nn/common/include/OperationResolver.h - platform/frameworks/ml - Git at Google

 /*
  * Copyright (C) 2018 The Android Open Source Project
  *
  * 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 ANDROID_FRAMEWORKS_ML_NN_COMMON_OPERATION_RESOLVER_H
 #define ANDROID_FRAMEWORKS_ML_NN_COMMON_OPERATION_RESOLVER_H

 #include <android-base/macros.h>

 #include <utility>

 #include "OperationsUtils.h"

 namespace android {
 namespace nn {

 // Encapsulates an operation implementation.
 struct OperationRegistration {
     OperationType type;
     const char* name;

     // Validates operand types, shapes, and any values known during graph creation.
     std::function<bool(const IOperationValidationContext*)> validate;

     // prepare is called when the inputs this operation depends on have been
     // computed. Typically, prepare does any remaining validation and sets
     // output shapes via context->setOutputShape(...).
     std::function<bool(IOperationExecutionContext*)> prepare;

     // Executes the operation, reading from context->getInputBuffer(...)
     // and writing to context->getOutputBuffer(...).
     std::function<bool(IOperationExecutionContext*)> execute;

     struct Flag {
         // Whether the operation allows at least one operand to be omitted.
         bool allowOmittedOperand = false;
         // Whether the operation allows at least one input operand to be a zero-sized tensor.
         bool allowZeroSizedInput = false;
     } flags;

     OperationRegistration(OperationType type, const char* name,
                           std::function<bool(const IOperationValidationContext*)> validate,
                           std::function<bool(IOperationExecutionContext*)> prepare,
                           std::function<bool(IOperationExecutionContext*)> execute, Flag flags)
         : type(type),
           name(name),
           validate(std::move(validate)),
           prepare(std::move(prepare)),
           execute(std::move(execute)),
           flags(flags) {}
 };

 // A registry of operation implementations.
 class IOperationResolver {
    public:
     virtual const OperationRegistration* findOperation(OperationType operationType) const = 0;
     virtual ~IOperationResolver() {}
 };

 // A registry of builtin operation implementations.
 //
 // Note that some operations bypass BuiltinOperationResolver (b/124041202).
 //
 // Usage:
 //   const OperationRegistration* operationRegistration =
 //           BuiltinOperationResolver::get()->findOperation(operationType);
 //   NN_RET_CHECK(operationRegistration != nullptr);
 //   NN_RET_CHECK(operationRegistration->validate != nullptr);
 //   NN_RET_CHECK(operationRegistration->validate(&context));
 //
 class BuiltinOperationResolver : public IOperationResolver {
     DISALLOW_COPY_AND_ASSIGN(BuiltinOperationResolver);

    public:
     static const BuiltinOperationResolver* get() {
         static BuiltinOperationResolver instance;
         return &instance;
     }

     const OperationRegistration* findOperation(OperationType operationType) const override;

     // The number of operation types (OperationCode) defined in NeuralNetworks.h.
     static constexpr int kNumberOfOperationTypes = 102;

    private:
     BuiltinOperationResolver();

     void registerOperation(const OperationRegistration* operationRegistration);

     const OperationRegistration* mRegistrations[kNumberOfOperationTypes] = {};
 };

 // NN_REGISTER_OPERATION creates OperationRegistration for consumption by
 // OperationResolver.
 //
 // Usage:
 // (check OperationRegistration::Flag for available fields and default values.)
 //
 // - With default flags.
 //   NN_REGISTER_OPERATION(FOO_OP, foo_op::kOperationName, foo_op::validate,
 //                         foo_op::prepare, foo_op::execute);
 //
 // - With a customized flag.
 //   NN_REGISTER_OPERATION(FOO_OP, foo_op::kOperationName, foo_op::validate,
 //                         foo_op::prepare, foo_op::execute, .allowZeroSizedInput = true);
 //
 // - With multiple customized flags.
 //   NN_REGISTER_OPERATION(FOO_OP, foo_op::kOperationName, foo_op::validate,
 //                         foo_op::prepare, foo_op::execute, .allowOmittedOperand = true,
 //                         .allowZeroSizedInput = true);
 //
 #ifdef NN_INCLUDE_CPU_IMPLEMENTATION
 #define NN_REGISTER_OPERATION(identifier, operationName, validate, prepare, execute, ...)     \
     const OperationRegistration* register_##identifier() {                                    \
         static OperationRegistration registration(OperationType::identifier, operationName,   \
                                                   validate, prepare, execute, {__VA_ARGS__}); \
         return &registration;                                                                 \
     }
 #else
 // This version ignores CPU execution logic (prepare and execute).
 // The compiler is supposed to omit that code so that only validation logic
 // makes it into libneuralnetworks_utils.
 #define NN_REGISTER_OPERATION(identifier, operationName, validate, unused_prepare, unused_execute, \
                               ...)                                                                 \
     const OperationRegistration* register_##identifier() {                                         \
         static OperationRegistration registration(OperationType::identifier, operationName,        \
                                                   validate, nullptr, nullptr, {__VA_ARGS__});      \
         return &registration;                                                                      \
     }
 #endif

