/* automatically generated by rust-bindgen 0.56.0 */ #[repr(C)] #[derive(Default)] pub struct __IncompleteArrayField(::core::marker::PhantomData, [T; 0]); impl __IncompleteArrayField { #[inline] pub const fn new() -> Self { __IncompleteArrayField(::core::marker::PhantomData, []) } #[inline] pub fn as_ptr(&self) -> *const T { self as *const _ as *const T } #[inline] pub fn as_mut_ptr(&mut self) -> *mut T { self as *mut _ as *mut T } #[inline] pub unsafe fn as_slice(&self, len: usize) -> &[T] { ::core::slice::from_raw_parts(self.as_ptr(), len) } #[inline] pub unsafe fn as_mut_slice(&mut self, len: usize) -> &mut [T] { ::core::slice::from_raw_parts_mut(self.as_mut_ptr(), len) } } impl ::core::fmt::Debug for __IncompleteArrayField { fn fmt(&self, fmt: &mut ::core::fmt::Formatter<'_>) -> ::core::fmt::Result { fmt.write_str("__IncompleteArrayField") } } pub const _TIME_H: u32 = 1; pub const _FEATURES_H: u32 = 1; pub const __GLIBC_USE_ISOC2X: u32 = 0; pub const __USE_ISOC11: u32 = 1; pub const __USE_ISOC99: u32 = 1; pub const __USE_ISOC95: u32 = 1; pub const _POSIX_SOURCE: u32 = 1; pub const _POSIX_C_SOURCE: u32 = 2; pub const __USE_POSIX_IMPLICITLY: u32 = 1; pub const __USE_POSIX: u32 = 1; pub const __USE_POSIX2: u32 = 1; pub const __USE_XOPEN: u32 = 1; pub const __USE_FORTIFY_LEVEL: u32 = 0; pub const __GLIBC_USE_DEPRECATED_GETS: u32 = 0; pub const __GLIBC_USE_DEPRECATED_SCANF: u32 = 0; pub const _STDC_PREDEF_H: u32 = 1; pub const __STDC_IEC_559__: u32 = 1; pub const __STDC_IEC_559_COMPLEX__: u32 = 1; pub const __STDC_ISO_10646__: u32 = 201706; pub const __GNU_LIBRARY__: u32 = 6; pub const __GLIBC__: u32 = 2; pub const __GLIBC_MINOR__: u32 = 31; pub const _SYS_CDEFS_H: u32 = 1; pub const __glibc_c99_flexarr_available: u32 = 1; pub const __WORDSIZE: u32 = 64; pub const __WORDSIZE_TIME64_COMPAT32: u32 = 1; pub const __SYSCALL_WORDSIZE: u32 = 64; pub const __LONG_DOUBLE_USES_FLOAT128: u32 = 0; pub const __HAVE_GENERIC_SELECTION: u32 = 1; pub const _BITS_TIME_H: u32 = 1; pub const _BITS_TYPES_H: u32 = 1; pub const __TIMESIZE: u32 = 64; pub const _BITS_TYPESIZES_H: u32 = 1; pub const __OFF_T_MATCHES_OFF64_T: u32 = 1; pub const __INO_T_MATCHES_INO64_T: u32 = 1; pub const __RLIM_T_MATCHES_RLIM64_T: u32 = 1; pub const __STATFS_MATCHES_STATFS64: u32 = 1; pub const __FD_SETSIZE: u32 = 1024; pub const _BITS_TIME64_H: u32 = 1; pub const __clock_t_defined: u32 = 1; pub const __time_t_defined: u32 = 1; pub const __struct_tm_defined: u32 = 1; pub const _STRUCT_TIMESPEC: u32 = 1; pub const _BITS_ENDIAN_H: u32 = 1; pub const __LITTLE_ENDIAN: u32 = 1234; pub const __BIG_ENDIAN: u32 = 4321; pub const __PDP_ENDIAN: u32 = 3412; pub const _BITS_ENDIANNESS_H: u32 = 1; pub const __BYTE_ORDER: u32 = 1234; pub const __FLOAT_WORD_ORDER: u32 = 1234; pub const TIME_UTC: u32 = 1; pub const _UCHAR_H: u32 = 1; pub const __mbstate_t_defined: u32 = 1; pub const ____mbstate_t_defined: u32 = 1; pub const _CTYPE_H: u32 = 1; pub const _WCHAR_H: u32 = 1; pub const __GLIBC_USE_LIB_EXT2: u32 = 0; pub const __GLIBC_USE_IEC_60559_BFP_EXT: u32 = 0; pub const __GLIBC_USE_IEC_60559_BFP_EXT_C2X: u32 = 0; pub const __GLIBC_USE_IEC_60559_FUNCS_EXT: u32 = 0; pub const __GLIBC_USE_IEC_60559_FUNCS_EXT_C2X: u32 = 0; pub const __GLIBC_USE_IEC_60559_TYPES_EXT: u32 = 0; pub const __HAVE_FLOAT128: u32 = 0; pub const __HAVE_DISTINCT_FLOAT128: u32 = 0; pub const __HAVE_FLOAT64X: u32 = 1; pub const __HAVE_FLOAT64X_LONG_DOUBLE: u32 = 1; pub const __HAVE_FLOAT16: u32 = 0; pub const __HAVE_FLOAT32: u32 = 1; pub const __HAVE_FLOAT64: u32 = 1; pub const __HAVE_FLOAT32X: u32 = 1; pub const __HAVE_FLOAT128X: u32 = 0; pub const __HAVE_DISTINCT_FLOAT16: u32 = 0; pub const __HAVE_DISTINCT_FLOAT32: u32 = 0; pub const __HAVE_DISTINCT_FLOAT64: u32 = 0; pub const __HAVE_DISTINCT_FLOAT32X: u32 = 0; pub const __HAVE_DISTINCT_FLOAT64X: u32 = 0; pub const __HAVE_DISTINCT_FLOAT128X: u32 = 0; pub const __HAVE_FLOATN_NOT_TYPEDEF: u32 = 0; pub const __GNUC_VA_LIST: u32 = 1; pub const _BITS_WCHAR_H: u32 = 1; pub const __wint_t_defined: u32 = 1; pub const _WINT_T: u32 = 1; pub const ____FILE_defined: u32 = 1; pub const WEOF: u32 = 4294967295; pub const _BITS_WCTYPE_WCHAR_H: u32 = 1; pub const _STDIO_H: u32 = 1; pub const _____fpos_t_defined: u32 = 1; pub const _____fpos64_t_defined: u32 = 1; pub const __FILE_defined: u32 = 1; pub const __struct_FILE_defined: u32 = 1; pub const _IO_EOF_SEEN: u32 = 16; pub const _IO_ERR_SEEN: u32 = 32; pub const _IO_USER_LOCK: u32 = 32768; pub const _IOFBF: u32 = 0; pub const _IOLBF: u32 = 1; pub const _IONBF: u32 = 2; pub const BUFSIZ: u32 = 8192; pub const EOF: i32 = -1; pub const SEEK_SET: u32 = 0; pub const SEEK_CUR: u32 = 1; pub const SEEK_END: u32 = 2; pub const P_tmpdir: &'static [u8; 5usize] = b"/tmp\0"; pub const _BITS_STDIO_LIM_H: u32 = 1; pub const L_tmpnam: u32 = 20; pub const TMP_MAX: u32 = 238328; pub const FILENAME_MAX: u32 = 4096; pub const L_ctermid: u32 = 9; pub const L_cuserid: u32 = 9; pub const FOPEN_MAX: u32 = 16; pub const _GETOPT_POSIX_H: u32 = 1; pub const _GETOPT_CORE_H: u32 = 1; pub const _STDINT_H: u32 = 1; pub const _BITS_STDINT_INTN_H: u32 = 1; pub const _BITS_STDINT_UINTN_H: u32 = 1; pub const INT8_MIN: i32 = -128; pub const INT16_MIN: i32 = -32768; pub const INT32_MIN: i32 = -2147483648; pub const INT8_MAX: u32 = 127; pub const INT16_MAX: u32 = 32767; pub const INT32_MAX: u32 = 2147483647; pub const UINT8_MAX: u32 = 255; pub const UINT16_MAX: u32 = 65535; pub const UINT32_MAX: u32 = 4294967295; pub const INT_LEAST8_MIN: i32 = -128; pub const INT_LEAST16_MIN: i32 = -32768; pub const INT_LEAST32_MIN: i32 = -2147483648; pub const INT_LEAST8_MAX: u32 = 127; pub const INT_LEAST16_MAX: u32 = 32767; pub const INT_LEAST32_MAX: u32 = 2147483647; pub const UINT_LEAST8_MAX: u32 = 255; pub const UINT_LEAST16_MAX: u32 = 65535; pub const UINT_LEAST32_MAX: u32 = 4294967295; pub const INT_FAST8_MIN: i32 = -128; pub const INT_FAST16_MIN: i64 = -9223372036854775808; pub const INT_FAST32_MIN: i64 = -9223372036854775808; pub const INT_FAST8_MAX: u32 = 127; pub const INT_FAST16_MAX: u64 = 9223372036854775807; pub const INT_FAST32_MAX: u64 = 9223372036854775807; pub const UINT_FAST8_MAX: u32 = 255; pub const UINT_FAST16_MAX: i32 = -1; pub const UINT_FAST32_MAX: i32 = -1; pub const INTPTR_MIN: i64 = -9223372036854775808; pub const INTPTR_MAX: u64 = 9223372036854775807; pub const UINTPTR_MAX: i32 = -1; pub const PTRDIFF_MIN: i64 = -9223372036854775808; pub const PTRDIFF_MAX: u64 = 9223372036854775807; pub const SIG_ATOMIC_MIN: i32 = -2147483648; pub const SIG_ATOMIC_MAX: u32 = 2147483647; pub const SIZE_MAX: i32 = -1; pub const WINT_MIN: u32 = 0; pub const WINT_MAX: u32 = 4294967295; pub const _STDLIB_H: u32 = 1; pub const WNOHANG: u32 = 1; pub const WUNTRACED: u32 = 2; pub const __WNOTHREAD: u32 = 536870912; pub const __WALL: u32 = 1073741824; pub const __WCLONE: u32 = 2147483648; pub const __W_CONTINUED: u32 = 65535; pub const __WCOREFLAG: u32 = 128; pub const __ldiv_t_defined: u32 = 1; pub const __lldiv_t_defined: u32 = 1; pub const RAND_MAX: u32 = 2147483647; pub const EXIT_FAILURE: u32 = 1; pub const EXIT_SUCCESS: u32 = 0; pub const _STRING_H: u32 = 1; pub const _BITS_SIGNUM_H: u32 = 1; pub const _BITS_SIGNUM_GENERIC_H: u32 = 1; pub const SIGINT: u32 = 2; pub const SIGILL: u32 = 4; pub const SIGABRT: u32 = 6; pub const SIGFPE: u32 = 8; pub const SIGSEGV: u32 = 11; pub const SIGTERM: u32 = 15; pub const SIGHUP: u32 = 1; pub const SIGQUIT: u32 = 3; pub const SIGTRAP: u32 = 5; pub const SIGKILL: u32 = 9; pub const SIGBUS: u32 = 10; pub const SIGSYS: u32 = 12; pub const SIGPIPE: u32 = 13; pub const SIGALRM: u32 = 14; pub const SIGURG: u32 = 16; pub const SIGSTOP: u32 = 17; pub const SIGTSTP: u32 = 18; pub const SIGCONT: u32 = 19; pub const SIGCHLD: u32 = 20; pub const SIGTTIN: u32 = 21; pub const SIGTTOU: u32 = 22; pub const SIGPOLL: u32 = 23; pub const SIGXCPU: u32 = 24; pub const SIGXFSZ: u32 = 25; pub const SIGVTALRM: u32 = 26; pub const SIGPROF: u32 = 27; pub const SIGUSR1: u32 = 30; pub const SIGUSR2: u32 = 31; pub const SIGWINCH: u32 = 28; pub const SIGIO: u32 = 23; pub const SIGIOT: u32 = 6; pub const SIGCLD: u32 = 20; pub const __SIGRTMIN: u32 = 32; pub const __SIGRTMAX: u32 = 32; pub const _NSIG: u32 = 33; pub const SIGSTKFLT: u32 = 16; pub const SIGPWR: u32 = 30; pub const __sig_atomic_t_defined: u32 = 1; pub const __sigset_t_defined: u32 = 1; pub const _BITS_SIGACTION_H: u32 = 1; pub const SA_NOCLDSTOP: u32 = 1; pub const SA_NOCLDWAIT: u32 = 2; pub const SA_SIGINFO: u32 = 4; pub const SIG_BLOCK: u32 = 0; pub const SIG_UNBLOCK: u32 = 1; pub const SIG_SETMASK: u32 = 2; pub const _LIBC_LIMITS_H_: u32 = 1; pub const MB_LEN_MAX: u32 = 16; pub const _BITS_POSIX1_LIM_H: u32 = 1; pub const _POSIX_AIO_LISTIO_MAX: u32 = 2; pub const _POSIX_AIO_MAX: u32 = 1; pub const _POSIX_ARG_MAX: u32 = 4096; pub const _POSIX_CHILD_MAX: u32 = 6; pub const _POSIX_DELAYTIMER_MAX: u32 = 32; pub const _POSIX_HOST_NAME_MAX: u32 = 255; pub const _POSIX_LINK_MAX: u32 = 8; pub const _POSIX_LOGIN_NAME_MAX: u32 = 9; pub const _POSIX_MAX_CANON: u32 = 255; pub const _POSIX_MAX_INPUT: u32 = 255; pub const _POSIX_MQ_OPEN_MAX: u32 = 8; pub const _POSIX_MQ_PRIO_MAX: u32 = 32; pub const _POSIX_NAME_MAX: u32 = 14; pub const _POSIX_NGROUPS_MAX: u32 = 0; pub const _POSIX_OPEN_MAX: u32 = 16; pub const _POSIX_FD_SETSIZE: u32 = 16; pub const _POSIX_PATH_MAX: u32 = 256; pub const _POSIX_PIPE_BUF: u32 = 512; pub const _POSIX_RE_DUP_MAX: u32 = 255; pub const _POSIX_RTSIG_MAX: u32 = 8; pub const _POSIX_SEM_NSEMS_MAX: u32 = 256; pub const _POSIX_SEM_VALUE_MAX: u32 = 32767; pub const _POSIX_SIGQUEUE_MAX: u32 = 32; pub const _POSIX_SSIZE_MAX: u32 = 32767; pub const _POSIX_STREAM_MAX: u32 = 8; pub const _POSIX_SYMLINK_MAX: u32 = 255; pub const _POSIX_SYMLOOP_MAX: u32 = 8; pub const _POSIX_TIMER_MAX: u32 = 32; pub const _POSIX_TTY_NAME_MAX: u32 = 9; pub const _POSIX_TZNAME_MAX: u32 = 3; pub const _POSIX_QLIMIT: u32 = 1; pub const _POSIX_HIWAT: u32 = 512; pub const _POSIX_UIO_MAXIOV: u32 = 16; pub const _POSIX_CLOCKRES_MIN: u32 = 20000000; pub const NR_OPEN: u32 = 1024; pub const NGROUPS_MAX: u32 = 65536; pub const ARG_MAX: u32 = 131072; pub const LINK_MAX: u32 = 127; pub const MAX_CANON: u32 = 255; pub const MAX_INPUT: u32 = 255; pub const NAME_MAX: u32 = 255; pub const PATH_MAX: u32 = 4096; pub const PIPE_BUF: u32 = 4096; pub const XATTR_NAME_MAX: u32 = 255; pub const XATTR_SIZE_MAX: u32 = 65536; pub const XATTR_LIST_MAX: u32 = 65536; pub const RTSIG_MAX: u32 = 32; pub const _POSIX_THREAD_KEYS_MAX: u32 = 128; pub const PTHREAD_KEYS_MAX: u32 = 1024; pub const _POSIX_THREAD_DESTRUCTOR_ITERATIONS: u32 = 4; pub const PTHREAD_DESTRUCTOR_ITERATIONS: u32 = 4; pub const _POSIX_THREAD_THREADS_MAX: u32 = 64; pub const AIO_PRIO_DELTA_MAX: u32 = 20; pub const PTHREAD_STACK_MIN: u32 = 16384; pub const DELAYTIMER_MAX: u32 = 2147483647; pub const TTY_NAME_MAX: u32 = 32; pub const LOGIN_NAME_MAX: u32 = 256; pub const HOST_NAME_MAX: u32 = 64; pub const MQ_PRIO_MAX: u32 = 32768; pub const SEM_VALUE_MAX: u32 = 2147483647; pub const _BITS_POSIX2_LIM_H: u32 = 1; pub const _POSIX2_BC_BASE_MAX: u32 = 99; pub const _POSIX2_BC_DIM_MAX: u32 = 2048; pub const _POSIX2_BC_SCALE_MAX: u32 = 99; pub const _POSIX2_BC_STRING_MAX: u32 = 1000; pub const _POSIX2_COLL_WEIGHTS_MAX: u32 = 2; pub const _POSIX2_EXPR_NEST_MAX: u32 = 32; pub const _POSIX2_LINE_MAX: u32 = 2048; pub const _POSIX2_RE_DUP_MAX: u32 = 255; pub const _POSIX2_CHARCLASS_NAME_MAX: u32 = 14; pub const BC_BASE_MAX: u32 = 99; pub const BC_DIM_MAX: u32 = 2048; pub const BC_SCALE_MAX: u32 = 99; pub const BC_STRING_MAX: u32 = 1000; pub const COLL_WEIGHTS_MAX: u32 = 255; pub const EXPR_NEST_MAX: u32 = 32; pub const LINE_MAX: u32 = 2048; pub const CHARCLASS_NAME_MAX: u32 = 2048; pub const RE_DUP_MAX: u32 = 32767; pub const _XOPEN_LIM_H: u32 = 1; pub const _XOPEN_IOV_MAX: u32 = 16; pub const _BITS_UIO_LIM_H: u32 = 1; pub const __IOV_MAX: u32 = 1024; pub const IOV_MAX: u32 = 1024; pub const NL_ARGMAX: u32 = 4096; pub const NL_LANGMAX: u32 = 2048; pub const NZERO: u32 = 20; pub const WORD_BIT: u32 = 32; pub const LONG_BIT: u32 = 64; pub const true_: u32 = 1; pub const false_: u32 = 0; pub const __bool_true_false_are_defined: u32 = 1; pub const _BYTESWAP_H: u32 = 1; pub const _BITS_BYTESWAP_H: u32 = 1; pub const _NETINET_IN_H: u32 = 1; pub const _SYS_SOCKET_H: u32 = 1; pub const __iovec_defined: u32 = 1; pub const _SYS_TYPES_H: u32 = 1; pub const __clockid_t_defined: u32 = 1; pub const __timer_t_defined: u32 = 1; pub const __BIT_TYPES_DEFINED__: u32 = 1; pub const PF_UNSPEC: u32 = 0; pub const PF_LOCAL: u32 = 1; pub const PF_UNIX: u32 = 1; pub const PF_FILE: u32 = 1; pub const PF_INET: u32 = 2; pub const PF_AX25: u32 = 3; pub const PF_IPX: u32 = 4; pub const PF_APPLETALK: u32 = 5; pub const PF_NETROM: u32 = 6; pub const PF_BRIDGE: u32 = 7; pub const PF_ATMPVC: u32 = 8; pub const PF_X25: u32 = 9; pub const PF_INET6: u32 = 10; pub const PF_ROSE: u32 = 11; pub const PF_DECnet: u32 = 12; pub const PF_NETBEUI: u32 = 13; pub const PF_SECURITY: u32 = 14; pub const PF_KEY: u32 = 15; pub const PF_NETLINK: u32 = 16; pub const PF_ROUTE: u32 = 16; pub const PF_PACKET: u32 = 17; pub const PF_ASH: u32 = 18; pub const PF_ECONET: u32 = 19; pub const PF_ATMSVC: u32 = 20; pub const PF_RDS: u32 = 21; pub const PF_SNA: u32 = 22; pub const PF_IRDA: u32 = 23; pub const PF_PPPOX: u32 = 24; pub const PF_WANPIPE: u32 = 25; pub const PF_LLC: u32 = 26; pub const PF_IB: u32 = 27; pub const PF_MPLS: u32 = 28; pub const PF_CAN: u32 = 29; pub const PF_TIPC: u32 = 30; pub const PF_BLUETOOTH: u32 = 31; pub const PF_IUCV: u32 = 32; pub const PF_RXRPC: u32 = 33; pub const PF_ISDN: u32 = 34; pub const PF_PHONET: u32 = 35; pub const PF_IEEE802154: u32 = 36; pub const PF_CAIF: u32 = 37; pub const PF_ALG: u32 = 38; pub const PF_NFC: u32 = 39; pub const PF_VSOCK: u32 = 40; pub const PF_KCM: u32 = 41; pub const PF_QIPCRTR: u32 = 42; pub const PF_SMC: u32 = 43; pub const PF_XDP: u32 = 44; pub const PF_MAX: u32 = 45; pub const AF_UNSPEC: u32 = 0; pub const AF_LOCAL: u32 = 1; pub const AF_UNIX: u32 = 1; pub const AF_FILE: u32 = 1; pub const AF_INET: u32 = 2; pub const AF_AX25: u32 = 3; pub const AF_IPX: u32 = 4; pub const AF_APPLETALK: u32 = 5; pub const AF_NETROM: u32 = 6; pub const AF_BRIDGE: u32 = 7; pub const AF_ATMPVC: u32 = 8; pub const AF_X25: u32 = 9; pub const AF_INET6: u32 = 10; pub const AF_ROSE: u32 = 11; pub const AF_DECnet: u32 = 12; pub const AF_NETBEUI: u32 = 13; pub const AF_SECURITY: u32 = 14; pub const AF_KEY: u32 = 15; pub const AF_NETLINK: u32 = 16; pub const AF_ROUTE: u32 = 16; pub const AF_PACKET: u32 = 17; pub const AF_ASH: u32 = 18; pub const AF_ECONET: u32 = 19; pub const AF_ATMSVC: u32 = 20; pub const AF_RDS: u32 = 21; pub const AF_SNA: u32 = 22; pub const AF_IRDA: u32 = 23; pub const AF_PPPOX: u32 = 24; pub const AF_WANPIPE: u32 = 25; pub const AF_LLC: u32 = 26; pub const AF_IB: u32 = 27; pub const AF_MPLS: u32 = 28; pub const AF_CAN: u32 = 29; pub const AF_TIPC: u32 = 30; pub const AF_BLUETOOTH: u32 = 31; pub const AF_IUCV: u32 = 32; pub const AF_RXRPC: u32 = 33; pub const AF_ISDN: u32 = 34; pub const AF_PHONET: u32 = 35; pub const AF_IEEE802154: u32 = 36; pub const AF_CAIF: u32 = 37; pub const AF_ALG: u32 = 38; pub const AF_NFC: u32 = 39; pub const AF_VSOCK: u32 = 40; pub const AF_KCM: u32 = 41; pub const AF_QIPCRTR: u32 = 42; pub const AF_SMC: u32 = 43; pub const AF_XDP: u32 = 44; pub const AF_MAX: u32 = 45; pub const SOL_RAW: u32 = 255; pub const SOL_DECNET: u32 = 261; pub const SOL_X25: u32 = 262; pub const SOL_PACKET: u32 = 263; pub const SOL_ATM: u32 = 264; pub const SOL_AAL: u32 = 265; pub const SOL_IRDA: u32 = 266; pub const SOL_NETBEUI: u32 = 267; pub const SOL_LLC: u32 = 268; pub const SOL_DCCP: u32 = 269; pub const SOL_NETLINK: u32 = 270; pub const SOL_TIPC: u32 = 271; pub const SOL_RXRPC: u32 = 272; pub const SOL_PPPOL2TP: u32 = 273; pub const SOL_BLUETOOTH: u32 = 274; pub const SOL_PNPIPE: u32 = 275; pub const SOL_RDS: u32 = 276; pub const SOL_IUCV: u32 = 277; pub const SOL_CAIF: u32 = 278; pub const SOL_ALG: u32 = 279; pub const SOL_NFC: u32 = 280; pub const SOL_KCM: u32 = 281; pub const SOL_TLS: u32 = 282; pub const SOL_XDP: u32 = 283; pub const SOMAXCONN: u32 = 4096; pub const _BITS_SOCKADDR_H: u32 = 1; pub const _SS_SIZE: u32 = 128; pub const SO_DEBUG: u32 = 1; pub const SOL_SOCKET: u32 = 1; pub const SO_ACCEPTCONN: u32 = 30; pub const SO_BROADCAST: u32 = 6; pub const SO_DONTROUTE: u32 = 5; pub const SO_ERROR: u32 = 4; pub const SO_KEEPALIVE: u32 = 9; pub const SO_LINGER: u32 = 13; pub const SO_OOBINLINE: u32 = 10; pub const SO_RCVBUF: u32 = 8; pub const SO_RCVLOWAT: u32 = 18; pub const SO_RCVTIMEO: u32 = 20; pub const SO_REUSEADDR: u32 = 2; pub const SO_SNDBUF: u32 = 7; pub const SO_SNDLOWAT: u32 = 19; pub const SO_SNDTIMEO: u32 = 21; pub const SO_TYPE: u32 = 3; pub const __USE_KERNEL_IPV6_DEFS: u32 = 0; pub const IP_OPTIONS: u32 = 4; pub const IP_HDRINCL: u32 = 3; pub const IP_TOS: u32 = 1; pub const IP_TTL: u32 = 2; pub const IP_RECVOPTS: u32 = 6; pub const IP_RETOPTS: u32 = 7; pub const IP_MULTICAST_IF: u32 = 32; pub const IP_MULTICAST_TTL: u32 = 33; pub const IP_MULTICAST_LOOP: u32 = 34; pub const IP_ADD_MEMBERSHIP: u32 = 35; pub const IP_DROP_MEMBERSHIP: u32 = 36; pub const IP_UNBLOCK_SOURCE: u32 = 37; pub const IP_BLOCK_SOURCE: u32 = 38; pub const IP_ADD_SOURCE_MEMBERSHIP: u32 = 39; pub const IP_DROP_SOURCE_MEMBERSHIP: u32 = 40; pub const IP_MSFILTER: u32 = 41; pub const IP_ROUTER_ALERT: u32 = 5; pub const IP_PKTINFO: u32 = 8; pub const IP_PKTOPTIONS: u32 = 9; pub const IP_PMTUDISC: u32 = 10; pub const IP_MTU_DISCOVER: u32 = 10; pub const IP_RECVERR: u32 = 11; pub const IP_RECVTTL: u32 = 12; pub const IP_RECVTOS: u32 = 13; pub const IP_MTU: u32 = 14; pub const IP_FREEBIND: u32 = 15; pub const IP_IPSEC_POLICY: u32 = 16; pub const IP_XFRM_POLICY: u32 = 17; pub const IP_PASSSEC: u32 = 18; pub const IP_TRANSPARENT: u32 = 19; pub const IP_MULTICAST_ALL: u32 = 49; pub const IP_ORIGDSTADDR: u32 = 20; pub const IP_RECVORIGDSTADDR: u32 = 20; pub const IP_MINTTL: u32 = 21; pub const IP_NODEFRAG: u32 = 22; pub const IP_CHECKSUM: u32 = 23; pub const IP_BIND_ADDRESS_NO_PORT: u32 = 24; pub const IP_RECVFRAGSIZE: u32 = 25; pub const IP_PMTUDISC_DONT: u32 = 0; pub const IP_PMTUDISC_WANT: u32 = 1; pub const IP_PMTUDISC_DO: u32 = 2; pub const IP_PMTUDISC_PROBE: u32 = 3; pub const IP_PMTUDISC_INTERFACE: u32 = 4; pub const IP_PMTUDISC_OMIT: u32 = 5; pub const IP_UNICAST_IF: u32 = 50; pub const SOL_IP: u32 = 0; pub const IP_DEFAULT_MULTICAST_TTL: u32 = 1; pub const IP_DEFAULT_MULTICAST_LOOP: u32 = 1; pub const IP_MAX_MEMBERSHIPS: u32 = 20; pub const IPV6_ADDRFORM: u32 = 1; pub const IPV6_2292PKTINFO: u32 = 2; pub const IPV6_2292HOPOPTS: u32 = 3; pub const IPV6_2292DSTOPTS: u32 = 4; pub const IPV6_2292RTHDR: u32 = 5; pub const IPV6_2292PKTOPTIONS: u32 = 6; pub const IPV6_CHECKSUM: u32 = 7; pub const IPV6_2292HOPLIMIT: u32 = 8; pub const IPV6_NEXTHOP: u32 = 9; pub const IPV6_AUTHHDR: u32 = 10; pub const IPV6_UNICAST_HOPS: u32 = 16; pub const IPV6_MULTICAST_IF: u32 = 17; pub const IPV6_MULTICAST_HOPS: u32 = 18; pub const IPV6_MULTICAST_LOOP: u32 = 19; pub const IPV6_JOIN_GROUP: u32 = 20; pub const IPV6_LEAVE_GROUP: u32 = 21; pub const IPV6_ROUTER_ALERT: u32 = 22; pub const IPV6_MTU_DISCOVER: u32 = 23; pub const IPV6_MTU: u32 = 24; pub const IPV6_RECVERR: u32 = 25; pub const IPV6_V6ONLY: u32 = 26; pub const IPV6_JOIN_ANYCAST: u32 = 27; pub const IPV6_LEAVE_ANYCAST: u32 = 28; pub const IPV6_MULTICAST_ALL: u32 = 29; pub const IPV6_ROUTER_ALERT_ISOLATE: u32 = 30; pub const IPV6_IPSEC_POLICY: u32 = 34; pub const IPV6_XFRM_POLICY: u32 = 35; pub const IPV6_HDRINCL: u32 = 36; pub const IPV6_RECVPKTINFO: u32 = 49; pub const IPV6_PKTINFO: u32 = 50; pub const IPV6_RECVHOPLIMIT: u32 = 51; pub const IPV6_HOPLIMIT: u32 = 52; pub const IPV6_RECVHOPOPTS: u32 = 53; pub const IPV6_HOPOPTS: u32 = 54; pub const IPV6_RTHDRDSTOPTS: u32 = 55; pub const IPV6_RECVRTHDR: u32 = 56; pub const IPV6_RTHDR: u32 = 57; pub const IPV6_RECVDSTOPTS: u32 = 58; pub const IPV6_DSTOPTS: u32 = 59; pub const IPV6_RECVPATHMTU: u32 = 60; pub const IPV6_PATHMTU: u32 = 61; pub const IPV6_DONTFRAG: u32 = 62; pub const IPV6_RECVTCLASS: u32 = 66; pub const IPV6_TCLASS: u32 = 67; pub const IPV6_AUTOFLOWLABEL: u32 = 70; pub const IPV6_ADDR_PREFERENCES: u32 = 72; pub const IPV6_MINHOPCOUNT: u32 = 73; pub const IPV6_ORIGDSTADDR: u32 = 74; pub const IPV6_RECVORIGDSTADDR: u32 = 74; pub const IPV6_TRANSPARENT: u32 = 75; pub const IPV6_UNICAST_IF: u32 = 76; pub const IPV6_RECVFRAGSIZE: u32 = 77; pub const IPV6_FREEBIND: u32 = 78; pub const IPV6_ADD_MEMBERSHIP: u32 = 20; pub const IPV6_DROP_MEMBERSHIP: u32 = 21; pub const IPV6_RXHOPOPTS: u32 = 54; pub const IPV6_RXDSTOPTS: u32 = 59; pub const IPV6_PMTUDISC_DONT: u32 = 0; pub const IPV6_PMTUDISC_WANT: u32 = 1; pub const IPV6_PMTUDISC_DO: u32 = 2; pub const IPV6_PMTUDISC_PROBE: u32 = 3; pub const IPV6_PMTUDISC_INTERFACE: u32 = 4; pub const IPV6_PMTUDISC_OMIT: u32 = 5; pub const SOL_IPV6: u32 = 41; pub const SOL_ICMPV6: u32 = 58; pub const IPV6_RTHDR_LOOSE: u32 = 0; pub const IPV6_RTHDR_STRICT: u32 = 1; pub const IPV6_RTHDR_TYPE_0: u32 = 0; pub const IN_CLASSA_NET: u32 = 4278190080; pub const IN_CLASSA_NSHIFT: u32 = 24; pub const IN_CLASSA_HOST: u32 = 16777215; pub const IN_CLASSA_MAX: u32 = 128; pub const IN_CLASSB_NET: u32 = 4294901760; pub const IN_CLASSB_NSHIFT: u32 = 16; pub const IN_CLASSB_HOST: u32 = 65535; pub const IN_CLASSB_MAX: u32 = 65536; pub const IN_CLASSC_NET: u32 = 4294967040; pub const IN_CLASSC_NSHIFT: u32 = 8; pub const IN_CLASSC_HOST: u32 = 255; pub const IN_LOOPBACKNET: u32 = 127; pub const INET_ADDRSTRLEN: u32 = 16; pub const INET6_ADDRSTRLEN: u32 = 46; pub const _ENDIAN_H: u32 = 1; pub const _BITS_UINTN_IDENTITY_H: u32 = 1; pub const NCKEY_ESC: u32 = 27; pub const NCKEY_SPACE: u32 = 32; pub const CHANNEL_ALPHA_MASK: u32 = 805306368; pub const CELL_ALPHA_HIGHCONTRAST: u32 = 805306368; pub const CELL_ALPHA_TRANSPARENT: u32 = 536870912; pub const CELL_ALPHA_BLEND: u32 = 268435456; pub const CELL_ALPHA_OPAQUE: u32 = 0; pub const CELL_WIDEASIAN_MASK: i64 = -9223372036854775808; pub const CELL_NOBACKGROUND_MASK: u64 = 288230376151711744; pub const CELL_BGDEFAULT_MASK: u32 = 1073741824; pub const CELL_FGDEFAULT_MASK: u64 = 4611686018427387904; pub const CELL_BG_RGB_MASK: u32 = 16777215; pub const CELL_FG_RGB_MASK: u64 = 72057589742960640; pub const CELL_BG_PALETTE: u32 = 134217728; pub const NCPALETTESIZE: u32 = 256; pub const CELL_FG_PALETTE: u64 = 576460752303423488; pub const CELL_BG_ALPHA_MASK: u32 = 805306368; pub const CELL_FG_ALPHA_MASK: u64 = 3458764513820540928; pub const NCSTYLE_MASK: u32 = 65535; pub const NCSTYLE_STANDOUT: u32 = 128; pub const NCSTYLE_UNDERLINE: u32 = 64; pub const NCSTYLE_REVERSE: u32 = 32; pub const NCSTYLE_BLINK: u32 = 16; pub const NCSTYLE_DIM: u32 = 8; pub const NCSTYLE_BOLD: u32 = 4; pub const NCSTYLE_INVIS: u32 = 2; pub const NCSTYLE_PROTECT: u32 = 1; pub const NCSTYLE_ITALIC: u32 = 256; pub const NCSTYLE_STRUCK: u32 = 512; pub const NCSTYLE_NONE: u32 = 0; pub const NCOPTION_INHIBIT_SETLOCALE: u32 = 1; pub const NCOPTION_VERIFY_SIXEL: u32 = 2; pub const NCOPTION_NO_WINCH_SIGHANDLER: u32 = 4; pub const NCOPTION_NO_QUIT_SIGHANDLERS: u32 = 8; pub const NCOPTION_SUPPRESS_BANNERS: u32 = 32; pub const NCOPTION_NO_ALTERNATE_SCREEN: u32 = 64; pub const NCOPTION_NO_FONT_CHANGES: u32 = 128; pub const NCPLANE_OPTION_HORALIGNED: u32 = 1; pub const WCHAR_MAX_UTF8BYTES: u32 = 6; pub const NCBOXMASK_TOP: u32 = 1; pub const NCBOXMASK_RIGHT: u32 = 2; pub const NCBOXMASK_BOTTOM: u32 = 4; pub const NCBOXMASK_LEFT: u32 = 8; pub const NCBOXGRAD_TOP: u32 = 16; pub const NCBOXGRAD_RIGHT: u32 = 32; pub const NCBOXGRAD_BOTTOM: u32 = 64; pub const NCBOXGRAD_LEFT: u32 = 128; pub const NCBOXCORNER_MASK: u32 = 768; pub const NCBOXCORNER_SHIFT: u32 = 8; pub const NCVISUAL_OPTION_NODEGRADE: u32 = 1; pub const NCVISUAL_OPTION_BLEND: u32 = 2; pub const NCREEL_OPTION_INFINITESCROLL: u32 = 1; pub const NCREEL_OPTION_CIRCULAR: u32 = 2; pub const PREFIXCOLUMNS: u32 = 7; pub const IPREFIXCOLUMNS: u32 = 8; pub const BPREFIXCOLUMNS: u32 = 9; pub const PREFIXSTRLEN: u32 = 8; pub const IPREFIXSTRLEN: u32 = 9; pub const BPREFIXSTRLEN: u32 = 10; pub const NCMENU_OPTION_BOTTOM: u32 = 1; pub const NCMENU_OPTION_HIDING: u32 = 2; pub const NCPLOT_OPTION_LABELTICKSD: u32 = 1; pub const NCPLOT_OPTION_EXPONENTIALD: u32 = 2; pub const NCPLOT_OPTION_VERTICALI: u32 = 4; pub const NCPLOT_OPTION_NODEGRADE: u32 = 8; pub const NCPLOT_OPTION_DETECTMAXONLY: u32 = 16; pub const NCREADER_OPTION_HORSCROLL: u32 = 1; pub const NCREADER_OPTION_VERSCROLL: u32 = 2; pub const NCREADER_OPTION_NOCMDKEYS: u32 = 4; pub const NCREADER_OPTION_CURSOR: u32 = 8; pub const NCDIRECT_OPTION_INHIBIT_SETLOCALE: u32 = 1; pub const NCDIRECT_OPTION_INHIBIT_CBREAK: u32 = 2; pub type size_t = cty::c_ulong; #[doc = " Convenience types."] pub type __u_char = cty::c_uchar; pub type __u_short = cty::c_ushort; pub type __u_int = cty::c_uint; pub type __u_long = cty::c_ulong; #[doc = " Fixed-size types, underlying types depend on word size and compiler."] pub type __int8_t = cty::c_schar; pub type __uint8_t = cty::c_uchar; pub type __int16_t = cty::c_short; pub type __uint16_t = cty::c_ushort; pub type __int32_t = cty::c_int; pub type __uint32_t = cty::c_uint; pub type __int64_t = cty::c_long; pub type __uint64_t = cty::c_ulong; #[doc = " Smallest types with at least a given width."] pub type __int_least8_t = __int8_t; pub type __uint_least8_t = __uint8_t; pub type __int_least16_t = __int16_t; pub type __uint_least16_t = __uint16_t; pub type __int_least32_t = __int32_t; pub type __uint_least32_t = __uint32_t; pub type __int_least64_t = __int64_t; pub type __uint_least64_t = __uint64_t; pub type __quad_t = cty::c_long; pub type __u_quad_t = cty::c_ulong; pub type __intmax_t = cty::c_long; pub type __uintmax_t = cty::c_ulong; pub type __dev_t = cty::c_ulong; pub type __uid_t = cty::c_uint; pub type __gid_t = cty::c_uint; pub type __ino_t = cty::c_ulong; pub type __ino64_t = cty::c_ulong; pub type __mode_t = cty::c_uint; pub type __nlink_t = cty::c_ulong; pub type __off_t = cty::c_long; pub type __off64_t = cty::c_long; pub type __pid_t = cty::c_int; #[repr(C)] #[derive(Debug, Copy, Clone)] pub struct __fsid_t { pub __val: [cty::c_int; 2usize], } #[test] fn bindgen_test_layout___fsid_t() { assert_eq!( ::core::mem::size_of::<__fsid_t>(), 8usize, concat!("Size of: ", stringify!(__fsid_t)) ); assert_eq!( ::core::mem::align_of::<__fsid_t>(), 4usize, concat!("Alignment of ", stringify!(__fsid_t)) ); assert_eq!( unsafe { &(*(::core::ptr::null::<__fsid_t>())).__val as *const _ as usize }, 0usize, concat!( "Offset of field: ", stringify!(__fsid_t), "::", stringify!(__val) ) ); } pub type __clock_t = cty::c_long; pub type __rlim_t = cty::c_ulong; pub type __rlim64_t = cty::c_ulong; pub type __id_t = cty::c_uint; pub type __time_t = cty::c_long; pub type __useconds_t = cty::c_uint; pub type __suseconds_t = cty::c_long; pub type __daddr_t = cty::c_int; pub type __key_t = cty::c_int; pub type __clockid_t = cty::c_int; pub type __timer_t = *mut cty::c_void; pub type __blksize_t = cty::c_long; pub type __blkcnt_t = cty::c_long; pub type __blkcnt64_t = cty::c_long; pub type __fsblkcnt_t = cty::c_ulong; pub type __fsblkcnt64_t = cty::c_ulong; pub type __fsfilcnt_t = cty::c_ulong; pub type __fsfilcnt64_t = cty::c_ulong; pub type __fsword_t = cty::c_long; pub type __ssize_t = cty::c_long; pub type __syscall_slong_t = cty::c_long; pub type __syscall_ulong_t = cty::c_ulong; #[doc = " These few don't really vary by system, they always correspond"] #[doc = "to one of the other defined types."] pub type __loff_t = __off64_t; pub type __caddr_t = *mut cty::c_char; pub type __intptr_t = cty::c_long; pub type __socklen_t = cty::c_uint; #[doc = " C99: An integer type that can be accessed as an atomic entity,"] #[doc = "even in the presence of asynchronous interrupts."] #[doc = "It is not currently necessary for this to be machine-specific."] pub type __sig_atomic_t = cty::c_int; extern "C" { #[doc = " Even though CLOCKS_PER_SEC has such a strange value CLK_TCK"] #[doc = "presents the real value for clock ticks per second for the system."] pub fn __sysconf(arg1: cty::c_int) -> cty::c_long; } #[doc = " Returned by `clock'."] pub type clock_t = __clock_t; #[doc = " Returned by `time'."] pub type time_t = __time_t; #[doc = " ISO C `broken-down time' structure."] #[repr(C)] #[derive(Debug, Copy, Clone)] pub struct tm { #[doc = " Seconds.\t[0-60] (1 leap second)"] pub tm_sec: cty::c_int, #[doc = " Minutes.\t[0-59]"] pub tm_min: cty::c_int, #[doc = " Hours.\t[0-23]"] pub tm_hour: cty::c_int, #[doc = " Day.\t\t[1-31]"] pub tm_mday: cty::c_int, #[doc = " Month.\t[0-11]"] pub tm_mon: cty::c_int, #[doc = " Year\t- 1900."] pub tm_year: cty::c_int, #[doc = " Day of week.\t[0-6]"] pub tm_wday: cty::c_int, #[doc = " Days in year.[0-365]"] pub tm_yday: cty::c_int, #[doc = " DST.\t\t[-1/0/1]"] pub tm_isdst: cty::c_int, #[doc = " Seconds east of UTC."] pub __tm_gmtoff: cty::c_long, #[doc = " Timezone abbreviation."] pub __tm_zone: *const cty::c_char, } #[test] fn bindgen_test_layout_tm() { assert_eq!( ::core::mem::size_of::(), 56usize, concat!("Size of: ", stringify!(tm)) ); assert_eq!( ::core::mem::align_of::(), 8usize, concat!("Alignment of ", stringify!(tm)) ); assert_eq!( unsafe { &(*(::core::ptr::null::())).tm_sec as *const _ as usize }, 0usize, concat!( "Offset of field: ", stringify!(tm), "::", stringify!(tm_sec) ) ); assert_eq!( unsafe { &(*(::core::ptr::null::())).tm_min as *const _ as usize }, 4usize, concat!( "Offset of field: ", stringify!(tm), "::", stringify!(tm_min) ) ); assert_eq!( unsafe { &(*(::core::ptr::null::())).tm_hour as *const _ as usize }, 8usize, concat!( "Offset of field: ", stringify!(tm), "::", stringify!(tm_hour) ) ); assert_eq!( unsafe { &(*(::core::ptr::null::())).tm_mday as *const _ as usize }, 12usize, concat!( "Offset of field: ", stringify!(tm), "::", stringify!(tm_mday) ) ); assert_eq!( unsafe { &(*(::core::ptr::null::())).tm_mon as *const _ as usize }, 16usize, concat!( "Offset of field: ", stringify!(tm), "::", stringify!(tm_mon) ) ); assert_eq!( unsafe { &(*(::core::ptr::null::())).tm_year as *const _ as usize }, 20usize, concat!( "Offset of field: ", stringify!(tm), "::", stringify!(tm_year) ) ); assert_eq!( unsafe { &(*(::core::ptr::null::())).tm_wday as *const _ as usize }, 24usize, concat!( "Offset of field: ", stringify!(tm), "::", stringify!(tm_wday) ) ); assert_eq!( unsafe { &(*(::core::ptr::null::())).tm_yday as *const _ as usize }, 28usize, concat!( "Offset of field: ", stringify!(tm), "::", stringify!(tm_yday) ) ); assert_eq!( unsafe { &(*(::core::ptr::null::())).tm_isdst as *const _ as usize }, 32usize, concat!( "Offset of field: ", stringify!(tm), "::", stringify!(tm_isdst) ) ); assert_eq!( unsafe { &(*(::core::ptr::null::())).__tm_gmtoff as *const _ as usize }, 40usize, concat!( "Offset of field: ", stringify!(tm), "::", stringify!(__tm_gmtoff) ) ); assert_eq!( unsafe { &(*(::core::ptr::null::())).__tm_zone as *const _ as usize }, 48usize, concat!( "Offset of field: ", stringify!(tm), "::", stringify!(__tm_zone) ) ); } #[doc = " POSIX.1b structure for a time value. This is like a `struct timeval' but"] #[doc = "has nanoseconds instead of microseconds."] #[repr(C)] #[derive(Debug, Copy, Clone)] pub struct timespec { #[doc = " Seconds."] pub tv_sec: __time_t, #[doc = " Nanoseconds."] pub tv_nsec: __syscall_slong_t, } #[test] fn bindgen_test_layout_timespec() { assert_eq!( ::core::mem::size_of::(), 16usize, concat!("Size of: ", stringify!(timespec)) ); assert_eq!( ::core::mem::align_of::(), 8usize, concat!("Alignment of ", stringify!(timespec)) ); assert_eq!( unsafe { &(*(::core::ptr::null::())).tv_sec as *const _ as usize }, 0usize, concat!( "Offset of field: ", stringify!(timespec), "::", stringify!(tv_sec) ) ); assert_eq!( unsafe { &(*(::core::ptr::null::())).tv_nsec as *const _ as usize }, 8usize, concat!( "Offset of field: ", stringify!(timespec), "::", stringify!