compute_kernel_writer/validation/tests/CLKernelWriterBinaryOpTest.h - ml/ComputeLibrary - Gitiles

 /*
  * Copyright (c) 2023 Arm Limited.
  *
  * SPDX-License-Identifier: MIT
  *
  * Permission is hereby granted, free of charge, to any person obtaining a copy
  * of this software and associated documentation files (the "Software"), to
  * deal in the Software without restriction, including without limitation the
  * rights to use, copy, modify, merge, publish, distribute, sublicense, and/or
  * sell copies of the Software, and to permit persons to whom the Software is
  * furnished to do so, subject to the following conditions:
  *
  * The above copyright notice and this permission notice shall be included in all
  * copies or substantial portions of the Software.
  *
  * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
  * IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
  * FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
  * AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
  * LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
  * OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE
  * SOFTWARE.
  */

 #ifndef CKW_VALIDATION_TESTS_CLKERNELWRITERBINARYOPTEST_H
 #define CKW_VALIDATION_TESTS_CLKERNELWRITERBINARYOPTEST_H

 #include "ckw/TileInfo.h"
 #include "ckw/types/DataType.h"
 #include "src/cl/CLKernelWriter.h"
 #include "validation/tests/common/Common.h"
 #include "validation/tests/common/KernelWriterInterceptor.h"

 #include <cstdint>
 #include <vector>

 namespace ckw
 {

 class CLKernelWriterBinaryOpTest : public ITest
 {
 public:
     CLKernelWriterBinaryOpTest()
     {
         // dst_height, dst_width, dst_data_type, lhs_height, lhs_width, rhs_height, rhs_width, src_data_type, op, expected_code
         _tests.push_back({ 1, 1, DataType::Fp32, 1, 1, 1, 1, DataType::Fp32, BinaryOp::Add, "G0__dst = G0__lhs + G0__rhs;\n" }); // Scalar.

         _tests.push_back({ 1, 3, DataType::Bool, 1, 3, 1, 3, DataType::Fp16, BinaryOp::Equal, "G0__dst = G0__lhs == G0__rhs;\n" }); // Whole vector.

         _tests.push_back({ 2, 4, DataType::Int8, 2, 4, 2, 4, DataType::Int8, BinaryOp::Min, "G0__dst__0 = min(G0__lhs__0, G0__rhs__0);\nG0__dst__1 = min(G0__lhs__1, G0__rhs__1);\n" }); // Whole tile.

         _tests.push_back({ 2, 3, DataType::Uint8, 1, 3, 2, 3, DataType::Uint8, BinaryOp::BitwiseXOR, "G0__dst__0 = G0__lhs ^ G0__rhs__0;\nG0__dst__1 = G0__lhs ^ G0__rhs__1;\n" }); // LHS y-dimension broadcast.

         _tests.push_back({ 2, 3, DataType::Bool, 2, 3, 1, 3, DataType::Fp32, BinaryOp::Less, "G0__dst__0 = G0__lhs__0 < G0__rhs;\nG0__dst__1 = G0__lhs__1 < G0__rhs;\n" }); // RHS y-dimension broadcast.

         _tests.push_back({ 2, 3, DataType::Fp16, 1, 3, 1, 3, DataType::Fp16, BinaryOp::Max, "G0__dst__0 = fmax(G0__lhs, G0__rhs);\nG0__dst__1 = fmax(G0__lhs, G0__rhs);\n" }); // LHS and RHS y-dimension broadcast.

         _tests.push_back({ 2, 4, DataType::Fp32, 2, 1, 2, 4, DataType::Fp32, BinaryOp::Div, "G0__dst__0 = (float4)G0__lhs__0 / G0__rhs__0;\nG0__dst__1 = (float4)G0__lhs__1 / G0__rhs__1;\n" }); // LHS x-dimension broadcast.

