#include /* Test various ways of creating vectors with 2 double words and accessing the elements. This include files supports: testing double testing long on 64-bit systems testing long long on 32-bit systems. The endian support is: big endian little endian. */ #ifdef DEBUG #include #define DEBUG0(STR) fputs (STR, stdout) #define DEBUG2(STR,A,B) printf (STR, A, B) static int errors = 0; #else #include #define DEBUG0(STR) #define DEBUG2(STR,A,B) #endif #if defined(DO_DOUBLE) #define TYPE double #define STYPE "double" #define ZERO 0.0 #define ONE 1.0 #define TWO 2.0 #define THREE 3.0 #define FOUR 4.0 #define FIVE 5.0 #define SIX 6.0 #define FMT "g" #elif defined(_ARCH_PPC64) #define TYPE long #define STYPE "long" #define ZERO 0L #define ONE 1L #define TWO 2L #define THREE 3L #define FOUR 4L #define FIVE 5L #define SIX 6L #define FMT "ld" #else #define TYPE long long #define STYPE "long long" #define ZERO 0LL #define ONE 1LL #define TWO 2LL #define THREE 3LL #define FOUR 4LL #define FIVE 5LL #define SIX 6LL #define FMT "lld" #endif /* Macros to order the left/right values correctly. */ #if __BYTE_ORDER__ == __ORDER_BIG_ENDIAN__ #define INIT_ORDER(A, B) (TYPE) A, (TYPE) B #define ELEMENT_ORDER(A, B) (TYPE) A, (TYPE) B #define ENDIAN "-mbig" #else #define INIT_ORDER(A, B) (TYPE) B, (TYPE) A #define ELEMENT_ORDER(A, B) (TYPE) B, (TYPE) A #define ENDIAN "-mlittle" #endif static volatile TYPE five = FIVE; static volatile TYPE six = SIX; static volatile vector TYPE s_v12 = { ONE, TWO }; static volatile vector TYPE g_v34 = { THREE, FOUR }; __attribute__((__noinline__)) static void vector_check (vector TYPE v, TYPE expect_hi, TYPE expect_lo) { TYPE actual_hi, actual_lo; #ifdef DEBUG const char *pass_fail; #endif __asm__ ("xxlor %x0,%x1,%x1" : "=&wa" (actual_hi) : "wa" (v)); __asm__ ("xxpermdi %x0,%x1,%x1,3" : "=&wa" (actual_lo) : "wa" (v)); #ifdef DEBUG if ((actual_hi == expect_hi) && (actual_lo == expect_lo)) pass_fail = ", pass"; else { pass_fail = ", fail"; errors++; } printf ("Expected %" FMT ", %" FMT ", got %" FMT ", %" FMT "%s\n", expect_hi, expect_lo, actual_hi, actual_lo, pass_fail); #else if ((actual_hi != expect_hi) || (actual_lo != expect_lo)) abort (); #endif } __attribute__((__noinline__)) static vector TYPE combine (TYPE op0, TYPE op1) { return (vector TYPE) { op0, op1 }; } __attribute__((__noinline__)) static vector TYPE combine_insert (TYPE op0, TYPE op1) { vector TYPE ret = (vector TYPE) { ZERO, ZERO }; ret = vec_insert (op0, ret, 0); ret = vec_insert (op1, ret, 1); return ret; } __attribute__((__noinline__)) static vector TYPE concat_extract_00 (vector TYPE a, vector TYPE b) { return (vector TYPE) { vec_extract (a, 0), vec_extract (b, 0) }; } __attribute__((__noinline__)) static vector TYPE concat_extract_01 (vector TYPE a, vector TYPE b) { return (vector TYPE) { vec_extract (a, 0), vec_extract (b, 1) }; } __attribute__((__noinline__)) static vector TYPE concat_extract_10 (vector TYPE a, vector TYPE b) { return (vector TYPE) { vec_extract (a, 1), vec_extract (b, 0) }; } __attribute__((__noinline__)) static vector TYPE concat_extract_11 (vector TYPE a, vector TYPE b) { return (vector TYPE) { vec_extract (a, 1), vec_extract (b, 1) }; } __attribute__((__noinline__)) static vector TYPE concat_extract2_0s (vector TYPE a, TYPE b) { return (vector TYPE) { vec_extract (a, 0), b }; } __attribute__((__noinline__)) static vector TYPE concat_extract2_1s (vector TYPE a, TYPE b) { return (vector TYPE) { vec_extract (a, 1), b }; } __attribute__((__noinline__)) static vector TYPE concat_extract2_s0 (TYPE a, vector TYPE b) { return (vector TYPE) { a, vec_extract (b, 0) }; } __attribute__((__noinline__)) static vector TYPE concat_extract2_s1 (TYPE a, vector TYPE b) { return (vector TYPE) { a, vec_extract (b, 1) }; } __attribute__((__noinline__)) static vector TYPE concat_extract_nn (vector TYPE a, vector TYPE b, size_t i, size_t j) { return (vector TYPE) { vec_extract (a, i), vec_extract (b, j) }; } __attribute__((__noinline__)) static vector TYPE array_0 (vector TYPE v, TYPE