| /* Test floating-point conversions. */ |
| /* Origin: Joseph Myers <joseph@codesourcery.com> */ |
| |
| #include <limits.h> |
| extern void abort (void); |
| extern void exit (int); |
| |
| /* Not all platforms support TImode integers; logic as in |
| gcc.dg/titype-1.c. */ |
| #if defined(__LP64__) && !defined(__hppa__) |
| typedef int TItype __attribute__ ((mode (TI))); |
| typedef unsigned int UTItype __attribute__ ((mode (TI))); |
| #else |
| typedef long TItype; |
| typedef unsigned long UTItype; |
| #endif |
| |
| /* TEST_I_F(I, U, F, P) tests conversions between the pair of signed |
| and unsigned integer types I and U and the floating-point type F, |
| where P is the binary precision of the floating point type. We |
| test conversions of the values 0, 1, 0x7...f, 0x8...0, 0xf...f. We |
| also test conversions of values half way inbetween two |
| representable values (rounding both ways), just above half way, and |
| just below half way. */ |
| #define TEST_I_F(I, U, F, P) \ |
| do { \ |
| TEST_I_F_VAL (I, F, (I)0, 1); \ |
| TEST_I_F_VAL (I, F, (I)1, 1); \ |
| TEST_I_F_VAL (I, F, (I)(((U)~(U)0) >> 1), P_OK1 (P, I)); \ |
| TEST_I_F_VAL (I, F, (I)(U)~(((U)~(U)0) >> 1), 1); \ |
| TEST_I_F_VAL (I, F, (I)(U)~(U)0, P_OK (P, I)); \ |
| TEST_I_F_VAL (I, F, HVAL0S (P, I), P_OK (P, I)); \ |
| TEST_I_F_VAL (I, F, HVAL0S (P, I) + 1, P_OK (P, I)); \ |
| TEST_I_F_VAL (I, F, HVAL0S (P, I) - 1, P_OK (P, I)); \ |
| TEST_I_F_VAL (I, F, HVAL1S (P, I), P_OK (P, I)); \ |
| TEST_I_F_VAL (I, F, HVAL1S (P, I) + 1, P_OK (P, I)); \ |
| TEST_I_F_VAL (I, F, HVAL1S (P, I) - 1, P_OK (P, I)); \ |
| TEST_I_F_VAL (I, F, -HVAL0S (P, I), P_OK (P, I)); \ |
| TEST_I_F_VAL (I, F, -HVAL0S (P, I) + 1, P_OK (P, I)); \ |
| TEST_I_F_VAL (I, F, -HVAL0S (P, I) - 1, P_OK (P, I)); \ |
| TEST_I_F_VAL (I, F, -HVAL1S (P, I), P_OK (P, I)); \ |
| TEST_I_F_VAL (I, F, -HVAL1S (P, I) + 1, P_OK (P, I)); \ |
| TEST_I_F_VAL (I, F, -HVAL1S (P, I) - 1, P_OK (P, I)); \ |
| TEST_I_F_VAL (U, F, (U)0, 1); \ |
| TEST_I_F_VAL (U, F, (U)1, 1); \ |
| TEST_I_F_VAL (U, F, (U)(((U)~(U)0) >> 1), P_OK1 (P, U)); \ |
| TEST_I_F_VAL (U, F, (U)~(((U)~(U)0) >> 1), 1); \ |
| TEST_I_F_VAL (U, F, (U)~(U)0, P_OK (P, U)); \ |
| TEST_I_F_VAL (U, F, HVAL0U (P, U), P_OK (P, U)); \ |
| TEST_I_F_VAL (U, F, HVAL0U (P, U) + 1, P_OK (P, U)); \ |
| TEST_I_F_VAL (U, F, HVAL0U (P, U) - 1, P_OK (P, U)); \ |
| TEST_I_F_VAL (U, F, HVAL1U (P, U), P_OK (P, U)); \ |
| TEST_I_F_VAL (U, F, HVAL1U (P, U) + 1, P_OK (P, U)); \ |
| TEST_I_F_VAL (U, F, HVAL1U (P, U) - 1, P_OK (P, U)); \ |
| } while (0) |
| |
| #define P_OK(P, T) ((P) >= sizeof(T) * CHAR_BIT) |
| #define P_OK1(P, T) ((P) >= sizeof(T) * CHAR_BIT - 1) |
| #define HVAL0U(P, U) (U)(P_OK (P, U) \ |
| ? (U)1 \ |
| : (((U)1 << (sizeof(U) * CHAR_BIT - 1)) \ |
| + ((U)1 << (sizeof(U) * CHAR_BIT - 1 - P)))) |
| #define HVAL1U(P, U) (U)(P_OK (P, U) \ |
| ? (U)1 \ |
| : (((U)1 << (sizeof(U) * CHAR_BIT - 1)) \ |
| + ((U)3 << (sizeof(U) * CHAR_BIT - 1 - P)))) |
| #define HVAL0S(P, S) (S)(P_OK1 (P, S) \ |
| ? (S)1 \ |
| : (((S)1 << (sizeof(S) * CHAR_BIT - 2)) \ |
| + ((S)1 << (sizeof(S) * CHAR_BIT - 2 - P)))) |
| #define HVAL1S(P, S) (S)(P_OK1 (P, S) \ |
| ? (S)1 \ |
| : (((S)1 << (sizeof(S) * CHAR_BIT - 2)) \ |
| + ((S)3 << (sizeof(S) * CHAR_BIT - 2 - P)))) |
| |
| #define TEST_I_F_VAL(IT, FT, VAL, PREC_OK) \ |
| do { \ |
| static volatile IT ivin, ivout; \ |
| static volatile FT fv1, fv2; \ |
| ivin = (VAL); \ |
| fv1 = (VAL); \ |
| fv2 = ivin; \ |
| ivout = fv2; \ |
| if (ivin != (VAL) \ |
| || ((PREC_OK) && ivout != ivin) \ |
| || ((PREC_OK) && ivout != (VAL)) \ |
| || fv1 != (VAL) || fv2 != (VAL) || fv1 != fv2) \ |
| abort (); \ |
| } while (0) |