(tv_nsec) ) ); } extern "C" { #[doc = " Time used by the program so far (user time + system time)."] #[doc = "The result / CLOCKS_PER_SEC is program time in seconds."] pub fn clock() -> clock_t; } extern "C" { #[doc = " Return the current time and put it in *TIMER if TIMER is not NULL."] pub fn time(__timer: *mut time_t) -> time_t; } extern "C" { #[doc = " Return the difference between TIME1 and TIME0."] pub fn difftime(__time1: time_t, __time0: time_t) -> f64; } extern "C" { #[doc = " Return the `time_t' representation of TP and normalize TP."] pub fn mktime(__tp: *mut tm) -> time_t; } extern "C" { #[doc = " Format TP into S according to FORMAT."] #[doc = "Write no more than MAXSIZE characters and return the number"] #[doc = "of characters written, or 0 if it would exceed MAXSIZE."] pub fn strftime( __s: *mut cty::c_char, __maxsize: size_t, __format: *const cty::c_char, __tp: *const tm, ) -> size_t; } extern "C" { #[doc = " Parse S according to FORMAT and store binary time information in TP."] #[doc = "The return value is a pointer to the first unparsed character in S."] pub fn strptime( __s: *const cty::c_char, __fmt: *const cty::c_char, __tp: *mut tm, ) -> *mut cty::c_char; } extern "C" { #[doc = " Return the `struct tm' representation of *TIMER"] #[doc = "in Universal Coordinated Time (aka Greenwich Mean Time)."] pub fn gmtime(__timer: *const time_t) -> *mut tm; } extern "C" { #[doc = " Return the `struct tm' representation"] #[doc = "of *TIMER in the local timezone."] pub fn localtime(__timer: *const time_t) -> *mut tm; } extern "C" { #[doc = " Return the `struct tm' representation of *TIMER in UTC,"] #[doc = "using *TP to store the result."] pub fn gmtime_r(__timer: *const time_t, __tp: *mut tm) -> *mut tm; } extern "C" { #[doc = " Return the `struct tm' representation of *TIMER in local time,"] #[doc = "using *TP to store the result."] pub fn localtime_r(__timer: *const time_t, __tp: *mut tm) -> *mut tm; } extern "C" { #[doc = " Return a string of the form \"Day Mon dd hh:mm:ss yyyy\\n\""] #[doc = "that is the representation of TP in this format."] pub fn asctime(__tp: *const tm) -> *mut cty::c_char; } extern "C" { #[doc = " Equivalent to `asctime (localtime (timer))'."] pub fn ctime(__timer: *const time_t) -> *mut cty::c_char; } extern "C" { #[doc = " Return in BUF a string of the form \"Day Mon dd hh:mm:ss yyyy\\n\""] #[doc = "that is the representation of TP in this format."] pub fn asctime_r(__tp: *const tm, __buf: *mut cty::c_char) -> *mut cty::c_char; } extern "C" { #[doc = " Equivalent to `asctime_r (localtime_r (timer, *TMP*), buf)'."] pub fn ctime_r(__timer: *const time_t, __buf: *mut cty::c_char) -> *mut cty::c_char; } extern "C" { pub static mut __tzname: [*mut cty::c_char; 2usize]; } extern "C" { pub static mut __daylight: cty::c_int; } extern "C" { pub static mut __timezone: cty::c_long; } extern "C" { pub static mut tzname: [*mut cty::c_char; 2usize]; } extern "C" { #[doc = " Set time conversion information from the TZ environment variable."] #[doc = "If TZ is not defined, a locale-dependent default is used."] pub fn tzset(); } extern "C" { pub static mut daylight: cty::c_int; } extern "C" { pub static mut timezone: cty::c_long; } extern "C" { #[doc = " Set TS to calendar time based in time base BASE."] pub fn timespec_get(__ts: *mut timespec, __base: cty::c_int) -> cty::c_int; } #[doc = " Conversion state information."] #[repr(C)] #[derive(Copy, Clone)] pub struct __mbstate_t { pub __count: cty::c_int, #[doc = " Value so far."] pub __value: __mbstate_t__bindgen_ty_1, } #[repr(C)] #[derive(Copy, Clone)] pub union __mbstate_t__bindgen_ty_1 { pub __wch: cty::c_uint, pub __wchb: [cty::c_char; 4usize], _bindgen_union_align: u32, } #[test] fn bindgen_test_layout___mbstate_t__bindgen_ty_1() { assert_eq!( ::core::mem::size_of::<__mbstate_t__bindgen_ty_1>(), 4usize, concat!("Size of: ", stringify!(__mbstate_t__bindgen_ty_1)) ); assert_eq!( ::core::mem::align_of::<__mbstate_t__bindgen_ty_1>(), 4usize, concat!("Alignment of ", stringify!(__mbstate_t__bindgen_ty_1)) ); assert_eq!( unsafe { &(*(::core::ptr::null::<__mbstate_t__bindgen_ty_1>())).__wch as *const _ as usize }, 0usize, concat!( "Offset of field: ", stringify!(__mbstate_t__bindgen_ty_1), "::", stringify!(__wch) ) ); assert_eq!( unsafe { &(*(::core::ptr::null::<__mbstate_t__bindgen_ty_1>())).__wchb as *const _ as usize }, 0usize, concat!( "Offset of field: ", stringify!(__mbstate_t__bindgen_ty_1), "::", stringify!(__wchb) ) ); } #[test] fn bindgen_test_layout___mbstate_t() { assert_eq!( ::core::mem::size_of::<__mbstate_t>(), 8usize, concat!("Size of: ", stringify!(__mbstate_t)) ); assert_eq!( ::core::mem::align_of::<__mbstate_t>(), 4usize, concat!("Alignment of ", stringify!(__mbstate_t)) ); assert_eq!( unsafe { &(*(::core::ptr::null::<__mbstate_t>())).__count as *const _ as usize }, 0usize, concat!( "Offset of field: ", stringify!(__mbstate_t), "::", stringify!(__count) ) ); assert_eq!( unsafe { &(*(::core::ptr::null::<__mbstate_t>())).__value as *const _ as usize }, 4usize, concat!( "Offset of field: ", stringify!(__mbstate_t), "::", stringify!(__value) ) ); } pub type mbstate_t = __mbstate_t; #[doc = " Define the 16-bit and 32-bit character types."] pub type char16_t = __uint_least16_t; pub type char32_t = __uint_least32_t; extern "C" { #[doc = " Write char16_t representation of multibyte character pointed"] #[doc = "to by S to PC16."] pub fn mbrtoc16( __pc16: *mut char16_t, __s: *const cty::c_char, __n: size_t, __p: *mut mbstate_t, ) -> size_t; } extern "C" { #[doc = " Write multibyte representation of char16_t C16 to S."] pub fn c16rtomb(__s: *mut cty::c_char, __c16: char16_t, __ps: *mut mbstate_t) -> size_t; } extern "C" { #[doc = " Write char32_t representation of multibyte character pointed"] #[doc = "to by S to PC32."] pub fn mbrtoc32( __pc32: *mut char32_t, __s: *const cty::c_char, __n: size_t, __p: *mut mbstate_t, ) -> size_t; } extern "C" { #[doc = " Write multibyte representation of char32_t C32 to S."] pub fn c32rtomb(__s: *mut cty::c_char, __c32: char32_t, __ps: *mut mbstate_t) -> size_t; } #[doc = " UPPERCASE."] pub const _ISupper: cty::c_uint = 256; #[doc = " lowercase."] pub const _ISlower: cty::c_uint = 512; #[doc = " Alphabetic."] pub const _ISalpha: cty::c_uint = 1024; #[doc = " Numeric."] pub const _ISdigit: cty::c_uint = 2048; #[doc = " Hexadecimal numeric."] pub const _ISxdigit: cty::c_uint = 4096; #[doc = " Whitespace."] pub const _ISspace: cty::c_uint = 8192; #[doc = " Printing."] pub const _ISprint: cty::c_uint = 16384; #[doc = " Graphical."] pub const _ISgraph: cty::c_uint = 32768; #[doc = " Blank (usually SPC and TAB)."] pub const _ISblank: cty::c_uint = 1; #[doc = " Control character."] pub const _IScntrl: cty::c_uint = 2; #[doc = " Punctuation."] pub const _ISpunct: cty::c_uint = 4; #[doc = " Alphanumeric."] pub const _ISalnum: cty::c_uint = 8; pub type _bindgen_ty_1 = cty::c_uint; extern "C" { #[doc = " These are defined in ctype-info.c."] #[doc = "The declarations here must match those in localeinfo.h."] #[doc = ""] #[doc = "In the thread-specific locale model (see `uselocale' in )"] #[doc = "we cannot use global variables for these as was done in the past."] #[doc = "Instead, the following accessor functions return the address of"] #[doc = "each variable, which is local to the current thread if multithreaded."] #[doc = ""] #[doc = "These point into arrays of 384, so they can be indexed by any `unsigned"] #[doc = "char' value [0,255]; by EOF (-1); or by any `signed char' value"] #[doc = "[-128,-1). ISO C requires that the ctype functions work for `unsigned"] #[doc = "char' values and for EOF; we also support negative `signed char' values"] #[doc = "for broken old programs. The case conversion arrays are of `int's"] #[doc = "rather than `unsigned char's because tolower (EOF) must be EOF, which"] #[doc = "doesn't fit into an `unsigned char'. But today more important is that"] #[doc = "the arrays are also used for multi-byte character sets."] pub fn __ctype_b_loc() -> *mut *const cty::c_ushort; } extern "C" { pub fn __ctype_tolower_loc() -> *mut *const __int32_t; } extern "C" { pub fn __ctype_toupper_loc() -> *mut *const __int32_t; } extern "C" { pub fn isalnum(arg1: cty::c_int) -> cty::c_int; } extern "C" { pub fn isalpha(arg1: cty::c_int) -> cty::c_int; } extern "C" { pub fn iscntrl(arg1: cty::c_int) -> cty::c_int; } extern "C" { pub fn isdigit(arg1: cty::c_int) -> cty::c_int; } extern "C" { pub fn islower(arg1: cty::c_int) -> cty::c_int; } extern "C" { pub fn isgraph(arg1: cty::c_int) -> cty::c_int; } extern "C" { pub fn isprint(arg1: cty::c_int) -> cty::c_int; } extern "C" { pub fn ispunct(arg1: cty::c_int) -> cty::c_int; } extern "C" { pub fn isspace(arg1: cty::c_int) -> cty::c_int; } extern "C" { pub fn isupper(arg1: cty::c_int) -> cty::c_int; } extern "C" { pub fn isxdigit(arg1: cty::c_int) -> cty::c_int; } extern "C" { #[doc = " Return the lowercase version of C."] pub fn tolower(__c: cty::c_int) -> cty::c_int; } extern "C" { #[doc = " Return the uppercase version of C."] pub fn toupper(__c: cty::c_int) -> cty::c_int; } extern "C" { pub fn isblank(arg1: cty::c_int) -> cty::c_int; } extern "C" { #[doc = " Return nonzero iff C is in the ASCII set"] #[doc = "(i.e., is no more than 7 bits wide)."] pub fn isascii(__c: cty::c_int) -> cty::c_int; } extern "C" { #[doc = " Return the part of C that is in the ASCII set"] #[doc = "(i.e., the low-order 7 bits of C)."] pub fn toascii(__c: cty::c_int) -> cty::c_int; } extern "C" { pub fn _toupper(arg1: cty::c_int) -> cty::c_int; } extern "C" { pub fn _tolower(arg1: cty::c_int) -> cty::c_int; } pub type _Float32 = f32; pub type _Float64 = f64; pub type _Float32x = f64; pub type _Float64x = u128; pub type wchar_t = cty::c_int; pub type va_list = __builtin_va_list; pub type __gnuc_va_list = __builtin_va_list; pub type wint_t = cty::c_uint; pub type __FILE = _IO_FILE; #[doc = " Scalar type that can hold values which represent locale-specific"] #[doc = "character classifications."] pub type wctype_t = cty::c_ulong; #[doc = " UPPERCASE."] pub const __ISwupper: cty::c_int = 0; #[doc = " lowercase."] pub const __ISwlower: cty::c_int = 1; #[doc = " Alphabetic."] pub const __ISwalpha: cty::c_int = 2; #[doc = " Numeric."] pub const __ISwdigit: cty::c_int = 3; #[doc = " Hexadecimal numeric."] pub const __ISwxdigit: cty::c_int = 4; #[doc = " Whitespace."] pub const __ISwspace: cty::c_int = 5; #[doc = " Printing."] pub const __ISwprint: cty::c_int = 6; #[doc = " Graphical."] pub const __ISwgraph: cty::c_int = 7; #[doc = " Blank (usually SPC and TAB)."] pub const __ISwblank: cty::c_int = 8; #[doc = " Control character."] pub const __ISwcntrl: cty::c_int = 9; #[doc = " Punctuation."] pub const __ISwpunct: cty::c_int = 10; #[doc = " Alphanumeric."] pub const __ISwalnum: cty::c_int = 11; #[doc = " UPPERCASE."] pub const _ISwupper: cty::c_int = 16777216; #[doc = " lowercase."] pub const _ISwlower: cty::c_int = 33554432; #[doc = " Alphabetic."] pub const _ISwalpha: cty::c_int = 67108864; #[doc = " Numeric."] pub const _ISwdigit: cty::c_int = 134217728; #[doc = " Hexadecimal numeric."] pub const _ISwxdigit: cty::c_int = 268435456; #[doc = " Whitespace."] pub const _ISwspace: cty::c_int = 536870912; #[doc = " Printing."] pub const _ISwprint: cty::c_int = 1073741824; #[doc = " Graphical."] pub const _ISwgraph: cty::c_int = -2147483648; #[doc = " Blank (usually SPC and TAB)."] pub const _ISwblank: cty::c_int = 65536; #[doc = " Control character."] pub const _ISwcntrl: cty::c_int = 131072; #[doc = " Punctuation."] pub const _ISwpunct: cty::c_int = 262144; #[doc = " Alphanumeric."] pub const _ISwalnum: cty::c_int = 524288; pub type _bindgen_ty_2 = cty::c_int; extern "C" { #[doc = " Test for any wide character for which `iswalpha' or `iswdigit' is"] #[doc = "true."] pub fn iswalnum(__wc: wint_t) -> cty::c_int; } extern "C" { #[doc = " Test for any wide character for which `iswupper' or 'iswlower' is"] #[doc = "true, or any wide character that is one of a locale-specific set of"] #[doc = "wide-characters for which none of `iswcntrl', `iswdigit',"] #[doc = "`iswpunct', or `iswspace' is true."] pub fn iswalpha(__wc: wint_t) -> cty::c_int; } extern "C" { #[doc = " Test for any control wide character."] pub fn iswcntrl(__wc: wint_t) -> cty::c_int; } extern "C" { #[doc = " Test for any wide character that corresponds to a decimal-digit"] #[doc = "character."] pub fn iswdigit(__wc: wint_t) -> cty::c_int; } extern "C" { #[doc = " Test for any wide character for which `iswprint' is true and"] #[doc = "`iswspace' is false."] pub fn iswgraph(__wc: wint_t) -> cty::c_int; } extern "C" { #[doc = " Test for any wide character that corresponds to a lowercase letter"] #[doc = "or is one of a locale-specific set of wide characters for which"] #[doc = "none of `iswcntrl', `iswdigit', `iswpunct', or `iswspace' is true."] pub fn iswlower(__wc: wint_t) -> cty::c_int; } extern "C" { #[doc = " Test for any printing wide character."] pub fn iswprint(__wc: wint_t) -> cty::c_int; } extern "C" { #[doc = " Test for any printing wide character that is one of a"] #[doc = "locale-specific et of wide characters for which neither `iswspace'"] #[doc = "nor `iswalnum' is true."] pub fn iswpunct(__wc: wint_t) -> cty::c_int; } extern "C" { #[doc = " Test for any wide character that corresponds to a locale-specific"] #[doc = "set of wide characters for which none of `iswalnum', `iswgraph', or"] #[doc = "`iswpunct' is true."] pub fn iswspace(__wc: wint_t) -> cty::c_int; } extern "C" { #[doc = " Test for any wide character that corresponds to an uppercase letter"] #[doc = "or is one of a locale-specific set of wide character for which none"] #[doc = "of `iswcntrl', `iswdigit', `iswpunct', or `iswspace' is true."] pub fn iswupper(__wc: wint_t) -> cty::c_int; } extern "C" { #[doc = " Test for any wide character that corresponds to a hexadecimal-digit"] #[doc = "character equivalent to that performed be the functions described"] #[doc = "in the previous subclause."] pub fn iswxdigit(__wc: wint_t) -> cty::c_int; } extern "C" { pub fn iswblank(__wc: wint_t) -> cty::c_int; } extern "C" { #[doc = " Construct value that describes a class of wide characters identified"] #[doc = "by the string argument PROPERTY."] pub fn wctype(__property: *const cty::c_char) -> wctype_t; } extern "C" { #[doc = " Determine whether the wide-character WC has the property described by"] #[doc = "DESC."] pub fn iswctype(__wc: wint_t, __desc: wctype_t) -> cty::c_int; } extern "C" { #[doc = " Converts an uppercase letter to the corresponding lowercase letter."] pub fn towlower(__wc: wint_t) -> wint_t; } extern "C" { #[doc = " Converts an lowercase letter to the corresponding uppercase letter."] pub fn towupper(__wc: wint_t) -> wint_t; } extern "C" { #[doc = " Copy SRC to DEST."] pub fn wcscpy(__dest: *mut wchar_t, __src: *const wchar_t) -> *mut wchar_t; } extern "C" { #[doc = " Copy no more than N wide-characters of SRC to DEST."] pub fn wcsncpy(__dest: *mut wchar_t, __src: *const wchar_t, __n: size_t) -> *mut wchar_t; } extern "C" { #[doc = " Append SRC onto DEST."] pub fn wcscat(__dest: *mut wchar_t, __src: *const wchar_t) -> *mut wchar_t; } extern "C" { #[doc = " Append no more than N wide-characters of SRC onto DEST."] pub fn wcsncat(__dest: *mut wchar_t, __src: *const wchar_t, __n: size_t) -> *mut wchar_t; } extern "C" { #[doc = " Compare S1 and S2."] pub fn wcscmp(__s1: *const cty::c_int, __s2: *const cty::c_int) -> cty::c_int; } extern "C" { #[doc = " Compare N wide-characters of S1 and S2."] pub fn wcsncmp( __s1: *const cty::c_int, __s2: *const cty::c_int, __n: cty::c_ulong, ) -> cty::c_int; } extern "C" { #[doc = " Compare S1 and S2, both interpreted as appropriate to the"] #[doc = "LC_COLLATE category of the current locale."] pub fn wcscoll(__s1: *const wchar_t, __s2: *const wchar_t) -> cty::c_int; } extern "C" { #[doc = " Transform S2 into array pointed to by S1 such that if wcscmp is"] #[doc = "applied to two transformed strings the result is the as applying"] #[doc = "`wcscoll' to the original strings."] pub fn wcsxfrm(__s1: *mut wchar_t, __s2: *const wchar_t, __n: size_t) -> size_t; } extern "C" { pub fn wcschr(__wcs: *const cty::c_int, __wc: cty::c_int) -> *mut cty::c_int; } extern "C" { pub fn wcsrchr(__wcs: *const wchar_t, __wc: wchar_t) -> *mut wchar_t; } extern "C" { #[doc = " Return the length of the initial segmet of WCS which"] #[doc = "consists entirely of wide characters not in REJECT."] pub fn wcscspn(__wcs: *const wchar_t, __reject: *const wchar_t) -> size_t; } extern "C" { #[doc = " Return the length of the initial segmet of WCS which"] #[doc = "consists entirely of wide characters in ACCEPT."] pub fn wcsspn(__wcs: *const wchar_t, __accept: *const wchar_t) -> size_t; } extern "C" { pub fn wcspbrk(__wcs: *const wchar_t, __accept: *const wchar_t) -> *mut wchar_t; } extern "C" { pub fn wcsstr(__haystack: *const wchar_t, __needle: *const wchar_t) -> *mut wchar_t; } extern "C" { #[doc = " Divide WCS into tokens separated by characters in DELIM."] pub fn wcstok( __s: *mut wchar_t, __delim: *const wchar_t, __ptr: *mut *mut wchar_t, ) -> *mut wchar_t; } extern "C" { #[doc = " Return the number of wide characters in S."] pub fn wcslen(__s: *const cty::c_int) -> cty::c_ulong; } extern "C" { pub fn wcswcs(__haystack: *const wchar_t, __needle: *const wchar_t) -> *mut wchar_t; } extern "C" { pub fn wmemchr(__s: *const cty::c_int, __c: cty::c_int, __n: cty::c_ulong) -> *mut cty::c_int; } extern "C" { #[doc = " Compare N wide characters of S1 and S2."] pub fn wmemcmp( __s1: *const cty::c_int, __s2: *const cty::c_int, __n: cty::c_ulong, ) -> cty::c_int; } extern "C" { #[doc = " Copy N wide characters of SRC to DEST."] pub fn wmemcpy( __s1: *mut cty::c_int, __s2: *const cty::c_int, __n: cty::c_ulong, ) -> *mut cty::c_int; } extern "C" { #[doc = " Copy N wide characters of SRC to DEST, guaranteeing"] #[doc = "correct behavior for overlapping strings."] pub fn wmemmove( __s1: *mut cty::c_int, __s2: *const cty::c_int, __n: cty::c_ulong, ) -> *mut cty::c_int; } extern "C" { #[doc = " Set N wide characters of S to C."] pub fn wmemset(__s: *mut wchar_t, __c: wchar_t, __n: size_t) -> *mut wchar_t; } extern "C" { #[doc = " Determine whether C constitutes a valid (one-byte) multibyte"] #[doc = "character."] pub fn btowc(__c: cty::c_int) -> wint_t; } extern "C" { #[doc = " Determine whether C corresponds to a member of the extended"] #[doc = "character set whose multibyte representation is a single byte."] pub fn wctob(__c: wint_t) -> cty::c_int; } extern "C" { #[doc = " Determine whether PS points to an object representing the initial"] #[doc = "state."] pub fn mbsinit(__ps: *const mbstate_t) -> cty::c_int; } extern "C" { #[doc = " Write wide character representation of multibyte character pointed"] #[doc = "to by S to PWC."] pub fn mbrtowc( __pwc: *mut wchar_t, __s: *const cty::c_char, __n: size_t, __p: *mut mbstate_t, ) -> size_t; } extern "C" { #[doc = " Write multibyte representation of wide character WC to S."] pub fn wcrtomb(__s: *mut cty::c_char, __wc: wchar_t, __ps: *mut mbstate_t) -> size_t; } extern "C" { #[doc = " Return number of bytes in multibyte character pointed to by S."] pub fn __mbrlen(__s: *const cty::c_char, __n: size_t, __ps: *mut mbstate_t) -> size_t; } extern "C" { pub fn mbrlen(__s: *const cty::c_char, __n: size_t, __ps: *mut mbstate_t) -> size_t; } extern "C" { #[doc = " Write wide character representation of multibyte character string"] #[doc = "SRC to DST."] pub fn mbsrtowcs( __dst: *mut wchar_t, __src: *mut *const cty::c_char, __len: size_t, __ps: *mut mbstate_t, ) -> size_t; } extern "C" { #[doc = " Write multibyte character representation of wide character string"] #[doc = "SRC to DST."] pub fn wcsrtombs( __dst: *mut cty::c_char, __src: *mut *const wchar_t, __len: size_t, __ps: *mut mbstate_t, ) -> size_t; } extern "C" { #[doc = " Determine number of column positions required for C."] pub fn wcwidth(__c: wchar_t) -> cty::c_int; } extern "C" { #[doc = " Determine number of column positions required for first N wide"] #[doc = "characters (or fewer if S ends before this) in S."] pub fn wcswidth(__s: *const wchar_t, __n: size_t) -> cty::c_int; } extern "C" { #[doc = " Convert initial portion of the wide string NPTR to `double'"] #[doc = "representation."] pub fn wcstod(__nptr: *const wchar_t, __endptr: *mut *mut wchar_t) -> f64; } extern "C" { #[doc = " Likewise for `float' and `long double' sizes of floating-point numbers."] pub fn wcstof(__nptr: *const wchar_t, __endptr: *mut *mut wchar_t) -> f32; } extern "C" { #[doc = " Convert initial portion of wide string NPTR to `long int'"] #[doc = "representation."] pub fn wcstol( __nptr: *const wchar_t, __endptr: *mut *mut wchar_t, __base: cty::c_int, ) -> cty::c_long; } extern "C" { #[doc = " Convert initial portion of wide string NPTR to `unsigned long int'"] #[doc = "representation."] pub fn wcstoul( __nptr: *const wchar_t, __endptr: *mut *mut wchar_t, __base: cty::c_int, ) -> cty::c_ulong; } extern "C" { #[doc = " Convert initial portion of wide string NPTR to `long long int'"] #[doc = "representation."] pub fn wcstoll( __nptr: *const wchar_t, __endptr: *mut *mut wchar_t, __base: cty::c_int, ) -> cty::c_longlong; } extern "C" { #[doc = " Convert initial portion of wide string NPTR to `unsigned long long int'"] #[doc = "representation."] pub fn wcstoull( __nptr: *const wchar_t, __endptr: *mut *mut wchar_t, __base: cty::c_int, ) -> cty::c_ulonglong; } extern "C" { #[doc = " Select orientation for stream."] pub fn fwide(__fp: *mut __FILE, __mode: cty::c_int) -> cty::c_int; } extern "C" { #[doc = " Write formatted output to STREAM."] #[doc = ""] #[doc = "This function is a possible cancellation point and therefore not"] #[doc = "marked with __THROW."] pub fn fwprintf(__stream: *mut __FILE, __format: *const wchar_t, ...) -> cty::c_int; } extern "C" { #[doc = " Write formatted output to stdout."] #[doc = ""] #[doc = "This function is a possible cancellation point and therefore not"] #[doc = "marked with __THROW."] pub fn wprintf(__format: *const wchar_t, ...) -> cty::c_int; } extern "C" { #[doc = " Write formatted output of at most N characters to S."] pub fn swprintf(__s: *mut wchar_t, __n: size_t, __format: *const wchar_t, ...) -> cty::c_int; } extern "C" { #[doc = " Write formatted output to S from argument list ARG."] #[doc = ""] #[doc = "This function is a possible cancellation point and therefore not"] #[doc = "marked with __THROW."] pub fn vfwprintf( __s: *mut __FILE, __format: *const wchar_t, __arg: *mut __va_list_tag, ) -> cty::c_int; } extern "C" { #[doc = " Write formatted output to stdout from argument list ARG."] #[doc = ""] #[doc = "This function is a possible cancellation point and therefore not"] #[doc = "marked with __THROW."] pub fn vwprintf(__format: *const wchar_t, __arg: *mut __va_list_tag) -> cty::c_int; } extern "C" { #[doc = " Write formatted output of at most N character to S from argument"] #[doc = "list ARG."] pub fn vswprintf( __s: *mut wchar_t, __n: size_t, __format: *const wchar_t, __arg: *mut __va_list_tag, ) -> cty::c_int; } extern "C" { #[doc = " Read formatted input from STREAM."] #[doc = ""] #[doc = "This function is a possible cancellation point and therefore not"] #[doc = "marked with __THROW."] pub fn fwscanf(__stream: *mut __FILE, __format: *const wchar_t, ...) -> cty::c_int; } extern "C" { #[doc = " Read formatted input from stdin."] #[doc = ""] #[doc = "This function is a possible cancellation point and therefore not"] #[doc = "marked with __THROW."] pub fn wscanf(__format: *const wchar_t, ...) -> cty::c_int; } extern "C" { #[doc = " Read formatted input from S."] pub fn swscanf(__s: *const wchar_t, __format: *const wchar_t, ...) -> cty::c_int; } extern "C" { #[doc = " Read formatted input from STREAM."] #[doc = ""] #[doc = "This function is a possible cancellation point and therefore not"] #[doc = "marked with __THROW."] #[link_name = "\u{1}__isoc99_fwscanf"] pub fn fwscanf1(__stream: *mut __FILE, __format: *const wchar_t, ...) -> cty::c_int; } extern "C" { #[doc = " Read formatted input from stdin."] #[doc = ""] #[doc = "This function is a possible cancellation point and therefore not"] #[doc = "marked with __THROW."] #[link_name = "\u{1}__isoc99_wscanf"] pub fn wscanf1(__format: *const wchar_t, ...) -> cty::c_int; } extern "C" { #[doc = " Read formatted input from S."] #[link_name = "\u{1}__isoc99_swscanf"] pub fn swscanf1(__s: *const wchar_t, __format: *const wchar_t, ...) -> cty::c_int; } extern "C" { #[doc = " Read formatted input from S into argument list ARG."] #[doc = ""] #[doc = "This function is a possible cancellation point and therefore not"] #[doc = "marked with __THROW."] pub fn vfwscanf( __s: *mut __FILE, __format: *const wchar_t, __arg: *mut __va_list_tag, ) -> cty::c_int; } extern "C" { #[doc = " Read formatted input from stdin into argument list ARG."] #[doc = ""] #[doc = "This function is a possible cancellation point and therefore not"] #[doc = "marked with __THROW."] pub fn vwscanf(__format: *const wchar_t, __arg: *mut __va_list_tag) -> cty::c_int; } extern "C" { #[doc = " Read formatted input from S into argument list ARG."] pub fn vswscanf( __s: *const wchar_t, __format: *const wchar_t, __arg: *mut __va_list_tag, ) -> cty::c_int; } extern "C" { #[doc = " Read a character from STREAM."] #[doc = ""] #[doc = "These functions are possible cancellation points and therefore not"] #[doc = "marked with __THROW."] pub fn fgetwc(__stream: *mut __FILE) -> wint_t; } extern "C" { pub fn getwc(__stream: *mut __FILE) -> wint_t; } extern "C" { #[doc = " Read a character from stdin."] #[doc = ""] #[doc = "This function is a possible cancellation point and therefore not"] #[doc = "marked with __THROW."] pub fn getwchar() -> wint_t; } extern "C" { #[doc = " Write a character to STREAM."] #[doc = ""] #[doc = "These functions are possible cancellation points and therefore not"] #[doc = "marked with __THROW."] pub fn fputwc(__wc: wchar_t, __stream: *mut __FILE) -> wint_t; } extern "C" { pub fn putwc(__wc: wchar_t, __stream: *mut __FILE) -> wint_t; } extern "C" { #[doc = " Write a character to stdout."] #[doc = ""] #[doc = "This function is a possible cancellation point and therefore not"] #[doc = "marked with __THROW."] pub fn putwchar(__wc: wchar_t) -> wint_t; } extern "C" { #[doc = " Get a newline-terminated wide character string of finite length"] #[doc = "from STREAM."] #[doc = ""] #[doc = "This function is a possible cancellation point and therefore not"] #[doc = "marked with __THROW."] pub fn fgetws(__ws: *mut wchar_t, __n: cty::c_int, __stream: *mut __FILE) -> *mut wchar_t; } extern "C" { #[doc = " Write a string to STREAM."] #[doc = ""] #[doc = "This function is a possible cancellation point and therefore not"] #[doc = "marked with __THROW."] pub fn fputws(__ws: *const wchar_t, __stream: *mut __FILE) -> cty::c_int; } extern "C" { #[doc = " Push a character back onto the input buffer of STREAM."] #[doc = ""] #[doc = "This function is a possible cancellation point and therefore not"] #[doc = "marked with __THROW."] pub fn ungetwc(__wc: wint_t, __stream: *mut __FILE) -> wint_t; } extern "C" { #[doc = " Format TP into S according to FORMAT."] #[doc = "Write no more than MAXSIZE wide characters and return the number"] #[doc = "of wide characters written, or 0 if it would exceed MAXSIZE."] pub fn wcsftime( __s: *mut wchar_t, __maxsize: size_t, __format: *const wchar_t, __tp: *const tm, ) -> size_t; } #[doc = " The tag name of this struct is _G_fpos_t to preserve historic"] #[doc = "C++ mangled names for functions taking fpos_t arguments."] #[doc = "That name should not be used in new code."] #[repr(C)] #[derive(Copy, Clone)] pub struct _G_fpos_t { pub __pos: __off_t, pub __state: __mbstate_t, } #[test] fn bindgen_test_layout__G_fpos_t() { assert_eq!( ::core::mem::size_of::<_G_fpos_t>(), 16usize, concat!("Size of: ", stringify!(_G_fpos_t)) ); assert_eq!( ::core::mem::align_of::<_G_fpos_t>(), 8usize, concat!("Alignment of ", stringify!(_G_fpos_t)) ); assert_eq!( unsafe { &(*(::core::ptr::null::<_G_fpos_t>())).__pos as *const _ as usize }, 0usize, concat!( "Offset of field: ", stringify!(_G_fpos_t), "::", stringify!(__pos) ) ); assert_eq!( unsafe { &(*(::core::ptr::null::<_G_fpos_t>())).__state as *const _ as usize }, 8usize, concat!( "Offset of field: ", stringify!(_G_fpos_t), "::", stringify!(__state) ) ); } #[doc = " The tag name of this struct is _G_fpos_t to preserve historic"] #[doc = "C++ mangled names for functions taking fpos_t arguments."] #[doc = "That name should not be used in new code."] pub type __fpos_t = _G_fpos_t; #[doc = " The tag name of this struct is _G_fpos64_t to preserve historic"] #[doc = "C++ mangled names for functions taking fpos_t and/or fpos64_t"] #[doc = "arguments. That name should not be used in new code."] #[repr(C)] #[derive(Copy, Clone)] pub struct _G_fpos64_t { pub __pos: __off64_t, pub __state: __mbstate_t, } #[test] fn bindgen_test_layout__G_fpos64_t() { assert_eq!( ::core::mem::size_of::<_G_fpos64_t>(), 16usize, concat!("Size of: ", stringify!(_G_fpos64_t)) ); assert_eq!( ::core::mem::align_of::<_G_fpos64_t>(), 8usize, concat!("Alignment of ", stringify!(_G_fpos64_t)) ); assert_eq!( unsafe { &(*(::core::ptr::null::<_G_fpos64_t>())).__pos as *const _ as usize }, 0usize, concat!( "Offset of field: ", stringify!(_G_fpos64_t), "::", stringify!(__pos) ) ); assert_eq!( unsafe { &(*(::core::ptr::null::<_G_fpos64_t>())).__state as *const _ as usize }, 8usize, concat!( "Offset of field: ", stringify!(_G_fpos64_t), "::", stringify!(__state) ) ); } #[doc = " The tag name of this struct is _G_fpos64_t to preserve historic"] #[doc = "C++ mangled names for functions taking fpos_t and/or fpos64_t"] #[doc = "arguments. That name should not be used in new code."] pub type __fpos64_t = _G_fpos64_t; #[doc = " The opaque type of streams. This is the definition used elsewhere."] pub type FILE = _IO_FILE; #[repr(C)] #[derive(Debug, Copy, Clone)] pub struct _IO_marker { _unused: [u8; 0], } #[repr(C)] #[derive(Debug, Copy, Clone)] pub struct _IO_codecvt { _unused: [u8; 0], } #[repr(C)] #[derive(Debug, Copy, Clone)] pub struct _IO_wide_data { _unused: [u8; 0], } pub type _IO_lock_t = cty::c_void; #[doc = " The tag name of this struct is _IO_FILE to preserve historic"] #[doc = "C++ mangled names for functions taking FILE* arguments."] #[doc = "That name should not be used in new code."] #[repr(C)] #[derive(Debug, Copy, Clone)] pub struct _IO_FILE { #[doc = " High-order word is _IO_MAGIC; rest is flags."] pub _flags: cty::c_int, #[doc = " Current read pointer"] pub _IO_read_ptr: *mut cty::c_char, #[doc = " End of get area."] pub _IO_read_end: *mut cty::c_char, #[doc = " Start of putback+get area."] pub _IO_read_base: *mut cty::c_char, #[doc = " Start of put area."] pub _IO_write_base: *mut cty::c_char, #[doc = " Current put pointer."] pub _IO_write_ptr: *mut cty::c_char, #[doc = " End of put area."] pub _IO_write_end: *mut cty::c_char, #[doc = " Start of reserve area."] pub _IO_buf_base: *mut cty::c_char, #[doc = " End of reserve area."] pub _IO_buf_end: *mut cty::c_char, #[doc = " Pointer to start of non-current get area."] pub _IO_save_base: *mut cty::c_char, #[doc = " Pointer to first valid character of backup area"] pub _IO_backup_base: *mut cty::c_char, #[doc = " Pointer to end of non-current get area."] pub _IO_save_end: *mut cty::c_char, pub _markers: *mut _IO_marker, pub _chain: *mut _IO_FILE, pub _fileno: cty::c_int, pub _flags2: cty::c_int, #[doc = " This used to be _offset but it's too small."] pub _old_offset: __off_t, #[doc = " 1+column number of pbase(); 0 is unknown."] pub _cur_column: cty::c_ushort, pub _vtable_offset: cty::c_schar, pub _shortbuf: [cty::c_char; 1usize], pub _lock: *mut _IO_lock_t, pub _offset: __off64_t, #[doc = " Wide character stream stuff."] pub _codecvt: *mut _IO_codecvt, pub _wide_data: *mut _IO_wide_data, pub _freeres_list: *mut _IO_FILE, pub _freeres_buf: *mut cty::c_void, pub __pad5: size_t, pub _mode: cty::c_int, #[doc = " Make sure we don't get into trouble again."] pub _unused2: [cty::c_char; 20usize], } #[test] fn bindgen_test_layout__IO_FILE() { assert_eq!( ::core::mem::size_of::<_IO_FILE>(), 216usize, concat!("Size of: ", stringify!(_IO_FILE)) ); assert_eq!( ::core::mem::align_of::<_IO_FILE>(), 8usize, concat!("Alignment of ", stringify!(_IO_FILE)) ); assert_eq!( unsafe { &(*(::core::ptr::null::<_IO_FILE>()))._flags as *const _ as usize }, 0usize, concat!( "Offset of field: ", stringify!(_IO_FILE), "::", stringify!(_flags) ) ); assert_eq!( unsafe { &(*(::core::ptr::null::<_IO_FILE>()))._IO_read_ptr as *const _ as usize }, 8usize, concat!( "Offset of field: ", stringify!(_IO_FILE), "::", stringify!(_IO_read_ptr) ) ); assert_eq!( unsafe { &(*(::core::ptr::null::<_IO_FILE>()))._IO_read_end as *const _ as usize }, 16usize, concat!( "Offset of field: ", stringify!(_IO_FILE), "::", stringify!(_IO_read_end) ) ); assert_eq!( unsafe { &(*(::core::ptr::null::<_IO_FILE>()))._IO_read_base as *const _ as usize }, 24usize, concat!( "Offset of field: ", stringify!(_IO_FILE), "::", stringify!(_IO_read_base) ) ); assert_eq!( unsafe { &(*(::core::ptr::null::<_IO_FILE>()))._IO_write_base as *const _ as usize }, 32usize, concat!( "Offset of field: ", stringify!(_IO_FILE), "::", stringify!(_IO_write_base) ) ); assert_eq!( unsafe { &(*(::core::ptr::null::<_IO_FILE>()))._IO_write_ptr as *const _ as usize }, 40usize, concat!( "Offset of field: ", stringify!(_IO_FILE), "::", stringify!(_IO_write_ptr) ) ); assert_eq!( unsafe { &(*(::core::ptr::null::<_IO_FILE>()))._IO_write_end as *const _ as usize }, 48usize, concat!( "Offset of field: ", stringify!(_IO_FILE), "::", stringify!(_IO_write_end) ) ); assert_eq!( unsafe { &(*(::core::ptr::null::<_IO_FILE>()))._IO_buf_base as *const _ as usize }, 56usize, concat!( "Offset of field: ", stringify!(_IO_FILE), "::", stringify!(_IO_buf_base) ) ); assert_eq!( unsafe { &(*(::core::ptr::null::<_IO_FILE>()))._IO_buf_end as *const _ as usize }, 64usize, concat!( "Offset of field: ", stringify!(_IO_FILE), "::", stringify!(_IO_buf_end) ) ); assert_eq!( unsafe { &(*(::core::ptr::null::<_IO_FILE>()))._IO_save_base as *const _ as usize }, 72usize, concat!( "Offset of field: ", stringify!(_IO_FILE), "::", stringify!(_IO_save_base) ) ); assert_eq!