| /* { dg-do assemble } */ |
| /* { dg-skip-if "" { powerpc-ibm-aix* } } */ |
| /* { dg-skip-if "no TFmode" { powerpc-*-eabi* } } */ |
| /* { dg-require-effective-target longdouble128 } */ |
| /* { dg-options "-O2 -fno-align-functions -fno-asynchronous-unwind-tables -mtraceback=no -save-temps" } */ |
| |
| #if defined(__LONG_DOUBLE_IEEE128__) |
| /* If long double is IEEE 128-bit, we need to use the __ibm128 type instead of |
| long double. We can't use __ibm128 on systems that don't support IEEE |
| 128-bit floating point, because the type is not enabled on those |
| systems. */ |
| #define TFmode __ibm128 |
| |
| #elif defined(__LONG_DOUBLE_IBM128__) |
| #define TFmode long double |
| |
| #else |
| #error "long double must be either IBM 128-bit or IEEE 128-bit" |
| #endif |
| |
| void w1 (void *x, TFmode y) { *(TFmode *) (x + 32767) = y; } |
| void w2 (void *x, TFmode y) { *(TFmode *) (x + 32766) = y; } |
| void w3 (void *x, TFmode y) { *(TFmode *) (x + 32765) = y; } |
| void w4 (void *x, TFmode y) { *(TFmode *) (x + 32764) = y; } |
| void w5 (void *x, TFmode y) { *(TFmode *) (x + 32763) = y; } |
| void w6 (void *x, TFmode y) { *(TFmode *) (x + 32762) = y; } |
| void w7 (void *x, TFmode y) { *(TFmode *) (x + 32761) = y; } |
| void w8 (void *x, TFmode y) { *(TFmode *) (x + 32760) = y; } |
| void w9 (void *x, TFmode y) { *(TFmode *) (x + 32759) = y; } |
| void w10 (void *x, TFmode y) { *(TFmode *) (x + 32758) = y; } |
| void w11 (void *x, TFmode y) { *(TFmode *) (x + 32757) = y; } |
| void w12 (void *x, TFmode y) { *(TFmode *) (x + 32756) = y; } |
| void w13 (void *x, TFmode y) { *(TFmode *) (x + 32755) = y; } |
| void w14 (void *x, TFmode y) { *(TFmode *) (x + 32754) = y; } |
| void w15 (void *x, TFmode y) { *(TFmode *) (x + 32753) = y; } |
| void w16 (void *x, TFmode y) { *(TFmode *) (x + 32752) = y; } |
| void w17 (void *x, TFmode y) { *(TFmode *) (x + 32751) = y; } |
| void w18 (void *x, TFmode y) { *(TFmode *) (x + 32750) = y; } |
| void w19 (void *x, TFmode y) { *(TFmode *) (x + 32749) = y; } |
| void w20 (void *x, TFmode y) { *(TFmode *) (x + 32748) = y; } |
| |
| TFmode r1 (void *x) { return *(TFmode *) (x + 32767); } |
| TFmode r2 (void *x) { return *(TFmode *) (x + 32766); } |
| TFmode r3 (void *x) { return *(TFmode *) (x + 32765); } |
| TFmode r4 (void *x) { return *(TFmode *) (x + 32764); } |
| TFmode r5 (void *x) { return *(TFmode *) (x + 32763); } |
| TFmode r6 (void *x) { return *(TFmode *) (x + 32762); } |
| TFmode r7 (void *x) { return *(TFmode *) (x + 32761); } |
| TFmode r8 (void *x) { return *(TFmode *) (x + 32760); } |
| TFmode r9 (void *x) { return *(TFmode *) (x + 32759); } |
| TFmode r10 (void *x) { return *(TFmode *) (x + 32758); } |
| TFmode r11 (void *x) { return *(TFmode *) (x + 32757); } |
| TFmode r12 (void *x) { return *(TFmode *) (x + 32756); } |
| TFmode r13 (void *x) { return *(TFmode *) (x + 32755); } |
| TFmode r14 (void *x) { return *(TFmode *) (x + 32754); } |
| TFmode r15 (void *x) { return *(TFmode *) (x + 32753); } |
| TFmode r16 (void *x) { return *(TFmode *) (x + 32752); } |
| TFmode r17 (void *x) { return *(TFmode *) (x + 32751); } |
| TFmode r18 (void *x) { return *(TFmode *) (x + 32750); } |
| TFmode r19 (void *x) { return *(TFmode *) (x + 32749); } |
| TFmode r20 (void *x) { return *(TFmode *) (x + 32748); } |
| |
| /* { dg-final { object-size text == 544 } } */ |