tools/generate-spmm-test.py - platform/external/XNNPACK - Git at Google

 #!/usr/bin/env python
 # 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.

 import argparse
 import bisect
 import codecs
 import os
 import sys
 import yaml

 sys.path.insert(0, os.path.dirname(os.path.abspath(__file__)))
 from primes import next_prime
 import xngen
 import xnncommon


 parser = argparse.ArgumentParser(description='XNNPACK generator')
 parser.add_argument("-s", "--spec", metavar="FILE", required=True,
                     help="Spec (YAML) file")
 parser.add_argument("-o", "--output", metavar="FILE", required=True,
                     help='Output (C++ source) file')
 parser.set_defaults(defines=list())


 def split_ukernel_name(name):
   common_name, target_name = name.split("__", 1)
   common_parts = common_name.split("_")
   param_spec = common_parts[-1]
   mr, nr = map(int, param_spec.split("x"))
   arch, isa = xnncommon.parse_target_name(target_name)
   return mr, nr, arch, isa


 TEST_TEMPLATE = """\
 TEST(${TEST_NAME}, k_eq_${KBLOCK}) {
   $if ISA_CHECK:
     ${ISA_CHECK};
   SpMMMicrokernelTester()
     .mr(${MR})
     .nr(${NR})
     .m(${MR})
     .n(${NR})
     .k(${KBLOCK})
     .sparsity(0.0f)
     .Test(${", ".join(TEST_ARGS)});
 }

 $if NR > 1:
   TEST(${TEST_NAME}, k_eq_${KBLOCK}_subtile) {
     $if ISA_CHECK:
       ${ISA_CHECK};
     for (uint32_t n = 1; n <= ${NR}; n++) {
       SpMMMicrokernelTester()
         .mr(${MR})
         .nr(${NR})
         .m(${MR})
         .n(n)
         .k(${KBLOCK})
         .sparsity(0.0f)
         .Test(${", ".join(TEST_ARGS)});
     }
   }

 $if IS_PIPELINED:
   TEST(${TEST_NAME}, k_eq_${KBLOCK * 2}) {
     $if ISA_CHECK:
       ${ISA_CHECK};
     SpMMMicrokernelTester()
       .mr(${MR})
       .nr(${NR})
       .m(${MR})
       .n(${NR})
       .k(${KBLOCK * 2})
       .sparsity(0.0f)
       .Test(${", ".join(TEST_ARGS)});
   }

   $if NR > 1:
     TEST(${TEST_NAME}, k_eq_${KBLOCK * 2}_subtile) {
       $if ISA_CHECK:
         ${ISA_CHECK};
       for (uint32_t n = 1; n <= ${NR}; n++) {
         SpMMMicrokernelTester()
           .mr(${MR})
           .nr(${NR})
           .m(${MR})
           .n(n)
           .k(${KBLOCK * 2})
           .sparsity(0.0f)
           .Test(${", ".join(TEST_ARGS)});
       }
     }

 $if KBLOCK > 1:
   TEST(${TEST_NAME}, k_lt_${ADJKBLOCK}) {
     $if ISA_CHECK:
       ${ISA_CHECK};
     for (size_t k = 1; k < ${ADJKBLOCK}; k++) {
       SpMMMicrokernelTester()
         .mr(${MR})
         .nr(${NR})
         .m(${MR})
         .n(${NR})
         .k(k)
         .sparsity(0.0f)
         .Test(${", ".join(TEST_ARGS)});
     }
   }

   $if NR > 1:
     TEST(${TEST_NAME}, k_lt_${ADJKBLOCK}_subtile) {
       $if ISA_CHECK:
         ${ISA_CHECK};
       for (size_t k = 1; k < ${ADJKBLOCK}; k++) {
         for (uint32_t n = 1; n <= ${NR}; n++) {
           SpMMMicrokernelTester()
             .mr(${MR})
             .nr(${NR})
             .m(${MR})
             .n(n)
             .k(k)
             .sparsity(0.0f)
             .Test(${", ".join(TEST_ARGS)});
         }
       }
     }