( unsafe { &(*(::core::ptr::null::<_IO_FILE>()))._IO_backup_base as *const _ as usize }, 80usize, concat!( "Offset of field: ", stringify!(_IO_FILE), "::", stringify!(_IO_backup_base) ) ); assert_eq!( unsafe { &(*(::core::ptr::null::<_IO_FILE>()))._IO_save_end as *const _ as usize }, 88usize, concat!( "Offset of field: ", stringify!(_IO_FILE), "::", stringify!(_IO_save_end) ) ); assert_eq!( unsafe { &(*(::core::ptr::null::<_IO_FILE>()))._markers as *const _ as usize }, 96usize, concat!( "Offset of field: ", stringify!(_IO_FILE), "::", stringify!(_markers) ) ); assert_eq!( unsafe { &(*(::core::ptr::null::<_IO_FILE>()))._chain as *const _ as usize }, 104usize, concat!( "Offset of field: ", stringify!(_IO_FILE), "::", stringify!(_chain) ) ); assert_eq!( unsafe { &(*(::core::ptr::null::<_IO_FILE>()))._fileno as *const _ as usize }, 112usize, concat!( "Offset of field: ", stringify!(_IO_FILE), "::", stringify!(_fileno) ) ); assert_eq!( unsafe { &(*(::core::ptr::null::<_IO_FILE>()))._flags2 as *const _ as usize }, 116usize, concat!( "Offset of field: ", stringify!(_IO_FILE), "::", stringify!(_flags2) ) ); assert_eq!( unsafe { &(*(::core::ptr::null::<_IO_FILE>()))._old_offset as *const _ as usize }, 120usize, concat!( "Offset of field: ", stringify!(_IO_FILE), "::", stringify!(_old_offset) ) ); assert_eq!( unsafe { &(*(::core::ptr::null::<_IO_FILE>()))._cur_column as *const _ as usize }, 128usize, concat!( "Offset of field: ", stringify!(_IO_FILE), "::", stringify!(_cur_column) ) ); assert_eq!( unsafe { &(*(::core::ptr::null::<_IO_FILE>()))._vtable_offset as *const _ as usize }, 130usize, concat!( "Offset of field: ", stringify!(_IO_FILE), "::", stringify!(_vtable_offset) ) ); assert_eq!( unsafe { &(*(::core::ptr::null::<_IO_FILE>()))._shortbuf as *const _ as usize }, 131usize, concat!( "Offset of field: ", stringify!(_IO_FILE), "::", stringify!(_shortbuf) ) ); assert_eq!( unsafe { &(*(::core::ptr::null::<_IO_FILE>()))._lock as *const _ as usize }, 136usize, concat!( "Offset of field: ", stringify!(_IO_FILE), "::", stringify!(_lock) ) ); assert_eq!( unsafe { &(*(::core::ptr::null::<_IO_FILE>()))._offset as *const _ as usize }, 144usize, concat!( "Offset of field: ", stringify!(_IO_FILE), "::", stringify!(_offset) ) ); assert_eq!( unsafe { &(*(::core::ptr::null::<_IO_FILE>()))._codecvt as *const _ as usize }, 152usize, concat!( "Offset of field: ", stringify!(_IO_FILE), "::", stringify!(_codecvt) ) ); assert_eq!( unsafe { &(*(::core::ptr::null::<_IO_FILE>()))._wide_data as *const _ as usize }, 160usize, concat!( "Offset of field: ", stringify!(_IO_FILE), "::", stringify!(_wide_data) ) ); assert_eq!( unsafe { &(*(::core::ptr::null::<_IO_FILE>()))._freeres_list as *const _ as usize }, 168usize, concat!( "Offset of field: ", stringify!(_IO_FILE), "::", stringify!(_freeres_list) ) ); assert_eq!( unsafe { &(*(::core::ptr::null::<_IO_FILE>()))._freeres_buf as *const _ as usize }, 176usize, concat!( "Offset of field: ", stringify!(_IO_FILE), "::", stringify!(_freeres_buf) ) ); assert_eq!( unsafe { &(*(::core::ptr::null::<_IO_FILE>())).__pad5 as *const _ as usize }, 184usize, concat!( "Offset of field: ", stringify!(_IO_FILE), "::", stringify!(__pad5) ) ); assert_eq!( unsafe { &(*(::core::ptr::null::<_IO_FILE>()))._mode as *const _ as usize }, 192usize, concat!( "Offset of field: ", stringify!(_IO_FILE), "::", stringify!(_mode) ) ); assert_eq!( unsafe { &(*(::core::ptr::null::<_IO_FILE>()))._unused2 as *const _ as usize }, 196usize, concat!( "Offset of field: ", stringify!(_IO_FILE), "::", stringify!(_unused2) ) ); } pub type fpos_t = __fpos_t; extern "C" { pub static mut stdin: *mut FILE; } extern "C" { pub static mut stdout: *mut FILE; } extern "C" { pub static mut stderr: *mut FILE; } extern "C" { #[doc = " Remove file FILENAME."] pub fn remove(__filename: *const cty::c_char) -> cty::c_int; } extern "C" { #[doc = " Rename file OLD to NEW."] pub fn rename(__old: *const cty::c_char, __new: *const cty::c_char) -> cty::c_int; } extern "C" { pub fn tmpfile() -> *mut FILE; } extern "C" { #[doc = " Generate a temporary filename."] pub fn tmpnam(__s: *mut cty::c_char) -> *mut cty::c_char; } extern "C" { #[doc = " Generate a unique temporary filename using up to five characters of PFX"] #[doc = "if it is not NULL. The directory to put this file in is searched for"] #[doc = "as follows: First the environment variable \"TMPDIR\" is checked."] #[doc = "If it contains the name of a writable directory, that directory is used."] #[doc = "If not and if DIR is not NULL, that value is checked. If that fails,"] #[doc = "P_tmpdir is tried and finally \"/tmp\". The storage for the filename"] #[doc = "is allocated by `malloc'."] pub fn tempnam(__dir: *const cty::c_char, __pfx: *const cty::c_char) -> *mut cty::c_char; } extern "C" { #[doc = " Close STREAM."] #[doc = ""] #[doc = "This function is a possible cancellation point and therefore not"] #[doc = "marked with __THROW."] pub fn fclose(__stream: *mut FILE) -> cty::c_int; } extern "C" { #[doc = " Flush STREAM, or all streams if STREAM is NULL."] #[doc = ""] #[doc = "This function is a possible cancellation point and therefore not"] #[doc = "marked with __THROW."] pub fn fflush(__stream: *mut FILE) -> cty::c_int; } extern "C" { #[doc = " Open a file and create a new stream for it."] #[doc = ""] #[doc = "This function is a possible cancellation point and therefore not"] #[doc = "marked with __THROW."] pub fn fopen(__filename: *const cty::c_char, __modes: *const cty::c_char) -> *mut FILE; } extern "C" { #[doc = " Open a file, replacing an existing stream with it."] #[doc = ""] #[doc = "This function is a possible cancellation point and therefore not"] #[doc = "marked with __THROW."] pub fn freopen( __filename: *const cty::c_char, __modes: *const cty::c_char, __stream: *mut FILE, ) -> *mut FILE; } extern "C" { #[doc = " Create a new stream that refers to an existing system file descriptor."] pub fn fdopen(__fd: cty::c_int, __modes: *const cty::c_char) -> *mut FILE; } extern "C" { #[doc = " If BUF is NULL, make STREAM unbuffered."] #[doc = "Else make it use buffer BUF, of size BUFSIZ."] pub fn setbuf(__stream: *mut FILE, __buf: *mut cty::c_char); } extern "C" { #[doc = " Make STREAM use buffering mode MODE."] #[doc = "If BUF is not NULL, use N bytes of it for buffering;"] #[doc = "else allocate an internal buffer N bytes long."] pub fn setvbuf( __stream: *mut FILE, __buf: *mut cty::c_char, __modes: cty::c_int, __n: size_t, ) -> cty::c_int; } extern "C" { #[doc = " Write formatted output to STREAM."] #[doc = ""] #[doc = "This function is a possible cancellation point and therefore not"] #[doc = "marked with __THROW."] pub fn fprintf(__stream: *mut FILE, __format: *const cty::c_char, ...) -> cty::c_int; } extern "C" { #[doc = " Write formatted output to stdout."] #[doc = ""] #[doc = "This function is a possible cancellation point and therefore not"] #[doc = "marked with __THROW."] pub fn printf(__format: *const cty::c_char, ...) -> cty::c_int; } extern "C" { #[doc = " Write formatted output to S."] pub fn sprintf(__s: *mut cty::c_char, __format: *const cty::c_char, ...) -> cty::c_int; } extern "C" { #[doc = " Write formatted output to S from argument list ARG."] #[doc = ""] #[doc = "This function is a possible cancellation point and therefore not"] #[doc = "marked with __THROW."] pub fn vfprintf( __s: *mut FILE, __format: *const cty::c_char, __arg: *mut __va_list_tag, ) -> cty::c_int; } extern "C" { #[doc = " Write formatted output to stdout from argument list ARG."] #[doc = ""] #[doc = "This function is a possible cancellation point and therefore not"] #[doc = "marked with __THROW."] pub fn vprintf(__format: *const cty::c_char, __arg: *mut __va_list_tag) -> cty::c_int; } extern "C" { #[doc = " Write formatted output to S from argument list ARG."] pub fn vsprintf( __s: *mut cty::c_char, __format: *const cty::c_char, __arg: *mut __va_list_tag, ) -> cty::c_int; } extern "C" { #[doc = " Maximum chars of output to write in MAXLEN."] pub fn snprintf( __s: *mut cty::c_char, __maxlen: cty::c_ulong, __format: *const cty::c_char, ... ) -> cty::c_int; } extern "C" { pub fn vsnprintf( __s: *mut cty::c_char, __maxlen: cty::c_ulong, __format: *const cty::c_char, __arg: *mut __va_list_tag, ) -> cty::c_int; } extern "C" { #[doc = " Read formatted input from STREAM."] #[doc = ""] #[doc = "This function is a possible cancellation point and therefore not"] #[doc = "marked with __THROW."] pub fn fscanf(__stream: *mut FILE, __format: *const cty::c_char, ...) -> cty::c_int; } extern "C" { #[doc = " Read formatted input from stdin."] #[doc = ""] #[doc = "This function is a possible cancellation point and therefore not"] #[doc = "marked with __THROW."] pub fn scanf(__format: *const cty::c_char, ...) -> cty::c_int; } extern "C" { #[doc = " Read formatted input from S."] pub fn sscanf(__s: *const cty::c_char, __format: *const cty::c_char, ...) -> cty::c_int; } extern "C" { #[doc = " Read formatted input from STREAM."] #[doc = ""] #[doc = "This function is a possible cancellation point and therefore not"] #[doc = "marked with __THROW."] #[link_name = "\u{1}__isoc99_fscanf"] pub fn fscanf1(__stream: *mut FILE, __format: *const cty::c_char, ...) -> cty::c_int; } extern "C" { #[doc = " Read formatted input from stdin."] #[doc = ""] #[doc = "This function is a possible cancellation point and therefore not"] #[doc = "marked with __THROW."] #[link_name = "\u{1}__isoc99_scanf"] pub fn scanf1(__format: *const cty::c_char, ...) -> cty::c_int; } extern "C" { #[doc = " Read formatted input from S."] #[link_name = "\u{1}__isoc99_sscanf"] pub fn sscanf1(__s: *const cty::c_char, __format: *const cty::c_char, ...) -> cty::c_int; } extern "C" { #[doc = " Read formatted input from S into argument list ARG."] #[doc = ""] #[doc = "This function is a possible cancellation point and therefore not"] #[doc = "marked with __THROW."] pub fn vfscanf( __s: *mut FILE, __format: *const cty::c_char, __arg: *mut __va_list_tag, ) -> cty::c_int; } extern "C" { #[doc = " Read formatted input from stdin into argument list ARG."] #[doc = ""] #[doc = "This function is a possible cancellation point and therefore not"] #[doc = "marked with __THROW."] pub fn vscanf(__format: *const cty::c_char, __arg: *mut __va_list_tag) -> cty::c_int; } extern "C" { #[doc = " Read formatted input from S into argument list ARG."] pub fn vsscanf( __s: *const cty::c_char, __format: *const cty::c_char, __arg: *mut __va_list_tag, ) -> cty::c_int; } extern "C" { #[doc = " Read formatted input from S into argument list ARG."] #[doc = ""] #[doc = "This function is a possible cancellation point and therefore not"] #[doc = "marked with __THROW."] #[link_name = "\u{1}__isoc99_vfscanf"] pub fn vfscanf1( __s: *mut FILE, __format: *const cty::c_char, __arg: *mut __va_list_tag, ) -> cty::c_int; } extern "C" { #[doc = " Read formatted input from stdin into argument list ARG."] #[doc = ""] #[doc = "This function is a possible cancellation point and therefore not"] #[doc = "marked with __THROW."] #[link_name = "\u{1}__isoc99_vscanf"] pub fn vscanf1(__format: *const cty::c_char, __arg: *mut __va_list_tag) -> cty::c_int; } extern "C" { #[doc = " Read formatted input from S into argument list ARG."] #[link_name = "\u{1}__isoc99_vsscanf"] pub fn vsscanf1( __s: *const cty::c_char, __format: *const cty::c_char, __arg: *mut __va_list_tag, ) -> cty::c_int; } extern "C" { #[doc = " Read a character from STREAM."] #[doc = ""] #[doc = "These functions are possible cancellation points and therefore not"] #[doc = "marked with __THROW."] pub fn fgetc(__stream: *mut FILE) -> cty::c_int; } extern "C" { pub fn getc(__stream: *mut FILE) -> cty::c_int; } extern "C" { #[doc = " Read a character from stdin."] #[doc = ""] #[doc = "This function is a possible cancellation point and therefore not"] #[doc = "marked with __THROW."] pub fn getchar() -> cty::c_int; } extern "C" { #[doc = " Write a character to STREAM."] #[doc = ""] #[doc = "These functions are possible cancellation points and therefore not"] #[doc = "marked with __THROW."] #[doc = ""] #[doc = "These functions is a possible cancellation point and therefore not"] #[doc = "marked with __THROW."] pub fn fputc(__c: cty::c_int, __stream: *mut FILE) -> cty::c_int; } extern "C" { pub fn putc(__c: cty::c_int, __stream: *mut FILE) -> cty::c_int; } extern "C" { #[doc = " Write a character to stdout."] #[doc = ""] #[doc = "This function is a possible cancellation point and therefore not"] #[doc = "marked with __THROW."] pub fn putchar(__c: cty::c_int) -> cty::c_int; } extern "C" { #[doc = " Get a word (int) from STREAM."] pub fn getw(__stream: *mut FILE) -> cty::c_int; } extern "C" { #[doc = " Write a word (int) to STREAM."] pub fn putw(__w: cty::c_int, __stream: *mut FILE) -> cty::c_int; } extern "C" { #[doc = " Get a newline-terminated string of finite length from STREAM."] #[doc = ""] #[doc = "This function is a possible cancellation point and therefore not"] #[doc = "marked with __THROW."] pub fn fgets(__s: *mut cty::c_char, __n: cty::c_int, __stream: *mut FILE) -> *mut cty::c_char; } extern "C" { #[doc = " Write a string to STREAM."] #[doc = ""] #[doc = "This function is a possible cancellation point and therefore not"] #[doc = "marked with __THROW."] pub fn fputs(__s: *const cty::c_char, __stream: *mut FILE) -> cty::c_int; } extern "C" { #[doc = " Write a string, followed by a newline, to stdout."] #[doc = ""] #[doc = "This function is a possible cancellation point and therefore not"] #[doc = "marked with __THROW."] pub fn puts(__s: *const cty::c_char) -> cty::c_int; } extern "C" { #[doc = " Push a character back onto the input buffer of STREAM."] #[doc = ""] #[doc = "This function is a possible cancellation point and therefore not"] #[doc = "marked with __THROW."] pub fn ungetc(__c: cty::c_int, __stream: *mut FILE) -> cty::c_int; } extern "C" { #[doc = " Read chunks of generic data from STREAM."] #[doc = ""] #[doc = "This function is a possible cancellation point and therefore not"] #[doc = "marked with __THROW."] pub fn fread( __ptr: *mut cty::c_void, __size: cty::c_ulong, __n: cty::c_ulong, __stream: *mut FILE, ) -> cty::c_ulong; } extern "C" { #[doc = " Write chunks of generic data to STREAM."] #[doc = ""] #[doc = "This function is a possible cancellation point and therefore not"] #[doc = "marked with __THROW."] pub fn fwrite( __ptr: *const cty::c_void, __size: cty::c_ulong, __n: cty::c_ulong, __s: *mut FILE, ) -> cty::c_ulong; } extern "C" { #[doc = " Seek to a certain position on STREAM."] #[doc = ""] #[doc = "This function is a possible cancellation point and therefore not"] #[doc = "marked with __THROW."] pub fn fseek(__stream: *mut FILE, __off: cty::c_long, __whence: cty::c_int) -> cty::c_int; } extern "C" { #[doc = " Return the current position of STREAM."] #[doc = ""] #[doc = "This function is a possible cancellation point and therefore not"] #[doc = "marked with __THROW."] pub fn ftell(__stream: *mut FILE) -> cty::c_long; } extern "C" { #[doc = " Rewind to the beginning of STREAM."] #[doc = ""] #[doc = "This function is a possible cancellation point and therefore not"] #[doc = "marked with __THROW."] pub fn rewind(__stream: *mut FILE); } extern "C" { #[doc = " Get STREAM's position."] #[doc = ""] #[doc = "This function is a possible cancellation point and therefore not"] #[doc = "marked with __THROW."] pub fn fgetpos(__stream: *mut FILE, __pos: *mut fpos_t) -> cty::c_int; } extern "C" { #[doc = " Set STREAM's position."] #[doc = ""] #[doc = "This function is a possible cancellation point and therefore not"] #[doc = "marked with __THROW."] pub fn fsetpos(__stream: *mut FILE, __pos: *const fpos_t) -> cty::c_int; } extern "C" { #[doc = " Clear the error and EOF indicators for STREAM."] pub fn clearerr(__stream: *mut FILE); } extern "C" { #[doc = " Return the EOF indicator for STREAM."] pub fn feof(__stream: *mut FILE) -> cty::c_int; } extern "C" { #[doc = " Return the error indicator for STREAM."] pub fn ferror(__stream: *mut FILE) -> cty::c_int; } extern "C" { #[doc = " Print a message describing the meaning of the value of errno."] #[doc = ""] #[doc = "This function is a possible cancellation point and therefore not"] #[doc = "marked with __THROW."] pub fn perror(__s: *const cty::c_char); } extern "C" { #[doc = " Return the system file descriptor for STREAM."] pub fn fileno(__stream: *mut FILE) -> cty::c_int; } extern "C" { #[doc = " Create a new stream connected to a pipe running the given command."] #[doc = ""] #[doc = "This function is a possible cancellation point and therefore not"] #[doc = "marked with __THROW."] pub fn popen(__command: *const cty::c_char, __modes: *const cty::c_char) -> *mut FILE; } extern "C" { #[doc = " Close a stream opened by popen and return the status of its child."] #[doc = ""] #[doc = "This function is a possible cancellation point and therefore not"] #[doc = "marked with __THROW."] pub fn pclose(__stream: *mut FILE) -> cty::c_int; } extern "C" { #[doc = " Return the name of the controlling terminal."] pub fn ctermid(__s: *mut cty::c_char) -> *mut cty::c_char; } extern "C" { #[doc = " Return the name of the current user."] pub fn cuserid(__s: *mut cty::c_char) -> *mut cty::c_char; } extern "C" { pub static mut optarg: *mut cty::c_char; } extern "C" { pub static mut optind: cty::c_int; } extern "C" { pub static mut opterr: cty::c_int; } extern "C" { pub static mut optopt: cty::c_int; } extern "C" { #[doc = " Get definitions and prototypes for functions to process the"] #[doc = "arguments in ARGV (ARGC of them, minus the program name) for"] #[doc = "options given in OPTS."] #[doc = ""] #[doc = "Return the option character from OPTS just read. Return -1 when"] #[doc = "there are no more options. For unrecognized options, or options"] #[doc = "missing arguments, 'optopt' is set to the option letter, and '?' is"] #[doc = "returned."] #[doc = ""] #[doc = "The OPTS string is a list of characters which are recognized option"] #[doc = "letters, optionally followed by colons, specifying that that letter"] #[doc = "takes an argument, to be placed in 'optarg'."] #[doc = ""] #[doc = "If a letter in OPTS is followed by two colons, its argument is"] #[doc = "optional. This behavior is specific to the GNU 'getopt'."] #[doc = ""] #[doc = "The argument '--' causes premature termination of argument"] #[doc = "scanning, explicitly telling 'getopt' that there are no more"] #[doc = "options."] #[doc = ""] #[doc = "If OPTS begins with '-', then non-option arguments are treated as"] #[doc = "arguments to the option '\\1'. This behavior is specific to the GNU"] #[doc = "'getopt'. If OPTS begins with '+', or POSIXLY_CORRECT is set in"] #[doc = "the environment, then do not permute arguments."] #[doc = ""] #[doc = "For standards compliance, the 'argv' argument has the type"] #[doc = "char *const *, but this is inaccurate; if argument permutation is"] #[doc = "enabled, the argv array (not the strings it points to) must be"] #[doc = "writable."] pub fn getopt( ___argc: cty::c_int, ___argv: *const *mut cty::c_char, __shortopts: *const cty::c_char, ) -> cty::c_int; } extern "C" { #[doc = " Slow-path routines used by the optimized inline functions in"] #[doc = "bits/stdio.h."] pub fn __uflow(arg1: *mut FILE) -> cty::c_int; } extern "C" { pub fn __overflow(arg1: *mut FILE, arg2: cty::c_int) -> cty::c_int; } #[doc = " Signed."] pub type int_least8_t = __int_least8_t; pub type int_least16_t = __int_least16_t; pub type int_least32_t = __int_least32_t; pub type int_least64_t = __int_least64_t; #[doc = " Unsigned."] pub type uint_least8_t = __uint_least8_t; pub type uint_least16_t = __uint_least16_t; pub type uint_least32_t = __uint_least32_t; pub type uint_least64_t = __uint_least64_t; #[doc = " Signed."] pub type int_fast8_t = cty::c_schar; pub type int_fast16_t = cty::c_long; pub type int_fast32_t = cty::c_long; pub type int_fast64_t = cty::c_long; #[doc = " Unsigned."] pub type uint_fast8_t = cty::c_uchar; pub type uint_fast16_t = cty::c_ulong; pub type uint_fast32_t = cty::c_ulong; pub type uint_fast64_t = cty::c_ulong; #[doc = " Largest integral types."] pub type intmax_t = __intmax_t; pub type uintmax_t = __uintmax_t; #[doc = " Returned by `div'."] #[repr(C)] #[derive(Debug, Copy, Clone)] pub struct div_t { #[doc = " Quotient."] pub quot: cty::c_int, #[doc = " Remainder."] pub rem: cty::c_int, } #[test] fn bindgen_test_layout_div_t() { assert_eq!( ::core::mem::size_of::(), 8usize, concat!("Size of: ", stringify!(div_t)) ); assert_eq!( ::core::mem::align_of::(), 4usize, concat!("Alignment of ", stringify!(div_t)) ); assert_eq!( unsafe { &(*(::core::ptr::null::())).quot as *const _ as usize }, 0usize, concat!( "Offset of field: ", stringify!(div_t), "::", stringify!(quot) ) ); assert_eq!( unsafe { &(*(::core::ptr::null::())).rem as *const _ as usize }, 4usize, concat!( "Offset of field: ", stringify!(div_t), "::", stringify!(rem) ) ); } #[repr(C)] #[derive(Debug, Copy, Clone)] pub struct ldiv_t { #[doc = " Quotient."] pub quot: cty::c_long, #[doc = " Remainder."] pub rem: cty::c_long, } #[test] fn bindgen_test_layout_ldiv_t() { assert_eq!( ::core::mem::size_of::(), 16usize, concat!("Size of: ", stringify!(ldiv_t)) ); assert_eq!( ::core::mem::align_of::(), 8usize, concat!("Alignment of ", stringify!(ldiv_t)) ); assert_eq!( unsafe { &(*(::core::ptr::null::())).quot as *const _ as usize }, 0usize, concat!( "Offset of field: ", stringify!(ldiv_t), "::", stringify!(quot) ) ); assert_eq!( unsafe { &(*(::core::ptr::null::())).rem as *const _ as usize }, 8usize, concat!( "Offset of field: ", stringify!(ldiv_t), "::", stringify!(rem) ) ); } #[doc = " Returned by `lldiv'."] #[repr(C)] #[derive(Debug, Copy, Clone)] pub struct lldiv_t { #[doc = " Quotient."] pub quot: cty::c_longlong, #[doc = " Remainder."] pub rem: cty::c_longlong, } #[test] fn bindgen_test_layout_lldiv_t() { assert_eq!( ::core::mem::size_of::(), 16usize, concat!("Size of: ", stringify!(lldiv_t)) ); assert_eq!( ::core::mem::align_of::(), 8usize, concat!("Alignment of ", stringify!(lldiv_t)) ); assert_eq!( unsafe { &(*(::core::ptr::null::())).quot as *const _ as usize }, 0usize, concat!( "Offset of field: ", stringify!(lldiv_t), "::", stringify!(quot) ) ); assert_eq!( unsafe { &(*(::core::ptr::null::())).rem as *const _ as usize }, 8usize, concat!( "Offset of field: ", stringify!(lldiv_t), "::", stringify!(rem) ) ); } extern "C" { pub fn __ctype_get_mb_cur_max() -> size_t; } extern "C" { #[doc = " Convert a string to a floating-point number."] pub fn atof(__nptr: *const cty::c_char) -> f64; } extern "C" { #[doc = " Convert a string to an integer."] pub fn atoi(__nptr: *const cty::c_char) -> cty::c_int; } extern "C" { #[doc = " Convert a string to a long integer."] pub fn atol(__nptr: *const cty::c_char) -> cty::c_long; } extern "C" { #[doc = " Convert a string to a long long integer."] pub fn atoll(__nptr: *const cty::c_char) -> cty::c_longlong; } extern "C" { #[doc = " Convert a string to a floating-point number."] pub fn strtod(__nptr: *const cty::c_char, __endptr: *mut *mut cty::c_char) -> f64; } extern "C" { #[doc = " Likewise for `float' and `long double' sizes of floating-point numbers."] pub fn strtof(__nptr: *const cty::c_char, __endptr: *mut *mut cty::c_char) -> f32; } extern "C" { #[doc = " Convert a string to a long integer."] pub fn strtol( __nptr: *const cty::c_char, __endptr: *mut *mut cty::c_char, __base: cty::c_int, ) -> cty::c_long; } extern "C" { #[doc = " Convert a string to an unsigned long integer."] pub fn strtoul( __nptr: *const cty::c_char, __endptr: *mut *mut cty::c_char, __base: cty::c_int, ) -> cty::c_ulong; } extern "C" { #[doc = " Convert a string to a quadword integer."] pub fn strtoll( __nptr: *const cty::c_char, __endptr: *mut *mut cty::c_char, __base: cty::c_int, ) -> cty::c_longlong; } extern "C" { #[doc = " Convert a string to an unsigned quadword integer."] pub fn strtoull( __nptr: *const cty::c_char, __endptr: *mut *mut cty::c_char, __base: cty::c_int, ) -> cty::c_ulonglong; } extern "C" { #[doc = " Return a random integer between 0 and RAND_MAX inclusive."] pub fn rand() -> cty::c_int; } extern "C" { #[doc = " Seed the random number generator with the given number."] pub fn srand(__seed: cty::c_uint); } extern "C" { #[doc = " Return non-negative, double-precision floating-point value in [0.0,1.0)."] pub fn drand48() -> f64; } extern "C" { pub fn erand48(__xsubi: *mut cty::c_ushort) -> f64; } extern "C" { #[doc = " Return non-negative, long integer in [0,2^31)."] pub fn lrand48() -> cty::c_long; } extern "C" { pub fn nrand48(__xsubi: *mut cty::c_ushort) -> cty::c_long; } extern "C" { #[doc = " Return signed, long integers in [-2^31,2^31)."] pub fn mrand48() -> cty::c_long; } extern "C" { pub fn jrand48(__xsubi: *mut cty::c_ushort) -> cty::c_long; } extern "C" { #[doc = " Seed random number generator."] pub fn srand48(__seedval: cty::c_long); } extern "C" { pub fn seed48(__seed16v: *mut cty::c_ushort) -> *mut cty::c_ushort; } extern "C" { pub fn lcong48(__param: *mut cty::c_ushort); } extern "C" { #[doc = " Allocate SIZE bytes of memory."] pub fn malloc(__size: cty::c_ulong) -> *mut cty::c_void; } extern "C" { #[doc = " Allocate NMEMB elements of SIZE bytes each, all initialized to 0."] pub fn calloc(__nmemb: cty::c_ulong, __size: cty::c_ulong) -> *mut cty::c_void; } extern "C" { #[doc = " Re-allocate the previously allocated block"] #[doc = "in PTR, making the new block SIZE bytes long. */"] #[doc = "the same pointer that was passed to it, aliasing needs to be allowed"] #[doc = "between objects pointed by the old and new pointers."] pub fn realloc(__ptr: *mut cty::c_void, __size: cty::c_ulong) -> *mut cty::c_void; } extern "C" { #[doc = " Free a block allocated by `malloc', `realloc' or `calloc'."] pub fn free(__ptr: *mut cty::c_void); } extern "C" { #[doc = " ISO C variant of aligned allocation."] pub fn aligned_alloc(__alignment: size_t, __size: size_t) -> *mut cty::c_void; } extern "C" { #[doc = " Abort execution and generate a core-dump."] pub fn abort(); } extern "C" { #[doc = " Register a function to be called when `exit' is called."] pub fn atexit(__func: ::core::option::Option) -> cty::c_int; } extern "C" { pub fn at_quick_exit(__func: ::core::option::Option) -> cty::c_int; } extern "C" { #[doc = " Call all functions registered with `atexit' and `on_exit',"] #[doc = "in the reverse of the order in which they were registered,"] #[doc = "perform stdio cleanup, and terminate program execution with STATUS."] pub fn exit(__status: cty::c_int); } extern "C" { #[doc = " Call all functions registered with `at_quick_exit' in the reverse"] #[doc = "of the order in which they were registered and terminate program"] #[doc = "execution with STATUS."] pub fn quick_exit(__status: cty::c_int); } extern "C" { #[doc = " Terminate the program with STATUS without calling any of the"] #[doc = "functions registered with `atexit' or `on_exit'."] pub fn _Exit(__status: cty::c_int); } extern "C" { #[doc = " Return the value of envariable NAME, or NULL if it doesn't exist."] pub fn getenv(__name: *const cty::c_char) -> *mut cty::c_char; } extern "C" { #[doc = " The SVID says this is in , but this seems a better place.\t*/"] #[doc = "If there is no `=', remove NAME from the environment."] pub fn putenv(__string: *mut cty::c_char) -> cty::c_int; } extern "C" { #[doc = " Execute the given line as a shell command."] #[doc = ""] #[doc = "This function is a cancellation point and therefore not marked with"] #[doc = "__THROW."] pub fn system(__command: *const cty::c_char) -> cty::c_int; } pub type __compar_fn_t = ::core::option::Option< unsafe extern "C" fn(arg1: *const cty::c_void, arg2: *const cty::c_void) -> cty::c_int, >; extern "C" { #[doc = " Do a binary search for KEY in BASE, which consists of NMEMB elements"] #[doc = "of SIZE bytes each, using COMPAR to perform the comparisons."] pub fn bsearch( __key: *const cty::c_void, __base: *const cty::c_void, __nmemb: size_t, __size: size_t, __compar: __compar_fn_t, ) -> *mut cty::c_void; } extern "C" { #[doc = " Sort NMEMB elements of BASE, of SIZE bytes each,"] #[doc = "using COMPAR to perform the comparisons."] pub fn qsort( __base: *mut cty::c_void, __nmemb: size_t, __size: size_t, __compar: __compar_fn_t, ); } extern "C" { #[doc = " Return the absolute value of X."] pub fn abs(__x: cty::c_int) -> cty::c_int; } extern "C" { pub fn labs(__x: cty::c_long) -> cty::c_long; } extern "C" { pub fn llabs(__x: cty::c_longlong) -> cty::c_longlong; } extern "C" { #[doc = " Return the `div_t', `ldiv_t' or `lldiv_t' representation"] #[doc = "of the value of NUMER over DENOM. */"] pub fn div(__numer: cty::c_int, __denom: cty::c_int) -> div_t; } extern "C" { pub fn ldiv(__numer: cty::c_long, __denom: cty::c_long) -> ldiv_t; } extern "C" { pub fn lldiv(__numer: cty::c_longlong, __denom: cty::c_longlong) -> lldiv_t; } extern "C" { #[doc = " Return the length of the multibyte character"] #[doc = "in S, which is no longer than N."] pub fn mblen(__s: *const cty::c_char, __n: size_t) -> cty::c_int; } extern "C" { #[doc = " Return the length of the given multibyte character,"] #[doc = "putting its `wchar_t' representation in *PWC."] pub fn mbtowc(__pwc: *mut wchar_t, __s: *const cty::c_char, __n: size_t) -> cty::c_int; } extern "C" { #[doc = " Put the multibyte character represented"] #[doc = "by WCHAR in S, returning its length."] pub fn wctomb(__s: *mut cty::c_char, __wchar: wchar_t) -> cty::c_int; } extern "C" { #[doc = " Convert a multibyte string to a wide char string."] pub fn mbstowcs(__pwcs: *mut wchar_t, __s: *const cty::c_char, __n: size_t) -> size_t; } extern "C" { #[doc = " Convert a wide char string to multibyte string."] pub fn wcstombs(__s: *mut cty::c_char, __pwcs: *const wchar_t, __n: size_t) -> size_t; } extern "C" { #[doc = " Copy N bytes of SRC to DEST."] pub fn memcpy( __dest: *mut cty::c_void, __src: *const cty::c_void, __n: cty::c_ulong, ) -> *mut cty::c_void; } extern "C" { #[doc = " Copy N bytes of SRC to DEST, guaranteeing"] #[doc = "correct behavior for overlapping strings."] pub fn memmove( __dest: *mut cty::c_void, __src: *const cty::c_void, __n: cty::c_ulong, ) -> *mut cty::c_void; } extern "C" { pub fn memccpy( __dest: *mut cty::c_void, __src: *const cty::c_void, __c: cty::c_int, __n: cty::c_ulong, ) -> *mut cty::c_void; } extern "C" { #[doc = " Set N bytes of S to C."] pub fn memset(__s: *mut cty::c_void, __c: cty::c_int, __n: cty::c_ulong) -> *mut cty::c_void; } extern "C" { #[doc = " Compare N bytes of S1 and S2."] pub fn memcmp( __s1: *const cty::c_void, __s2: *const cty::c_void, __n: cty::c_ulong, ) -> cty::c_int; } extern "C" { pub fn memchr(__s: *const cty::c_void, __c: cty::c_int, __n: cty::c_ulong) -> *mut cty::c_void; } extern "C" { #[doc = " Copy SRC to DEST."] pub fn strcpy(__dest: *mut cty::c_char, __src: *const cty::c_char) -> *mut cty::c_char; } extern "C" { #[doc = " Copy no more than N characters of SRC to DEST."] pub fn strncpy( __dest: *mut cty::c_char, __src: *const cty::c_char, __n: cty::c_ulong, ) -> *mut cty::c_char; } extern "C" { #[doc = " Append SRC onto DEST."] pub fn strcat(__dest: *mut cty::c_char, __src: *const cty::c_char) -> *mut cty::c_char; } extern "C" { #[doc = " Append no more than N characters from SRC onto DEST."] pub fn strncat( __dest: *mut cty::c_char, __src: *const cty::c_char, __n: cty::c_ulong, ) -> *mut cty::c_char; } extern "C" { #[doc = " Compare S1 and S2."] pub fn strcmp(__s1: *const cty::c_char, __s2: *const cty::c_char) -> cty::c_int; } extern "C" { #[doc = " Compare N characters of S1 and S2."] pub fn strncmp( __s1: *const cty::c_char, __s2: *const cty::c_char, __n: cty::c_ulong, ) -> cty::c_int; } extern "C" { #[doc = " Compare the collated forms of S1 and S2."] pub fn strcoll(__s1: *const cty::c_char, __s2: *const cty::c_char) -> cty::c_int; } extern "C" { #[doc = " Put a transformation of SRC into no more than N bytes of DEST."] pub fn strxfrm( __dest: *mut cty::c_char, __src: *const cty::c_char, __n: cty::c_ulong, ) -> cty::c_ulong; } extern "C" { pub fn strchr(__s: *const cty::c_char, __c: cty::c_int) -> *mut cty::c_char; } extern "C" { pub fn strrchr(__s: *const cty::c_char, __c: cty::c_int) -> *mut cty::c_char; } extern "C" { #[doc = " Return the length of the initial segment of S which"] #[doc = "consists entirely of characters not in REJECT."] pub fn strcspn(__s: *const cty::c_char, __reject: *const cty::c_char) -> cty::c_ulong; } extern "C" { #[doc = " Return the length of the initial segment of S which"] #[doc = "consists entirely of characters in ACCEPT."] pub fn strspn(__s: *const cty::c_char, __accept: *const cty::c_char) -> cty::c_ulong; } extern "C" { pub fn strpbrk(__s: *const cty::c_char, __accept: *const cty::c_char) -> *mut cty::c_char; } extern "C" { pub fn strstr(__haystack: *const cty::c_char, __needle: *const cty::c_char) -> *mut cty::c_char; } extern "C" { #[doc = " Divide S into tokens separated by characters in DELIM."] pub fn strtok(__s: *mut cty::c_char, __delim: *const cty::c_char) -> *mut cty::c_char; } extern "C" { #[doc = " Divide S into tokens separated by characters in DELIM. Information"] #[doc = "passed between calls are stored in SAVE_PTR."] pub fn __strtok_r( __s: *mut cty::c_char, __delim: *const cty::c_char, __save_ptr: *mut *mut cty::c_char, ) -> *mut cty::c_char; } extern "C" { pub fn strtok_r( __s: *mut cty::c_char, __delim: *const cty::c_char, __save_ptr: *mut *mut cty::c_char, ) -> *mut cty::c_char; } extern "C" { #[doc = " Return the length of S."] pub fn strlen(__s: *const cty::c_char) -> cty::c_ulong; } extern "C" { #[doc = " Return a string describing the meaning of the `errno' code in ERRNUM."] pub fn strerror(__errnum: cty::c_int) -> *mut cty::c_char; } #[doc = " An integral type that can be modified atomically, without the"] #[doc = "possibility of a signal arriving in the middle of the operation."] pub type sig_atomic_t = __sig_atomic_t; #[repr(C)] #[derive(Debug, Copy, Clone)] pub struct __sigset_t { pub __val: [cty::c_ulong; 16usize], } #[test] fn bindgen_test_layout___sigset_t() { assert_eq!