/* Template file for ternary scalar operator validation. This file is meant to be included by test files for binary scalar operations. */ /* Check for required settings. */ #ifndef INSN_NAME #error INSN_NAME (the intrinsic to test) must be defined. #endif #ifndef INPUT_TYPE #error INPUT_TYPE (basic type of an input value) must be defined. #endif #ifndef OUTPUT_TYPE #error OUTPUT_TYPE (basic type of an output value) must be defined. #endif #ifndef OUTPUT_TYPE_SIZE #error OUTPUT_TYPE_SIZE (size in bits of an output value) must be defined. #endif /* Optional settings: INPUT_1: Input values for the first parameter. Must be of type INPUT_TYPE. INPUT_2: Input values for the second parameter. Must be of type INPUT_TYPE. INPUT_3: Input values for the third parameter. Must be of type INPUT_TYPE. */ #ifndef TEST_MSG #define TEST_MSG "unnamed test" #endif /* The test framework. */ #include extern void abort (); #define INFF __builtin_inf () /* Stringify a macro. */ #define STR0(A) #A #define STR(A) STR0 (A) /* Macro concatenation. */ #define CAT0(A, B) A##B #define CAT(A, B) CAT0 (A, B) /* Format strings for error reporting. */ #define FMT16 "0x%04x" #define FMT32 "0x%08x" #define FMT CAT (FMT,OUTPUT_TYPE_SIZE) /* Type construction: forms TS_t, where T is the base type and S the size in bits. */ #define MK_TYPE0(T, S) T##S##_t #define MK_TYPE(T, S) MK_TYPE0 (T, S) /* Convenience types for input and output data. */ typedef MK_TYPE (uint, OUTPUT_TYPE_SIZE) output_hex_type; /* Conversion between typed values and their hexadecimal representation. */ typedef union { OUTPUT_TYPE value; output_hex_type hex; } output_conv_type; /* Default input values. */ float16_t input_1_float16_t[] = { 0.0, -0.0, 2.0, 3.1, 20.0, 0.40, -2.3, 1.33, -7.6, 0.31, 0.3353, 0.5, 1.0, 13.13, -6.3, 20.0, (float16_t)INFF, (float16_t)-INFF, }; float16_t input_2_float16_t[] = { 1.0, 1.0, -4.33, 100.0, 30.0, -0.02, 0.5, -7.231, -6.3, 20.0, -7.231, 2.3, -7.6, 5.1, 0.31, 0.33353, (float16_t)-INFF, (float16_t)INFF, }; float16_t input_3_float16_t[] = { -0.0, 0.0, 0.31, -0.31, 1.31, 2.1, -6.3, 1.0, -1.5, 5.1, 0.3353, 9.3, -9.3, -7.231, 0.5, -0.33, (float16_t)INFF, (float16_t)INFF, }; #ifndef INPUT_1 #define INPUT_1 CAT (input_1_,INPUT_TYPE) #endif #ifndef INPUT_2 #define INPUT_2 CAT (input_2_,INPUT_TYPE) #endif #ifndef INPUT_3 #define INPUT_3 CAT (input_3_,INPUT_TYPE) #endif /* Support macros and routines for the test function. */ #define CHECK() \ { \ output_conv_type actual; \ output_conv_type expect; \ \ expect.hex = ((output_hex_type*)EXPECTED)[index]; \ actual.value = INSN_NAME ((INPUT_1)[index], \ (INPUT_2)[index], \ (INPUT_3)[index]); \ \ if (actual.hex != expect.hex) \ { \ fprintf (stderr, \ "ERROR in %s (%s line %d), buffer %s, " \ "index %d: got " \ FMT " != " FMT "\n", \ TEST_MSG, __FILE__, __LINE__, \ STR (EXPECTED), index, \ actual.hex, expect.hex); \ abort (); \ } \ fprintf (stderr, "CHECKED %s %s\n", \ STR (EXPECTED), TEST_MSG); \ } #define FNNAME1(NAME) exec_ ## NAME #define FNNAME(NAME) FNNAME1 (NAME) /* The test function. */ void FNNAME (INSN_NAME) (void) { /* Basic test: y[i] = OP (x[i]), for each INPUT[i], then compare the result against EXPECTED[i]. */ const int num_tests = sizeof (INPUT_1) / sizeof (INPUT_1[0]); int index; for (index = 0; index < num_tests; index++) CHECK (); #ifdef EXTRA_TESTS EXTRA_TESTS (); #endif } int main (void) { FNNAME (INSN_NAME) (); return 0; }