 TEST(${TEST_NAME}, k_gt_${ADJKBLOCK}) {
   $if ISA_CHECK:
     ${ISA_CHECK};
   for (size_t k = ${ADJKBLOCK + 1}; k < ${KBLOCK * 10 if KBLOCK == 1 else KBLOCK * 2}; k++) {
     SpMMMicrokernelTester()
       .mr(${MR})
       .nr(${NR})
       .m(${MR})
       .n(${NR})
       .k(k)
       .sparsity(0.0f)
       .Test(${", ".join(TEST_ARGS)});
   }
 }

 $if NR > 1:
   TEST(${TEST_NAME}, k_gt_${KBLOCK}_subtile) {
     $if ISA_CHECK:
       ${ISA_CHECK};
     for (size_t k = ${ADJKBLOCK + 1}; k < ${10 if KBLOCK == 1 else KBLOCK * 2}; k++) {
       for (uint32_t n = 1; n <= ${NR}; n++) {
         SpMMMicrokernelTester()
           .mr(${MR})
           .nr(${NR})
           .m(${MR})
           .n(n)
           .k(k)
           .sparsity(0.0f)
           .Test(${", ".join(TEST_ARGS)});
       }
     }
   }

 $if KBLOCK > 1:
   TEST(${TEST_NAME}, k_div_${KBLOCK}) {
     $if ISA_CHECK:
       ${ISA_CHECK};
     for (size_t k = ${ADJKBLOCK + KBLOCK}; k <= ${KBLOCK * 10}; k += ${KBLOCK}) {
       SpMMMicrokernelTester()
         .mr(${MR})
         .nr(${NR})
         .m(${MR})
         .n(${NR})
         .k(k)
         .sparsity(0.0f)
         .Test(${", ".join(TEST_ARGS)});
     }
   }

   $if NR > 1:
     TEST(${TEST_NAME}, k_div_${KBLOCK}_subtile) {
       $if ISA_CHECK:
         ${ISA_CHECK};
       for (size_t k = ${ADJKBLOCK + KBLOCK}; k <= ${KBLOCK * 10}; k += ${KBLOCK}) {
         for (uint32_t n = 1; n <= ${NR}; n++) {
           SpMMMicrokernelTester()
             .mr(${MR})
             .nr(${NR})
             .m(${MR})
             .n(n)
             .k(k)
             .sparsity(0.0f)
             .Test(${", ".join(TEST_ARGS)});
         }
       }
     }

 TEST(${TEST_NAME}, n_gt_${NR}) {
   $if ISA_CHECK:
     ${ISA_CHECK};
   for (uint32_t n = ${NR + 1}; n < ${max(10, NR * 2)}; n++) {
     for (size_t k = 1; k <= ${KBLOCK * 5}; k += ${KBLOCK + 1}) {
       SpMMMicrokernelTester()
         .mr(${MR})
         .nr(${NR})
         .m(${MR})
         .n(n)
         .k(k)
         .sparsity(0.0f)
         .Test(${", ".join(TEST_ARGS)});
     }
   }
 }

 $if NR > 1:
   TEST(${TEST_NAME}, n_div_${NR}) {
     $if ISA_CHECK:
       ${ISA_CHECK};
     for (uint32_t n = ${2 * NR}; n <= ${3 * NR}; n += ${NR}) {
       for (size_t k = 1; k <= ${KBLOCK * 5}; k += ${KBLOCK + 1}) {
         SpMMMicrokernelTester()
           .mr(${MR})
           .nr(${NR})
           .m(${MR})
           .n(n)
           .k(k)
           .Test(${", ".join(TEST_ARGS)});
       }
     }
   }

 TEST(${TEST_NAME}, m_lt_${MR}) {
   $if ISA_CHECK:
     ${ISA_CHECK};
   for (uint32_t m = ${1}; m < ${MR}; m++) {
     for (uint32_t n = 1; n < ${max(10, NR * 5)}; n += ${NR + 1}) {
       for (size_t k = 1; k <= ${KBLOCK * 5}; k += ${KBLOCK + 1}) {
         SpMMMicrokernelTester()
           .mr(${MR})
           .nr(${NR})
           .m(m)
           .n(n)
           .k(k)
           .sparsity(0.0f)
           .Test(${", ".join(TEST_ARGS)});
       }
     }
   }
 }