( ::core::mem::size_of::<__sigset_t>(), 128usize, concat!("Size of: ", stringify!(__sigset_t)) ); assert_eq!( ::core::mem::align_of::<__sigset_t>(), 8usize, concat!("Alignment of ", stringify!(__sigset_t)) ); assert_eq!( unsafe { &(*(::core::ptr::null::<__sigset_t>())).__val as *const _ as usize }, 0usize, concat!( "Offset of field: ", stringify!(__sigset_t), "::", stringify!(__val) ) ); } #[doc = " A set of signals to be blocked, unblocked, or waited for."] pub type sigset_t = __sigset_t; pub type pid_t = __pid_t; pub type uid_t = __uid_t; #[doc = " Type of a signal handler."] pub type __sighandler_t = ::core::option::Option; extern "C" { #[doc = " The X/Open definition of `signal' specifies the SVID semantic. Use"] #[doc = "the additional function `sysv_signal' when X/Open compatibility is"] #[doc = "requested."] pub fn __sysv_signal(__sig: cty::c_int, __handler: __sighandler_t) -> __sighandler_t; } extern "C" { pub fn kill(__pid: __pid_t, __sig: cty::c_int) -> cty::c_int; } extern "C" { #[doc = " Raise signal SIG, i.e., send SIG to yourself."] pub fn raise(__sig: cty::c_int) -> cty::c_int; } extern "C" { #[doc = " Clear all signals from SET."] pub fn sigemptyset(__set: *mut sigset_t) -> cty::c_int; } extern "C" { #[doc = " Set all signals in SET."] pub fn sigfillset(__set: *mut sigset_t) -> cty::c_int; } extern "C" { #[doc = " Add SIGNO to SET."] pub fn sigaddset(__set: *mut sigset_t, __signo: cty::c_int) -> cty::c_int; } extern "C" { #[doc = " Remove SIGNO from SET."] pub fn sigdelset(__set: *mut sigset_t, __signo: cty::c_int) -> cty::c_int; } extern "C" { #[doc = " Return 1 if SIGNO is in SET, 0 if not."] pub fn sigismember(__set: *const sigset_t, __signo: cty::c_int) -> cty::c_int; } #[doc = " Structure describing the action to be taken when a signal arrives."] #[repr(C)] #[derive(Debug, Copy, Clone)] pub struct sigaction { pub sa_handler: __sighandler_t, #[doc = " Additional set of signals to be blocked."] pub sa_mask: __sigset_t, #[doc = " Special flags."] pub sa_flags: cty::c_int, #[doc = " Restore handler."] pub sa_restorer: ::core::option::Option, } #[test] fn bindgen_test_layout_sigaction() { assert_eq!( ::core::mem::size_of::(), 152usize, concat!("Size of: ", stringify!(sigaction)) ); assert_eq!( ::core::mem::align_of::(), 8usize, concat!("Alignment of ", stringify!(sigaction)) ); assert_eq!( unsafe { &(*(::core::ptr::null::())).sa_handler as *const _ as usize }, 0usize, concat!( "Offset of field: ", stringify!(sigaction), "::", stringify!(sa_handler) ) ); assert_eq!( unsafe { &(*(::core::ptr::null::())).sa_mask as *const _ as usize }, 8usize, concat!( "Offset of field: ", stringify!(sigaction), "::", stringify!(sa_mask) ) ); assert_eq!( unsafe { &(*(::core::ptr::null::())).sa_flags as *const _ as usize }, 136usize, concat!( "Offset of field: ", stringify!(sigaction), "::", stringify!(sa_flags) ) ); assert_eq!( unsafe { &(*(::core::ptr::null::())).sa_restorer as *const _ as usize }, 144usize, concat!( "Offset of field: ", stringify!(sigaction), "::", stringify!(sa_restorer) ) ); } extern "C" { #[doc = " Get and/or change the set of blocked signals."] pub fn sigprocmask( __how: cty::c_int, __set: *const sigset_t, __oset: *mut sigset_t, ) -> cty::c_int; } extern "C" { #[doc = " Change the set of blocked signals to SET,"] #[doc = "wait until a signal arrives, and restore the set of blocked signals."] #[doc = ""] #[doc = "This function is a cancellation point and therefore not marked with"] #[doc = "__THROW."] pub fn sigsuspend(__set: *const sigset_t) -> cty::c_int; } extern "C" { #[doc = " Get and/or set the action for signal SIG."] pub fn sigaction( __sig: cty::c_int, __act: *const sigaction, __oact: *mut sigaction, ) -> cty::c_int; } extern "C" { #[doc = " Put in SET all signals that are blocked and waiting to be delivered."] pub fn sigpending(__set: *mut sigset_t) -> cty::c_int; } extern "C" { #[doc = " Return number of available real-time signal with highest priority."] pub fn __libc_current_sigrtmin() -> cty::c_int; } extern "C" { #[doc = " Return number of available real-time signal with lowest priority."] pub fn __libc_current_sigrtmax() -> cty::c_int; } #[doc = " Structure for scatter/gather I/O."] #[repr(C)] #[derive(Debug, Copy, Clone)] pub struct iovec { #[doc = " Pointer to data."] pub iov_base: *mut cty::c_void, #[doc = " Length of data."] pub iov_len: size_t, } #[test] fn bindgen_test_layout_iovec() { assert_eq!( ::core::mem::size_of::(), 16usize, concat!("Size of: ", stringify!(iovec)) ); assert_eq!( ::core::mem::align_of::(), 8usize, concat!("Alignment of ", stringify!(iovec)) ); assert_eq!( unsafe { &(*(::core::ptr::null::())).iov_base as *const _ as usize }, 0usize, concat!( "Offset of field: ", stringify!(iovec), "::", stringify!(iov_base) ) ); assert_eq!( unsafe { &(*(::core::ptr::null::())).iov_len as *const _ as usize }, 8usize, concat!( "Offset of field: ", stringify!(iovec), "::", stringify!(iov_len) ) ); } pub type ino_t = __ino_t; pub type dev_t = __dev_t; pub type gid_t = __gid_t; pub type mode_t = __mode_t; pub type nlink_t = __nlink_t; pub type off_t = __off_t; pub type id_t = __id_t; pub type ssize_t = __ssize_t; pub type key_t = __key_t; #[doc = " Clock ID used in clock and timer functions."] pub type clockid_t = __clockid_t; #[doc = " Timer ID returned by `timer_create'."] pub type timer_t = __timer_t; pub type useconds_t = __useconds_t; pub type suseconds_t = __suseconds_t; #[doc = " These were defined by ISO C without the first `_'."] pub type u_int8_t = __uint8_t; pub type u_int16_t = __uint16_t; pub type u_int32_t = __uint32_t; pub type u_int64_t = __uint64_t; pub type register_t = cty::c_long; pub type blkcnt_t = __blkcnt_t; pub type fsblkcnt_t = __fsblkcnt_t; pub type fsfilcnt_t = __fsfilcnt_t; pub type socklen_t = __socklen_t; #[doc = " Sequenced, reliable, connection-based"] #[doc = "byte streams."] pub const __socket_type_SOCK_STREAM: __socket_type = 1; #[doc = " Connectionless, unreliable datagrams"] #[doc = "of fixed maximum length."] pub const __socket_type_SOCK_DGRAM: __socket_type = 2; #[doc = " Raw protocol interface."] pub const __socket_type_SOCK_RAW: __socket_type = 3; #[doc = " Reliably-delivered messages."] pub const __socket_type_SOCK_RDM: __socket_type = 4; #[doc = " Sequenced, reliable, connection-based,"] #[doc = "datagrams of fixed maximum length."] pub const __socket_type_SOCK_SEQPACKET: __socket_type = 5; #[doc = " Datagram Congestion Control Protocol."] pub const __socket_type_SOCK_DCCP: __socket_type = 6; #[doc = " Linux specific way of getting packets"] #[doc = "at the dev level. For writing rarp and"] #[doc = "other similar things on the user level."] pub const __socket_type_SOCK_PACKET: __socket_type = 10; #[doc = " Atomically set close-on-exec flag for the"] #[doc = "new descriptor(s)."] pub const __socket_type_SOCK_CLOEXEC: __socket_type = 524288; #[doc = " Atomically mark descriptor(s) as"] #[doc = "non-blocking."] pub const __socket_type_SOCK_NONBLOCK: __socket_type = 2048; #[doc = " Types of sockets."] pub type __socket_type = cty::c_uint; #[doc = " POSIX.1g specifies this type name for the `sa_family' member."] pub type sa_family_t = cty::c_ushort; #[doc = " Structure describing a generic socket address."] #[repr(C)] #[derive(Debug, Copy, Clone)] pub struct sockaddr { pub sa_family: sa_family_t, #[doc = " Address data."] pub sa_data: [cty::c_char; 14usize], } #[test] fn bindgen_test_layout_sockaddr() { assert_eq!( ::core::mem::size_of::(), 16usize, concat!("Size of: ", stringify!(sockaddr)) ); assert_eq!( ::core::mem::align_of::(), 2usize, concat!("Alignment of ", stringify!(sockaddr)) ); assert_eq!( unsafe { &(*(::core::ptr::null::())).sa_family as *const _ as usize }, 0usize, concat!( "Offset of field: ", stringify!(sockaddr), "::", stringify!(sa_family) ) ); assert_eq!( unsafe { &(*(::core::ptr::null::())).sa_data as *const _ as usize }, 2usize, concat!( "Offset of field: ", stringify!(sockaddr), "::", stringify!(sa_data) ) ); } #[repr(C)] #[derive(Copy, Clone)] pub struct sockaddr_storage { pub ss_family: sa_family_t, pub __ss_padding: [cty::c_char; 118usize], #[doc = " Force desired alignment."] pub __ss_align: cty::c_ulong, } #[test] fn bindgen_test_layout_sockaddr_storage() { assert_eq!( ::core::mem::size_of::(), 128usize, concat!("Size of: ", stringify!(sockaddr_storage)) ); assert_eq!( ::core::mem::align_of::(), 8usize, concat!("Alignment of ", stringify!(sockaddr_storage)) ); assert_eq!( unsafe { &(*(::core::ptr::null::())).ss_family as *const _ as usize }, 0usize, concat!( "Offset of field: ", stringify!(sockaddr_storage), "::", stringify!(ss_family) ) ); assert_eq!( unsafe { &(*(::core::ptr::null::())).__ss_padding as *const _ as usize }, 2usize, concat!( "Offset of field: ", stringify!(sockaddr_storage), "::", stringify!(__ss_padding) ) ); assert_eq!( unsafe { &(*(::core::ptr::null::())).__ss_align as *const _ as usize }, 120usize, concat!( "Offset of field: ", stringify!(sockaddr_storage), "::", stringify!(__ss_align) ) ); } #[doc = " Process out-of-band data."] pub const MSG_OOB: cty::c_uint = 1; #[doc = " Peek at incoming messages."] pub const MSG_PEEK: cty::c_uint = 2; #[doc = " Don't use local routing."] pub const MSG_DONTROUTE: cty::c_uint = 4; #[doc = " Control data lost before delivery."] pub const MSG_CTRUNC: cty::c_uint = 8; #[doc = " Supply or ask second address."] pub const MSG_PROXY: cty::c_uint = 16; pub const MSG_TRUNC: cty::c_uint = 32; #[doc = " Nonblocking IO."] pub const MSG_DONTWAIT: cty::c_uint = 64; #[doc = " End of record."] pub const MSG_EOR: cty::c_uint = 128; #[doc = " Wait for a full request."] pub const MSG_WAITALL: cty::c_uint = 256; pub const MSG_FIN: cty::c_uint = 512; pub const MSG_SYN: cty::c_uint = 1024; #[doc = " Confirm path validity."] pub const MSG_CONFIRM: cty::c_uint = 2048; pub const MSG_RST: cty::c_uint = 4096; #[doc = " Fetch message from error queue."] pub const MSG_ERRQUEUE: cty::c_uint = 8192; #[doc = " Do not generate SIGPIPE."] pub const MSG_NOSIGNAL: cty::c_uint = 16384; #[doc = " Sender will send more."] pub const MSG_MORE: cty::c_uint = 32768; #[doc = " Wait for at least one packet to return."] pub const MSG_WAITFORONE: cty::c_uint = 65536; #[doc = " sendmmsg: more messages coming."] pub const MSG_BATCH: cty::c_uint = 262144; #[doc = " Use user data in kernel path."] pub const MSG_ZEROCOPY: cty::c_uint = 67108864; #[doc = " Send data in TCP SYN."] pub const MSG_FASTOPEN: cty::c_uint = 536870912; #[doc = " Set close_on_exit for file"] #[doc = "descriptor received through"] #[doc = "SCM_RIGHTS."] pub const MSG_CMSG_CLOEXEC: cty::c_uint = 1073741824; #[doc = " Bits in the FLAGS argument to `send', `recv', et al."] pub type _bindgen_ty_3 = cty::c_uint; #[doc = " Structure describing messages sent by"] #[doc = "`sendmsg' and received by `recvmsg'."] #[repr(C)] #[derive(Debug, Copy, Clone)] pub struct msghdr { #[doc = " Address to send to/receive from."] pub msg_name: *mut cty::c_void, #[doc = " Length of address data."] pub msg_namelen: socklen_t, #[doc = " Vector of data to send/receive into."] pub msg_iov: *mut iovec, #[doc = " Number of elements in the vector."] pub msg_iovlen: size_t, #[doc = " Ancillary data (eg BSD filedesc passing)."] pub msg_control: *mut cty::c_void, #[doc = " Ancillary data buffer length."] #[doc = " The type should be socklen_t but the"] #[doc = "definition of the kernel is incompatible"] #[doc = "with this."] pub msg_controllen: size_t, #[doc = " Flags on received message."] pub msg_flags: cty::c_int, } #[test] fn bindgen_test_layout_msghdr() { assert_eq!( ::core::mem::size_of::(), 56usize, concat!("Size of: ", stringify!(msghdr)) ); assert_eq!( ::core::mem::align_of::(), 8usize, concat!("Alignment of ", stringify!(msghdr)) ); assert_eq!( unsafe { &(*(::core::ptr::null::())).msg_name as *const _ as usize }, 0usize, concat!( "Offset of field: ", stringify!(msghdr), "::", stringify!(msg_name) ) ); assert_eq!( unsafe { &(*(::core::ptr::null::())).msg_namelen as *const _ as usize }, 8usize, concat!( "Offset of field: ", stringify!(msghdr), "::", stringify!(msg_namelen) ) ); assert_eq!( unsafe { &(*(::core::ptr::null::())).msg_iov as *const _ as usize }, 16usize, concat!( "Offset of field: ", stringify!(msghdr), "::", stringify!(msg_iov) ) ); assert_eq!( unsafe { &(*(::core::ptr::null::())).msg_iovlen as *const _ as usize }, 24usize, concat!( "Offset of field: ", stringify!(msghdr), "::", stringify!(msg_iovlen) ) ); assert_eq!( unsafe { &(*(::core::ptr::null::())).msg_control as *const _ as usize }, 32usize, concat!( "Offset of field: ", stringify!(msghdr), "::", stringify!(msg_control) ) ); assert_eq!( unsafe { &(*(::core::ptr::null::())).msg_controllen as *const _ as usize }, 40usize, concat!( "Offset of field: ", stringify!(msghdr), "::", stringify!(msg_controllen) ) ); assert_eq!( unsafe { &(*(::core::ptr::null::())).msg_flags as *const _ as usize }, 48usize, concat!( "Offset of field: ", stringify!(msghdr), "::", stringify!(msg_flags) ) ); } #[doc = " Structure used for storage of ancillary data object information."] #[repr(C)] #[derive(Debug)] pub struct cmsghdr { #[doc = " Length of data in cmsg_data plus length"] #[doc = "of cmsghdr structure."] #[doc = " The type should be socklen_t but the"] #[doc = "definition of the kernel is incompatible"] #[doc = "with this."] pub cmsg_len: size_t, #[doc = " Originating protocol."] pub cmsg_level: cty::c_int, #[doc = " Protocol specific type."] pub cmsg_type: cty::c_int, #[doc = " Ancillary data."] pub __cmsg_data: __IncompleteArrayField, } #[test] fn bindgen_test_layout_cmsghdr() { assert_eq!( ::core::mem::size_of::(), 16usize, concat!("Size of: ", stringify!(cmsghdr)) ); assert_eq!( ::core::mem::align_of::(), 8usize, concat!("Alignment of ", stringify!(cmsghdr)) ); assert_eq!( unsafe { &(*(::core::ptr::null::())).cmsg_len as *const _ as usize }, 0usize, concat!( "Offset of field: ", stringify!(cmsghdr), "::", stringify!(cmsg_len) ) ); assert_eq!( unsafe { &(*(::core::ptr::null::())).cmsg_level as *const _ as usize }, 8usize, concat!( "Offset of field: ", stringify!(cmsghdr), "::", stringify!(cmsg_level) ) ); assert_eq!( unsafe { &(*(::core::ptr::null::())).cmsg_type as *const _ as usize }, 12usize, concat!( "Offset of field: ", stringify!(cmsghdr), "::", stringify!(cmsg_type) ) ); assert_eq!( unsafe { &(*(::core::ptr::null::())).__cmsg_data as *const _ as usize }, 16usize, concat!( "Offset of field: ", stringify!(cmsghdr), "::", stringify!(__cmsg_data) ) ); } extern "C" { pub fn __cmsg_nxthdr(__mhdr: *mut msghdr, __cmsg: *mut cmsghdr) -> *mut cmsghdr; } #[doc = " Transfer file descriptors."] pub const SCM_RIGHTS: cty::c_uint = 1; #[doc = " Socket level message types. This must match the definitions in"] #[doc = "."] pub type _bindgen_ty_4 = cty::c_uint; #[doc = " Structure used to manipulate the SO_LINGER option."] #[repr(C)] #[derive(Debug, Copy, Clone)] pub struct linger { #[doc = " Nonzero to linger on close."] pub l_onoff: cty::c_int, #[doc = " Time to linger."] pub l_linger: cty::c_int, } #[test] fn bindgen_test_layout_linger() { assert_eq!( ::core::mem::size_of::(), 8usize, concat!("Size of: ", stringify!(linger)) ); assert_eq!( ::core::mem::align_of::(), 4usize, concat!("Alignment of ", stringify!(linger)) ); assert_eq!( unsafe { &(*(::core::ptr::null::())).l_onoff as *const _ as usize }, 0usize, concat!( "Offset of field: ", stringify!(linger), "::", stringify!(l_onoff) ) ); assert_eq!( unsafe { &(*(::core::ptr::null::())).l_linger as *const _ as usize }, 4usize, concat!( "Offset of field: ", stringify!(linger), "::", stringify!(l_linger) ) ); } #[doc = " No more receptions."] pub const SHUT_RD: cty::c_uint = 0; #[doc = " No more transmissions."] pub const SHUT_WR: cty::c_uint = 1; #[doc = " No more receptions or transmissions."] pub const SHUT_RDWR: cty::c_uint = 2; #[doc = " The following constants should be used for the second parameter of"] #[doc = "`shutdown'."] pub type _bindgen_ty_5 = cty::c_uint; extern "C" { #[doc = " Create a new socket of type TYPE in domain DOMAIN, using"] #[doc = "protocol PROTOCOL. If PROTOCOL is zero, one is chosen automatically."] #[doc = "Returns a file descriptor for the new socket, or -1 for errors."] pub fn socket(__domain: cty::c_int, __type: cty::c_int, __protocol: cty::c_int) -> cty::c_int; } extern "C" { #[doc = " Create two new sockets, of type TYPE in domain DOMAIN and using"] #[doc = "protocol PROTOCOL, which are connected to each other, and put file"] #[doc = "descriptors for them in FDS[0] and FDS[1]. If PROTOCOL is zero,"] #[doc = "one will be chosen automatically. Returns 0 on success, -1 for errors."] pub fn socketpair( __domain: cty::c_int, __type: cty::c_int, __protocol: cty::c_int, __fds: *mut cty::c_int, ) -> cty::c_int; } extern "C" { #[doc = " Give the socket FD the local address ADDR (which is LEN bytes long)."] pub fn bind(__fd: cty::c_int, __addr: *const sockaddr, __len: socklen_t) -> cty::c_int; } extern "C" { #[doc = " Put the local address of FD into *ADDR and its length in *LEN."] pub fn getsockname( __fd: cty::c_int, __addr: *mut sockaddr, __len: *mut socklen_t, ) -> cty::c_int; } extern "C" { #[doc = " Open a connection on socket FD to peer at ADDR (which LEN bytes long)."] #[doc = "For connectionless socket types, just set the default address to send to"] #[doc = "and the only address from which to accept transmissions."] #[doc = "Return 0 on success, -1 for errors."] #[doc = ""] #[doc = "This function is a cancellation point and therefore not marked with"] #[doc = "__THROW."] pub fn connect(__fd: cty::c_int, __addr: *const sockaddr, __len: socklen_t) -> cty::c_int; } extern "C" { #[doc = " Put the address of the peer connected to socket FD into *ADDR"] #[doc = "(which is *LEN bytes long), and its actual length into *LEN."] pub fn getpeername( __fd: cty::c_int, __addr: *mut sockaddr, __len: *mut socklen_t, ) -> cty::c_int; } extern "C" { #[doc = " Send N bytes of BUF to socket FD. Returns the number sent or -1."] #[doc = ""] #[doc = "This function is a cancellation point and therefore not marked with"] #[doc = "__THROW."] pub fn send( __fd: cty::c_int, __buf: *const cty::c_void, __n: size_t, __flags: cty::c_int, ) -> ssize_t; } extern "C" { #[doc = " Read N bytes into BUF from socket FD."] #[doc = "Returns the number read or -1 for errors."] #[doc = ""] #[doc = "This function is a cancellation point and therefore not marked with"] #[doc = "__THROW."] pub fn recv( __fd: cty::c_int, __buf: *mut cty::c_void, __n: size_t, __flags: cty::c_int, ) -> ssize_t; } extern "C" { #[doc = " Send N bytes of BUF on socket FD to peer at address ADDR (which is"] #[doc = "ADDR_LEN bytes long). Returns the number sent, or -1 for errors."] #[doc = ""] #[doc = "This function is a cancellation point and therefore not marked with"] #[doc = "__THROW."] pub fn sendto( __fd: cty::c_int, __buf: *const cty::c_void, __n: size_t, __flags: cty::c_int, __addr: *const sockaddr, __addr_len: socklen_t, ) -> ssize_t; } extern "C" { #[doc = " Read N bytes into BUF through socket FD."] #[doc = "If ADDR is not NULL, fill in *ADDR_LEN bytes of it with tha address of"] #[doc = "the sender, and store the actual size of the address in *ADDR_LEN."] #[doc = "Returns the number of bytes read or -1 for errors."] #[doc = ""] #[doc = "This function is a cancellation point and therefore not marked with"] #[doc = "__THROW."] pub fn recvfrom( __fd: cty::c_int, __buf: *mut cty::c_void, __n: size_t, __flags: cty::c_int, __addr: *mut sockaddr, __addr_len: *mut socklen_t, ) -> ssize_t; } extern "C" { #[doc = " Send a message described MESSAGE on socket FD."] #[doc = "Returns the number of bytes sent, or -1 for errors."] #[doc = ""] #[doc = "This function is a cancellation point and therefore not marked with"] #[doc = "__THROW."] pub fn sendmsg(__fd: cty::c_int, __message: *const msghdr, __flags: cty::c_int) -> ssize_t; } extern "C" { #[doc = " Receive a message as described by MESSAGE from socket FD."] #[doc = "Returns the number of bytes read or -1 for errors."] #[doc = ""] #[doc = "This function is a cancellation point and therefore not marked with"] #[doc = "__THROW."] pub fn recvmsg(__fd: cty::c_int, __message: *mut msghdr, __flags: cty::c_int) -> ssize_t; } extern "C" { #[doc = " Put the current value for socket FD's option OPTNAME at protocol level LEVEL"] #[doc = "into OPTVAL (which is *OPTLEN bytes long), and set *OPTLEN to the value's"] #[doc = "actual length. Returns 0 on success, -1 for errors."] pub fn getsockopt( __fd: cty::c_int, __level: cty::c_int, __optname: cty::c_int, __optval: *mut cty::c_void, __optlen: *mut socklen_t, ) -> cty::c_int; } extern "C" { #[doc = " Set socket FD's option OPTNAME at protocol level LEVEL"] #[doc = "to *OPTVAL (which is OPTLEN bytes long)."] #[doc = "Returns 0 on success, -1 for errors."] pub fn setsockopt( __fd: cty::c_int, __level: cty::c_int, __optname: cty::c_int, __optval: *const cty::c_void, __optlen: socklen_t, ) -> cty::c_int; } extern "C" { #[doc = " Prepare to accept connections on socket FD."] #[doc = "N connection requests will be queued before further requests are refused."] #[doc = "Returns 0 on success, -1 for errors."] pub fn listen(__fd: cty::c_int, __n: cty::c_int) -> cty::c_int; } extern "C" { #[doc = " Await a connection on socket FD."] #[doc = "When a connection arrives, open a new socket to communicate with it,"] #[doc = "set *ADDR (which is *ADDR_LEN bytes long) to the address of the connecting"] #[doc = "peer and *ADDR_LEN to the address's actual length, and return the"] #[doc = "new socket's descriptor, or -1 for errors."] #[doc = ""] #[doc = "This function is a cancellation point and therefore not marked with"] #[doc = "__THROW."] pub fn accept( __fd: cty::c_int, __addr: *mut sockaddr, __addr_len: *mut socklen_t, ) -> cty::c_int; } extern "C" { #[doc = " Shut down all or part of the connection open on socket FD."] #[doc = "HOW determines what to shut down:"] #[doc = "SHUT_RD = No more receptions;"] #[doc = "SHUT_WR = No more transmissions;"] #[doc = "SHUT_RDWR = No more receptions or transmissions."] #[doc = "Returns 0 on success, -1 for errors."] pub fn shutdown(__fd: cty::c_int, __how: cty::c_int) -> cty::c_int; } #[doc = " Internet address."] pub type in_addr_t = u32; #[repr(C)] #[derive(Debug, Copy, Clone)] pub struct in_addr { pub s_addr: in_addr_t, } #[test] fn bindgen_test_layout_in_addr() { assert_eq!( ::core::mem::size_of::(), 4usize, concat!("Size of: ", stringify!(in_addr)) ); assert_eq!( ::core::mem::align_of::(), 4usize, concat!("Alignment of ", stringify!(in_addr)) ); assert_eq!( unsafe { &(*(::core::ptr::null::())).s_addr as *const _ as usize }, 0usize, concat!( "Offset of field: ", stringify!(in_addr), "::", stringify!(s_addr) ) ); } #[doc = " Dummy protocol for TCP."] pub const IPPROTO_IP: cty::c_uint = 0; #[doc = " Internet Control Message Protocol."] pub const IPPROTO_ICMP: cty::c_uint = 1; #[doc = " Internet Group Management Protocol."] pub const IPPROTO_IGMP: cty::c_uint = 2; #[doc = " IPIP tunnels (older KA9Q tunnels use 94)."] pub const IPPROTO_IPIP: cty::c_uint = 4; #[doc = " Transmission Control Protocol."] pub const IPPROTO_TCP: cty::c_uint = 6; #[doc = " Exterior Gateway Protocol."] pub const IPPROTO_EGP: cty::c_uint = 8; #[doc = " PUP protocol."] pub const IPPROTO_PUP: cty::c_uint = 12; #[doc = " User Datagram Protocol."] pub const IPPROTO_UDP: cty::c_uint = 17; #[doc = " XNS IDP protocol."] pub const IPPROTO_IDP: cty::c_uint = 22; #[doc = " SO Transport Protocol Class 4."] pub const IPPROTO_TP: cty::c_uint = 29; #[doc = " Datagram Congestion Control Protocol."] pub const IPPROTO_DCCP: cty::c_uint = 33; #[doc = " IPv6 header."] pub const IPPROTO_IPV6: cty::c_uint = 41; #[doc = " Reservation Protocol."] pub const IPPROTO_RSVP: cty::c_uint = 46; #[doc = " General Routing Encapsulation."] pub const IPPROTO_GRE: cty::c_uint = 47; #[doc = " encapsulating security payload."] pub const IPPROTO_ESP: cty::c_uint = 50; #[doc = " authentication header."] pub const IPPROTO_AH: cty::c_uint = 51; #[doc = " Multicast Transport Protocol."] pub const IPPROTO_MTP: cty::c_uint = 92; #[doc = " IP option pseudo header for BEET."] pub const IPPROTO_BEETPH: cty::c_uint = 94; #[doc = " Encapsulation Header."] pub const IPPROTO_ENCAP: cty::c_uint = 98; #[doc = " Protocol Independent Multicast."] pub const IPPROTO_PIM: cty::c_uint = 103; #[doc = " Compression Header Protocol."] pub const IPPROTO_COMP: cty::c_uint = 108; #[doc = " Stream Control Transmission Protocol."] pub const IPPROTO_SCTP: cty::c_uint = 132; #[doc = " UDP-Lite protocol."] pub const IPPROTO_UDPLITE: cty::c_uint = 136; #[doc = " MPLS in IP."] pub const IPPROTO_MPLS: cty::c_uint = 137; #[doc = " Raw IP packets."] pub const IPPROTO_RAW: cty::c_uint = 255; pub const IPPROTO_MAX: cty::c_uint = 256; #[doc = " Standard well-defined IP protocols."] pub type _bindgen_ty_6 = cty::c_uint; #[doc = " IPv6 Hop-by-Hop options."] pub const IPPROTO_HOPOPTS: cty::c_uint = 0; #[doc = " IPv6 routing header."] pub const IPPROTO_ROUTING: cty::c_uint = 43; #[doc = " IPv6 fragmentation header."] pub const IPPROTO_FRAGMENT: cty::c_uint = 44; #[doc = " ICMPv6."] pub const IPPROTO_ICMPV6: cty::c_uint = 58; #[doc = " IPv6 no next header."] pub const IPPROTO_NONE: cty::c_uint = 59; #[doc = " IPv6 destination options."] pub const IPPROTO_DSTOPTS: cty::c_uint = 60; #[doc = " IPv6 mobility header."] pub const IPPROTO_MH: cty::c_uint = 135; pub type _bindgen_ty_7 = cty::c_uint; #[doc = " Type to represent a port."] pub type in_port_t = u16; #[doc = " Echo service."] pub const IPPORT_ECHO: cty::c_uint = 7; #[doc = " Discard transmissions service."] pub const IPPORT_DISCARD: cty::c_uint = 9; #[doc = " System status service."] pub const IPPORT_SYSTAT: cty::c_uint = 11; #[doc = " Time of day service."] pub const IPPORT_DAYTIME: cty::c_uint = 13; #[doc = " Network status service."] pub const IPPORT_NETSTAT: cty::c_uint = 15; #[doc = " File Transfer Protocol."] pub const IPPORT_FTP: cty::c_uint = 21; #[doc = " Telnet protocol."] pub const IPPORT_TELNET: cty::c_uint = 23; #[doc = " Simple Mail Transfer Protocol."] pub const IPPORT_SMTP: cty::c_uint = 25; #[doc = " Timeserver service."] pub const IPPORT_TIMESERVER: cty::c_uint = 37; #[doc = " Domain Name Service."] pub const IPPORT_NAMESERVER: cty::c_uint = 42; #[doc = " Internet Whois service."] pub const IPPORT_WHOIS: cty::c_uint = 43; pub const IPPORT_MTP: cty::c_uint = 57; #[doc = " Trivial File Transfer Protocol."] pub const IPPORT_TFTP: cty::c_uint = 69; pub const IPPORT_RJE: cty::c_uint = 77; #[doc = " Finger service."] pub const IPPORT_FINGER: cty::c_uint = 79; pub const IPPORT_TTYLINK: cty::c_uint = 87; #[doc = " SUPDUP protocol."] pub const IPPORT_SUPDUP: cty::c_uint = 95; #[doc = " execd service."] pub const IPPORT_EXECSERVER: cty::c_uint = 512; #[doc = " rlogind service."] pub const IPPORT_LOGINSERVER: cty::c_uint = 513; pub const IPPORT_CMDSERVER: cty::c_uint = 514; pub const IPPORT_EFSSERVER: cty::c_uint = 520; #[doc = " UDP ports."] pub const IPPORT_BIFFUDP: cty::c_uint = 512; #[doc = " UDP ports."] pub const IPPORT_WHOSERVER: cty::c_uint = 513; #[doc = " UDP ports."] pub const IPPORT_ROUTESERVER: cty::c_uint = 520; #[doc = " Ports less than this value are reserved for privileged processes."] pub const IPPORT_RESERVED: cty::c_uint = 1024; #[doc = " Ports greater this value are reserved for (non-privileged) servers."] pub const IPPORT_USERRESERVED: cty::c_uint = 5000; #[doc = " Standard well-known ports."] pub type _bindgen_ty_8 = cty::c_uint; #[doc = " IPv6 address"] #[repr(C)] #[derive(Copy, Clone)] pub struct in6_addr { pub __in6_u: in6_addr__bindgen_ty_1, } #[repr(C)] #[derive(Copy, Clone)] pub union in6_addr__bindgen_ty_1 { pub __u6_addr8: [u8; 16usize], pub __u6_addr16: [u16; 8usize], pub __u6_addr32: [u32; 4usize], _bindgen_union_align: [u32; 4usize], } #[test] fn bindgen_test_layout_in6_addr__bindgen_ty_1() { assert_eq!( ::core::mem::size_of::(), 16usize, concat!("Size of: ", stringify!(in6_addr__bindgen_ty_1)) ); assert_eq!( ::core::mem::align_of::(), 4usize, concat!("Alignment of ", stringify!(in6_addr__bindgen_ty_1)) ); assert_eq!( unsafe { &(*(::core::ptr::null::())).__u6_addr8 as *const _ as usize }, 0usize, concat!( "Offset of field: ", stringify!(in6_addr__bindgen_ty_1), "::", stringify!(__u6_addr8) ) ); assert_eq!( unsafe { &(*(::core::ptr::null::())).__u6_addr16 as *const _ as usize }, 0usize, concat!( "Offset of field: ", stringify!(in6_addr__bindgen_ty_1), "::", stringify!(__u6_addr16) ) ); assert_eq!( unsafe { &(*(::core::ptr::null::())).__u6_addr32 as *const _ as usize }, 0usize, concat!( "Offset of field: ", stringify!(in6_addr__bindgen_ty_1), "::", stringify!(__u6_addr32) ) ); } #[test] fn bindgen_test_layout_in6_addr() { assert_eq!( ::core::mem::size_of::(), 16usize, concat!("Size of: ", stringify!(in6_addr)) ); assert_eq!( ::core::mem::align_of::(), 4usize, concat!("Alignment of ", stringify!(in6_addr)) ); assert_eq!( unsafe { &(*(::core::ptr::null::())).__in6_u as *const _ as usize }, 0usize, concat!( "Offset of field: ", stringify!(in6_addr), "::", stringify!(__in6_u) ) ); } extern "C" { pub static in6addr_any: in6_addr; } extern "C" { pub static in6addr_loopback: in6_addr; } #[doc = " Structure describing an Internet socket address."] #[repr(C)] #[derive(Debug, Copy, Clone)] pub struct sockaddr_in { pub sin_family: sa_family_t, #[doc = " Port number."] pub sin_port: in_port_t, #[doc = " Internet address."] pub sin_addr: in_addr, #[doc = " Pad to size of `struct sockaddr'."] pub sin_zero: [cty::c_uchar; 8usize], } #[test] fn bindgen_test_layout_sockaddr_in() { assert_eq!( ::core::mem::size_of::(), 16usize, concat!("Size of: ", stringify!(sockaddr_in)) ); assert_eq!( ::core::mem::align_of::(), 4usize, concat!("Alignment of ", stringify!(sockaddr_in)) ); assert_eq!( unsafe { &(*(::core::ptr::null::())).sin_family as *const _ as usize }, 0usize, concat!( "Offset of field: ", stringify!(sockaddr_in), "::", stringify!(sin_family) ) ); assert_eq!( unsafe { &(*(::core::ptr::null::())).sin_port as *const _ as usize }, 2usize, concat!( "Offset of field: ", stringify!(sockaddr_in), "::", stringify!(sin_port) ) ); assert_eq!( unsafe { &(*(::core::ptr::null::())).sin_addr as *const _ as usize }, 4usize, concat!( "Offset of field: ", stringify!(sockaddr_in), "::", stringify!(sin_addr) ) ); assert_eq!( unsafe { &(*(::core::ptr::null::())).sin_zero as *const _ as usize }, 8usize, concat!( "Offset of field: ", stringify!(sockaddr_in), "::", stringify!(sin_zero) ) ); } #[doc = " Ditto, for IPv6."] #[repr(C)] #[derive(Copy, Clone)] pub struct sockaddr_in6 { pub sin6_family: sa_family_t, #[doc = " Transport layer port #"] pub sin6_port: in_port_t, #[doc = " IPv6 flow information"] pub sin6_flowinfo: u32, #[doc = " IPv6 address"] pub sin6_addr: in6_addr, #[doc = " IPv6 scope-id"] pub sin6_scope_id: u32, } #[test] fn bindgen_test_layout_sockaddr_in6() { assert_eq!( ::core::mem::size_of::(), 28usize, concat!("Size of: ", stringify!(sockaddr_in6)) ); assert_eq!( ::core::mem::align_of::(), 4usize, concat!("Alignment of ", stringify!(sockaddr_in6)) ); assert_eq!( unsafe { &(*(::core::ptr::null::())).sin6_family as *const _ as usize }, 0usize, concat!( "Offset of field: ", stringify!(sockaddr_in6), "::", stringify!(sin6_family) ) ); assert_eq!( unsafe { &(*(::core::ptr::null::())).sin6_port as *const _ as usize }, 2usize, concat!( "Offset of field: ", stringify!(sockaddr_in6), "::", stringify!(sin6_port) ) ); assert_eq!( unsafe { &(*(::core::ptr::null::())).sin6_flowinfo as *const _ as usize }, 4usize, concat!( "Offset of field: ", stringify!(sockaddr_in6), "::", stringify!(sin6_flowinfo) ) ); assert_eq!( unsafe { &(*(::core::ptr::null::())).sin6_addr as *const _ as usize }, 8usize, concat!( "Offset of field: ", stringify!(sockaddr_in6), "::", stringify!(sin6_addr) ) ); assert_eq!( unsafe { &(*(::core::ptr::null::())).sin6_scope_id as *const _ as usize }, 24usize, concat!( "Offset of field: ", stringify!(sockaddr_in6), "::", stringify!(sin6_scope_id) ) ); } #[doc = " Likewise, for IPv6."] #[repr(C)] #[derive(Copy, Clone)] pub struct ipv6_mreq { #[doc = " IPv6 multicast address of group"] pub ipv6mr_multiaddr: in6_addr, #[doc = " local interface"] pub ipv6mr_interface: cty::c_uint, } #[test] fn bindgen_test_layout_ipv6_mreq() { assert_eq!( ::core::mem::size_of::(), 20usize, concat!("Size of: ", stringify!(ipv6_mreq)) ); assert_eq!( ::core::mem::align_of::(), 4usize, concat!("Alignment of ", stringify!