         _tests.push_back({ 2, 4, DataType::Fp16, 2, 4, 2, 1, DataType::Fp16, BinaryOp::Mod, "G0__dst__0 = G0__lhs__0 % (half4)G0__rhs__0;\nG0__dst__1 = G0__lhs__1 % (half4)G0__rhs__1;\n" }); // RHS x-dimension broadcast.

         _tests.push_back({ 2, 4, DataType::Bool, 2, 1, 2, 1, DataType::Fp32, BinaryOp::GreaterEqual, "G0__dst__0 = (float4)G0__lhs__0 >= (float4)G0__rhs__0;\nG0__dst__1 = (float4)G0__lhs__1 >= (float4)G0__rhs__1;\n" }); // LHS and RHS x-dimension broadcast.

         _tests.push_back({ 2, 2, DataType::Fp32, 2, 3, 2, 3, DataType::Fp32, BinaryOp::MatMul_Nt_T,
                            "G0__dst__0.s0 = fma(G0__lhs__0.s0, G0__rhs__0.s0, G0__dst__0.s0);\n"
                            "G0__dst__0.s0 = fma(G0__lhs__0.s1, G0__rhs__0.s1, G0__dst__0.s0);\n"
                            "G0__dst__0.s0 = fma(G0__lhs__0.s2, G0__rhs__0.s2, G0__dst__0.s0);\n"
                            "G0__dst__0.s1 = fma(G0__lhs__0.s0, G0__rhs__1.s0, G0__dst__0.s1);\n"
                            "G0__dst__0.s1 = fma(G0__lhs__0.s1, G0__rhs__1.s1, G0__dst__0.s1);\n"
                            "G0__dst__0.s1 = fma(G0__lhs__0.s2, G0__rhs__1.s2, G0__dst__0.s1);\n"
                            "G0__dst__1.s0 = fma(G0__lhs__1.s0, G0__rhs__0.s0, G0__dst__1.s0);\n"
                            "G0__dst__1.s0 = fma(G0__lhs__1.s1, G0__rhs__0.s1, G0__dst__1.s0);\n"
                            "G0__dst__1.s0 = fma(G0__lhs__1.s2, G0__rhs__0.s2, G0__dst__1.s0);\n"
                            "G0__dst__1.s1 = fma(G0__lhs__1.s0, G0__rhs__1.s0, G0__dst__1.s1);\n"
                            "G0__dst__1.s1 = fma(G0__lhs__1.s1, G0__rhs__1.s1, G0__dst__1.s1);\n"
                            "G0__dst__1.s1 = fma(G0__lhs__1.s2, G0__rhs__1.s2, G0__dst__1.s1);\n" });
     }

     bool run() override
     {
         int32_t test_no          = 0;
         bool    all_tests_passed = true;

         for(const auto &test : _tests)
         {
             KernelWriterInterceptor<CLKernelWriter> writer;

             auto dst = writer.declare_tile("dst", TileInfo(test.dst_data_type, test.dst_height, test.dst_width));
             auto lhs = writer.declare_tile("lhs", TileInfo(test.src_data_type, test.lhs_height, test.lhs_width));
             auto rhs = writer.declare_tile("rhs", TileInfo(test.src_data_type, test.rhs_height, test.rhs_width));

             writer.start_capture_code();

             writer.op_binary(dst, test.op, lhs, rhs);

             VALIDATE_TEST(writer.check_added_code(test.expected_code), all_tests_passed, test_no++);
         }

         return all_tests_passed;
     }

     std::string name() override
     {
         return "CLKernelWriterBinaryOpTest";
     }

 private:
     struct TestInfo
     {
         int32_t     dst_height;
         int32_t     dst_width;
         DataType    dst_data_type;
         int32_t     lhs_height;
         int32_t     lhs_width;
         int32_t     rhs_height;
         int32_t     rhs_width;
         DataType    src_data_type;
         BinaryOp    op;
         std::string expected_code;
     };

     std::vector<TestInfo> _tests{};
 };