 TEST(${TEST_NAME}, m_div_${MR}) {
   $if ISA_CHECK:
     ${ISA_CHECK};
   for (uint32_t m = ${MR * 2}; m <= ${MR * 3}; m += ${MR}) {
     for (uint32_t n = 1; n < ${max(10, NR * 5)}; n += ${NR + 1}) {
       for (size_t k = 1; k <= ${KBLOCK * 5}; k += ${KBLOCK + 1}) {
         SpMMMicrokernelTester()
           .mr(${MR})
           .nr(${NR})
           .m(m)
           .n(n)
           .k(k)
           .sparsity(0.0f)
           .Test(${", ".join(TEST_ARGS)});
       }
     }
   }
 }

 TEST(${TEST_NAME}, m_gt_${MR}) {
   $if ISA_CHECK:
     ${ISA_CHECK};
   for (uint32_t m = ${MR + 1}; m < ${MR * 2}; m++) {
     for (uint32_t n = 1; n < ${max(10, NR * 5)}; n += ${NR + 1}) {
       for (size_t k = 1; k <= ${KBLOCK * 5}; k += ${KBLOCK + 1}) {
         SpMMMicrokernelTester()
           .mr(${MR})
           .nr(${NR})
           .m(m)
           .n(n)
           .k(k)
           .sparsity(0.0f)
           .Test(${", ".join(TEST_ARGS)});
       }
     }
   }
 }

 TEST(${TEST_NAME}, qmin) {
   $if ISA_CHECK:
     ${ISA_CHECK};
   for (uint32_t n = 1; n < ${max(10, NR * 5)}; n += ${NR + 1}) {
     for (size_t k = 1; k <= ${KBLOCK * 5}; k += ${KBLOCK + 1}) {
       SpMMMicrokernelTester()
         .mr(${MR})
         .nr(${NR})
         .m(${MR * 2})
         .n(n)
         .k(k)
         .sparsity(0.0f)
         .qmin(128)
         .Test(${", ".join(TEST_ARGS)});
     }
   }
 }

 TEST(${TEST_NAME}, qmax) {
   $if ISA_CHECK:
     ${ISA_CHECK};
   for (uint32_t n = 1; n < ${max(10, NR * 5)}; n += ${NR + 1}) {
     for (size_t k = 1; k <= ${KBLOCK * 5}; k += ${KBLOCK + 1}) {
       SpMMMicrokernelTester()
         .mr(${MR})
         .nr(${NR})
         .m(${MR * 2})
         .n(n)
         .k(k)
         .sparsity(0.0f)
         .qmax(128)
         .Test(${", ".join(TEST_ARGS)});
     }
   }
 }

 TEST(${TEST_NAME}, half_sparse) {
   $if ISA_CHECK:
     ${ISA_CHECK};
   for (uint32_t n = 1; n < ${max(10, NR * 5)}; n += ${NR + 1}) {
     for (size_t k = 1; k <= ${KBLOCK * 5}; k += ${KBLOCK + 1}) {
       SpMMMicrokernelTester()
         .mr(${MR})
         .nr(${NR})
         .m(${MR * 2})
         .n(n)
         .k(k)
         .sparsity(0.5f)
         .Test(${", ".join(TEST_ARGS)});
     }
   }
 }

 TEST(${TEST_NAME}, zero_weights) {
   $if ISA_CHECK:
     ${ISA_CHECK};
   for (uint32_t n = 1; n < ${max(10, NR * 5)}; n += ${NR + 1}) {
     for (size_t k = 1; k <= ${KBLOCK * 5}; k += ${KBLOCK + 1}) {
       SpMMMicrokernelTester()
         .mr(${MR})
         .nr(${NR})
         .m(${MR * 2})
         .n(n)
         .k(k)
         .sparsity(1.0f)
         .Test(${", ".join(TEST_ARGS)});
     }
   }
 }
 """


 def generate_test_cases(ukernel, mr, nr, k_block, is_pipelined, isa):
   """Generates all tests cases for a GEMM micro-kernel.

   Args:
     ukernel: C name of the micro-kernel function.
     mr: MR parameter of the GEMM micro-kernel.
     nr: NR parameter of the GEMM micro-kernel.
     k_block: Number of K values processed per one iteration of the main loop of
              the micro-kernel.
     is_pipelined: Indicates if the micro-kernel is implemented with software
                   pipelining. Additional test cases are generated for software
                   pipelined micro-kernels to separately test prologue + epiloque
                   of the pipelined loop and iteration of the pipelined loop.
     isa: instruction set required to run the micro-kernel. Generated unit test
          will skip execution if the host processor doesn't support this ISA.

