use PT_FIRSTMACH; pub type c_long = i64; pub type c_ulong = u64; pub type c_char = u8; pub type greg_t = u64; pub type __cpu_simple_lock_nv_t = ::c_uchar; s! { pub struct __fregset { #[cfg(libc_union)] pub __qregs: [__c_anonymous__freg; 32], pub __fpcr: u32, pub __fpsr: u32, } pub struct mcontext_t { pub __gregs: [::greg_t; 32], pub __fregs: __fregset, __spare: [::greg_t; 8], } pub struct ucontext_t { pub uc_flags: ::c_uint, pub uc_link: *mut ucontext_t, pub uc_sigmask: ::sigset_t, pub uc_stack: ::stack_t, pub uc_mcontext: mcontext_t, } } s_no_extra_traits! { #[cfg(libc_union)] #[repr(align(16))] pub union __c_anonymous__freg { pub __b8: [u8; 16], pub __h16: [u16; 8], pub __s32: [u32; 4], pub __d64: [u64; 2], pub __q128: [u128; 1], } } cfg_if! { if #[cfg(feature = "extra_traits")] { #[cfg(libc_union)] impl PartialEq for __c_anonymous__freg { fn eq(&self, other: &__c_anonymous__freg) -> bool { unsafe { self.__b8 == other.__b8 || self.__h16 == other.__h16 || self.__s32 == other.__s32 || self.__d64 == other.__d64 || self.__q128 == other.__q128 } } } #[cfg(libc_union)] impl Eq for __c_anonymous__freg {} #[cfg(libc_union)] impl ::fmt::Debug for __c_anonymous__freg { fn fmt(&self, f: &mut ::fmt::Formatter) -> ::fmt::Result { unsafe { f.debug_struct("__c_anonymous__freg") .field("__b8", &self.__b8) .field("__h16", &self.__h16) .field("__s32", &self.__s32) .field("__d64", &self.__d64) .field("__q128", &self.__q128) .finish() } } } #[cfg(libc_union)] impl ::hash::Hash for __c_anonymous__freg { fn hash(&self, state: &mut H) { unsafe { self.__b8.hash(state); self.__h16.hash(state); self.__s32.hash(state); self.__d64.hash(state); self.__q128.hash(state); } } } } } // should be pub(crate), but that requires Rust 1.18.0 cfg_if! { if #[cfg(libc_const_size_of)] { #[doc(hidden)] pub const _ALIGNBYTES: usize = ::mem::size_of::<::c_int>() - 1; } else { #[doc(hidden)] pub const _ALIGNBYTES: usize = 4 - 1; } } pub const PT_GETREGS: ::c_int = PT_FIRSTMACH + 0; pub const PT_SETREGS: ::c_int = PT_FIRSTMACH + 1; pub const PT_GETFPREGS: ::c_int = PT_FIRSTMACH + 2; pub const PT_SETFPREGS: ::c_int = PT_FIRSTMACH + 3; pub const _REG_R0: ::c_int = 0; pub const _REG_R1: ::c_int = 1; pub const _REG_R2: ::c_int = 2; pub const _REG_R3: ::c_int = 3; pub const _REG_R4: ::c_int = 4; pub const _REG_R5: ::c_int = 5; pub const _REG_R6: ::c_int = 6; pub const _REG_R7: ::c_int = 7; pub const _REG_R8: ::c_int = 8; pub const _REG_R9: ::c_int = 9; pub const _REG_R10: ::c_int = 10; pub const _REG_R11: ::c_int = 11; pub const _REG_R12: ::c_int = 12; pub const _REG_R13: ::c_int = 13; pub const _REG_R14: ::c_int = 14; pub const _REG_R15: ::c_int = 15; pub const _REG_CPSR: ::c_int = 16; pub const _REG_X0: ::c_int = 0; pub const _REG_X1: ::c_int = 1; pub const _REG_X2: ::c_int = 2; pub const _REG_X3: ::c_int = 3; pub const _REG_X4: ::c_int = 4; pub const _REG_X5: ::c_int = 5; pub const _REG_X6: ::c_int = 6; pub const _REG_X7: ::c_int = 7; pub const _REG_X8: ::c_int = 8; pub const _REG_X9: ::c_int = 9; pub const _REG_X10: ::c_int = 10; pub const _REG_X11: ::c_int = 11; pub const _REG_X12: ::c_int = 12; pub const _REG_X13: ::c_int = 13; pub const _REG_X14: ::c_int = 14; pub const _REG_X15: ::c_int = 15; pub const _REG_X16: ::c_int = 16; pub const _REG_X17: ::c_int = 17; pub const _REG_X18: ::c_int = 18; pub const _REG_X19: ::c_int = 19; pub const _REG_X20: ::c_int = 20; pub const _REG_X21: ::c_int = 21; pub const _REG_X22: ::c_int = 22; pub const _REG_X23: ::c_int = 23; pub const _REG_X24: ::c_int = 24; pub const _REG_X25: ::c_int = 25; pub const _REG_X26: ::c_int = 26; pub const _REG_X27: ::c_int = 27; pub const _REG_X28: ::c_int = 28; pub const _REG_X29: ::c_int = 29; pub const _REG_X30: ::c_int = 30; pub const _REG_X31: ::c_int = 31; pub const _REG_ELR: ::c_int = 32; pub const _REG_SPSR: ::c_int = 33; pub const _REG_TIPDR: ::c_int = 34; pub const _REG_RV: ::c_int = _REG_X0; pub const _REG_FP: ::c_int = _REG_X29; pub const _REG_LR: ::c_int = _REG_X30; pub const _REG_SP: ::c_int = _REG_X31; pub const _REG_PC: ::c_int = _REG_ELR;