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/* automatically generated by rust-bindgen */

pub const __STDC_FORMAT_MACROS : u32 = 1 ; pub const _POSIX_C_SOURCE : u32 = 200809 ; pub const _XOPEN_SOURCE : u32 = 700 ; pub const true_ : u32 = 1 ; pub const false_ : u32 = 0 ; pub const __bool_true_false_are_defined : u32 = 1 ; pub const _STDINT_H : u32 = 1 ; pub const _FEATURES_H : u32 = 1 ; pub const _ISOC95_SOURCE : u32 = 1 ; pub const _ISOC99_SOURCE : u32 = 1 ; pub const _ISOC11_SOURCE : u32 = 1 ; pub const _POSIX_SOURCE : u32 = 1 ; pub const _XOPEN_SOURCE_EXTENDED : u32 = 1 ; pub const _LARGEFILE64_SOURCE : u32 = 1 ; pub const _DEFAULT_SOURCE : u32 = 1 ; pub const _ATFILE_SOURCE : u32 = 1 ; pub const __USE_ISOC11 : u32 = 1 ; pub const __USE_ISOC99 : u32 = 1 ; pub const __USE_ISOC95 : u32 = 1 ; pub const __USE_POSIX : u32 = 1 ; pub const __USE_POSIX2 : u32 = 1 ; pub const __USE_POSIX199309 : u32 = 1 ; pub const __USE_POSIX199506 : u32 = 1 ; pub const __USE_XOPEN2K : u32 = 1 ; pub const __USE_XOPEN2K8 : u32 = 1 ; pub const __USE_XOPEN : u32 = 1 ; pub const __USE_XOPEN_EXTENDED : u32 = 1 ; pub const __USE_UNIX98 : u32 = 1 ; pub const _LARGEFILE_SOURCE : u32 = 1 ; pub const __USE_XOPEN2K8XSI : u32 = 1 ; pub const __USE_XOPEN2KXSI : u32 = 1 ; pub const __USE_LARGEFILE : u32 = 1 ; pub const __USE_LARGEFILE64 : u32 = 1 ; pub const __USE_MISC : u32 = 1 ; pub const __USE_ATFILE : u32 = 1 ; pub const __USE_GNU : u32 = 1 ; pub const __USE_FORTIFY_LEVEL : u32 = 0 ; pub const __GLIBC_USE_DEPRECATED_GETS : 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 __STDC_NO_THREADS__ : u32 = 1 ; pub const __GNU_LIBRARY__ : u32 = 6 ; pub const __GLIBC__ : u32 = 2 ; pub const __GLIBC_MINOR__ : u32 = 27 ; 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 __HAVE_GENERIC_SELECTION : u32 = 1 ; pub const __GLIBC_USE_LIB_EXT2 : u32 = 1 ; pub const __GLIBC_USE_IEC_60559_BFP_EXT : u32 = 1 ; pub const __GLIBC_USE_IEC_60559_FUNCS_EXT : u32 = 1 ; pub const __GLIBC_USE_IEC_60559_TYPES_EXT : u32 = 1 ; pub const _BITS_TYPES_H : u32 = 1 ; 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 __FD_SETSIZE : u32 = 1024 ; pub const _BITS_WCHAR_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 INT8_WIDTH : u32 = 8 ; pub const UINT8_WIDTH : u32 = 8 ; pub const INT16_WIDTH : u32 = 16 ; pub const UINT16_WIDTH : u32 = 16 ; pub const INT32_WIDTH : u32 = 32 ; pub const UINT32_WIDTH : u32 = 32 ; pub const INT64_WIDTH : u32 = 64 ; pub const UINT64_WIDTH : u32 = 64 ; pub const INT_LEAST8_WIDTH : u32 = 8 ; pub const UINT_LEAST8_WIDTH : u32 = 8 ; pub const INT_LEAST16_WIDTH : u32 = 16 ; pub const UINT_LEAST16_WIDTH : u32 = 16 ; pub const INT_LEAST32_WIDTH : u32 = 32 ; pub const UINT_LEAST32_WIDTH : u32 = 32 ; pub const INT_LEAST64_WIDTH : u32 = 64 ; pub const UINT_LEAST64_WIDTH : u32 = 64 ; pub const INT_FAST8_WIDTH : u32 = 8 ; pub const UINT_FAST8_WIDTH : u32 = 8 ; pub const INT_FAST16_WIDTH : u32 = 64 ; pub const UINT_FAST16_WIDTH : u32 = 64 ; pub const INT_FAST32_WIDTH : u32 = 64 ; pub const UINT_FAST32_WIDTH : u32 = 64 ; pub const INT_FAST64_WIDTH : u32 = 64 ; pub const UINT_FAST64_WIDTH : u32 = 64 ; pub const INTPTR_WIDTH : u32 = 64 ; pub const UINTPTR_WIDTH : u32 = 64 ; pub const INTMAX_WIDTH : u32 = 64 ; pub const UINTMAX_WIDTH : u32 = 64 ; pub const PTRDIFF_WIDTH : u32 = 64 ; pub const SIG_ATOMIC_WIDTH : u32 = 32 ; pub const SIZE_WIDTH : u32 = 64 ; pub const WCHAR_WIDTH : u32 = 32 ; pub const WINT_WIDTH : u32 = 32 ; pub const _STDLIB_H : u32 = 1 ; pub const WNOHANG : u32 = 1 ; pub const WUNTRACED : u32 = 2 ; pub const WSTOPPED : u32 = 2 ; pub const WEXITED : u32 = 4 ; pub const WCONTINUED : u32 = 8 ; pub const WNOWAIT : u32 = 16777216 ; pub const __WNOTHREAD : u32 = 536870912 ; pub const __WALL : u32 = 1073741824 ; pub const __WCLONE : u32 = 2147483648 ; pub const __ENUM_IDTYPE_T : u32 = 1 ; pub const __W_CONTINUED : u32 = 65535 ; pub const __WCOREFLAG : u32 = 128 ; 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 __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 _BITS_TYPES_LOCALE_T_H : u32 = 1 ; pub const _BITS_TYPES___LOCALE_T_H : u32 = 1 ; pub const _SYS_TYPES_H : u32 = 1 ; pub const __clock_t_defined : u32 = 1 ; pub const __clockid_t_defined : u32 = 1 ; pub const __time_t_defined : u32 = 1 ; pub const __timer_t_defined : u32 = 1 ; pub const __BIT_TYPES_DEFINED__ : u32 = 1 ; pub const _ENDIAN_H : u32 = 1 ; pub const __LITTLE_ENDIAN : u32 = 1234 ; pub const __BIG_ENDIAN : u32 = 4321 ; pub const __PDP_ENDIAN : u32 = 3412 ; pub const __BYTE_ORDER : u32 = 1234 ; pub const __FLOAT_WORD_ORDER : u32 = 1234 ; pub const LITTLE_ENDIAN : u32 = 1234 ; pub const BIG_ENDIAN : u32 = 4321 ; pub const PDP_ENDIAN : u32 = 3412 ; pub const BYTE_ORDER : u32 = 1234 ; pub const _BITS_BYTESWAP_H : u32 = 1 ; pub const _BITS_UINTN_IDENTITY_H : u32 = 1 ; pub const _SYS_SELECT_H : u32 = 1 ; pub const __FD_ZERO_STOS : & 'static [ u8 ; 6usize ] = b"stosq\0" ; pub const __sigset_t_defined : u32 = 1 ; pub const __timeval_defined : u32 = 1 ; pub const __timespec_defined : u32 = 1 ; pub const FD_SETSIZE : u32 = 1024 ; pub const _SYS_SYSMACROS_H : u32 = 1 ; pub const _BITS_SYSMACROS_H : u32 = 1 ; pub const _BITS_PTHREADTYPES_COMMON_H : u32 = 1 ; pub const _THREAD_SHARED_TYPES_H : u32 = 1 ; pub const _BITS_PTHREADTYPES_ARCH_H : u32 = 1 ; pub const __SIZEOF_PTHREAD_MUTEX_T : u32 = 40 ; pub const __SIZEOF_PTHREAD_ATTR_T : u32 = 56 ; pub const __SIZEOF_PTHREAD_RWLOCK_T : u32 = 56 ; pub const __SIZEOF_PTHREAD_BARRIER_T : u32 = 32 ; pub const __SIZEOF_PTHREAD_MUTEXATTR_T : u32 = 4 ; pub const __SIZEOF_PTHREAD_COND_T : u32 = 48 ; pub const __SIZEOF_PTHREAD_CONDATTR_T : u32 = 4 ; pub const __SIZEOF_PTHREAD_RWLOCKATTR_T : u32 = 8 ; pub const __SIZEOF_PTHREAD_BARRIERATTR_T : u32 = 4 ; pub const __PTHREAD_MUTEX_LOCK_ELISION : u32 = 1 ; pub const __PTHREAD_MUTEX_NUSERS_AFTER_KIND : u32 = 0 ; pub const __PTHREAD_MUTEX_USE_UNION : u32 = 0 ; pub const __PTHREAD_RWLOCK_INT_FLAGS_SHARED : u32 = 1 ; pub const __PTHREAD_MUTEX_HAVE_PREV : u32 = 1 ; pub const __have_pthread_attr_t : u32 = 1 ; pub const _ALLOCA_H : u32 = 1 ; pub const _MM_HINT_ET0 : u32 = 7 ; pub const _MM_HINT_ET1 : u32 = 6 ; pub const _MM_HINT_T0 : u32 = 3 ; pub const _MM_HINT_T1 : u32 = 2 ; pub const _MM_HINT_T2 : u32 = 1 ; pub const _MM_HINT_NTA : u32 = 0 ; pub const _MM_EXCEPT_INVALID : u32 = 1 ; pub const _MM_EXCEPT_DENORM : u32 = 2 ; pub const _MM_EXCEPT_DIV_ZERO : u32 = 4 ; pub const _MM_EXCEPT_OVERFLOW : u32 = 8 ; pub const _MM_EXCEPT_UNDERFLOW : u32 = 16 ; pub const _MM_EXCEPT_INEXACT : u32 = 32 ; pub const _MM_EXCEPT_MASK : u32 = 63 ; pub const _MM_MASK_INVALID : u32 = 128 ; pub const _MM_MASK_DENORM : u32 = 256 ; pub const _MM_MASK_DIV_ZERO : u32 = 512 ; pub const _MM_MASK_OVERFLOW : u32 = 1024 ; pub const _MM_MASK_UNDERFLOW : u32 = 2048 ; pub const _MM_MASK_INEXACT : u32 = 4096 ; pub const _MM_MASK_MASK : u32 = 8064 ; pub const _MM_ROUND_NEAREST : u32 = 0 ; pub const _MM_ROUND_DOWN : u32 = 8192 ; pub const _MM_ROUND_UP : u32 = 16384 ; pub const _MM_ROUND_TOWARD_ZERO : u32 = 24576 ; pub const _MM_ROUND_MASK : u32 = 24576 ; pub const _MM_FLUSH_ZERO_MASK : u32 = 32768 ; pub const _MM_FLUSH_ZERO_ON : u32 = 32768 ; pub const _MM_FLUSH_ZERO_OFF : u32 = 0 ; pub const _MM_DENORMALS_ZERO_ON : u32 = 64 ; pub const _MM_DENORMALS_ZERO_OFF : u32 = 0 ; pub const _MM_DENORMALS_ZERO_MASK : u32 = 64 ; pub const _MM_FROUND_TO_NEAREST_INT : u32 = 0 ; pub const _MM_FROUND_TO_NEG_INF : u32 = 1 ; pub const _MM_FROUND_TO_POS_INF : u32 = 2 ; pub const _MM_FROUND_TO_ZERO : u32 = 3 ; pub const _MM_FROUND_CUR_DIRECTION : u32 = 4 ; pub const _MM_FROUND_RAISE_EXC : u32 = 0 ; pub const _MM_FROUND_NO_EXC : u32 = 8 ; pub const _MM_FROUND_NINT : u32 = 0 ; pub const _MM_FROUND_FLOOR : u32 = 1 ; pub const _MM_FROUND_CEIL : u32 = 2 ; pub const _MM_FROUND_TRUNC : u32 = 3 ; pub const _MM_FROUND_RINT : u32 = 4 ; pub const _MM_FROUND_NEARBYINT : u32 = 12 ; pub const _SIDD_UBYTE_OPS : u32 = 0 ; pub const _SIDD_UWORD_OPS : u32 = 1 ; pub const _SIDD_SBYTE_OPS : u32 = 2 ; pub const _SIDD_SWORD_OPS : u32 = 3 ; pub const _SIDD_CMP_EQUAL_ANY : u32 = 0 ; pub const _SIDD_CMP_RANGES : u32 = 4 ; pub const _SIDD_CMP_EQUAL_EACH : u32 = 8 ; pub const _SIDD_CMP_EQUAL_ORDERED : u32 = 12 ; pub const _SIDD_POSITIVE_POLARITY : u32 = 0 ; pub const _SIDD_NEGATIVE_POLARITY : u32 = 16 ; pub const _SIDD_MASKED_POSITIVE_POLARITY : u32 = 32 ; pub const _SIDD_MASKED_NEGATIVE_POLARITY : u32 = 48 ; pub const _SIDD_LEAST_SIGNIFICANT : u32 = 0 ; pub const _SIDD_MOST_SIGNIFICANT : u32 = 64 ; pub const _SIDD_BIT_MASK : u32 = 0 ; pub const _SIDD_UNIT_MASK : u32 = 64 ; pub const _CMP_EQ_OQ : u32 = 0 ; pub const _CMP_LT_OS : u32 = 1 ; pub const _CMP_LE_OS : u32 = 2 ; pub const _CMP_UNORD_Q : u32 = 3 ; pub const _CMP_NEQ_UQ : u32 = 4 ; pub const _CMP_NLT_US : u32 = 5 ; pub const _CMP_NLE_US : u32 = 6 ; pub const _CMP_ORD_Q : u32 = 7 ; pub const _CMP_EQ_UQ : u32 = 8 ; pub const _CMP_NGE_US : u32 = 9 ; pub const _CMP_NGT_US : u32 = 10 ; pub const _CMP_FALSE_OQ : u32 = 11 ; pub const _CMP_NEQ_OQ : u32 = 12 ; pub const _CMP_GE_OS : u32 = 13 ; pub const _CMP_GT_OS : u32 = 14 ; pub const _CMP_TRUE_UQ : u32 = 15 ; pub const _CMP_EQ_OS : u32 = 16 ; pub const _CMP_LT_OQ : u32 = 17 ; pub const _CMP_LE_OQ : u32 = 18 ; pub const _CMP_UNORD_S : u32 = 19 ; pub const _CMP_NEQ_US : u32 = 20 ; pub const _CMP_NLT_UQ : u32 = 21 ; pub const _CMP_NLE_UQ : u32 = 22 ; pub const _CMP_ORD_S : u32 = 23 ; pub const _CMP_EQ_US : u32 = 24 ; pub const _CMP_NGE_UQ : u32 = 25 ; pub const _CMP_NGT_UQ : u32 = 26 ; pub const _CMP_FALSE_OS : u32 = 27 ; pub const _CMP_NEQ_OS : u32 = 28 ; pub const _CMP_GE_OQ : u32 = 29 ; pub const _CMP_GT_OQ : u32 = 30 ; pub const _CMP_TRUE_US : u32 = 31 ; pub const _XBEGIN_STARTED : i32 = -1 ; pub const _XABORT_EXPLICIT : u32 = 1 ; pub const _XABORT_RETRY : u32 = 2 ; pub const _XABORT_CONFLICT : u32 = 4 ; pub const _XABORT_CAPACITY : u32 = 8 ; pub const _XABORT_DEBUG : u32 = 16 ; pub const _XABORT_NESTED : u32 = 32 ; pub const _MM_PCOMCTRL_LT : u32 = 0 ; pub const _MM_PCOMCTRL_LE : u32 = 1 ; pub const _MM_PCOMCTRL_GT : u32 = 2 ; pub const _MM_PCOMCTRL_GE : u32 = 3 ; pub const _MM_PCOMCTRL_EQ : u32 = 4 ; pub const _MM_PCOMCTRL_NEQ : u32 = 5 ; pub const _MM_PCOMCTRL_FALSE : u32 = 6 ; pub const _MM_PCOMCTRL_TRUE : u32 = 7 ; pub const LAZY_OR_BITSET_CONVERSION : u32 = 1 ; pub const LAZY_OR_BITSET_CONVERSION_TO_FULL : u32 = 1 ; pub const OR_BITSET_CONVERSION_TO_FULL : u32 = 1 ; pub const _STRING_H : u32 = 1 ; pub const _STRINGS_H : u32 = 1 ; pub const _ASSERT_H : u32 = 1 ; pub const _STDIO_H : u32 = 1 ; pub const ____FILE_defined : u32 = 1 ; pub const __FILE_defined : u32 = 1 ; pub const _BITS_LIBIO_H : u32 = 1 ; pub const _BITS_G_CONFIG_H : u32 = 1 ; pub const ____mbstate_t_defined : u32 = 1 ; pub const _G_HAVE_MMAP : u32 = 1 ; pub const _G_HAVE_MREMAP : u32 = 1 ; pub const _G_IO_IO_FILE_VERSION : u32 = 131073 ; pub const _G_BUFSIZ : u32 = 8192 ; pub const _IO_BUFSIZ : u32 = 8192 ; pub const __GNUC_VA_LIST : u32 = 1 ; pub const _IO_UNIFIED_JUMPTABLES : u32 = 1 ; pub const EOF : i32 = -1 ; pub const _IOS_INPUT : u32 = 1 ; pub const _IOS_OUTPUT : u32 = 2 ; pub const _IOS_ATEND : u32 = 4 ; pub const _IOS_APPEND : u32 = 8 ; pub const _IOS_TRUNC : u32 = 16 ; pub const _IOS_NOCREATE : u32 = 32 ; pub const _IOS_NOREPLACE : u32 = 64 ; pub const _IOS_BIN : u32 = 128 ; pub const _IO_MAGIC : u32 = 4222418944 ; pub const _OLD_STDIO_MAGIC : u32 = 4206624768 ; pub const _IO_MAGIC_MASK : u32 = 4294901760 ; pub const _IO_USER_BUF : u32 = 1 ; pub const _IO_UNBUFFERED : u32 = 2 ; pub const _IO_NO_READS : u32 = 4 ; pub const _IO_NO_WRITES : u32 = 8 ; pub const _IO_EOF_SEEN : u32 = 16 ; pub const _IO_ERR_SEEN : u32 = 32 ; pub const _IO_DELETE_DONT_CLOSE : u32 = 64 ; pub const _IO_LINKED : u32 = 128 ; pub const _IO_IN_BACKUP : u32 = 256 ; pub const _IO_LINE_BUF : u32 = 512 ; pub const _IO_TIED_PUT_GET : u32 = 1024 ; pub const _IO_CURRENTLY_PUTTING : u32 = 2048 ; pub const _IO_IS_APPENDING : u32 = 4096 ; pub const _IO_IS_FILEBUF : u32 = 8192 ; pub const _IO_BAD_SEEN : u32 = 16384 ; pub const _IO_USER_LOCK : u32 = 32768 ; pub const _IO_FLAGS2_MMAP : u32 = 1 ; pub const _IO_FLAGS2_NOTCANCEL : u32 = 2 ; pub const _IO_FLAGS2_USER_WBUF : u32 = 8 ; pub const _IO_SKIPWS : u32 = 1 ; pub const _IO_LEFT : u32 = 2 ; pub const _IO_RIGHT : u32 = 4 ; pub const _IO_INTERNAL : u32 = 8 ; pub const _IO_DEC : u32 = 16 ; pub const _IO_OCT : u32 = 32 ; pub const _IO_HEX : u32 = 64 ; pub const _IO_SHOWBASE : u32 = 128 ; pub const _IO_SHOWPOINT : u32 = 256 ; pub const _IO_UPPERCASE : u32 = 512 ; pub const _IO_SHOWPOS : u32 = 1024 ; pub const _IO_SCIENTIFIC : u32 = 2048 ; pub const _IO_FIXED : u32 = 4096 ; pub const _IO_UNITBUF : u32 = 8192 ; pub const _IO_STDIO : u32 = 16384 ; pub const _IO_DONT_CLOSE : u32 = 32768 ; pub const _IO_BOOLALPHA : u32 = 65536 ; pub const _IOFBF : u32 = 0 ; pub const _IOLBF : u32 = 1 ; pub const _IONBF : u32 = 2 ; pub const BUFSIZ : u32 = 8192 ; pub const SEEK_SET : u32 = 0 ; pub const SEEK_CUR : u32 = 1 ; pub const SEEK_END : u32 = 2 ; pub const SEEK_DATA : u32 = 3 ; pub const SEEK_HOLE : u32 = 4 ; 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 BITSET_CONTAINER_TYPE_CODE : u32 = 1 ; pub const ARRAY_CONTAINER_TYPE_CODE : u32 = 2 ; pub const RUN_CONTAINER_TYPE_CODE : u32 = 3 ; pub const SHARED_CONTAINER_TYPE_CODE : u32 = 4 ; pub const MAX_CONTAINERS : u32 = 65536 ; pub const SERIALIZATION_ARRAY_UINT32 : u32 = 1 ; pub const SERIALIZATION_CONTAINER : u32 = 2 ; pub const ROARING_VERSION_MAJOR : _bindgen_ty_1 = 0 ; pub const ROARING_VERSION_MINOR : _bindgen_ty_1 = 2 ; pub const ROARING_VERSION_REVISION : _bindgen_ty_1 = 60 ; pub type _bindgen_ty_1 = u32 ; pub type __u_char = :: std :: os :: raw :: c_uchar ; pub type __u_short = :: std :: os :: raw :: c_ushort ; pub type __u_int = :: std :: os :: raw :: c_uint ; pub type __u_long = :: std :: os :: raw :: c_ulong ; pub type __int8_t = :: std :: os :: raw :: c_schar ; pub type __uint8_t = :: std :: os :: raw :: c_uchar ; pub type __int16_t = :: std :: os :: raw :: c_short ; pub type __uint16_t = :: std :: os :: raw :: c_ushort ; pub type __int32_t = :: std :: os :: raw :: c_int ; pub type __uint32_t = :: std :: os :: raw :: c_uint ; pub type __int64_t = :: std :: os :: raw :: c_long ; pub type __uint64_t = :: std :: os :: raw :: c_ulong ; pub type __quad_t = :: std :: os :: raw :: c_long ; pub type __u_quad_t = :: std :: os :: raw :: c_ulong ; pub type __intmax_t = :: std :: os :: raw :: c_long ; pub type __uintmax_t = :: std :: os :: raw :: c_ulong ; pub type __dev_t = :: std :: os :: raw :: c_ulong ; pub type __uid_t = :: std :: os :: raw :: c_uint ; pub type __gid_t = :: std :: os :: raw :: c_uint ; pub type __ino_t = :: std :: os :: raw :: c_ulong ; pub type __ino64_t = :: std :: os :: raw :: c_ulong ; pub type __mode_t = :: std :: os :: raw :: c_uint ; pub type __nlink_t = :: std :: os :: raw :: c_ulong ; pub type __off_t = :: std :: os :: raw :: c_long ; pub type __off64_t = :: std :: os :: raw :: c_long ; pub type __pid_t = :: std :: os :: raw :: c_int ; # [ repr ( C ) ] # [ derive ( Debug , Copy , Clone ) ] pub struct __fsid_t { pub __val : [ :: std :: os :: raw :: c_int ; 2usize ] , } # [ test ] fn bindgen_test_layout___fsid_t ( ) { assert_eq ! ( :: std :: mem :: size_of :: < __fsid_t > ( ) , 8usize , concat ! ( "Size of: " , stringify ! ( __fsid_t ) ) ) ; assert_eq ! ( :: std :: mem :: align_of :: < __fsid_t > ( ) , 4usize , concat ! ( "Alignment of " , stringify ! ( __fsid_t ) ) ) ; assert_eq ! ( unsafe { & ( * ( :: std :: ptr :: null :: < __fsid_t > ( ) ) ) . __val as * const _ as usize } , 0usize , concat ! ( "Offset of field: " , stringify ! ( __fsid_t ) , "::" , stringify ! ( __val ) ) ) ; } pub type __clock_t = :: std :: os :: raw :: c_long ; pub type __rlim_t = :: std :: os :: raw :: c_ulong ; pub type __rlim64_t = :: std :: os :: raw :: c_ulong ; pub type __id_t = :: std :: os :: raw :: c_uint ; pub type __time_t = :: std :: os :: raw :: c_long ; pub type __useconds_t = :: std :: os :: raw :: c_uint ; pub type __suseconds_t = :: std :: os :: raw :: c_long ; pub type __daddr_t = :: std :: os :: raw :: c_int ; pub type __key_t = :: std :: os :: raw :: c_int ; pub type __clockid_t = :: std :: os :: raw :: c_int ; pub type __timer_t = * mut :: std :: os :: raw :: c_void ; pub type __blksize_t = :: std :: os :: raw :: c_long ; pub type __blkcnt_t = :: std :: os :: raw :: c_long ; pub type __blkcnt64_t = :: std :: os :: raw :: c_long ; pub type __fsblkcnt_t = :: std :: os :: raw :: c_ulong ; pub type __fsblkcnt64_t = :: std :: os :: raw :: c_ulong ; pub type __fsfilcnt_t = :: std :: os :: raw :: c_ulong ; pub type __fsfilcnt64_t = :: std :: os :: raw :: c_ulong ; pub type __fsword_t = :: std :: os :: raw :: c_long ; pub type __ssize_t = :: std :: os :: raw :: c_long ; pub type __syscall_slong_t = :: std :: os :: raw :: c_long ; pub type __syscall_ulong_t = :: std :: os :: raw :: c_ulong ; pub type __loff_t = __off64_t ; pub type __caddr_t = * mut :: std :: os :: raw :: c_char ; pub type __intptr_t = :: std :: os :: raw :: c_long ; pub type __socklen_t = :: std :: os :: raw :: c_uint ; pub type __sig_atomic_t = :: std :: os :: raw :: c_int ; pub type int_least8_t = :: std :: os :: raw :: c_schar ; pub type int_least16_t = :: std :: os :: raw :: c_short ; pub type int_least32_t = :: std :: os :: raw :: c_int ; pub type int_least64_t = :: std :: os :: raw :: c_long ; pub type uint_least8_t = :: std :: os :: raw :: c_uchar ; pub type uint_least16_t = :: std :: os :: raw :: c_ushort ; pub type uint_least32_t = :: std :: os :: raw :: c_uint ; pub type uint_least64_t = :: std :: os :: raw :: c_ulong ; pub type int_fast8_t = :: std :: os :: raw :: c_schar ; pub type int_fast16_t = :: std :: os :: raw :: c_long ; pub type int_fast32_t = :: std :: os :: raw :: c_long ; pub type int_fast64_t = :: std :: os :: raw :: c_long ; pub type uint_fast8_t = :: std :: os :: raw :: c_uchar ; pub type uint_fast16_t = :: std :: os :: raw :: c_ulong ; pub type uint_fast32_t = :: std :: os :: raw :: c_ulong ; pub type uint_fast64_t = :: std :: os :: raw :: c_ulong ; pub type intmax_t = __intmax_t ; pub type uintmax_t = __uintmax_t ; pub type wchar_t = :: std :: os :: raw :: c_int ; pub const idtype_t_P_ALL : idtype_t = 0 ; pub const idtype_t_P_PID : idtype_t = 1 ; pub const idtype_t_P_PGID : idtype_t = 2 ; pub type idtype_t = u32 ; pub type _Float32 = f32 ; pub type _Float64 = f64 ; pub type _Float32x = f64 ; pub type _Float64x = f64 ; # [ repr ( C ) ] # [ derive ( Debug , Copy , Clone ) ] pub struct div_t { pub quot : :: std :: os :: raw :: c_int , pub rem : :: std :: os :: raw :: c_int , } # [ test ] fn bindgen_test_layout_div_t ( ) { assert_eq ! ( :: std :: mem :: size_of :: < div_t > ( ) , 8usize , concat ! ( "Size of: " , stringify ! ( div_t ) ) ) ; assert_eq ! ( :: std :: mem :: align_of :: < div_t > ( ) , 4usize , concat ! ( "Alignment of " , stringify ! ( div_t ) ) ) ; assert_eq ! ( unsafe { & ( * ( :: std :: ptr :: null :: < div_t > ( ) ) ) . quot as * const _ as usize } , 0usize , concat ! ( "Offset of field: " , stringify ! ( div_t ) , "::" , stringify ! ( quot ) ) ) ; assert_eq ! ( unsafe { & ( * ( :: std :: ptr :: null :: < div_t > ( ) ) ) . 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 { pub quot : :: std :: os :: raw :: c_long , pub rem : :: std :: os :: raw :: c_long , } # [ test ] fn bindgen_test_layout_ldiv_t ( ) { assert_eq ! ( :: std :: mem :: size_of :: < ldiv_t > ( ) , 16usize , concat ! ( "Size of: " , stringify ! ( ldiv_t ) ) ) ; assert_eq ! ( :: std :: mem :: align_of :: < ldiv_t > ( ) , 8usize , concat ! ( "Alignment of " , stringify ! ( ldiv_t ) ) ) ; assert_eq ! ( unsafe { & ( * ( :: std :: ptr :: null :: < ldiv_t > ( ) ) ) . quot as * const _ as usize } , 0usize , concat ! ( "Offset of field: " , stringify ! ( ldiv_t ) , "::" , stringify ! ( quot ) ) ) ; assert_eq ! ( unsafe { & ( * ( :: std :: ptr :: null :: < ldiv_t > ( ) ) ) . rem as * const _ as usize } , 8usize , concat ! ( "Offset of field: " , stringify ! ( ldiv_t ) , "::" , stringify ! ( rem ) ) ) ; } # [ repr ( C ) ] # [ derive ( Debug , Copy , Clone ) ] pub struct lldiv_t { pub quot : :: std :: os :: raw :: c_longlong , pub rem : :: std :: os :: raw :: c_longlong , } # [ test ] fn bindgen_test_layout_lldiv_t ( ) { assert_eq ! ( :: std :: mem :: size_of :: < lldiv_t > ( ) , 16usize , concat ! ( "Size of: " , stringify ! ( lldiv_t ) ) ) ; assert_eq ! ( :: std :: mem :: align_of :: < lldiv_t > ( ) , 8usize , concat ! ( "Alignment of " , stringify ! ( lldiv_t ) ) ) ; assert_eq ! ( unsafe { & ( * ( :: std :: ptr :: null :: < lldiv_t > ( ) ) ) . quot as * const _ as usize } , 0usize , concat ! ( "Offset of field: " , stringify ! ( lldiv_t ) , "::" , stringify ! ( quot ) ) ) ; assert_eq ! ( unsafe { & ( * ( :: std :: ptr :: null :: < lldiv_t > ( ) ) ) . rem as * const _ as usize } , 8usize , concat ! ( "Offset of field: " , stringify ! ( lldiv_t ) , "::" , stringify ! ( rem ) ) ) ; } extern "C" { # [ link_name = "\u{1}___ctype_get_mb_cur_max" ] pub fn __ctype_get_mb_cur_max ( ) -> usize ; } extern "C" { # [ link_name = "\u{1}_atof" ] pub fn atof ( __nptr : * const :: std :: os :: raw :: c_char ) -> f64 ; } extern "C" { # [ link_name = "\u{1}_atoi" ] pub fn atoi ( __nptr : * const :: std :: os :: raw :: c_char ) -> :: std :: os :: raw :: c_int ; } extern "C" { # [ link_name = "\u{1}_atol" ] pub fn atol ( __nptr : * const :: std :: os :: raw :: c_char ) -> :: std :: os :: raw :: c_long ; } extern "C" { # [ link_name = "\u{1}_atoll" ] pub fn atoll ( __nptr : * const :: std :: os :: raw :: c_char ) -> :: std :: os :: raw :: c_longlong ; } extern "C" { # [ link_name = "\u{1}_strtod" ] pub fn strtod ( __nptr : * const :: std :: os :: raw :: c_char , __endptr : * mut * mut :: std :: os :: raw :: c_char ) -> f64 ; } extern "C" { # [ link_name = "\u{1}_strtof" ] pub fn strtof ( __nptr : * const :: std :: os :: raw :: c_char , __endptr : * mut * mut :: std :: os :: raw :: c_char ) -> f32 ; } extern "C" { # [ link_name = "\u{1}_strtold" ] pub fn strtold ( __nptr : * const :: std :: os :: raw :: c_char , __endptr : * mut * mut :: std :: os :: raw :: c_char ) -> f64 ; } extern "C" { # [ link_name = "\u{1}_strtof32" ] pub fn strtof32 ( __nptr : * const :: std :: os :: raw :: c_char , __endptr : * mut * mut :: std :: os :: raw :: c_char ) -> _Float32 ; } extern "C" { # [ link_name = "\u{1}_strtof64" ] pub fn strtof64 ( __nptr : * const :: std :: os :: raw :: c_char , __endptr : * mut * mut :: std :: os :: raw :: c_char ) -> _Float64 ; } extern "C" { # [ link_name = "\u{1}_strtof32x" ] pub fn strtof32x ( __nptr : * const :: std :: os :: raw :: c_char , __endptr : * mut * mut :: std :: os :: raw :: c_char ) -> _Float32x ; } extern "C" { # [ link_name = "\u{1}_strtof64x" ] pub fn strtof64x ( __nptr : * const :: std :: os :: raw :: c_char , __endptr : * mut * mut :: std :: os :: raw :: c_char ) -> _Float64x ; } extern "C" { # [ link_name = "\u{1}_strtol" ] pub fn strtol ( __nptr : * const :: std :: os :: raw :: c_char , __endptr : * mut * mut :: std :: os :: raw :: c_char , __base : :: std :: os :: raw :: c_int ) -> :: std :: os :: raw :: c_long ; } extern "C" { # [ link_name = "\u{1}_strtoul" ] pub fn strtoul ( __nptr : * const :: std :: os :: raw :: c_char , __endptr : * mut * mut :: std :: os :: raw :: c_char , __base : :: std :: os :: raw :: c_int ) -> :: std :: os :: raw :: c_ulong ; } extern "C" { # [ link_name = "\u{1}_strtoq" ] pub fn strtoq ( __nptr : * const :: std :: os :: raw :: c_char , __endptr : * mut * mut :: std :: os :: raw :: c_char , __base : :: std :: os :: raw :: c_int ) -> :: std :: os :: raw :: c_longlong ; } extern "C" { # [ link_name = "\u{1}_strtouq" ] pub fn strtouq ( __nptr : * const :: std :: os :: raw :: c_char , __endptr : * mut * mut :: std :: os :: raw :: c_char , __base : :: std :: os :: raw :: c_int ) -> :: std :: os :: raw :: c_ulonglong ; } extern "C" { # [ link_name = "\u{1}_strtoll" ] pub fn strtoll ( __nptr : * const :: std :: os :: raw :: c_char , __endptr : * mut * mut :: std :: os :: raw :: c_char , __base : :: std :: os :: raw :: c_int ) -> :: std :: os :: raw :: c_longlong ; } extern "C" { # [ link_name = "\u{1}_strtoull" ] pub fn strtoull ( __nptr : * const :: std :: os :: raw :: c_char , __endptr : * mut * mut :: std :: os :: raw :: c_char , __base : :: std :: os :: raw :: c_int ) -> :: std :: os :: raw :: c_ulonglong ; } extern "C" { # [ link_name = "\u{1}_strfromd" ] pub fn strfromd ( __dest : * mut :: std :: os :: raw :: c_char , __size : usize , __format : * const :: std :: os :: raw :: c_char , __f : f64 ) -> :: std :: os :: raw :: c_int ; } extern "C" { # [ link_name = "\u{1}_strfromf" ] pub fn strfromf ( __dest : * mut :: std :: os :: raw :: c_char , __size : usize , __format : * const :: std :: os :: raw :: c_char , __f : f32 ) -> :: std :: os :: raw :: c_int ; } extern "C" { # [ link_name = "\u{1}_strfroml" ] pub fn strfroml ( __dest : * mut :: std :: os :: raw :: c_char , __size : usize , __format : * const :: std :: os :: raw :: c_char , __f : f64 ) -> :: std :: os :: raw :: c_int ; } extern "C" { # [ link_name = "\u{1}_strfromf32" ] pub fn strfromf32 ( __dest : * mut :: std :: os :: raw :: c_char , __size : usize , __format : * const :: std :: os :: raw :: c_char , __f : _Float32 ) -> :: std :: os :: raw :: c_int ; } extern "C" { # [ link_name = "\u{1}_strfromf64" ] pub fn strfromf64 ( __dest : * mut :: std :: os :: raw :: c_char , __size : usize , __format : * const :: std :: os :: raw :: c_char , __f : _Float64 ) -> :: std :: os :: raw :: c_int ; } extern "C" { # [ link_name = "\u{1}_strfromf32x" ] pub fn strfromf32x ( __dest : * mut :: std :: os :: raw :: c_char , __size : usize , __format : * const :: std :: os :: raw :: c_char , __f : _Float32x ) -> :: std :: os :: raw :: c_int ; } extern "C" { # [ link_name = "\u{1}_strfromf64x" ] pub fn strfromf64x ( __dest : * mut :: std :: os :: raw :: c_char , __size : usize , __format : * const :: std :: os :: raw :: c_char , __f : _Float64x ) -> :: std :: os :: raw :: c_int ; } # [ repr ( C ) ] # [ derive ( Debug , Copy , Clone ) ] pub struct __locale_struct { pub __locales : [ * mut __locale_data ; 13usize ] , pub __ctype_b : * const :: std :: os :: raw :: c_ushort , pub __ctype_tolower : * const :: std :: os :: raw :: c_int , pub __ctype_toupper : * const :: std :: os :: raw :: c_int , pub __names : [ * const :: std :: os :: raw :: c_char ; 13usize ] , } # [ test ] fn bindgen_test_layout___locale_struct ( ) { assert_eq ! ( :: std :: mem :: size_of :: < __locale_struct > ( ) , 232usize , concat ! ( "Size of: " , stringify ! ( __locale_struct ) ) ) ; assert_eq ! ( :: std :: mem :: align_of :: < __locale_struct > ( ) , 8usize , concat ! ( "Alignment of " , stringify ! ( __locale_struct ) ) ) ; assert_eq ! ( unsafe { & ( * ( :: std :: ptr :: null :: < __locale_struct > ( ) ) ) . __locales as * const _ as usize } , 0usize , concat ! ( "Offset of field: " , stringify ! ( __locale_struct ) , "::" , stringify ! ( __locales ) ) ) ; assert_eq ! ( unsafe { & ( * ( :: std :: ptr :: null :: < __locale_struct > ( ) ) ) . __ctype_b as * const _ as usize } , 104usize , concat ! ( "Offset of field: " , stringify ! ( __locale_struct ) , "::" , stringify ! ( __ctype_b ) ) ) ; assert_eq ! ( unsafe { & ( * ( :: std :: ptr :: null :: < __locale_struct > ( ) ) ) . __ctype_tolower as * const _ as usize } , 112usize , concat ! ( "Offset of field: " , stringify ! ( __locale_struct ) , "::" , stringify ! ( __ctype_tolower ) ) ) ; assert_eq ! ( unsafe { & ( * ( :: std :: ptr :: null :: < __locale_struct > ( ) ) ) . __ctype_toupper as * const _ as usize } , 120usize , concat ! ( "Offset of field: " , stringify ! ( __locale_struct ) , "::" , stringify ! ( __ctype_toupper ) ) ) ; assert_eq ! ( unsafe { & ( * ( :: std :: ptr :: null :: < __locale_struct > ( ) ) ) . __names as * const _ as usize } , 128usize , concat ! ( "Offset of field: " , stringify ! ( __locale_struct ) , "::" , stringify ! ( __names ) ) ) ; } pub type __locale_t = * mut __locale_struct ; pub type locale_t = __locale_t ; extern "C" { # [ link_name = "\u{1}_strtol_l" ] pub fn strtol_l ( __nptr : * const :: std :: os :: raw :: c_char , __endptr : * mut * mut :: std :: os :: raw :: c_char , __base : :: std :: os :: raw :: c_int , __loc : locale_t ) -> :: std :: os :: raw :: c_long ; } extern "C" { # [ link_name = "\u{1}_strtoul_l" ] pub fn strtoul_l ( __nptr : * const :: std :: os :: raw :: c_char , __endptr : * mut * mut :: std :: os :: raw :: c_char , __base : :: std :: os :: raw :: c_int , __loc : locale_t ) -> :: std :: os :: raw :: c_ulong ; } extern "C" { # [ link_name = "\u{1}_strtoll_l" ] pub fn strtoll_l ( __nptr : * const :: std :: os :: raw :: c_char , __endptr : * mut * mut :: std :: os :: raw :: c_char , __base : :: std :: os :: raw :: c_int , __loc : locale_t ) -> :: std :: os :: raw :: c_longlong ; } extern "C" { # [ link_name = "\u{1}_strtoull_l" ] pub fn strtoull_l ( __nptr : * const :: std :: os :: raw :: c_char , __endptr : * mut * mut :: std :: os :: raw :: c_char , __base : :: std :: os :: raw :: c_int , __loc : locale_t ) -> :: std :: os :: raw :: c_ulonglong ; } extern "C" { # [ link_name = "\u{1}_strtod_l" ] pub fn strtod_l ( __nptr : * const :: std :: os :: raw :: c_char , __endptr : * mut * mut :: std :: os :: raw :: c_char , __loc : locale_t ) -> f64 ; } extern "C" { # [ link_name = "\u{1}_strtof_l" ] pub fn strtof_l ( __nptr : * const :: std :: os :: raw :: c_char , __endptr : * mut * mut :: std :: os :: raw :: c_char , __loc : locale_t ) -> f32 ; } extern "C" { # [ link_name = "\u{1}_strtold_l" ] pub fn strtold_l ( __nptr : * const :: std :: os :: raw :: c_char , __endptr : * mut * mut :: std :: os :: raw :: c_char , __loc : locale_t ) -> f64 ; } extern "C" { # [ link_name = "\u{1}_strtof32_l" ] pub fn strtof32_l ( __nptr : * const :: std :: os :: raw :: c_char , __endptr : * mut * mut :: std :: os :: raw :: c_char , __loc : locale_t ) -> _Float32 ; } extern "C" { # [ link_name = "\u{1}_strtof64_l" ] pub fn strtof64_l ( __nptr : * const :: std :: os :: raw :: c_char , __endptr : * mut * mut :: std :: os :: raw :: c_char , __loc : locale_t ) -> _Float64 ; } extern "C" { # [ link_name = "\u{1}_strtof32x_l" ] pub fn strtof32x_l ( __nptr : * const :: std :: os :: raw :: c_char , __endptr : * mut * mut :: std :: os :: raw :: c_char , __loc : locale_t ) -> _Float32x ; } extern "C" { # [ link_name = "\u{1}_strtof64x_l" ] pub fn strtof64x_l ( __nptr : * const :: std :: os :: raw :: c_char , __endptr : * mut * mut :: std :: os :: raw :: c_char , __loc : locale_t ) -> _Float64x ; } extern "C" { # [ link_name = "\u{1}_l64a" ] pub fn l64a ( __n : :: std :: os :: raw :: c_long ) -> * mut :: std :: os :: raw :: c_char ; } extern "C" { # [ link_name = "\u{1}_a64l" ] pub fn a64l ( __s : * const :: std :: os :: raw :: c_char ) -> :: std :: os :: raw :: c_long ; } pub type u_char = __u_char ; pub type u_short = __u_short ; pub type u_int = __u_int ; pub type u_long = __u_long ; pub type quad_t = __quad_t ; pub type u_quad_t = __u_quad_t ; pub type fsid_t = __fsid_t ; pub type loff_t = __loff_t ; pub type ino_t = __ino_t ; pub type ino64_t = __ino64_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 uid_t = __uid_t ; pub type off_t = __off_t ; pub type off64_t = __off64_t ; pub type pid_t = __pid_t ; pub type id_t = __id_t ; pub type daddr_t = __daddr_t ; pub type caddr_t = __caddr_t ; pub type key_t = __key_t ; pub type clock_t = __clock_t ; pub type clockid_t = __clockid_t ; pub type time_t = __time_t ; pub type timer_t = __timer_t ; pub type useconds_t = __useconds_t ; pub type suseconds_t = __suseconds_t ; pub type ulong = :: std :: os :: raw :: c_ulong ; pub type ushort = :: std :: os :: raw :: c_ushort ; pub type uint = :: std :: os :: raw :: c_uint ; pub type u_int8_t = :: std :: os :: raw :: c_uchar ; pub type u_int16_t = :: std :: os :: raw :: c_ushort ; pub type u_int32_t = :: std :: os :: raw :: c_uint ; pub type u_int64_t = :: std :: os :: raw :: c_ulong ; pub type register_t = :: std :: os :: raw :: c_long ; # [ repr ( C ) ] # [ derive ( Debug , Copy , Clone ) ] pub struct __sigset_t { pub __val : [ :: std :: os :: raw :: c_ulong ; 16usize ] , } # [ test ] fn bindgen_test_layout___sigset_t ( ) { assert_eq ! ( :: std :: mem :: size_of :: < __sigset_t > ( ) , 128usize , concat ! ( "Size of: " , stringify ! ( __sigset_t ) ) ) ; assert_eq ! ( :: std :: mem :: align_of :: < __sigset_t > ( ) , 8usize , concat ! ( "Alignment of " , stringify ! ( __sigset_t ) ) ) ; assert_eq ! ( unsafe { & ( * ( :: std :: ptr :: null :: < __sigset_t > ( ) ) ) . __val as * const _ as usize } , 0usize , concat ! ( "Offset of field: " , stringify ! ( __sigset_t ) , "::" , stringify ! ( __val ) ) ) ; } pub type sigset_t = __sigset_t ; # [ repr ( C ) ] # [ derive ( Debug , Copy , Clone ) ] pub struct timeval { pub tv_sec : __time_t , pub tv_usec : __suseconds_t , } # [ test ] fn bindgen_test_layout_timeval ( ) { assert_eq ! ( :: std :: mem :: size_of :: < timeval > ( ) , 16usize , concat ! ( "Size of: " , stringify ! ( timeval ) ) ) ; assert_eq ! ( :: std :: mem :: align_of :: < timeval > ( ) , 8usize , concat ! ( "Alignment of " , stringify ! ( timeval ) ) ) ; assert_eq ! ( unsafe { & ( * ( :: std :: ptr :: null :: < timeval > ( ) ) ) . tv_sec as * const _ as usize } , 0usize , concat ! ( "Offset of field: " , stringify ! ( timeval ) , "::" , stringify ! ( tv_sec ) ) ) ; assert_eq ! ( unsafe { & ( * ( :: std :: ptr :: null :: < timeval > ( ) ) ) . tv_usec as * const _ as usize } , 8usize , concat ! ( "Offset of field: " , stringify ! ( timeval ) , "::" , stringify ! ( tv_usec ) ) ) ; } # [ repr ( C ) ] # [ derive ( Debug , Copy , Clone ) ] pub struct timespec { pub tv_sec : __time_t , pub tv_nsec : __syscall_slong_t , } # [ test ] fn bindgen_test_layout_timespec ( ) { assert_eq ! ( :: std :: mem :: size_of :: < timespec > ( ) , 16usize , concat ! ( "Size of: " , stringify ! ( timespec ) ) ) ; assert_eq ! ( :: std :: mem :: align_of :: < timespec > ( ) , 8usize , concat ! ( "Alignment of " , stringify ! ( timespec ) ) ) ; assert_eq ! ( unsafe { & ( * ( :: std :: ptr :: null :: < timespec > ( ) ) ) . tv_sec as * const _ as usize } , 0usize , concat ! ( "Offset of field: " , stringify ! ( timespec ) , "::" , stringify ! ( tv_sec ) ) ) ; assert_eq ! ( unsafe { & ( * ( :: std :: ptr :: null :: < timespec > ( ) ) ) . tv_nsec as * const _ as usize } , 8usize , concat ! ( "Offset of field: " , stringify ! ( timespec ) , "::" , stringify ! ( tv_nsec ) ) ) ; } pub type __fd_mask = :: std :: os :: raw :: c_long ; # [ repr ( C ) ] # [ derive ( Debug , Copy , Clone ) ] pub struct fd_set { pub fds_bits : [ __fd_mask ; 16usize ] , } # [ test ] fn bindgen_test_layout_fd_set ( ) { assert_eq ! ( :: std :: mem :: size_of :: < fd_set > ( ) , 128usize , concat ! ( "Size of: " , stringify ! ( fd_set ) ) ) ; assert_eq ! ( :: std :: mem :: align_of :: < fd_set > ( ) , 8usize , concat ! ( "Alignment of " , stringify ! ( fd_set ) ) ) ; assert_eq ! ( unsafe { & ( * ( :: std :: ptr :: null :: < fd_set > ( ) ) ) . fds_bits as * const _ as usize } , 0usize , concat ! ( "Offset of field: " , stringify ! ( fd_set ) , "::" , stringify ! ( fds_bits ) ) ) ; } pub type fd_mask = __fd_mask ; extern "C" { # [ link_name = "\u{1}_select" ] pub fn select ( __nfds : :: std :: os :: raw :: c_int , __readfds : * mut fd_set , __writefds : * mut fd_set , __exceptfds : * mut fd_set , __timeout : * mut timeval ) -> :: std :: os :: raw :: c_int ; } extern "C" { # [ link_name = "\u{1}_pselect" ] pub fn pselect ( __nfds : :: std :: os :: raw :: c_int , __readfds : * mut fd_set , __writefds : * mut fd_set , __exceptfds : * mut fd_set , __timeout : * const timespec , __sigmask : * const __sigset_t ) -> :: std :: os :: raw :: c_int ; } extern "C" { # [ link_name = "\u{1}_gnu_dev_major" ] pub fn gnu_dev_major ( __dev : __dev_t ) -> :: std :: os :: raw :: c_uint ; } extern "C" { # [ link_name = "\u{1}_gnu_dev_minor" ] pub fn gnu_dev_minor ( __dev : __dev_t ) -> :: std :: os :: raw :: c_uint ; } extern "C" { # [ link_name = "\u{1}_gnu_dev_makedev" ] pub fn gnu_dev_makedev ( __major : :: std :: os :: raw :: c_uint , __minor : :: std :: os :: raw :: c_uint ) -> __dev_t ; } pub type blksize_t = __blksize_t ; pub type blkcnt_t = __blkcnt_t ; pub type fsblkcnt_t = __fsblkcnt_t ; pub type fsfilcnt_t = __fsfilcnt_t ; pub type blkcnt64_t = __blkcnt64_t ; pub type fsblkcnt64_t = __fsblkcnt64_t ; pub type fsfilcnt64_t = __fsfilcnt64_t ; # [ repr ( C ) ] # [ derive ( Debug , Copy , Clone ) ] pub struct __pthread_rwlock_arch_t { pub __readers : :: std :: os :: raw :: c_uint , pub __writers : :: std :: os :: raw :: c_uint , pub __wrphase_futex : :: std :: os :: raw :: c_uint , pub __writers_futex : :: std :: os :: raw :: c_uint , pub __pad3 : :: std :: os :: raw :: c_uint , pub __pad4 : :: std :: os :: raw :: c_uint , pub __cur_writer : :: std :: os :: raw :: c_int , pub __shared : :: std :: os :: raw :: c_int , pub __rwelision : :: std :: os :: raw :: c_schar , pub __pad1 : [ :: std :: os :: raw :: c_uchar ; 7usize ] , pub __pad2 : :: std :: os :: raw :: c_ulong , pub __flags : :: std :: os :: raw :: c_uint , } # [ test ] fn bindgen_test_layout___pthread_rwlock_arch_t ( ) { assert_eq ! ( :: std :: mem :: size_of :: < __pthread_rwlock_arch_t > ( ) , 56usize , concat ! ( "Size of: " , stringify ! ( __pthread_rwlock_arch_t ) ) ) ; assert_eq ! ( :: std :: mem :: align_of :: < __pthread_rwlock_arch_t > ( ) , 8usize , concat ! ( "Alignment of " , stringify ! ( __pthread_rwlock_arch_t ) ) ) ; assert_eq ! ( unsafe { & ( * ( :: std :: ptr :: null :: < __pthread_rwlock_arch_t > ( ) ) ) . __readers as * const _ as usize } , 0usize , concat ! ( "Offset of field: " , stringify ! ( __pthread_rwlock_arch_t ) , "::" , stringify ! ( __readers ) ) ) ; assert_eq ! ( unsafe { & ( * ( :: std :: ptr :: null :: < __pthread_rwlock_arch_t > ( ) ) ) . __writers as * const _ as usize } , 4usize , concat ! ( "Offset of field: " , stringify ! ( __pthread_rwlock_arch_t ) , "::" , stringify ! ( __writers ) ) ) ; assert_eq ! ( unsafe { & ( * ( :: std :: ptr :: null :: < __pthread_rwlock_arch_t > ( ) ) ) . __wrphase_futex as * const _ as usize } , 8usize , concat ! ( "Offset of field: " , stringify ! ( __pthread_rwlock_arch_t ) , "::" , stringify ! ( __wrphase_futex ) ) ) ; assert_eq ! ( unsafe { & ( * ( :: std :: ptr :: null :: < __pthread_rwlock_arch_t > ( ) ) ) . __writers_futex as * const _ as usize } , 12usize , concat ! ( "Offset of field: " , stringify ! ( __pthread_rwlock_arch_t ) , "::" , stringify ! ( __writers_futex ) ) ) ; assert_eq ! ( unsafe { & ( * ( :: std :: ptr :: null :: < __pthread_rwlock_arch_t > ( ) ) ) . __pad3 as * const _ as usize } , 16usize , concat ! ( "Offset of field: " , stringify ! ( __pthread_rwlock_arch_t ) , "::" , stringify ! ( __pad3 ) ) ) ; assert_eq ! ( unsafe { & ( * ( :: std :: ptr :: null :: < __pthread_rwlock_arch_t > ( ) ) ) . __pad4 as * const _ as usize } , 20usize , concat ! ( "Offset of field: " , stringify ! ( __pthread_rwlock_arch_t ) , "::" , stringify ! ( __pad4 ) ) ) ; assert_eq ! ( unsafe { & ( * ( :: std :: ptr :: null :: < __pthread_rwlock_arch_t > ( ) ) ) . __cur_writer as * const _ as usize } , 24usize , concat ! ( "Offset of field: " , stringify ! ( __pthread_rwlock_arch_t ) , "::" , stringify ! ( __cur_writer ) ) ) ; assert_eq ! ( unsafe { & ( * ( :: std :: ptr :: null :: < __pthread_rwlock_arch_t > ( ) ) ) . __shared as * const _ as usize } , 28usize , concat ! ( "Offset of field: " , stringify ! ( __pthread_rwlock_arch_t ) , "::" , stringify ! ( __shared ) ) ) ; assert_eq ! ( unsafe { & ( * ( :: std :: ptr :: null :: < __pthread_rwlock_arch_t > ( ) ) ) . __rwelision as * const _ as usize } , 32usize , concat ! ( "Offset of field: " , stringify ! ( __pthread_rwlock_arch_t ) , "::" , stringify ! ( __rwelision ) ) ) ; assert_eq ! ( unsafe { & ( * ( :: std :: ptr :: null :: < __pthread_rwlock_arch_t > ( ) ) ) . __pad1 as * const _ as usize } , 33usize , concat ! ( "Offset of field: " , stringify ! ( __pthread_rwlock_arch_t ) , "::" , stringify ! ( __pad1 ) ) ) ; assert_eq ! ( unsafe { & ( * ( :: std :: ptr :: null :: < __pthread_rwlock_arch_t > ( ) ) ) . __pad2 as * const _ as usize } , 40usize , concat ! ( "Offset of field: " , stringify ! ( __pthread_rwlock_arch_t ) , "::" , stringify ! ( __pad2 ) ) ) ; assert_eq ! ( unsafe { & ( * ( :: std :: ptr :: null :: < __pthread_rwlock_arch_t > ( ) ) ) . __flags as * const _ as usize } , 48usize , concat ! ( "Offset of field: " , stringify ! ( __pthread_rwlock_arch_t ) , "::" , stringify ! ( __flags ) ) ) ; } # [ repr ( C ) ] # [ derive ( Debug , Copy , Clone ) ] pub struct __pthread_internal_list { pub __prev : * mut __pthread_internal_list , pub __next : * mut __pthread_internal_list , } # [ test ] fn bindgen_test_layout___pthread_internal_list ( ) { assert_eq ! ( :: std :: mem :: size_of :: < __pthread_internal_list > ( ) , 16usize , concat ! ( "Size of: " , stringify ! ( __pthread_internal_list ) ) ) ; assert_eq ! ( :: std :: mem :: align_of :: < __pthread_internal_list > ( ) , 8usize , concat ! ( "Alignment of " , stringify ! ( __pthread_internal_list ) ) ) ; assert_eq ! ( unsafe { & ( * ( :: std :: ptr :: null :: < __pthread_internal_list > ( ) ) ) . __prev as * const _ as usize } , 0usize , concat ! ( "Offset of field: " , stringify ! ( __pthread_internal_list ) , "::" , stringify ! ( __prev ) ) ) ; assert_eq ! ( unsafe { & ( * ( :: std :: ptr :: null :: < __pthread_internal_list > ( ) ) ) . __next as * const _ as usize } , 8usize , concat ! ( "Offset of field: " , stringify ! ( __pthread_internal_list ) , "::" , stringify ! ( __next ) ) ) ; } pub type __pthread_list_t = __pthread_internal_list ; # [ repr ( C ) ] # [ derive ( Debug , Copy , Clone ) ] pub struct __pthread_mutex_s { pub __lock : :: std :: os :: raw :: c_int , pub __count : :: std :: os :: raw :: c_uint , pub __owner : :: std :: os :: raw :: c_int , pub __nusers : :: std :: os :: raw :: c_uint , pub __kind : :: std :: os :: raw :: c_int , pub __spins : :: std :: os :: raw :: c_short , pub __elision : :: std :: os :: raw :: c_short , pub __list : __pthread_list_t , } # [ test ] fn bindgen_test_layout___pthread_mutex_s ( ) { assert_eq ! ( :: std :: mem :: size_of :: < __pthread_mutex_s > ( ) , 40usize , concat ! ( "Size of: " , stringify ! ( __pthread_mutex_s ) ) ) ; assert_eq ! ( :: std :: mem :: align_of :: < __pthread_mutex_s > ( ) , 8usize , concat ! ( "Alignment of " , stringify ! ( __pthread_mutex_s ) ) ) ; assert_eq ! ( unsafe { & ( * ( :: std :: ptr :: null :: < __pthread_mutex_s > ( ) ) ) . __lock as * const _ as usize } , 0usize , concat ! ( "Offset of field: " , stringify ! ( __pthread_mutex_s ) , "::" , stringify ! ( __lock ) ) ) ; assert_eq ! ( unsafe { & ( * ( :: std :: ptr :: null :: < __pthread_mutex_s > ( ) ) ) . __count as * const _ as usize } , 4usize , concat ! ( "Offset of field: " , stringify ! ( __pthread_mutex_s ) , "::" , stringify ! ( __count ) ) ) ; assert_eq ! ( unsafe { & ( * ( :: std :: ptr :: null :: < __pthread_mutex_s > ( ) ) ) . __owner as * const _ as usize } , 8usize , concat ! ( "Offset of field: " , stringify ! ( __pthread_mutex_s ) , "::" , stringify ! ( __owner ) ) ) ; assert_eq ! ( unsafe { & ( * ( :: std :: ptr :: null :: < __pthread_mutex_s > ( ) ) ) . __nusers as * const _ as usize } , 12usize , concat ! ( "Offset of field: " , stringify ! ( __pthread_mutex_s ) , "::" , stringify ! ( __nusers ) ) ) ; assert_eq ! ( unsafe { & ( * ( :: std :: ptr :: null :: < __pthread_mutex_s > ( ) ) ) . __kind as * const _ as usize } , 16usize , concat ! ( "Offset of field: " , stringify ! ( __pthread_mutex_s ) , "::" , stringify ! ( __kind ) ) ) ; assert_eq ! ( unsafe { & ( * ( :: std :: ptr :: null :: < __pthread_mutex_s > ( ) ) ) . __spins as * const _ as usize } , 20usize , concat ! ( "Offset of field: " , stringify ! ( __pthread_mutex_s ) , "::" , stringify ! ( __spins ) ) ) ; assert_eq ! ( unsafe { & ( * ( :: std :: ptr :: null :: < __pthread_mutex_s > ( ) ) ) . __elision as * const _ as usize } , 22usize , concat ! ( "Offset of field: " , stringify ! ( __pthread_mutex_s ) , "::" , stringify ! ( __elision ) ) ) ; assert_eq ! ( unsafe { & ( * ( :: std :: ptr :: null :: < __pthread_mutex_s > ( ) ) ) . __list as * const _ as usize } , 24usize , concat ! ( "Offset of field: " , stringify ! ( __pthread_mutex_s ) , "::" , stringify ! ( __list ) ) ) ; } # [ repr ( C ) ] # [ derive ( Copy , Clone ) ] pub struct __pthread_cond_s { pub __bindgen_anon_1 : __pthread_cond_s__bindgen_ty_1 , pub __bindgen_anon_2 : __pthread_cond_s__bindgen_ty_2 , pub __g_refs : [ :: std :: os :: raw :: c_uint ; 2usize ] , pub __g_size : [ :: std :: os :: raw :: c_uint ; 2usize ] , pub __g1_orig_size : :: std :: os :: raw :: c_uint , pub __wrefs : :: std :: os :: raw :: c_uint , pub __g_signals : [ :: std :: os :: raw :: c_uint ; 2usize ] , } # [ repr ( C ) ] # [ derive ( Copy , Clone ) ] pub union __pthread_cond_s__bindgen_ty_1 { pub __wseq : :: std :: os :: raw :: c_ulonglong , pub __wseq32 : __pthread_cond_s__bindgen_ty_1__bindgen_ty_1 , _bindgen_union_align : u64 , } # [ repr ( C ) ] # [ derive ( Debug , Copy , Clone ) ] pub struct __pthread_cond_s__bindgen_ty_1__bindgen_ty_1 { pub __low : :: std :: os :: raw :: c_uint , pub __high : :: std :: os :: raw :: c_uint , } # [ test ] fn bindgen_test_layout___pthread_cond_s__bindgen_ty_1__bindgen_ty_1 ( ) { assert_eq ! ( :: std :: mem :: size_of :: < __pthread_cond_s__bindgen_ty_1__bindgen_ty_1 > ( ) , 8usize , concat ! ( "Size of: " , stringify ! ( __pthread_cond_s__bindgen_ty_1__bindgen_ty_1 ) ) ) ; assert_eq ! ( :: std :: mem :: align_of :: < __pthread_cond_s__bindgen_ty_1__bindgen_ty_1 > ( ) , 4usize , concat ! ( "Alignment of " , stringify ! ( __pthread_cond_s__bindgen_ty_1__bindgen_ty_1 ) ) ) ; assert_eq ! ( unsafe { & ( * ( :: std :: ptr :: null :: < __pthread_cond_s__bindgen_ty_1__bindgen_ty_1 > ( ) ) ) . __low as * const _ as usize } , 0usize , concat ! ( "Offset of field: " , stringify ! ( __pthread_cond_s__bindgen_ty_1__bindgen_ty_1 ) , "::" , stringify ! ( __low ) ) ) ; assert_eq ! ( unsafe { & ( * ( :: std :: ptr :: null :: < __pthread_cond_s__bindgen_ty_1__bindgen_ty_1 > ( ) ) ) . __high as * const _ as usize } , 4usize , concat ! ( "Offset of field: " , stringify ! ( __pthread_cond_s__bindgen_ty_1__bindgen_ty_1 ) , "::" , stringify ! ( __high ) ) ) ; } # [ test ] fn bindgen_test_layout___pthread_cond_s__bindgen_ty_1 ( ) { assert_eq ! ( :: std :: mem :: size_of :: < __pthread_cond_s__bindgen_ty_1 > ( ) , 8usize , concat ! ( "Size of: " , stringify ! ( __pthread_cond_s__bindgen_ty_1 ) ) ) ; assert_eq ! ( :: std :: mem :: align_of :: < __pthread_cond_s__bindgen_ty_1 > ( ) , 8usize , concat ! ( "Alignment of " , stringify ! ( __pthread_cond_s__bindgen_ty_1 ) ) ) ; assert_eq ! ( unsafe { & ( * ( :: std :: ptr :: null :: < __pthread_cond_s__bindgen_ty_1 > ( ) ) ) . __wseq as * const _ as usize } , 0usize , concat ! ( "Offset of field: " , stringify ! ( __pthread_cond_s__bindgen_ty_1 ) , "::" , stringify ! ( __wseq ) ) ) ; assert_eq ! ( unsafe { & ( * ( :: std :: ptr :: null :: < __pthread_cond_s__bindgen_ty_1 > ( ) ) ) . __wseq32 as * const _ as usize } , 0usize , concat ! ( "Offset of field: " , stringify ! ( __pthread_cond_s__bindgen_ty_1 ) , "::" , stringify ! ( __wseq32 ) ) ) ; } # [ repr ( C ) ] # [ derive ( Copy , Clone ) ] pub union __pthread_cond_s__bindgen_ty_2 { pub __g1_start : :: std :: os :: raw :: c_ulonglong , pub __g1_start32 : __pthread_cond_s__bindgen_ty_2__bindgen_ty_1 , _bindgen_union_align : u64 , } # [ repr ( C ) ] # [ derive ( Debug , Copy , Clone ) ] pub struct __pthread_cond_s__bindgen_ty_2__bindgen_ty_1 { pub __low : :: std :: os :: raw :: c_uint , pub __high : :: std :: os :: raw :: c_uint , } # [ test ] fn bindgen_test_layout___pthread_cond_s__bindgen_ty_2__bindgen_ty_1 ( ) { assert_eq ! ( :: std :: mem :: size_of :: < __pthread_cond_s__bindgen_ty_2__bindgen_ty_1 > ( ) , 8usize , concat ! ( "Size of: " , stringify ! ( __pthread_cond_s__bindgen_ty_2__bindgen_ty_1 ) ) ) ; assert_eq ! ( :: std :: mem :: align_of :: < __pthread_cond_s__bindgen_ty_2__bindgen_ty_1 > ( ) , 4usize , concat ! ( "Alignment of " , stringify ! ( __pthread_cond_s__bindgen_ty_2__bindgen_ty_1 ) ) ) ; assert_eq ! ( unsafe { & ( * ( :: std :: ptr :: null :: < __pthread_cond_s__bindgen_ty_2__bindgen_ty_1 > ( ) ) ) . __low as * const _ as usize } , 0usize , concat ! ( "Offset of field: " , stringify ! ( __pthread_cond_s__bindgen_ty_2__bindgen_ty_1 ) , "::" , stringify ! ( __low ) ) ) ; assert_eq ! ( unsafe { & ( * ( :: std :: ptr :: null :: < __pthread_cond_s__bindgen_ty_2__bindgen_ty_1 > ( ) ) ) . __high as * const _ as usize } , 4usize , concat ! ( "Offset of field: " , stringify ! ( __pthread_cond_s__bindgen_ty_2__bindgen_ty_1 ) , "::" , stringify ! ( __high ) ) ) ; } # [ test ] fn bindgen_test_layout___pthread_cond_s__bindgen_ty_2 ( ) { assert_eq ! ( :: std :: mem :: size_of :: < __pthread_cond_s__bindgen_ty_2 > ( ) , 8usize , concat ! ( "Size of: " , stringify ! ( __pthread_cond_s__bindgen_ty_2 ) ) ) ; assert_eq ! ( :: std :: mem :: align_of :: < __pthread_cond_s__bindgen_ty_2 > ( ) , 8usize , concat ! ( "Alignment of " , stringify ! ( __pthread_cond_s__bindgen_ty_2 ) ) ) ; assert_eq ! ( unsafe { & ( * ( :: std :: ptr :: null :: < __pthread_cond_s__bindgen_ty_2 > ( ) ) ) . __g1_start as * const _ as usize } , 0usize , concat ! ( "Offset of field: " , stringify ! ( __pthread_cond_s__bindgen_ty_2 ) , "::" , stringify ! ( __g1_start ) ) ) ; assert_eq ! ( unsafe { & ( * ( :: std :: ptr :: null :: < __pthread_cond_s__bindgen_ty_2 > ( ) ) ) . __g1_start32 as * const _ as usize } , 0usize , concat ! ( "Offset of field: " , stringify ! ( __pthread_cond_s__bindgen_ty_2 ) , "::" , stringify ! ( __g1_start32 ) ) ) ; } # [ test ] fn bindgen_test_layout___pthread_cond_s ( ) { assert_eq ! ( :: std :: mem :: size_of :: < __pthread_cond_s > ( ) , 48usize , concat ! ( "Size of: " , stringify ! ( __pthread_cond_s ) ) ) ; assert_eq ! ( :: std :: mem :: align_of :: < __pthread_cond_s > ( ) , 8usize , concat ! ( "Alignment of " , stringify ! ( __pthread_cond_s ) ) ) ; assert_eq ! ( unsafe { & ( * ( :: std :: ptr :: null :: < __pthread_cond_s > ( ) ) ) . __g_refs as * const _ as usize } , 16usize , concat ! ( "Offset of field: " , stringify ! ( __pthread_cond_s ) , "::" , stringify ! ( __g_refs ) ) ) ; assert_eq ! ( unsafe { & ( * ( :: std :: ptr :: null :: < __pthread_cond_s > ( ) ) ) . __g_size as * const _ as usize } , 24usize , concat ! ( "Offset of field: " , stringify ! ( __pthread_cond_s ) , "::" , stringify ! ( __g_size ) ) ) ; assert_eq ! ( unsafe { & ( * ( :: std :: ptr :: null :: < __pthread_cond_s > ( ) ) ) . __g1_orig_size as * const _ as usize } , 32usize , concat ! ( "Offset of field: " , stringify ! ( __pthread_cond_s ) , "::" , stringify ! ( __g1_orig_size ) ) ) ; assert_eq ! ( unsafe { & ( * ( :: std :: ptr :: null :: < __pthread_cond_s > ( ) ) ) . __wrefs as * const _ as usize } , 36usize , concat ! ( "Offset of field: " , stringify ! ( __pthread_cond_s ) , "::" , stringify ! ( __wrefs ) ) ) ; assert_eq ! ( unsafe { & ( * ( :: std :: ptr :: null :: < __pthread_cond_s > ( ) ) ) . __g_signals as * const _ as usize } , 40usize , concat ! ( "Offset of field: " , stringify ! ( __pthread_cond_s ) , "::" , stringify ! ( __g_signals ) ) ) ; } pub type pthread_t = :: std :: os :: raw :: c_ulong ; # [ repr ( C ) ] # [ derive ( Copy , Clone ) ] pub union pthread_mutexattr_t { pub __size : [ :: std :: os :: raw :: c_char ; 4usize ] , pub __align : :: std :: os :: raw :: c_int , _bindgen_union_align : u32 , } # [ test ] fn bindgen_test_layout_pthread_mutexattr_t ( ) { assert_eq ! ( :: std :: mem :: size_of :: < pthread_mutexattr_t > ( ) , 4usize , concat ! ( "Size of: " , stringify ! ( pthread_mutexattr_t ) ) ) ; assert_eq ! ( :: std :: mem :: align_of :: < pthread_mutexattr_t > ( ) , 4usize , concat ! ( "Alignment of " , stringify ! ( pthread_mutexattr_t ) ) ) ; assert_eq ! ( unsafe { & ( * ( :: std :: ptr :: null :: < pthread_mutexattr_t > ( ) ) ) . __size as * const _ as usize } , 0usize , concat ! ( "Offset of field: " , stringify ! ( pthread_mutexattr_t ) , "::" , stringify ! ( __size ) ) ) ; assert_eq ! ( unsafe { & ( * ( :: std :: ptr :: null :: < pthread_mutexattr_t > ( ) ) ) . __align as * const _ as usize } , 0usize , concat ! ( "Offset of field: " , stringify ! ( pthread_mutexattr_t ) , "::" , stringify ! ( __align ) ) ) ; } # [ repr ( C ) ] # [ derive ( Copy , Clone ) ] pub union pthread_condattr_t { pub __size : [ :: std :: os :: raw :: c_char ; 4usize ] , pub __align : :: std :: os :: raw :: c_int , _bindgen_union_align : u32 , } # [ test ] fn bindgen_test_layout_pthread_condattr_t ( ) { assert_eq ! ( :: std :: mem :: size_of :: < pthread_condattr_t > ( ) , 4usize , concat ! ( "Size of: " , stringify ! ( pthread_condattr_t ) ) ) ; assert_eq ! ( :: std :: mem :: align_of :: < pthread_condattr_t > ( ) , 4usize , concat ! ( "Alignment of " , stringify ! ( pthread_condattr_t ) ) ) ; assert_eq ! ( unsafe { & ( * ( :: std :: ptr :: null :: < pthread_condattr_t > ( ) ) ) . __size as * const _ as usize } , 0usize , concat ! ( "Offset of field: " , stringify ! ( pthread_condattr_t ) , "::" , stringify ! ( __size ) ) ) ; assert_eq ! ( unsafe { & ( * ( :: std :: ptr :: null :: < pthread_condattr_t > ( ) ) ) . __align as * const _ as usize } , 0usize , concat ! ( "Offset of field: " , stringify ! ( pthread_condattr_t ) , "::" , stringify ! ( __align ) ) ) ; } pub type pthread_key_t = :: std :: os :: raw :: c_uint ; pub type pthread_once_t = :: std :: os :: raw :: c_int ; # [ repr ( C ) ] # [ derive ( Copy , Clone ) ] pub union pthread_attr_t { pub __size : [ :: std :: os :: raw :: c_char ; 56usize ] , pub __align : :: std :: os :: raw :: c_long , _bindgen_union_align : [ u64 ; 7usize ] , } # [ test ] fn bindgen_test_layout_pthread_attr_t ( ) { assert_eq ! ( :: std :: mem :: size_of :: < pthread_attr_t > ( ) , 56usize , concat ! ( "Size of: " , stringify ! ( pthread_attr_t ) ) ) ; assert_eq ! ( :: std :: mem :: align_of :: < pthread_attr_t > ( ) , 8usize , concat ! ( "Alignment of " , stringify ! ( pthread_attr_t ) ) ) ; assert_eq ! ( unsafe { & ( * ( :: std :: ptr :: null :: < pthread_attr_t > ( ) ) ) . __size as * const _ as usize } , 0usize , concat ! ( "Offset of field: " , stringify ! ( pthread_attr_t ) , "::" , stringify ! ( __size ) ) ) ; assert_eq ! ( unsafe { & ( * ( :: std :: ptr :: null :: < pthread_attr_t > ( ) ) ) . __align as * const _ as usize } , 0usize , concat ! ( "Offset of field: " , stringify ! ( pthread_attr_t ) , "::" , stringify ! ( __align ) ) ) ; } # [ repr ( C ) ] # [ derive ( Copy , Clone ) ] pub union pthread_mutex_t { pub __data : __pthread_mutex_s , pub __size : [ :: std :: os :: raw :: c_char ; 40usize ] , pub __align : :: std :: os :: raw :: c_long , _bindgen_union_align : [ u64 ; 5usize ] , } # [ test ] fn bindgen_test_layout_pthread_mutex_t ( ) { assert_eq ! ( :: std :: mem :: size_of :: < pthread_mutex_t > ( ) , 40usize , concat ! ( "Size of: " , stringify ! ( pthread_mutex_t ) ) ) ; assert_eq ! ( :: std :: mem :: align_of :: < pthread_mutex_t > ( ) , 8usize , concat ! ( "Alignment of " , stringify ! ( pthread_mutex_t ) ) ) ; assert_eq ! ( unsafe { & ( * ( :: std :: ptr :: null :: < pthread_mutex_t > ( ) ) ) . __data as * const _ as usize } , 0usize , concat ! ( "Offset of field: " , stringify ! ( pthread_mutex_t ) , "::" , stringify ! ( __data ) ) ) ; assert_eq ! ( unsafe { & ( * ( :: std :: ptr :: null :: < pthread_mutex_t > ( ) ) ) . __size as * const _ as usize } , 0usize , concat ! ( "Offset of field: " , stringify ! ( pthread_mutex_t ) , "::" , stringify ! ( __size ) ) ) ; assert_eq ! ( unsafe { & ( * ( :: std :: ptr :: null :: < pthread_mutex_t > ( ) ) ) . __align as * const _ as usize } , 0usize , concat ! ( "Offset of field: " , stringify ! ( pthread_mutex_t ) , "::" , stringify ! ( __align ) ) ) ; } # [ repr ( C ) ] # [ derive ( Copy , Clone ) ] pub union pthread_cond_t { pub __data : __pthread_cond_s , pub __size : [ :: std :: os :: raw :: c_char ; 48usize ] , pub __align : :: std :: os :: raw :: c_longlong , _bindgen_union_align : [ u64 ; 6usize ] , } # [ test ] fn bindgen_test_layout_pthread_cond_t ( ) { assert_eq ! ( :: std :: mem :: size_of :: < pthread_cond_t > ( ) , 48usize , concat ! ( "Size of: " , stringify ! ( pthread_cond_t ) ) ) ; assert_eq ! ( :: std :: mem :: align_of :: < pthread_cond_t > ( ) , 8usize , concat ! ( "Alignment of " , stringify ! ( pthread_cond_t ) ) ) ; assert_eq ! ( unsafe { & ( * ( :: std :: ptr :: null :: < pthread_cond_t > ( ) ) ) . __data as * const _ as usize } , 0usize , concat ! ( "Offset of field: " , stringify ! ( pthread_cond_t ) , "::" , stringify ! ( __data ) ) ) ; assert_eq ! ( unsafe { & ( * ( :: std :: ptr :: null :: < pthread_cond_t > ( ) ) ) . __size as * const _ as usize } , 0usize , concat ! ( "Offset of field: " , stringify ! ( pthread_cond_t ) , "::" , stringify ! ( __size ) ) ) ; assert_eq ! ( unsafe { & ( * ( :: std :: ptr :: null :: < pthread_cond_t > ( ) ) ) . __align as * const _ as usize } , 0usize , concat ! ( "Offset of field: " , stringify ! ( pthread_cond_t ) , "::" , stringify ! ( __align ) ) ) ; } # [ repr ( C ) ] # [ derive ( Copy , Clone ) ] pub union pthread_rwlock_t { pub __data : __pthread_rwlock_arch_t , pub __size : [ :: std :: os :: raw :: c_char ; 56usize ] , pub __align : :: std :: os :: raw :: c_long , _bindgen_union_align : [ u64 ; 7usize ] , } # [ test ] fn bindgen_test_layout_pthread_rwlock_t ( ) { assert_eq ! ( :: std :: mem :: size_of :: < pthread_rwlock_t > ( ) , 56usize , concat ! ( "Size of: " , stringify ! ( pthread_rwlock_t ) ) ) ; assert_eq ! ( :: std :: mem :: align_of :: < pthread_rwlock_t > ( ) , 8usize , concat ! ( "Alignment of " , stringify ! ( pthread_rwlock_t ) ) ) ; assert_eq ! ( unsafe { & ( * ( :: std :: ptr :: null :: < pthread_rwlock_t > ( ) ) ) . __data as * const _ as usize } , 0usize , concat ! ( "Offset of field: " , stringify ! ( pthread_rwlock_t ) , "::" , stringify ! ( __data ) ) ) ; assert_eq ! ( unsafe { & ( * ( :: std :: ptr :: null :: < pthread_rwlock_t > ( ) ) ) . __size as * const _ as usize } , 0usize , concat ! ( "Offset of field: " , stringify ! ( pthread_rwlock_t ) , "::" , stringify ! ( __size ) ) ) ; assert_eq ! ( unsafe { & ( * ( :: std :: ptr :: null :: < pthread_rwlock_t > ( ) ) ) . __align as * const _ as usize } , 0usize , concat ! ( "Offset of field: " , stringify ! ( pthread_rwlock_t ) , "::" , stringify ! ( __align ) ) ) ; } # [ repr ( C ) ] # [ derive ( Copy , Clone ) ] pub union pthread_rwlockattr_t { pub __size : [ :: std :: os :: raw :: c_char ; 8usize ] , pub __align : :: std :: os :: raw :: c_long , _bindgen_union_align : u64 , } # [ test ] fn bindgen_test_layout_pthread_rwlockattr_t ( ) { assert_eq ! ( :: std :: mem :: size_of :: < pthread_rwlockattr_t > ( ) , 8usize , concat ! ( "Size of: " , stringify ! ( pthread_rwlockattr_t ) ) ) ; assert_eq ! ( :: std :: mem :: align_of :: < pthread_rwlockattr_t > ( ) , 8usize , concat ! ( "Alignment of " , stringify ! ( pthread_rwlockattr_t ) ) ) ; assert_eq ! ( unsafe { & ( * ( :: std :: ptr :: null :: < pthread_rwlockattr_t > ( ) ) ) . __size as * const _ as usize } , 0usize , concat ! ( "Offset of field: " , stringify ! ( pthread_rwlockattr_t ) , "::" , stringify ! ( __size ) ) ) ; assert_eq ! ( unsafe { & ( * ( :: std :: ptr :: null :: < pthread_rwlockattr_t > ( ) ) ) . __align as * const _ as usize } , 0usize , concat ! ( "Offset of field: " , stringify ! ( pthread_rwlockattr_t ) , "::" , stringify ! ( __align ) ) ) ; } pub type pthread_spinlock_t = :: std :: os :: raw :: c_int ; # [ repr ( C ) ] # [ derive ( Copy , Clone ) ] pub union pthread_barrier_t { pub __size : [ :: std :: os :: raw :: c_char ; 32usize ] , pub __align : :: std :: os :: raw :: c_long , _bindgen_union_align : [ u64 ; 4usize ] , } # [ test ] fn bindgen_test_layout_pthread_barrier_t ( ) { assert_eq ! ( :: std :: mem :: size_of :: < pthread_barrier_t > ( ) , 32usize , concat ! ( "Size of: " , stringify ! ( pthread_barrier_t ) ) ) ; assert_eq ! ( :: std :: mem :: align_of :: < pthread_barrier_t > ( ) , 8usize , concat ! ( "Alignment of " , stringify ! ( pthread_barrier_t ) ) ) ; assert_eq ! ( unsafe { & ( * ( :: std :: ptr :: null :: < pthread_barrier_t > ( ) ) ) . __size as * const _ as usize } , 0usize , concat ! ( "Offset of field: " , stringify ! ( pthread_barrier_t ) , "::" , stringify ! ( __size ) ) ) ; assert_eq ! ( unsafe { & ( * ( :: std :: ptr :: null :: < pthread_barrier_t > ( ) ) ) . __align as * const _ as usize } , 0usize , concat ! ( "Offset of field: " , stringify ! ( pthread_barrier_t ) , "::" , stringify ! ( __align ) ) ) ; } # [ repr ( C ) ] # [ derive ( Copy , Clone ) ] pub union pthread_barrierattr_t { pub __size : [ :: std :: os :: raw :: c_char ; 4usize ] , pub __align : :: std :: os :: raw :: c_int , _bindgen_union_align : u32 , } # [ test ] fn bindgen_test_layout_pthread_barrierattr_t ( ) { assert_eq ! ( :: std :: mem :: size_of :: < pthread_barrierattr_t > ( ) , 4usize , concat ! ( "Size of: " , stringify ! ( pthread_barrierattr_t ) ) ) ; assert_eq ! ( :: std :: mem :: align_of :: < pthread_barrierattr_t > ( ) , 4usize , concat ! ( "Alignment of " , stringify ! ( pthread_barrierattr_t ) ) ) ; assert_eq ! ( unsafe { & ( * ( :: std :: ptr :: null :: < pthread_barrierattr_t > ( ) ) ) . __size as * const _ as usize } , 0usize , concat ! ( "Offset of field: " , stringify ! ( pthread_barrierattr_t ) , "::" , stringify ! ( __size ) ) ) ; assert_eq ! ( unsafe { & ( * ( :: std :: ptr :: null :: < pthread_barrierattr_t > ( ) ) ) . __align as * const _ as usize } , 0usize , concat ! ( "Offset of field: " , stringify ! ( pthread_barrierattr_t ) , "::" , stringify ! ( __align ) ) ) ; } extern "C" { # [ link_name = "\u{1}_random" ] pub fn random ( ) -> :: std :: os :: raw :: c_long ; } extern "C" { # [ link_name = "\u{1}_srandom" ] pub fn srandom ( __seed : :: std :: os :: raw :: c_uint ) ; } extern "C" { # [ link_name = "\u{1}_initstate" ] pub fn initstate ( __seed : :: std :: os :: raw :: c_uint , __statebuf : * mut :: std :: os :: raw :: c_char , __statelen : usize ) -> * mut :: std :: os :: raw :: c_char ; } extern "C" { # [ link_name = "\u{1}_setstate" ] pub fn setstate ( __statebuf : * mut :: std :: os :: raw :: c_char ) -> * mut :: std :: os :: raw :: c_char ; } # [ repr ( C ) ] # [ derive ( Debug , Copy , Clone ) ] pub struct random_data { pub fptr : * mut i32 , pub rptr : * mut i32 , pub state : * mut i32 , pub rand_type : :: std :: os :: raw :: c_int , pub rand_deg : :: std :: os :: raw :: c_int , pub rand_sep : :: std :: os :: raw :: c_int , pub end_ptr : * mut i32 , } # [ test ] fn bindgen_test_layout_random_data ( ) { assert_eq ! ( :: std :: mem :: size_of :: < random_data > ( ) , 48usize , concat ! ( "Size of: " , stringify ! ( random_data ) ) ) ; assert_eq ! ( :: std :: mem :: align_of :: < random_data > ( ) , 8usize , concat ! ( "Alignment of " , stringify ! ( random_data ) ) ) ; assert_eq ! ( unsafe { & ( * ( :: std :: ptr :: null :: < random_data > ( ) ) ) . fptr as * const _ as usize } , 0usize , concat ! ( "Offset of field: " , stringify ! ( random_data ) , "::" , stringify ! ( fptr ) ) ) ; assert_eq ! ( unsafe { & ( * ( :: std :: ptr :: null :: < random_data > ( ) ) ) . rptr as * const _ as usize } , 8usize , concat ! ( "Offset of field: " , stringify ! ( random_data ) , "::" , stringify ! ( rptr ) ) ) ; assert_eq ! ( unsafe { & ( * ( :: std :: ptr :: null :: < random_data > ( ) ) ) . state as * const _ as usize } , 16usize , concat ! ( "Offset of field: " , stringify ! ( random_data ) , "::" , stringify ! ( state ) ) ) ; assert_eq ! ( unsafe { & ( * ( :: std :: ptr :: null :: < random_data > ( ) ) ) . rand_type as * const _ as usize } , 24usize , concat ! ( "Offset of field: " , stringify ! ( random_data ) , "::" , stringify ! ( rand_type ) ) ) ; assert_eq ! ( unsafe { & ( * ( :: std :: ptr :: null :: < random_data > ( ) ) ) . rand_deg as * const _ as usize } , 28usize , concat ! ( "Offset of field: " , stringify ! ( random_data ) , "::" , stringify ! ( rand_deg ) ) ) ; assert_eq ! ( unsafe { & ( * ( :: std :: ptr :: null :: < random_data > ( ) ) ) . rand_sep as * const _ as usize } , 32usize , concat ! ( "Offset of field: " , stringify ! ( random_data ) , "::" , stringify ! ( rand_sep ) ) ) ; assert_eq ! ( unsafe { & ( * ( :: std :: ptr :: null :: < random_data > ( ) ) ) . end_ptr as * const _ as usize } , 40usize , concat ! ( "Offset of field: " , stringify ! ( random_data ) , "::" , stringify ! ( end_ptr ) ) ) ; } extern "C" { # [ link_name = "\u{1}_random_r" ] pub fn random_r ( __buf : * mut random_data , __result : * mut i32 ) -> :: std :: os :: raw :: c_int ; } extern "C" { # [ link_name = "\u{1}_srandom_r" ] pub fn srandom_r ( __seed : :: std :: os :: raw :: c_uint , __buf : * mut random_data ) -> :: std :: os :: raw :: c_int ; } extern "C" { # [ link_name = "\u{1}_initstate_r" ] pub fn initstate_r ( __seed : :: std :: os :: raw :: c_uint , __statebuf : * mut :: std :: os :: raw :: c_char , __statelen : usize , __buf : * mut random_data ) -> :: std :: os :: raw :: c_int ; } extern "C" { # [ link_name = "\u{1}_setstate_r" ] pub fn setstate_r ( __statebuf : * mut :: std :: os :: raw :: c_char , __buf : * mut random_data ) -> :: std :: os :: raw :: c_int ; } extern "C" { # [ link_name = "\u{1}_rand" ] pub fn rand ( ) -> :: std :: os :: raw :: c_int ; } extern "C" { # [ link_name = "\u{1}_srand" ] pub fn srand ( __seed : :: std :: os :: raw :: c_uint ) ; } extern "C" { # [ link_name = "\u{1}_rand_r" ] pub fn rand_r ( __seed : * mut :: std :: os :: raw :: c_uint ) -> :: std :: os :: raw :: c_int ; } extern "C" { # [ link_name = "\u{1}_drand48" ] pub fn drand48 ( ) -> f64 ; } extern "C" { # [ link_name = "\u{1}_erand48" ] pub fn erand48 ( __xsubi : * mut :: std :: os :: raw :: c_ushort ) -> f64 ; } extern "C" { # [ link_name = "\u{1}_lrand48" ] pub fn lrand48 ( ) -> :: std :: os :: raw :: c_long ; } extern "C" { # [ link_name = "\u{1}_nrand48" ] pub fn nrand48 ( __xsubi : * mut :: std :: os :: raw :: c_ushort ) -> :: std :: os :: raw :: c_long ; } extern "C" { # [ link_name = "\u{1}_mrand48" ] pub fn mrand48 ( ) -> :: std :: os :: raw :: c_long ; } extern "C" { # [ link_name = "\u{1}_jrand48" ] pub fn jrand48 ( __xsubi : * mut :: std :: os :: raw :: c_ushort ) -> :: std :: os :: raw :: c_long ; } extern "C" { # [ link_name = "\u{1}_srand48" ] pub fn srand48 ( __seedval : :: std :: os :: raw :: c_long ) ; } extern "C" { # [ link_name = "\u{1}_seed48" ] pub fn seed48 ( __seed16v : * mut :: std :: os :: raw :: c_ushort ) -> * mut :: std :: os :: raw :: c_ushort ; } extern "C" { # [ link_name = "\u{1}_lcong48" ] pub fn lcong48 ( __param : * mut :: std :: os :: raw :: c_ushort ) ; } # [ repr ( C ) ] # [ derive ( Debug , Copy , Clone ) ] pub struct drand48_data { pub __x : [ :: std :: os :: raw :: c_ushort ; 3usize ] , pub __old_x : [ :: std :: os :: raw :: c_ushort ; 3usize ] , pub __c : :: std :: os :: raw :: c_ushort , pub __init : :: std :: os :: raw :: c_ushort , pub __a : :: std :: os :: raw :: c_ulonglong , } # [ test ] fn bindgen_test_layout_drand48_data ( ) { assert_eq ! ( :: std :: mem :: size_of :: < drand48_data > ( ) , 24usize , concat ! ( "Size of: " , stringify ! ( drand48_data ) ) ) ; assert_eq ! ( :: std :: mem :: align_of :: < drand48_data > ( ) , 8usize , concat ! ( "Alignment of " , stringify ! ( drand48_data ) ) ) ; assert_eq ! ( unsafe { & ( * ( :: std :: ptr :: null :: < drand48_data > ( ) ) ) . __x as * const _ as usize } , 0usize , concat ! ( "Offset of field: " , stringify ! ( drand48_data ) , "::" , stringify ! ( __x ) ) ) ; assert_eq ! ( unsafe { & ( * ( :: std :: ptr :: null :: < drand48_data > ( ) ) ) . __old_x as * const _ as usize } , 6usize , concat ! ( "Offset of field: " , stringify ! ( drand48_data ) , "::" , stringify ! ( __old_x ) ) ) ; assert_eq ! ( unsafe { & ( * ( :: std :: ptr :: null :: < drand48_data > ( ) ) ) . __c as * const _ as usize } , 12usize , concat ! ( "Offset of field: " , stringify ! ( drand48_data ) , "::" , stringify ! ( __c ) ) ) ; assert_eq ! ( unsafe { & ( * ( :: std :: ptr :: null :: < drand48_data > ( ) ) ) . __init as * const _ as usize } , 14usize , concat ! ( "Offset of field: " , stringify ! ( drand48_data ) , "::" , stringify ! ( __init ) ) ) ; assert_eq ! ( unsafe { & ( * ( :: std :: ptr :: null :: < drand48_data > ( ) ) ) . __a as * const _ as usize } , 16usize , concat ! ( "Offset of field: " , stringify ! ( drand48_data ) , "::" , stringify ! ( __a ) ) ) ; } extern "C" { # [ link_name = "\u{1}_drand48_r" ] pub fn drand48_r ( __buffer : * mut drand48_data , __result : * mut f64 ) -> :: std :: os :: raw :: c_int ; } extern "C" { # [ link_name = "\u{1}_erand48_r" ] pub fn erand48_r ( __xsubi : * mut :: std :: os :: raw :: c_ushort , __buffer : * mut drand48_data , __result : * mut f64 ) -> :: std :: os :: raw :: c_int ; } extern "C" { # [ link_name = "\u{1}_lrand48_r" ] pub fn lrand48_r ( __buffer : * mut drand48_data , __result : * mut :: std :: os :: raw :: c_long ) -> :: std :: os :: raw :: c_int ; } extern "C" { # [ link_name = "\u{1}_nrand48_r" ] pub fn nrand48_r ( __xsubi : * mut :: std :: os :: raw :: c_ushort , __buffer : * mut drand48_data , __result : * mut :: std :: os :: raw :: c_long ) -> :: std :: os :: raw :: c_int ; } extern "C" { # [ link_name = "\u{1}_mrand48_r" ] pub fn mrand48_r ( __buffer : * mut drand48_data , __result : * mut :: std :: os :: raw :: c_long ) -> :: std :: os :: raw :: c_int ; } extern "C" { # [ link_name = "\u{1}_jrand48_r" ] pub fn jrand48_r ( __xsubi : * mut :: std :: os :: raw :: c_ushort , __buffer : * mut drand48_data , __result : * mut :: std :: os :: raw :: c_long ) -> :: std :: os :: raw :: c_int ; } extern "C" { # [ link_name = "\u{1}_srand48_r" ] pub fn srand48_r ( __seedval : :: std :: os :: raw :: c_long , __buffer : * mut drand48_data ) -> :: std :: os :: raw :: c_int ; } extern "C" { # [ link_name = "\u{1}_seed48_r" ] pub fn seed48_r ( __seed16v : * mut :: std :: os :: raw :: c_ushort , __buffer : * mut drand48_data ) -> :: std :: os :: raw :: c_int ; } extern "C" { # [ link_name = "\u{1}_lcong48_r" ] pub fn lcong48_r ( __param : * mut :: std :: os :: raw :: c_ushort , __buffer : * mut drand48_data ) -> :: std :: os :: raw :: c_int ; } extern "C" { # [ link_name = "\u{1}_malloc" ] pub fn malloc ( __size : usize ) -> * mut :: std :: os :: raw :: c_void ; } extern "C" { # [ link_name = "\u{1}_calloc" ] pub fn calloc ( __nmemb : usize , __size : usize ) -> * mut :: std :: os :: raw :: c_void ; } extern "C" { # [ link_name = "\u{1}_realloc" ] pub fn realloc ( __ptr : * mut :: std :: os :: raw :: c_void , __size : usize ) -> * mut :: std :: os :: raw :: c_void ; } extern "C" { # [ link_name = "\u{1}_reallocarray" ] pub fn reallocarray ( __ptr : * mut :: std :: os :: raw :: c_void , __nmemb : usize , __size : usize ) -> * mut :: std :: os :: raw :: c_void ; } extern "C" { # [ link_name = "\u{1}_free" ] pub fn free ( __ptr : * mut :: std :: os :: raw :: c_void ) ; } extern "C" { # [ link_name = "\u{1}_alloca" ] pub fn alloca ( __size : usize ) -> * mut :: std :: os :: raw :: c_void ; } extern "C" { # [ link_name = "\u{1}_valloc" ] pub fn valloc ( __size : usize ) -> * mut :: std :: os :: raw :: c_void ; } extern "C" { # [ link_name = "\u{1}_posix_memalign" ] pub fn posix_memalign ( __memptr : * mut * mut :: std :: os :: raw :: c_void , __alignment : usize , __size : usize ) -> :: std :: os :: raw :: c_int ; } extern "C" { # [ link_name = "\u{1}_aligned_alloc" ] pub fn aligned_alloc ( __alignment : usize , __size : usize ) -> * mut :: std :: os :: raw :: c_void ; } extern "C" { # [ link_name = "\u{1}_abort" ] pub fn abort ( ) ; } extern "C" { # [ link_name = "\u{1}_atexit" ] pub fn atexit ( __func : :: std :: option :: Option < unsafe extern "C" fn ( ) > ) -> :: std :: os :: raw :: c_int ; } extern "C" { # [ link_name = "\u{1}_at_quick_exit" ] pub fn at_quick_exit ( __func : :: std :: option :: Option < unsafe extern "C" fn ( ) > ) -> :: std :: os :: raw :: c_int ; } extern "C" { # [ link_name = "\u{1}_on_exit" ] pub fn on_exit ( __func : :: std :: option :: Option < unsafe extern "C" fn ( __status : :: std :: os :: raw :: c_int , __arg : * mut :: std :: os :: raw :: c_void ) > , __arg : * mut :: std :: os :: raw :: c_void ) -> :: std :: os :: raw :: c_int ; } extern "C" { # [ link_name = "\u{1}_exit" ] pub fn exit ( __status : :: std :: os :: raw :: c_int ) ; } extern "C" { # [ link_name = "\u{1}_quick_exit" ] pub fn quick_exit ( __status : :: std :: os :: raw :: c_int ) ; } extern "C" { # [ link_name = "\u{1}__Exit" ] pub fn _Exit ( __status : :: std :: os :: raw :: c_int ) ; } extern "C" { # [ link_name = "\u{1}_getenv" ] pub fn getenv ( __name : * const :: std :: os :: raw :: c_char ) -> * mut :: std :: os :: raw :: c_char ; } extern "C" { # [ link_name = "\u{1}_secure_getenv" ] pub fn secure_getenv ( __name : * const :: std :: os :: raw :: c_char ) -> * mut :: std :: os :: raw :: c_char ; } extern "C" { # [ link_name = "\u{1}_putenv" ] pub fn putenv ( __string : * mut :: std :: os :: raw :: c_char ) -> :: std :: os :: raw :: c_int ; } extern "C" { # [ link_name = "\u{1}_setenv" ] pub fn setenv ( __name : * const :: std :: os :: raw :: c_char , __value : * const :: std :: os :: raw :: c_char , __replace : :: std :: os :: raw :: c_int ) -> :: std :: os :: raw :: c_int ; } extern "C" { # [ link_name = "\u{1}_unsetenv" ] pub fn unsetenv ( __name : * const :: std :: os :: raw :: c_char ) -> :: std :: os :: raw :: c_int ; } extern "C" { # [ link_name = "\u{1}_clearenv" ] pub fn clearenv ( ) -> :: std :: os :: raw :: c_int ; } extern "C" { # [ link_name = "\u{1}_mktemp" ] pub fn mktemp ( __template : * mut :: std :: os :: raw :: c_char ) -> * mut :: std :: os :: raw :: c_char ; } extern "C" { # [ link_name = "\u{1}_mkstemp" ] pub fn mkstemp ( __template : * mut :: std :: os :: raw :: c_char ) -> :: std :: os :: raw :: c_int ; } extern "C" { # [ link_name = "\u{1}_mkstemp64" ] pub fn mkstemp64 ( __template : * mut :: std :: os :: raw :: c_char ) -> :: std :: os :: raw :: c_int ; } extern "C" { # [ link_name = "\u{1}_mkstemps" ] pub fn mkstemps ( __template : * mut :: std :: os :: raw :: c_char , __suffixlen : :: std :: os :: raw :: c_int ) -> :: std :: os :: raw :: c_int ; } extern "C" { # [ link_name = "\u{1}_mkstemps64" ] pub fn mkstemps64 ( __template : * mut :: std :: os :: raw :: c_char , __suffixlen : :: std :: os :: raw :: c_int ) -> :: std :: os :: raw :: c_int ; } extern "C" { # [ link_name = "\u{1}_mkdtemp" ] pub fn mkdtemp ( __template : * mut :: std :: os :: raw :: c_char ) -> * mut :: std :: os :: raw :: c_char ; } extern "C" { # [ link_name = "\u{1}_mkostemp" ] pub fn mkostemp ( __template : * mut :: std :: os :: raw :: c_char , __flags : :: std :: os :: raw :: c_int ) -> :: std :: os :: raw :: c_int ; } extern "C" { # [ link_name = "\u{1}_mkostemp64" ] pub fn mkostemp64 ( __template : * mut :: std :: os :: raw :: c_char , __flags : :: std :: os :: raw :: c_int ) -> :: std :: os :: raw :: c_int ; } extern "C" { # [ link_name = "\u{1}_mkostemps" ] pub fn mkostemps ( __template : * mut :: std :: os :: raw :: c_char , __suffixlen : :: std :: os :: raw :: c_int , __flags : :: std :: os :: raw :: c_int ) -> :: std :: os :: raw :: c_int ; } extern "C" { # [ link_name = "\u{1}_mkostemps64" ] pub fn mkostemps64 ( __template : * mut :: std :: os :: raw :: c_char , __suffixlen : :: std :: os :: raw :: c_int , __flags : :: std :: os :: raw :: c_int ) -> :: std :: os :: raw :: c_int ; } extern "C" { # [ link_name = "\u{1}_system" ] pub fn system ( __command : * const :: std :: os :: raw :: c_char ) -> :: std :: os :: raw :: c_int ; } extern "C" { # [ link_name = "\u{1}_canonicalize_file_name" ] pub fn canonicalize_file_name ( __name : * const :: std :: os :: raw :: c_char ) -> * mut :: std :: os :: raw :: c_char ; } extern "C" { # [ link_name = "\u{1}_realpath" ] pub fn realpath ( __name : * const :: std :: os :: raw :: c_char , __resolved : * mut :: std :: os :: raw :: c_char ) -> * mut :: std :: os :: raw :: c_char ; } pub type __compar_fn_t = :: std :: option :: Option < unsafe extern "C" fn ( arg1 : * const :: std :: os :: raw :: c_void , arg2 : * const :: std :: os :: raw :: c_void ) -> :: std :: os :: raw :: c_int > ; pub type comparison_fn_t = __compar_fn_t ; pub type __compar_d_fn_t = :: std :: option :: Option < unsafe extern "C" fn ( arg1 : * const :: std :: os :: raw :: c_void , arg2 : * const :: std :: os :: raw :: c_void , arg3 : * mut :: std :: os :: raw :: c_void ) -> :: std :: os :: raw :: c_int > ; extern "C" { # [ link_name = "\u{1}_bsearch" ] pub fn bsearch ( __key : * const :: std :: os :: raw :: c_void , __base : * const :: std :: os :: raw :: c_void , __nmemb : usize , __size : usize , __compar : __compar_fn_t ) -> * mut :: std :: os :: raw :: c_void ; } extern "C" { # [ link_name = "\u{1}_qsort" ] pub fn qsort ( __base : * mut :: std :: os :: raw :: c_void , __nmemb : usize , __size : usize , __compar : __compar_fn_t ) ; } extern "C" { # [ link_name = "\u{1}_qsort_r" ] pub fn qsort_r ( __base : * mut :: std :: os :: raw :: c_void , __nmemb : usize , __size : usize , __compar : __compar_d_fn_t , __arg : * mut :: std :: os :: raw :: c_void ) ; } extern "C" { # [ link_name = "\u{1}_abs" ] pub fn abs ( __x : :: std :: os :: raw :: c_int ) -> :: std :: os :: raw :: c_int ; } extern "C" { # [ link_name = "\u{1}_labs" ] pub fn labs ( __x : :: std :: os :: raw :: c_long ) -> :: std :: os :: raw :: c_long ; } extern "C" { # [ link_name = "\u{1}_llabs" ] pub fn llabs ( __x : :: std :: os :: raw :: c_longlong ) -> :: std :: os :: raw :: c_longlong ; } extern "C" { # [ link_name = "\u{1}_div" ] pub fn div ( __numer : :: std :: os :: raw :: c_int , __denom : :: std :: os :: raw :: c_int ) -> div_t ; } extern "C" { # [ link_name = "\u{1}_ldiv" ] pub fn ldiv ( __numer : :: std :: os :: raw :: c_long , __denom : :: std :: os :: raw :: c_long ) -> ldiv_t ; } extern "C" { # [ link_name = "\u{1}_lldiv" ] pub fn lldiv ( __numer : :: std :: os :: raw :: c_longlong , __denom : :: std :: os :: raw :: c_longlong ) -> lldiv_t ; } extern "C" { # [ link_name = "\u{1}_ecvt" ] pub fn ecvt ( __value : f64 , __ndigit : :: std :: os :: raw :: c_int , __decpt : * mut :: std :: os :: raw :: c_int , __sign : * mut :: std :: os :: raw :: c_int ) -> * mut :: std :: os :: raw :: c_char ; } extern "C" { # [ link_name = "\u{1}_fcvt" ] pub fn fcvt ( __value : f64 , __ndigit : :: std :: os :: raw :: c_int , __decpt : * mut :: std :: os :: raw :: c_int , __sign : * mut :: std :: os :: raw :: c_int ) -> * mut :: std :: os :: raw :: c_char ; } extern "C" { # [ link_name = "\u{1}_gcvt" ] pub fn gcvt ( __value : f64 , __ndigit : :: std :: os :: raw :: c_int , __buf : * mut :: std :: os :: raw :: c_char ) -> * mut :: std :: os :: raw :: c_char ; } extern "C" { # [ link_name = "\u{1}_qecvt" ] pub fn qecvt ( __value : f64 , __ndigit : :: std :: os :: raw :: c_int , __decpt : * mut :: std :: os :: raw :: c_int , __sign : * mut :: std :: os :: raw :: c_int ) -> * mut :: std :: os :: raw :: c_char ; } extern "C" { # [ link_name = "\u{1}_qfcvt" ] pub fn qfcvt ( __value : f64 , __ndigit : :: std :: os :: raw :: c_int , __decpt : * mut :: std :: os :: raw :: c_int , __sign : * mut :: std :: os :: raw :: c_int ) -> * mut :: std :: os :: raw :: c_char ; } extern "C" { # [ link_name = "\u{1}_qgcvt" ] pub fn qgcvt ( __value : f64 , __ndigit : :: std :: os :: raw :: c_int , __buf : * mut :: std :: os :: raw :: c_char ) -> * mut :: std :: os :: raw :: c_char ; } extern "C" { # [ link_name = "\u{1}_ecvt_r" ] pub fn ecvt_r ( __value : f64 , __ndigit : :: std :: os :: raw :: c_int , __decpt : * mut :: std :: os :: raw :: c_int , __sign : * mut :: std :: os :: raw :: c_int , __buf : * mut :: std :: os :: raw :: c_char , __len : usize ) -> :: std :: os :: raw :: c_int ; } extern "C" { # [ link_name = "\u{1}_fcvt_r" ] pub fn fcvt_r ( __value : f64 , __ndigit : :: std :: os :: raw :: c_int , __decpt : * mut :: std :: os :: raw :: c_int , __sign : * mut :: std :: os :: raw :: c_int , __buf : * mut :: std :: os :: raw :: c_char , __len : usize ) -> :: std :: os :: raw :: c_int ; } extern "C" { # [ link_name = "\u{1}_qecvt_r" ] pub fn qecvt_r ( __value : f64 , __ndigit : :: std :: os :: raw :: c_int , __decpt : * mut :: std :: os :: raw :: c_int , __sign : * mut :: std :: os :: raw :: c_int , __buf : * mut :: std :: os :: raw :: c_char , __len : usize ) -> :: std :: os :: raw :: c_int ; } extern "C" { # [ link_name = "\u{1}_qfcvt_r" ] pub fn qfcvt_r ( __value : f64 , __ndigit : :: std :: os :: raw :: c_int , __decpt : * mut :: std :: os :: raw :: c_int , __sign : * mut :: std :: os :: raw :: c_int , __buf : * mut :: std :: os :: raw :: c_char , __len : usize ) -> :: std :: os :: raw :: c_int ; } extern "C" { # [ link_name = "\u{1}_mblen" ] pub fn mblen ( __s : * const :: std :: os :: raw :: c_char , __n : usize ) -> :: std :: os :: raw :: c_int ; } extern "C" { # [ link_name = "\u{1}_mbtowc" ] pub fn mbtowc ( __pwc : * mut wchar_t , __s : * const :: std :: os :: raw :: c_char , __n : usize ) -> :: std :: os :: raw :: c_int ; } extern "C" { # [ link_name = "\u{1}_wctomb" ] pub fn wctomb ( __s : * mut :: std :: os :: raw :: c_char , __wchar : wchar_t ) -> :: std :: os :: raw :: c_int ; } extern "C" { # [ link_name = "\u{1}_mbstowcs" ] pub fn mbstowcs ( __pwcs : * mut wchar_t , __s : * const :: std :: os :: raw :: c_char , __n : usize ) -> usize ; } extern "C" { # [ link_name = "\u{1}_wcstombs" ] pub fn wcstombs ( __s : * mut :: std :: os :: raw :: c_char , __pwcs : * const wchar_t , __n : usize ) -> usize ; } extern "C" { # [ link_name = "\u{1}_rpmatch" ] pub fn rpmatch ( __response : * const :: std :: os :: raw :: c_char ) -> :: std :: os :: raw :: c_int ; } extern "C" { # [ link_name = "\u{1}_getsubopt" ] pub fn getsubopt ( __optionp : * mut * mut :: std :: os :: raw :: c_char , __tokens : * const * mut :: std :: os :: raw :: c_char , __valuep : * mut * mut :: std :: os :: raw :: c_char ) -> :: std :: os :: raw :: c_int ; } extern "C" { # [ link_name = "\u{1}_setkey" ] pub fn setkey ( __key : * const :: std :: os :: raw :: c_char ) ; } extern "C" { # [ link_name = "\u{1}_posix_openpt" ] pub fn posix_openpt ( __oflag : :: std :: os :: raw :: c_int ) -> :: std :: os :: raw :: c_int ; } extern "C" { # [ link_name = "\u{1}_grantpt" ] pub fn grantpt ( __fd : :: std :: os :: raw :: c_int ) -> :: std :: os :: raw :: c_int ; } extern "C" { # [ link_name = "\u{1}_unlockpt" ] pub fn unlockpt ( __fd : :: std :: os :: raw :: c_int ) -> :: std :: os :: raw :: c_int ; } extern "C" { # [ link_name = "\u{1}_ptsname" ] pub fn ptsname ( __fd : :: std :: os :: raw :: c_int ) -> * mut :: std :: os :: raw :: c_char ; } extern "C" { # [ link_name = "\u{1}_ptsname_r" ] pub fn ptsname_r ( __fd : :: std :: os :: raw :: c_int , __buf : * mut :: std :: os :: raw :: c_char , __buflen : usize ) -> :: std :: os :: raw :: c_int ; } extern "C" { # [ link_name = "\u{1}_getpt" ] pub fn getpt ( ) -> :: std :: os :: raw :: c_int ; } extern "C" { # [ link_name = "\u{1}_getloadavg" ] pub fn getloadavg ( __loadavg : * mut f64 , __nelem : :: std :: os :: raw :: c_int ) -> :: std :: os :: raw :: c_int ; } pub type __m64 = [ :: std :: os :: raw :: c_longlong ; 1usize ] ; pub type __v1di = [ :: std :: os :: raw :: c_longlong ; 1usize ] ; pub type __v2si = [ :: std :: os :: raw :: c_int ; 2usize ] ; pub type __v4hi = [ :: std :: os :: raw :: c_short ; 4usize ] ; pub type __v8qi = [ :: std :: os :: raw :: c_char ; 8usize ] ; pub type __v4si = [ :: std :: os :: raw :: c_int ; 4usize ] ; pub type __v4sf = [ f32 ; 4usize ] ; pub type __m128 = [ f32 ; 4usize ] ; pub type __v4su = [ :: std :: os :: raw :: c_uint ; 4usize ] ; extern "C" { # [ link_name = "\u{1}__mm_sfence" ] pub fn _mm_sfence ( ) ; } extern "C" { # [ link_name = "\u{1}__mm_getcsr" ] pub fn _mm_getcsr ( ) -> :: std :: os :: raw :: c_uint ; } extern "C" { # [ link_name = "\u{1}__mm_setcsr" ] pub fn _mm_setcsr ( __i : :: std :: os :: raw :: c_uint ) ; } pub type __m128d = [ f64 ; 2usize ] ; pub type __m128i = [ :: std :: os :: raw :: c_longlong ; 2usize ] ; pub type __v2df = [ f64 ; 2usize ] ; pub type __v2di = [ :: std :: os :: raw :: c_longlong ; 2usize ] ; pub type __v8hi = [ :: std :: os :: raw :: c_short ; 8usize ] ; pub type __v16qi = [ :: std :: os :: raw :: c_char ; 16usize ] ; pub type __v2du = [ :: std :: os :: raw :: c_ulonglong ; 2usize ] ; pub type __v8hu = [ :: std :: os :: raw :: c_ushort ; 8usize ] ; pub type __v16qu = [ :: std :: os :: raw :: c_uchar ; 16usize ] ; pub type __v16qs = [ :: std :: os :: raw :: c_schar ; 16usize ] ; extern "C" { # [ link_name = "\u{1}__mm_clflush" ] pub fn _mm_clflush ( __p : * const :: std :: os :: raw :: c_void ) ; } extern "C" { # [ link_name = "\u{1}__mm_lfence" ] pub fn _mm_lfence ( ) ; } extern "C" { # [ link_name = "\u{1}__mm_mfence" ] pub fn _mm_mfence ( ) ; } extern "C" { # [ link_name = "\u{1}__mm_pause" ] pub fn _mm_pause ( ) ; } pub type __v4df = [ f64 ; 4usize ] ; pub type __v8sf = [ f32 ; 8usize ] ; pub type __v4di = [ :: std :: os :: raw :: c_longlong ; 4usize ] ; pub type __v8si = [ :: std :: os :: raw :: c_int ; 8usize ] ; pub type __v16hi = [ :: std :: os :: raw :: c_short ; 16usize ] ; pub type __v32qi = [ :: std :: os :: raw :: c_char ; 32usize ] ; pub type __v4du = [ :: std :: os :: raw :: c_ulonglong ; 4usize ] ; pub type __v8su = [ :: std :: os :: raw :: c_uint ; 8usize ] ; pub type __v16hu = [ :: std :: os :: raw :: c_ushort ; 16usize ] ; pub type __v32qu = [ :: std :: os :: raw :: c_uchar ; 32usize ] ; pub type __v32qs = [ :: std :: os :: raw :: c_schar ; 32usize ] ; pub type __m256 = [ f32 ; 8usize ] ; pub type __m256d = [ f64 ; 4usize ] ; pub type __m256i = [ :: std :: os :: raw :: c_longlong ; 4usize ] ; pub type __v64qi = [ :: std :: os :: raw :: c_char ; 64usize ] ; pub type __v32hi = [ :: std :: os :: raw :: c_short ; 32usize ] ; pub type __v8df = [ f64 ; 8usize ] ; pub type __v16sf = [ f32 ; 16usize ] ; pub type __v8di = [ :: std :: os :: raw :: c_longlong ; 8usize ] ; pub type __v16si = [ :: std :: os :: raw :: c_int ; 16usize ] ; pub type __v64qu = [ :: std :: os :: raw :: c_uchar ; 64usize ] ; pub type __v32hu = [ :: std :: os :: raw :: c_ushort ; 32usize ] ; pub type __v8du = [ :: std :: os :: raw :: c_ulonglong ; 8usize ] ; pub type __v16su = [ :: std :: os :: raw :: c_uint ; 16usize ] ; pub type __m512 = [ f32 ; 16usize ] ; pub type __m512d = [ f64 ; 8usize ] ; pub type __m512i = [ :: std :: os :: raw :: c_longlong ; 8usize ] ; pub type __mmask8 = :: std :: os :: raw :: c_uchar ; pub type __mmask16 = :: std :: os :: raw :: c_ushort ; pub const _MM_CMPINT_ENUM__MM_CMPINT_EQ : _MM_CMPINT_ENUM = 0 ; pub const _MM_CMPINT_ENUM__MM_CMPINT_LT : _MM_CMPINT_ENUM = 1 ; pub const _MM_CMPINT_ENUM__MM_CMPINT_LE : _MM_CMPINT_ENUM = 2 ; pub const _MM_CMPINT_ENUM__MM_CMPINT_UNUSED : _MM_CMPINT_ENUM = 3 ; pub const _MM_CMPINT_ENUM__MM_CMPINT_NE : _MM_CMPINT_ENUM = 4 ; pub const _MM_CMPINT_ENUM__MM_CMPINT_NLT : _MM_CMPINT_ENUM = 5 ; pub const _MM_CMPINT_ENUM__MM_CMPINT_NLE : _MM_CMPINT_ENUM = 6 ; pub type _MM_CMPINT_ENUM = u32 ; pub const _MM_PERM_ENUM__MM_PERM_AAAA : _MM_PERM_ENUM = 0 ; pub const _MM_PERM_ENUM__MM_PERM_AAAB : _MM_PERM_ENUM = 1 ; pub const _MM_PERM_ENUM__MM_PERM_AAAC : _MM_PERM_ENUM = 2 ; pub const _MM_PERM_ENUM__MM_PERM_AAAD : _MM_PERM_ENUM = 3 ; pub const _MM_PERM_ENUM__MM_PERM_AABA : _MM_PERM_ENUM = 4 ; pub const _MM_PERM_ENUM__MM_PERM_AABB : _MM_PERM_ENUM = 5 ; pub const _MM_PERM_ENUM__MM_PERM_AABC : _MM_PERM_ENUM = 6 ; pub const _MM_PERM_ENUM__MM_PERM_AABD : _MM_PERM_ENUM = 7 ; pub const _MM_PERM_ENUM__MM_PERM_AACA : _MM_PERM_ENUM = 8 ; pub const _MM_PERM_ENUM__MM_PERM_AACB : _MM_PERM_ENUM = 9 ; pub const _MM_PERM_ENUM__MM_PERM_AACC : _MM_PERM_ENUM = 10 ; pub const _MM_PERM_ENUM__MM_PERM_AACD : _MM_PERM_ENUM = 11 ; pub const _MM_PERM_ENUM__MM_PERM_AADA : _MM_PERM_ENUM = 12 ; pub const _MM_PERM_ENUM__MM_PERM_AADB : _MM_PERM_ENUM = 13 ; pub const _MM_PERM_ENUM__MM_PERM_AADC : _MM_PERM_ENUM = 14 ; pub const _MM_PERM_ENUM__MM_PERM_AADD : _MM_PERM_ENUM = 15 ; pub const _MM_PERM_ENUM__MM_PERM_ABAA : _MM_PERM_ENUM = 16 ; pub const _MM_PERM_ENUM__MM_PERM_ABAB : _MM_PERM_ENUM = 17 ; pub const _MM_PERM_ENUM__MM_PERM_ABAC : _MM_PERM_ENUM = 18 ; pub const _MM_PERM_ENUM__MM_PERM_ABAD : _MM_PERM_ENUM = 19 ; pub const _MM_PERM_ENUM__MM_PERM_ABBA : _MM_PERM_ENUM = 20 ; pub const _MM_PERM_ENUM__MM_PERM_ABBB : _MM_PERM_ENUM = 21 ; pub const _MM_PERM_ENUM__MM_PERM_ABBC : _MM_PERM_ENUM = 22 ; pub const _MM_PERM_ENUM__MM_PERM_ABBD : _MM_PERM_ENUM = 23 ; pub const _MM_PERM_ENUM__MM_PERM_ABCA : _MM_PERM_ENUM = 24 ; pub const _MM_PERM_ENUM__MM_PERM_ABCB : _MM_PERM_ENUM = 25 ; pub const _MM_PERM_ENUM__MM_PERM_ABCC : _MM_PERM_ENUM = 26 ; pub const _MM_PERM_ENUM__MM_PERM_ABCD : _MM_PERM_ENUM = 27 ; pub const _MM_PERM_ENUM__MM_PERM_ABDA : _MM_PERM_ENUM = 28 ; pub const _MM_PERM_ENUM__MM_PERM_ABDB : _MM_PERM_ENUM = 29 ; pub const _MM_PERM_ENUM__MM_PERM_ABDC : _MM_PERM_ENUM = 30 ; pub const _MM_PERM_ENUM__MM_PERM_ABDD : _MM_PERM_ENUM = 31 ; pub const _MM_PERM_ENUM__MM_PERM_ACAA : _MM_PERM_ENUM = 32 ; pub const _MM_PERM_ENUM__MM_PERM_ACAB : _MM_PERM_ENUM = 33 ; pub const _MM_PERM_ENUM__MM_PERM_ACAC : _MM_PERM_ENUM = 34 ; pub const _MM_PERM_ENUM__MM_PERM_ACAD : _MM_PERM_ENUM = 35 ; pub const _MM_PERM_ENUM__MM_PERM_ACBA : _MM_PERM_ENUM = 36 ; pub const _MM_PERM_ENUM__MM_PERM_ACBB : _MM_PERM_ENUM = 37 ; pub const _MM_PERM_ENUM__MM_PERM_ACBC : _MM_PERM_ENUM = 38 ; pub const _MM_PERM_ENUM__MM_PERM_ACBD : _MM_PERM_ENUM = 39 ; pub const _MM_PERM_ENUM__MM_PERM_ACCA : _MM_PERM_ENUM = 40 ; pub const _MM_PERM_ENUM__MM_PERM_ACCB : _MM_PERM_ENUM = 41 ; pub const _MM_PERM_ENUM__MM_PERM_ACCC : _MM_PERM_ENUM = 42 ; pub const _MM_PERM_ENUM__MM_PERM_ACCD : _MM_PERM_ENUM = 43 ; pub const _MM_PERM_ENUM__MM_PERM_ACDA : _MM_PERM_ENUM = 44 ; pub const _MM_PERM_ENUM__MM_PERM_ACDB : _MM_PERM_ENUM = 45 ; pub const _MM_PERM_ENUM__MM_PERM_ACDC : _MM_PERM_ENUM = 46 ; pub const _MM_PERM_ENUM__MM_PERM_ACDD : _MM_PERM_ENUM = 47 ; pub const _MM_PERM_ENUM__MM_PERM_ADAA : _MM_PERM_ENUM = 48 ; pub const _MM_PERM_ENUM__MM_PERM_ADAB : _MM_PERM_ENUM = 49 ; pub const _MM_PERM_ENUM__MM_PERM_ADAC : _MM_PERM_ENUM = 50 ; pub const _MM_PERM_ENUM__MM_PERM_ADAD : _MM_PERM_ENUM = 51 ; pub const _MM_PERM_ENUM__MM_PERM_ADBA : _MM_PERM_ENUM = 52 ; pub const _MM_PERM_ENUM__MM_PERM_ADBB : _MM_PERM_ENUM = 53 ; pub const _MM_PERM_ENUM__MM_PERM_ADBC : _MM_PERM_ENUM = 54 ; pub const _MM_PERM_ENUM__MM_PERM_ADBD : _MM_PERM_ENUM = 55 ; pub const _MM_PERM_ENUM__MM_PERM_ADCA : _MM_PERM_ENUM = 56 ; pub const _MM_PERM_ENUM__MM_PERM_ADCB : _MM_PERM_ENUM = 57 ; pub const _MM_PERM_ENUM__MM_PERM_ADCC : _MM_PERM_ENUM = 58 ; pub const _MM_PERM_ENUM__MM_PERM_ADCD : _MM_PERM_ENUM = 59 ; pub const _MM_PERM_ENUM__MM_PERM_ADDA : _MM_PERM_ENUM = 60 ; pub const _MM_PERM_ENUM__MM_PERM_ADDB : _MM_PERM_ENUM = 61 ; pub const _MM_PERM_ENUM__MM_PERM_ADDC : _MM_PERM_ENUM = 62 ; pub const _MM_PERM_ENUM__MM_PERM_ADDD : _MM_PERM_ENUM = 63 ; pub const _MM_PERM_ENUM__MM_PERM_BAAA : _MM_PERM_ENUM = 64 ; pub const _MM_PERM_ENUM__MM_PERM_BAAB : _MM_PERM_ENUM = 65 ; pub const _MM_PERM_ENUM__MM_PERM_BAAC : _MM_PERM_ENUM = 66 ; pub const _MM_PERM_ENUM__MM_PERM_BAAD : _MM_PERM_ENUM = 67 ; pub const _MM_PERM_ENUM__MM_PERM_BABA : _MM_PERM_ENUM = 68 ; pub const _MM_PERM_ENUM__MM_PERM_BABB : _MM_PERM_ENUM = 69 ; pub const _MM_PERM_ENUM__MM_PERM_BABC : _MM_PERM_ENUM = 70 ; pub const _MM_PERM_ENUM__MM_PERM_BABD : _MM_PERM_ENUM = 71 ; pub const _MM_PERM_ENUM__MM_PERM_BACA : _MM_PERM_ENUM = 72 ; pub const _MM_PERM_ENUM__MM_PERM_BACB : _MM_PERM_ENUM = 73 ; pub const _MM_PERM_ENUM__MM_PERM_BACC : _MM_PERM_ENUM = 74 ; pub const _MM_PERM_ENUM__MM_PERM_BACD : _MM_PERM_ENUM = 75 ; pub const _MM_PERM_ENUM__MM_PERM_BADA : _MM_PERM_ENUM = 76 ; pub const _MM_PERM_ENUM__MM_PERM_BADB : _MM_PERM_ENUM = 77 ; pub const _MM_PERM_ENUM__MM_PERM_BADC : _MM_PERM_ENUM = 78 ; pub const _MM_PERM_ENUM__MM_PERM_BADD : _MM_PERM_ENUM = 79 ; pub const _MM_PERM_ENUM__MM_PERM_BBAA : _MM_PERM_ENUM = 80 ; pub const _MM_PERM_ENUM__MM_PERM_BBAB : _MM_PERM_ENUM = 81 ; pub const _MM_PERM_ENUM__MM_PERM_BBAC : _MM_PERM_ENUM = 82 ; pub const _MM_PERM_ENUM__MM_PERM_BBAD : _MM_PERM_ENUM = 83 ; pub const _MM_PERM_ENUM__MM_PERM_BBBA : _MM_PERM_ENUM = 84 ; pub const _MM_PERM_ENUM__MM_PERM_BBBB : _MM_PERM_ENUM = 85 ; pub const _MM_PERM_ENUM__MM_PERM_BBBC : _MM_PERM_ENUM = 86 ; pub const _MM_PERM_ENUM__MM_PERM_BBBD : _MM_PERM_ENUM = 87 ; pub const _MM_PERM_ENUM__MM_PERM_BBCA : _MM_PERM_ENUM = 88 ; pub const _MM_PERM_ENUM__MM_PERM_BBCB : _MM_PERM_ENUM = 89 ; pub const _MM_PERM_ENUM__MM_PERM_BBCC : _MM_PERM_ENUM = 90 ; pub const _MM_PERM_ENUM__MM_PERM_BBCD : _MM_PERM_ENUM = 91 ; pub const _MM_PERM_ENUM__MM_PERM_BBDA : _MM_PERM_ENUM = 92 ; pub const _MM_PERM_ENUM__MM_PERM_BBDB : _MM_PERM_ENUM = 93 ; pub const _MM_PERM_ENUM__MM_PERM_BBDC : _MM_PERM_ENUM = 94 ; pub const _MM_PERM_ENUM__MM_PERM_BBDD : _MM_PERM_ENUM = 95 ; pub const _MM_PERM_ENUM__MM_PERM_BCAA : _MM_PERM_ENUM = 96 ; pub const _MM_PERM_ENUM__MM_PERM_BCAB : _MM_PERM_ENUM = 97 ; pub const _MM_PERM_ENUM__MM_PERM_BCAC : _MM_PERM_ENUM = 98 ; pub const _MM_PERM_ENUM__MM_PERM_BCAD : _MM_PERM_ENUM = 99 ; pub const _MM_PERM_ENUM__MM_PERM_BCBA : _MM_PERM_ENUM = 100 ; pub const _MM_PERM_ENUM__MM_PERM_BCBB : _MM_PERM_ENUM = 101 ; pub const _MM_PERM_ENUM__MM_PERM_BCBC : _MM_PERM_ENUM = 102 ; pub const _MM_PERM_ENUM__MM_PERM_BCBD : _MM_PERM_ENUM = 103 ; pub const _MM_PERM_ENUM__MM_PERM_BCCA : _MM_PERM_ENUM = 104 ; pub const _MM_PERM_ENUM__MM_PERM_BCCB : _MM_PERM_ENUM = 105 ; pub const _MM_PERM_ENUM__MM_PERM_BCCC : _MM_PERM_ENUM = 106 ; pub const _MM_PERM_ENUM__MM_PERM_BCCD : _MM_PERM_ENUM = 107 ; pub const _MM_PERM_ENUM__MM_PERM_BCDA : _MM_PERM_ENUM = 108 ; pub const _MM_PERM_ENUM__MM_PERM_BCDB : _MM_PERM_ENUM = 109 ; pub const _MM_PERM_ENUM__MM_PERM_BCDC : _MM_PERM_ENUM = 110 ; pub const _MM_PERM_ENUM__MM_PERM_BCDD : _MM_PERM_ENUM = 111 ; pub const _MM_PERM_ENUM__MM_PERM_BDAA : _MM_PERM_ENUM = 112 ; pub const _MM_PERM_ENUM__MM_PERM_BDAB : _MM_PERM_ENUM = 113 ; pub const _MM_PERM_ENUM__MM_PERM_BDAC : _MM_PERM_ENUM = 114 ; pub const _MM_PERM_ENUM__MM_PERM_BDAD : _MM_PERM_ENUM = 115 ; pub const _MM_PERM_ENUM__MM_PERM_BDBA : _MM_PERM_ENUM = 116 ; pub const _MM_PERM_ENUM__MM_PERM_BDBB : _MM_PERM_ENUM = 117 ; pub const _MM_PERM_ENUM__MM_PERM_BDBC : _MM_PERM_ENUM = 118 ; pub const _MM_PERM_ENUM__MM_PERM_BDBD : _MM_PERM_ENUM = 119 ; pub const _MM_PERM_ENUM__MM_PERM_BDCA : _MM_PERM_ENUM = 120 ; pub const _MM_PERM_ENUM__MM_PERM_BDCB : _MM_PERM_ENUM = 121 ; pub const _MM_PERM_ENUM__MM_PERM_BDCC : _MM_PERM_ENUM = 122 ; pub const _MM_PERM_ENUM__MM_PERM_BDCD : _MM_PERM_ENUM = 123 ; pub const _MM_PERM_ENUM__MM_PERM_BDDA : _MM_PERM_ENUM = 124 ; pub const _MM_PERM_ENUM__MM_PERM_BDDB : _MM_PERM_ENUM = 125 ; pub const _MM_PERM_ENUM__MM_PERM_BDDC : _MM_PERM_ENUM = 126 ; pub const _MM_PERM_ENUM__MM_PERM_BDDD : _MM_PERM_ENUM = 127 ; pub const _MM_PERM_ENUM__MM_PERM_CAAA : _MM_PERM_ENUM = 128 ; pub const _MM_PERM_ENUM__MM_PERM_CAAB : _MM_PERM_ENUM = 129 ; pub const _MM_PERM_ENUM__MM_PERM_CAAC : _MM_PERM_ENUM = 130 ; pub const _MM_PERM_ENUM__MM_PERM_CAAD : _MM_PERM_ENUM = 131 ; pub const _MM_PERM_ENUM__MM_PERM_CABA : _MM_PERM_ENUM = 132 ; pub const _MM_PERM_ENUM__MM_PERM_CABB : _MM_PERM_ENUM = 133 ; pub const _MM_PERM_ENUM__MM_PERM_CABC : _MM_PERM_ENUM = 134 ; pub const _MM_PERM_ENUM__MM_PERM_CABD : _MM_PERM_ENUM = 135 ; pub const _MM_PERM_ENUM__MM_PERM_CACA : _MM_PERM_ENUM = 136 ; pub const _MM_PERM_ENUM__MM_PERM_CACB : _MM_PERM_ENUM = 137 ; pub const _MM_PERM_ENUM__MM_PERM_CACC : _MM_PERM_ENUM = 138 ; pub const _MM_PERM_ENUM__MM_PERM_CACD : _MM_PERM_ENUM = 139 ; pub const _MM_PERM_ENUM__MM_PERM_CADA : _MM_PERM_ENUM = 140 ; pub const _MM_PERM_ENUM__MM_PERM_CADB : _MM_PERM_ENUM = 141 ; pub const _MM_PERM_ENUM__MM_PERM_CADC : _MM_PERM_ENUM = 142 ; pub const _MM_PERM_ENUM__MM_PERM_CADD : _MM_PERM_ENUM = 143 ; pub const _MM_PERM_ENUM__MM_PERM_CBAA : _MM_PERM_ENUM = 144 ; pub const _MM_PERM_ENUM__MM_PERM_CBAB : _MM_PERM_ENUM = 145 ; pub const _MM_PERM_ENUM__MM_PERM_CBAC : _MM_PERM_ENUM = 146 ; pub const _MM_PERM_ENUM__MM_PERM_CBAD : _MM_PERM_ENUM = 147 ; pub const _MM_PERM_ENUM__MM_PERM_CBBA : _MM_PERM_ENUM = 148 ; pub const _MM_PERM_ENUM__MM_PERM_CBBB : _MM_PERM_ENUM = 149 ; pub const _MM_PERM_ENUM__MM_PERM_CBBC : _MM_PERM_ENUM = 150 ; pub const _MM_PERM_ENUM__MM_PERM_CBBD : _MM_PERM_ENUM = 151 ; pub const _MM_PERM_ENUM__MM_PERM_CBCA : _MM_PERM_ENUM = 152 ; pub const _MM_PERM_ENUM__MM_PERM_CBCB : _MM_PERM_ENUM = 153 ; pub const _MM_PERM_ENUM__MM_PERM_CBCC : _MM_PERM_ENUM = 154 ; pub const _MM_PERM_ENUM__MM_PERM_CBCD : _MM_PERM_ENUM = 155 ; pub const _MM_PERM_ENUM__MM_PERM_CBDA : _MM_PERM_ENUM = 156 ; pub const _MM_PERM_ENUM__MM_PERM_CBDB : _MM_PERM_ENUM = 157 ; pub const _MM_PERM_ENUM__MM_PERM_CBDC : _MM_PERM_ENUM = 158 ; pub const _MM_PERM_ENUM__MM_PERM_CBDD : _MM_PERM_ENUM = 159 ; pub const _MM_PERM_ENUM__MM_PERM_CCAA : _MM_PERM_ENUM = 160 ; pub const _MM_PERM_ENUM__MM_PERM_CCAB : _MM_PERM_ENUM = 161 ; pub const _MM_PERM_ENUM__MM_PERM_CCAC : _MM_PERM_ENUM = 162 ; pub const _MM_PERM_ENUM__MM_PERM_CCAD : _MM_PERM_ENUM = 163 ; pub const _MM_PERM_ENUM__MM_PERM_CCBA : _MM_PERM_ENUM = 164 ; pub const _MM_PERM_ENUM__MM_PERM_CCBB : _MM_PERM_ENUM = 165 ; pub const _MM_PERM_ENUM__MM_PERM_CCBC : _MM_PERM_ENUM = 166 ; pub const _MM_PERM_ENUM__MM_PERM_CCBD : _MM_PERM_ENUM = 167 ; pub const _MM_PERM_ENUM__MM_PERM_CCCA : _MM_PERM_ENUM = 168 ; pub const _MM_PERM_ENUM__MM_PERM_CCCB : _MM_PERM_ENUM = 169 ; pub const _MM_PERM_ENUM__MM_PERM_CCCC : _MM_PERM_ENUM = 170 ; pub const _MM_PERM_ENUM__MM_PERM_CCCD : _MM_PERM_ENUM = 171 ; pub const _MM_PERM_ENUM__MM_PERM_CCDA : _MM_PERM_ENUM = 172 ; pub const _MM_PERM_ENUM__MM_PERM_CCDB : _MM_PERM_ENUM = 173 ; pub const _MM_PERM_ENUM__MM_PERM_CCDC : _MM_PERM_ENUM = 174 ; pub const _MM_PERM_ENUM__MM_PERM_CCDD : _MM_PERM_ENUM = 175 ; pub const _MM_PERM_ENUM__MM_PERM_CDAA : _MM_PERM_ENUM = 176 ; pub const _MM_PERM_ENUM__MM_PERM_CDAB : _MM_PERM_ENUM = 177 ; pub const _MM_PERM_ENUM__MM_PERM_CDAC : _MM_PERM_ENUM = 178 ; pub const _MM_PERM_ENUM__MM_PERM_CDAD : _MM_PERM_ENUM = 179 ; pub const _MM_PERM_ENUM__MM_PERM_CDBA : _MM_PERM_ENUM = 180 ; pub const _MM_PERM_ENUM__MM_PERM_CDBB : _MM_PERM_ENUM = 181 ; pub const _MM_PERM_ENUM__MM_PERM_CDBC : _MM_PERM_ENUM = 182 ; pub const _MM_PERM_ENUM__MM_PERM_CDBD : _MM_PERM_ENUM = 183 ; pub const _MM_PERM_ENUM__MM_PERM_CDCA : _MM_PERM_ENUM = 184 ; pub const _MM_PERM_ENUM__MM_PERM_CDCB : _MM_PERM_ENUM = 185 ; pub const _MM_PERM_ENUM__MM_PERM_CDCC : _MM_PERM_ENUM = 186 ; pub const _MM_PERM_ENUM__MM_PERM_CDCD : _MM_PERM_ENUM = 187 ; pub const _MM_PERM_ENUM__MM_PERM_CDDA : _MM_PERM_ENUM = 188 ; pub const _MM_PERM_ENUM__MM_PERM_CDDB : _MM_PERM_ENUM = 189 ; pub const _MM_PERM_ENUM__MM_PERM_CDDC : _MM_PERM_ENUM = 190 ; pub const _MM_PERM_ENUM__MM_PERM_CDDD : _MM_PERM_ENUM = 191 ; pub const _MM_PERM_ENUM__MM_PERM_DAAA : _MM_PERM_ENUM = 192 ; pub const _MM_PERM_ENUM__MM_PERM_DAAB : _MM_PERM_ENUM = 193 ; pub const _MM_PERM_ENUM__MM_PERM_DAAC : _MM_PERM_ENUM = 194 ; pub const _MM_PERM_ENUM__MM_PERM_DAAD : _MM_PERM_ENUM = 195 ; pub const _MM_PERM_ENUM__MM_PERM_DABA : _MM_PERM_ENUM = 196 ; pub const _MM_PERM_ENUM__MM_PERM_DABB : _MM_PERM_ENUM = 197 ; pub const _MM_PERM_ENUM__MM_PERM_DABC : _MM_PERM_ENUM = 198 ; pub const _MM_PERM_ENUM__MM_PERM_DABD : _MM_PERM_ENUM = 199 ; pub const _MM_PERM_ENUM__MM_PERM_DACA : _MM_PERM_ENUM = 200 ; pub const _MM_PERM_ENUM__MM_PERM_DACB : _MM_PERM_ENUM = 201 ; pub const _MM_PERM_ENUM__MM_PERM_DACC : _MM_PERM_ENUM = 202 ; pub const _MM_PERM_ENUM__MM_PERM_DACD : _MM_PERM_ENUM = 203 ; pub const _MM_PERM_ENUM__MM_PERM_DADA : _MM_PERM_ENUM = 204 ; pub const _MM_PERM_ENUM__MM_PERM_DADB : _MM_PERM_ENUM = 205 ; pub const _MM_PERM_ENUM__MM_PERM_DADC : _MM_PERM_ENUM = 206 ; pub const _MM_PERM_ENUM__MM_PERM_DADD : _MM_PERM_ENUM = 207 ; pub const _MM_PERM_ENUM__MM_PERM_DBAA : _MM_PERM_ENUM = 208 ; pub const _MM_PERM_ENUM__MM_PERM_DBAB : _MM_PERM_ENUM = 209 ; pub const _MM_PERM_ENUM__MM_PERM_DBAC : _MM_PERM_ENUM = 210 ; pub const _MM_PERM_ENUM__MM_PERM_DBAD : _MM_PERM_ENUM = 211 ; pub const _MM_PERM_ENUM__MM_PERM_DBBA : _MM_PERM_ENUM = 212 ; pub const _MM_PERM_ENUM__MM_PERM_DBBB : _MM_PERM_ENUM = 213 ; pub const _MM_PERM_ENUM__MM_PERM_DBBC : _MM_PERM_ENUM = 214 ; pub const _MM_PERM_ENUM__MM_PERM_DBBD : _MM_PERM_ENUM = 215 ; pub const _MM_PERM_ENUM__MM_PERM_DBCA : _MM_PERM_ENUM = 216 ; pub const _MM_PERM_ENUM__MM_PERM_DBCB : _MM_PERM_ENUM = 217 ; pub const _MM_PERM_ENUM__MM_PERM_DBCC : _MM_PERM_ENUM = 218 ; pub const _MM_PERM_ENUM__MM_PERM_DBCD : _MM_PERM_ENUM = 219 ; pub const _MM_PERM_ENUM__MM_PERM_DBDA : _MM_PERM_ENUM = 220 ; pub const _MM_PERM_ENUM__MM_PERM_DBDB : _MM_PERM_ENUM = 221 ; pub const _MM_PERM_ENUM__MM_PERM_DBDC : _MM_PERM_ENUM = 222 ; pub const _MM_PERM_ENUM__MM_PERM_DBDD : _MM_PERM_ENUM = 223 ; pub const _MM_PERM_ENUM__MM_PERM_DCAA : _MM_PERM_ENUM = 224 ; pub const _MM_PERM_ENUM__MM_PERM_DCAB : _MM_PERM_ENUM = 225 ; pub const _MM_PERM_ENUM__MM_PERM_DCAC : _MM_PERM_ENUM = 226 ; pub const _MM_PERM_ENUM__MM_PERM_DCAD : _MM_PERM_ENUM = 227 ; pub const _MM_PERM_ENUM__MM_PERM_DCBA : _MM_PERM_ENUM = 228 ; pub const _MM_PERM_ENUM__MM_PERM_DCBB : _MM_PERM_ENUM = 229 ; pub const _MM_PERM_ENUM__MM_PERM_DCBC : _MM_PERM_ENUM = 230 ; pub const _MM_PERM_ENUM__MM_PERM_DCBD : _MM_PERM_ENUM = 231 ; pub const _MM_PERM_ENUM__MM_PERM_DCCA : _MM_PERM_ENUM = 232 ; pub const _MM_PERM_ENUM__MM_PERM_DCCB : _MM_PERM_ENUM = 233 ; pub const _MM_PERM_ENUM__MM_PERM_DCCC : _MM_PERM_ENUM = 234 ; pub const _MM_PERM_ENUM__MM_PERM_DCCD : _MM_PERM_ENUM = 235 ; pub const _MM_PERM_ENUM__MM_PERM_DCDA : _MM_PERM_ENUM = 236 ; pub const _MM_PERM_ENUM__MM_PERM_DCDB : _MM_PERM_ENUM = 237 ; pub const _MM_PERM_ENUM__MM_PERM_DCDC : _MM_PERM_ENUM = 238 ; pub const _MM_PERM_ENUM__MM_PERM_DCDD : _MM_PERM_ENUM = 239 ; pub const _MM_PERM_ENUM__MM_PERM_DDAA : _MM_PERM_ENUM = 240 ; pub const _MM_PERM_ENUM__MM_PERM_DDAB : _MM_PERM_ENUM = 241 ; pub const _MM_PERM_ENUM__MM_PERM_DDAC : _MM_PERM_ENUM = 242 ; pub const _MM_PERM_ENUM__MM_PERM_DDAD : _MM_PERM_ENUM = 243 ; pub const _MM_PERM_ENUM__MM_PERM_DDBA : _MM_PERM_ENUM = 244 ; pub const _MM_PERM_ENUM__MM_PERM_DDBB : _MM_PERM_ENUM = 245 ; pub const _MM_PERM_ENUM__MM_PERM_DDBC : _MM_PERM_ENUM = 246 ; pub const _MM_PERM_ENUM__MM_PERM_DDBD : _MM_PERM_ENUM = 247 ; pub const _MM_PERM_ENUM__MM_PERM_DDCA : _MM_PERM_ENUM = 248 ; pub const _MM_PERM_ENUM__MM_PERM_DDCB : _MM_PERM_ENUM = 249 ; pub const _MM_PERM_ENUM__MM_PERM_DDCC : _MM_PERM_ENUM = 250 ; pub const _MM_PERM_ENUM__MM_PERM_DDCD : _MM_PERM_ENUM = 251 ; pub const _MM_PERM_ENUM__MM_PERM_DDDA : _MM_PERM_ENUM = 252 ; pub const _MM_PERM_ENUM__MM_PERM_DDDB : _MM_PERM_ENUM = 253 ; pub const _MM_PERM_ENUM__MM_PERM_DDDC : _MM_PERM_ENUM = 254 ; pub const _MM_PERM_ENUM__MM_PERM_DDDD : _MM_PERM_ENUM = 255 ; pub type _MM_PERM_ENUM = u32 ; pub const _MM_MANTISSA_NORM_ENUM__MM_MANT_NORM_1_2 : _MM_MANTISSA_NORM_ENUM = 0 ; pub const _MM_MANTISSA_NORM_ENUM__MM_MANT_NORM_p5_2 : _MM_MANTISSA_NORM_ENUM = 1 ; pub const _MM_MANTISSA_NORM_ENUM__MM_MANT_NORM_p5_1 : _MM_MANTISSA_NORM_ENUM = 2 ; pub const _MM_MANTISSA_NORM_ENUM__MM_MANT_NORM_p75_1p5 : _MM_MANTISSA_NORM_ENUM = 3 ; pub type _MM_MANTISSA_NORM_ENUM = u32 ; pub const _MM_MANTISSA_SIGN_ENUM__MM_MANT_SIGN_src : _MM_MANTISSA_SIGN_ENUM = 0 ; pub const _MM_MANTISSA_SIGN_ENUM__MM_MANT_SIGN_zero : _MM_MANTISSA_SIGN_ENUM = 1 ; pub const _MM_MANTISSA_SIGN_ENUM__MM_MANT_SIGN_nan : _MM_MANTISSA_SIGN_ENUM = 2 ; pub type _MM_MANTISSA_SIGN_ENUM = u32 ; pub type __mmask32 = :: std :: os :: raw :: c_uint ; pub type __mmask64 = :: std :: os :: raw :: c_ulonglong ; pub type __v2sf = [ f32 ; 2usize ] ; pub const ARRAY_LAZY_LOWERBOUND : _bindgen_ty_2 = 1024 ; 
