test/f16-prelu.cc - platform/external/XNNPACK - Gitiles

 // Copyright 2019 Google LLC
 //
 // This source code is licensed under the BSD-style license found in the
 // LICENSE file in the root directory of this source tree.
 //
 // Auto-generated file. Do not edit!
 //   Specification: test/f16-prelu.yaml
 //   Generator: tools/generate-prelu-test.py


 #include <gtest/gtest.h>

 #include <xnnpack/common.h>
 #include <xnnpack/isa-checks.h>

 #include <xnnpack/prelu.h>
 #include "prelu-microkernel-tester.h"


 #if XNN_ARCH_ARM64
   TEST(F16_PRELU__NEONFP16ARITH_2X8, channels_eq_8) {
     TEST_REQUIRES_ARM_NEON_FP16_ARITH;
     PReLUMicrokernelTester()
       .rows(2)
       .channels(8)
       .Test(xnn_f16_prelu_ukernel__neonfp16arith_2x8);
   }

   TEST(F16_PRELU__NEONFP16ARITH_2X8, channels_div_8) {
     TEST_REQUIRES_ARM_NEON_FP16_ARITH;
     for (size_t channels = 16; channels < 80; channels += 8) {
       PReLUMicrokernelTester()
         .rows(2)
         .channels(channels)
         .Test(xnn_f16_prelu_ukernel__neonfp16arith_2x8);
     }
   }

   TEST(F16_PRELU__NEONFP16ARITH_2X8, channels_lt_8) {
     TEST_REQUIRES_ARM_NEON_FP16_ARITH;
     for (size_t channels = 1; channels < 8; channels++) {
       PReLUMicrokernelTester()
         .rows(2)
         .channels(channels)
         .Test(xnn_f16_prelu_ukernel__neonfp16arith_2x8);
     }
   }

   TEST(F16_PRELU__NEONFP16ARITH_2X8, channels_gt_8) {
     TEST_REQUIRES_ARM_NEON_FP16_ARITH;
     for (size_t channels = 9; channels < 16; channels++) {
       PReLUMicrokernelTester()
         .rows(2)
         .channels(channels)
         .Test(xnn_f16_prelu_ukernel__neonfp16arith_2x8);
     }
   }

   TEST(F16_PRELU__NEONFP16ARITH_2X8, rows_lt_2) {
     TEST_REQUIRES_ARM_NEON_FP16_ARITH;
     for (size_t rows = 1; rows < 2; rows++) {
       for (size_t channels = 1; channels <= 40; channels += 7) {
         PReLUMicrokernelTester()
           .rows(rows)
           .channels(channels)
           .Test(xnn_f16_prelu_ukernel__neonfp16arith_2x8);
       }
     }
   }

   TEST(F16_PRELU__NEONFP16ARITH_2X8, rows_div_2) {
     TEST_REQUIRES_ARM_NEON_FP16_ARITH;
     for (size_t rows = 4; rows <= 8; rows += 2) {
       for (size_t channels = 1; channels <= 40; channels += 7) {
         PReLUMicrokernelTester()
           .rows(rows)
           .channels(channels)
           .Test(xnn_f16_prelu_ukernel__neonfp16arith_2x8);
       }
     }
   }

   TEST(F16_PRELU__NEONFP16ARITH_2X8, rows_gt_2) {
     TEST_REQUIRES_ARM_NEON_FP16_ARITH;
     for (size_t rows = 3; rows < 4; rows++) {
       for (size_t channels = 1; channels <= 40; channels += 7) {
         PReLUMicrokernelTester()
           .rows(rows)
           .channels(channels)
           .Test(xnn_f16_prelu_ukernel__neonfp16arith_2x8);
       }
     }
   }

   TEST(F16_PRELU__NEONFP16ARITH_2X8, input_stride) {
     TEST_REQUIRES_ARM_NEON_FP16_ARITH;
     for (size_t rows = 1; rows <= 6; rows += 1) {
       for (size_t channels = 1; channels <= 40; channels += 7) {
         PReLUMicrokernelTester()
           .rows(rows)
           .channels(channels)
           .input_stride(43)
           .iterations(1)
           .Test(xnn_f16_prelu_ukernel__neonfp16arith_2x8);
       }
     }
   }