   Returns:
     Code for the test case.
   """
   _, test_name = ukernel.split("_", 1)
   _, datatype, ukernel_type, _ = ukernel.split("_", 3)
   test_args = [ukernel]
   if not isa or isa == "psimd":
     test_args.append("SpMMMicrokernelTester::Variant::Scalar")
   return xngen.preprocess(TEST_TEMPLATE, {
       "TEST_NAME": test_name.upper().replace("UKERNEL_", ""),
       "TEST_ARGS": test_args,
       "UKERNEL_TYPE": ukernel_type.upper(),
       "DATATYPE": datatype,
       "MR": mr,
       "NR": nr,
       "KBLOCK": k_block,
       "ADJKBLOCK": 2 * k_block if is_pipelined else k_block,
       "IS_PIPELINED": is_pipelined,
       "ISA_CHECK": xnncommon.generate_isa_check_macro(isa),
       "next_prime": next_prime,
     })


 def main(args):
   options = parser.parse_args(args)

   with codecs.open(options.spec, "r", encoding="utf-8") as spec_file:
     spec_yaml = yaml.safe_load(spec_file)
     if not isinstance(spec_yaml, list):
       raise ValueError("expected a list of micro-kernels in the spec")

     tests = """\
 // 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: {specification}
 //   Generator: {generator}


 #include <gtest/gtest.h>

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

 #include <xnnpack/spmm.h>
 #include "spmm-microkernel-tester.h"
 """.format(specification=options.spec, generator=sys.argv[0])

     for ukernel_spec in spec_yaml:
       name = ukernel_spec["name"]
       k_block = int(ukernel_spec["k-block"])
       pipelined = bool(ukernel_spec.get("pipelined", False))
       mr, nr, arch, isa = split_ukernel_name(name)

       # specification can override architecture
       arch = ukernel_spec.get("arch", arch)

       test_case = generate_test_cases(name, mr, nr, k_block, pipelined, isa)
       tests += "\n\n" + xnncommon.postprocess_test_case(test_case, arch, isa)

     with codecs.open(options.output, "w", encoding="utf-8") as output_file:
       output_file.write(tests)


 if __name__ == "__main__":
   main(sys.argv[1:])
	#!/usr/bin/env python
	# 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.

	import argparse
	import bisect
	import codecs
	import os
	import sys
	import yaml

	sys.path.insert(0, os.path.dirname(os.path.abspath(__file__)))
	from primes import next_prime
	import xngen
	import xnncommon


	parser = argparse.ArgumentParser(description='XNNPACK generator')
	parser.add_argument("-s", "--spec", metavar="FILE", required=True,
	help="Spec (YAML) file")
	parser.add_argument("-o", "--output", metavar="FILE", required=True,
	help='Output (C++ source) file')
	parser.set_defaults(defines=list())


	def split_ukernel_name(name):
	common_name, target_name = name.split("__", 1)
	common_parts = common_name.split("_")
	param_spec = common_parts[-1]
	mr, nr = map(int, param_spec.split("x"))
	arch, isa = xnncommon.parse_target_name(target_name)
	return mr, nr, arch, isa


	TEST_TEMPLATE = """\
	TEST(${TEST_NAME}, k_eq_${KBLOCK}) {
	$if ISA_CHECK:
	${ISA_CHECK};
	SpMMMicrokernelTester()
	.mr(${MR})
	.nr(${NR})
	.m(${MR})
	.n(${NR})
	.k(${KBLOCK})
	.sparsity(0.0f)
	.Test(${", ".join(TEST_ARGS)});
	}

	$if NR > 1:
	TEST(${TEST_NAME}, k_eq_${KBLOCK}_subtile) {
	$if ISA_CHECK:
	${ISA_CHECK};
	for (uint32_t n = 1; n <= ${NR}; n++) {
	SpMMMicrokernelTester()
	.mr(${MR})
	.nr(${NR})
	.m(${MR})
	.n(n)
	.k(${KBLOCK})
	.sparsity(0.0f)
	.Test(${", ".join(TEST_ARGS)});
	}
	}

