout << "Quantize::Transform(" << std::string(typeid(InType).name())
	<< ", " << std::string(typeid(OutType).name()) << ") -- "
	<< kernel_size << "x" << leftovers << std::endl;
	#endif
	#else
	std::cerr << "FATAL: Quantize::Transform not implemented." << std::endl;
	std::exit(1);
	#endif
	}
	};

	template <typename InType, typename OutType, int kernel_size, int leftovers>
	class Transform1DKernel<InType, OutType, Dequantize, kernel_size, leftovers> {
	public:
	static void Transform(const InType* in, const Dequantize& params,
	OutType* output) {
	#ifdef DEBUG
	#ifdef DEBUG_METAGEMM_VERBOSE
	std::cout << "Dequantize::Transform(" << std::string(typeid(InType).name())
	<< ", " << std::string(typeid(OutType).name()) << ") -- "
	<< kernel_size << "x" << leftovers << std::endl;
	#endif
	#else
	std::cerr << "FATAL: Dequantize::Transform not implemented." << std::endl;
	std::exit(1);
	#endif
	}
	};

	template <typename InType, typename OutType, int kernel_size, int leftovers>
	class Transform1DKernel<InType, OutType, Requantize, kernel_size, leftovers> {
	public:
	static void Transform(const InType* in, const Requantize& params,
	OutType* output) {
	#ifdef DEBUG
	#ifdef DEBUG_METAGEMM_VERBOSE
	std::cout << "Requantize::Transform(" << std::string(typeid(InType).name())
	<< ", " << std::string(typeid(OutType).name()) << ") -- "
	<< kernel_size << "x" << leftovers << std::endl;
	#endif
	#else
	std::cerr << "FATAL: Requantize::Transform not implemented." << std::endl;
	std::exit(1);
	#endif
	}
	};

	template <typename InType, typename OutType, int kernel_size, int leftovers,
	typename Type>
	class Transform1DKernel<InType, OutType, MinMax<Type>, kernel_size, leftovers> {
	public:
	static void Transform(const InType* in, const MinMax<Type>& params,
	OutType* output) {
	#ifdef DEBUG
	#ifdef DEBUG_METAGEMM_VERBOSE
	std::cout << "MinMax::Transform(" << std::string(typeid(InType).name())
	<< ", " << std::string(typeid(OutType).name()) << ") -- "
	<< kernel_size << "x" << leftovers << std::endl;
	#endif
	#else
	std::cerr << "FATAL: MinMax::Transform not implemented." << std::endl;
	std::exit(1);
	#endif
	}
	};

	template <typename InType, typename OutType, int kernel_size, int leftovers,
	typename Type>
	class Transform1DKernel<InType, OutType, BiasAdd<Type>, kernel_size,
	leftovers> {
	public:
	static void Transform(const InType* in, const BiasAdd<Type>& params,
	OutType* output) {
	#ifdef DEBUG
	#ifdef DEBUG_METAGEMM_VERBOSE
	std::cout << "BiasAdd::Transform(" << std::string(typeid(InType).name())
	<< ", " << std::string(typeid(OutType).name()) << ") -- "
	<< kernel_size << "x" << leftovers << std::endl;
	#endif
	#else
	std::cerr << "FATAL: BiasAdd::Transform not implemented." << std::endl;
	std::exit(1);
	#endif
	}
	};

	template <typename InType, typename OutType>
	class Transform1DUtil<InType, OutType, Quantize> {
	public:
	static int EstimateComputeCost(const Quantize& params) {
	return params.count * 8;
	}

	static const InType* OffsetInput(const Quantize& params, const InType* input,
	int offset) {
	return input + offset;
	}

	static OutType* OffsetOutput(const Quantize& params, OutType* output,
	int offset) {
	return output + offset;
	}
	};

	template <typename InType, typename OutType>
	class Transform1DUtil<InType, OutType, Requantize> {
	public:
	static int EstimateComputeCost(const Requantize& params) {
	return params.count * 12;
	}

	static const InType* OffsetInput(const Requantize& params,
	const InType* input, int offset) {
	return input + offset;
	}

	static OutType* OffsetOutput(const Requantize& params, OutType* output,
	int offset) {
	return output + offset;
	}
	};

	template <typename InType, typename OutType>
	class Transform1DUtil<InType, OutType, Dequantize> {
	public:
	static int EstimateComputeCost(const Dequantize& params) {
	return params.count * 12;
	}

	static const InType* OffsetInput(const Dequantize& params,
	const InType* input, int offset) {
	return input + offset;
	}

	static OutType* OffsetOutput(const Dequantize& params, OutType* output,
	int offset) {
	return output + offset;
	}
	};

	template <typename InType, typename OutType, typename MinMaxType>
	class Transform1DUtil<InType, OutType, MinMax<MinMaxType>> {
	public:
	static int EstimateComputeCost(const MinMax<MinMaxType>& params) {
	return params.count * 4;
	}

	static const InType* OffsetInput(const MinMax<MinMaxType>& params,
	const InType* input, int offset) {
	return input + offset;
	}

	static OutType* OffsetOutput(const MinMax<MinMaxType>& params,
	OutType* output, int offset) {
	return output + offset;
	}
	};

	} // namespace meta
	} // namespace gemmlowp

	#ifdef GEMMLOWP_NEON_32
	#include "transform_kernels_arm_32.h"
	#elif defined(GEMMLOWP_NEON_64)
	#include "transform_kernels_arm_64.h"
	#endif

	#endif // GEMMLOWP_META_TRANSFORM_KERNELS_H_