(ipv6_mreq)) ); assert_eq!( unsafe { &(*(::core::ptr::null::())).ipv6mr_multiaddr as *const _ as usize }, 0usize, concat!( "Offset of field: ", stringify!(ipv6_mreq), "::", stringify!(ipv6mr_multiaddr) ) ); assert_eq!( unsafe { &(*(::core::ptr::null::())).ipv6mr_interface as *const _ as usize }, 16usize, concat!( "Offset of field: ", stringify!(ipv6_mreq), "::", stringify!(ipv6mr_interface) ) ); } extern "C" { #[doc = " Functions to convert between host and network byte order."] #[doc = ""] #[doc = "Please note that these functions normally take `unsigned long int' or"] #[doc = "`unsigned short int' values as arguments and also return them. But"] #[doc = "this was a short-sighted decision since on different systems the types"] #[doc = "may have different representations but the values are always the same."] pub fn ntohl(__netlong: u32) -> u32; } extern "C" { pub fn ntohs(__netshort: u16) -> u16; } extern "C" { pub fn htonl(__hostlong: u32) -> u32; } extern "C" { pub fn htons(__hostshort: u16) -> u16; } extern "C" { #[doc = " Get a human-readable string describing the running Notcurses version."] pub fn notcurses_version() -> *const cty::c_char; } extern "C" { #[doc = " Cannot be inline, as we want to get the versions of the actual Notcurses"] #[doc = " library we loaded, not what we compile against."] pub fn notcurses_version_components( major: *mut cty::c_int, minor: *mut cty::c_int, patch: *mut cty::c_int, tweak: *mut cty::c_int, ); } #[repr(C)] #[derive(Debug, Copy, Clone)] pub struct notcurses { _unused: [u8; 0], } #[repr(C)] #[derive(Debug, Copy, Clone)] pub struct ncplane { _unused: [u8; 0], } #[repr(C)] #[derive(Debug, Copy, Clone)] pub struct ncvisual { _unused: [u8; 0], } #[repr(C)] #[derive(Debug, Copy, Clone)] pub struct ncuplot { _unused: [u8; 0], } #[repr(C)] #[derive(Debug, Copy, Clone)] pub struct ncdplot { _unused: [u8; 0], } #[repr(C)] #[derive(Debug, Copy, Clone)] pub struct ncfdplane { _unused: [u8; 0], } #[repr(C)] #[derive(Debug, Copy, Clone)] pub struct ncsubproc { _unused: [u8; 0], } #[repr(C)] #[derive(Debug, Copy, Clone)] pub struct ncselector { _unused: [u8; 0], } #[repr(C)] #[derive(Debug, Copy, Clone)] pub struct ncmultiselector { _unused: [u8; 0], } #[repr(C)] #[derive(Debug, Copy, Clone)] pub struct ncreader { _unused: [u8; 0], } #[repr(C)] #[derive(Debug, Copy, Clone)] pub struct ncfadectx { _unused: [u8; 0], } #[doc = " let the ncvisual pick"] pub const ncblitter_e_NCBLIT_DEFAULT: ncblitter_e = 0; #[doc = " space, compatible with ASCII"] pub const ncblitter_e_NCBLIT_1x1: ncblitter_e = 1; #[doc = " halves + 1x1 (space) ▄▀"] pub const ncblitter_e_NCBLIT_2x1: ncblitter_e = 2; #[doc = " quadrants + 2x1 ▗▐ ▖▀▟▌▙"] pub const ncblitter_e_NCBLIT_2x2: ncblitter_e = 3; #[doc = " sextants (*NOT* 2x2) 🬀🬁🬂🬃🬄🬅🬆🬇🬈🬉🬊🬋🬌🬍🬎🬏🬐🬑🬒🬓🬔🬕🬖🬗🬘🬙🬚🬛🬜🬝🬞🬟🬠🬡🬢🬣🬤🬥🬦🬧🬨🬩🬪🬫🬬🬭🬮🬯🬰🬱🬲🬳🬴🬵🬶🬷🬸🬹🬺🬻"] pub const ncblitter_e_NCBLIT_3x2: ncblitter_e = 4; #[doc = " four vertical levels █▆▄▂"] pub const ncblitter_e_NCBLIT_4x1: ncblitter_e = 5; #[doc = " 4 rows, 2 cols (braille) ⡀⡄⡆⡇⢀⣀⣄⣆⣇⢠⣠⣤⣦⣧⢰⣰⣴⣶⣷⢸⣸⣼⣾⣿"] pub const ncblitter_e_NCBLIT_BRAILLE: ncblitter_e = 6; #[doc = " eight vertical levels █▇▆▅▄▃▂▁"] pub const ncblitter_e_NCBLIT_8x1: ncblitter_e = 7; #[doc = " not yet implemented"] pub const ncblitter_e_NCBLIT_SIXEL: ncblitter_e = 8; #[doc = " we never blit full blocks, but instead spaces (more efficient) with the"] #[doc = " background set to the desired foreground."] pub type ncblitter_e = cty::c_uint; pub const ncalign_e_NCALIGN_UNALIGNED: ncalign_e = 0; pub const ncalign_e_NCALIGN_LEFT: ncalign_e = 1; pub const ncalign_e_NCALIGN_CENTER: ncalign_e = 2; pub const ncalign_e_NCALIGN_RIGHT: ncalign_e = 3; #[doc = " Alignment within a plane or terminal. Left/right-justified, or centered."] pub type ncalign_e = cty::c_uint; pub const ncscale_e_NCSCALE_NONE: ncscale_e = 0; pub const ncscale_e_NCSCALE_SCALE: ncscale_e = 1; pub const ncscale_e_NCSCALE_STRETCH: ncscale_e = 2; #[doc = " How to scale an ncvisual during rendering. NCSCALE_NONE will apply no"] #[doc = " scaling. NCSCALE_SCALE scales a visual to the plane's size, maintaining"] #[doc = " aspect ratio. NCSCALE_STRETCH stretches and scales the image in an"] #[doc = " attempt to fill the entirety of the plane."] pub type ncscale_e = cty::c_uint; extern "C" { #[doc = " Returns the number of columns occupied by a multibyte (UTF-8) string, or"] #[doc = " -1 if a non-printable/illegal character is encountered."] pub fn ncstrwidth(mbs: *const cty::c_char) -> cty::c_int; } extern "C" { #[doc = " input functions like notcurses_getc() return ucs32-encoded char32_t. convert"] #[doc = " a series of char32_t to utf8. result must be at least 4 bytes per input"] #[doc = " char32_t (6 bytes per char32_t will future-proof against Unicode expansion)."] #[doc = " the number of bytes used is returned, or -1 if passed illegal ucs32, or too"] #[doc = " small of a buffer."] pub fn notcurses_ucs32_to_utf8( ucs32: *const char32_t, ucs32count: cty::c_uint, resultbuf: *mut cty::c_uchar, buflen: size_t, ) -> cty::c_int; } #[doc = " A cell corresponds to a single character cell on some plane, which can be"] #[doc = " occupied by a single grapheme cluster (some root spacing glyph, along with"] #[doc = " possible combining characters, which might span multiple columns). At any"] #[doc = " cell, we can have a theoretically arbitrarily long UTF-8 string, a foreground"] #[doc = " color, a background color, and an attribute set. Valid grapheme cluster"] #[doc = " contents include:"] #[doc = ""] #[doc = " * A NUL terminator,"] #[doc = " * A single control character, followed by a NUL terminator,"] #[doc = " * At most one spacing character, followed by zero or more nonspacing"] #[doc = " characters, followed by a NUL terminator."] #[doc = ""] #[doc = " Multi-column characters can only have a single style/color throughout."] #[doc = " Existence is suffering, and thus wcwidth() is not reliable. It's just"] #[doc = " quoting whether or not the EGC contains a \"Wide Asian\" double-width"] #[doc = " character. This is set for some things, like most emoji, and not set for"] #[doc = " other things, like cuneiform. Fucccccck. True display width is a *property"] #[doc = " of the font*. Fuccccccccckkkkk. Among the longest Unicode codepoints is"] #[doc = ""] #[doc = " U+FDFD ARABIC LIGATURE BISMILLAH AR-RAHMAN AR-RAHEEM ﷽"] #[doc = ""] #[doc = " wcwidth() rather optimistically claims this suicide bomber of a glyph to"] #[doc = " occupy a single column, right before it explodes in your diner. BiDi text"] #[doc = " is too complicated for me to even get into here. It sucks ass. Be assured"] #[doc = " there are no easy answers. Allah, the All-Powerful, has fucked us again!"] #[doc = ""] #[doc = " Each cell occupies 16 static bytes (128 bits). The surface is thus ~1.6MB"] #[doc = " for a (pretty large) 500x200 terminal. At 80x43, it's less than 64KB."] #[doc = " Dynamic requirements (the egcpool) can add up to 16MB to an ncplane, but"] #[doc = " such large pools are unlikely in common use."] #[doc = ""] #[doc = " We implement some small alpha compositing. Foreground and background both"] #[doc = " have two bits of inverted alpha. The actual grapheme written to a cell is"] #[doc = " the topmost non-zero grapheme. If its alpha is 00, its foreground color is"] #[doc = " used unchanged. If its alpha is 10, its foreground color is derived entirely"] #[doc = " from cells underneath it. Otherwise, the result will be a composite."] #[doc = " Likewise for the background. If the bottom of a coordinate's zbuffer is"] #[doc = " reached with a cumulative alpha of zero, the default is used. In this way,"] #[doc = " a terminal configured with transparent background can be supported through"] #[doc = " multiple occluding ncplanes. A foreground alpha of 11 requests high-contrast"] #[doc = " text (relative to the computed background). A background alpha of 11 is"] #[doc = " currently forbidden."] #[doc = ""] #[doc = " Default color takes precedence over palette or RGB, and cannot be used with"] #[doc = " transparency. Indexed palette takes precedence over RGB. It cannot"] #[doc = " meaningfully set transparency, but it can be mixed into a cascading color."] #[doc = " RGB is used if neither default terminal colors nor palette indexing are in"] #[doc = " play, and fully supports all transparency options."] #[repr(C)] #[derive(Debug, Copy, Clone)] pub struct cell { #[doc = " 4B → 4B"] pub gcluster: u32, #[doc = " 1B → 5B (8 bits of zero)"] pub gcluster_backstop: u8, #[doc = " 1B → 6B (8 reserved bits, ought be zero)"] pub reserved: u8, #[doc = " 2B → 8B (16 bits of NCSTYLE_* attributes)"] pub stylemask: u16, #[doc = " + 8B == 16B"] pub channels: u64, } #[test] fn bindgen_test_layout_cell() { assert_eq!( ::core::mem::size_of::(), 16usize, concat!("Size of: ", stringify!(cell)) ); assert_eq!( ::core::mem::align_of::(), 8usize, concat!("Alignment of ", stringify!(cell)) ); assert_eq!( unsafe { &(*(::core::ptr::null::())).gcluster as *const _ as usize }, 0usize, concat!( "Offset of field: ", stringify!(cell), "::", stringify!(gcluster) ) ); assert_eq!( unsafe { &(*(::core::ptr::null::())).gcluster_backstop as *const _ as usize }, 4usize, concat!( "Offset of field: ", stringify!(cell), "::", stringify!(gcluster_backstop) ) ); assert_eq!( unsafe { &(*(::core::ptr::null::())).reserved as *const _ as usize }, 5usize, concat!( "Offset of field: ", stringify!(cell), "::", stringify!(reserved) ) ); assert_eq!( unsafe { &(*(::core::ptr::null::())).stylemask as *const _ as usize }, 6usize, concat!( "Offset of field: ", stringify!(cell), "::", stringify!(stylemask) ) ); assert_eq!( unsafe { &(*(::core::ptr::null::())).channels as *const _ as usize }, 8usize, concat!( "Offset of field: ", stringify!(cell), "::", stringify!(channels) ) ); } extern "C" { #[doc = " Breaks the UTF-8 string in 'gcluster' down, setting up the cell 'c'. Returns"] #[doc = " the number of bytes copied out of 'gcluster', or -1 on failure. The styling"] #[doc = " of the cell is left untouched, but any resources are released."] pub fn cell_load(n: *mut ncplane, c: *mut cell, gcluster: *const cty::c_char) -> cty::c_int; } extern "C" { #[doc = " Duplicate 'c' into 'targ'; both must be/will be bound to 'n'."] pub fn cell_duplicate(n: *mut ncplane, targ: *mut cell, c: *const cell) -> cty::c_int; } extern "C" { #[doc = " Release resources held by the cell 'c'."] pub fn cell_release(n: *mut ncplane, c: *mut cell); } extern "C" { #[doc = " return a pointer to the NUL-terminated EGC referenced by 'c'. this pointer"] #[doc = " can be invalidated by any further operation on the plane 'n', so...watch out!"] pub fn cell_extended_gcluster(n: *const ncplane, c: *const cell) -> *const cty::c_char; } #[doc = " default. print nothing once fullscreen service begins"] pub const ncloglevel_e_NCLOGLEVEL_SILENT: ncloglevel_e = 0; #[doc = " print diagnostics immediately related to crashing"] pub const ncloglevel_e_NCLOGLEVEL_PANIC: ncloglevel_e = 1; #[doc = " we're hanging around, but we've had a horrible fault"] pub const ncloglevel_e_NCLOGLEVEL_FATAL: ncloglevel_e = 2; #[doc = " we can't keep doin' this, but we can do other things"] pub const ncloglevel_e_NCLOGLEVEL_ERROR: ncloglevel_e = 3; #[doc = " you probably don't want what's happening to happen"] pub const ncloglevel_e_NCLOGLEVEL_WARNING: ncloglevel_e = 4; #[doc = " \"standard information\""] pub const ncloglevel_e_NCLOGLEVEL_INFO: ncloglevel_e = 5; #[doc = " \"detailed information\""] pub const ncloglevel_e_NCLOGLEVEL_VERBOSE: ncloglevel_e = 6; #[doc = " this is honestly a bit much"] pub const ncloglevel_e_NCLOGLEVEL_DEBUG: ncloglevel_e = 7; #[doc = " there's probably a better way to do what you want"] pub const ncloglevel_e_NCLOGLEVEL_TRACE: ncloglevel_e = 8; #[doc = " These log levels consciously map cleanly to those of libav; Notcurses itself"] #[doc = " does not use this full granularity. The log level does not affect the opening"] #[doc = " and closing banners, which can be disabled via the notcurses_option struct's"] #[doc = " 'suppress_banner'. Note that if stderr is connected to the same terminal on"] #[doc = " which we're rendering, any kind of logging will disrupt the output."] pub type ncloglevel_e = cty::c_uint; #[doc = " Configuration for notcurses_init()."] #[repr(C)] #[derive(Debug, Copy, Clone)] pub struct notcurses_options { #[doc = " The name of the terminfo database entry describing this terminal. If NULL,"] #[doc = " the environment variable TERM is used. Failure to open the terminal"] #[doc = " definition will result in failure to initialize notcurses."] pub termtype: *const cty::c_char, #[doc = " If non-NULL, notcurses_render() will write each rendered frame to this"] #[doc = " FILE* in addition to outfp. This is used primarily for debugging."] pub renderfp: *mut FILE, #[doc = " Progressively higher log levels result in more logging to stderr. By"] #[doc = " default, nothing is printed to stderr once fullscreen service begins."] pub loglevel: ncloglevel_e, #[doc = " Desirable margins. If all are 0 (default), we will render to the entirety"] #[doc = " of the screen. If the screen is too small, we do what we can--this is"] #[doc = " strictly best-effort. Absolute coordinates are relative to the rendering"] #[doc = " area ((0, 0) is always the origin of the rendering area)."] pub margin_t: cty::c_int, #[doc = " Desirable margins. If all are 0 (default), we will render to the entirety"] #[doc = " of the screen. If the screen is too small, we do what we can--this is"] #[doc = " strictly best-effort. Absolute coordinates are relative to the rendering"] #[doc = " area ((0, 0) is always the origin of the rendering area)."] pub margin_r: cty::c_int, #[doc = " Desirable margins. If all are 0 (default), we will render to the entirety"] #[doc = " of the screen. If the screen is too small, we do what we can--this is"] #[doc = " strictly best-effort. Absolute coordinates are relative to the rendering"] #[doc = " area ((0, 0) is always the origin of the rendering area)."] pub margin_b: cty::c_int, #[doc = " Desirable margins. If all are 0 (default), we will render to the entirety"] #[doc = " of the screen. If the screen is too small, we do what we can--this is"] #[doc = " strictly best-effort. Absolute coordinates are relative to the rendering"] #[doc = " area ((0, 0) is always the origin of the rendering area)."] pub margin_l: cty::c_int, #[doc = " General flags; see NCOPTION_*. This is expressed as a bitfield so that"] #[doc = " future options can be added without reshaping the struct. Undefined bits"] #[doc = " must be set to 0."] pub flags: u64, } #[test] fn bindgen_test_layout_notcurses_options() { assert_eq!( ::core::mem::size_of::(), 48usize, concat!("Size of: ", stringify!(notcurses_options)) ); assert_eq!( ::core::mem::align_of::(), 8usize, concat!("Alignment of ", stringify!(notcurses_options)) ); assert_eq!( unsafe { &(*(::core::ptr::null::())).termtype as *const _ as usize }, 0usize, concat!( "Offset of field: ", stringify!(notcurses_options), "::", stringify!(termtype) ) ); assert_eq!( unsafe { &(*(::core::ptr::null::())).renderfp as *const _ as usize }, 8usize, concat!( "Offset of field: ", stringify!(notcurses_options), "::", stringify!(renderfp) ) ); assert_eq!( unsafe { &(*(::core::ptr::null::())).loglevel as *const _ as usize }, 16usize, concat!( "Offset of field: ", stringify!(notcurses_options), "::", stringify!(loglevel) ) ); assert_eq!( unsafe { &(*(::core::ptr::null::())).margin_t as *const _ as usize }, 20usize, concat!( "Offset of field: ", stringify!(notcurses_options), "::", stringify!(margin_t) ) ); assert_eq!( unsafe { &(*(::core::ptr::null::())).margin_r as *const _ as usize }, 24usize, concat!( "Offset of field: ", stringify!(notcurses_options), "::", stringify!(margin_r) ) ); assert_eq!( unsafe { &(*(::core::ptr::null::())).margin_b as *const _ as usize }, 28usize, concat!( "Offset of field: ", stringify!(notcurses_options), "::", stringify!(margin_b) ) ); assert_eq!( unsafe { &(*(::core::ptr::null::())).margin_l as *const _ as usize }, 32usize, concat!( "Offset of field: ", stringify!(notcurses_options), "::", stringify!(margin_l) ) ); assert_eq!( unsafe { &(*(::core::ptr::null::())).flags as *const _ as usize }, 40usize, concat!( "Offset of field: ", stringify!(notcurses_options), "::", stringify!(flags) ) ); } extern "C" { #[doc = " Lex a margin argument according to the standard Notcurses definition. There"] #[doc = " can be either a single number, which will define all margins equally, or"] #[doc = " there can be four numbers separated by commas."] pub fn notcurses_lex_margins( op: *const cty::c_char, opts: *mut notcurses_options, ) -> cty::c_int; } extern "C" { #[doc = " Lex a blitter."] pub fn notcurses_lex_blitter(op: *const cty::c_char, blitter: *mut ncblitter_e) -> cty::c_int; } extern "C" { #[doc = " Get the name of a blitter."] pub fn notcurses_str_blitter(blitter: ncblitter_e) -> *const cty::c_char; } extern "C" { #[doc = " Lex a visual scaling mode (one of \"none\", \"stretch\", or \"scale\")."] pub fn notcurses_lex_scalemode(op: *const cty::c_char, scalemode: *mut ncscale_e) -> cty::c_int; } extern "C" { #[doc = " Get the name of a scaling mode."] pub fn notcurses_str_scalemode(scalemode: ncscale_e) -> *const cty::c_char; } extern "C" { #[doc = " Initialize a Notcurses context on the connected terminal at 'fp'. 'fp' must"] #[doc = " be a tty. You'll usually want stdout. NULL can be supplied for 'fp', in"] #[doc = " which case /dev/tty will be opened. Returns NULL on error, including any"] #[doc = " failure initializing terminfo."] pub fn notcurses_init(opts: *const notcurses_options, fp: *mut FILE) -> *mut notcurses; } extern "C" { #[doc = " Destroy a Notcurses context."] pub fn notcurses_stop(nc: *mut notcurses) -> cty::c_int; } extern "C" { #[doc = " Renders the pile of which 'n' is a part. Rendering this pile again will blow"] #[doc = " away the render. To actually write out the render, call ncpile_rasterize()."] pub fn ncpile_render(n: *mut ncplane) -> cty::c_int; } extern "C" { #[doc = " Make the physical screen match the last rendered frame from the pile of"] #[doc = " which 'n' is a part. This is a blocking call. Don't call this before the"] #[doc = " pile has been rendered (doing so will likely result in a blank screen)."] pub fn ncpile_rasterize(n: *mut ncplane) -> cty::c_int; } extern "C" { #[doc = " Renders and rasterizes the standard pile in one shot. Blocking call."] pub fn notcurses_render(nc: *mut notcurses) -> cty::c_int; } extern "C" { #[doc = " Perform the rendering and rasterization portion of notcurses_render(), but"] #[doc = " do not write the resulting buffer out to the terminal. Using this function,"] #[doc = " the user can control the writeout process, and render a second frame while"] #[doc = " writing another. The returned buffer must be freed by the caller."] pub fn notcurses_render_to_buffer( nc: *mut notcurses, buf: *mut *mut cty::c_char, buflen: *mut size_t, ) -> cty::c_int; } extern "C" { #[doc = " Write the last rendered frame, in its entirety, to 'fp'. If"] #[doc = " notcurses_render() has not yet been called, nothing will be written."] pub fn notcurses_render_to_file(nc: *mut notcurses, fp: *mut FILE) -> cty::c_int; } extern "C" { #[doc = " Return the topmost ncplane, of which there is always at least one."] pub fn notcurses_top(n: *mut notcurses) -> *mut ncplane; } extern "C" { #[doc = " Return the bottommost ncplane, of which there is always at least one."] pub fn notcurses_bottom(n: *mut notcurses) -> *mut ncplane; } extern "C" { #[doc = " Destroy all ncplanes other than the stdplane."] pub fn notcurses_drop_planes(nc: *mut notcurses); } #[doc = " An input event. Cell coordinates are currently defined only for mouse events."] #[repr(C)] #[derive(Debug, Copy, Clone)] pub struct ncinput { #[doc = " identifier. Unicode codepoint or synthesized NCKEY event"] pub id: char32_t, #[doc = " y cell coordinate of event, -1 for undefined"] pub y: cty::c_int, #[doc = " x cell coordinate of event, -1 for undefined"] pub x: cty::c_int, #[doc = " was alt held?"] pub alt: bool, #[doc = " was shift held?"] pub shift: bool, #[doc = " was ctrl held?"] pub ctrl: bool, #[doc = " input event number"] pub seqnum: u64, } #[test] fn bindgen_test_layout_ncinput() { assert_eq!( ::core::mem::size_of::(), 24usize, concat!("Size of: ", stringify!(ncinput)) ); assert_eq!( ::core::mem::align_of::(), 8usize, concat!("Alignment of ", stringify!(ncinput)) ); assert_eq!( unsafe { &(*(::core::ptr::null::())).id as *const _ as usize }, 0usize, concat!( "Offset of field: ", stringify!(ncinput), "::", stringify!(id) ) ); assert_eq!( unsafe { &(*(::core::ptr::null::())).y as *const _ as usize }, 4usize, concat!( "Offset of field: ", stringify!(ncinput), "::", stringify!(y) ) ); assert_eq!( unsafe { &(*(::core::ptr::null::())).x as *const _ as usize }, 8usize, concat!( "Offset of field: ", stringify!(ncinput), "::", stringify!(x) ) ); assert_eq!( unsafe { &(*(::core::ptr::null::())).alt as *const _ as usize }, 12usize, concat!( "Offset of field: ", stringify!(ncinput), "::", stringify!(alt) ) ); assert_eq!( unsafe { &(*(::core::ptr::null::())).shift as *const _ as usize }, 13usize, concat!( "Offset of field: ", stringify!(ncinput), "::", stringify!(shift) ) ); assert_eq!( unsafe { &(*(::core::ptr::null::())).ctrl as *const _ as usize }, 14usize, concat!( "Offset of field: ", stringify!(ncinput), "::", stringify!(ctrl) ) ); assert_eq!( unsafe { &(*(::core::ptr::null::())).seqnum as *const _ as usize }, 16usize, concat!( "Offset of field: ", stringify!(ncinput), "::", stringify!(seqnum) ) ); } extern "C" { #[doc = " See ppoll(2) for more detail. Provide a NULL 'ts' to block at length, a 'ts'"] #[doc = " of 0 for non-blocking operation, and otherwise a timespec to bound blocking."] #[doc = " Signals in sigmask (less several we handle internally) will be atomically"] #[doc = " masked and unmasked per ppoll(2). It should generally contain all signals."] #[doc = " Returns a single Unicode code point, or (char32_t)-1 on error. 'sigmask' may"] #[doc = " be NULL. Returns 0 on a timeout. If an event is processed, the return value"] #[doc = " is the 'id' field from that event. 'ni' may be NULL."] pub fn notcurses_getc( n: *mut notcurses, ts: *const timespec, sigmask: *mut sigset_t, ni: *mut ncinput, ) -> char32_t; } extern "C" { #[doc = " Get a file descriptor suitable for input event poll()ing. When this"] #[doc = " descriptor becomes available, you can call notcurses_getc_nblock(),"] #[doc = " and input ought be ready. This file descriptor is *not* necessarily"] #[doc = " the file descriptor associated with stdin (but it might be!)."] pub fn notcurses_inputready_fd(n: *mut notcurses) -> cty::c_int; } extern "C" { #[doc = " Enable the mouse in \"button-event tracking\" mode with focus detection and"] #[doc = " UTF8-style extended coordinates. On failure, -1 is returned. On success, 0"] #[doc = " is returned, and mouse events will be published to notcurses_getc()."] pub fn notcurses_mouse_enable(n: *mut notcurses) -> cty::c_int; } extern "C" { #[doc = " Disable mouse events. Any events in the input queue can still be delivered."] pub fn notcurses_mouse_disable(n: *mut notcurses) -> cty::c_int; } extern "C" { #[doc = " Refresh the physical screen to match what was last rendered (i.e., without"] #[doc = " reflecting any changes since the last call to notcurses_render()). This is"] #[doc = " primarily useful if the screen is externally corrupted, or if an"] #[doc = " NCKEY_RESIZE event has been read and you're not yet ready to render."] pub fn notcurses_refresh( n: *mut notcurses, y: *mut cty::c_int, x: *mut cty::c_int, ) -> cty::c_int; } extern "C" { #[doc = " Extract the Notcurses context to which this plane is attached."] pub fn ncplane_notcurses(n: *mut ncplane) -> *mut notcurses; } extern "C" { pub fn ncplane_notcurses_const(n: *const ncplane) -> *const notcurses; } extern "C" { #[doc = " Return the dimensions of this ncplane."] pub fn ncplane_dim_yx(n: *const ncplane, y: *mut cty::c_int, x: *mut cty::c_int); } extern "C" { #[doc = " Get a reference to the standard plane (one matching our current idea of the"] #[doc = " terminal size) for this terminal. The standard plane always exists, and its"] #[doc = " origin is always at the uppermost, leftmost cell of the terminal."] pub fn notcurses_stdplane(nc: *mut notcurses) -> *mut ncplane; } extern "C" { pub fn notcurses_stdplane_const(nc: *const notcurses) -> *const ncplane; } extern "C" { #[doc = " Retrieve the contents of the specified cell as last rendered. Returns the EGC"] #[doc = " or NULL on error. This EGC must be free()d by the caller. The stylemask and"] #[doc = " channels are written to 'stylemask' and 'channels', respectively."] pub fn notcurses_at_yx( nc: *mut notcurses, yoff: cty::c_int, xoff: cty::c_int, stylemask: *mut u16, channels: *mut u64, ) -> *mut cty::c_char; } #[repr(C)] #[derive(Debug, Copy, Clone)] pub struct ncplane_options { #[doc = " vertical placement relative to parent plane"] pub y: cty::c_int, #[doc = " horizontal placement relative to parent plane"] pub x: cty::c_int, #[doc = " number of rows, must be positive"] pub rows: cty::c_int, #[doc = " number of columns, must be positive"] pub cols: cty::c_int, #[doc = " user curry, may be NULL"] pub userptr: *mut cty::c_void, #[doc = " name (used only for debugging), may be NULL"] pub name: *const cty::c_char, #[doc = " callback when parent is resized"] pub resizecb: ::core::option::Option cty::c_int>, #[doc = " closure over NCPLANE_OPTION_*"] pub flags: u64, } #[test] fn bindgen_test_layout_ncplane_options() { assert_eq!( ::core::mem::size_of::(), 48usize, concat!("Size of: ", stringify!(ncplane_options)) ); assert_eq!( ::core::mem::align_of::(), 8usize, concat!("Alignment of ", stringify!(ncplane_options)) ); assert_eq!( unsafe { &(*(::core::ptr::null::())).y as *const _ as usize }, 0usize, concat!( "Offset of field: ", stringify!(ncplane_options), "::", stringify!(y) ) ); assert_eq!( unsafe { &(*(::core::ptr::null::())).x as *const _ as usize }, 4usize, concat!( "Offset of field: ", stringify!(ncplane_options), "::", stringify!(x) ) ); assert_eq!( unsafe { &(*(::core::ptr::null::())).rows as *const _ as usize }, 8usize, concat!( "Offset of field: ", stringify!(ncplane_options), "::", stringify!(rows) ) ); assert_eq!( unsafe { &(*(::core::ptr::null::())).cols as *const _ as usize }, 12usize, concat!( "Offset of field: ", stringify!(ncplane_options), "::", stringify!(cols) ) ); assert_eq!( unsafe { &(*(::core::ptr::null::())).userptr as *const _ as usize }, 16usize, concat!( "Offset of field: ", stringify!(ncplane_options), "::", stringify!(userptr) ) ); assert_eq!( unsafe { &(*(::core::ptr::null::())).name as *const _ as usize }, 24usize, concat!( "Offset of field: ", stringify!(ncplane_options), "::", stringify!(name) ) ); assert_eq!( unsafe { &(*(::core::ptr::null::())).resizecb as *const _ as usize }, 32usize, concat!( "Offset of field: ", stringify!(ncplane_options), "::", stringify!(resizecb) ) ); assert_eq!( unsafe { &(*(::core::ptr::null::())).flags as *const _ as usize }, 40usize, concat!( "Offset of field: ", stringify!(ncplane_options), "::", stringify!(flags) ) ); } extern "C" { #[doc = " Create a new ncplane bound to plane 'n', at the offset 'y'x'x' (relative to"] #[doc = " the origin of 'n') and the specified size. The number of 'rows' and 'cols'"] #[doc = " must both be positive. This plane is initially at the top of the z-buffer,"] #[doc = " as if ncplane_move_top() had been called on it. The void* 'userptr' can be"] #[doc = " retrieved (and reset) later. A 'name' can be set, used in debugging."] pub fn ncplane_create(n: *mut ncplane, nopts: *const ncplane_options) -> *mut ncplane; } extern "C" { #[doc = " Same as ncplane_create(), but creates a new pile. The returned plane will"] #[doc = " be the top, bottom, and root of this new pile."] pub fn ncpile_create(nc: *mut notcurses, nopts: *const ncplane_options) -> *mut ncplane; } extern "C" { #[doc = " This function will be removed in 3.0 in favor of ncplane_create()."] #[doc = " It persists in 2.0 only for backwards compatibility."] pub fn ncplane_new( n: *mut ncplane, rows: cty::c_int, cols: cty::c_int, y: cty::c_int, x: cty::c_int, opaque: *mut cty::c_void, name: *const cty::c_char, ) -> *mut ncplane; } extern "C" { #[doc = " Suitable for use as a 'resizecb'. This will realign the plane 'n' against its"] #[doc = " parent, using the alignment specified at ncplane_create()-time."] pub fn ncplane_resize_realign(n: *mut ncplane) -> cty::c_int; } extern "C" { #[doc = " Replace the ncplane's existing resizecb with 'resizecb' (which may be NULL)."] pub fn ncplane_set_resizecb( n: *mut ncplane, resizecb: ::core::option::Option cty::c_int>, ); } extern "C" { #[doc = " Returns the ncplane's current resize callback."] pub fn ncplane_resizecb( n: *const ncplane, ) -> ::core::option::Option cty::c_int>; } extern "C" { #[doc = " Plane 'n' will be unbound from its parent plane, and will be made a bound"] #[doc = " child of 'newparent'. It is an error if 'n' or 'newparent' are NULL. If"] #[doc = " 'newparent' is equal to 'n', 'n' becomes the root of a new pile, unless 'n'"] #[doc = " is already the root of a pile, in which case this is a no-op. Returns 'n'."] #[doc = " The standard plane cannot be reparented. Any planes bound to 'n' are"] #[doc = " reparented to the previous parent of 'n'."] pub fn ncplane_reparent(n: *mut ncplane, newparent: *mut ncplane) -> *mut ncplane; } extern "C" { #[doc = " The same as ncplane_reparent(), except any planes bound to 'n' come along"] #[doc = " with it to its new destination. Their z-order is maintained."] pub fn ncplane_reparent_family(n: *mut ncplane, newparent: *mut ncplane) -> *mut ncplane; } extern "C" { #[doc = " Duplicate an existing ncplane. The new plane will have the same geometry,"] #[doc = " will duplicate all content, and will start with the same rendering state."] #[doc = " The new plane will be immediately above the old one on the z axis, and will"] #[doc = " be bound to the same parent."] pub fn ncplane_dup(n: *const ncplane, opaque: *mut cty::c_void) -> *mut ncplane; } extern "C" { #[doc = " provided a coordinate relative to the origin of 'src', map it to the same"] #[doc = " absolute coordinate relative to thte origin of 'dst'. either or both of 'y'"] #[doc = " and 'x' may be NULL. if 'dst' is NULL, it is taken to be the standard plane."] pub fn ncplane_translate( src: *const ncplane, dst: *const ncplane, y: *mut cty::c_int, x: *mut cty::c_int, ); } extern "C" { #[doc = " Fed absolute 'y'/'x' coordinates, determine whether that coordinate is"] #[doc = " within the ncplane 'n'. If not, return false. If so, return true. Either"] #[doc = " way, translate the absolute coordinates relative to 'n'. If the point is not"] #[doc = " within 'n', these coordinates will not be within the dimensions of the plane."] pub fn ncplane_translate_abs(n: *const ncplane, y: *mut cty::c_int, x: *mut cty::c_int) -> bool; } extern "C" { #[doc = " All planes are created with scrolling disabled. Scrolling can be dynamically"] #[doc = " controlled with ncplane_set_scrolling(). Returns true if scrolling was"] #[doc = " previously enabled, or false if it was disabled."] pub fn ncplane_set_scrolling(n: *mut ncplane, scrollp: bool) -> bool; } extern "C" { #[doc = " Returns a 16-bit bitmask of supported curses-style attributes"] #[doc = " (NCSTYLE_UNDERLINE, NCSTYLE_BOLD, etc.) The attribute is only"] #[doc = " indicated as supported if the terminal can support it together with color."] #[doc = " For more information, see the \"ncv\" capability in terminfo(5)."] pub fn notcurses_supported_styles(nc: *const notcurses) -> cty::c_uint; } extern "C" { #[doc = " Returns the number of simultaneous colors claimed to be supported, or 1 if"] #[doc = " there is no color support. Note that several terminal emulators advertise"] #[doc = " more colors than they actually support, downsampling internally."] pub fn notcurses_palette_size(nc: *const notcurses) -> cty::c_uint; } extern "C" { #[doc = " Can we directly specify RGB values per cell, or only use palettes?"] pub fn notcurses_cantruecolor(nc: *const notcurses) -> bool; } extern "C" { #[doc = " Can we fade? Fading requires either the \"rgb\" or \"ccc\" terminfo capability."] pub fn notcurses_canfade(nc: *const notcurses) -> bool; } extern "C" { #[doc = " Can we set the \"hardware\" palette? Requires the \"ccc\" terminfo capability."] pub fn notcurses_canchangecolor(nc: *const notcurses) -> bool; } extern "C" { #[doc = " Can we load images? This requires being built against FFmpeg/OIIO."] pub fn notcurses_canopen_images(nc: *const notcurses) -> bool; } extern "C" { #[doc = " Can we load videos? This requires being built against FFmpeg."] pub fn notcurses_canopen_videos(nc: *const notcurses) -> bool; } extern "C" { #[doc = " Is our encoding UTF-8? Requires LANG being set to a UTF8 locale."] pub fn notcurses_canutf8(nc: *const notcurses) -> bool; } extern "C" { #[doc = " Can we blit to Sixel?"] pub fn notcurses_cansixel(nc: *const notcurses) -> bool; } #[repr(C)] #[derive(Debug, Copy, Clone)] pub struct ncstats { #[doc = " number of successful notcurses_render() runs"] pub renders: u64, #[doc = " number of aborted renders, should be 0"] pub failed_renders: u64, #[doc = " bytes emitted to ttyfp"] pub render_bytes: u64, #[doc = " max bytes emitted for a frame"] pub render_max_bytes: i64, #[doc = " min bytes emitted for a frame"] pub render_min_bytes: i64, #[doc = " nanoseconds spent in render+raster"] pub render_ns: u64, #[doc = " max ns spent in render+raster for a frame"] pub render_max_ns: i64, #[doc = " min ns spent in render+raster for a frame"] pub render_min_ns: i64, #[doc = " nanoseconds spent writing frames to terminal"] pub writeout_ns: u64, #[doc = " max ns spent writing out a frame"] pub writeout_max_ns: i64, #[doc = " min ns spent writing out a frame"] pub writeout_min_ns: i64, #[doc = " cells we elided entirely thanks to damage maps"] pub cellelisions: u64, #[doc = " total number of cells emitted to terminal"] pub cellemissions: u64, #[doc = " RGB fg elision count"] pub fgelisions: u64, #[doc = " RGB fg emissions"] pub fgemissions: u64, #[doc = " RGB bg elision count"] pub bgelisions: u64, #[doc = " RGB bg emissions"] pub bgemissions: u64, #[doc = " default color was emitted"] pub defaultelisions: u64, #[doc = " default color was elided"] pub defaultemissions: u64, #[doc = " total bytes devoted to all active framebuffers"] pub fbbytes: u64, #[doc = " number of planes currently in existence"] pub planes: cty::c_uint, } #[test] fn bindgen_test_layout_ncstats() { assert_eq!