	$if IS_PIPELINED:
	TEST(${TEST_NAME}, k_eq_${KBLOCK * 2}) {
	$if ISA_CHECK:
	${ISA_CHECK};
	SpMMMicrokernelTester()
	.mr(${MR})
	.nr(${NR})
	.m(${MR})
	.n(${NR})
	.k(${KBLOCK * 2})
	.sparsity(0.0f)
	.Test(${", ".join(TEST_ARGS)});
	}

	$if NR > 1:
	TEST(${TEST_NAME}, k_eq_${KBLOCK * 2}_subtile) {
	$if ISA_CHECK:
	${ISA_CHECK};
	for (uint32_t n = 1; n <= ${NR}; n++) {
	SpMMMicrokernelTester()
	.mr(${MR})
	.nr(${NR})
	.m(${MR})
	.n(n)
	.k(${KBLOCK * 2})
	.sparsity(0.0f)
	.Test(${", ".join(TEST_ARGS)});
	}
	}

	$if KBLOCK > 1:
	TEST(${TEST_NAME}, k_lt_${ADJKBLOCK}) {
	$if ISA_CHECK:
	${ISA_CHECK};
	for (size_t k = 1; k < ${ADJKBLOCK}; k++) {
	SpMMMicrokernelTester()
	.mr(${MR})
	.nr(${NR})
	.m(${MR})
	.n(${NR})
	.k(k)
	.sparsity(0.0f)
	.Test(${", ".join(TEST_ARGS)});
	}
	}

	$if NR > 1:
	TEST(${TEST_NAME}, k_lt_${ADJKBLOCK}_subtile) {
	$if ISA_CHECK:
	${ISA_CHECK};
	for (size_t k = 1; k < ${ADJKBLOCK}; k++) {
	for (uint32_t n = 1; n <= ${NR}; n++) {
	SpMMMicrokernelTester()
	.mr(${MR})
	.nr(${NR})
	.m(${MR})
	.n(n)
	.k(k)
	.sparsity(0.0f)
	.Test(${", ".join(TEST_ARGS)});
	}
	}
	}

	TEST(${TEST_NAME}, k_gt_${ADJKBLOCK}) {
	$if ISA_CHECK:
	${ISA_CHECK};
	for (size_t k = ${ADJKBLOCK + 1}; k < ${KBLOCK * 10 if KBLOCK == 1 else KBLOCK * 2}; k++) {
	SpMMMicrokernelTester()
	.mr(${MR})
	.nr(${NR})
	.m(${MR})
	.n(${NR})
	.k(k)
	.sparsity(0.0f)
	.Test(${", ".join(TEST_ARGS)});
	}
	}

	$if NR > 1:
	TEST(${TEST_NAME}, k_gt_${KBLOCK}_subtile) {
	$if ISA_CHECK:
	${ISA_CHECK};
	for (size_t k = ${ADJKBLOCK + 1}; k < ${10 if KBLOCK == 1 else KBLOCK * 2}; k++) {
	for (uint32_t n = 1; n <= ${NR}; n++) {
	SpMMMicrokernelTester()
	.mr(${MR})
	.nr(${NR})
	.m(${MR})
	.n(n)
	.k(k)
	.sparsity(0.0f)
	.Test(${", ".join(TEST_ARGS)});
	}
	}
	}

	$if KBLOCK > 1:
	TEST(${TEST_NAME}, k_div_${KBLOCK}) {
	$if ISA_CHECK:
	${ISA_CHECK};
	for (size_t k = ${ADJKBLOCK + KBLOCK}; k <= ${KBLOCK * 10}; k += ${KBLOCK}) {
	SpMMMicrokernelTester()
	.mr(${MR})
	.nr(${NR})
	.m(${MR})
	.n(${NR})
	.k(k)
	.sparsity(0.0f)
	.Test(${", ".join(TEST_ARGS)});
	}
	}

	$if NR > 1:
	TEST(${TEST_NAME}, k_div_${KBLOCK}_subtile) {
	$if ISA_CHECK:
	${ISA_CHECK};
	for (size_t k = ${ADJKBLOCK + KBLOCK}; k <= ${KBLOCK * 10}; k += ${KBLOCK}) {
	for (uint32_t n = 1; n <= ${NR}; n++) {
	SpMMMicrokernelTester()
	.mr(${MR})
	.nr(${NR})
	.m(${MR})
	.n(n)
	.k(k)
	.sparsity(0.0f)
	.Test(${", ".join(TEST_ARGS)});
	}
	}
	}