 }  // namespace nn
 }  // namespace android

 #endif  // ANDROID_FRAMEWORKS_ML_NN_COMMON_OPERATION_RESOLVER_H
	/*
	* Copyright (C) 2018 The Android Open Source Project
	*
	* 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 ANDROID_FRAMEWORKS_ML_NN_COMMON_OPERATION_RESOLVER_H
	#define ANDROID_FRAMEWORKS_ML_NN_COMMON_OPERATION_RESOLVER_H

	#include <android-base/macros.h>

	#include <utility>

	#include "OperationsUtils.h"

	namespace android {
	namespace nn {

	// Encapsulates an operation implementation.
	struct OperationRegistration {
	OperationType type;
	const char* name;

	// Validates operand types, shapes, and any values known during graph creation.
	std::function<bool(const IOperationValidationContext*)> validate;

	// prepare is called when the inputs this operation depends on have been
	// computed. Typically, prepare does any remaining validation and sets
	// output shapes via context->setOutputShape(...).
	std::function<bool(IOperationExecutionContext*)> prepare;

	// Executes the operation, reading from context->getInputBuffer(...)
	// and writing to context->getOutputBuffer(...).
	std::function<bool(IOperationExecutionContext*)> execute;

	struct Flag {
	// Whether the operation allows at least one operand to be omitted.
	bool allowOmittedOperand = false;
	// Whether the operation allows at least one input operand to be a zero-sized tensor.
	bool allowZeroSizedInput = false;
	} flags;

	OperationRegistration(OperationType type, const char* name,
	std::function<bool(const IOperationValidationContext*)> validate,
	std::function<bool(IOperationExecutionContext*)> prepare,
	std::function<bool(IOperationExecutionContext*)> execute, Flag flags)
	: type(type),
	name(name),
	validate(std::move(validate)),
	prepare(std::move(prepare)),
	execute(std::move(execute)),
	flags(flags) {}
	};

	// A registry of operation implementations.
	class IOperationResolver {
	public:
	virtual const OperationRegistration* findOperation(OperationType operationType) const = 0;
	virtual ~IOperationResolver() {}
	};

	// A registry of builtin operation implementations.
	//
	// Note that some operations bypass BuiltinOperationResolver (b/124041202).
	//
	// Usage:
	// const OperationRegistration* operationRegistration =
	// BuiltinOperationResolver::get()->findOperation(operationType);
	// NN_RET_CHECK(operationRegistration != nullptr);
	// NN_RET_CHECK(operationRegistration->validate != nullptr);
	// NN_RET_CHECK(operationRegistration->validate(&context));
	//
	class BuiltinOperationResolver : public IOperationResolver {
	DISALLOW_COPY_AND_ASSIGN(BuiltinOperationResolver);

	public:
	static const BuiltinOperationResolver* get() {
	static BuiltinOperationResolver instance;
	return &instance;
	}

	const OperationRegistration* findOperation(OperationType operationType) const override;

	// The number of operation types (OperationCode) defined in NeuralNetworks.h.
	static constexpr int kNumberOfOperationTypes = 102;

	private:
	BuiltinOperationResolver();

	void registerOperation(const OperationRegistration* operationRegistration);

	const OperationRegistration* mRegistrations[kNumberOfOperationTypes] = {};
	};

	// NN_REGISTER_OPERATION creates OperationRegistration for consumption by
	// OperationResolver.
	//
	// Usage:
	// (check OperationRegistration::Flag for available fields and default values.)
	//
	// - With default flags.
	// NN_REGISTER_OPERATION(FOO_OP, foo_op::kOperationName, foo_op::validate,
	// foo_op::prepare, foo_op::execute);
	//
	// - With a customized flag.
	// NN_REGISTER_OPERATION(FOO_OP, foo_op::kOperationName, foo_op::validate,
	// foo_op::prepare, foo_op::execute, .allowZeroSizedInput = true);
	//
	// - With multiple customized flags.
	// NN_REGISTER_OPERATION(FOO_OP, foo_op::kOperationName, foo_op::validate,
	// foo_op::prepare, foo_op::execute, .allowOmittedOperand = true,
	// .allowZeroSizedInput = true);
	//
	#ifdef NN_INCLUDE_CPU_IMPLEMENTATION
	#define NN_REGISTER_OPERATION(identifier, operationName, validate, prepare, execute, ...) \
	const OperationRegistration* register_##identifier() { \
	static OperationRegistration registration(OperationType::identifier, operationName, \
	validate, prepare, execute, {__VA_ARGS__}); \
	return &registration; \
	}
	#else
	// This version ignores CPU execution logic (prepare and execute).
	// The compiler is supposed to omit that code so that only validation logic
	// makes it into libneuralnetworks_utils.
	#define NN_REGISTER_OPERATION(identifier, operationName, validate, unused_prepare, unused_execute, \
	...) \
	const OperationRegistration* register_##identifier() { \
	static OperationRegistration registration(OperationType::identifier, operationName, \
	validate, nullptr, nullptr, {__VA_ARGS__}); \
	return &registration; \
	}
	#endif

	} // namespace nn
	} // namespace android

	#endif // ANDROID_FRAMEWORKS_ML_NN_COMMON_OPERATION_RESOLVER_H