/* Internal libc stuff for floating point environment routines. Copyright (C) 1997-2019 Free Software Foundation, Inc. This file is part of the GNU C Library. The GNU C Library is free software; you can redistribute it and/or modify it under the terms of the GNU Lesser General Public License as published by the Free Software Foundation; either version 2.1 of the License, or (at your option) any later version. The GNU C Library is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU Lesser General Public License for more details. You should have received a copy of the GNU Lesser General Public License along with the GNU C Library; if not, see . */ #ifndef _FENV_LIBC_H #define _FENV_LIBC_H 1 #include #include #include extern const fenv_t *__fe_nomask_env_priv (void); extern const fenv_t *__fe_mask_env (void) attribute_hidden; /* The sticky bits in the FPSCR indicating exceptions have occurred. */ #define FPSCR_STICKY_BITS ((FE_ALL_EXCEPT | FE_ALL_INVALID) & ~FE_INVALID) /* Equivalent to fegetenv, but returns a fenv_t instead of taking a pointer. */ #define fegetenv_register() __builtin_mffs() /* Equivalent to fegetenv_register, but only returns bits for status, exception enables, and mode. */ #define fegetenv_status_ISA300() \ ({register double __fr; \ __asm__ __volatile__ ( \ ".machine push; .machine \"power9\"; mffsl %0; .machine pop" \ : "=f" (__fr)); \ __fr; \ }) #ifdef _ARCH_PWR9 # define fegetenv_status() fegetenv_status_ISA300() #elif defined __BUILTIN_CPU_SUPPORTS__ # define fegetenv_status() \ (__glibc_likely (__builtin_cpu_supports ("arch_3_00")) \ ? fegetenv_status_ISA300() \ : fegetenv_register() \ ) #else # define fegetenv_status() fegetenv_register () #endif /* Equivalent to fesetenv, but takes a fenv_t instead of a pointer. */ #define fesetenv_register(env) \ do { \ double d = (env); \ if(GLRO(dl_hwcap) & PPC_FEATURE_HAS_DFP) \ asm volatile (".machine push; " \ ".machine \"power6\"; " \ "mtfsf 0xff,%0,1,0; " \ ".machine pop" : : "f" (d)); \ else \ __builtin_mtfsf (0xff, d); \ } while(0) /* This very handy macro: - Sets the rounding mode to 'round to nearest'; - Sets the processor into IEEE mode; and - Prevents exceptions from being raised for inexact results. These things happen to be exactly what you need for typical elementary functions. */ #define relax_fenv_state() \ do { \ if (GLRO(dl_hwcap) & PPC_FEATURE_HAS_DFP) \ asm volatile (".machine push; .machine \"power6\"; " \ "mtfsfi 7,0,1; .machine pop"); \ asm volatile ("mtfsfi 7,0"); \ } while(0) /* Set/clear a particular FPSCR bit (for instance, reset_fpscr_bit(FPSCR_VE); prevents INVALID exceptions from being raised). */ #define set_fpscr_bit(x) asm volatile ("mtfsb1 %0" : : "i"(x)) #define reset_fpscr_bit(x) asm volatile ("mtfsb0 %0" : : "i"(x)) typedef union { fenv_t fenv; unsigned long long l; } fenv_union_t; static inline int __fesetround_inline (int round) { if ((unsigned int) round < 2) { asm volatile ("mtfsb0 30"); if ((unsigned int) round == 0) asm volatile ("mtfsb0 31"); else asm volatile ("mtfsb1 31"); } else { asm volatile ("mtfsb1 30"); if ((unsigned int) round == 2) asm volatile ("mtfsb0 31"); else asm volatile ("mtfsb1 31"); } return 0; } /* Same as __fesetround_inline, however without runtime check to use DFP mtfsfi syntax (as relax_fenv_state) or if round value is valid. */ static inline void __fesetround_inline_nocheck (const int round) { asm volatile ("mtfsfi 7,%0" : : "i" (round)); } /* Definitions of all the FPSCR bit numbers */ enum { FPSCR_FX = 0, /* exception summary */ FPSCR_FEX, /* enabled exception summary */ FPSCR_VX, /* invalid operation summary */ FPSCR_OX, /* overflow */ FPSCR_UX, /* underflow */ FPSCR_ZX, /* zero divide */ FPSCR_XX, /* inexact */ FPSCR_VXSNAN, /* invalid operation for sNaN */ FPSCR_VXISI, /* invalid operation for Inf-Inf */ FPSCR_VXIDI, /* invalid operation for Inf/Inf */ FPSCR_VXZDZ, /* invalid operation for 0/0 */ FPSCR_VXIMZ, /* invalid operation for Inf*0 */ FPSCR_VXVC, /* invalid operation for invalid compare */ FPSCR_FR, /* fraction rounded [fraction was incremented by round] */ FPSCR_FI, /* fraction inexact */ FPSCR_FPRF_C, /* result class descriptor */ FPSCR_FPRF_FL, /* result less than (usually, less than 0) */ FPSCR_FPRF_FG, /* result greater than */ FPSCR_FPRF_FE, /* result equal to */ FPSCR_FPRF_FU, /* result unordered */ FPSCR_20, /* reserved */ FPSCR_VXSOFT, /* invalid operation set by software */ FPSCR_VXSQRT, /* invalid operation for square root */ FPSCR_VXCVI, /* invalid operation for invalid integer convert */ FPSCR_VE, /* invalid operation exception enable */ FPSCR_OE, /* overflow exception enable */ FPSCR_UE, /* underflow exception enable */ FPSCR_ZE, /* zero divide exception enable */ FPSCR_XE, /* inexact exception enable */ #ifdef _ARCH_PWR6 FPSCR_29, /* Reserved in ISA 2.05 */ #else FPSCR_NI /* non-IEEE mode (typically, no denormalised numbers) */ #endif /* _ARCH_PWR6 */ /* the remaining two least-significant bits keep the rounding mode */ }; static inline int fenv_reg_to_exceptions (unsigned long long l) { int result = 0; if (l & (1 << (31 - FPSCR_XE))) result |= FE_INEXACT; if (l & (1 << (31 - FPSCR_ZE))) result |= FE_DIVBYZERO; if (l & (1 << (31 - FPSCR_UE))) result |= FE_UNDERFLOW; if (l & (1 << (31 - FPSCR_OE))) result |= FE_OVERFLOW; if (l & (1 << (31 - FPSCR_VE))) result |= FE_INVALID; return result; } #ifdef _ARCH_PWR6 /* Not supported in ISA 2.05. Provided for source compat only. */ # define FPSCR_NI 29 #endif /* _ARCH_PWR6 */ /* This operation (i) sets the appropriate FPSCR bits for its parameter, (ii) converts sNaN to the corresponding qNaN, and (iii) otherwise passes its parameter through unchanged (in particular, -0 and +0 stay as they were). The `obvious' way to do this is optimised out by gcc. */ #define f_wash(x) \ ({ double d; asm volatile ("fmul %0,%1,%2" \ : "=f"(d) \ : "f" (x), "f"((float)1.0)); d; }) #define f_washf(x) \ ({ float f; asm volatile ("fmuls %0,%1,%2" \ : "=f"(f) \ : "f" (x), "f"((float)1.0)); f; }) #endif /* fenv_libc.h */