	TEST(${TEST_NAME}, n_gt_${NR}) {
	$if ISA_CHECK:
	${ISA_CHECK};
	for (uint32_t n = ${NR + 1}; n < ${max(10, NR * 2)}; n++) {
	for (size_t k = 1; k <= ${KBLOCK * 5}; k += ${KBLOCK + 1}) {
	SpMMMicrokernelTester()
	.mr(${MR})
	.nr(${NR})
	.m(${MR})
	.n(n)
	.k(k)
	.sparsity(0.0f)
	.Test(${", ".join(TEST_ARGS)});
	}
	}
	}

	$if NR > 1:
	TEST(${TEST_NAME}, n_div_${NR}) {
	$if ISA_CHECK:
	${ISA_CHECK};
	for (uint32_t n = ${2 * NR}; n <= ${3 * NR}; n += ${NR}) {
	for (size_t k = 1; k <= ${KBLOCK * 5}; k += ${KBLOCK + 1}) {
	SpMMMicrokernelTester()
	.mr(${MR})
	.nr(${NR})
	.m(${MR})
	.n(n)
	.k(k)
	.Test(${", ".join(TEST_ARGS)});
	}
	}
	}

	TEST(${TEST_NAME}, m_lt_${MR}) {
	$if ISA_CHECK:
	${ISA_CHECK};
	for (uint32_t m = ${1}; m < ${MR}; m++) {
	for (uint32_t n = 1; n < ${max(10, NR * 5)}; n += ${NR + 1}) {
	for (size_t k = 1; k <= ${KBLOCK * 5}; k += ${KBLOCK + 1}) {
	SpMMMicrokernelTester()
	.mr(${MR})
	.nr(${NR})
	.m(m)
	.n(n)
	.k(k)
	.sparsity(0.0f)
	.Test(${", ".join(TEST_ARGS)});
	}
	}
	}
	}

	TEST(${TEST_NAME}, m_div_${MR}) {
	$if ISA_CHECK:
	${ISA_CHECK};
	for (uint32_t m = ${MR * 2}; m <= ${MR * 3}; m += ${MR}) {
	for (uint32_t n = 1; n < ${max(10, NR * 5)}; n += ${NR + 1}) {
	for (size_t k = 1; k <= ${KBLOCK * 5}; k += ${KBLOCK + 1}) {
	SpMMMicrokernelTester()
	.mr(${MR})
	.nr(${NR})
	.m(m)
	.n(n)
	.k(k)
	.sparsity(0.0f)
	.Test(${", ".join(TEST_ARGS)});
	}
	}
	}
	}

	TEST(${TEST_NAME}, m_gt_${MR}) {
	$if ISA_CHECK:
	${ISA_CHECK};
	for (uint32_t m = ${MR + 1}; m < ${MR * 2}; m++) {
	for (uint32_t n = 1; n < ${max(10, NR * 5)}; n += ${NR + 1}) {
	for (size_t k = 1; k <= ${KBLOCK * 5}; k += ${KBLOCK + 1}) {
	SpMMMicrokernelTester()
	.mr(${MR})
	.nr(${NR})
	.m(m)
	.n(n)
	.k(k)
	.sparsity(0.0f)
	.Test(${", ".join(TEST_ARGS)});
	}
	}
	}
	}

	TEST(${TEST_NAME}, qmin) {
	$if ISA_CHECK:
	${ISA_CHECK};
	for (uint32_t n = 1; n < ${max(10, NR * 5)}; n += ${NR + 1}) {
	for (size_t k = 1; k <= ${KBLOCK * 5}; k += ${KBLOCK + 1}) {
	SpMMMicrokernelTester()
	.mr(${MR})
	.nr(${NR})
	.m(${MR * 2})
	.n(n)
	.k(k)
	.sparsity(0.0f)
	.qmin(128)
	.Test(${", ".join(TEST_ARGS)});
	}
	}
	}

	TEST(${TEST_NAME}, qmax) {
	$if ISA_CHECK:
	${ISA_CHECK};
	for (uint32_t n = 1; n < ${max(10, NR * 5)}; n += ${NR + 1}) {
	for (size_t k = 1; k <= ${KBLOCK * 5}; k += ${KBLOCK + 1}) {
	SpMMMicrokernelTester()
	.mr(${MR})
	.nr(${NR})
	.m(${MR * 2})
	.n(n)
	.k(k)
	.sparsity(0.0f)
	.qmax(128)
	.Test(${", ".join(TEST_ARGS)});
	}
	}
	}