a) { v[0] = a; return v; } __attribute__((__noinline__)) static vector TYPE array_1 (vector TYPE v, TYPE a) { v[1] = a; return v; } __attribute__((__noinline__)) static vector TYPE array_01 (vector TYPE v, TYPE a, TYPE b) { v[0] = a; v[1] = b; return v; } __attribute__((__noinline__)) static vector TYPE array_01b (TYPE a, TYPE b) { vector TYPE v = (vector TYPE) { 0, 0 }; v[0] = a; v[1] = b; return v; } int main (void) { vector TYPE a = (vector TYPE) { ONE, TWO }; vector TYPE b = (vector TYPE) { THREE, FOUR }; size_t i, j; vector TYPE z = (vector TYPE) { ZERO, ZERO }; DEBUG2 ("Endian: %s, type: %s\n", ENDIAN, STYPE); DEBUG0 ("\nStatic/global initialization\n"); vector_check (s_v12, INIT_ORDER (1, 2)); vector_check (g_v34, INIT_ORDER (3, 4)); DEBUG0 ("\nVector via constant runtime intiialization\n"); vector_check (a, INIT_ORDER (1, 2)); vector_check (b, INIT_ORDER (3, 4)); DEBUG0 ("\nCombine scalars using vector initialization\n"); vector_check (combine (1, 2), INIT_ORDER (1, 2)); vector_check (combine (3, 4), INIT_ORDER (3, 4)); DEBUG0 ("\nSetup with vec_insert\n"); a = combine_insert (1, 2); b = combine_insert (3, 4); vector_check (a, ELEMENT_ORDER (1, 2)); vector_check (b, ELEMENT_ORDER (3, 4)); DEBUG0 ("\nTesting array syntax\n"); vector_check (array_0 (a, FIVE), ELEMENT_ORDER (5, 2)); vector_check (array_1 (b, SIX), ELEMENT_ORDER (3, 6)); vector_check (array_01 (z, FIVE, SIX), ELEMENT_ORDER (5, 6)); vector_check (array_01b (FIVE, SIX), ELEMENT_ORDER (5, 6)); vector_check (array_0 (a, five), ELEMENT_ORDER (5, 2)); vector_check (array_1 (b, six), ELEMENT_ORDER (3, 6)); vector_check (array_01 (z, five, six), ELEMENT_ORDER (5, 6)); vector_check (array_01b (five, six), ELEMENT_ORDER (5, 6)); DEBUG0 ("\nTesting concat and extract\n"); vector_check (concat_extract_00 (a, b), INIT_ORDER (1, 3)); vector_check (concat_extract_01 (a, b), INIT_ORDER (1, 4)); vector_check (concat_extract_10 (a, b), INIT_ORDER (2, 3)); vector_check (concat_extract_11 (a, b), INIT_ORDER (2, 4)); DEBUG0 ("\nTesting concat and extract #2\n"); vector_check (concat_extract2_0s (a, FIVE), INIT_ORDER (1, 5)); vector_check (concat_extract2_1s (a, FIVE), INIT_ORDER (2, 5)); vector_check (concat_extract2_s0 (SIX, a), INIT_ORDER (6, 1)); vector_check (concat_extract2_s1 (SIX, a), INIT_ORDER (6, 2)); DEBUG0 ("\nTesting variable concat and extract\n"); for (i = 0; i < 2; i++) { for (j = 0; j < 2; j++) { static struct { TYPE hi; TYPE lo; } hilo[2][2] = { { { ONE, THREE }, { ONE, FOUR } }, { { TWO, THREE }, { TWO, FOUR } } }; vector_check (concat_extract_nn (a, b, i, j), INIT_ORDER (hilo[i][j].hi, hilo[i][j].lo)); } } DEBUG0 ("\nTesting separate function\n"); vector_check (combine (vec_extract (a, 0), vec_extract (b, 0)), INIT_ORDER (1, 3)); vector_check (combine (vec_extract (a, 0), vec_extract (b, 1)), INIT_ORDER (1, 4)); vector_check (combine (vec_extract (a, 1), vec_extract (b, 0)), INIT_ORDER (2, 3)); vector_check (combine (vec_extract (a, 1), vec_extract (b, 1)), INIT_ORDER (2, 4)); vector_check (combine_insert (vec_extract (a, 0), vec_extract (b, 0)), ELEMENT_ORDER (1, 3)); vector_check (combine_insert (vec_extract (a, 0), vec_extract (b, 1)), ELEMENT_ORDER (1, 4)); vector_check (combine_insert (vec_extract (a, 1), vec_extract (b, 0)), ELEMENT_ORDER (2, 3)); vector_check (combine_insert (vec_extract (a, 1), vec_extract (b, 1)), ELEMENT_ORDER (2, 4)); #if defined(DO_DOUBLE) DEBUG0 ("\nTesting explicit 2df concat\n"); vector_check (__builtin_vsx_concat_2df (FIVE, SIX), INIT_ORDER (5, 6)); vector_check (__builtin_vsx_concat_2df (five, six), INIT_ORDER (5, 6)); #elif defined(_ARCH_PPC64) DEBUG0 ("\nTesting explicit 2di concat\n"); vector_check (__builtin_vsx_concat_2di (FIVE, SIX), INIT_ORDER (5, 6)); vector_check (__builtin_vsx_concat_2di (five, six), INIT_ORDER (5, 6)); #else DEBUG0 ("\nSkip explicit 2di concat on 32-bit\n"); #endif #ifdef DEBUG if (errors) printf ("\n%d error%s were found", errors, (errors == 1) ? "" : "s"); else printf ("\nNo errors were found.\n"); return errors; #else return 0; #endif }