   TEST(F16_PRELU__NEONFP16ARITH_2X8, output_stride) {
     TEST_REQUIRES_ARM_NEON_FP16_ARITH;
     for (size_t rows = 1; rows <= 6; rows += 1) {
       for (size_t channels = 1; channels <= 40; channels += 7) {
         PReLUMicrokernelTester()
           .rows(rows)
           .channels(channels)
           .output_stride(43)
           .iterations(1)
           .Test(xnn_f16_prelu_ukernel__neonfp16arith_2x8);
       }
     }
   }

   TEST(F16_PRELU__NEONFP16ARITH_2X8, inplace) {
     TEST_REQUIRES_ARM_NEON_FP16_ARITH;
     for (size_t rows = 1; rows <= 6; rows += 1) {
       for (size_t channels = 1; channels <= 40; channels += 7) {
         PReLUMicrokernelTester()
           .rows(rows)
           .channels(channels)
           .inplace(true)
           .iterations(1)
           .Test(xnn_f16_prelu_ukernel__neonfp16arith_2x8);
       }
     }
   }
 #endif  // XNN_ARCH_ARM64


 #if XNN_ARCH_ARM64
   TEST(F16_PRELU__NEONFP16ARITH_2X16, channels_eq_16) {
     TEST_REQUIRES_ARM_NEON_FP16_ARITH;
     PReLUMicrokernelTester()
       .rows(2)
       .channels(16)
       .Test(xnn_f16_prelu_ukernel__neonfp16arith_2x16);
   }

   TEST(F16_PRELU__NEONFP16ARITH_2X16, channels_div_16) {
     TEST_REQUIRES_ARM_NEON_FP16_ARITH;
     for (size_t channels = 32; channels < 160; channels += 16) {
       PReLUMicrokernelTester()
         .rows(2)
         .channels(channels)
         .Test(xnn_f16_prelu_ukernel__neonfp16arith_2x16);
     }
   }

   TEST(F16_PRELU__NEONFP16ARITH_2X16, channels_lt_16) {
     TEST_REQUIRES_ARM_NEON_FP16_ARITH;
     for (size_t channels = 1; channels < 16; channels++) {
       PReLUMicrokernelTester()
         .rows(2)
         .channels(channels)
         .Test(xnn_f16_prelu_ukernel__neonfp16arith_2x16);
     }
   }

   TEST(F16_PRELU__NEONFP16ARITH_2X16, channels_gt_16) {
     TEST_REQUIRES_ARM_NEON_FP16_ARITH;
     for (size_t channels = 17; channels < 32; channels++) {
       PReLUMicrokernelTester()
         .rows(2)
         .channels(channels)
         .Test(xnn_f16_prelu_ukernel__neonfp16arith_2x16);
     }
   }

   TEST(F16_PRELU__NEONFP16ARITH_2X16, rows_lt_2) {
     TEST_REQUIRES_ARM_NEON_FP16_ARITH;
     for (size_t rows = 1; rows < 2; rows++) {
       for (size_t channels = 1; channels <= 80; channels += 15) {
         PReLUMicrokernelTester()
           .rows(rows)
           .channels(channels)
           .Test(xnn_f16_prelu_ukernel__neonfp16arith_2x16);
       }
     }
   }

   TEST(F16_PRELU__NEONFP16ARITH_2X16, rows_div_2) {
     TEST_REQUIRES_ARM_NEON_FP16_ARITH;
     for (size_t rows = 4; rows <= 8; rows += 2) {
       for (size_t channels = 1; channels <= 80; channels += 15) {
         PReLUMicrokernelTester()
           .rows(rows)
           .channels(channels)
           .Test(xnn_f16_prelu_ukernel__neonfp16arith_2x16);
       }
     }
   }