( ::core::mem::size_of::(), 168usize, concat!("Size of: ", stringify!(ncstats)) ); assert_eq!( ::core::mem::align_of::(), 8usize, concat!("Alignment of ", stringify!(ncstats)) ); assert_eq!( unsafe { &(*(::core::ptr::null::())).renders as *const _ as usize }, 0usize, concat!( "Offset of field: ", stringify!(ncstats), "::", stringify!(renders) ) ); assert_eq!( unsafe { &(*(::core::ptr::null::())).failed_renders as *const _ as usize }, 8usize, concat!( "Offset of field: ", stringify!(ncstats), "::", stringify!(failed_renders) ) ); assert_eq!( unsafe { &(*(::core::ptr::null::())).render_bytes as *const _ as usize }, 16usize, concat!( "Offset of field: ", stringify!(ncstats), "::", stringify!(render_bytes) ) ); assert_eq!( unsafe { &(*(::core::ptr::null::())).render_max_bytes as *const _ as usize }, 24usize, concat!( "Offset of field: ", stringify!(ncstats), "::", stringify!(render_max_bytes) ) ); assert_eq!( unsafe { &(*(::core::ptr::null::())).render_min_bytes as *const _ as usize }, 32usize, concat!( "Offset of field: ", stringify!(ncstats), "::", stringify!(render_min_bytes) ) ); assert_eq!( unsafe { &(*(::core::ptr::null::())).render_ns as *const _ as usize }, 40usize, concat!( "Offset of field: ", stringify!(ncstats), "::", stringify!(render_ns) ) ); assert_eq!( unsafe { &(*(::core::ptr::null::())).render_max_ns as *const _ as usize }, 48usize, concat!( "Offset of field: ", stringify!(ncstats), "::", stringify!(render_max_ns) ) ); assert_eq!( unsafe { &(*(::core::ptr::null::())).render_min_ns as *const _ as usize }, 56usize, concat!( "Offset of field: ", stringify!(ncstats), "::", stringify!(render_min_ns) ) ); assert_eq!( unsafe { &(*(::core::ptr::null::())).writeout_ns as *const _ as usize }, 64usize, concat!( "Offset of field: ", stringify!(ncstats), "::", stringify!(writeout_ns) ) ); assert_eq!( unsafe { &(*(::core::ptr::null::())).writeout_max_ns as *const _ as usize }, 72usize, concat!( "Offset of field: ", stringify!(ncstats), "::", stringify!(writeout_max_ns) ) ); assert_eq!( unsafe { &(*(::core::ptr::null::())).writeout_min_ns as *const _ as usize }, 80usize, concat!( "Offset of field: ", stringify!(ncstats), "::", stringify!(writeout_min_ns) ) ); assert_eq!( unsafe { &(*(::core::ptr::null::())).cellelisions as *const _ as usize }, 88usize, concat!( "Offset of field: ", stringify!(ncstats), "::", stringify!(cellelisions) ) ); assert_eq!( unsafe { &(*(::core::ptr::null::())).cellemissions as *const _ as usize }, 96usize, concat!( "Offset of field: ", stringify!(ncstats), "::", stringify!(cellemissions) ) ); assert_eq!( unsafe { &(*(::core::ptr::null::())).fgelisions as *const _ as usize }, 104usize, concat!( "Offset of field: ", stringify!(ncstats), "::", stringify!(fgelisions) ) ); assert_eq!( unsafe { &(*(::core::ptr::null::())).fgemissions as *const _ as usize }, 112usize, concat!( "Offset of field: ", stringify!(ncstats), "::", stringify!(fgemissions) ) ); assert_eq!( unsafe { &(*(::core::ptr::null::())).bgelisions as *const _ as usize }, 120usize, concat!( "Offset of field: ", stringify!(ncstats), "::", stringify!(bgelisions) ) ); assert_eq!( unsafe { &(*(::core::ptr::null::())).bgemissions as *const _ as usize }, 128usize, concat!( "Offset of field: ", stringify!(ncstats), "::", stringify!(bgemissions) ) ); assert_eq!( unsafe { &(*(::core::ptr::null::())).defaultelisions as *const _ as usize }, 136usize, concat!( "Offset of field: ", stringify!(ncstats), "::", stringify!(defaultelisions) ) ); assert_eq!( unsafe { &(*(::core::ptr::null::())).defaultemissions as *const _ as usize }, 144usize, concat!( "Offset of field: ", stringify!(ncstats), "::", stringify!(defaultemissions) ) ); assert_eq!( unsafe { &(*(::core::ptr::null::())).fbbytes as *const _ as usize }, 152usize, concat!( "Offset of field: ", stringify!(ncstats), "::", stringify!(fbbytes) ) ); assert_eq!( unsafe { &(*(::core::ptr::null::())).planes as *const _ as usize }, 160usize, concat!( "Offset of field: ", stringify!(ncstats), "::", stringify!(planes) ) ); } extern "C" { #[doc = " Allocate an ncstats object. Use this rather than allocating your own, since"] #[doc = " future versions of Notcurses might enlarge this structure."] pub fn notcurses_stats_alloc(nc: *const notcurses) -> *mut ncstats; } extern "C" { #[doc = " Acquire an atomic snapshot of the Notcurses object's stats."] pub fn notcurses_stats(nc: *const notcurses, stats: *mut ncstats); } extern "C" { #[doc = " Reset all cumulative stats (immediate ones, such as fbbytes, are not reset)."] pub fn notcurses_stats_reset(nc: *mut notcurses, stats: *mut ncstats); } extern "C" { #[doc = " Resize the specified ncplane. The four parameters 'keepy', 'keepx',"] #[doc = " 'keepleny', and 'keeplenx' define a subset of the ncplane to keep,"] #[doc = " unchanged. This may be a section of size 0, though none of these four"] #[doc = " parameters may be negative. 'keepx' and 'keepy' are relative to the ncplane."] #[doc = " They must specify a coordinate within the ncplane's totality. 'yoff' and"] #[doc = " 'xoff' are relative to 'keepy' and 'keepx', and place the upper-left corner"] #[doc = " of the resized ncplane. Finally, 'ylen' and 'xlen' are the dimensions of the"] #[doc = " ncplane after resizing. 'ylen' must be greater than or equal to 'keepleny',"] #[doc = " and 'xlen' must be greater than or equal to 'keeplenx'. It is an error to"] #[doc = " attempt to resize the standard plane. If either of 'keepleny' or 'keeplenx'"] #[doc = " is non-zero, both must be non-zero."] #[doc = ""] #[doc = " Essentially, the kept material does not move. It serves to anchor the"] #[doc = " resized plane. If there is no kept material, the plane can move freely."] pub fn ncplane_resize( n: *mut ncplane, keepy: cty::c_int, keepx: cty::c_int, keepleny: cty::c_int, keeplenx: cty::c_int, yoff: cty::c_int, xoff: cty::c_int, ylen: cty::c_int, xlen: cty::c_int, ) -> cty::c_int; } extern "C" { #[doc = " Destroy the specified ncplane. None of its contents will be visible after"] #[doc = " the next call to notcurses_render(). It is an error to attempt to destroy"] #[doc = " the standard plane."] pub fn ncplane_destroy(n: *mut ncplane) -> cty::c_int; } extern "C" { #[doc = " Set the ncplane's base cell to this cell. It will be used for purposes of"] #[doc = " rendering anywhere that the ncplane's gcluster is 0. Erasing the ncplane"] #[doc = " does not reset the base cell; this function must be called with a zero 'c'."] pub fn ncplane_set_base_cell(n: *mut ncplane, c: *const cell) -> cty::c_int; } extern "C" { #[doc = " Set the ncplane's base cell to this cell. It will be used for purposes of"] #[doc = " rendering anywhere that the ncplane's gcluster is 0. Erasing the ncplane"] #[doc = " does not reset the base cell; this function must be called with an empty"] #[doc = " 'egc'. 'egc' must be a single extended grapheme cluster."] pub fn ncplane_set_base( n: *mut ncplane, egc: *const cty::c_char, stylemask: u32, channels: u64, ) -> cty::c_int; } extern "C" { #[doc = " Extract the ncplane's base cell into 'c'. The reference is invalidated if"] #[doc = " 'ncp' is destroyed."] pub fn ncplane_base(n: *mut ncplane, c: *mut cell) -> cty::c_int; } extern "C" { #[doc = " Move this plane relative to the standard plane, or the plane to which it is"] #[doc = " bound (if it is bound to a plane). It is an error to attempt to move the"] #[doc = " standard plane."] pub fn ncplane_move_yx(n: *mut ncplane, y: cty::c_int, x: cty::c_int) -> cty::c_int; } extern "C" { #[doc = " Get the origin of this plane relative to the standard plane, or the plane to"] #[doc = " which it is bound (if it is bound to a plane)."] pub fn ncplane_yx(n: *const ncplane, y: *mut cty::c_int, x: *mut cty::c_int); } extern "C" { pub fn ncplane_y(n: *const ncplane) -> cty::c_int; } extern "C" { pub fn ncplane_x(n: *const ncplane) -> cty::c_int; } extern "C" { #[doc = " Get the plane to which the plane 'n' is bound, if any."] pub fn ncplane_parent(n: *mut ncplane) -> *mut ncplane; } extern "C" { pub fn ncplane_parent_const(n: *const ncplane) -> *const ncplane; } extern "C" { #[doc = " Splice ncplane 'n' out of the z-buffer, and reinsert it at the top or bottom."] pub fn ncplane_move_top(n: *mut ncplane); } extern "C" { pub fn ncplane_move_bottom(n: *mut ncplane); } extern "C" { #[doc = " Splice ncplane 'n' out of the z-buffer, and reinsert it above 'above'."] #[doc = " Returns non-zero if 'n' is already in the desired location. 'n' and"] #[doc = " 'above' must not be the same plane."] pub fn ncplane_move_above(n: *mut ncplane, above: *mut ncplane) -> cty::c_int; } extern "C" { #[doc = " Splice ncplane 'n' out of the z-buffer, and reinsert it below 'below'."] #[doc = " Returns non-zero if 'n' is already in the desired location. 'n' and"] #[doc = " 'below' must not be the same plane."] pub fn ncplane_move_below(n: *mut ncplane, below: *mut ncplane) -> cty::c_int; } extern "C" { #[doc = " Return the plane below this one, or NULL if this is at the bottom."] pub fn ncplane_below(n: *mut ncplane) -> *mut ncplane; } extern "C" { pub fn ncplane_above(n: *mut ncplane) -> *mut ncplane; } extern "C" { #[doc = " Rotate the plane π/2 radians clockwise or counterclockwise. This cannot"] #[doc = " be performed on arbitrary planes, because glyphs cannot be arbitrarily"] #[doc = " rotated. The glyphs which can be rotated are limited: line-drawing"] #[doc = " characters, spaces, half blocks, and full blocks. The plane must have"] #[doc = " an even number of columns. Use the ncvisual rotation for a more"] #[doc = " flexible approach."] pub fn ncplane_rotate_cw(n: *mut ncplane) -> cty::c_int; } extern "C" { pub fn ncplane_rotate_ccw(n: *mut ncplane) -> cty::c_int; } extern "C" { #[doc = " Retrieve the current contents of the cell under the cursor. The EGC is"] #[doc = " returned, or NULL on error. This EGC must be free()d by the caller. The"] #[doc = " stylemask and channels are written to 'stylemask' and 'channels', respectively."] pub fn ncplane_at_cursor( n: *mut ncplane, stylemask: *mut u16, channels: *mut u64, ) -> *mut cty::c_char; } extern "C" { #[doc = " Retrieve the current contents of the specified cell. The EGC is returned, or"] #[doc = " NULL on error. This EGC must be free()d by the caller. The stylemask and"] #[doc = " channels are written to 'stylemask' and 'channels', respectively."] pub fn ncplane_at_yx( n: *const ncplane, y: cty::c_int, x: cty::c_int, stylemask: *mut u16, channels: *mut u64, ) -> *mut cty::c_char; } extern "C" { #[doc = " Create a flat string from the EGCs of the selected region of the ncplane"] #[doc = " 'n'. Start at the plane's 'begy'x'begx' coordinate (which must lie on the"] #[doc = " plane), continuing for 'leny'x'lenx' cells. Either or both of 'leny' and"] #[doc = " 'lenx' can be specified as -1 to go through the boundary of the plane."] pub fn ncplane_contents( n: *const ncplane, begy: cty::c_int, begx: cty::c_int, leny: cty::c_int, lenx: cty::c_int, ) -> *mut cty::c_char; } extern "C" { #[doc = " Manipulate the opaque user pointer associated with this plane."] #[doc = " ncplane_set_userptr() returns the previous userptr after replacing"] #[doc = " it with 'opaque'. the others simply return the userptr."] pub fn ncplane_set_userptr(n: *mut ncplane, opaque: *mut cty::c_void) -> *mut cty::c_void; } extern "C" { pub fn ncplane_userptr(n: *mut ncplane) -> *mut cty::c_void; } extern "C" { pub fn ncplane_center_abs(n: *const ncplane, y: *mut cty::c_int, x: *mut cty::c_int); } extern "C" { #[doc = " Move the cursor to the specified position (the cursor needn't be visible)."] #[doc = " Returns -1 on error, including negative parameters, or ones exceeding the"] #[doc = " plane's dimensions."] pub fn ncplane_cursor_move_yx(n: *mut ncplane, y: cty::c_int, x: cty::c_int) -> cty::c_int; } extern "C" { #[doc = " Move the cursor to 0, 0. Can't fail."] pub fn ncplane_home(n: *mut ncplane); } extern "C" { #[doc = " Get the current position of the cursor within n. y and/or x may be NULL."] pub fn ncplane_cursor_yx(n: *const ncplane, y: *mut cty::c_int, x: *mut cty::c_int); } extern "C" { #[doc = " Get the current channels or attribute word for ncplane 'n'."] pub fn ncplane_channels(n: *const ncplane) -> u64; } extern "C" { #[doc = " Return the current styling for this ncplane."] pub fn ncplane_styles(n: *const ncplane) -> u16; } extern "C" { #[doc = " Replace the cell at the specified coordinates with the provided cell 'c',"] #[doc = " and advance the cursor by the width of the cell (but not past the end of the"] #[doc = " plane). On success, returns the number of columns the cursor was advanced."] #[doc = " 'c' must already be associated with 'n'. On failure, -1 is returned."] pub fn ncplane_putc_yx( n: *mut ncplane, y: cty::c_int, x: cty::c_int, c: *const cell, ) -> cty::c_int; } extern "C" { #[doc = " Replace the EGC underneath us, but retain the styling. The current styling"] #[doc = " of the plane will not be changed."] pub fn ncplane_putchar_stained(n: *mut ncplane, c: cty::c_char) -> cty::c_int; } extern "C" { #[doc = " Replace the cell at the specified coordinates with the provided EGC, and"] #[doc = " advance the cursor by the width of the cluster (but not past the end of the"] #[doc = " plane). On success, returns the number of columns the cursor was advanced."] #[doc = " On failure, -1 is returned. The number of bytes converted from gclust is"] #[doc = " written to 'sbytes' if non-NULL."] pub fn ncplane_putegc_yx( n: *mut ncplane, y: cty::c_int, x: cty::c_int, gclust: *const cty::c_char, sbytes: *mut cty::c_int, ) -> cty::c_int; } extern "C" { #[doc = " Replace the EGC underneath us, but retain the styling. The current styling"] #[doc = " of the plane will not be changed."] pub fn ncplane_putegc_stained( n: *mut ncplane, gclust: *const cty::c_char, sbytes: *mut cty::c_int, ) -> cty::c_int; } extern "C" { #[doc = " Replace the EGC underneath us, but retain the styling. The current styling"] #[doc = " of the plane will not be changed."] pub fn ncplane_putwegc_stained( n: *mut ncplane, gclust: *const wchar_t, sbytes: *mut cty::c_int, ) -> cty::c_int; } extern "C" { #[doc = " Write a series of EGCs to the current location, using the current style."] #[doc = " They will be interpreted as a series of columns (according to the definition"] #[doc = " of ncplane_putc()). Advances the cursor by some positive number of columns"] #[doc = " (though not beyond the end of the plane); this number is returned on success."] #[doc = " On error, a non-positive number is returned, indicating the number of columns"] #[doc = " which were written before the error."] pub fn ncplane_putstr_yx( n: *mut ncplane, y: cty::c_int, x: cty::c_int, gclusters: *const cty::c_char, ) -> cty::c_int; } extern "C" { pub fn ncplane_putstr_aligned( n: *mut ncplane, y: cty::c_int, align: ncalign_e, s: *const cty::c_char, ) -> cty::c_int; } extern "C" { #[doc = " Replace a string's worth of glyphs at the current cursor location, but"] #[doc = " retain the styling. The current styling of the plane will not be changed."] pub fn ncplane_putstr_stained(n: *mut ncplane, s: *const cty::c_char) -> cty::c_int; } extern "C" { #[doc = " Write a series of EGCs to the current location, using the current style."] #[doc = " They will be interpreted as a series of columns (according to the definition"] #[doc = " of ncplane_putc()). Advances the cursor by some positive number of columns"] #[doc = " (though not beyond the end of the plane); this number is returned on success."] #[doc = " On error, a non-positive number is returned, indicating the number of columns"] #[doc = " which were written before the error. No more than 's' bytes will be written."] pub fn ncplane_putnstr_yx( n: *mut ncplane, y: cty::c_int, x: cty::c_int, s: size_t, gclusters: *const cty::c_char, ) -> cty::c_int; } extern "C" { pub fn ncplane_putnstr_aligned( n: *mut ncplane, y: cty::c_int, align: ncalign_e, s: size_t, gclustarr: *const cty::c_char, ) -> cty::c_int; } extern "C" { pub fn ncplane_putwstr_stained(n: *mut ncplane, gclustarr: *const wchar_t) -> cty::c_int; } extern "C" { #[doc = " The ncplane equivalents of printf(3) and vprintf(3)."] pub fn ncplane_vprintf_aligned( n: *mut ncplane, y: cty::c_int, align: ncalign_e, format: *const cty::c_char, ap: *mut __va_list_tag, ) -> cty::c_int; } extern "C" { pub fn ncplane_vprintf_yx( n: *mut ncplane, y: cty::c_int, x: cty::c_int, format: *const cty::c_char, ap: *mut __va_list_tag, ) -> cty::c_int; } extern "C" { pub fn ncplane_vprintf_stained( n: *mut ncplane, format: *const cty::c_char, ap: *mut __va_list_tag, ) -> cty::c_int; } extern "C" { #[doc = " Write the specified text to the plane, breaking lines sensibly, beginning at"] #[doc = " the specified line. Returns the number of columns written. When breaking a"] #[doc = " line, the line will be cleared to the end of the plane (the last line will"] #[doc = " *not* be so cleared). The number of bytes written from the input is written"] #[doc = " to '*bytes' if it is not NULL. Cleared columns are included in the return"] #[doc = " value, but *not* included in the number of bytes written. Leaves the cursor"] #[doc = " at the end of output. A partial write will be accomplished as far as it can;"] #[doc = " determine whether the write completed by inspecting '*bytes'. Can output to"] #[doc = " multiple rows even in the absence of scrolling, but not more rows than are"] #[doc = " available. With scrolling enabled, arbitrary amounts of data can be emitted."] #[doc = " All provided whitespace is preserved -- ncplane_puttext() followed by an"] #[doc = " appropriate ncplane_contents() will read back the original output."] #[doc = ""] #[doc = " If 'y' is -1, the first row of output is taken relative to the current"] #[doc = " cursor: it will be left-, right-, or center-aligned in whatever remains"] #[doc = " of the row. On subsequent rows -- or if 'y' is not -1 -- the entire row can"] #[doc = " be used, and alignment works normally."] #[doc = ""] #[doc = " A newline at any point will move the cursor to the next row."] pub fn ncplane_puttext( n: *mut ncplane, y: cty::c_int, align: ncalign_e, text: *const cty::c_char, bytes: *mut size_t, ) -> cty::c_int; } extern "C" { #[doc = " Draw horizontal or vertical lines using the specified cell, starting at the"] #[doc = " current cursor position. The cursor will end at the cell following the last"] #[doc = " cell output (even, perhaps counter-intuitively, when drawing vertical"] #[doc = " lines), just as if ncplane_putc() was called at that spot. Return the"] #[doc = " number of cells drawn on success. On error, return the negative number of"] #[doc = " cells drawn."] pub fn ncplane_hline_interp( n: *mut ncplane, c: *const cell, len: cty::c_int, c1: u64, c2: u64, ) -> cty::c_int; } extern "C" { pub fn ncplane_vline_interp( n: *mut ncplane, c: *const cell, len: cty::c_int, c1: u64, c2: u64, ) -> cty::c_int; } extern "C" { #[doc = " Draw a box with its upper-left corner at the current cursor position, and its"] #[doc = " lower-right corner at 'ystop'x'xstop'. The 6 cells provided are used to draw the"] #[doc = " upper-left, ur, ll, and lr corners, then the horizontal and vertical lines."] #[doc = " 'ctlword' is defined in the least significant byte, where bits [7, 4] are a"] #[doc = " gradient mask, and [3, 0] are a border mask:"] #[doc = " * 7, 3: top"] #[doc = " * 6, 2: right"] #[doc = " * 5, 1: bottom"] #[doc = " * 4, 0: left"] #[doc = " If the gradient bit is not set, the styling from the hl/vl cells is used for"] #[doc = " the horizontal and vertical lines, respectively. If the gradient bit is set,"] #[doc = " the color is linearly interpolated between the two relevant corner cells."] #[doc = ""] #[doc = " By default, vertexes are drawn whether their connecting edges are drawn or"] #[doc = " not. The value of the bits corresponding to NCBOXCORNER_MASK control this,"] #[doc = " and are interpreted as the number of connecting edges necessary to draw a"] #[doc = " given corner. At 0 (the default), corners are always drawn. At 3, corners"] #[doc = " are never drawn (since at most 2 edges can touch a box's corner)."] pub fn ncplane_box( n: *mut ncplane, ul: *const cell, ur: *const cell, ll: *const cell, lr: *const cell, hline: *const cell, vline: *const cell, ystop: cty::c_int, xstop: cty::c_int, ctlword: cty::c_uint, ) -> cty::c_int; } extern "C" { #[doc = " Starting at the specified coordinate, if its glyph is different from that of"] #[doc = " 'c', 'c' is copied into it, and the original glyph is considered the fill"] #[doc = " target. We do the same to all cardinally-connected cells having this same"] #[doc = " fill target. Returns the number of cells polyfilled. An invalid initial y, x"] #[doc = " is an error. Returns the number of cells filled, or -1 on error."] pub fn ncplane_polyfill_yx( n: *mut ncplane, y: cty::c_int, x: cty::c_int, c: *const cell, ) -> cty::c_int; } extern "C" { #[doc = " Draw a gradient with its upper-left corner at the current cursor position,"] #[doc = " stopping at 'ystop'x'xstop'. The glyph composed of 'egc' and 'stylemask' is"] #[doc = " used for all cells. The channels specified by 'ul', 'ur', 'll', and 'lr'"] #[doc = " are composed into foreground and background gradients. To do a vertical"] #[doc = " gradient, 'ul' ought equal 'ur' and 'll' ought equal 'lr'. To do a"] #[doc = " horizontal gradient, 'ul' ought equal 'll' and 'ur' ought equal 'ul'. To"] #[doc = " color everything the same, all four channels should be equivalent. The"] #[doc = " resulting alpha values are equal to incoming alpha values. Returns the"] #[doc = " number of cells filled on success, or -1 on failure."] #[doc = ""] #[doc = " Palette-indexed color is not supported."] #[doc = ""] #[doc = " Preconditions for gradient operations (error otherwise):"] #[doc = ""] #[doc = " all: only RGB colors, unless all four channels match as default"] #[doc = " all: all alpha values must be the same"] #[doc = " 1x1: all four colors must be the same"] #[doc = " 1xN: both top and both bottom colors must be the same (vertical gradient)"] #[doc = " Nx1: both left and both right colors must be the same (horizontal gradient)"] pub fn ncplane_gradient( n: *mut ncplane, egc: *const cty::c_char, stylemask: u32, ul: u64, ur: u64, ll: u64, lr: u64, ystop: cty::c_int, xstop: cty::c_int, ) -> cty::c_int; } extern "C" { #[doc = " Do a high-resolution gradient using upper blocks and synced backgrounds."] #[doc = " This doubles the number of vertical gradations, but restricts you to"] #[doc = " half blocks (appearing to be full blocks). Returns the number of cells"] #[doc = " filled on success, or -1 on error."] pub fn ncplane_highgradient( n: *mut ncplane, ul: u32, ur: u32, ll: u32, lr: u32, ystop: cty::c_int, xstop: cty::c_int, ) -> cty::c_int; } extern "C" { #[doc = " ncplane_gradent_sized() meets ncplane_highgradient()."] pub fn ncplane_highgradient_sized( n: *mut ncplane, ul: u32, ur: u32, ll: u32, lr: u32, ylen: cty::c_int, xlen: cty::c_int, ) -> cty::c_int; } extern "C" { #[doc = " Set the given style throughout the specified region, keeping content and"] #[doc = " channels unchanged. Returns the number of cells set, or -1 on failure."] pub fn ncplane_format( n: *mut ncplane, ystop: cty::c_int, xstop: cty::c_int, stylemask: u32, ) -> cty::c_int; } extern "C" { #[doc = " Set the given channels throughout the specified region, keeping content and"] #[doc = " attributes unchanged. Returns the number of cells set, or -1 on failure."] pub fn ncplane_stain( n: *mut ncplane, ystop: cty::c_int, xstop: cty::c_int, ul: u64, ur: u64, ll: u64, lr: u64, ) -> cty::c_int; } extern "C" { #[doc = " If 'src' does not intersect with 'dst', 'dst' will not be changed, but it is"] #[doc = " not an error. If 'dst' is NULL, the operation will target the standard plane."] pub fn ncplane_mergedown_simple(src: *const ncplane, dst: *mut ncplane) -> cty::c_int; } extern "C" { #[doc = " Merge the ncplane 'src' down onto the ncplane 'dst'. This is most rigorously"] #[doc = " defined as \"write to 'dst' the frame that would be rendered were the entire"] #[doc = " stack made up only of the specified subregion of 'src' and, below it, the"] #[doc = " subregion of 'dst' having the specified origin. Merging is independent of"] #[doc = " the position of 'src' viz 'dst' on the z-axis. It is an error to define a"] #[doc = " subregion of zero area, or that is not entirely contained within 'src'. It"] #[doc = " is an error to define a target origin such that the projected subregion is"] #[doc = " not entirely contained within 'dst'. Behavior is undefined if 'src' and"] #[doc = " 'dst' are equivalent. 'dst' is modified, but 'src' remains unchanged."] pub fn ncplane_mergedown( src: *const ncplane, dst: *mut ncplane, begsrcy: cty::c_int, begsrcx: cty::c_int, leny: cty::c_int, lenx: cty::c_int, dsty: cty::c_int, dstx: cty::c_int, ) -> cty::c_int; } extern "C" { #[doc = " Erase every cell in the ncplane, resetting all attributes to normal, all"] #[doc = " colors to the default color, and all cells to undrawn. All cells associated"] #[doc = " with this ncplane is invalidated, and must not be used after the call,"] #[doc = " *excluding* the base cell. The cursor is homed."] pub fn ncplane_erase(n: *mut ncplane); } extern "C" { pub fn ncplane_set_channels(n: *mut ncplane, channels: u64); } extern "C" { #[doc = " Set the specified style bits for the ncplane 'n', whether they're actively"] #[doc = " supported or not."] pub fn ncplane_set_styles(n: *mut ncplane, stylebits: cty::c_uint); } extern "C" { #[doc = " Add the specified styles to the ncplane's existing spec."] pub fn ncplane_on_styles(n: *mut ncplane, stylebits: cty::c_uint); } extern "C" { #[doc = " Remove the specified styles from the ncplane's existing spec."] pub fn ncplane_off_styles(n: *mut ncplane, stylebits: cty::c_uint); } extern "C" { #[doc = " Deprecated forms of above."] pub fn ncplane_styles_set(n: *mut ncplane, stylebits: cty::c_uint); } extern "C" { pub fn ncplane_styles_on(n: *mut ncplane, stylebits: cty::c_uint); } extern "C" { pub fn ncplane_styles_off(n: *mut ncplane, stylebits: cty::c_uint); } extern "C" { #[doc = " Set an entire 32-bit channel of the plane"] pub fn ncplane_set_fchannel(n: *mut ncplane, channel: u32) -> u64; } extern "C" { pub fn ncplane_set_bchannel(n: *mut ncplane, channel: u32) -> u64; } extern "C" { #[doc = " Set the current fore/background color using RGB specifications. If the"] #[doc = " terminal does not support directly-specified 3x8b cells (24-bit \"TrueColor\","] #[doc = " indicated by the \"RGB\" terminfo capability), the provided values will be"] #[doc = " interpreted in some lossy fashion. None of r, g, or b may exceed 255."] #[doc = " \"HP-like\" terminals require setting foreground and background at the same"] #[doc = " time using \"color pairs\"; Notcurses will manage color pairs transparently."] pub fn ncplane_set_fg_rgb8( n: *mut ncplane, r: cty::c_int, g: cty::c_int, b: cty::c_int, ) -> cty::c_int; } extern "C" { pub fn ncplane_set_bg_rgb8( n: *mut ncplane, r: cty::c_int, g: cty::c_int, b: cty::c_int, ) -> cty::c_int; } extern "C" { #[doc = " Same, but clipped to [0..255]."] pub fn ncplane_set_bg_rgb8_clipped( n: *mut ncplane, r: cty::c_int, g: cty::c_int, b: cty::c_int, ); } extern "C" { pub fn ncplane_set_fg_rgb8_clipped( n: *mut ncplane, r: cty::c_int, g: cty::c_int, b: cty::c_int, ); } extern "C" { #[doc = " Same, but with rgb assembled into a channel (i.e. lower 24 bits)."] pub fn ncplane_set_fg_rgb(n: *mut ncplane, channel: u32) -> cty::c_int; } extern "C" { pub fn ncplane_set_bg_rgb(n: *mut ncplane, channel: u32) -> cty::c_int; } extern "C" { #[doc = " Use the default color for the foreground/background."] pub fn ncplane_set_fg_default(n: *mut ncplane); } extern "C" { pub fn ncplane_set_bg_default(n: *mut ncplane); } extern "C" { #[doc = " Set the ncplane's foreground palette index, set the foreground palette index"] #[doc = " bit, set it foreground-opaque, and clear the foreground default color bit."] pub fn ncplane_set_fg_palindex(n: *mut ncplane, idx: cty::c_int) -> cty::c_int; } extern "C" { pub fn ncplane_set_bg_palindex(n: *mut ncplane, idx: cty::c_int) -> cty::c_int; } extern "C" { #[doc = " Set the alpha parameters for ncplane 'n'."] pub fn ncplane_set_fg_alpha(n: *mut ncplane, alpha: cty::c_int) -> cty::c_int; } extern "C" { pub fn ncplane_set_bg_alpha(n: *mut ncplane, alpha: cty::c_int) -> cty::c_int; } #[doc = " Called for each fade iteration on 'ncp'. If anything but 0 is returned,"] #[doc = " the fading operation ceases immediately, and that value is propagated out."] #[doc = " The recommended absolute display time target is passed in 'tspec'."] pub type fadecb = ::core::option::Option< unsafe extern "C" fn( nc: *mut notcurses, n: *mut ncplane, arg1: *const timespec, curry: *mut cty::c_void, ) -> cty::c_int, >; extern "C" { #[doc = " Fade the ncplane out over the provided time, calling 'fader' at each"] #[doc = " iteration. Requires a terminal which supports truecolor, or at least palette"] #[doc = " modification (if the terminal uses a palette, our ability to fade planes is"] #[doc = " limited, and affected by the complexity of the rest of the screen)."] pub fn ncplane_fadeout( n: *mut ncplane, ts: *const timespec, fader: fadecb, curry: *mut cty::c_void, ) -> cty::c_int; } extern "C" { #[doc = " Fade the ncplane in over the specified time. Load the ncplane with the"] #[doc = " target cells without rendering, then call this function. When it's done, the"] #[doc = " ncplane will have reached the target levels, starting from zeroes."] pub fn ncplane_fadein( n: *mut ncplane, ts: *const timespec, fader: fadecb, curry: *mut cty::c_void, ) -> cty::c_int; } extern "C" { #[doc = " Rather than the simple ncplane_fade{in/out}(), ncfadectx_setup() can be"] #[doc = " paired with a loop over ncplane_fade{in/out}_iteration() + ncfadectx_free()."] pub fn ncfadectx_setup(n: *mut ncplane) -> *mut ncfadectx; } extern "C" { #[doc = " Return the number of iterations through which 'nctx' will fade."] pub fn ncfadectx_iterations(nctx: *const ncfadectx) -> cty::c_int; } extern "C" { #[doc = " Fade out through 'iter' iterations, where"] #[doc = " 'iter' < 'ncfadectx_iterations(nctx)'."] pub fn ncplane_fadeout_iteration( n: *mut ncplane, nctx: *mut ncfadectx, iter: cty::c_int, fader: fadecb, curry: *mut cty::c_void, ) -> cty::c_int; } extern "C" { #[doc = " Fade in through 'iter' iterations, where"] #[doc = " 'iter' < 'ncfadectx_iterations(nctx)'."] pub fn ncplane_fadein_iteration( n: *mut ncplane, nctx: *mut ncfadectx, iter: cty::c_int, fader: fadecb, curry: *mut cty::c_void, ) -> cty::c_int; } extern "C" { #[doc = " Pulse the plane in and out until the callback returns non-zero, relying on"] #[doc = " the callback 'fader' to initiate rendering. 'ts' defines the half-period"] #[doc = " (i.e. the transition from black to full brightness, or back again). Proper"] #[doc = " use involves preparing (but not rendering) an ncplane, then calling"] #[doc = " ncplane_pulse(), which will fade in from black to the specified colors."] pub fn ncplane_pulse( n: *mut ncplane, ts: *const timespec, fader: fadecb, curry: *mut cty::c_void, ) -> cty::c_int; } extern "C" { #[doc = " Release the resources associated with 'nctx'."] pub fn ncfadectx_free(nctx: *mut ncfadectx); } extern "C" { pub fn cells_rounded_box( n: *mut ncplane, styles: u32, channels: u64, ul: *mut cell, ur: *mut cell, ll: *mut cell, lr: *mut cell, hl: *mut cell, vl: *mut cell, ) -> cty::c_int; } extern "C" { pub fn cells_double_box( n: *mut ncplane, styles: u32, channels: u64, ul: *mut cell, ur: *mut cell, ll: *mut cell, lr: *mut cell, hl: *mut cell, vl: *mut cell, ) -> cty::c_int; } extern "C" { #[doc = " Open a visual at 'file', extract a codec and parameters, decode the first"] #[doc = " image to memory."] pub fn ncvisual_from_file(file: *const cty::c_char) -> *mut ncvisual; } extern "C" { #[doc = " Prepare an ncvisual, and its underlying plane, based off RGBA content in"] #[doc = " memory at 'rgba'. 