 } // namespace ckw

 #endif // CKW_VALIDATION_TESTS_CLKERNELWRITERBINARYOPTEST_H
	/*
	* Copyright (c) 2023 Arm Limited.
	*
	* SPDX-License-Identifier: MIT
	*
	* Permission is hereby granted, free of charge, to any person obtaining a copy
	* of this software and associated documentation files (the "Software"), to
	* deal in the Software without restriction, including without limitation the
	* rights to use, copy, modify, merge, publish, distribute, sublicense, and/or
	* sell copies of the Software, and to permit persons to whom the Software is
	* furnished to do so, subject to the following conditions:
	*
	* The above copyright notice and this permission notice shall be included in all
	* copies or substantial portions of the Software.
	*
	* THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
	* IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
	* FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
	* AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
	* LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
	* OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE
	* SOFTWARE.
	*/

	#ifndef CKW_VALIDATION_TESTS_CLKERNELWRITERBINARYOPTEST_H
	#define CKW_VALIDATION_TESTS_CLKERNELWRITERBINARYOPTEST_H

	#include "ckw/TileInfo.h"
	#include "ckw/types/DataType.h"
	#include "src/cl/CLKernelWriter.h"
	#include "validation/tests/common/Common.h"
	#include "validation/tests/common/KernelWriterInterceptor.h"

	#include <cstdint>
	#include <vector>

	namespace ckw
	{

	class CLKernelWriterBinaryOpTest : public ITest
	{
	public:
	CLKernelWriterBinaryOpTest()
	{
	// dst_height, dst_width, dst_data_type, lhs_height, lhs_width, rhs_height, rhs_width, src_data_type, op, expected_code
	_tests.push_back({ 1, 1, DataType::Fp32, 1, 1, 1, 1, DataType::Fp32, BinaryOp::Add, "G0__dst = G0__lhs + G0__rhs;\n" }); // Scalar.

	_tests.push_back({ 1, 3, DataType::Bool, 1, 3, 1, 3, DataType::Fp16, BinaryOp::Equal, "G0__dst = G0__lhs == G0__rhs;\n" }); // Whole vector.

	_tests.push_back({ 2, 4, DataType::Int8, 2, 4, 2, 4, DataType::Int8, BinaryOp::Min, "G0__dst__0 = min(G0__lhs__0, G0__rhs__0);\nG0__dst__1 = min(G0__lhs__1, G0__rhs__1);\n" }); // Whole tile.

	_tests.push_back({ 2, 3, DataType::Uint8, 1, 3, 2, 3, DataType::Uint8, BinaryOp::BitwiseXOR, "G0__dst__0 = G0__lhs ^ G0__rhs__0;\nG0__dst__1 = G0__lhs ^ G0__rhs__1;\n" }); // LHS y-dimension broadcast.

	_tests.push_back({ 2, 3, DataType::Bool, 2, 3, 1, 3, DataType::Fp32, BinaryOp::Less, "G0__dst__0 = G0__lhs__0 < G0__rhs;\nG0__dst__1 = G0__lhs__1 < G0__rhs;\n" }); // RHS y-dimension broadcast.

	_tests.push_back({ 2, 3, DataType::Fp16, 1, 3, 1, 3, DataType::Fp16, BinaryOp::Max, "G0__dst__0 = fmax(G0__lhs, G0__rhs);\nG0__dst__1 = fmax(G0__lhs, G0__rhs);\n" }); // LHS and RHS y-dimension broadcast.

	_tests.push_back({ 2, 4, DataType::Fp32, 2, 1, 2, 4, DataType::Fp32, BinaryOp::Div, "G0__dst__0 = (float4)G0__lhs__0 / G0__rhs__0;\nG0__dst__1 = (float4)G0__lhs__1 / G0__rhs__1;\n" }); // LHS x-dimension broadcast.