   TEST(F16_PRELU__NEONFP16ARITH_2X16, rows_gt_2) {
     TEST_REQUIRES_ARM_NEON_FP16_ARITH;
     for (size_t rows = 3; rows < 4; rows++) {
       for (size_t channels = 1; channels <= 80; channels += 15) {
         PReLUMicrokernelTester()
           .rows(rows)
           .channels(channels)
           .Test(xnn_f16_prelu_ukernel__neonfp16arith_2x16);
       }
     }
   }

   TEST(F16_PRELU__NEONFP16ARITH_2X16, input_stride) {
     TEST_REQUIRES_ARM_NEON_FP16_ARITH;
     for (size_t rows = 1; rows <= 6; rows += 1) {
       for (size_t channels = 1; channels <= 80; channels += 15) {
         PReLUMicrokernelTester()
           .rows(rows)
           .channels(channels)
           .input_stride(83)
           .iterations(1)
           .Test(xnn_f16_prelu_ukernel__neonfp16arith_2x16);
       }
     }
   }

   TEST(F16_PRELU__NEONFP16ARITH_2X16, output_stride) {
     TEST_REQUIRES_ARM_NEON_FP16_ARITH;
     for (size_t rows = 1; rows <= 6; rows += 1) {
       for (size_t channels = 1; channels <= 80; channels += 15) {
         PReLUMicrokernelTester()
           .rows(rows)
           .channels(channels)
           .output_stride(83)
           .iterations(1)
           .Test(xnn_f16_prelu_ukernel__neonfp16arith_2x16);
       }
     }
   }

   TEST(F16_PRELU__NEONFP16ARITH_2X16, inplace) {
     TEST_REQUIRES_ARM_NEON_FP16_ARITH;
     for (size_t rows = 1; rows <= 6; rows += 1) {
       for (size_t channels = 1; channels <= 80; channels += 15) {
         PReLUMicrokernelTester()
           .rows(rows)
           .channels(channels)
           .inplace(true)
           .iterations(1)
           .Test(xnn_f16_prelu_ukernel__neonfp16arith_2x16);
       }
     }
   }
 #endif  // XNN_ARCH_ARM64
	// Copyright 2019 Google LLC
	//
	// This source code is licensed under the BSD-style license found in the
	// LICENSE file in the root directory of this source tree.
	//
	// Auto-generated file. Do not edit!
	// Specification: test/f16-prelu.yaml
	// Generator: tools/generate-prelu-test.py


	#include <gtest/gtest.h>

	#include <xnnpack/common.h>
	#include <xnnpack/isa-checks.h>

	#include <xnnpack/prelu.h>
	#include "prelu-microkernel-tester.h"


	#if XNN_ARCH_ARM64
	TEST(F16_PRELU__NEONFP16ARITH_2X8, channels_eq_8) {
	TEST_REQUIRES_ARM_NEON_FP16_ARITH;
	PReLUMicrokernelTester()
	.rows(2)
	.channels(8)
	.Test(xnn_f16_prelu_ukernel__neonfp16arith_2x8);
	}

	TEST(F16_PRELU__NEONFP16ARITH_2X8, channels_div_8) {
	TEST_REQUIRES_ARM_NEON_FP16_ARITH;
	for (size_t channels = 16; channels < 80; channels += 8) {
	PReLUMicrokernelTester()
	.rows(2)
	.channels(channels)
	.Test(xnn_f16_prelu_ukernel__neonfp16arith_2x8);
	}
	}

	TEST(F16_PRELU__NEONFP16ARITH_2X8, channels_lt_8) {
	TEST_REQUIRES_ARM_NEON_FP16_ARITH;
	for (size_t channels = 1; channels < 8; channels++) {
	PReLUMicrokernelTester()
	.rows(2)
	.channels(channels)
	.Test(xnn_f16_prelu_ukernel__neonfp16arith_2x8);
	}
	}

	TEST(F16_PRELU__NEONFP16ARITH_2X8, channels_gt_8) {
	TEST_REQUIRES_ARM_NEON_FP16_ARITH;
	for (size_t channels = 9; channels < 16; channels++) {
	PReLUMicrokernelTester()
	.rows(2)
	.channels(channels)
	.Test(xnn_f16_prelu_ukernel__neonfp16arith_2x8);
	}
	}