'rgba' must be a flat array of 32-bit 8bpc RGBA pixels."] #[doc = " These must be arranged in 'rowstride' lines, where the first 'cols' * 4b"] #[doc = " are actual data. There must be 'rows' lines. The total size of 'rgba'"] #[doc = " must thus be at least (rows * rowstride) bytes, of which (rows * cols * 4)"] #[doc = " bytes are actual data. Resulting planes are ceil('rows' / 2) x 'cols'."] pub fn ncvisual_from_rgba( rgba: *const cty::c_void, rows: cty::c_int, rowstride: cty::c_int, cols: cty::c_int, ) -> *mut ncvisual; } extern "C" { #[doc = " ncvisual_from_rgba(), but 'bgra' is arranged as BGRA."] pub fn ncvisual_from_bgra( rgba: *const cty::c_void, rows: cty::c_int, rowstride: cty::c_int, cols: cty::c_int, ) -> *mut ncvisual; } extern "C" { #[doc = " Promote an ncplane 'n' to an ncvisual. The plane may contain only spaces,"] #[doc = " half blocks, and full blocks. The latter will be checked, and any other"] #[doc = " glyph will result in a NULL being returned. This function exists so that"] #[doc = " planes can be subjected to ncvisual transformations. If possible, it's"] #[doc = " better to create the ncvisual from memory using ncvisual_from_rgba()."] pub fn ncvisual_from_plane( n: *const ncplane, blit: ncblitter_e, begy: cty::c_int, begx: cty::c_int, leny: cty::c_int, lenx: cty::c_int, ) -> *mut ncvisual; } #[repr(C)] #[derive(Debug, Copy, Clone)] pub struct ncvisual_options { #[doc = " if no ncplane is provided, one will be created using the exact size"] #[doc = " necessary to render the source with perfect fidelity (this might be"] #[doc = " smaller or larger than the rendering area)."] pub n: *mut ncplane, #[doc = " the scaling is ignored if no ncplane is provided (it ought be NCSCALE_NONE"] #[doc = " in this case). otherwise, the source is stretched/scaled relative to the"] #[doc = " provided ncplane."] pub scaling: ncscale_e, #[doc = " if an ncplane is provided, y and x specify where the visual will be"] #[doc = " rendered on that plane. otherwise, they specify where the created ncplane"] #[doc = " will be placed relative to the standard plane's origin."] pub y: cty::c_int, #[doc = " if an ncplane is provided, y and x specify where the visual will be"] #[doc = " rendered on that plane. otherwise, they specify where the created ncplane"] #[doc = " will be placed relative to the standard plane's origin."] pub x: cty::c_int, #[doc = " origin of rendered section"] pub begy: cty::c_int, #[doc = " origin of rendered section"] pub begx: cty::c_int, #[doc = " size of rendered section"] pub leny: cty::c_int, #[doc = " size of rendered section"] pub lenx: cty::c_int, #[doc = " glyph set to use (maps input to output cells)"] pub blitter: ncblitter_e, #[doc = " bitmask over NCVISUAL_OPTION_*"] pub flags: u64, } #[test] fn bindgen_test_layout_ncvisual_options() { assert_eq!( ::core::mem::size_of::(), 48usize, concat!("Size of: ", stringify!(ncvisual_options)) ); assert_eq!( ::core::mem::align_of::(), 8usize, concat!("Alignment of ", stringify!(ncvisual_options)) ); assert_eq!( unsafe { &(*(::core::ptr::null::())).n as *const _ as usize }, 0usize, concat!( "Offset of field: ", stringify!(ncvisual_options), "::", stringify!(n) ) ); assert_eq!( unsafe { &(*(::core::ptr::null::())).scaling as *const _ as usize }, 8usize, concat!( "Offset of field: ", stringify!(ncvisual_options), "::", stringify!(scaling) ) ); assert_eq!( unsafe { &(*(::core::ptr::null::())).y as *const _ as usize }, 12usize, concat!( "Offset of field: ", stringify!(ncvisual_options), "::", stringify!(y) ) ); assert_eq!( unsafe { &(*(::core::ptr::null::())).x as *const _ as usize }, 16usize, concat!( "Offset of field: ", stringify!(ncvisual_options), "::", stringify!(x) ) ); assert_eq!( unsafe { &(*(::core::ptr::null::())).begy as *const _ as usize }, 20usize, concat!( "Offset of field: ", stringify!(ncvisual_options), "::", stringify!(begy) ) ); assert_eq!( unsafe { &(*(::core::ptr::null::())).begx as *const _ as usize }, 24usize, concat!( "Offset of field: ", stringify!(ncvisual_options), "::", stringify!(begx) ) ); assert_eq!( unsafe { &(*(::core::ptr::null::())).leny as *const _ as usize }, 28usize, concat!( "Offset of field: ", stringify!(ncvisual_options), "::", stringify!(leny) ) ); assert_eq!( unsafe { &(*(::core::ptr::null::())).lenx as *const _ as usize }, 32usize, concat!( "Offset of field: ", stringify!(ncvisual_options), "::", stringify!(lenx) ) ); assert_eq!( unsafe { &(*(::core::ptr::null::())).blitter as *const _ as usize }, 36usize, concat!( "Offset of field: ", stringify!(ncvisual_options), "::", stringify!(blitter) ) ); assert_eq!( unsafe { &(*(::core::ptr::null::())).flags as *const _ as usize }, 40usize, concat!( "Offset of field: ", stringify!(ncvisual_options), "::", stringify!(flags) ) ); } extern "C" { #[doc = " Create an RGBA flat array from the selected region of the ncplane 'nc'."] #[doc = " Start at the plane's 'begy'x'begx' coordinate (which must lie on the"] #[doc = " plane), continuing for 'leny'x'lenx' cells. Either or both of 'leny' and"] #[doc = " 'lenx' can be specified as -1 to go through the boundary of the plane."] #[doc = " Only glyphs from the specified blitset may be present."] pub fn ncplane_rgba( n: *const ncplane, blit: ncblitter_e, begy: cty::c_int, begx: cty::c_int, leny: cty::c_int, lenx: cty::c_int, ) -> *mut u32; } extern "C" { #[doc = " Get the size and ratio of ncvisual pixels to output cells along the y"] #[doc = " ('toy') and x ('tox') axes. A ncvisual of '*y'X'*x' pixels will require"] #[doc = " ('*y' * '*toy')X('x' * 'tox') cells for full output. Returns non-zero"] #[doc = " for an invalid 'vopts->blitter'. Scaling is taken into consideration."] pub fn ncvisual_geom( nc: *const notcurses, n: *const ncvisual, vopts: *const ncvisual_options, y: *mut cty::c_int, x: *mut cty::c_int, toy: *mut cty::c_int, tox: *mut cty::c_int, ) -> cty::c_int; } extern "C" { #[doc = " Destroy an ncvisual. Rendered elements will not be disrupted, but the visual"] #[doc = " can be neither decoded nor rendered any further."] pub fn ncvisual_destroy(ncv: *mut ncvisual); } extern "C" { #[doc = " extract the next frame from an ncvisual. returns 1 on end of file, 0 on"] #[doc = " success, and -1 on failure."] pub fn ncvisual_decode(nc: *mut ncvisual) -> cty::c_int; } extern "C" { #[doc = " decode the next frame ala ncvisual_decode(), but if we have reached the end,"] #[doc = " rewind to the first frame of the ncvisual. a subsequent 'ncvisual_render()'"] #[doc = " will render the first frame, as if the ncvisual had been closed and reopened."] #[doc = " the return values remain the same as those of ncvisual_decode()."] pub fn ncvisual_decode_loop(nc: *mut ncvisual) -> cty::c_int; } extern "C" { #[doc = " Rotate the visual 'rads' radians. Only M_PI/2 and -M_PI/2 are"] #[doc = " supported at the moment, but this will change FIXME."] pub fn ncvisual_rotate(n: *mut ncvisual, rads: f64) -> cty::c_int; } extern "C" { #[doc = " Resize the visual so that it is 'rows' X 'columns'. This is a lossy"] #[doc = " transformation, unless the size is unchanged."] pub fn ncvisual_resize(n: *mut ncvisual, rows: cty::c_int, cols: cty::c_int) -> cty::c_int; } extern "C" { #[doc = " Polyfill at the specified location within the ncvisual 'n', using 'rgba'."] pub fn ncvisual_polyfill_yx( n: *mut ncvisual, y: cty::c_int, x: cty::c_int, rgba: u32, ) -> cty::c_int; } extern "C" { #[doc = " Get the specified pixel from the specified ncvisual."] pub fn ncvisual_at_yx( n: *const ncvisual, y: cty::c_int, x: cty::c_int, pixel: *mut u32, ) -> cty::c_int; } extern "C" { #[doc = " Set the specified pixel in the specified ncvisual."] pub fn ncvisual_set_yx( n: *const ncvisual, y: cty::c_int, x: cty::c_int, pixel: u32, ) -> cty::c_int; } extern "C" { #[doc = " Render the decoded frame to the specified ncplane (if one is not provided,"] #[doc = " one will be created, having the exact size necessary to display the visual."] #[doc = " In this case, 'style' must be NCSTYLE_NONE). A subregion of the visual can"] #[doc = " be rendered using 'begx', 'begy', 'lenx', and 'leny'. Negative values for"] #[doc = " 'begy' or 'begx' are an error. It is an error to specify any region beyond"] #[doc = " the boundaries of the frame. Returns the plane to which we drew (if ncv->n"] #[doc = " is NULL, a new plane will be created)."] pub fn ncvisual_render( nc: *mut notcurses, ncv: *mut ncvisual, vopts: *const ncvisual_options, ) -> *mut ncplane; } extern "C" { #[doc = " If a subtitle ought be displayed at this time, return a heap-allocated copy"] #[doc = " of the UTF8 text."] pub fn ncvisual_subtitle(ncv: *const ncvisual) -> *mut cty::c_char; } #[doc = " Called for each frame rendered from 'ncv'. If anything but 0 is returned,"] #[doc = " the streaming operation ceases immediately, and that value is propagated out."] #[doc = " The recommended absolute display time target is passed in 'tspec'."] pub type streamcb = ::core::option::Option< unsafe extern "C" fn( arg1: *mut ncvisual, arg2: *mut ncvisual_options, arg3: *const timespec, arg4: *mut cty::c_void, ) -> cty::c_int, >; extern "C" { #[doc = " Shut up and display my frames! Provide as an argument to ncvisual_stream()."] #[doc = " If you'd like subtitles to be decoded, provide an ncplane as the curry. If the"] #[doc = " curry is NULL, subtitles will not be displayed."] pub fn ncvisual_simple_streamer( ncv: *mut ncvisual, vopts: *mut ncvisual_options, tspec: *const timespec, curry: *mut cty::c_void, ) -> cty::c_int; } extern "C" { #[doc = " Stream the entirety of the media, according to its own timing. Blocking,"] #[doc = " obviously. streamer may be NULL; it is otherwise called for each frame, and"] #[doc = " its return value handled as outlined for streamcb. If streamer() returns"] #[doc = " non-zero, the stream is aborted, and that value is returned. By convention,"] #[doc = " return a positive number to indicate intentional abort from within"] #[doc = " streamer(). 'timescale' allows the frame duration time to be scaled. For a"] #[doc = " visual naturally running at 30FPS, a 'timescale' of 0.1 will result in"] #[doc = " 300FPS, and a 'timescale' of 10 will result in 3FPS. It is an error to"] #[doc = " supply 'timescale' less than or equal to 0."] pub fn ncvisual_stream( nc: *mut notcurses, ncv: *mut ncvisual, timescale: f32, streamer: streamcb, vopts: *const ncvisual_options, curry: *mut cty::c_void, ) -> cty::c_int; } extern "C" { #[doc = " Blit a flat array 'data' of RGBA 32-bit values to the ncplane 'vopts->n',"] #[doc = " which mustn't be NULL. the blit begins at 'vopts->y' and 'vopts->x' relative"] #[doc = " to the specified plane. Each source row ought occupy 'linesize' bytes (this"] #[doc = " might be greater than 'vopts->lenx' * 4 due to padding or partial blits). A"] #[doc = " subregion of the input can be specified with the 'begy'x'begx' and"] #[doc = " 'leny'x'lenx' fields from 'vopts'. Returns the number of pixels blitted, or"] #[doc = " -1 on error."] pub fn ncblit_rgba( data: *const cty::c_void, linesize: cty::c_int, vopts: *const ncvisual_options, ) -> cty::c_int; } extern "C" { #[doc = " Same as ncblit_rgba(), but for BGRx."] pub fn ncblit_bgrx( data: *const cty::c_void, linesize: cty::c_int, vopts: *const ncvisual_options, ) -> cty::c_int; } #[repr(C)] #[derive(Debug, Copy, Clone)] pub struct ncreel_options { #[doc = " bitfield; 1s will not be drawn (see bordermaskbits)"] pub bordermask: cty::c_uint, #[doc = " attributes used for ncreel border"] pub borderchan: u64, #[doc = " bitfield; same as bordermask but for tablet borders"] pub tabletmask: cty::c_uint, #[doc = " tablet border styling channel"] pub tabletchan: u64, #[doc = " focused tablet border styling channel"] pub focusedchan: u64, #[doc = " bitfield over NCREEL_OPTION_*"] pub flags: u64, } #[test] fn bindgen_test_layout_ncreel_options() { assert_eq!( ::core::mem::size_of::(), 48usize, concat!("Size of: ", stringify!(ncreel_options)) ); assert_eq!( ::core::mem::align_of::(), 8usize, concat!("Alignment of ", stringify!(ncreel_options)) ); assert_eq!( unsafe { &(*(::core::ptr::null::())).bordermask as *const _ as usize }, 0usize, concat!( "Offset of field: ", stringify!(ncreel_options), "::", stringify!(bordermask) ) ); assert_eq!( unsafe { &(*(::core::ptr::null::())).borderchan as *const _ as usize }, 8usize, concat!( "Offset of field: ", stringify!(ncreel_options), "::", stringify!(borderchan) ) ); assert_eq!( unsafe { &(*(::core::ptr::null::())).tabletmask as *const _ as usize }, 16usize, concat!( "Offset of field: ", stringify!(ncreel_options), "::", stringify!(tabletmask) ) ); assert_eq!( unsafe { &(*(::core::ptr::null::())).tabletchan as *const _ as usize }, 24usize, concat!( "Offset of field: ", stringify!(ncreel_options), "::", stringify!(tabletchan) ) ); assert_eq!( unsafe { &(*(::core::ptr::null::())).focusedchan as *const _ as usize }, 32usize, concat!( "Offset of field: ", stringify!(ncreel_options), "::", stringify!(focusedchan) ) ); assert_eq!( unsafe { &(*(::core::ptr::null::())).flags as *const _ as usize }, 40usize, concat!( "Offset of field: ", stringify!(ncreel_options), "::", stringify!(flags) ) ); } #[repr(C)] #[derive(Debug, Copy, Clone)] pub struct nctablet { _unused: [u8; 0], } #[repr(C)] #[derive(Debug, Copy, Clone)] pub struct ncreel { _unused: [u8; 0], } extern "C" { #[doc = " Take over the ncplane 'nc' and use it to draw a reel according to 'popts'."] #[doc = " The plane will be destroyed by ncreel_destroy(); this transfers ownership."] pub fn ncreel_create(n: *mut ncplane, popts: *const ncreel_options) -> *mut ncreel; } extern "C" { #[doc = " Returns the ncplane on which this ncreel lives."] pub fn ncreel_plane(pr: *mut ncreel) -> *mut ncplane; } #[doc = " Tablet draw callback, provided a tablet (from which the ncplane and userptr"] #[doc = " may be extracted), and a bool indicating whether output ought be drawn from"] #[doc = " the top (true) or bottom (false). Returns non-negative count of output lines,"] #[doc = " which must be less than or equal to ncplane_dim_y(nctablet_plane(t))."] pub type tabletcb = ::core::option::Option cty::c_int>; extern "C" { #[doc = " Add a new nctablet to the provided ncreel 'nr', having the callback object"] #[doc = " 'opaque'. Neither, either, or both of 'after' and 'before' may be specified."] #[doc = " If neither is specified, the new tablet can be added anywhere on the reel."] #[doc = " If one or the other is specified, the tablet will be added before or after"] #[doc = " the specified tablet. If both are specified, the tablet will be added to the"] #[doc = " resulting location, assuming it is valid (after->next == before->prev); if"] #[doc = " it is not valid, or there is any other error, NULL will be returned."] pub fn ncreel_add( nr: *mut ncreel, after: *mut nctablet, before: *mut nctablet, cb: tabletcb, opaque: *mut cty::c_void, ) -> *mut nctablet; } extern "C" { #[doc = " Return the number of nctablets in the ncreel 'nr'."] pub fn ncreel_tabletcount(nr: *const ncreel) -> cty::c_int; } extern "C" { #[doc = " Delete the tablet specified by t from the ncreel 'nr'. Returns -1 if the"] #[doc = " tablet cannot be found."] pub fn ncreel_del(nr: *mut ncreel, t: *mut nctablet) -> cty::c_int; } extern "C" { #[doc = " Redraw the ncreel 'nr' in its entirety. The reel will be cleared, and"] #[doc = " tablets will be lain out, using the focused tablet as a fulcrum. Tablet"] #[doc = " drawing callbacks will be invoked for each visible tablet."] pub fn ncreel_redraw(nr: *mut ncreel) -> cty::c_int; } extern "C" { #[doc = " Offer input 'ni' to the ncreel 'nr'. If it's relevant, this function returns"] #[doc = " true, and the input ought not be processed further. If it's irrelevant to"] #[doc = " the reel, false is returned. Relevant inputs include:"] #[doc = " * a mouse click on a tablet (focuses tablet)"] #[doc = " * a mouse scrollwheel event (rolls reel)"] #[doc = " * up, down, pgup, or pgdown (navigates among items)"] pub fn ncreel_offer_input(nr: *mut ncreel, ni: *const ncinput) -> bool; } extern "C" { #[doc = " Return the focused tablet, if any tablets are present. This is not a copy;"] #[doc = " be careful to use it only for the duration of a critical section."] pub fn ncreel_focused(nr: *mut ncreel) -> *mut nctablet; } extern "C" { #[doc = " Change focus to the next tablet, if one exists"] pub fn ncreel_next(nr: *mut ncreel) -> *mut nctablet; } extern "C" { #[doc = " Change focus to the previous tablet, if one exists"] pub fn ncreel_prev(nr: *mut ncreel) -> *mut nctablet; } extern "C" { #[doc = " Destroy an ncreel allocated with ncreel_create()."] pub fn ncreel_destroy(nr: *mut ncreel); } extern "C" { #[doc = " Returns a pointer to a user pointer associated with this nctablet."] pub fn nctablet_userptr(t: *mut nctablet) -> *mut cty::c_void; } extern "C" { #[doc = " Access the ncplane associated with nctablet 't', if one exists."] pub fn nctablet_plane(t: *mut nctablet) -> *mut ncplane; } extern "C" { #[doc = " Deprecated form of nctablet_plane()."] pub fn nctablet_ncplane(t: *mut nctablet) -> *mut ncplane; } extern "C" { #[doc = " Takes an arbitrarily large number, and prints it into a fixed-size buffer by"] #[doc = " adding the necessary SI suffix. Usually, pass a |[IB]PREFIXSTRLEN+1|-sized"] #[doc = " buffer to generate up to |[IB]PREFIXCOLUMNS| columns' worth of EGCs. The"] #[doc = " characteristic can occupy up through |mult-1| characters (3 for 1000, 4 for"] #[doc = " 1024). The mantissa can occupy either zero or two characters."] #[doc = ""] #[doc = " Floating-point is never used, because an IEEE758 double can only losslessly"] #[doc = " represent integers through 2^53-1."] #[doc = ""] #[doc = " 2^64-1 is 18446744073709551615, 18.45E(xa). KMGTPEZY thus suffice to handle"] #[doc = " an 89-bit uintmax_t. Beyond Z(etta) and Y(otta) lie lands unspecified by SI."] #[doc = " 2^-63 is 0.000000000000000000108, 1.08a(tto)."] #[doc = " val: value to print"] #[doc = " decimal: scaling. '1' if none has taken place."] #[doc = " buf: buffer in which string will be generated"] #[doc = " omitdec: inhibit printing of all-0 decimal portions"] #[doc = " mult: base of suffix system (almost always 1000 or 1024)"] #[doc = " uprefix: character to print following suffix ('i' for kibibytes basically)."] #[doc = " only printed if suffix is actually printed (input >= mult)."] pub fn ncmetric( val: uintmax_t, decimal: uintmax_t, buf: *mut cty::c_char, omitdec: cty::c_int, mult: uintmax_t, uprefix: cty::c_int, ) -> *const cty::c_char; } extern "C" { #[doc = " Enable or disable the terminal's cursor, if supported, placing it at"] #[doc = " 'y', 'x'. Immediate effect (no need for a call to notcurses_render())."] #[doc = " It is an error if 'y', 'x' lies outside the standard plane."] pub fn notcurses_cursor_enable(nc: *mut notcurses, y: cty::c_int, x: cty::c_int) -> cty::c_int; } extern "C" { pub fn notcurses_cursor_disable(nc: *mut notcurses) -> cty::c_int; } #[doc = " Palette API. Some terminals only support 256 colors, but allow the full"] #[doc = " palette to be specified with arbitrary RGB colors. In all cases, it's more"] #[doc = " performant to use indexed colors, since it's much less data to write to the"] #[doc = " terminal. If you can limit yourself to 256 colors, that's probably best."] #[repr(C)] #[derive(Copy, Clone)] pub struct palette256 { #[doc = " RGB values as regular ol' channels"] pub chans: [u32; 256usize], } #[test] fn bindgen_test_layout_palette256() { assert_eq!( ::core::mem::size_of::(), 1024usize, concat!("Size of: ", stringify!(palette256)) ); assert_eq!( ::core::mem::align_of::(), 4usize, concat!("Alignment of ", stringify!(palette256)) ); assert_eq!( unsafe { &(*(::core::ptr::null::())).chans as *const _ as usize }, 0usize, concat!( "Offset of field: ", stringify!(palette256), "::", stringify!(chans) ) ); } extern "C" { #[doc = " Create a new palette store. It will be initialized with notcurses' best"] #[doc = " knowledge of the currently configured palette. The palette upon startup"] #[doc = " cannot be reliably detected, sadly."] pub fn palette256_new(nc: *mut notcurses) -> *mut palette256; } extern "C" { #[doc = " Attempt to configure the terminal with the provided palette 'p'. Does not"] #[doc = " transfer ownership of 'p'; palette256_free() can (ought) still be called."] pub fn palette256_use(nc: *mut notcurses, p: *const palette256) -> cty::c_int; } extern "C" { #[doc = " Free the palette store 'p'."] pub fn palette256_free(p: *mut palette256); } extern "C" { #[doc = " Convert the plane's content to greyscale."] pub fn ncplane_greyscale(n: *mut ncplane); } #[doc = " selection widget -- an ncplane with a title header and a body section. the"] #[doc = " body section supports infinite scrolling up and down. the widget looks like:"] #[doc = ""] #[doc = " ╭──────────────────────────╮"] #[doc = " │This is the primary header│"] #[doc = " ╭──────────────────────this is the secondary header──────╮"] #[doc = " │ ↑ │"] #[doc = " │ option1 Long text #1 │"] #[doc = " │ option2 Long text #2 │"] #[doc = " │ option3 Long text #3 │"] #[doc = " │ option4 Long text #4 │"] #[doc = " │ option5 Long text #5 │"] #[doc = " │ option6 Long text #6 │"] #[doc = " │ ↓ │"] #[doc = " ╰────────────────────────────────────here's the footer───╯"] #[doc = ""] #[doc = " At all times, exactly one item is selected."] #[repr(C)] #[derive(Debug, Copy, Clone)] pub struct ncselector_item { pub option: *mut cty::c_char, pub desc: *mut cty::c_char, #[doc = " filled in by library"] pub opcolumns: size_t, #[doc = " filled in by library"] pub desccolumns: size_t, } #[test] fn bindgen_test_layout_ncselector_item() { assert_eq!( ::core::mem::size_of::(), 32usize, concat!("Size of: ", stringify!(ncselector_item)) ); assert_eq!( ::core::mem::align_of::(), 8usize, concat!("Alignment of ", stringify!(ncselector_item)) ); assert_eq!( unsafe { &(*(::core::ptr::null::())).option as *const _ as usize }, 0usize, concat!( "Offset of field: ", stringify!(ncselector_item), "::", stringify!(option) ) ); assert_eq!( unsafe { &(*(::core::ptr::null::())).desc as *const _ as usize }, 8usize, concat!( "Offset of field: ", stringify!(ncselector_item), "::", stringify!(desc) ) ); assert_eq!( unsafe { &(*(::core::ptr::null::())).opcolumns as *const _ as usize }, 16usize, concat!( "Offset of field: ", stringify!(ncselector_item), "::", stringify!(opcolumns) ) ); assert_eq!( unsafe { &(*(::core::ptr::null::())).desccolumns as *const _ as usize }, 24usize, concat!( "Offset of field: ", stringify!(ncselector_item), "::", stringify!(desccolumns) ) ); } #[repr(C)] #[derive(Debug, Copy, Clone)] pub struct ncselector_options { #[doc = " title may be NULL, inhibiting riser, saving two rows."] pub title: *mut cty::c_char, #[doc = " secondary may be NULL"] pub secondary: *mut cty::c_char, #[doc = " footer may be NULL"] pub footer: *mut cty::c_char, #[doc = " initial items and descriptions"] pub items: *mut ncselector_item, #[doc = " default item (selected at start), must be < itemcount unless itemcount is"] #[doc = " 0, in which case 'defidx' must also be 0"] pub defidx: cty::c_uint, #[doc = " maximum number of options to display at once, 0 to use all available space"] pub maxdisplay: cty::c_uint, #[doc = " option channels"] pub opchannels: u64, #[doc = " description channels"] pub descchannels: u64, #[doc = " title channels"] pub titlechannels: u64, #[doc = " secondary and footer channels"] pub footchannels: u64, #[doc = " border channels"] pub boxchannels: u64, #[doc = " bitfield of NCSELECTOR_OPTION_*"] pub flags: u64, } #[test] fn bindgen_test_layout_ncselector_options() { assert_eq!( ::core::mem::size_of::(), 88usize, concat!("Size of: ", stringify!(ncselector_options)) ); assert_eq!( ::core::mem::align_of::(), 8usize, concat!("Alignment of ", stringify!(ncselector_options)) ); assert_eq!( unsafe { &(*(::core::ptr::null::())).title as *const _ as usize }, 0usize, concat!( "Offset of field: ", stringify!(ncselector_options), "::", stringify!(title) ) ); assert_eq!( unsafe { &(*(::core::ptr::null::())).secondary as *const _ as usize }, 8usize, concat!( "Offset of field: ", stringify!(ncselector_options), "::", stringify!(secondary) ) ); assert_eq!( unsafe { &(*(::core::ptr::null::())).footer as *const _ as usize }, 16usize, concat!( "Offset of field: ", stringify!(ncselector_options), "::", stringify!(footer) ) ); assert_eq!( unsafe { &(*(::core::ptr::null::())).items as *const _ as usize }, 24usize, concat!( "Offset of field: ", stringify!(ncselector_options), "::", stringify!(items) ) ); assert_eq!( unsafe { &(*(::core::ptr::null::())).defidx as *const _ as usize }, 32usize, concat!( "Offset of field: ", stringify!(ncselector_options), "::", stringify!(defidx) ) ); assert_eq!( unsafe { &(*(::core::ptr::null::())).maxdisplay as *const _ as usize }, 36usize, concat!( "Offset of field: ", stringify!(ncselector_options), "::", stringify!(maxdisplay) ) ); assert_eq!( unsafe { &(*(::core::ptr::null::())).opchannels as *const _ as usize }, 40usize, concat!( "Offset of field: ", stringify!(ncselector_options), "::", stringify!(opchannels) ) ); assert_eq!( unsafe { &(*(::core::ptr::null::())).descchannels as *const _ as usize }, 48usize, concat!( "Offset of field: ", stringify!(ncselector_options), "::", stringify!(descchannels) ) ); assert_eq!( unsafe { &(*(::core::ptr::null::())).titlechannels as *const _ as usize }, 56usize, concat!( "Offset of field: ", stringify!(ncselector_options), "::", stringify!(titlechannels) ) ); assert_eq!( unsafe { &(*(::core::ptr::null::())).footchannels as *const _ as usize }, 64usize, concat!( "Offset of field: ", stringify!(ncselector_options), "::", stringify!(footchannels) ) ); assert_eq!( unsafe { &(*(::core::ptr::null::())).boxchannels as *const _ as usize }, 72usize, concat!( "Offset of field: ", stringify!(ncselector_options), "::", stringify!(boxchannels) ) ); assert_eq!( unsafe { &(*(::core::ptr::null::())).flags as *const _ as usize }, 80usize, concat!( "Offset of field: ", stringify!(ncselector_options), "::", stringify!(flags) ) ); } extern "C" { pub fn ncselector_create(n: *mut ncplane, opts: *const ncselector_options) -> *mut ncselector; } extern "C" { #[doc = " Dynamically add or delete items. It is usually sufficient to supply a static"] #[doc = " list of items via ncselector_options->items."] pub fn ncselector_additem(n: *mut ncselector, item: *const ncselector_item) -> cty::c_int; } extern "C" { pub fn ncselector_delitem(n: *mut ncselector, item: *const cty::c_char) -> cty::c_int; } extern "C" { #[doc = " Return reference to the selected option, or NULL if there are no items."] pub fn ncselector_selected(n: *const ncselector) -> *const cty::c_char; } extern "C" { #[doc = " Return a reference to the ncselector's underlying ncplane."] pub fn ncselector_plane(n: *mut ncselector) -> *mut ncplane; } extern "C" { #[doc = " Move up or down in the list. A reference to the newly-selected item is"] #[doc = " returned, or NULL if there are no items in the list."] pub fn ncselector_previtem(n: *mut ncselector) -> *const cty::c_char; } extern "C" { pub fn ncselector_nextitem(n: *mut ncselector) -> *const cty::c_char; } extern "C" { #[doc = " Offer the input to the ncselector. If it's relevant, this function returns"] #[doc = " true, and the input ought not be processed further. If it's irrelevant to"] #[doc = " the selector, false is returned. Relevant inputs include:"] #[doc = " * a mouse click on an item"] #[doc = " * a mouse scrollwheel event"] #[doc = " * a mouse click on the scrolling arrows"] #[doc = " * up, down, pgup, or pgdown on an unrolled menu (navigates among items)"] pub fn ncselector_offer_input(n: *mut ncselector, nc: *const ncinput) -> bool; } extern "C" { #[doc = " Destroy the ncselector. If 'item' is not NULL, the last selected option will"] #[doc = " be strdup()ed and assigned to '*item' (and must be free()d by the caller)."] pub fn ncselector_destroy(n: *mut ncselector, item: *mut *mut cty::c_char); } #[repr(C)] #[derive(Debug, Copy, Clone)] pub struct ncmselector_item { pub option: *mut cty::c_char, pub desc: *mut cty::c_char, pub selected: bool, } #[test] fn bindgen_test_layout_ncmselector_item() { assert_eq!( ::core::mem::size_of::(), 24usize, concat!("Size of: ", stringify!(ncmselector_item)) ); assert_eq!( ::core::mem::align_of::(), 8usize, concat!("Alignment of ", stringify!(ncmselector_item)) ); assert_eq!( unsafe { &(*(::core::ptr::null::())).option as *const _ as usize }, 0usize, concat!( "Offset of field: ", stringify!(ncmselector_item), "::", stringify!(option) ) ); assert_eq!( unsafe { &(*(::core::ptr::null::())).desc as *const _ as usize }, 8usize, concat!( "Offset of field: ", stringify!(ncmselector_item), "::", stringify!(desc) ) ); assert_eq!( unsafe { &(*(::core::ptr::null::())).selected as *const _ as usize }, 16usize, concat!( "Offset of field: ", stringify!(ncmselector_item), "::", stringify!(selected) ) ); } #[doc = " multiselection widget -- a selector supporting multiple selections."] #[doc = ""] #[doc = " ╭───────────────────╮"] #[doc = " │ short round title │"] #[doc = "╭now this secondary is also very, very, very outlandishly long, you see┤"] #[doc = "│ ↑ │"] #[doc = "│ ☐ Pa231 Protactinium-231 (162kg) │"] #[doc = "│ ☐ U233 Uranium-233 (15kg) │"] #[doc = "│ ☐ U235 Uranium-235 (50kg) │"] #[doc = "│ ☐ Np236 Neptunium-236 (7kg) │"] #[doc = "│ ☐ Np237 Neptunium-237 (60kg) │"] #[doc = "│ ☐ Pu238 Plutonium-238 (10kg) │"] #[doc = "│ ☐ Pu239 Plutonium-239 (10kg) │"] #[doc = "│ ☐ Pu240 Plutonium-240 (40kg) │"] #[doc = "│ ☐ Pu241 Plutonium-241 (13kg) │"] #[doc = "│ ☐ Am241 Americium-241 (100kg) │"] #[doc = "│ ↓ │"] #[doc = "╰────────────────────────press q to exit (there is sartrev(\"no exit\"))─╯"] #[doc = ""] #[doc = " Unlike the selector widget, zero to all of the items can be selected, but"] #[doc = " also the widget does not support adding or removing items at runtime."] #[repr(C)] #[derive(Debug, Copy, Clone)] pub struct ncmultiselector_options { #[doc = " title may be NULL, inhibiting riser, saving two rows."] pub title: *mut cty::c_char, #[doc = " secondary may be NULL"] pub secondary: *mut cty::c_char, #[doc = " footer may be NULL"] pub footer: *mut cty::c_char, #[doc = " initial items, descriptions, and statuses"] pub items: *mut ncmselector_item, #[doc = " maximum number of options to display at once, 0 to use all available space"] pub maxdisplay: cty::c_uint, #[doc = " option channels"] pub opchannels: u64, #[doc = " description channels"] pub descchannels: u64, #[doc = " title channels"] pub titlechannels: u64, #[doc = " secondary and footer channels"] pub footchannels: u64, #[doc = " border channels"] pub boxchannels: u64, #[doc = " bitfield of NCMULTISELECTOR_OPTION_*"] pub flags: u64, } #[test] fn bindgen_test_layout_ncmultiselector_options() { assert_eq!( ::core::mem::size_of::(), 88usize, concat!("Size of: ", stringify!(ncmultiselector_options)) ); assert_eq!( ::core::mem::align_of::(), 8usize, concat!("Alignment of ", stringify!(ncmultiselector_options)) ); assert_eq!( unsafe { &(*(::core::ptr::null::())).title as *const _ as usize }, 0usize, concat!( "Offset of field: ", stringify!(ncmultiselector_options), "::", stringify!(title) ) ); assert_eq!( unsafe { &(*(::core::ptr::null::())).secondary as *const _ as usize }, 8usize, concat!( "Offset of field: ", stringify!(ncmultiselector_options), "::", stringify!(secondary) ) ); assert_eq!( unsafe { &(*(::core::ptr::null::())).footer as *const _ as usize }, 16usize, concat!( "Offset of field: ", stringify!(ncmultiselector_options), "::", stringify!(footer) ) ); assert_eq!( unsafe { &(*(::core::ptr::null::())).items as *const _ as usize }, 24usize, concat!( "Offset of field: ", stringify!(ncmultiselector_options), "::", stringify!(items) ) ); assert_eq!( unsafe { &(*(::core::ptr::null::())).maxdisplay as *const _ as usize }, 32usize, concat!( "Offset of field: ", stringify!(ncmultiselector_options), "::", stringify!(maxdisplay) ) ); assert_eq!( unsafe { &(*(::core::ptr::null::())).opchannels as *const _ as usize }, 40usize, concat!( "Offset of field: ", stringify!(ncmultiselector_options), "::", stringify!(opchannels) ) ); assert_eq!( unsafe { &(*(::core::ptr::null::())).descchannels as *const _ as usize }, 48usize, concat!( "Offset of field: ", stringify!(ncmultiselector_options), "::", stringify!(descchannels) ) ); assert_eq!( unsafe { &(*(::core::ptr::null::())).titlechannels as *const _ as usize }, 56usize, concat!( "Offset of field: ", stringify!(ncmultiselector_options), "::", stringify!(titlechannels) ) ); assert_eq!( unsafe { &(*(::core::ptr::null::())).footchannels as *const _ as usize }, 64usize, concat!( "Offset of field: ", stringify!(ncmultiselector_options), "::", stringify!(footchannels) ) ); assert_eq!( unsafe { &(*(::core::ptr::null::())).boxchannels as *const _ as usize }, 72usize, concat!( "Offset of field: ", stringify!(ncmultiselector_options), "::", stringify!(boxchannels) ) ); assert_eq!