tests/templates/base_vxunary0_test.tpl.cpp - sw/vec - Git at Google

 <%def name="test_vxunary0(op_code)">
 namespace ${op_code}_test {
 namespace {

 using namespace test_v_helpers;

 uint8_t src_vector_1[MAXVL_BYTES];
 uint8_t dest_vector[MAXVL_BYTES];
 uint8_t ref_dest_vector[MAXVL_BYTES];

 class ${op_code.capitalize()}Test : public ::testing::Test {
  protected:
   void SetUp() override { zero_vector_registers(); }
   void TearDown() override { zero_vector_registers(); }
 };
 % for fraction, sew in [(4, 32), (2, 16)]:
 % for lmul in [1, 2, 4, 8]:
 <%
 sign_type = "u" if "z" in op_code else ""
 src_type = "%sint%d_t" % (sign_type, sew/fraction)
 dest_type = "%sint%d_t" % (sign_type, sew)
 %>\
 TEST_F(${op_code.capitalize()}Test, VF${fraction}e${sew}m${lmul}) {
   for (int i = 0; i < AVL_COUNT; i++) {
     int32_t avl = AVLS[i];
     int vlmax;
     int vl;
     std::tie(vlmax, vl) = vector_test_setup<${dest_type}>(
         VLMUL::LMUL_M${lmul}, avl,
         {src_vector_1, dest_vector, ref_dest_vector});
     if (avl > vlmax) {
       continue;
     }
     ${src_type} *ptr_vec_1 = reinterpret_cast<${src_type} *>(src_vector_1);
     ${dest_type} *ptr_dest_vec = reinterpret_cast<${dest_type} *>(dest_vector);
     ${dest_type} *ptr_ref_dest_vec = reinterpret_cast<${dest_type} *>(ref_dest_vector);
     fill_random_vector<${src_type}>(ptr_vec_1, avl);
     memset(dest_vector, 0, sizeof(dest_vector));
     memset(ref_dest_vector, 0, sizeof(ref_dest_vector));
     softrvv::${op_code}_v<${dest_type}, ${src_type}>(ptr_ref_dest_vec, ptr_vec_1, avl);
     // Load vector registers
     __asm__ volatile("vle${sew//fraction}.v v8, (%0)" : : "r"(ptr_vec_1));

     // Run target instruction
     __asm__ volatile("${op_code}.vf${fraction} v24, v8" ::);

     // Store result vector register
     __asm__ volatile("vse${sew}.v v24, (%0)" : : "r"(ptr_dest_vec));
     // Check vector elements
     assert_vec_elem_eq<${dest_type}>(vlmax, dest_vector, ref_dest_vector);
   }
 }
 %endfor
 %endfor
 }  // namespace
 }  // namespace ${op_code}_test
 </%def>
	<%def name="test_vxunary0(op_code)">
	namespace ${op_code}_test {
	namespace {

	using namespace test_v_helpers;

	uint8_t src_vector_1[MAXVL_BYTES];
	uint8_t dest_vector[MAXVL_BYTES];
	uint8_t ref_dest_vector[MAXVL_BYTES];

	class ${op_code.capitalize()}Test : public ::testing::Test {
	protected:
	void SetUp() override { zero_vector_registers(); }
	void TearDown() override { zero_vector_registers(); }
	};
	% for fraction, sew in [(4, 32), (2, 16)]:
	% for lmul in [1, 2, 4, 8]:
	<%
	sign_type = "u" if "z" in op_code else ""
	src_type = "%sint%d_t" % (sign_type, sew/fraction)
	dest_type = "%sint%d_t" % (sign_type, sew)
	%>\
	TEST_F(${op_code.capitalize()}Test, VF${fraction}e${sew}m${lmul}) {
	for (int i = 0; i < AVL_COUNT; i++) {
	int32_t avl = AVLS[i];
	int vlmax;
	int vl;
	std::tie(vlmax, vl) = vector_test_setup<${dest_type}>(
	VLMUL::LMUL_M${lmul}, avl,
	{src_vector_1, dest_vector, ref_dest_vector});
	if (avl > vlmax) {
	continue;
	}
	${src_type} ptr_vec_1 = reinterpret_cast<${src_type} >(src_vector_1);
	${dest_type} ptr_dest_vec = reinterpret_cast<${dest_type} >(dest_vector);
	${dest_type} ptr_ref_dest_vec = reinterpret_cast<${dest_type} >(ref_dest_vector);
	fill_random_vector<${src_type}>(ptr_vec_1, avl);
	memset(dest_vector, 0, sizeof(dest_vector));
	memset(ref_dest_vector, 0, sizeof(ref_dest_vector));
	softrvv::${op_code}_v<${dest_type}, ${src_type}>(ptr_ref_dest_vec, ptr_vec_1, avl);
	// Load vector registers
	__asm__ volatile("vle${sew//fraction}.v v8, (%0)" : : "r"(ptr_vec_1));

	// Run target instruction
	__asm__ volatile("${op_code}.vf${fraction} v24, v8" ::);

	// Store result vector register
	__asm__ volatile("vse${sew}.v v24, (%0)" : : "r"(ptr_dest_vec));
	// Check vector elements
	assert_vec_elem_eq<${dest_type}>(vlmax, dest_vector, ref_dest_vector);
	}
	}
	%endfor
	%endfor
	} // namespace
	} // namespace ${op_code}_test
	</%def>