	TEST(F16_PRELU__NEONFP16ARITH_2X8, rows_lt_2) {
	TEST_REQUIRES_ARM_NEON_FP16_ARITH;
	for (size_t rows = 1; rows < 2; rows++) {
	for (size_t channels = 1; channels <= 40; channels += 7) {
	PReLUMicrokernelTester()
	.rows(rows)
	.channels(channels)
	.Test(xnn_f16_prelu_ukernel__neonfp16arith_2x8);
	}
	}
	}

	TEST(F16_PRELU__NEONFP16ARITH_2X8, rows_div_2) {
	TEST_REQUIRES_ARM_NEON_FP16_ARITH;
	for (size_t rows = 4; rows <= 8; rows += 2) {
	for (size_t channels = 1; channels <= 40; channels += 7) {
	PReLUMicrokernelTester()
	.rows(rows)
	.channels(channels)
	.Test(xnn_f16_prelu_ukernel__neonfp16arith_2x8);
	}
	}
	}

	TEST(F16_PRELU__NEONFP16ARITH_2X8, rows_gt_2) {
	TEST_REQUIRES_ARM_NEON_FP16_ARITH;
	for (size_t rows = 3; rows < 4; rows++) {
	for (size_t channels = 1; channels <= 40; channels += 7) {
	PReLUMicrokernelTester()
	.rows(rows)
	.channels(channels)
	.Test(xnn_f16_prelu_ukernel__neonfp16arith_2x8);
	}
	}
	}

	TEST(F16_PRELU__NEONFP16ARITH_2X8, input_stride) {
	TEST_REQUIRES_ARM_NEON_FP16_ARITH;
	for (size_t rows = 1; rows <= 6; rows += 1) {
	for (size_t channels = 1; channels <= 40; channels += 7) {
	PReLUMicrokernelTester()
	.rows(rows)
	.channels(channels)
	.input_stride(43)
	.iterations(1)
	.Test(xnn_f16_prelu_ukernel__neonfp16arith_2x8);
	}
	}
	}

	TEST(F16_PRELU__NEONFP16ARITH_2X8, output_stride) {
	TEST_REQUIRES_ARM_NEON_FP16_ARITH;
	for (size_t rows = 1; rows <= 6; rows += 1) {
	for (size_t channels = 1; channels <= 40; channels += 7) {
	PReLUMicrokernelTester()
	.rows(rows)
	.channels(channels)
	.output_stride(43)
	.iterations(1)
	.Test(xnn_f16_prelu_ukernel__neonfp16arith_2x8);
	}
	}
	}

	TEST(F16_PRELU__NEONFP16ARITH_2X8, inplace) {
	TEST_REQUIRES_ARM_NEON_FP16_ARITH;
	for (size_t rows = 1; rows <= 6; rows += 1) {
	for (size_t channels = 1; channels <= 40; channels += 7) {
	PReLUMicrokernelTester()
	.rows(rows)
	.channels(channels)
	.inplace(true)
	.iterations(1)
	.Test(xnn_f16_prelu_ukernel__neonfp16arith_2x8);
	}
	}
	}
	#endif // XNN_ARCH_ARM64


	#if XNN_ARCH_ARM64
	TEST(F16_PRELU__NEONFP16ARITH_2X16, channels_eq_16) {
	TEST_REQUIRES_ARM_NEON_FP16_ARITH;
	PReLUMicrokernelTester()
	.rows(2)
	.channels(16)
	.Test(xnn_f16_prelu_ukernel__neonfp16arith_2x16);
	}

	TEST(F16_PRELU__NEONFP16ARITH_2X16, channels_div_16) {
	TEST_REQUIRES_ARM_NEON_FP16_ARITH;
	for (size_t channels = 32; channels < 160; channels += 16) {
	PReLUMicrokernelTester()
	.rows(2)
	.channels(channels)
	.Test(xnn_f16_prelu_ukernel__neonfp16arith_2x16);
	}
	}