( unsafe { &(*(::core::ptr::null::())).flags as *const _ as usize }, 80usize, concat!( "Offset of field: ", stringify!(ncmultiselector_options), "::", stringify!(flags) ) ); } extern "C" { pub fn ncmultiselector_create( n: *mut ncplane, opts: *const ncmultiselector_options, ) -> *mut ncmultiselector; } extern "C" { #[doc = " Return selected vector. An array of bools must be provided, along with its"] #[doc = " length. If that length doesn't match the itemcount, it is an error."] pub fn ncmultiselector_selected( n: *mut ncmultiselector, selected: *mut bool, count: cty::c_uint, ) -> cty::c_int; } extern "C" { #[doc = " Return a reference to the ncmultiselector's underlying ncplane."] pub fn ncmultiselector_plane(n: *mut ncmultiselector) -> *mut ncplane; } extern "C" { #[doc = " Offer the input to the ncmultiselector. If it's relevant, this function"] #[doc = " returns true, and the input ought not be processed further. If it's"] #[doc = " irrelevant to the multiselector, false is returned. Relevant inputs include:"] #[doc = " * a mouse click on an item"] #[doc = " * a mouse scrollwheel event"] #[doc = " * a mouse click on the scrolling arrows"] #[doc = " * up, down, pgup, or pgdown on an unrolled menu (navigates among items)"] pub fn ncmultiselector_offer_input(n: *mut ncmultiselector, nc: *const ncinput) -> bool; } extern "C" { #[doc = " Destroy the ncmultiselector."] pub fn ncmultiselector_destroy(n: *mut ncmultiselector); } #[doc = " Menus. Horizontal menu bars are supported, on the top and/or bottom rows."] #[doc = " If the menu bar is longer than the screen, it will be only partially"] #[doc = " visible. Menus may be either visible or invisible by default. In the event of"] #[doc = " a screen resize, menus will be automatically moved/resized. Elements can be"] #[doc = " dynamically enabled or disabled at all levels (menu, section, and item),"] #[repr(C)] #[derive(Debug, Copy, Clone)] pub struct ncmenu_item { #[doc = " utf-8 menu item, NULL for horizontal separator"] pub desc: *mut cty::c_char, #[doc = " shortcut, all should be distinct"] pub shortcut: ncinput, } #[test] fn bindgen_test_layout_ncmenu_item() { assert_eq!( ::core::mem::size_of::(), 32usize, concat!("Size of: ", stringify!(ncmenu_item)) ); assert_eq!( ::core::mem::align_of::(), 8usize, concat!("Alignment of ", stringify!(ncmenu_item)) ); assert_eq!( unsafe { &(*(::core::ptr::null::())).desc as *const _ as usize }, 0usize, concat!( "Offset of field: ", stringify!(ncmenu_item), "::", stringify!(desc) ) ); assert_eq!( unsafe { &(*(::core::ptr::null::())).shortcut as *const _ as usize }, 8usize, concat!( "Offset of field: ", stringify!(ncmenu_item), "::", stringify!(shortcut) ) ); } #[repr(C)] #[derive(Debug, Copy, Clone)] pub struct ncmenu_section { #[doc = " utf-8 c string"] pub name: *mut cty::c_char, pub itemcount: cty::c_int, pub items: *mut ncmenu_item, #[doc = " shortcut, will be underlined if present in name"] pub shortcut: ncinput, } #[test] fn bindgen_test_layout_ncmenu_section() { assert_eq!( ::core::mem::size_of::(), 48usize, concat!("Size of: ", stringify!(ncmenu_section)) ); assert_eq!( ::core::mem::align_of::(), 8usize, concat!("Alignment of ", stringify!(ncmenu_section)) ); assert_eq!( unsafe { &(*(::core::ptr::null::())).name as *const _ as usize }, 0usize, concat!( "Offset of field: ", stringify!(ncmenu_section), "::", stringify!(name) ) ); assert_eq!( unsafe { &(*(::core::ptr::null::())).itemcount as *const _ as usize }, 8usize, concat!( "Offset of field: ", stringify!(ncmenu_section), "::", stringify!(itemcount) ) ); assert_eq!( unsafe { &(*(::core::ptr::null::())).items as *const _ as usize }, 16usize, concat!( "Offset of field: ", stringify!(ncmenu_section), "::", stringify!(items) ) ); assert_eq!( unsafe { &(*(::core::ptr::null::())).shortcut as *const _ as usize }, 24usize, concat!( "Offset of field: ", stringify!(ncmenu_section), "::", stringify!(shortcut) ) ); } #[repr(C)] #[derive(Debug, Copy, Clone)] pub struct ncmenu_options { #[doc = " array of 'sectioncount' menu_sections"] pub sections: *mut ncmenu_section, #[doc = " must be positive"] pub sectioncount: cty::c_int, #[doc = " styling for header"] pub headerchannels: u64, #[doc = " styling for sections"] pub sectionchannels: u64, #[doc = " flag word of NCMENU_OPTION_*"] pub flags: u64, } #[test] fn bindgen_test_layout_ncmenu_options() { assert_eq!( ::core::mem::size_of::(), 40usize, concat!("Size of: ", stringify!(ncmenu_options)) ); assert_eq!( ::core::mem::align_of::(), 8usize, concat!("Alignment of ", stringify!(ncmenu_options)) ); assert_eq!( unsafe { &(*(::core::ptr::null::())).sections as *const _ as usize }, 0usize, concat!( "Offset of field: ", stringify!(ncmenu_options), "::", stringify!(sections) ) ); assert_eq!( unsafe { &(*(::core::ptr::null::())).sectioncount as *const _ as usize }, 8usize, concat!( "Offset of field: ", stringify!(ncmenu_options), "::", stringify!(sectioncount) ) ); assert_eq!( unsafe { &(*(::core::ptr::null::())).headerchannels as *const _ as usize }, 16usize, concat!( "Offset of field: ", stringify!(ncmenu_options), "::", stringify!(headerchannels) ) ); assert_eq!( unsafe { &(*(::core::ptr::null::())).sectionchannels as *const _ as usize }, 24usize, concat!( "Offset of field: ", stringify!(ncmenu_options), "::", stringify!(sectionchannels) ) ); assert_eq!( unsafe { &(*(::core::ptr::null::())).flags as *const _ as usize }, 32usize, concat!( "Offset of field: ", stringify!(ncmenu_options), "::", stringify!(flags) ) ); } #[repr(C)] #[derive(Debug, Copy, Clone)] pub struct ncmenu { _unused: [u8; 0], } extern "C" { #[doc = " Create a menu with the specified options. Menus are currently bound to an"] #[doc = " overall Notcurses object (as opposed to a particular plane), and are"] #[doc = " implemented as ncplanes kept atop other ncplanes."] pub fn ncmenu_create(n: *mut ncplane, opts: *const ncmenu_options) -> *mut ncmenu; } extern "C" { #[doc = " Unroll the specified menu section, making the menu visible if it was"] #[doc = " invisible, and rolling up any menu section that is already unrolled."] pub fn ncmenu_unroll(n: *mut ncmenu, sectionidx: cty::c_int) -> cty::c_int; } extern "C" { #[doc = " Roll up any unrolled menu section, and hide the menu if using hiding."] pub fn ncmenu_rollup(n: *mut ncmenu) -> cty::c_int; } extern "C" { #[doc = " Unroll the previous/next section (relative to current unrolled). If no"] #[doc = " section is unrolled, the first section will be unrolled."] pub fn ncmenu_nextsection(n: *mut ncmenu) -> cty::c_int; } extern "C" { pub fn ncmenu_prevsection(n: *mut ncmenu) -> cty::c_int; } extern "C" { #[doc = " Move to the previous/next item within the currently unrolled section. If no"] #[doc = " section is unrolled, the first section will be unrolled."] pub fn ncmenu_nextitem(n: *mut ncmenu) -> cty::c_int; } extern "C" { pub fn ncmenu_previtem(n: *mut ncmenu) -> cty::c_int; } extern "C" { #[doc = " Disable or enable a menu item. Returns 0 if the item was found."] pub fn ncmenu_item_set_status( n: *mut ncmenu, section: *const cty::c_char, item: *const cty::c_char, enabled: bool, ) -> cty::c_int; } extern "C" { #[doc = " Return the selected item description, or NULL if no section is unrolled. If"] #[doc = " 'ni' is not NULL, and the selected item has a shortcut, 'ni' will be filled"] #[doc = " in with that shortcut--this can allow faster matching."] pub fn ncmenu_selected(n: *const ncmenu, ni: *mut ncinput) -> *const cty::c_char; } extern "C" { #[doc = " Return the item description corresponding to the mouse click 'click'. The"] #[doc = " item must be on an actively unrolled section, and the click must be in the"] #[doc = " area of a valid item. If 'ni' is not NULL, and the selected item has a"] #[doc = " shortcut, 'ni' will be filled in with the shortcut."] pub fn ncmenu_mouse_selected( n: *const ncmenu, click: *const ncinput, ni: *mut ncinput, ) -> *const cty::c_char; } extern "C" { #[doc = " Return the ncplane backing this ncmenu."] pub fn ncmenu_plane(n: *mut ncmenu) -> *mut ncplane; } extern "C" { #[doc = " Offer the input to the ncmenu. If it's relevant, this function returns true,"] #[doc = " and the input ought not be processed further. If it's irrelevant to the"] #[doc = " menu, false is returned. Relevant inputs include:"] #[doc = " * mouse movement over a hidden menu"] #[doc = " * a mouse click on a menu section (the section is unrolled)"] #[doc = " * a mouse click outside of an unrolled menu (the menu is rolled up)"] #[doc = " * left or right on an unrolled menu (navigates among sections)"] #[doc = " * up or down on an unrolled menu (navigates among items)"] #[doc = " * escape on an unrolled menu (the menu is rolled up)"] pub fn ncmenu_offer_input(n: *mut ncmenu, nc: *const ncinput) -> bool; } extern "C" { #[doc = " Destroy a menu created with ncmenu_create()."] pub fn ncmenu_destroy(n: *mut ncmenu) -> cty::c_int; } #[repr(C)] #[derive(Debug, Copy, Clone)] pub struct ncplot_options { #[doc = " channels for the maximum and minimum levels. linear or exponential"] #[doc = " interpolation will be applied across the domain between these two."] pub maxchannels: u64, pub minchannels: u64, #[doc = " styling used for the legend, if NCPLOT_OPTION_LABELTICKSD is set"] pub legendstyle: u16, #[doc = " number of \"pixels\" per row x column"] pub gridtype: ncblitter_e, #[doc = " independent variable can either be a contiguous range, or a finite set"] #[doc = " of keys. for a time range, say the previous hour sampled with second"] #[doc = " resolution, the independent variable would be the range [0..3600): 3600."] #[doc = " if rangex is 0, it is dynamically set to the number of columns."] pub rangex: cty::c_int, #[doc = " optional, printed by the labels"] pub title: *const cty::c_char, #[doc = " bitfield over NCPLOT_OPTION_*"] pub flags: u64, } #[test] fn bindgen_test_layout_ncplot_options() { assert_eq!( ::core::mem::size_of::(), 48usize, concat!("Size of: ", stringify!(ncplot_options)) ); assert_eq!( ::core::mem::align_of::(), 8usize, concat!("Alignment of ", stringify!(ncplot_options)) ); assert_eq!( unsafe { &(*(::core::ptr::null::())).maxchannels as *const _ as usize }, 0usize, concat!( "Offset of field: ", stringify!(ncplot_options), "::", stringify!(maxchannels) ) ); assert_eq!( unsafe { &(*(::core::ptr::null::())).minchannels as *const _ as usize }, 8usize, concat!( "Offset of field: ", stringify!(ncplot_options), "::", stringify!(minchannels) ) ); assert_eq!( unsafe { &(*(::core::ptr::null::())).legendstyle as *const _ as usize }, 16usize, concat!( "Offset of field: ", stringify!(ncplot_options), "::", stringify!(legendstyle) ) ); assert_eq!( unsafe { &(*(::core::ptr::null::())).gridtype as *const _ as usize }, 20usize, concat!( "Offset of field: ", stringify!(ncplot_options), "::", stringify!(gridtype) ) ); assert_eq!( unsafe { &(*(::core::ptr::null::())).rangex as *const _ as usize }, 24usize, concat!( "Offset of field: ", stringify!(ncplot_options), "::", stringify!(rangex) ) ); assert_eq!( unsafe { &(*(::core::ptr::null::())).title as *const _ as usize }, 32usize, concat!( "Offset of field: ", stringify!(ncplot_options), "::", stringify!(title) ) ); assert_eq!( unsafe { &(*(::core::ptr::null::())).flags as *const _ as usize }, 40usize, concat!( "Offset of field: ", stringify!(ncplot_options), "::", stringify!(flags) ) ); } extern "C" { #[doc = " Use the provided plane 'n' for plotting according to the options 'opts'. The"] #[doc = " plot will make free use of the entirety of the plane. For domain"] #[doc = " autodiscovery, set miny == maxy == 0. ncuplot holds uint64_ts, while"] #[doc = " ncdplot holds doubles."] pub fn ncuplot_create( n: *mut ncplane, opts: *const ncplot_options, miny: u64, maxy: u64, ) -> *mut ncuplot; } extern "C" { pub fn ncdplot_create( n: *mut ncplane, opts: *const ncplot_options, miny: f64, maxy: f64, ) -> *mut ncdplot; } extern "C" { #[doc = " Return a reference to the ncplot's underlying ncplane."] pub fn ncuplot_plane(n: *mut ncuplot) -> *mut ncplane; } extern "C" { pub fn ncdplot_plane(n: *mut ncdplot) -> *mut ncplane; } extern "C" { #[doc = " Add to or set the value corresponding to this x. If x is beyond the current"] #[doc = " x window, the x window is advanced to include x, and values passing beyond"] #[doc = " the window are lost. The first call will place the initial window. The plot"] #[doc = " will be redrawn, but notcurses_render() is not called."] pub fn ncuplot_add_sample(n: *mut ncuplot, x: u64, y: u64) -> cty::c_int; } extern "C" { pub fn ncdplot_add_sample(n: *mut ncdplot, x: u64, y: f64) -> cty::c_int; } extern "C" { pub fn ncuplot_set_sample(n: *mut ncuplot, x: u64, y: u64) -> cty::c_int; } extern "C" { pub fn ncdplot_set_sample(n: *mut ncdplot, x: u64, y: f64) -> cty::c_int; } extern "C" { pub fn ncuplot_sample(n: *const ncuplot, x: u64, y: *mut u64) -> cty::c_int; } extern "C" { pub fn ncdplot_sample(n: *const ncdplot, x: u64, y: *mut f64) -> cty::c_int; } extern "C" { pub fn ncuplot_destroy(n: *mut ncuplot); } extern "C" { pub fn ncdplot_destroy(n: *mut ncdplot); } pub type ncfdplane_callback = ::core::option::Option< unsafe extern "C" fn( n: *mut ncfdplane, buf: *const cty::c_void, s: size_t, curry: *mut cty::c_void, ) -> cty::c_int, >; pub type ncfdplane_done_cb = ::core::option::Option< unsafe extern "C" fn( n: *mut ncfdplane, fderrno: cty::c_int, curry: *mut cty::c_void, ) -> cty::c_int, >; #[doc = " read from an fd until EOF (or beyond, if follow is set), invoking the user's"] #[doc = " callback each time. runs in its own context. on EOF or error, the finalizer"] #[doc = " callback will be invoked, and the user ought destroy the ncfdplane. the"] #[doc = " data is *not* guaranteed to be nul-terminated, and may contain arbitrary"] #[doc = " zeroes."] #[repr(C)] #[derive(Debug, Copy, Clone)] pub struct ncfdplane_options { #[doc = " parameter provided to callbacks"] pub curry: *mut cty::c_void, #[doc = " keep reading after hitting end? (think tail -f)"] pub follow: bool, #[doc = " bitfield over NCOPTION_FDPLANE_*"] pub flags: u64, } #[test] fn bindgen_test_layout_ncfdplane_options() { assert_eq!( ::core::mem::size_of::(), 24usize, concat!("Size of: ", stringify!(ncfdplane_options)) ); assert_eq!( ::core::mem::align_of::(), 8usize, concat!("Alignment of ", stringify!(ncfdplane_options)) ); assert_eq!( unsafe { &(*(::core::ptr::null::())).curry as *const _ as usize }, 0usize, concat!( "Offset of field: ", stringify!(ncfdplane_options), "::", stringify!(curry) ) ); assert_eq!( unsafe { &(*(::core::ptr::null::())).follow as *const _ as usize }, 8usize, concat!( "Offset of field: ", stringify!(ncfdplane_options), "::", stringify!(follow) ) ); assert_eq!( unsafe { &(*(::core::ptr::null::())).flags as *const _ as usize }, 16usize, concat!( "Offset of field: ", stringify!(ncfdplane_options), "::", stringify!(flags) ) ); } extern "C" { #[doc = " Create an ncfdplane around the fd 'fd'. Consider this function to take"] #[doc = " ownership of the file descriptor, which will be closed in ncfdplane_destroy()."] pub fn ncfdplane_create( n: *mut ncplane, opts: *const ncfdplane_options, fd: cty::c_int, cbfxn: ncfdplane_callback, donecbfxn: ncfdplane_done_cb, ) -> *mut ncfdplane; } extern "C" { pub fn ncfdplane_plane(n: *mut ncfdplane) -> *mut ncplane; } extern "C" { pub fn ncfdplane_destroy(n: *mut ncfdplane) -> cty::c_int; } #[repr(C)] #[derive(Debug, Copy, Clone)] pub struct ncsubproc_options { pub curry: *mut cty::c_void, #[doc = " restart this many seconds after an exit (watch)"] pub restart_period: u64, #[doc = " bitfield over NCOPTION_SUBPROC_*"] pub flags: u64, } #[test] fn bindgen_test_layout_ncsubproc_options() { assert_eq!( ::core::mem::size_of::(), 24usize, concat!("Size of: ", stringify!(ncsubproc_options)) ); assert_eq!( ::core::mem::align_of::(), 8usize, concat!("Alignment of ", stringify!(ncsubproc_options)) ); assert_eq!( unsafe { &(*(::core::ptr::null::())).curry as *const _ as usize }, 0usize, concat!( "Offset of field: ", stringify!(ncsubproc_options), "::", stringify!(curry) ) ); assert_eq!( unsafe { &(*(::core::ptr::null::())).restart_period as *const _ as usize }, 8usize, concat!( "Offset of field: ", stringify!(ncsubproc_options), "::", stringify!(restart_period) ) ); assert_eq!( unsafe { &(*(::core::ptr::null::())).flags as *const _ as usize }, 16usize, concat!( "Offset of field: ", stringify!(ncsubproc_options), "::", stringify!(flags) ) ); } extern "C" { #[doc = " see exec(2). p-types use $PATH. e-type passes environment vars."] pub fn ncsubproc_createv( n: *mut ncplane, opts: *const ncsubproc_options, bin: *const cty::c_char, arg: *const *mut cty::c_char, cbfxn: ncfdplane_callback, donecbfxn: ncfdplane_done_cb, ) -> *mut ncsubproc; } extern "C" { pub fn ncsubproc_createvp( n: *mut ncplane, opts: *const ncsubproc_options, bin: *const cty::c_char, arg: *const *mut cty::c_char, cbfxn: ncfdplane_callback, donecbfxn: ncfdplane_done_cb, ) -> *mut ncsubproc; } extern "C" { pub fn ncsubproc_createvpe( n: *mut ncplane, opts: *const ncsubproc_options, bin: *const cty::c_char, arg: *const *mut cty::c_char, env: *const *mut cty::c_char, cbfxn: ncfdplane_callback, donecbfxn: ncfdplane_done_cb, ) -> *mut ncsubproc; } extern "C" { pub fn ncsubproc_plane(n: *mut ncsubproc) -> *mut ncplane; } extern "C" { pub fn ncsubproc_destroy(n: *mut ncsubproc) -> cty::c_int; } extern "C" { #[doc = " Draw a QR code at the current position on the plane. If there is insufficient"] #[doc = " room to draw the code here, or there is any other error, non-zero will be"] #[doc = " returned. Otherwise, the QR code \"version\" (size) is returned. The QR code"] #[doc = " is (version * 4 + 17) columns wide, and ⌈version * 4 + 17⌉ rows tall (the"] #[doc = " properly-scaled values are written back to '*ymax' and '*xmax')."] pub fn ncplane_qrcode( n: *mut ncplane, blitter: ncblitter_e, ymax: *mut cty::c_int, xmax: *mut cty::c_int, data: *const cty::c_void, len: size_t, ) -> cty::c_int; } #[repr(C)] #[derive(Debug, Copy, Clone)] pub struct ncreader_options { #[doc = " channels used for input"] pub tchannels: u64, #[doc = " attributes used for input"] pub tattrword: u32, #[doc = " bitfield of NCREADER_OPTION_*"] pub flags: u64, } #[test] fn bindgen_test_layout_ncreader_options() { assert_eq!( ::core::mem::size_of::(), 24usize, concat!("Size of: ", stringify!(ncreader_options)) ); assert_eq!( ::core::mem::align_of::(), 8usize, concat!("Alignment of ", stringify!(ncreader_options)) ); assert_eq!( unsafe { &(*(::core::ptr::null::())).tchannels as *const _ as usize }, 0usize, concat!( "Offset of field: ", stringify!(ncreader_options), "::", stringify!(tchannels) ) ); assert_eq!( unsafe { &(*(::core::ptr::null::())).tattrword as *const _ as usize }, 8usize, concat!( "Offset of field: ", stringify!(ncreader_options), "::", stringify!(tattrword) ) ); assert_eq!( unsafe { &(*(::core::ptr::null::())).flags as *const _ as usize }, 16usize, concat!( "Offset of field: ", stringify!(ncreader_options), "::", stringify!(flags) ) ); } extern "C" { #[doc = " ncreaders provide freeform input in a (possibly multiline) region, supporting"] #[doc = " optional readline keybindings. takes ownership of 'n', destroying it on any"] #[doc = " error (ncreader_destroy() otherwise destroys the ncplane)."] pub fn ncreader_create(n: *mut ncplane, opts: *const ncreader_options) -> *mut ncreader; } extern "C" { #[doc = " empty the ncreader of any user input, and home the cursor."] pub fn ncreader_clear(n: *mut ncreader) -> cty::c_int; } extern "C" { pub fn ncreader_plane(n: *mut ncreader) -> *mut ncplane; } extern "C" { #[doc = " Offer the input to the ncreader. If it's relevant, this function returns"] #[doc = " true, and the input ought not be processed further. Almost all inputs"] #[doc = " are relevant to an ncreader, save synthesized ones."] pub fn ncreader_offer_input(n: *mut ncreader, ni: *const ncinput) -> bool; } extern "C" { #[doc = " Atttempt to move in the specified direction. Returns 0 if a move was"] #[doc = " successfully executed, -1 otherwise. Scrolling is taken into account."] pub fn ncreader_move_left(n: *mut ncreader) -> cty::c_int; } extern "C" { pub fn ncreader_move_right(n: *mut ncreader) -> cty::c_int; } extern "C" { pub fn ncreader_move_up(n: *mut ncreader) -> cty::c_int; } extern "C" { pub fn ncreader_move_down(n: *mut ncreader) -> cty::c_int; } extern "C" { #[doc = " Destructively write the provided EGC to the current cursor location. Move"] #[doc = " the cursor as necessary, scrolling if applicable."] pub fn ncreader_write_egc(n: *mut ncreader, egc: *const cty::c_char) -> cty::c_int; } extern "C" { #[doc = " return a heap-allocated copy of the current (UTF-8) contents."] pub fn ncreader_contents(n: *const ncreader) -> *mut cty::c_char; } extern "C" { #[doc = " destroy the reader and its bound plane. if 'contents' is not NULL, the"] #[doc = " UTF-8 input will be heap-duplicated and written to 'contents'."] pub fn ncreader_destroy(n: *mut ncreader, contents: *mut *mut cty::c_char); } extern "C" { #[doc = " Dump selected Notcurses state to the supplied 'debugfp'. Output is freeform,"] #[doc = " and subject to change. It includes geometry of all planes."] pub fn notcurses_debug(nc: *mut notcurses, debugfp: *mut FILE); } #[doc = " a system for rendering RGBA pixels as text glyphs"] #[repr(C)] #[derive(Debug, Copy, Clone)] pub struct blitset { pub geom: ncblitter_e, pub width: cty::c_int, pub height: cty::c_int, #[doc = " the EGCs which form the various levels of a given plotset. if the geometry"] #[doc = " is wide, things are arranged with the rightmost side increasing most"] #[doc = " quickly, i.e. it can be indexed as height arrays of 1 + height glyphs. i.e."] #[doc = " the first five braille EGCs are all 0 on the left, [0..4] on the right."] pub egcs: *const wchar_t, pub blit: ::core::option::Option< unsafe extern "C" fn( n: *mut ncplane, placey: cty::c_int, placex: cty::c_int, linesize: cty::c_int, data: *const cty::c_void, begy: cty::c_int, begx: cty::c_int, leny: cty::c_int, lenx: cty::c_int, blendcolors: bool, ) -> cty::c_int, >, pub name: *const cty::c_char, pub fill: bool, } #[test] fn bindgen_test_layout_blitset() { assert_eq!( ::core::mem::size_of::(), 48usize, concat!("Size of: ", stringify!(blitset)) ); assert_eq!( ::core::mem::align_of::(), 8usize, concat!("Alignment of ", stringify!(blitset)) ); assert_eq!( unsafe { &(*(::core::ptr::null::())).geom as *const _ as usize }, 0usize, concat!( "Offset of field: ", stringify!(blitset), "::", stringify!(geom) ) ); assert_eq!( unsafe { &(*(::core::ptr::null::())).width as *const _ as usize }, 4usize, concat!( "Offset of field: ", stringify!(blitset), "::", stringify!(width) ) ); assert_eq!( unsafe { &(*(::core::ptr::null::())).height as *const _ as usize }, 8usize, concat!( "Offset of field: ", stringify!(blitset), "::", stringify!(height) ) ); assert_eq!( unsafe { &(*(::core::ptr::null::())).egcs as *const _ as usize }, 16usize, concat!( "Offset of field: ", stringify!(blitset), "::", stringify!(egcs) ) ); assert_eq!( unsafe { &(*(::core::ptr::null::())).blit as *const _ as usize }, 24usize, concat!( "Offset of field: ", stringify!(blitset), "::", stringify!(blit) ) ); assert_eq!( unsafe { &(*(::core::ptr::null::())).name as *const _ as usize }, 32usize, concat!( "Offset of field: ", stringify!(blitset), "::", stringify!(name) ) ); assert_eq!( unsafe { &(*(::core::ptr::null::())).fill as *const _ as usize }, 40usize, concat!( "Offset of field: ", stringify!(blitset), "::", stringify!(fill) ) ); } extern "C" { pub static mut notcurses_blitters: [blitset; 0usize]; } #[repr(C)] #[derive(Debug, Copy, Clone)] pub struct ncdirect { _unused: [u8; 0], } extern "C" { #[doc = " Initialize a direct-mode Notcurses context on the connected terminal at 'fp'."] #[doc = " 'fp' must be a tty. You'll usually want stdout. Direct mode supports a"] #[doc = " limited subset of Notcurses routines which directly affect 'fp', and neither"] #[doc = " supports nor requires notcurses_render(). This can be used to add color and"] #[doc = " styling to text in the standard output paradigm. 'flags' is a bitmask over"] #[doc = " NCDIRECT_OPTION_*."] #[doc = " Returns NULL on error, including any failure initializing terminfo."] pub fn ncdirect_init(termtype: *const cty::c_char, fp: *mut FILE, flags: u64) -> *mut ncdirect; } extern "C" { #[doc = " Direct mode. This API can be used to colorize and stylize output generated"] #[doc = " outside of notcurses, without ever calling notcurses_render(). These should"] #[doc = " not be intermixed with standard Notcurses rendering."] pub fn ncdirect_fg_rgb(nc: *mut ncdirect, rgb: cty::c_uint) -> cty::c_int; } extern "C" { pub fn ncdirect_bg_rgb(nc: *mut ncdirect, rgb: cty::c_uint) -> cty::c_int; } extern "C" { pub fn ncdirect_fg_palindex(nc: *mut ncdirect, pidx: cty::c_int) -> cty::c_int; } extern "C" { pub fn ncdirect_bg_palindex(nc: *mut ncdirect, pidx: cty::c_int) -> cty::c_int; } extern "C" { #[doc = " Returns the number of simultaneous colors claimed to be supported, or 1 if"] #[doc = " there is no color support. Note that several terminal emulators advertise"] #[doc = " more colors than they actually support, downsampling internally."] pub fn ncdirect_palette_size(nc: *const ncdirect) -> cty::c_uint; } extern "C" { #[doc = " Output the string |utf8| according to the channels |channels|. Note that"] #[doc = " ncdirect_putstr() does not explicitly flush output buffers, so it will not"] #[doc = " necessarily be immediately visible."] pub fn ncdirect_putstr( nc: *mut ncdirect, channels: u64, utf8: *const cty::c_char, ) -> cty::c_int; } extern "C" { #[doc = " Formatted printing (plus alignment relative to the terminal). Returns the"] #[doc = " number of columns printed on success."] pub fn ncdirect_printf_aligned( n: *mut ncdirect, y: cty::c_int, align: ncalign_e, fmt: *const cty::c_char, ... ) -> cty::c_int; } extern "C" { #[doc = " Force a flush. Returns 0 on success, -1 on failure."] pub fn ncdirect_flush(nc: *const ncdirect) -> cty::c_int; } extern "C" { pub fn ncdirect_fg_default(nc: *mut ncdirect) -> cty::c_int; } extern "C" { pub fn ncdirect_bg_default(nc: *mut ncdirect) -> cty::c_int; } extern "C" { #[doc = " Get the current number of columns/rows."] pub fn ncdirect_dim_x(nc: *const ncdirect) -> cty::c_int; } extern "C" { pub fn ncdirect_dim_y(nc: *const ncdirect) -> cty::c_int; } extern "C" { #[doc = " ncplane_styles_*() analogues"] pub fn ncdirect_styles_set(n: *mut ncdirect, stylebits: cty::c_uint) -> cty::c_int; } extern "C" { pub fn ncdirect_styles_on(n: *mut ncdirect, stylebits: cty::c_uint) -> cty::c_int; } extern "C" { pub fn ncdirect_styles_off(n: *mut ncdirect, stylebits: cty::c_uint) -> cty::c_int; } extern "C" { #[doc = " Move the cursor in direct mode. -1 to retain current location on that axis."] pub fn ncdirect_cursor_move_yx(n: *mut ncdirect, y: cty::c_int, x: cty::c_int) -> cty::c_int; } extern "C" { pub fn ncdirect_cursor_enable(nc: *mut ncdirect) -> cty::c_int; } extern "C" { pub fn ncdirect_cursor_disable(nc: *mut ncdirect) -> cty::c_int; } extern "C" { pub fn ncdirect_cursor_up(nc: *mut ncdirect, num: cty::c_int) -> cty::c_int; } extern "C" { pub fn ncdirect_cursor_left(nc: *mut ncdirect, num: cty::c_int) -> cty::c_int; } extern "C" { pub fn ncdirect_cursor_right(nc: *mut ncdirect, num: cty::c_int) -> cty::c_int; } extern "C" { pub fn ncdirect_cursor_down(nc: *mut ncdirect, num: cty::c_int) -> cty::c_int; } extern "C" { #[doc = " Get the cursor position, when supported. This requires writing to the"] #[doc = " terminal, and then reading from it. If the terminal doesn't reply, or"] #[doc = " doesn't reply in a way we understand, the results might be deleterious."] pub fn ncdirect_cursor_yx( n: *mut ncdirect, y: *mut cty::c_int, x: *mut cty::c_int, ) -> cty::c_int; } extern "C" { #[doc = " Push or pop the cursor location to the terminal's stack. The depth of this"] #[doc = " stack, and indeed its existence, is terminal-dependent."] pub fn ncdirect_cursor_push(n: *mut ncdirect) -> cty::c_int; } extern "C" { pub fn ncdirect_cursor_pop(n: *mut ncdirect) -> cty::c_int; } extern "C" { #[doc = " Display an image using the specified blitter and scaling. The image may"] #[doc = " be arbitrarily many rows -- the output will scroll -- but will only occupy"] #[doc = " the column of the cursor, and those to the right."] pub fn ncdirect_render_image( n: *mut ncdirect, filename: *const cty::c_char, align: ncalign_e, blitter: ncblitter_e, scale: ncscale_e, ) -> cty::c_int; } extern "C" { #[doc = " Clear the screen."] pub fn ncdirect_clear(nc: *mut ncdirect) -> cty::c_int; } extern "C" { #[doc = " Can we load images? This requires being built against FFmpeg/OIIO."] pub fn ncdirect_canopen_images(n: *const ncdirect) -> bool; } extern "C" { #[doc = " Is our encoding UTF-8? Requires LANG being set to a UTF8 locale."] pub fn ncdirect_canutf8(n: *const ncdirect) -> bool; } extern "C" { #[doc = " Draw horizontal/vertical lines using the specified channels, interpolating"] #[doc = " between them as we go. The EGC may not use more than one column. For a"] #[doc = " horizontal line, |len| cannot exceed the screen width minus the cursor's"] #[doc = " offset. For a vertical line, it may be as long as you'd like; the screen"] #[doc = " will scroll as necessary. All lines start at the current cursor position."] pub fn ncdirect_hline_interp( n: *mut ncdirect, egc: *const cty::c_char, len: cty::c_int, h1: u64, h2: u64, ) -> cty::c_int; } extern "C" { pub fn ncdirect_vline_interp( n: *mut ncdirect, egc: *const cty::c_char, len: cty::c_int, h1: u64, h2: u64, ) -> cty::c_int; } extern "C" { #[doc = " Draw a box with its upper-left corner at the current cursor position, having"] #[doc = " dimensions |ylen|x|xlen|. See ncplane_box() for more information. The"] #[doc = " minimum box size is 2x2, and it cannot be drawn off-screen. |wchars| is an"] #[doc = " array of 6 wide characters: UL, UR, LL, LR, HL, VL."] pub fn ncdirect_box( n: *mut ncdirect, ul: u64, ur: u64, ll: u64, lr: u64, wchars: *const wchar_t, ylen: cty::c_int, xlen: cty::c_int, ctlword: cty::c_uint, ) -> cty::c_int; } extern "C" { #[doc = " ncdirect_box() with the rounded box-drawing characters"] pub fn ncdirect_rounded_box( n: *mut ncdirect, ul: u64, ur: u64, ll: u64, lr: u64, ylen: cty::c_int, xlen: cty::c_int, ctlword: cty::c_uint, ) -> cty::c_int; } extern "C" { #[doc = " ncdirect_box() with the double box-drawing characters"] pub fn ncdirect_double_box( n: *mut ncdirect, ul: u64, ur: u64, ll: u64, lr: u64, ylen: cty::c_int, xlen: cty::c_int, ctlword: cty::c_uint, ) -> cty::c_int; } extern "C" { #[doc = " See ppoll(2) for more detail. Provide a NULL 'ts' to block at length, a 'ts'"] #[doc = " of 0 for non-blocking operation, and otherwise a timespec to bound blocking."] #[doc = " Signals in sigmask (less several we handle internally) will be atomically"] #[doc = " masked and unmasked per ppoll(2). '*sigmask' should generally contain all"] #[doc = " signals. Returns a single Unicode code point, or (char32_t)-1 on error."] #[doc = " 'sigmask' may be NULL. Returns 0 on a timeout. If an event is processed, the"] #[doc = " return value is the 'id' field from that event. 'ni' may be NULL."] pub fn ncdirect_getc( n: *mut ncdirect, ts: *const timespec, sigmask: *mut sigset_t, ni: *mut ncinput, ) -> char32_t; } extern "C" { #[doc = " Get a file descriptor suitable for input event poll()ing. When this"] #[doc = " descriptor becomes available, you can call ncdirect_getc_nblock(),"] #[doc = " and input ought be ready. This file descriptor is *not* necessarily"] #[doc = " the file descriptor associated with stdin (but it might be!)."] pub fn ncdirect_inputready_fd(n: *mut ncdirect) -> cty::c_int; } extern "C" { #[doc = " Release 'nc' and any associated resources. 0 on success, non-0 on failure."] pub fn ncdirect_stop(nc: *mut ncdirect) -> cty::c_int; } pub type __builtin_va_list = [__va_list_tag; 1usize]; #[repr(C)] #[derive(Debug, Copy, Clone)] pub struct __va_list_tag { pub gp_offset: cty::c_uint, pub fp_offset: cty::c_uint, pub overflow_arg_area: *mut cty::c_void, pub reg_save_area: *mut cty::c_void, } #[test] fn bindgen_test_layout___va_list_tag() { assert_eq!( ::core::mem::size_of::<__va_list_tag>(), 24usize, concat!("Size of: ", stringify!(__va_list_tag)) ); assert_eq!( ::core::mem::align_of::<__va_list_tag>(), 8usize, concat!("Alignment of ", stringify!(__va_list_tag)) ); assert_eq!( unsafe { &(*(::core::ptr::null::<__va_list_tag>())).gp_offset as *const _ as usize }, 0usize, concat!( "Offset of field: ", stringify!(__va_list_tag), "::", stringify!(gp_offset) ) ); assert_eq!( unsafe { &(*(::core::ptr::null::<__va_list_tag>())).fp_offset as *const _ as usize }, 4usize, concat!( "Offset of field: ", stringify!(__va_list_tag), "::", stringify!(fp_offset) ) ); assert_eq!( unsafe { &(*(::core::ptr::null::<__va_list_tag>())).overflow_arg_area as *const _ as usize }, 8usize, concat!( "Offset of field: ", stringify!(__va_list_tag), "::", stringify!(overflow_arg_area) ) ); assert_eq!( unsafe { &(*(::core::ptr::null::<__va_list_tag>())).reg_save_area as *const _ as usize }, 16usize, concat!( "Offset of field: ", stringify!(__va_list_tag), "::", stringify!(reg_save_area) ) ); }