 /// During lazy computations, we can transform array containers into bitset
/// containers as
/// long as we can expect them to have  ARRAY_LAZY_LOWERBOUND values. 
 pub type _bindgen_ty_2 = u32 ; pub const RUN_DEFAULT_INIT_SIZE : _bindgen_ty_3 = 0 ; pub type _bindgen_ty_3 = u32 ; pub const ARRAY_DEFAULT_INIT_SIZE : _bindgen_ty_4 = 0 ; pub type _bindgen_ty_4 = u32 ; extern "C" { # [ link_name = "\u{1}_binarySearch" ] pub fn binarySearch ( array : * const u16 , lenarray : i32 , ikey : u16 ) -> i32 ; } extern "C" { 
 /// From Schlegel et al., Fast Sorted-Set Intersection using SIMD Instructions
/// Optimized by D. Lemire on May 3rd 2013
///
/// C should have capacity greater than the minimum of s_1 and s_b + 8
/// where 8 is sizeof(__m128i)/sizeof(uint16_t). 
 # [ link_name = "\u{1}_intersect_vector16" ] pub fn intersect_vector16 ( A : * const u16 , s_a : usize , B : * const u16 , s_b : usize , C : * mut u16 ) -> i32 ; } extern "C" { 
 /// Compute the cardinality of the intersection using SSE4 instructions 
 # [ link_name = "\u{1}_intersect_vector16_cardinality" ] pub fn intersect_vector16_cardinality ( A : * const u16 , s_a : usize , B : * const u16 , s_b : usize ) -> i32 ; } extern "C" { # [ link_name = "\u{1}_intersect_skewed_uint16" ] pub fn intersect_skewed_uint16 ( smallarray : * const u16 , size_s : usize , largearray : * const u16 , size_l : usize , buffer : * mut u16 ) -> i32 ; } extern "C" { # [ link_name = "\u{1}_intersect_skewed_uint16_cardinality" ] pub fn intersect_skewed_uint16_cardinality ( smallarray : * const u16 , size_s : usize , largearray : * const u16 , size_l : usize ) -> i32 ; } extern "C" { # [ link_name = "\u{1}_intersect_skewed_uint16_nonempty" ] pub fn intersect_skewed_uint16_nonempty ( smallarray : * const u16 , size_s : usize , largearray : * const u16 , size_l : usize ) -> bool ; } extern "C" { 
 /// Generic intersection function. 
 # [ link_name = "\u{1}_intersect_uint16" ] pub fn intersect_uint16 ( A : * const u16 , lenA : usize , B : * const u16 , lenB : usize , out : * mut u16 ) -> i32 ; } extern "C" { 
 /// Compute the size of the intersection (generic). 
 # [ link_name = "\u{1}_intersect_uint16_cardinality" ] pub fn intersect_uint16_cardinality ( A : * const u16 , lenA : usize , B : * const u16 , lenB : usize ) -> i32 ; } extern "C" { 
 /// Checking whether the size of the intersection  is non-zero. 
 # [ link_name = "\u{1}_intersect_uint16_nonempty" ] pub fn intersect_uint16_nonempty ( A : * const u16 , lenA : usize , B : * const u16 , lenB : usize ) -> bool ; } extern "C" { 
 /// Generic union function. 
 # [ link_name = "\u{1}_union_uint16" ] pub fn union_uint16 ( set_1 : * const u16 , size_1 : usize , set_2 : * const u16 , size_2 : usize , buffer : * mut u16 ) -> usize ; } extern "C" { 
 /// Generic XOR function. 
 # [ link_name = "\u{1}_xor_uint16" ] pub fn xor_uint16 ( array_1 : * const u16 , card_1 : i32 , array_2 : * const u16 , card_2 : i32 , out : * mut u16 ) -> i32 ; } extern "C" { 
 /// Generic difference function (ANDNOT). 
 # [ link_name = "\u{1}_difference_uint16" ] pub fn difference_uint16 ( a1 : * const u16 , length1 : :: std :: os :: raw :: c_int , a2 : * const u16 , length2 : :: std :: os :: raw :: c_int , a_out : * mut u16 ) -> :: std :: os :: raw :: c_int ; } extern "C" { 
 /// Generic intersection function. 
 # [ link_name = "\u{1}_intersection_uint32" ] pub fn intersection_uint32 ( A : * const u32 , lenA : usize , B : * const u32 , lenB : usize , out : * mut u32 ) -> usize ; } extern "C" { 
 /// Generic intersection function, returns just the cardinality. 
 # [ link_name = "\u{1}_intersection_uint32_card" ] pub fn intersection_uint32_card ( A : * const u32 , lenA : usize , B : * const u32 , lenB : usize ) -> usize ; } extern "C" { 
 /// Generic union function. 
 # [ link_name = "\u{1}_union_uint32" ] pub fn union_uint32 ( set_1 : * const u32 , size_1 : usize , set_2 : * const u32 , size_2 : usize , buffer : * mut u32 ) -> usize ; } extern "C" { 
 /// A fast SSE-based union function. 
 # [ link_name = "\u{1}_union_vector16" ] pub fn union_vector16 ( set_1 : * const u16 , size_1 : u32 , set_2 : * const u16 , size_2 : u32 , buffer : * mut u16 ) -> u32 ; } extern "C" { 
 /// A fast SSE-based XOR function. 
 # [ link_name = "\u{1}_xor_vector16" ] pub fn xor_vector16 ( array1 : * const u16 , length1 : u32 , array2 : * const u16 , length2 : u32 , output : * mut u16 ) -> u32 ; } extern "C" { 
 /// A fast SSE-based difference function. 
 # [ link_name = "\u{1}_difference_vector16" ] pub fn difference_vector16 ( A : * const u16 , s_a : usize , B : * const u16 , s_b : usize , C : * mut u16 ) -> i32 ; } extern "C" { 
 /// Generic union function, returns just the cardinality. 
 # [ link_name = "\u{1}_union_uint32_card" ] pub fn union_uint32_card ( set_1 : * const u32 , size_1 : usize , set_2 : * const u32 , size_2 : usize ) -> usize ; } extern "C" { 
 /// combines union_uint16 and  union_vector16 optimally 
 # [ link_name = "\u{1}_fast_union_uint16" ] pub fn fast_union_uint16 ( set_1 : * const u16 , size_1 : usize , set_2 : * const u16 , size_2 : usize , buffer : * mut u16 ) -> usize ; } extern "C" { # [ link_name = "\u{1}_memequals" ] pub fn memequals ( s1 : * const :: std :: os :: raw :: c_void , s2 : * const :: std :: os :: raw :: c_void , n : usize ) -> bool ; } pub type roaring_iterator = :: std :: option :: Option < unsafe extern "C" fn ( value : u32 , param : * mut :: std :: os :: raw :: c_void ) -> bool > ; pub type roaring_iterator64 = :: std :: option :: Option < unsafe extern "C" fn ( value : u64 , param : * mut :: std :: os :: raw :: c_void ) -> bool > ; 
 /// (For advanced users.)
/// The roaring_statistics_t can be used to collect detailed statistics about
/// the composition of a roaring bitmap. 
 # [ repr ( C ) ] # [ derive ( Debug , Copy , Clone ) ] pub struct roaring_statistics_s { pub n_containers : u32 , pub n_array_containers : u32 , pub n_run_containers : u32 , pub n_bitset_containers : u32 , pub n_values_array_containers : u32 , pub n_values_run_containers : u32 , pub n_values_bitset_containers : u32 , pub n_bytes_array_containers : u32 , pub n_bytes_run_containers : u32 , pub n_bytes_bitset_containers : u32 , pub max_value : u32 , pub min_value : u32 , pub sum_value : u64 , pub cardinality : u64 , } # [ test ] fn bindgen_test_layout_roaring_statistics_s ( ) { assert_eq ! ( :: std :: mem :: size_of :: < roaring_statistics_s > ( ) , 64usize , concat ! ( "Size of: " , stringify ! ( roaring_statistics_s ) ) ) ; assert_eq ! ( :: std :: mem :: align_of :: < roaring_statistics_s > ( ) , 8usize , concat ! ( "Alignment of " , stringify ! ( roaring_statistics_s ) ) ) ; assert_eq ! ( unsafe { & ( * ( :: std :: ptr :: null :: < roaring_statistics_s > ( ) ) ) . n_containers as * const _ as usize } , 0usize , concat ! ( "Offset of field: " , stringify ! ( roaring_statistics_s ) , "::" , stringify ! ( n_containers ) ) ) ; assert_eq ! ( unsafe { & ( * ( :: std :: ptr :: null :: < roaring_statistics_s > ( ) ) ) . n_array_containers as * const _ as usize } , 4usize , concat ! ( "Offset of field: " , stringify ! ( roaring_statistics_s ) , "::" , stringify ! ( n_array_containers ) ) ) ; assert_eq ! ( unsafe { & ( * ( :: std :: ptr :: null :: < roaring_statistics_s > ( ) ) ) . n_run_containers as * const _ as usize } , 8usize , concat ! ( "Offset of field: " , stringify ! ( roaring_statistics_s ) , "::" , stringify ! ( n_run_containers ) ) ) ; assert_eq ! ( unsafe { & ( * ( :: std :: ptr :: null :: < roaring_statistics_s > ( ) ) ) . n_bitset_containers as * const _ as usize } , 12usize , concat ! ( "Offset of field: " , stringify ! ( roaring_statistics_s ) , "::" , stringify ! ( n_bitset_containers ) ) ) ; assert_eq ! ( unsafe { & ( * ( :: std :: ptr :: null :: < roaring_statistics_s > ( ) ) ) . n_values_array_containers as * const _ as usize } , 16usize , concat ! ( "Offset of field: " , stringify ! ( roaring_statistics_s ) , "::" , stringify ! ( n_values_array_containers ) ) ) ; assert_eq ! ( unsafe { & ( * ( :: std :: ptr :: null :: < roaring_statistics_s > ( ) ) ) . n_values_run_containers as * const _ as usize } , 20usize , concat ! ( "Offset of field: " , stringify ! ( roaring_statistics_s ) , "::" , stringify ! ( n_values_run_containers ) ) ) ; assert_eq ! ( unsafe { & ( * ( :: std :: ptr :: null :: < roaring_statistics_s > ( ) ) ) . n_values_bitset_containers as * const _ as usize } , 24usize , concat ! ( "Offset of field: " , stringify ! ( roaring_statistics_s ) , "::" , stringify ! ( n_values_bitset_containers ) ) ) ; assert_eq ! ( unsafe { & ( * ( :: std :: ptr :: null :: < roaring_statistics_s > ( ) ) ) . n_bytes_array_containers as * const _ as usize } , 28usize , concat ! ( "Offset of field: " , stringify ! ( roaring_statistics_s ) , "::" , stringify ! ( n_bytes_array_containers ) ) ) ; assert_eq ! ( unsafe { & ( * ( :: std :: ptr :: null :: < roaring_statistics_s > ( ) ) ) . n_bytes_run_containers as * const _ as usize } , 32usize , concat ! ( "Offset of field: " , stringify ! ( roaring_statistics_s ) , "::" , stringify ! ( n_bytes_run_containers ) ) ) ; assert_eq ! ( unsafe { & ( * ( :: std :: ptr :: null :: < roaring_statistics_s > ( ) ) ) . n_bytes_bitset_containers as * const _ as usize } , 36usize , concat ! ( "Offset of field: " , stringify ! ( roaring_statistics_s ) , "::" , stringify ! ( n_bytes_bitset_containers ) ) ) ; assert_eq ! ( unsafe { & ( * ( :: std :: ptr :: null :: < roaring_statistics_s > ( ) ) ) . max_value as * const _ as usize } , 40usize , concat ! ( "Offset of field: " , stringify ! ( roaring_statistics_s ) , "::" , stringify ! ( max_value ) ) ) ; assert_eq ! ( unsafe { & ( * ( :: std :: ptr :: null :: < roaring_statistics_s > ( ) ) ) . min_value as * const _ as usize } , 44usize , concat ! ( "Offset of field: " , stringify ! ( roaring_statistics_s ) , "::" , stringify ! ( min_value ) ) ) ; assert_eq ! ( unsafe { & ( * ( :: std :: ptr :: null :: < roaring_statistics_s > ( ) ) ) . sum_value as * const _ as usize } , 48usize , concat ! ( "Offset of field: " , stringify ! ( roaring_statistics_s ) , "::" , stringify ! ( sum_value ) ) ) ; assert_eq ! ( unsafe { & ( * ( :: std :: ptr :: null :: < roaring_statistics_s > ( ) ) ) . cardinality as * const _ as usize } , 56usize , concat ! ( "Offset of field: " , stringify ! ( roaring_statistics_s ) , "::" , stringify ! ( cardinality ) ) ) ; } pub type roaring_statistics_t = roaring_statistics_s ; extern "C" { # [ link_name = "\u{1}_bitset_extract_setbits_avx2" ] pub fn bitset_extract_setbits_avx2 ( bitset : * mut u64 , length : usize , vout : * mut :: std :: os :: raw :: c_void , outcapacity : usize , base : u32 ) -> usize ; } extern "C" { # [ link_name = "\u{1}_bitset_extract_setbits" ] pub fn bitset_extract_setbits ( bitset : * mut u64 , length : usize , vout : * mut :: std :: os :: raw :: c_void , base : u32 ) -> usize ; } extern "C" { # [ link_name = "\u{1}_bitset_extract_setbits_sse_uint16" ] pub fn bitset_extract_setbits_sse_uint16 ( bitset : * const u64 , length : usize , out : * mut u16 , outcapacity : usize , base : u16 ) -> usize ; } extern "C" { # [ link_name = "\u{1}_bitset_extract_setbits_uint16" ] pub fn bitset_extract_setbits_uint16 ( bitset : * const u64 , length : usize , out : * mut u16 , base : u16 ) -> usize ; } extern "C" { # [ link_name = "\u{1}_bitset_extract_intersection_setbits_uint16" ] pub fn bitset_extract_intersection_setbits_uint16 ( bitset1 : * const u64 , bitset2 : * const u64 , length : usize , out : * mut u16 , base : u16 ) -> usize ; } extern "C" { # [ link_name = "\u{1}_bitset_set_list_withcard" ] pub fn bitset_set_list_withcard ( bitset : * mut :: std :: os :: raw :: c_void , card : u64 , list : * const u16 , length : u64 ) -> u64 ; } extern "C" { # [ link_name = "\u{1}_bitset_set_list" ] pub fn bitset_set_list ( bitset : * mut :: std :: os :: raw :: c_void , list : * const u16 , length : u64 ) ; } extern "C" { # [ link_name = "\u{1}_bitset_clear_list" ] pub fn bitset_clear_list ( bitset : * mut :: std :: os :: raw :: c_void , card : u64 , list : * const u16 , length : u64 ) -> u64 ; } extern "C" { # [ link_name = "\u{1}_bitset_flip_list_withcard" ] pub fn bitset_flip_list_withcard ( bitset : * mut :: std :: os :: raw :: c_void , card : u64 , list : * const u16 , length : u64 ) -> u64 ; } extern "C" { # [ link_name = "\u{1}_bitset_flip_list" ] pub fn bitset_flip_list ( bitset : * mut :: std :: os :: raw :: c_void , list : * const u16 , length : u64 ) ; } extern "C" { # [ link_name = "\u{1}_memcpy" ] pub fn memcpy ( __dest : * mut :: std :: os :: raw :: c_void , __src : * const :: std :: os :: raw :: c_void , __n : usize ) -> * mut :: std :: os :: raw :: c_void ; } extern "C" { # [ link_name = "\u{1}_memmove" ] pub fn memmove ( __dest : * mut :: std :: os :: raw :: c_void , __src : * const :: std :: os :: raw :: c_void , __n : usize ) -> * mut :: std :: os :: raw :: c_void ; } extern "C" { # [ link_name = "\u{1}_memccpy" ] pub fn memccpy ( __dest : * mut :: std :: os :: raw :: c_void , __src : * const :: std :: os :: raw :: c_void , __c : :: std :: os :: raw :: c_int , __n : usize ) -> * mut :: std :: os :: raw :: c_void ; } extern "C" { # [ link_name = "\u{1}_memset" ] pub fn memset ( __s : * mut :: std :: os :: raw :: c_void , __c : :: std :: os :: raw :: c_int , __n : usize ) -> * mut :: std :: os :: raw :: c_void ; } extern "C" { # [ link_name = "\u{1}_memcmp" ] pub fn memcmp ( __s1 : * const :: std :: os :: raw :: c_void , __s2 : * const :: std :: os :: raw :: c_void , __n : usize ) -> :: std :: os :: raw :: c_int ; } extern "C" { # [ link_name = "\u{1}_memchr" ] pub fn memchr ( __s : * const :: std :: os :: raw :: c_void , __c : :: std :: os :: raw :: c_int , __n : usize ) -> * mut :: std :: os :: raw :: c_void ; } extern "C" { # [ link_name = "\u{1}_rawmemchr" ] pub fn rawmemchr ( __s : * const :: std :: os :: raw :: c_void , __c : :: std :: os :: raw :: c_int ) -> * mut :: std :: os :: raw :: c_void ; } extern "C" { # [ link_name = "\u{1}_memrchr" ] pub fn memrchr ( __s : * const :: std :: os :: raw :: c_void , __c : :: std :: os :: raw :: c_int , __n : usize ) -> * mut :: std :: os :: raw :: c_void ; } extern "C" { # [ link_name = "\u{1}_strcpy" ] pub fn strcpy ( __dest : * mut :: std :: os :: raw :: c_char , __src : * const :: std :: os :: raw :: c_char ) -> * mut :: std :: os :: raw :: c_char ; } extern "C" { # [ link_name = "\u{1}_strncpy" ] pub fn strncpy ( __dest : * mut :: std :: os :: raw :: c_char , __src : * const :: std :: os :: raw :: c_char , __n : usize ) -> * mut :: std :: os :: raw :: c_char ; } extern "C" { # [ link_name = "\u{1}_strcat" ] pub fn strcat ( __dest : * mut :: std :: os :: raw :: c_char , __src : * const :: std :: os :: raw :: c_char ) -> * mut :: std :: os :: raw :: c_char ; } extern "C" { # [ link_name = "\u{1}_strncat" ] pub fn strncat ( __dest : * mut :: std :: os :: raw :: c_char , __src : * const :: std :: os :: raw :: c_char , __n : usize ) -> * mut :: std :: os :: raw :: c_char ; } extern "C" { # [ link_name = "\u{1}_strcmp" ] pub fn strcmp ( __s1 : * const :: std :: os :: raw :: c_char , __s2 : * const :: std :: os :: raw :: c_char ) -> :: std :: os :: raw :: c_int ; } extern "C" { # [ link_name = "\u{1}_strncmp" ] pub fn strncmp ( __s1 : * const :: std :: os :: raw :: c_char , __s2 : * const :: std :: os :: raw :: c_char , __n : usize ) -> :: std :: os :: raw :: c_int ; } extern "C" { # [ link_name = "\u{1}_strcoll" ] pub fn strcoll ( __s1 : * const :: std :: os :: raw :: c_char , __s2 : * const :: std :: os :: raw :: c_char ) -> :: std :: os :: raw :: c_int ; } extern "C" { # [ link_name = "\u{1}_strxfrm" ] pub fn strxfrm ( __dest : * mut :: std :: os :: raw :: c_char , __src : * const :: std :: os :: raw :: c_char , __n : usize ) -> :: std :: os :: raw :: c_ulong ; } extern "C" { # [ link_name = "\u{1}_strcoll_l" ] pub fn strcoll_l ( __s1 : * const :: std :: os :: raw :: c_char , __s2 : * const :: std :: os :: raw :: c_char , __l : locale_t ) -> :: std :: os :: raw :: c_int ; } extern "C" { # [ link_name = "\u{1}_strxfrm_l" ] pub fn strxfrm_l ( __dest : * mut :: std :: os :: raw :: c_char , __src : * const :: std :: os :: raw :: c_char , __n : usize , __l : locale_t ) -> usize ; } extern "C" { # [ link_name = "\u{1}_strdup" ] pub fn strdup ( __s : * const :: std :: os :: raw :: c_char ) -> * mut :: std :: os :: raw :: c_char ; } extern "C" { # [ link_name = "\u{1}_strndup" ] pub fn strndup ( __string : * const :: std :: os :: raw :: c_char , __n : usize ) -> * mut :: std :: os :: raw :: c_char ; } extern "C" { # [ link_name = "\u{1}_strchr" ] pub fn strchr ( __s : * const :: std :: os :: raw :: c_char , __c : :: std :: os :: raw :: c_int ) -> * mut :: std :: os :: raw :: c_char ; } extern "C" { # [ link_name = "\u{1}_strrchr" ] pub fn strrchr ( __s : * const :: std :: os :: raw :: c_char , __c : :: std :: os :: raw :: c_int ) -> * mut :: std :: os :: raw :: c_char ; } extern "C" { # [ link_name = "\u{1}_strchrnul" ] pub fn strchrnul ( __s : * const :: std :: os :: raw :: c_char , __c : :: std :: os :: raw :: c_int ) -> * mut :: std :: os :: raw :: c_char ; } extern "C" { # [ link_name = "\u{1}_strcspn" ] pub fn strcspn ( __s : * const :: std :: os :: raw :: c_char , __reject : * const :: std :: os :: raw :: c_char ) -> :: std :: os :: raw :: c_ulong ; } extern "C" { # [ link_name = "\u{1}_strspn" ] pub fn strspn ( __s : * const :: std :: os :: raw :: c_char , __accept : * const :: std :: os :: raw :: c_char ) -> :: std :: os :: raw :: c_ulong ; } extern "C" { # [ link_name = "\u{1}_strpbrk" ] pub fn strpbrk ( __s : * const :: std :: os :: raw :: c_char , __accept : * const :: std :: os :: raw :: c_char ) -> * mut :: std :: os :: raw :: c_char ; } extern "C" { # [ link_name = "\u{1}_strstr" ] pub fn strstr ( __haystack : * const :: std :: os :: raw :: c_char , __needle : * const :: std :: os :: raw :: c_char ) -> * mut :: std :: os :: raw :: c_char ; } extern "C" { # [ link_name = "\u{1}_strtok" ] pub fn strtok ( __s : * mut :: std :: os :: raw :: c_char , __delim : * const :: std :: os :: raw :: c_char ) -> * mut :: std :: os :: raw :: c_char ; } extern "C" { # [ link_name = "\u{1}___strtok_r" ] pub fn __strtok_r ( __s : * mut :: std :: os :: raw :: c_char , __delim : * const :: std :: os :: raw :: c_char , __save_ptr : * mut * mut :: std :: os :: raw :: c_char ) -> * mut :: std :: os :: raw :: c_char ; } extern "C" { # [ link_name = "\u{1}_strtok_r" ] pub fn strtok_r ( __s : * mut :: std :: os :: raw :: c_char , __delim : * const :: std :: os :: raw :: c_char , __save_ptr : * mut * mut :: std :: os :: raw :: c_char ) -> * mut :: std :: os :: raw :: c_char ; } extern "C" { # [ link_name = "\u{1}_strcasestr" ] pub fn strcasestr ( __haystack : * const :: std :: os :: raw :: c_char , __needle : * const :: std :: os :: raw :: c_char ) -> * mut :: std :: os :: raw :: c_char ; } extern "C" { # [ link_name = "\u{1}_memmem" ] pub fn memmem ( __haystack : * const :: std :: os :: raw :: c_void , __haystacklen : usize , __needle : * const :: std :: os :: raw :: c_void , __needlelen : usize ) -> * mut :: std :: os :: raw :: c_void ; } extern "C" { # [ link_name = "\u{1}___mempcpy" ] pub fn __mempcpy ( __dest : * mut :: std :: os :: raw :: c_void , __src : * const :: std :: os :: raw :: c_void , __n : usize ) -> * mut :: std :: os :: raw :: c_void ; } extern "C" { # [ link_name = "\u{1}_mempcpy" ] pub fn mempcpy ( __dest : * mut :: std :: os :: raw :: c_void , __src : * const :: std :: os :: raw :: c_void , __n : usize ) -> * mut :: std :: os :: raw :: c_void ; } extern "C" { # [ link_name = "\u{1}_strlen" ] pub fn strlen ( __s : * const :: std :: os :: raw :: c_char ) -> :: std :: os :: raw :: c_ulong ; } extern "C" { # [ link_name = "\u{1}_strnlen" ] pub fn strnlen ( __string : * const :: std :: os :: raw :: c_char , __maxlen : usize ) -> usize ; } extern "C" { # [ link_name = "\u{1}_strerror" ] pub fn strerror ( __errnum : :: std :: os :: raw :: c_int ) -> * mut :: std :: os :: raw :: c_char ; } extern "C" { # [ link_name = "\u{1}_strerror_r" ] pub fn strerror_r ( __errnum : :: std :: os :: raw :: c_int , __buf : * mut :: std :: os :: raw :: c_char , __buflen : usize ) -> * mut :: std :: os :: raw :: c_char ; } extern "C" { # [ link_name = "\u{1}_strerror_l" ] pub fn strerror_l ( __errnum : :: std :: os :: raw :: c_int , __l : locale_t ) -> * mut :: std :: os :: raw :: c_char ; } extern "C" { # [ link_name = "\u{1}_bcmp" ] pub fn bcmp ( __s1 : * const :: std :: os :: raw :: c_void , __s2 : * const :: std :: os :: raw :: c_void , __n : usize ) -> :: std :: os :: raw :: c_int ; } extern "C" { # [ link_name = "\u{1}_bcopy" ] pub fn bcopy ( __src : * const :: std :: os :: raw :: c_void , __dest : * mut :: std :: os :: raw :: c_void , __n : usize ) ; } extern "C" { # [ link_name = "\u{1}_bzero" ] pub fn bzero ( __s : * mut :: std :: os :: raw :: c_void , __n : usize ) ; } extern "C" { # [ link_name = "\u{1}_index" ] pub fn index ( __s : * const :: std :: os :: raw :: c_char , __c : :: std :: os :: raw :: c_int ) -> * mut :: std :: os :: raw :: c_char ; } extern "C" { # [ link_name = "\u{1}_rindex" ] pub fn rindex ( __s : * const :: std :: os :: raw :: c_char , __c : :: std :: os :: raw :: c_int ) -> * mut :: std :: os :: raw :: c_char ; } extern "C" { # [ link_name = "\u{1}_ffs" ] pub fn ffs ( __i : :: std :: os :: raw :: c_int ) -> :: std :: os :: raw :: c_int ; } extern "C" { # [ link_name = "\u{1}_ffsl" ] pub fn ffsl ( __l : :: std :: os :: raw :: c_long ) -> :: std :: os :: raw :: c_int ; } extern "C" { # [ link_name = "\u{1}_ffsll" ] pub fn ffsll ( __ll : :: std :: os :: raw :: c_longlong ) -> :: std :: os :: raw :: c_int ; } extern "C" { # [ link_name = "\u{1}_strcasecmp" ] pub fn strcasecmp ( __s1 : * const :: std :: os :: raw :: c_char , __s2 : * const :: std :: os :: raw :: c_char ) -> :: std :: os :: raw :: c_int ; } extern "C" { # [ link_name = "\u{1}_strncasecmp" ] pub fn strncasecmp ( __s1 : * const :: std :: os :: raw :: c_char , __s2 : * const :: std :: os :: raw :: c_char , __n : usize ) -> :: std :: os :: raw :: c_int ; } extern "C" { # [ link_name = "\u{1}_strcasecmp_l" ] pub fn strcasecmp_l ( __s1 : * const :: std :: os :: raw :: c_char , __s2 : * const :: std :: os :: raw :: c_char , __loc : locale_t ) -> :: std :: os :: raw :: c_int ; } extern "C" { # [ link_name = "\u{1}_strncasecmp_l" ] pub fn strncasecmp_l ( __s1 : * const :: std :: os :: raw :: c_char , __s2 : * const :: std :: os :: raw :: c_char , __n : usize , __loc : locale_t ) -> :: std :: os :: raw :: c_int ; } extern "C" { # [ link_name = "\u{1}_explicit_bzero" ] pub fn explicit_bzero ( __s : * mut :: std :: os :: raw :: c_void , __n : usize ) ; } extern "C" { # [ link_name = "\u{1}_strsep" ] pub fn strsep ( __stringp : * mut * mut :: std :: os :: raw :: c_char , __delim : * const :: std :: os :: raw :: c_char ) -> * mut :: std :: os :: raw :: c_char ; } extern "C" { # [ link_name = "\u{1}_strsignal" ] pub fn strsignal ( __sig : :: std :: os :: raw :: c_int ) -> * mut :: std :: os :: raw :: c_char ; } extern "C" { # [ link_name = "\u{1}___stpcpy" ] pub fn __stpcpy ( __dest : * mut :: std :: os :: raw :: c_char , __src : * const :: std :: os :: raw :: c_char ) -> * mut :: std :: os :: raw :: c_char ; } extern "C" { # [ link_name = "\u{1}_stpcpy" ] pub fn stpcpy ( __dest : * mut :: std :: os :: raw :: c_char , __src : * const :: std :: os :: raw :: c_char ) -> * mut :: std :: os :: raw :: c_char ; } extern "C" { # [ link_name = "\u{1}___stpncpy" ] pub fn __stpncpy ( __dest : * mut :: std :: os :: raw :: c_char , __src : * const :: std :: os :: raw :: c_char , __n : usize ) -> * mut :: std :: os :: raw :: c_char ; } extern "C" { # [ link_name = "\u{1}_stpncpy" ] pub fn stpncpy ( __dest : * mut :: std :: os :: raw :: c_char , __src : * const :: std :: os :: raw :: c_char , __n : usize ) -> * mut :: std :: os :: raw :: c_char ; } extern "C" { # [ link_name = "\u{1}_strverscmp" ] pub fn strverscmp ( __s1 : * const :: std :: os :: raw :: c_char , __s2 : * const :: std :: os :: raw :: c_char ) -> :: std :: os :: raw :: c_int ; } extern "C" { # [ link_name = "\u{1}_strfry" ] pub fn strfry ( __string : * mut :: std :: os :: raw :: c_char ) -> * mut :: std :: os :: raw :: c_char ; } extern "C" { # [ link_name = "\u{1}_memfrob" ] pub fn memfrob ( __s : * mut :: std :: os :: raw :: c_void , __n : usize ) -> * mut :: std :: os :: raw :: c_void ; } extern "C" { # [ link_name = "\u{1}_basename" ] pub fn basename ( __filename : * const :: std :: os :: raw :: c_char ) -> * mut :: std :: os :: raw :: c_char ; } pub const DEFAULT_MAX_SIZE : _bindgen_ty_5 = 4096 ; pub type _bindgen_ty_5 = u32 ; # [ repr ( C ) ] # [ derive ( Debug , Copy , Clone ) ] pub struct array_container_s { pub cardinality : i32 , pub capacity : i32 , pub array : * mut u16 , } # [ test ] fn bindgen_test_layout_array_container_s ( ) { assert_eq ! ( :: std :: mem :: size_of :: < array_container_s > ( ) , 16usize , concat ! ( "Size of: " , stringify ! ( array_container_s ) ) ) ; assert_eq ! ( :: std :: mem :: align_of :: < array_container_s > ( ) , 8usize , concat ! ( "Alignment of " , stringify ! ( array_container_s ) ) ) ; assert_eq ! ( unsafe { & ( * ( :: std :: ptr :: null :: < array_container_s > ( ) ) ) . cardinality as * const _ as usize } , 0usize , concat ! ( "Offset of field: " , stringify ! ( array_container_s ) , "::" , stringify ! ( cardinality ) ) ) ; assert_eq ! ( unsafe { & ( * ( :: std :: ptr :: null :: < array_container_s > ( ) ) ) . capacity as * const _ as usize } , 4usize , concat ! ( "Offset of field: " , stringify ! ( array_container_s ) , "::" , stringify ! ( capacity ) ) ) ; assert_eq ! ( unsafe { & ( * ( :: std :: ptr :: null :: < array_container_s > ( ) ) ) . array as * const _ as usize } , 8usize , concat ! ( "Offset of field: " , stringify ! ( array_container_s ) , "::" , stringify ! ( array ) ) ) ; } pub type array_container_t = array_container_s ; extern "C" { # [ link_name = "\u{1}_array_container_create" ] pub fn array_container_create ( ) -> * mut array_container_t ; } extern "C" { # [ link_name = "\u{1}_array_container_create_given_capacity" ] pub fn array_container_create_given_capacity ( size : i32 ) -> * mut array_container_t ; } extern "C" { # [ link_name = "\u{1}_array_container_create_range" ] pub fn array_container_create_range ( min : u32 , max : u32 ) -> * mut array_container_t ; } extern "C" { # [ link_name = "\u{1}_array_container_shrink_to_fit" ] pub fn array_container_shrink_to_fit ( src : * mut array_container_t ) -> :: std :: os :: raw :: c_int ; } extern "C" { # [ link_name = "\u{1}_array_container_free" ] pub fn array_container_free ( array : * mut array_container_t ) ; } extern "C" { # [ link_name = "\u{1}_array_container_clone" ] pub fn array_container_clone ( src : * const array_container_t ) -> * mut array_container_t ; } extern "C" { # [ link_name = "\u{1}_array_container_serialize" ] pub fn array_container_serialize ( container : * const array_container_t , buf : * mut :: std :: os :: raw :: c_char ) -> i32 ; } extern "C" { # [ link_name = "\u{1}_array_container_serialization_len" ] pub fn array_container_serialization_len ( container : * const array_container_t ) -> u32 ; } extern "C" { # [ link_name = "\u{1}_array_container_deserialize" ] pub fn array_container_deserialize ( buf : * const :: std :: os :: raw :: c_char , buf_len : usize ) -> * mut :: std :: os :: raw :: c_void ; } extern "C" { # [ link_name = "\u{1}_array_container_copy" ] pub fn array_container_copy ( src : * const array_container_t , dst : * mut array_container_t ) ; } extern "C" { # [ link_name = "\u{1}_array_container_add_from_range" ] pub fn array_container_add_from_range ( arr : * mut array_container_t , min : u32 , max : u32 , step : u16 ) ; } extern "C" { # [ link_name = "\u{1}_array_container_union" ] pub fn array_container_union ( src_1 : * const array_container_t , src_2 : * const array_container_t , dst : * mut array_container_t ) ; } extern "C" { # [ link_name = "\u{1}_array_container_xor" ] pub fn array_container_xor ( array_1 : * const array_container_t , array_2 : * const array_container_t , out : * mut array_container_t ) ; } extern "C" { # [ link_name = "\u{1}_array_container_intersection" ] pub fn array_container_intersection ( src_1 : * const array_container_t , src_2 : * const array_container_t , dst : * mut array_container_t ) ; } extern "C" { # [ link_name = "\u{1}_array_container_intersect" ] pub fn array_container_intersect ( src_1 : * const array_container_t , src_2 : * const array_container_t ) -> bool ; } extern "C" { # [ link_name = "\u{1}_array_container_intersection_cardinality" ] pub fn array_container_intersection_cardinality ( src_1 : * const array_container_t , src_2 : * const array_container_t ) -> :: std :: os :: raw :: c_int ; } extern "C" { # [ link_name = "\u{1}_array_container_intersection_inplace" ] pub fn array_container_intersection_inplace ( src_1 : * mut array_container_t , src_2 : * const array_container_t ) ; } extern "C" { # [ link_name = "\u{1}_array_container_to_uint32_array" ] pub fn array_container_to_uint32_array ( vout : * mut :: std :: os :: raw :: c_void , cont : * const array_container_t , base : u32 ) -> :: std :: os :: raw :: c_int ; } extern "C" { # [ link_name = "\u{1}_array_container_number_of_runs" ] pub fn array_container_number_of_runs ( a : * const array_container_t ) -> i32 ; } extern "C" { # [ link_name = "\u{1}_array_container_printf" ] pub fn array_container_printf ( v : * const array_container_t ) ; } extern "C" { # [ link_name = "\u{1}_array_container_printf_as_uint32_array" ] pub fn array_container_printf_as_uint32_array ( v : * const array_container_t , base : u32 ) ; } extern "C" { 
 /// Increase capacity to at least min.
/// Whether the existing data needs to be copied over depends on the "preserve"
/// parameter. If preserve is false, then the new content will be uninitialized,
/// otherwise the old content is copied. 
 # [ link_name = "\u{1}_array_container_grow" ] pub fn array_container_grow ( container : * mut array_container_t , min : i32 , preserve : bool ) ; } extern "C" { # [ link_name = "\u{1}_array_container_iterate" ] pub fn array_container_iterate ( cont : * const array_container_t , base : u32 , iterator : roaring_iterator , ptr : * mut :: std :: os :: raw :: c_void ) -> bool ; } extern "C" { # [ link_name = "\u{1}_array_container_iterate64" ] pub fn array_container_iterate64 ( cont : * const array_container_t , base : u32 , iterator : roaring_iterator64 , high_bits : u64 , ptr : * mut :: std :: os :: raw :: c_void ) -> bool ; } extern "C" { 
 /// Writes the underlying array to buf, outputs how many bytes were written.
/// This is meant to be byte-by-byte compatible with the Java and Go versions of
/// Roaring.
/// The number of bytes written should be
/// array_container_size_in_bytes(container).
/// 
 # [ link_name = "\u{1}_array_container_write" ] pub fn array_container_write ( container : * const array_container_t , buf : * mut :: std :: os :: raw :: c_char ) -> i32 ; } extern "C" { 
 /// Reads the instance from buf, outputs how many bytes were read.
/// This is meant to be byte-by-byte compatible with the Java and Go versions of
/// Roaring.
/// The number of bytes read should be array_container_size_in_bytes(container).
/// You need to provide the (known) cardinality. 
 # [ link_name = "\u{1}_array_container_read" ] pub fn array_container_read ( cardinality : i32 , container : * mut array_container_t , buf : * const :: std :: os :: raw :: c_char ) -> i32 ; } extern "C" { 
 /// Return true if container1 is a subset of container2. 
 # [ link_name = "\u{1}_array_container_is_subset" ] pub fn array_container_is_subset ( container1 : * const array_container_t , container2 : * const array_container_t ) -> bool ; } extern "C" { # [ link_name = "\u{1}_array_container_andnot" ] pub fn array_container_andnot ( array_1 : * const array_container_t , array_2 : * const array_container_t , out : * mut array_container_t ) ; } extern "C" { # [ link_name = "\u{1}_array_container_contains" ] pub fn array_container_contains ( arr : * const array_container_t , pos : u16 ) -> bool ; } extern "C" { # [ link_name = "\u{1}_array_container_minimum" ] pub fn array_container_minimum ( arr : * const array_container_t ) -> u16 ; } extern "C" { # [ link_name = "\u{1}_array_container_maximum" ] pub fn array_container_maximum ( arr : * const array_container_t ) -> u16 ; } extern "C" { # [ link_name = "\u{1}_array_container_rank" ] pub fn array_container_rank ( arr : * const array_container_t , x : u16 ) -> :: std :: os :: raw :: c_int ; } extern "C" { # [ link_name = "\u{1}_array_container_index_equalorlarger" ] pub fn array_container_index_equalorlarger ( arr : * const array_container_t , x : u16 ) -> :: std :: os :: raw :: c_int ; } pub const BITSET_CONTAINER_SIZE_IN_WORDS : _bindgen_ty_6 = 1024 ; pub const BITSET_UNKNOWN_CARDINALITY : _bindgen_ty_6 = -1 ; pub type _bindgen_ty_6 = i32 ; # [ repr ( C ) ] # [ derive ( Debug , Copy , Clone ) ] pub struct bitset_container_s { pub cardinality : i32 , pub array : * mut u64 , } # [ test ] fn bindgen_test_layout_bitset_container_s ( ) { assert_eq ! ( :: std :: mem :: size_of :: < bitset_container_s > ( ) , 16usize , concat ! ( "Size of: " , stringify ! ( bitset_container_s ) ) ) ; assert_eq ! ( :: std :: mem :: align_of :: < bitset_container_s > ( ) , 8usize , concat ! ( "Alignment of " , stringify ! ( bitset_container_s ) ) ) ; assert_eq ! ( unsafe { & ( * ( :: std :: ptr :: null :: < bitset_container_s > ( ) ) ) . cardinality as * const _ as usize } , 0usize , concat ! ( "Offset of field: " , stringify ! ( bitset_container_s ) , "::" , stringify ! ( cardinality ) ) ) ; assert_eq ! ( unsafe { & ( * ( :: std :: ptr :: null :: < bitset_container_s > ( ) ) ) . array as * const _ as usize } , 8usize , concat ! ( "Offset of field: " , stringify ! ( bitset_container_s ) , "::" , stringify ! ( array ) ) ) ; } pub type bitset_container_t = bitset_container_s ; extern "C" { # [ link_name = "\u{1}_bitset_container_create" ] pub fn bitset_container_create ( ) -> * mut bitset_container_t ; } extern "C" { # [ link_name = "\u{1}_bitset_container_free" ] pub fn bitset_container_free ( bitset : * mut bitset_container_t ) ; } extern "C" { # [ link_name = "\u{1}_bitset_container_clear" ] pub fn bitset_container_clear ( bitset : * mut bitset_container_t ) ; } extern "C" { # [ link_name = "\u{1}_bitset_container_set_all" ] pub fn bitset_container_set_all ( bitset : * mut bitset_container_t ) ; } extern "C" { # [ link_name = "\u{1}_bitset_container_clone" ] pub fn bitset_container_clone ( src : * const bitset_container_t ) -> * mut bitset_container_t ; } extern "C" { # [ link_name = "\u{1}_bitset_container_serialize" ] pub fn bitset_container_serialize ( container : * const bitset_container_t , buf : * mut :: std :: os :: raw :: c_char ) -> i32 ; } extern "C" { # [ link_name = "\u{1}_bitset_container_serialization_len" ] pub fn bitset_container_serialization_len ( ) -> u32 ; } extern "C" { # [ link_name = "\u{1}_bitset_container_deserialize" ] pub fn bitset_container_deserialize ( buf : * const :: std :: os :: raw :: c_char , buf_len : usize ) -> * mut :: std :: os :: raw :: c_void ; } extern "C" { # [ link_name = "\u{1}_bitset_container_set_range" ] pub fn bitset_container_set_range ( bitset : * mut bitset_container_t , begin : u32 , end : u32 ) ; } extern "C" { # [ link_name = "\u{1}_bitset_container_get" ] pub fn bitset_container_get ( bitset : * const bitset_container_t , pos : u16 ) -> bool ; } extern "C" { # [ link_name = "\u{1}_bitset_container_contains" ] pub fn bitset_container_contains ( bitset : * const bitset_container_t , pos : u16 ) -> bool ; } extern "C" { # [ link_name = "\u{1}_bitset_container_copy" ] pub fn bitset_container_copy ( source : * const bitset_container_t , dest : * mut bitset_container_t ) ; } extern "C" { # [ link_name = "\u{1}_bitset_container_add_from_range" ] pub fn bitset_container_add_from_range ( bitset : * mut bitset_container_t , min : u32 , max : u32 , step : u16 ) ; } extern "C" { # [ link_name = "\u{1}_bitset_container_compute_cardinality" ] pub fn bitset_container_compute_cardinality ( bitset : * const bitset_container_t ) -> :: std :: os :: raw :: c_int ; } extern "C" { # [ link_name = "\u{1}_bitset_container_intersect" ] pub fn bitset_container_intersect ( src_1 : * const bitset_container_t , src_2 : * const bitset_container_t ) -> bool ; } extern "C" { # [ link_name = "\u{1}_bitset_container_or" ] pub fn bitset_container_or ( src_1 : * const bitset_container_t , src_2 : * const bitset_container_t , dst : * mut bitset_container_t ) -> :: std :: os :: raw :: c_int ; } extern "C" { # [ link_name = "\u{1}_bitset_container_or_justcard" ] pub fn bitset_container_or_justcard ( src_1 : * const bitset_container_t , src_2 : * const bitset_container_t ) -> :: std :: os :: raw :: c_int ; } extern "C" { # [ link_name = "\u{1}_bitset_container_union" ] pub fn bitset_container_union ( src_1 : * const bitset_container_t , src_2 : * const bitset_container_t , dst : * mut bitset_container_t ) -> :: std :: os :: raw :: c_int ; } extern "C" { # [ link_name = "\u{1}_bitset_container_union_justcard" ] pub fn bitset_container_union_justcard ( src_1 : * const bitset_container_t , src_2 : * const bitset_container_t ) -> :: std :: os :: raw :: c_int ; } extern "C" { # [ link_name = "\u{1}_bitset_container_or_nocard" ] pub fn bitset_container_or_nocard ( src_1 : * const bitset_container_t , src_2 : * const bitset_container_t , dst : * mut bitset_container_t ) -> :: std :: os :: raw :: c_int ; } extern "C" { # [ link_name = "\u{1}_bitset_container_and" ] pub fn bitset_container_and ( src_1 : * const bitset_container_t , src_2 : * const bitset_container_t , dst : * mut bitset_container_t ) -> :: std :: os :: raw :: c_int ; } extern "C" { # [ link_name = "\u{1}_bitset_container_and_justcard" ] pub fn bitset_container_and_justcard ( src_1 : * const bitset_container_t , src_2 : * const bitset_container_t ) -> :: std :: os :: raw :: c_int ; } extern "C" { # [ link_name = "\u{1}_bitset_container_intersection" ] pub fn bitset_container_intersection ( src_1 : * const bitset_container_t , src_2 : * const bitset_container_t , dst : * mut bitset_container_t ) -> :: std :: os :: raw :: c_int ; } extern "C" { # [ link_name = "\u{1}_bitset_container_intersection_justcard" ] pub fn bitset_container_intersection_justcard ( src_1 : * const bitset_container_t , src_2 : * const bitset_container_t ) -> :: std :: os :: raw :: c_int ; } extern "C" { # [ link_name = "\u{1}_bitset_container_and_nocard" ] pub fn bitset_container_and_nocard ( src_1 : * const bitset_container_t , src_2 : * const bitset_container_t , dst : * mut bitset_container_t ) -> :: std :: os :: raw :: c_int ; } extern "C" { # [ link_name = "\u{1}_bitset_container_xor" ] pub fn bitset_container_xor ( src_1 : * const bitset_container_t , src_2 : * const bitset_container_t , dst : * mut bitset_container_t ) -> :: std :: os :: raw :: c_int ; } extern "C" { # [ link_name = "\u{1}_bitset_container_xor_justcard" ] pub fn bitset_container_xor_justcard ( src_1 : * const bitset_container_t , src_2 : * const bitset_container_t ) -> :: std :: os :: raw :: c_int ; } extern "C" { # [ link_name = "\u{1}_bitset_container_xor_nocard" ] pub fn bitset_container_xor_nocard ( src_1 : * const bitset_container_t , src_2 : * const bitset_container_t , dst : * mut bitset_container_t ) -> :: std :: os :: raw :: c_int ; } extern "C" { # [ link_name = "\u{1}_bitset_container_andnot" ] pub fn bitset_container_andnot ( src_1 : * const bitset_container_t , src_2 : * const bitset_container_t , dst : * mut bitset_container_t ) -> :: std :: os :: raw :: c_int ; } extern "C" { # [ link_name = "\u{1}_bitset_container_andnot_justcard" ] pub fn bitset_container_andnot_justcard ( src_1 : * const bitset_container_t , src_2 : * const bitset_container_t ) -> :: std :: os :: raw :: c_int ; } extern "C" { # [ link_name = "\u{1}_bitset_container_andnot_nocard" ] pub fn bitset_container_andnot_nocard ( src_1 : * const bitset_container_t , src_2 : * const bitset_container_t , dst : * mut bitset_container_t ) -> :: std :: os :: raw :: c_int ; } extern "C" { # [ link_name = "\u{1}_bitset_container_to_uint32_array" ] pub fn bitset_container_to_uint32_array ( out : * mut :: std :: os :: raw :: c_void , cont : * const bitset_container_t , base : u32 ) -> :: std :: os :: raw :: c_int ; } extern "C" { # [ link_name = "\u{1}_bitset_container_printf" ] pub fn bitset_container_printf ( v : * const bitset_container_t ) ; } extern "C" { # [ link_name = "\u{1}_bitset_container_printf_as_uint32_array" ] pub fn bitset_container_printf_as_uint32_array ( v : * const bitset_container_t , base : u32 ) ; } extern "C" { 
 /// Return the the number of runs. 
 # [ link_name = "\u{1}_bitset_container_number_of_runs" ] pub fn bitset_container_number_of_runs ( b : * mut bitset_container_t ) -> :: std :: os :: raw :: c_int ; } extern "C" { # [ link_name = "\u{1}_bitset_container_iterate" ] pub fn bitset_container_iterate ( cont : * const bitset_container_t , base : u32 , iterator : roaring_iterator , ptr : * mut :: std :: os :: raw :: c_void ) -> bool ; } extern "C" { # [ link_name = "\u{1}_bitset_container_iterate64" ] pub fn bitset_container_iterate64 ( cont : * const bitset_container_t , base : u32 , iterator : roaring_iterator64 , high_bits : u64 , ptr : * mut :: std :: os :: raw :: c_void ) -> bool ; } extern "C" { 
 /// Writes the underlying array to buf, outputs how many bytes were written.
/// This is meant to be byte-by-byte compatible with the Java and Go versions of
/// Roaring.
/// The number of bytes written should be
/// bitset_container_size_in_bytes(container). 
 # [ link_name = "\u{1}_bitset_container_write" ] pub fn bitset_container_write ( container : * const bitset_container_t , buf : * mut :: std :: os :: raw :: c_char ) -> i32 ; } extern "C" { 
 /// Reads the instance from buf, outputs how many bytes were read.
/// This is meant to be byte-by-byte compatible with the Java and Go versions of
/// Roaring.
/// The number of bytes read should be bitset_container_size_in_bytes(container).
/// You need to provide the (known) cardinality. 
 # [ link_name = "\u{1}_bitset_container_read" ] pub fn bitset_container_read ( cardinality : i32 , container : * mut bitset_container_t , buf : * const :: std :: os :: raw :: c_char ) -> i32 ; } extern "C" { 
 /// Return true if the two containers have the same content. 
 # [ link_name = "\u{1}_bitset_container_equals" ] pub fn bitset_container_equals ( container1 : * const bitset_container_t , container2 : * const bitset_container_t ) -> bool ; } extern "C" { 
 /// Return true if container1 is a subset of container2. 
 # [ link_name = "\u{1}_bitset_container_is_subset" ] pub fn bitset_container_is_subset ( container1 : * const bitset_container_t , container2 : * const bitset_container_t ) -> bool ; } extern "C" { 
 /// If the element of given rank is in this container, supposing that the first
/// element has rank start_rank, then the function returns true and sets element
/// accordingly.
/// Otherwise, it returns false and update start_rank. 
 # [ link_name = "\u{1}_bitset_container_select" ] pub fn bitset_container_select ( container : * const bitset_container_t , start_rank : * mut u32 , rank : u32 , element : * mut u32 ) -> bool ; } extern "C" { # [ link_name = "\u{1}_bitset_container_minimum" ] pub fn bitset_container_minimum ( container : * const bitset_container_t ) -> u16 ; } extern "C" { # [ link_name = "\u{1}_bitset_container_maximum" ] pub fn bitset_container_maximum ( container : * const bitset_container_t ) -> u16 ; } extern "C" { # [ link_name = "\u{1}_bitset_container_rank" ] pub fn bitset_container_rank ( container : * const bitset_container_t , x : u16 ) -> :: std :: os :: raw :: c_int ; } extern "C" { # [ link_name = "\u{1}_bitset_container_index_equalorlarger" ] pub fn bitset_container_index_equalorlarger ( container : * const bitset_container_t , x : u16 ) -> :: std :: os :: raw :: c_int ; } extern "C" { # [ link_name = "\u{1}___assert_fail" ] pub fn __assert_fail ( __assertion : * const :: std :: os :: raw :: c_char , __file : * const :: std :: os :: raw :: c_char , __line : :: std :: os :: raw :: c_uint , __function : * const :: std :: os :: raw :: c_char ) ; } extern "C" { # [ link_name = "\u{1}___assert_perror_fail" ] pub fn __assert_perror_fail ( __errnum : :: std :: os :: raw :: c_int , __file : * const :: std :: os :: raw :: c_char , __line : :: std :: os :: raw :: c_uint , __function : * const :: std :: os :: raw :: c_char ) ; } extern "C" { # [ link_name = "\u{1}___assert" ] pub fn __assert ( __assertion : * const :: std :: os :: raw :: c_char , __file : * const :: std :: os :: raw :: c_char , __line : :: std :: os :: raw :: c_int ) ; } # [ repr ( C ) ] # [ derive ( Debug , Copy , Clone ) ] pub struct rle16_s { pub value : u16 , pub length : u16 , } # [ test ] fn bindgen_test_layout_rle16_s ( ) { assert_eq ! ( :: std :: mem :: size_of :: < rle16_s > ( ) , 4usize , concat ! ( "Size of: " , stringify ! ( rle16_s ) ) ) ; assert_eq ! ( :: std :: mem :: align_of :: < rle16_s > ( ) , 2usize , concat ! ( "Alignment of " , stringify ! ( rle16_s ) ) ) ; assert_eq ! ( unsafe { & ( * ( :: std :: ptr :: null :: < rle16_s > ( ) ) ) . value as * const _ as usize } , 0usize , concat ! ( "Offset of field: " , stringify ! ( rle16_s ) , "::" , stringify ! ( value ) ) ) ; assert_eq ! ( unsafe { & ( * ( :: std :: ptr :: null :: < rle16_s > ( ) ) ) . length as * const _ as usize } , 2usize , concat ! ( "Offset of field: " , stringify ! ( rle16_s ) , "::" , stringify ! ( length ) ) ) ; } pub type rle16_t = rle16_s ; # [ repr ( C ) ] # [ derive ( Debug , Copy , Clone ) ] pub struct run_container_s { pub n_runs : i32 , pub capacity : i32 , pub runs : * mut rle16_t , } # [ test ] fn bindgen_test_layout_run_container_s ( ) { assert_eq ! ( :: std :: mem :: size_of :: < run_container_s > ( ) , 16usize , concat ! ( "Size of: " , stringify ! ( run_container_s ) ) ) ; assert_eq ! ( :: std :: mem :: align_of :: < run_container_s > ( ) , 8usize , concat ! ( "Alignment of " , stringify ! ( run_container_s ) ) ) ; assert_eq ! ( unsafe { & ( * ( :: std :: ptr :: null :: < run_container_s > ( ) ) ) . n_runs as * const _ as usize } , 0usize , concat ! ( "Offset of field: " , stringify ! ( run_container_s ) , "::" , stringify ! ( n_runs ) ) ) ; assert_eq ! ( unsafe { & ( * ( :: std :: ptr :: null :: < run_container_s > ( ) ) ) . capacity as * const _ as usize } , 4usize , concat ! ( "Offset of field: " , stringify ! ( run_container_s ) , "::" , stringify ! ( capacity ) ) ) ; assert_eq ! ( unsafe { & ( * ( :: std :: ptr :: null :: < run_container_s > ( ) ) ) . runs as * const _ as usize } , 8usize , concat ! ( "Offset of field: " , stringify ! ( run_container_s ) , "::" , stringify ! ( runs ) ) ) ; } pub type run_container_t = run_container_s ; extern "C" { # [ link_name = "\u{1}_run_container_create" ] pub fn run_container_create ( ) -> * mut run_container_t ; } extern "C" { # [ link_name = "\u{1}_run_container_create_given_capacity" ] pub fn run_container_create_given_capacity ( size : i32 ) -> * mut run_container_t ; } extern "C" { # [ link_name = "\u{1}_run_container_shrink_to_fit" ] pub fn run_container_shrink_to_fit ( src : * mut run_container_t ) -> :: std :: os :: raw :: c_int ; } extern "C" { # [ link_name = "\u{1}_run_container_free" ] pub fn run_container_free ( run : * mut run_container_t ) ; } extern "C" { # [ link_name = "\u{1}_run_container_clone" ] pub fn run_container_clone ( src : * const run_container_t ) -> * mut run_container_t ; } extern "C" { # [ link_name = "\u{1}_run_container_serialize" ] pub fn run_container_serialize ( container : * const run_container_t , buf : * mut :: std :: os :: raw :: c_char ) -> i32 ; } extern "C" { # [ link_name = "\u{1}_run_container_serialization_len" ] pub fn run_container_serialization_len ( container : * const run_container_t ) -> u32 ; } extern "C" { # [ link_name = "\u{1}_run_container_deserialize" ] pub fn run_container_deserialize ( buf : * const :: std :: os :: raw :: c_char , buf_len : usize ) -> * mut :: std :: os :: raw :: c_void ; } extern "C" { 
 /// Good old binary search through rle data 
 # [ link_name = "\u{1}_interleavedBinarySearch" ] pub fn interleavedBinarySearch ( array : * const rle16_t , lenarray : i32 , ikey : u16 ) -> i32 ; } extern "C" { 
 /// increase capacity to at least min. Whether the
/// existing data needs to be copied over depends on copy. If "copy" is false,
/// then the new content will be uninitialized, otherwise a copy is made. 