	_tests.push_back({ 2, 4, DataType::Fp16, 2, 4, 2, 1, DataType::Fp16, BinaryOp::Mod, "G0__dst__0 = G0__lhs__0 % (half4)G0__rhs__0;\nG0__dst__1 = G0__lhs__1 % (half4)G0__rhs__1;\n" }); // RHS x-dimension broadcast.

	_tests.push_back({ 2, 4, DataType::Bool, 2, 1, 2, 1, DataType::Fp32, BinaryOp::GreaterEqual, "G0__dst__0 = (float4)G0__lhs__0 >= (float4)G0__rhs__0;\nG0__dst__1 = (float4)G0__lhs__1 >= (float4)G0__rhs__1;\n" }); // LHS and RHS x-dimension broadcast.

	_tests.push_back({ 2, 2, DataType::Fp32, 2, 3, 2, 3, DataType::Fp32, BinaryOp::MatMul_Nt_T,
	"G0__dst__0.s0 = fma(G0__lhs__0.s0, G0__rhs__0.s0, G0__dst__0.s0);\n"
	"G0__dst__0.s0 = fma(G0__lhs__0.s1, G0__rhs__0.s1, G0__dst__0.s0);\n"
	"G0__dst__0.s0 = fma(G0__lhs__0.s2, G0__rhs__0.s2, G0__dst__0.s0);\n"
	"G0__dst__0.s1 = fma(G0__lhs__0.s0, G0__rhs__1.s0, G0__dst__0.s1);\n"
	"G0__dst__0.s1 = fma(G0__lhs__0.s1, G0__rhs__1.s1, G0__dst__0.s1);\n"
	"G0__dst__0.s1 = fma(G0__lhs__0.s2, G0__rhs__1.s2, G0__dst__0.s1);\n"
	"G0__dst__1.s0 = fma(G0__lhs__1.s0, G0__rhs__0.s0, G0__dst__1.s0);\n"
	"G0__dst__1.s0 = fma(G0__lhs__1.s1, G0__rhs__0.s1, G0__dst__1.s0);\n"
	"G0__dst__1.s0 = fma(G0__lhs__1.s2, G0__rhs__0.s2, G0__dst__1.s0);\n"
	"G0__dst__1.s1 = fma(G0__lhs__1.s0, G0__rhs__1.s0, G0__dst__1.s1);\n"
	"G0__dst__1.s1 = fma(G0__lhs__1.s1, G0__rhs__1.s1, G0__dst__1.s1);\n"
	"G0__dst__1.s1 = fma(G0__lhs__1.s2, G0__rhs__1.s2, G0__dst__1.s1);\n" });
	}

	bool run() override
	{
	int32_t test_no = 0;
	bool all_tests_passed = true;

	for(const auto &test : _tests)
	{
	KernelWriterInterceptor<CLKernelWriter> writer;

	auto dst = writer.declare_tile("dst", TileInfo(test.dst_data_type, test.dst_height, test.dst_width));
	auto lhs = writer.declare_tile("lhs", TileInfo(test.src_data_type, test.lhs_height, test.lhs_width));
	auto rhs = writer.declare_tile("rhs", TileInfo(test.src_data_type, test.rhs_height, test.rhs_width));

	writer.start_capture_code();

	writer.op_binary(dst, test.op, lhs, rhs);

	VALIDATE_TEST(writer.check_added_code(test.expected_code), all_tests_passed, test_no++);
	}

	return all_tests_passed;
	}

	std::string name() override
	{
	return "CLKernelWriterBinaryOpTest";
	}

	private:
	struct TestInfo
	{
	int32_t dst_height;
	int32_t dst_width;
	DataType dst_data_type;
	int32_t lhs_height;
	int32_t lhs_width;
	int32_t rhs_height;
	int32_t rhs_width;
	DataType src_data_type;
	BinaryOp op;
	std::string expected_code;
	};

	std::vector<TestInfo> _tests{};
	};

	} // namespace ckw

	#endif // CKW_VALIDATION_TESTS_CLKERNELWRITERBINARYOPTEST_H