Lines Matching refs:reference2
11458 std::string ref2_variable_name = (n_ref2_case == 0) ? "reference2f" : "reference2";
11474 } /* for (both reference2 declarations) */
11501 result_sstream << getOperatorForOperationType(test_case.operation_type) << " reference2";
11508 result_sstream << "result_lt [0] = (reference1 < reference2) ? 1 : 0;\n"
11510 "result_lte[0] = (reference1 <= reference2) ? 1 : 0;\n"
11512 "result_gt [0] = (reference1 > reference2) ? 1 : 0;\n"
11514 "result_gte[0] = (reference1 >= reference2) ? 1 : 0;\n"
11717 std::vector<double> reference2;
11751 reference2.push_back(n_matrix_b_components - (n_component + 1));
11760 reference2.push_back(n_result_components - (n_result_component + 1));
11773 getMatrixMultiplicationResult(matrix_a_type, reference1, matrix_b_type, reference2, expected_result_data);
11827 expected_value += reference2[n_component];
11830 expected_value /= reference2[n_component];
11833 expected_value *= reference2[n_component];
11836 expected_value -= reference2[n_component];
11884 const bool expected_result_lt[2] = { reference1[0] < reference2[0], reference1[0] < (float)reference2[0] };
11885 const bool expected_result_lte[2] = { reference1[0] <= reference2[0], reference1[0] <= (float)reference2[0] };
11886 const bool expected_result_gt[2] = { reference1[0] > reference2[0], reference1[0] > (float)reference2[0] };
11887 const bool expected_result_gte[2] = { reference1[0] >= reference2[0], reference1[0] >= (float)reference2[0] };