	TEST(${TEST_NAME}, half_sparse) {
	$if ISA_CHECK:
	${ISA_CHECK};
	for (uint32_t n = 1; n < ${max(10, NR * 5)}; n += ${NR + 1}) {
	for (size_t k = 1; k <= ${KBLOCK * 5}; k += ${KBLOCK + 1}) {
	SpMMMicrokernelTester()
	.mr(${MR})
	.nr(${NR})
	.m(${MR * 2})
	.n(n)
	.k(k)
	.sparsity(0.5f)
	.Test(${", ".join(TEST_ARGS)});
	}
	}
	}

	TEST(${TEST_NAME}, zero_weights) {
	$if ISA_CHECK:
	${ISA_CHECK};
	for (uint32_t n = 1; n < ${max(10, NR * 5)}; n += ${NR + 1}) {
	for (size_t k = 1; k <= ${KBLOCK * 5}; k += ${KBLOCK + 1}) {
	SpMMMicrokernelTester()
	.mr(${MR})
	.nr(${NR})
	.m(${MR * 2})
	.n(n)
	.k(k)
	.sparsity(1.0f)
	.Test(${", ".join(TEST_ARGS)});
	}
	}
	}
	"""


	def generate_test_cases(ukernel, mr, nr, k_block, is_pipelined, isa):
	"""Generates all tests cases for a GEMM micro-kernel.

	Args:
	ukernel: C name of the micro-kernel function.
	mr: MR parameter of the GEMM micro-kernel.
	nr: NR parameter of the GEMM micro-kernel.
	k_block: Number of K values processed per one iteration of the main loop of
	the micro-kernel.
	is_pipelined: Indicates if the micro-kernel is implemented with software
	pipelining. Additional test cases are generated for software
	pipelined micro-kernels to separately test prologue + epiloque
	of the pipelined loop and iteration of the pipelined loop.
	isa: instruction set required to run the micro-kernel. Generated unit test
	will skip execution if the host processor doesn't support this ISA.

	Returns:
	Code for the test case.
	"""
	_, test_name = ukernel.split("_", 1)
	_, datatype, ukernel_type, _ = ukernel.split("_", 3)
	test_args = [ukernel]
	if not isa or isa == "psimd":
	test_args.append("SpMMMicrokernelTester::Variant::Scalar")
	return xngen.preprocess(TEST_TEMPLATE, {
	"TEST_NAME": test_name.upper().replace("UKERNEL_", ""),
	"TEST_ARGS": test_args,
	"UKERNEL_TYPE": ukernel_type.upper(),
	"DATATYPE": datatype,
	"MR": mr,
	"NR": nr,
	"KBLOCK": k_block,
	"ADJKBLOCK": 2 * k_block if is_pipelined else k_block,
	"IS_PIPELINED": is_pipelined,
	"ISA_CHECK": xnncommon.generate_isa_check_macro(isa),
	"next_prime": next_prime,
	})


	def main(args):
	options = parser.parse_args(args)

	with codecs.open(options.spec, "r", encoding="utf-8") as spec_file:
	spec_yaml = yaml.safe_load(spec_file)
	if not isinstance(spec_yaml, list):
	raise ValueError("expected a list of micro-kernels in the spec")

	tests = """\
	// 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: {specification}
	// Generator: {generator}


	#include <gtest/gtest.h>

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

	#include <xnnpack/spmm.h>
	#include "spmm-microkernel-tester.h"
	""".format(specification=options.spec, generator=sys.argv[0])

	for ukernel_spec in spec_yaml:
	name = ukernel_spec["name"]
	k_block = int(ukernel_spec["k-block"])
	pipelined = bool(ukernel_spec.get("pipelined", False))
	mr, nr, arch, isa = split_ukernel_name(name)

	# specification can override architecture
	arch = ukernel_spec.get("arch", arch)

	test_case = generate_test_cases(name, mr, nr, k_block, pipelined, isa)
	tests += "\n\n" + xnncommon.postprocess_test_case(test_case, arch, isa)

	with codecs.open(options.output, "w", encoding="utf-8") as output_file:
	output_file.write(tests)


	if __name__ == "__main__":
	main(sys.argv[1:])