	TEST(F16_PRELU__NEONFP16ARITH_2X16, channels_lt_16) {
	TEST_REQUIRES_ARM_NEON_FP16_ARITH;
	for (size_t channels = 1; channels < 16; channels++) {
	PReLUMicrokernelTester()
	.rows(2)
	.channels(channels)
	.Test(xnn_f16_prelu_ukernel__neonfp16arith_2x16);
	}
	}

	TEST(F16_PRELU__NEONFP16ARITH_2X16, channels_gt_16) {
	TEST_REQUIRES_ARM_NEON_FP16_ARITH;
	for (size_t channels = 17; channels < 32; channels++) {
	PReLUMicrokernelTester()
	.rows(2)
	.channels(channels)
	.Test(xnn_f16_prelu_ukernel__neonfp16arith_2x16);
	}
	}

	TEST(F16_PRELU__NEONFP16ARITH_2X16, rows_lt_2) {
	TEST_REQUIRES_ARM_NEON_FP16_ARITH;
	for (size_t rows = 1; rows < 2; rows++) {
	for (size_t channels = 1; channels <= 80; channels += 15) {
	PReLUMicrokernelTester()
	.rows(rows)
	.channels(channels)
	.Test(xnn_f16_prelu_ukernel__neonfp16arith_2x16);
	}
	}
	}

	TEST(F16_PRELU__NEONFP16ARITH_2X16, rows_div_2) {
	TEST_REQUIRES_ARM_NEON_FP16_ARITH;
	for (size_t rows = 4; rows <= 8; rows += 2) {
	for (size_t channels = 1; channels <= 80; channels += 15) {
	PReLUMicrokernelTester()
	.rows(rows)
	.channels(channels)
	.Test(xnn_f16_prelu_ukernel__neonfp16arith_2x16);
	}
	}
	}

	TEST(F16_PRELU__NEONFP16ARITH_2X16, rows_gt_2) {
	TEST_REQUIRES_ARM_NEON_FP16_ARITH;
	for (size_t rows = 3; rows < 4; rows++) {
	for (size_t channels = 1; channels <= 80; channels += 15) {
	PReLUMicrokernelTester()
	.rows(rows)
	.channels(channels)
	.Test(xnn_f16_prelu_ukernel__neonfp16arith_2x16);
	}
	}
	}

	TEST(F16_PRELU__NEONFP16ARITH_2X16, input_stride) {
	TEST_REQUIRES_ARM_NEON_FP16_ARITH;
	for (size_t rows = 1; rows <= 6; rows += 1) {
	for (size_t channels = 1; channels <= 80; channels += 15) {
	PReLUMicrokernelTester()
	.rows(rows)
	.channels(channels)
	.input_stride(83)
	.iterations(1)
	.Test(xnn_f16_prelu_ukernel__neonfp16arith_2x16);
	}
	}
	}

	TEST(F16_PRELU__NEONFP16ARITH_2X16, output_stride) {
	TEST_REQUIRES_ARM_NEON_FP16_ARITH;
	for (size_t rows = 1; rows <= 6; rows += 1) {
	for (size_t channels = 1; channels <= 80; channels += 15) {
	PReLUMicrokernelTester()
	.rows(rows)
	.channels(channels)
	.output_stride(83)
	.iterations(1)
	.Test(xnn_f16_prelu_ukernel__neonfp16arith_2x16);
	}
	}
	}

	TEST(F16_PRELU__NEONFP16ARITH_2X16, inplace) {
	TEST_REQUIRES_ARM_NEON_FP16_ARITH;
	for (size_t rows = 1; rows <= 6; rows += 1) {
	for (size_t channels = 1; channels <= 80; channels += 15) {
	PReLUMicrokernelTester()
	.rows(rows)
	.channels(channels)
	.inplace(true)
	.iterations(1)
	.Test(xnn_f16_prelu_ukernel__neonfp16arith_2x16);
	}
	}
	}
	#endif // XNN_ARCH_ARM64