 # [ link_name = "\u{1}_run_container_grow" ] pub fn run_container_grow ( run : * mut run_container_t , min : i32 , copy : bool ) ; } extern "C" { # [ link_name = "\u{1}_run_container_add" ] pub fn run_container_add ( run : * mut run_container_t , pos : u16 ) -> bool ; } extern "C" { # [ link_name = "\u{1}_run_container_contains" ] pub fn run_container_contains ( run : * const run_container_t , pos : u16 ) -> bool ; } extern "C" { # [ link_name = "\u{1}_run_container_copy" ] pub fn run_container_copy ( src : * const run_container_t , dst : * mut run_container_t ) ; } extern "C" { # [ link_name = "\u{1}_run_container_union" ] pub fn run_container_union ( src_1 : * const run_container_t , src_2 : * const run_container_t , dst : * mut run_container_t ) ; } extern "C" { # [ link_name = "\u{1}_run_container_union_inplace" ] pub fn run_container_union_inplace ( src_1 : * mut run_container_t , src_2 : * const run_container_t ) ; } extern "C" { # [ link_name = "\u{1}_run_container_intersection" ] pub fn run_container_intersection ( src_1 : * const run_container_t , src_2 : * const run_container_t , dst : * mut run_container_t ) ; } extern "C" { # [ link_name = "\u{1}_run_container_intersection_cardinality" ] pub fn run_container_intersection_cardinality ( src_1 : * const run_container_t , src_2 : * const run_container_t ) -> :: std :: os :: raw :: c_int ; } extern "C" { # [ link_name = "\u{1}_run_container_intersect" ] pub fn run_container_intersect ( src_1 : * const run_container_t , src_2 : * const run_container_t ) -> bool ; } extern "C" { # [ link_name = "\u{1}_run_container_xor" ] pub fn run_container_xor ( src_1 : * const run_container_t , src_2 : * const run_container_t , dst : * mut run_container_t ) ; } extern "C" { # [ link_name = "\u{1}_run_container_to_uint32_array" ] pub fn run_container_to_uint32_array ( vout : * mut :: std :: os :: raw :: c_void , cont : * const run_container_t , base : u32 ) -> :: std :: os :: raw :: c_int ; } extern "C" { # [ link_name = "\u{1}_run_container_printf" ] pub fn run_container_printf ( v : * const run_container_t ) ; } extern "C" { # [ link_name = "\u{1}_run_container_printf_as_uint32_array" ] pub fn run_container_printf_as_uint32_array ( v : * const run_container_t , base : u32 ) ; } extern "C" { # [ link_name = "\u{1}_run_container_iterate" ] pub fn run_container_iterate ( cont : * const run_container_t , base : u32 , iterator : roaring_iterator , ptr : * mut :: std :: os :: raw :: c_void ) -> bool ; } extern "C" { # [ link_name = "\u{1}_run_container_iterate64" ] pub fn run_container_iterate64 ( cont : * const run_container_t , base : u32 , iterator : roaring_iterator64 , high_bits : u64 , ptr : * mut :: std :: os :: raw :: c_void ) -> bool ; } extern "C" { 
 /// Writes the underlying array to buf, outputs how many bytes were written.
/// This is meant to be byte-by-byte compatible with the Java and Go versions of
/// Roaring.
/// The number of bytes written should be run_container_size_in_bytes(container). 
 # [ link_name = "\u{1}_run_container_write" ] pub fn run_container_write ( container : * const run_container_t , buf : * mut :: std :: os :: raw :: c_char ) -> i32 ; } extern "C" { 
 /// Reads the instance from buf, outputs how many bytes were read.
/// This is meant to be byte-by-byte compatible with the Java and Go versions of
/// Roaring.
/// The number of bytes read should be bitset_container_size_in_bytes(container).
/// The cardinality parameter is provided for consistency with other containers,
/// but
/// it might be effectively ignored.. 
 # [ link_name = "\u{1}_run_container_read" ] pub fn run_container_read ( cardinality : i32 , container : * mut run_container_t , buf : * const :: std :: os :: raw :: c_char ) -> i32 ; } extern "C" { 
 /// Return true if container1 is a subset of container2. 
 # [ link_name = "\u{1}_run_container_is_subset" ] pub fn run_container_is_subset ( container1 : * const run_container_t , container2 : * const run_container_t ) -> bool ; } extern "C" { 
 /// Used in a start-finish scan that appends segments, for XOR and NOT 
 # [ link_name = "\u{1}_run_container_smart_append_exclusive" ] pub fn run_container_smart_append_exclusive ( src : * mut run_container_t , start : u16 , length : u16 ) ; } extern "C" { 
 /// If the element of given rank is in this container, supposing that the first
/// element has rank start_rank, then the function returns true and sets element
/// accordingly.
/// Otherwise, it returns false and update start_rank. 
 # [ link_name = "\u{1}_run_container_select" ] pub fn run_container_select ( container : * const run_container_t , start_rank : * mut u32 , rank : u32 , element : * mut u32 ) -> bool ; } extern "C" { # [ link_name = "\u{1}_run_container_andnot" ] pub fn run_container_andnot ( src_1 : * const run_container_t , src_2 : * const run_container_t , dst : * mut run_container_t ) ; } extern "C" { # [ link_name = "\u{1}_run_container_minimum" ] pub fn run_container_minimum ( run : * const run_container_t ) -> u16 ; } extern "C" { # [ link_name = "\u{1}_run_container_maximum" ] pub fn run_container_maximum ( run : * const run_container_t ) -> u16 ; } extern "C" { # [ link_name = "\u{1}_run_container_rank" ] pub fn run_container_rank ( arr : * const run_container_t , x : u16 ) -> :: std :: os :: raw :: c_int ; } extern "C" { # [ link_name = "\u{1}_run_container_index_equalorlarger" ] pub fn run_container_index_equalorlarger ( arr : * const run_container_t , x : u16 ) -> :: std :: os :: raw :: c_int ; } extern "C" { # [ link_name = "\u{1}_bitset_container_from_array" ] pub fn bitset_container_from_array ( arr : * const array_container_t ) -> * mut bitset_container_t ; } extern "C" { # [ link_name = "\u{1}_bitset_container_from_run" ] pub fn bitset_container_from_run ( arr : * const run_container_t ) -> * mut bitset_container_t ; } extern "C" { # [ link_name = "\u{1}_array_container_from_run" ] pub fn array_container_from_run ( arr : * const run_container_t ) -> * mut array_container_t ; } extern "C" { # [ link_name = "\u{1}_array_container_from_bitset" ] pub fn array_container_from_bitset ( bits : * const bitset_container_t ) -> * mut array_container_t ; } extern "C" { # [ link_name = "\u{1}_run_container_from_array" ] pub fn run_container_from_array ( c : * const array_container_t ) -> * mut run_container_t ; } extern "C" { # [ link_name = "\u{1}_convert_to_bitset_or_array_container" ] pub fn convert_to_bitset_or_array_container ( r : * mut run_container_t , card : i32 , resulttype : * mut u8 ) -> * mut :: std :: os :: raw :: c_void ; } extern "C" { # [ link_name = "\u{1}_convert_run_optimize" ] pub fn convert_run_optimize ( c : * mut :: std :: os :: raw :: c_void , typecode_original : u8 , typecode_after : * mut u8 ) -> * mut :: std :: os :: raw :: c_void ; } extern "C" { # [ link_name = "\u{1}_convert_run_to_efficient_container" ] pub fn convert_run_to_efficient_container ( c : * mut run_container_t , typecode_after : * mut u8 ) -> * mut :: std :: os :: raw :: c_void ; } extern "C" { # [ link_name = "\u{1}_convert_run_to_efficient_container_and_free" ] pub fn convert_run_to_efficient_container_and_free ( c : * mut run_container_t , typecode_after : * mut u8 ) -> * mut :: std :: os :: raw :: c_void ; } extern "C" { 
 /// Create new bitset container which is a union of run container and
/// range [min, max]. Caller is responsible for freeing run container. 
 # [ link_name = "\u{1}_bitset_container_from_run_range" ] pub fn bitset_container_from_run_range ( run : * const run_container_t , min : u32 , max : u32 ) -> * mut bitset_container_t ; } extern "C" { 
 /// Return true if the two containers have the same content. 
 # [ link_name = "\u{1}_array_container_equal_bitset" ] pub fn array_container_equal_bitset ( container1 : * const array_container_t , container2 : * const bitset_container_t ) -> bool ; } extern "C" { 
 /// Return true if the two containers have the same content. 
 # [ link_name = "\u{1}_run_container_equals_array" ] pub fn run_container_equals_array ( container1 : * const run_container_t , container2 : * const array_container_t ) -> bool ; } extern "C" { 
 /// Return true if the two containers have the same content. 
 # [ link_name = "\u{1}_run_container_equals_bitset" ] pub fn run_container_equals_bitset ( container1 : * const run_container_t , container2 : * const bitset_container_t ) -> bool ; } extern "C" { 
 /// Return true if container1 is a subset of container2. 
 # [ link_name = "\u{1}_array_container_is_subset_bitset" ] pub fn array_container_is_subset_bitset ( container1 : * const array_container_t , container2 : * const bitset_container_t ) -> bool ; } extern "C" { 
 /// Return true if container1 is a subset of container2. 
 # [ link_name = "\u{1}_run_container_is_subset_array" ] pub fn run_container_is_subset_array ( container1 : * const run_container_t , container2 : * const array_container_t ) -> bool ; } extern "C" { 
 /// Return true if container1 is a subset of container2. 
 # [ link_name = "\u{1}_array_container_is_subset_run" ] pub fn array_container_is_subset_run ( container1 : * const array_container_t , container2 : * const run_container_t ) -> bool ; } extern "C" { 
 /// Return true if container1 is a subset of container2. 
 # [ link_name = "\u{1}_run_container_is_subset_bitset" ] pub fn run_container_is_subset_bitset ( container1 : * const run_container_t , container2 : * const bitset_container_t ) -> bool ; } extern "C" { 
 /// Return true if container1 is a subset of container2. 
 # [ link_name = "\u{1}_bitset_container_is_subset_run" ] pub fn bitset_container_is_subset_run ( container1 : * const bitset_container_t , container2 : * const run_container_t ) -> bool ; } extern "C" { # [ link_name = "\u{1}_array_bitset_container_andnot" ] pub fn array_bitset_container_andnot ( src_1 : * const array_container_t , src_2 : * const bitset_container_t , dst : * mut array_container_t ) ; } extern "C" { # [ link_name = "\u{1}_array_bitset_container_iandnot" ] pub fn array_bitset_container_iandnot ( src_1 : * mut array_container_t , src_2 : * const bitset_container_t ) ; } extern "C" { # [ link_name = "\u{1}_bitset_array_container_andnot" ] pub fn bitset_array_container_andnot ( src_1 : * const bitset_container_t , src_2 : * const array_container_t , dst : * mut * mut :: std :: os :: raw :: c_void ) -> bool ; } extern "C" { # [ link_name = "\u{1}_bitset_array_container_iandnot" ] pub fn bitset_array_container_iandnot ( src_1 : * mut bitset_container_t , src_2 : * const array_container_t , dst : * mut * mut :: std :: os :: raw :: c_void ) -> bool ; } extern "C" { # [ link_name = "\u{1}_run_bitset_container_andnot" ] pub fn run_bitset_container_andnot ( src_1 : * const run_container_t , src_2 : * const bitset_container_t , dst : * mut * mut :: std :: os :: raw :: c_void ) -> bool ; } extern "C" { # [ link_name = "\u{1}_run_bitset_container_iandnot" ] pub fn run_bitset_container_iandnot ( src_1 : * mut run_container_t , src_2 : * const bitset_container_t , dst : * mut * mut :: std :: os :: raw :: c_void ) -> bool ; } extern "C" { # [ link_name = "\u{1}_bitset_run_container_andnot" ] pub fn bitset_run_container_andnot ( src_1 : * const bitset_container_t , src_2 : * const run_container_t , dst : * mut * mut :: std :: os :: raw :: c_void ) -> bool ; } extern "C" { # [ link_name = "\u{1}_bitset_run_container_iandnot" ] pub fn bitset_run_container_iandnot ( src_1 : * mut bitset_container_t , src_2 : * const run_container_t , dst : * mut * mut :: std :: os :: raw :: c_void ) -> bool ; } extern "C" { # [ link_name = "\u{1}_run_array_container_andnot" ] pub fn run_array_container_andnot ( src_1 : * const run_container_t , src_2 : * const array_container_t , dst : * mut * mut :: std :: os :: raw :: c_void ) -> :: std :: os :: raw :: c_int ; } extern "C" { # [ link_name = "\u{1}_run_array_container_iandnot" ] pub fn run_array_container_iandnot ( src_1 : * mut run_container_t , src_2 : * const array_container_t , dst : * mut * mut :: std :: os :: raw :: c_void ) -> :: std :: os :: raw :: c_int ; } extern "C" { # [ link_name = "\u{1}_array_run_container_andnot" ] pub fn array_run_container_andnot ( src_1 : * const array_container_t , src_2 : * const run_container_t , dst : * mut array_container_t ) ; } extern "C" { # [ link_name = "\u{1}_array_run_container_iandnot" ] pub fn array_run_container_iandnot ( src_1 : * mut array_container_t , src_2 : * const run_container_t ) ; } extern "C" { # [ link_name = "\u{1}_run_run_container_andnot" ] pub fn run_run_container_andnot ( src_1 : * const run_container_t , src_2 : * const run_container_t , dst : * mut * mut :: std :: os :: raw :: c_void ) -> :: std :: os :: raw :: c_int ; } extern "C" { # [ link_name = "\u{1}_run_run_container_iandnot" ] pub fn run_run_container_iandnot ( src_1 : * mut run_container_t , src_2 : * const run_container_t , dst : * mut * mut :: std :: os :: raw :: c_void ) -> :: std :: os :: raw :: c_int ; } extern "C" { # [ link_name = "\u{1}_array_array_container_andnot" ] pub fn array_array_container_andnot ( src_1 : * const array_container_t , src_2 : * const array_container_t , dst : * mut array_container_t ) ; } extern "C" { # [ link_name = "\u{1}_array_array_container_iandnot" ] pub fn array_array_container_iandnot ( src_1 : * mut array_container_t , src_2 : * const array_container_t ) ; } extern "C" { # [ link_name = "\u{1}_bitset_bitset_container_andnot" ] pub fn bitset_bitset_container_andnot ( src_1 : * const bitset_container_t , src_2 : * const bitset_container_t , dst : * mut * mut :: std :: os :: raw :: c_void ) -> bool ; } extern "C" { # [ link_name = "\u{1}_bitset_bitset_container_iandnot" ] pub fn bitset_bitset_container_iandnot ( src_1 : * mut bitset_container_t , src_2 : * const bitset_container_t , dst : * mut * mut :: std :: os :: raw :: c_void ) -> bool ; } extern "C" { # [ link_name = "\u{1}_array_bitset_container_intersection" ] pub fn array_bitset_container_intersection ( src_1 : * const array_container_t , src_2 : * const bitset_container_t , dst : * mut array_container_t ) ; } extern "C" { # [ link_name = "\u{1}_array_bitset_container_intersection_cardinality" ] pub fn array_bitset_container_intersection_cardinality ( src_1 : * const array_container_t , src_2 : * const bitset_container_t ) -> :: std :: os :: raw :: c_int ; } extern "C" { # [ link_name = "\u{1}_array_bitset_container_intersect" ] pub fn array_bitset_container_intersect ( src_1 : * const array_container_t , src_2 : * const bitset_container_t ) -> bool ; } extern "C" { # [ link_name = "\u{1}_bitset_bitset_container_intersection" ] pub fn bitset_bitset_container_intersection ( src_1 : * const bitset_container_t , src_2 : * const bitset_container_t , dst : * mut * mut :: std :: os :: raw :: c_void ) -> bool ; } extern "C" { # [ link_name = "\u{1}_array_run_container_intersection" ] pub fn array_run_container_intersection ( src_1 : * const array_container_t , src_2 : * const run_container_t , dst : * mut array_container_t ) ; } extern "C" { # [ link_name = "\u{1}_run_bitset_container_intersection" ] pub fn run_bitset_container_intersection ( src_1 : * const run_container_t , src_2 : * const bitset_container_t , dst : * mut * mut :: std :: os :: raw :: c_void ) -> bool ; } extern "C" { # [ link_name = "\u{1}_array_run_container_intersection_cardinality" ] pub fn array_run_container_intersection_cardinality ( src_1 : * const array_container_t , src_2 : * const run_container_t ) -> :: std :: os :: raw :: c_int ; } extern "C" { # [ link_name = "\u{1}_run_bitset_container_intersection_cardinality" ] pub fn run_bitset_container_intersection_cardinality ( src_1 : * const run_container_t , src_2 : * const bitset_container_t ) -> :: std :: os :: raw :: c_int ; } extern "C" { # [ link_name = "\u{1}_array_run_container_intersect" ] pub fn array_run_container_intersect ( src_1 : * const array_container_t , src_2 : * const run_container_t ) -> bool ; } extern "C" { # [ link_name = "\u{1}_run_bitset_container_intersect" ] pub fn run_bitset_container_intersect ( src_1 : * const run_container_t , src_2 : * const bitset_container_t ) -> bool ; } extern "C" { # [ link_name = "\u{1}_bitset_bitset_container_intersection_inplace" ] pub fn bitset_bitset_container_intersection_inplace ( src_1 : * mut bitset_container_t , src_2 : * const bitset_container_t , dst : * mut * mut :: std :: os :: raw :: c_void ) -> bool ; } extern "C" { # [ link_name = "\u{1}_array_container_negation" ] pub fn array_container_negation ( src : * const array_container_t , dst : * mut bitset_container_t ) ; } extern "C" { # [ link_name = "\u{1}_bitset_container_negation" ] pub fn bitset_container_negation ( src : * const bitset_container_t , dst : * mut * mut :: std :: os :: raw :: c_void ) -> bool ; } extern "C" { # [ link_name = "\u{1}_bitset_container_negation_inplace" ] pub fn bitset_container_negation_inplace ( src : * mut bitset_container_t , dst : * mut * mut :: std :: os :: raw :: c_void ) -> bool ; } extern "C" { # [ link_name = "\u{1}_run_container_negation" ] pub fn run_container_negation ( src : * const run_container_t , dst : * mut * mut :: std :: os :: raw :: c_void ) -> :: std :: os :: raw :: c_int ; } extern "C" { # [ link_name = "\u{1}_run_container_negation_inplace" ] pub fn run_container_negation_inplace ( src : * mut run_container_t , dst : * mut * mut :: std :: os :: raw :: c_void ) -> :: std :: os :: raw :: c_int ; } extern "C" { # [ link_name = "\u{1}_array_container_negation_range" ] pub fn array_container_negation_range ( src : * const array_container_t , range_start : :: std :: os :: raw :: c_int , range_end : :: std :: os :: raw :: c_int , dst : * mut * mut :: std :: os :: raw :: c_void ) -> bool ; } extern "C" { # [ link_name = "\u{1}_array_container_negation_range_inplace" ] pub fn array_container_negation_range_inplace ( src : * mut array_container_t , range_start : :: std :: os :: raw :: c_int , range_end : :: std :: os :: raw :: c_int , dst : * mut * mut :: std :: os :: raw :: c_void ) -> bool ; } extern "C" { # [ link_name = "\u{1}_bitset_container_negation_range" ] pub fn bitset_container_negation_range ( src : * const bitset_container_t , range_start : :: std :: os :: raw :: c_int , range_end : :: std :: os :: raw :: c_int , dst : * mut * mut :: std :: os :: raw :: c_void ) -> bool ; } extern "C" { # [ link_name = "\u{1}_bitset_container_negation_range_inplace" ] pub fn bitset_container_negation_range_inplace ( src : * mut bitset_container_t , range_start : :: std :: os :: raw :: c_int , range_end : :: std :: os :: raw :: c_int , dst : * mut * mut :: std :: os :: raw :: c_void ) -> bool ; } extern "C" { # [ link_name = "\u{1}_run_container_negation_range" ] pub fn run_container_negation_range ( src : * const run_container_t , range_start : :: std :: os :: raw :: c_int , range_end : :: std :: os :: raw :: c_int , dst : * mut * mut :: std :: os :: raw :: c_void ) -> :: std :: os :: raw :: c_int ; } extern "C" { # [ link_name = "\u{1}_run_container_negation_range_inplace" ] pub fn run_container_negation_range_inplace ( src : * mut run_container_t , range_start : :: std :: os :: raw :: c_int , range_end : :: std :: os :: raw :: c_int , dst : * mut * mut :: std :: os :: raw :: c_void ) -> :: std :: os :: raw :: c_int ; } extern "C" { # [ link_name = "\u{1}_array_bitset_container_union" ] pub fn array_bitset_container_union ( src_1 : * const array_container_t , src_2 : * const bitset_container_t , dst : * mut bitset_container_t ) ; } extern "C" { # [ link_name = "\u{1}_array_bitset_container_lazy_union" ] pub fn array_bitset_container_lazy_union ( src_1 : * const array_container_t , src_2 : * const bitset_container_t , dst : * mut bitset_container_t ) ; } extern "C" { # [ link_name = "\u{1}_array_array_container_union" ] pub fn array_array_container_union ( src_1 : * const array_container_t , src_2 : * const array_container_t , dst : * mut * mut :: std :: os :: raw :: c_void ) -> bool ; } extern "C" { # [ link_name = "\u{1}_array_array_container_inplace_union" ] pub fn array_array_container_inplace_union ( src_1 : * mut array_container_t , src_2 : * const array_container_t , dst : * mut * mut :: std :: os :: raw :: c_void ) -> bool ; } extern "C" { # [ link_name = "\u{1}_array_array_container_lazy_union" ] pub fn array_array_container_lazy_union ( src_1 : * const array_container_t , src_2 : * const array_container_t , dst : * mut * mut :: std :: os :: raw :: c_void ) -> bool ; } extern "C" { # [ link_name = "\u{1}_array_array_container_lazy_inplace_union" ] pub fn array_array_container_lazy_inplace_union ( src_1 : * mut array_container_t , src_2 : * const array_container_t , dst : * mut * mut :: std :: os :: raw :: c_void ) -> bool ; } extern "C" { # [ link_name = "\u{1}_array_run_container_union" ] pub fn array_run_container_union ( src_1 : * const array_container_t , src_2 : * const run_container_t , dst : * mut run_container_t ) ; } extern "C" { # [ link_name = "\u{1}_array_run_container_inplace_union" ] pub fn array_run_container_inplace_union ( src_1 : * const array_container_t , src_2 : * mut run_container_t ) ; } extern "C" { # [ link_name = "\u{1}_run_bitset_container_union" ] pub fn run_bitset_container_union ( src_1 : * const run_container_t , src_2 : * const bitset_container_t , dst : * mut bitset_container_t ) ; } extern "C" { # [ link_name = "\u{1}_run_bitset_container_lazy_union" ] pub fn run_bitset_container_lazy_union ( src_1 : * const run_container_t , src_2 : * const bitset_container_t , dst : * mut bitset_container_t ) ; } extern "C" { # [ link_name = "\u{1}_array_bitset_container_xor" ] pub fn array_bitset_container_xor ( src_1 : * const array_container_t , src_2 : * const bitset_container_t , dst : * mut * mut :: std :: os :: raw :: c_void ) -> bool ; } extern "C" { # [ link_name = "\u{1}_array_bitset_container_lazy_xor" ] pub fn array_bitset_container_lazy_xor ( src_1 : * const array_container_t , src_2 : * const bitset_container_t , dst : * mut bitset_container_t ) ; } extern "C" { # [ link_name = "\u{1}_bitset_bitset_container_xor" ] pub fn bitset_bitset_container_xor ( src_1 : * const bitset_container_t , src_2 : * const bitset_container_t , dst : * mut * mut :: std :: os :: raw :: c_void ) -> bool ; } extern "C" { # [ link_name = "\u{1}_run_bitset_container_xor" ] pub fn run_bitset_container_xor ( src_1 : * const run_container_t , src_2 : * const bitset_container_t , dst : * mut * mut :: std :: os :: raw :: c_void ) -> bool ; } extern "C" { # [ link_name = "\u{1}_run_bitset_container_lazy_xor" ] pub fn run_bitset_container_lazy_xor ( src_1 : * const run_container_t , src_2 : * const bitset_container_t , dst : * mut bitset_container_t ) ; } extern "C" { # [ link_name = "\u{1}_array_run_container_xor" ] pub fn array_run_container_xor ( src_1 : * const array_container_t , src_2 : * const run_container_t , dst : * mut * mut :: std :: os :: raw :: c_void ) -> :: std :: os :: raw :: c_int ; } extern "C" { # [ link_name = "\u{1}_array_array_container_xor" ] pub fn array_array_container_xor ( src_1 : * const array_container_t , src_2 : * const array_container_t , dst : * mut * mut :: std :: os :: raw :: c_void ) -> bool ; } extern "C" { # [ link_name = "\u{1}_array_array_container_lazy_xor" ] pub fn array_array_container_lazy_xor ( src_1 : * const array_container_t , src_2 : * const array_container_t , dst : * mut * mut :: std :: os :: raw :: c_void ) -> bool ; } extern "C" { # [ link_name = "\u{1}_array_run_container_lazy_xor" ] pub fn array_run_container_lazy_xor ( src_1 : * const array_container_t , src_2 : * const run_container_t , dst : * mut run_container_t ) ; } extern "C" { # [ link_name = "\u{1}_run_run_container_xor" ] pub fn run_run_container_xor ( src_1 : * const run_container_t , src_2 : * const run_container_t , dst : * mut * mut :: std :: os :: raw :: c_void ) -> :: std :: os :: raw :: c_int ; } extern "C" { # [ link_name = "\u{1}_bitset_array_container_ixor" ] pub fn bitset_array_container_ixor ( src_1 : * mut bitset_container_t , src_2 : * const array_container_t , dst : * mut * mut :: std :: os :: raw :: c_void ) -> bool ; } extern "C" { # [ link_name = "\u{1}_bitset_bitset_container_ixor" ] pub fn bitset_bitset_container_ixor ( src_1 : * mut bitset_container_t , src_2 : * const bitset_container_t , dst : * mut * mut :: std :: os :: raw :: c_void ) -> bool ; } extern "C" { # [ link_name = "\u{1}_array_bitset_container_ixor" ] pub fn array_bitset_container_ixor ( src_1 : * mut array_container_t , src_2 : * const bitset_container_t , dst : * mut * mut :: std :: os :: raw :: c_void ) -> bool ; } extern "C" { # [ link_name = "\u{1}_run_bitset_container_ixor" ] pub fn run_bitset_container_ixor ( src_1 : * mut run_container_t , src_2 : * const bitset_container_t , dst : * mut * mut :: std :: os :: raw :: c_void ) -> bool ; } extern "C" { # [ link_name = "\u{1}_bitset_run_container_ixor" ] pub fn bitset_run_container_ixor ( src_1 : * mut bitset_container_t , src_2 : * const run_container_t , dst : * mut * mut :: std :: os :: raw :: c_void ) -> bool ; } extern "C" { # [ link_name = "\u{1}_array_run_container_ixor" ] pub fn array_run_container_ixor ( src_1 : * mut array_container_t , src_2 : * const run_container_t , dst : * mut * mut :: std :: os :: raw :: c_void ) -> :: std :: os :: raw :: c_int ; } extern "C" { # [ link_name = "\u{1}_run_array_container_ixor" ] pub fn run_array_container_ixor ( src_1 : * mut run_container_t , src_2 : * const array_container_t , dst : * mut * mut :: std :: os :: raw :: c_void ) -> :: std :: os :: raw :: c_int ; } extern "C" { # [ link_name = "\u{1}_array_array_container_ixor" ] pub fn array_array_container_ixor ( src_1 : * mut array_container_t , src_2 : * const array_container_t , dst : * mut * mut :: std :: os :: raw :: c_void ) -> bool ; } extern "C" { # [ link_name = "\u{1}_run_run_container_ixor" ] pub fn run_run_container_ixor ( src_1 : * mut run_container_t , src_2 : * const run_container_t , dst : * mut * mut :: std :: os :: raw :: c_void ) -> :: std :: os :: raw :: c_int ; } pub type __FILE = _IO_FILE ; pub type FILE = _IO_FILE ; # [ repr ( C ) ] # [ derive ( Copy , Clone ) ] pub struct __mbstate_t { pub __count : :: std :: os :: raw :: c_int , pub __value : __mbstate_t__bindgen_ty_1 , } # [ repr ( C ) ] # [ derive ( Copy , Clone ) ] pub union __mbstate_t__bindgen_ty_1 { pub __wch : :: std :: os :: raw :: c_int , pub __wchb : [ :: std :: os :: raw :: c_char ; 4usize ] , _bindgen_union_align : u32 , } # [ test ] fn bindgen_test_layout___mbstate_t__bindgen_ty_1 ( ) { assert_eq ! ( :: std :: mem :: size_of :: < __mbstate_t__bindgen_ty_1 > ( ) , 4usize , concat ! ( "Size of: " , stringify ! ( __mbstate_t__bindgen_ty_1 ) ) ) ; assert_eq ! ( :: std :: mem :: align_of :: < __mbstate_t__bindgen_ty_1 > ( ) , 4usize , concat ! ( "Alignment of " , stringify ! ( __mbstate_t__bindgen_ty_1 ) ) ) ; assert_eq ! ( unsafe { & ( * ( :: std :: 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 { & ( * ( :: std :: 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 ! ( :: std :: mem :: size_of :: < __mbstate_t > ( ) , 8usize , concat ! ( "Size of: " , stringify ! ( __mbstate_t ) ) ) ; assert_eq ! ( :: std :: mem :: align_of :: < __mbstate_t > ( ) , 4usize , concat ! ( "Alignment of " , stringify ! ( __mbstate_t ) ) ) ; assert_eq ! ( unsafe { & ( * ( :: std :: ptr :: null :: < __mbstate_t > ( ) ) ) . __count as * const _ as usize } , 0usize , concat ! ( "Offset of field: " , stringify ! ( __mbstate_t ) , "::" , stringify ! ( __count ) ) ) ; assert_eq ! ( unsafe { & ( * ( :: std :: ptr :: null :: < __mbstate_t > ( ) ) ) . __value as * const _ as usize } , 4usize , concat ! ( "Offset of field: " , stringify ! ( __mbstate_t ) , "::" , stringify ! ( __value ) ) ) ; } # [ 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 ! ( :: std :: mem :: size_of :: < _G_fpos_t > ( ) , 16usize , concat ! ( "Size of: " , stringify ! ( _G_fpos_t ) ) ) ; assert_eq ! ( :: std :: mem :: align_of :: < _G_fpos_t > ( ) , 8usize , concat ! ( "Alignment of " , stringify ! ( _G_fpos_t ) ) ) ; assert_eq ! ( unsafe { & ( * ( :: std :: ptr :: null :: < _G_fpos_t > ( ) ) ) . __pos as * const _ as usize } , 0usize , concat ! ( "Offset of field: " , stringify ! ( _G_fpos_t ) , "::" , stringify ! ( __pos ) ) ) ; assert_eq ! ( unsafe { & ( * ( :: std :: ptr :: null :: < _G_fpos_t > ( ) ) ) . __state as * const _ as usize } , 8usize , concat ! ( "Offset of field: " , stringify ! ( _G_fpos_t ) , "::" , stringify ! ( __state ) ) ) ; } # [ 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 ! ( :: std :: mem :: size_of :: < _G_fpos64_t > ( ) , 16usize , concat ! ( "Size of: " , stringify ! ( _G_fpos64_t ) ) ) ; assert_eq ! ( :: std :: mem :: align_of :: < _G_fpos64_t > ( ) , 8usize , concat ! ( "Alignment of " , stringify ! ( _G_fpos64_t ) ) ) ; assert_eq ! ( unsafe { & ( * ( :: std :: ptr :: null :: < _G_fpos64_t > ( ) ) ) . __pos as * const _ as usize } , 0usize , concat ! ( "Offset of field: " , stringify ! ( _G_fpos64_t ) , "::" , stringify ! ( __pos ) ) ) ; assert_eq ! ( unsafe { & ( * ( :: std :: ptr :: null :: < _G_fpos64_t > ( ) ) ) . __state as * const _ as usize } , 8usize , concat ! ( "Offset of field: " , stringify ! ( _G_fpos64_t ) , "::" , stringify ! ( __state ) ) ) ; } pub type va_list = __builtin_va_list ; pub type __gnuc_va_list = __builtin_va_list ; # [ repr ( C ) ] # [ derive ( Debug , Copy , Clone ) ] pub struct _IO_jump_t { _unused : [ u8 ; 0 ] , } pub type _IO_lock_t = :: std :: os :: raw :: c_void ; # [ repr ( C ) ] # [ derive ( Debug , Copy , Clone ) ] pub struct _IO_marker { pub _next : * mut _IO_marker , pub _sbuf : * mut _IO_FILE , pub _pos : :: std :: os :: raw :: c_int , } # [ test ] fn bindgen_test_layout__IO_marker ( ) { assert_eq ! ( :: std :: mem :: size_of :: < _IO_marker > ( ) , 24usize , concat ! ( "Size of: " , stringify ! ( _IO_marker ) ) ) ; assert_eq ! ( :: std :: mem :: align_of :: < _IO_marker > ( ) , 8usize , concat ! ( "Alignment of " , stringify ! ( _IO_marker ) ) ) ; assert_eq ! ( unsafe { & ( * ( :: std :: ptr :: null :: < _IO_marker > ( ) ) ) . _next as * const _ as usize } , 0usize , concat ! ( "Offset of field: " , stringify ! ( _IO_marker ) , "::" , stringify ! ( _next ) ) ) ; assert_eq ! ( unsafe { & ( * ( :: std :: ptr :: null :: < _IO_marker > ( ) ) ) . _sbuf as * const _ as usize } , 8usize , concat ! ( "Offset of field: " , stringify ! ( _IO_marker ) , "::" , stringify ! ( _sbuf ) ) ) ; assert_eq ! ( unsafe { & ( * ( :: std :: ptr :: null :: < _IO_marker > ( ) ) ) . _pos as * const _ as usize } , 16usize , concat ! ( "Offset of field: " , stringify ! ( _IO_marker ) , "::" , stringify ! ( _pos ) ) ) ; } pub const __codecvt_result___codecvt_ok : __codecvt_result = 0 ; pub const __codecvt_result___codecvt_partial : __codecvt_result = 1 ; pub const __codecvt_result___codecvt_error : __codecvt_result = 2 ; pub const __codecvt_result___codecvt_noconv : __codecvt_result = 3 ; pub type __codecvt_result = u32 ; # [ repr ( C ) ] # [ derive ( Debug , Copy , Clone ) ] pub struct _IO_FILE { pub _flags : :: std :: os :: raw :: c_int , pub _IO_read_ptr : * mut :: std :: os :: raw :: c_char , pub _IO_read_end : * mut :: std :: os :: raw :: c_char , pub _IO_read_base : * mut :: std :: os :: raw :: c_char , pub _IO_write_base : * mut :: std :: os :: raw :: c_char , pub _IO_write_ptr : * mut :: std :: os :: raw :: c_char , pub _IO_write_end : * mut :: std :: os :: raw :: c_char , pub _IO_buf_base : * mut :: std :: os :: raw :: c_char , pub _IO_buf_end : * mut :: std :: os :: raw :: c_char , pub _IO_save_base : * mut :: std :: os :: raw :: c_char , pub _IO_backup_base : * mut :: std :: os :: raw :: c_char , pub _IO_save_end : * mut :: std :: os :: raw :: c_char , pub _markers : * mut _IO_marker , pub _chain : * mut _IO_FILE , pub _fileno : :: std :: os :: raw :: c_int , pub _flags2 : :: std :: os :: raw :: c_int , pub _old_offset : __off_t , pub _cur_column : :: std :: os :: raw :: c_ushort , pub _vtable_offset : :: std :: os :: raw :: c_schar , pub _shortbuf : [ :: std :: os :: raw :: c_char ; 1usize ] , pub _lock : * mut _IO_lock_t , pub _offset : __off64_t , pub __pad1 : * mut :: std :: os :: raw :: c_void , pub __pad2 : * mut :: std :: os :: raw :: c_void , pub __pad3 : * mut :: std :: os :: raw :: c_void , pub __pad4 : * mut :: std :: os :: raw :: c_void , pub __pad5 : usize , pub _mode : :: std :: os :: raw :: c_int , pub _unused2 : [ :: std :: os :: raw :: c_char ; 20usize ] , } # [ test ] fn bindgen_test_layout__IO_FILE ( ) { assert_eq ! ( :: std :: mem :: size_of :: < _IO_FILE > ( ) , 216usize , concat ! ( "Size of: " , stringify ! ( _IO_FILE ) ) ) ; assert_eq ! ( :: std :: mem :: align_of :: < _IO_FILE > ( ) , 8usize , concat ! ( "Alignment of " , stringify ! ( _IO_FILE ) ) ) ; assert_eq ! ( unsafe { & ( * ( :: std :: ptr :: null :: < _IO_FILE > ( ) ) ) . _flags as * const _ as usize } , 0usize , concat ! ( "Offset of field: " , stringify ! ( _IO_FILE ) , "::" , stringify ! ( _flags ) ) ) ; assert_eq ! ( unsafe { & ( * ( :: std :: 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 { & ( * ( :: std :: 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 { & ( * ( :: std :: 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 { & ( * ( :: std :: 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 { & ( * ( :: std :: 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 { & ( * ( :: std :: 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 { & ( * ( :: std :: 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 { & ( * ( :: std :: 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 { & ( * ( :: std :: 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 { & ( * ( :: std :: 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 { & ( * ( :: std :: 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 { & ( * ( :: std :: ptr :: null :: < _IO_FILE > ( ) ) ) . _markers as * const _ as usize } , 96usize , concat ! ( "Offset of field: " , stringify ! ( _IO_FILE ) , "::" , stringify ! ( _markers ) ) ) ; assert_eq ! ( unsafe { & ( * ( :: std :: ptr :: null :: < _IO_FILE > ( ) ) ) . _chain as * const _ as usize } , 104usize , concat ! ( "Offset of field: " , stringify ! ( _IO_FILE ) , "::" , stringify ! ( _chain ) ) ) ; assert_eq ! ( unsafe { & ( * ( :: std :: ptr :: null :: < _IO_FILE > ( ) ) ) . _fileno as * const _ as usize } , 112usize , concat ! ( "Offset of field: " , stringify ! ( _IO_FILE ) , "::" , stringify ! ( _fileno ) ) ) ; assert_eq ! ( unsafe { & ( * ( :: std :: ptr :: null :: < _IO_FILE > ( ) ) ) . _flags2 as * const _ as usize } , 116usize , concat ! ( "Offset of field: " , stringify ! ( _IO_FILE ) , "::" , stringify ! ( _flags2 ) ) ) ; assert_eq ! ( unsafe { & ( * ( :: std :: ptr :: null :: < _IO_FILE > ( ) ) ) . _old_offset as * const _ as usize } , 120usize , concat ! ( "Offset of field: " , stringify ! ( _IO_FILE ) , "::" , stringify ! ( _old_offset ) ) ) ; assert_eq ! ( unsafe { & ( * ( :: std :: ptr :: null :: < _IO_FILE > ( ) ) ) . _cur_column as * const _ as usize } , 128usize , concat ! ( "Offset of field: " , stringify ! ( _IO_FILE ) , "::" , stringify ! ( _cur_column ) ) ) ; assert_eq ! ( unsafe { & ( * ( :: std :: ptr :: null :: < _IO_FILE > ( ) ) ) . _vtable_offset as * const _ as usize } , 130usize , concat ! ( "Offset of field: " , stringify ! ( _IO_FILE ) , "::" , stringify ! ( _vtable_offset ) ) ) ; assert_eq ! ( unsafe { & ( * ( :: std :: ptr :: null :: < _IO_FILE > ( ) ) ) . _shortbuf as * const _ as usize } , 131usize , concat ! ( "Offset of field: " , stringify ! ( _IO_FILE ) , "::" , stringify ! ( _shortbuf ) ) ) ; assert_eq ! ( unsafe { & ( * ( :: std :: ptr :: null :: < _IO_FILE > ( ) ) ) . _lock as * const _ as usize } , 136usize , concat ! ( "Offset of field: " , stringify ! ( _IO_FILE ) , "::" , stringify ! ( _lock ) ) ) ; assert_eq ! ( unsafe { & ( * ( :: std :: ptr :: null :: < _IO_FILE > ( ) ) ) . _offset as * const _ as usize } , 144usize , concat ! ( "Offset of field: " , stringify ! ( _IO_FILE ) , "::" , stringify ! ( _offset ) ) ) ; assert_eq ! ( unsafe { & ( * ( :: std :: ptr :: null :: < _IO_FILE > ( ) ) ) . __pad1 as * const _ as usize } , 152usize , concat ! ( "Offset of field: " , stringify ! ( _IO_FILE ) , "::" , stringify ! ( __pad1 ) ) ) ; assert_eq ! ( unsafe { & ( * ( :: std :: ptr :: null :: < _IO_FILE > ( ) ) ) . __pad2 as * const _ as usize } , 160usize , concat ! ( "Offset of field: " , stringify ! ( _IO_FILE ) , "::" , stringify ! ( __pad2 ) ) ) ; assert_eq ! ( unsafe { & ( * ( :: std :: ptr :: null :: < _IO_FILE > ( ) ) ) . __pad3 as * const _ as usize } , 168usize , concat ! ( "Offset of field: " , stringify ! ( _IO_FILE ) , "::" , stringify ! ( __pad3 ) ) ) ; assert_eq ! ( unsafe { & ( * ( :: std :: ptr :: null :: < _IO_FILE > ( ) ) ) . __pad4 as * const _ as usize } , 176usize , concat ! ( "Offset of field: " , stringify ! ( _IO_FILE ) , "::" , stringify ! ( __pad4 ) ) ) ; assert_eq ! ( unsafe { & ( * ( :: std :: ptr :: null :: < _IO_FILE > ( ) ) ) . __pad5 as * const _ as usize } , 184usize , concat ! ( "Offset of field: " , stringify ! ( _IO_FILE ) , "::" , stringify ! ( __pad5 ) ) ) ; assert_eq ! ( unsafe { & ( * ( :: std :: ptr :: null :: < _IO_FILE > ( ) ) ) . _mode as * const _ as usize } , 192usize , concat ! ( "Offset of field: " , stringify ! ( _IO_FILE ) , "::" , stringify ! ( _mode ) ) ) ; assert_eq ! ( unsafe { & ( * ( :: std :: ptr :: null :: < _IO_FILE > ( ) ) ) . _unused2 as * const _ as usize } , 196usize , concat ! ( "Offset of field: " , stringify ! ( _IO_FILE ) , "::" , stringify ! ( _unused2 ) ) ) ; } # [ repr ( C ) ] # [ derive ( Debug , Copy , Clone ) ] pub struct _IO_FILE_plus { _unused : [ u8 ; 0 ] , } extern "C" { # [ link_name = "\u{1}__IO_2_1_stdin_" ] pub static mut _IO_2_1_stdin_ : _IO_FILE_plus ; } extern "C" { # [ link_name = "\u{1}__IO_2_1_stdout_" ] pub static mut _IO_2_1_stdout_ : _IO_FILE_plus ; } extern "C" { # [ link_name = "\u{1}__IO_2_1_stderr_" ] pub static mut _IO_2_1_stderr_ : _IO_FILE_plus ; } pub type __io_read_fn = :: std :: option :: Option < unsafe extern "C" fn ( __cookie : * mut :: std :: os :: raw :: c_void , __buf : * mut :: std :: os :: raw :: c_char , __nbytes : usize ) -> __ssize_t > ; pub type __io_write_fn = :: std :: option :: Option < unsafe extern "C" fn ( __cookie : * mut :: std :: os :: raw :: c_void , __buf : * const :: std :: os :: raw :: c_char , __n : usize ) -> __ssize_t > ; pub type __io_seek_fn = :: std :: option :: Option < unsafe extern "C" fn ( __cookie : * mut :: std :: os :: raw :: c_void , __pos : * mut __off64_t , __w : :: std :: os :: raw :: c_int ) -> :: std :: os :: raw :: c_int > ; pub type __io_close_fn = :: std :: option :: Option < unsafe extern "C" fn ( __cookie : * mut :: std :: os :: raw :: c_void ) -> :: std :: os :: raw :: c_int > ; pub type cookie_read_function_t = __io_read_fn ; pub type cookie_write_function_t = __io_write_fn ; pub type cookie_seek_function_t = __io_seek_fn ; pub type cookie_close_function_t = __io_close_fn ; # [ repr ( C ) ] # [ derive ( Debug , Copy , Clone ) ] pub struct _IO_cookie_io_functions_t { pub read : __io_read_fn , pub write : __io_write_fn , pub seek : __io_seek_fn , pub close : __io_close_fn , } # [ test ] fn bindgen_test_layout__IO_cookie_io_functions_t ( ) { assert_eq ! ( :: std :: mem :: size_of :: < _IO_cookie_io_functions_t > ( ) , 32usize , concat ! ( "Size of: " , stringify ! ( _IO_cookie_io_functions_t ) ) ) ; assert_eq ! ( :: std :: mem :: align_of :: < _IO_cookie_io_functions_t > ( ) , 8usize , concat ! ( "Alignment of " , stringify ! ( _IO_cookie_io_functions_t ) ) ) ; assert_eq ! ( unsafe { & ( * ( :: std :: ptr :: null :: < _IO_cookie_io_functions_t > ( ) ) ) . read as * const _ as usize } , 0usize , concat ! ( "Offset of field: " , stringify ! ( _IO_cookie_io_functions_t ) , "::" , stringify ! ( read ) ) ) ; assert_eq ! ( unsafe { & ( * ( :: std :: ptr :: null :: < _IO_cookie_io_functions_t > ( ) ) ) . write as * const _ as usize } , 8usize , concat ! ( "Offset of field: " , stringify ! ( _IO_cookie_io_functions_t ) , "::" , stringify ! ( write ) ) ) ; assert_eq ! ( unsafe { & ( * ( :: std :: ptr :: null :: < _IO_cookie_io_functions_t > ( ) ) ) . seek as * const _ as usize } , 16usize , concat ! ( "Offset of field: " , stringify ! ( _IO_cookie_io_functions_t ) , "::" , stringify ! ( seek ) ) ) ; assert_eq ! ( unsafe { & ( * ( :: std :: ptr :: null :: < _IO_cookie_io_functions_t > ( ) ) ) . close as * const _ as usize } , 24usize , concat ! ( "Offset of field: " , stringify ! ( _IO_cookie_io_functions_t ) , "::" , stringify ! ( close ) ) ) ; } pub type cookie_io_functions_t = _IO_cookie_io_functions_t ; # [ repr ( C ) ] # [ derive ( Debug , Copy , Clone ) ] pub struct _IO_cookie_file { _unused : [ u8 ; 0 ] , } extern "C" { # [ link_name = "\u{1}__IO_cookie_init" ] pub fn _IO_cookie_init ( __cfile : * mut _IO_cookie_file , __read_write : :: std :: os :: raw :: c_int , __cookie : * mut :: std :: os :: raw :: c_void , __fns : _IO_cookie_io_functions_t ) ; } extern "C" { # [ link_name = "\u{1}___underflow" ] pub fn __underflow ( arg1 : * mut _IO_FILE ) -> :: std :: os :: raw :: c_int ; } extern "C" { # [ link_name = "\u{1}___uflow" ] pub fn __uflow ( arg1 : * mut _IO_FILE ) -> :: std :: os :: raw :: c_int ; } extern "C" { # [ link_name = "\u{1}___overflow" ] pub fn __overflow ( arg1 : * mut _IO_FILE , arg2 : :: std :: os :: raw :: c_int ) -> :: std :: os :: raw :: c_int ; } extern "C" { # [ link_name = "\u{1}__IO_getc" ] pub fn _IO_getc ( __fp : * mut _IO_FILE ) -> :: std :: os :: raw :: c_int ; } extern "C" { # [ link_name = "\u{1}__IO_putc" ] pub fn _IO_putc ( __c : :: std :: os :: raw :: c_int , __fp : * mut _IO_FILE ) -> :: std :: os :: raw :: c_int ; } extern "C" { # [ link_name = "\u{1}__IO_feof" ] pub fn _IO_feof ( __fp : * mut _IO_FILE ) -> :: std :: os :: raw :: c_int ; } extern "C" { # [ link_name = "\u{1}__IO_ferror" ] pub fn _IO_ferror ( __fp : * mut _IO_FILE ) -> :: std :: os :: raw :: c_int ; } extern "C" { # [ link_name = "\u{1}__IO_peekc_locked" ] pub fn _IO_peekc_locked ( __fp : * mut _IO_FILE ) -> :: std :: os :: raw :: c_int ; } extern "C" { # [ link_name = "\u{1}__IO_flockfile" ] pub fn _IO_flockfile ( arg1 : * mut _IO_FILE ) ; } extern "C" { # [ link_name = "\u{1}__IO_funlockfile" ] pub fn _IO_funlockfile ( arg1 : * mut _IO_FILE ) ; } extern "C" { # [ link_name = "\u{1}__IO_ftrylockfile" ] pub fn _IO_ftrylockfile ( arg1 : * mut _IO_FILE ) -> :: std :: os :: raw :: c_int ; } extern "C" { # [ link_name = "\u{1}__IO_vfscanf" ] pub fn _IO_vfscanf ( arg1 : * mut _IO_FILE , arg2 : * const :: std :: os :: raw :: c_char , arg3 : * mut __va_list_tag , arg4 : * mut :: std :: os :: raw :: c_int ) -> :: std :: os :: raw :: c_int ; } extern "C" { # [ link_name = "\u{1}__IO_vfprintf" ] pub fn _IO_vfprintf ( arg1 : * mut _IO_FILE , arg2 : * const :: std :: os :: raw :: c_char , arg3 : * mut __va_list_tag ) -> :: std :: os :: raw :: c_int ; } extern "C" { # [ link_name = "\u{1}__IO_padn" ] pub fn _IO_padn ( arg1 : * mut _IO_FILE , arg2 : :: std :: os :: raw :: c_int , arg3 : __ssize_t ) -> __ssize_t ; } extern "C" { # [ link_name = "\u{1}__IO_sgetn" ] pub fn _IO_sgetn ( arg1 : * mut _IO_FILE , arg2 : * mut :: std :: os :: raw :: c_void , arg3 : usize ) -> usize ; } extern "C" { # [ link_name = "\u{1}__IO_seekoff" ] pub fn _IO_seekoff ( arg1 : * mut _IO_FILE , arg2 : __off64_t , arg3 : :: std :: os :: raw :: c_int , arg4 : :: std :: os :: raw :: c_int ) -> __off64_t ; } extern "C" { # [ link_name = "\u{1}__IO_seekpos" ] pub fn _IO_seekpos ( arg1 : * mut _IO_FILE , arg2 : __off64_t , arg3 : :: std :: os :: raw :: c_int ) -> __off64_t ; } extern "C" { # [ link_name = "\u{1}__IO_free_backup_area" ] pub fn _IO_free_backup_area ( arg1 : * mut _IO_FILE ) ; } pub type fpos_t = _G_fpos_t ; pub type fpos64_t = _G_fpos64_t ; extern "C" { # [ link_name = "\u{1}_stdin" ] pub static mut stdin : * mut _IO_FILE ; } extern "C" { # [ link_name = "\u{1}_stdout" ] pub static mut stdout : * mut _IO_FILE ; } extern "C" { # [ link_name = "\u{1}_stderr" ] pub static mut stderr : * mut _IO_FILE ; } extern "C" { # [ link_name = "\u{1}_remove" ] pub fn remove ( __filename : * const :: std :: os :: raw :: c_char ) -> :: std :: os :: raw :: c_int ; } extern "C" { # [ link_name = "\u{1}_rename" ] pub fn rename ( __old : * const :: std :: os :: raw :: c_char , __new : * const :: std :: os :: raw :: c_char ) -> :: std :: os :: raw :: c_int ; } extern "C" { # [ link_name = "\u{1}_renameat" ] pub fn renameat ( __oldfd : :: std :: os :: raw :: c_int , __old : * const :: std :: os :: raw :: c_char , __newfd : :: std :: os :: raw :: c_int , __new : * const :: std :: os :: raw :: c_char ) -> :: std :: os :: raw :: c_int ; } extern "C" { # [ link_name = "\u{1}_tmpfile" ] pub fn tmpfile ( ) -> * mut FILE ; } extern "C" { # [ link_name = "\u{1}_tmpfile64" ] pub fn tmpfile64 ( ) -> * mut FILE ; } extern "C" { # [ link_name = "\u{1}_tmpnam" ] pub fn tmpnam ( __s : * mut :: std :: os :: raw :: c_char ) -> * mut :: std :: os :: raw :: c_char ; } extern "C" { # [ link_name = "\u{1}_tmpnam_r" ] pub fn tmpnam_r ( __s : * mut :: std :: os :: raw :: c_char ) -> * mut :: std :: os :: raw :: c_char ; } extern "C" { # [ link_name = "\u{1}_tempnam" ] pub fn tempnam ( __dir : * const :: std :: os :: raw :: c_char , __pfx : * const :: std :: os :: raw :: c_char ) -> * mut :: std :: os :: raw :: c_char ; } extern "C" { # [ link_name = "\u{1}_fclose" ] pub fn fclose ( __stream : * mut FILE ) -> :: std :: os :: raw :: c_int ; } extern "C" { # [ link_name = "\u{1}_fflush" ] pub fn fflush ( __stream : * mut FILE ) -> :: std :: os :: raw :: c_int ; } extern "C" { # [ link_name = "\u{1}_fflush_unlocked" ] pub fn fflush_unlocked ( __stream : * mut FILE ) -> :: std :: os :: raw :: c_int ; } extern "C" { # [ link_name = "\u{1}_fcloseall" ] pub fn fcloseall ( ) -> :: std :: os :: raw :: c_int ; } extern "C" { # [ link_name = "\u{1}_fopen" ] pub fn fopen ( __filename : * const :: std :: os :: raw :: c_char , __modes : * const :: std :: os :: raw :: c_char ) -> * mut FILE ; } extern "C" { # [ link_name = "\u{1}_freopen" ] pub fn freopen ( __filename : * const :: std :: os :: raw :: c_char , __modes : * const :: std :: os :: raw :: c_char , __stream : * mut FILE ) -> * mut FILE ; } extern "C" { # [ link_name = "\u{1}_fopen64" ] pub fn fopen64 ( __filename : * const :: std :: os :: raw :: c_char , __modes : * const :: std :: os :: raw :: c_char ) -> * mut FILE ; } extern "C" { # [ link_name = "\u{1}_freopen64" ] pub fn freopen64 ( __filename : * const :: std :: os :: raw :: c_char , __modes : * const :: std :: os :: raw :: c_char , __stream : * mut FILE ) -> * mut FILE ; } extern "C" { # [ link_name = "\u{1}_fdopen" ] pub fn fdopen ( __fd : :: std :: os :: raw :: c_int , __modes : * const :: std :: os :: raw :: c_char ) -> * mut FILE ; } extern "C" { # [ link_name = "\u{1}_fopencookie" ] pub fn fopencookie ( __magic_cookie : * mut :: std :: os :: raw :: c_void , __modes : * const :: std :: os :: raw :: c_char , __io_funcs : _IO_cookie_io_functions_t ) -> * mut FILE ; } extern "C" { # [ link_name = "\u{1}_fmemopen" ] pub fn fmemopen ( __s : * mut :: std :: os :: raw :: c_void , __len : usize , __modes : * const :: std :: os :: raw :: c_char ) -> * mut FILE ; } extern "C" { # [ link_name = "\u{1}_open_memstream" ] pub fn open_memstream ( __bufloc : * mut * mut :: std :: os :: raw :: c_char , __sizeloc : * mut usize ) -> * mut FILE ; } extern "C" { # [ link_name = "\u{1}_setbuf" ] pub fn setbuf ( __stream : * mut FILE , __buf : * mut :: std :: os :: raw :: c_char ) ; } extern "C" { # [ link_name = "\u{1}_setvbuf" ] pub fn setvbuf ( __stream : * mut FILE , __buf : * mut :: std :: os :: raw :: c_char , __modes : :: std :: os :: raw :: c_int , __n : usize ) -> :: std :: os :: raw :: c_int ; } extern "C" { # [ link_name = "\u{1}_setbuffer" ] pub fn setbuffer ( __stream : * mut FILE , __buf : * mut :: std :: os :: raw :: c_char , __size : usize ) ; } extern "C" { # [ link_name = "\u{1}_setlinebuf" ] pub fn setlinebuf ( __stream : * mut FILE ) ; } extern "C" { # [ link_name = "\u{1}_fprintf" ] pub fn fprintf ( __stream : * mut FILE , __format : * const :: std :: os :: raw :: c_char , ... ) -> :: std :: os :: raw :: c_int ; } extern "C" { # [ link_name = "\u{1}_printf" ] pub fn printf ( __format : * const :: std :: os :: raw :: c_char , ... ) -> :: std :: os :: raw :: c_int ; } extern "C" { # [ link_name = "\u{1}_sprintf" ] pub fn sprintf ( __s : * mut :: std :: os :: raw :: c_char , __format : * const :: std :: os :: raw :: c_char , ... ) -> :: std :: os :: raw :: c_int ; } extern "C" { # [ link_name = "\u{1}_vfprintf" ] pub fn vfprintf ( __s : * mut FILE , __format : * const :: std :: os :: raw :: c_char , __arg : * mut __va_list_tag ) -> :: std :: os :: raw :: c_int ; } extern "C" { # [ link_name = "\u{1}_vprintf" ] pub fn vprintf ( __format : * const :: std :: os :: raw :: c_char , __arg : * mut __va_list_tag ) -> :: std :: os :: raw :: c_int ; } extern "C" { # [ link_name = "\u{1}_vsprintf" ] pub fn vsprintf ( __s : * mut :: std :: os :: raw :: c_char , __format : * const :: std :: os :: raw :: c_char , __arg : * mut __va_list_tag ) -> :: std :: os :: raw :: c_int ; } extern "C" { # [ link_name = "\u{1}_snprintf" ] pub fn snprintf ( __s : * mut :: std :: os :: raw :: c_char , __maxlen : usize , __format : * const :: std :: os :: raw :: c_char , ... ) -> :: std :: os :: raw :: c_int ; } extern "C" { # [ link_name = "\u{1}_vsnprintf" ] pub fn vsnprintf ( __s : * mut :: std :: os :: raw :: c_char , __maxlen : usize , __format : * const :: std :: os :: raw :: c_char , __arg : * mut __va_list_tag ) -> :: std :: os :: raw :: c_int ; } extern "C" { # [ link_name = "\u{1}_vasprintf" ] pub fn vasprintf ( __ptr : * mut * mut :: std :: os :: raw :: c_char , __f : * const :: std :: os :: raw :: c_char , __arg : * mut __va_list_tag ) -> :: std :: os :: raw :: c_int ; } extern "C" { # [ link_name = "\u{1}___asprintf" ] pub fn __asprintf ( __ptr : * mut * mut :: std :: os :: raw :: c_char , __fmt : * const :: std :: os :: raw :: c_char , ... ) -> :: std :: os :: raw :: c_int ; } extern "C" { # [ link_name = "\u{1}_asprintf" ] pub fn asprintf ( __ptr : * mut * mut :: std :: os :: raw :: c_char , __fmt : * const :: std :: os :: raw :: c_char , ... ) -> :: std :: os :: raw :: c_int ; } extern "C" { # [ link_name = "\u{1}_vdprintf" ] pub fn vdprintf ( __fd : :: std :: os :: raw :: c_int , __fmt : * const :: std :: os :: raw :: c_char , __arg : * mut __va_list_tag ) -> :: std :: os :: raw :: c_int ; } extern "C" { # [ link_name = "\u{1}_dprintf" ] pub fn dprintf ( __fd : :: std :: os :: raw :: c_int , __fmt : * const :: std :: os :: raw :: c_char , ... ) -> :: std :: os :: raw :: c_int ; } extern "C" { # [ link_name = "\u{1}_fscanf" ] pub fn fscanf ( __stream : * mut FILE , __format : * const :: std :: os :: raw :: c_char , ... ) -> :: std :: os :: raw :: c_int ; } extern "C" { # [ link_name = "\u{1}_scanf" ] pub fn scanf ( __format : * const :: std :: os :: raw :: c_char , ... ) -> :: std :: os :: raw :: c_int ; } extern "C" { # [ link_name = "\u{1}_sscanf" ] pub fn sscanf ( __s : * const :: std :: os :: raw :: c_char , __format : * const :: std :: os :: raw :: c_char , ... ) -> :: std :: os :: raw :: c_int ; } extern "C" { # [ link_name = "\u{1}_vfscanf" ] pub fn vfscanf ( __s : * mut FILE , __format : * const :: std :: os :: raw :: c_char , __arg : * mut __va_list_tag ) -> :: std :: os :: raw :: c_int ; } extern "C" { # [ link_name = "\u{1}_vscanf" ] pub fn vscanf ( __format : * const :: std :: os :: raw :: c_char , __arg : * mut __va_list_tag ) -> :: std :: os :: raw :: c_int ; } extern "C" { # [ link_name = "\u{1}_vsscanf" ] pub fn vsscanf ( __s : * const :: std :: os :: raw :: c_char , __format : * const :: std :: os :: raw :: c_char , __arg : * mut __va_list_tag ) -> :: std :: os :: raw :: c_int ; } extern "C" { # [ link_name = "\u{1}_fgetc" ] pub fn fgetc ( __stream : * mut FILE ) -> :: std :: os :: raw :: c_int ; } extern "C" { # [ link_name = "\u{1}_getc" ] pub fn getc ( __stream : * mut FILE ) -> :: std :: os :: raw :: c_int ; } extern "C" { # [ link_name = "\u{1}_getchar" ] pub fn getchar ( ) -> :: std :: os :: raw :: c_int ; } extern "C" { # [ link_name = "\u{1}_getc_unlocked" ] pub fn getc_unlocked ( __stream : * mut FILE ) -> :: std :: os :: raw :: c_int ; } extern "C" { # [ link_name = "\u{1}_getchar_unlocked" ] pub fn getchar_unlocked ( ) -> :: std :: os :: raw :: c_int ; } extern "C" { # [ link_name = "\u{1}_fgetc_unlocked" ] pub fn fgetc_unlocked ( __stream : * mut FILE ) -> :: std :: os :: raw :: c_int ; } extern "C" { # [ link_name = "\u{1}_fputc" ] pub fn fputc ( __c : :: std :: os :: raw :: c_int , __stream : * mut FILE ) -> :: std :: os :: raw :: c_int ; } extern "C" { # [ link_name = "\u{1}_putc" ] pub fn putc ( __c : :: std :: os :: raw :: c_int , __stream : * mut FILE ) -> :: std :: os :: raw :: c_int ; } extern "C" { # [ link_name = "\u{1}_putchar" ] pub fn putchar ( __c : :: std :: os :: raw :: c_int ) -> :: std :: os :: raw :: c_int ; } extern "C" { # [ link_name = "\u{1}_fputc_unlocked" ] pub fn fputc_unlocked ( __c : :: std :: os :: raw :: c_int , __stream : * mut FILE ) -> :: std :: os :: raw :: c_int ; } extern "C" { # [ link_name = "\u{1}_putc_unlocked" ] pub fn putc_unlocked ( __c : :: std :: os :: raw :: c_int , __stream : * mut FILE ) -> :: std :: os :: raw :: c_int ; } extern "C" { # [ link_name = "\u{1}_putchar_unlocked" ] pub fn putchar_unlocked ( __c : :: std :: os :: raw :: c_int ) -> :: std :: os :: raw :: c_int ; } extern "C" { # [ link_name = "\u{1}_getw" ] pub fn getw ( __stream : * mut FILE ) -> :: std :: os :: raw :: c_int ; } extern "C" { # [ link_name = "\u{1}_putw" ] pub fn putw ( __w : :: std :: os :: raw :: c_int , __stream : * mut FILE ) -> :: std :: os :: raw :: c_int ; } extern "C" { # [ link_name = "\u{1}_fgets" ] pub fn fgets ( __s : * mut :: std :: os :: raw :: c_char , __n : :: std :: os :: raw :: c_int , __stream : * mut FILE ) -> * mut :: std :: os :: raw :: c_char ; } extern "C" { # [ link_name = "\u{1}_fgets_unlocked" ] pub fn fgets_unlocked ( __s : * mut :: std :: os :: raw :: c_char , __n : :: std :: os :: raw :: c_int , __stream : * mut FILE ) -> * mut :: std :: os :: raw :: c_char ; } extern "C" { # [ link_name = "\u{1}___getdelim" ] pub fn __getdelim ( __lineptr : * mut * mut :: std :: os :: raw :: c_char , __n : * mut usize , __delimiter : :: std :: os :: raw :: c_int , __stream : * mut FILE ) -> __ssize_t ; } extern "C" { # [ link_name = "\u{1}_getdelim" ] pub fn getdelim ( __lineptr : * mut * mut :: std :: os :: raw :: c_char , __n : * mut usize , __delimiter : :: std :: os :: raw :: c_int , __stream : * mut FILE ) -> __ssize_t ; } extern "C" { # [ link_name = "\u{1}_getline" ] pub fn getline ( __lineptr : * mut * mut :: std :: os :: raw :: c_char , __n : * mut usize , __stream : * mut FILE ) -> __ssize_t ; } extern "C" { # [ link_name = "\u{1}_fputs" ] pub fn fputs ( __s : * const :: std :: os :: raw :: c_char , __stream : * mut FILE ) -> :: std :: os :: raw :: c_int ; } extern "C" { # [ link_name = "\u{1}_puts" ] pub fn puts ( __s : * const :: std :: os :: raw :: c_char ) -> :: std :: os :: raw :: c_int ; } extern "C" { # [ link_name = "\u{1}_ungetc" ] pub fn ungetc ( __c : :: std :: os :: raw :: c_int , __stream : * mut FILE ) -> :: std :: os :: raw :: c_int ; } extern "C" { # [ link_name = "\u{1}_fread" ] pub fn fread ( __ptr : * mut :: std :: os :: raw :: c_void , __size : usize , __n : usize , __stream : * mut FILE ) -> usize ; } extern "C" { # [ link_name = "\u{1}_fwrite" ] pub fn fwrite ( __ptr : * const :: std :: os :: raw :: c_void , __size : usize , __n : usize , __s : * mut FILE ) -> usize ; } extern "C" { # [ link_name = "\u{1}_fputs_unlocked" ] pub fn fputs_unlocked ( __s : * const :: std :: os :: raw :: c_char , __stream : * mut FILE ) -> :: std :: os :: raw :: c_int ; } extern "C" { # [ link_name = "\u{1}_fread_unlocked" ] pub fn fread_unlocked ( __ptr : * mut :: std :: os :: raw :: c_void , __size : usize , __n : usize , __stream : * mut FILE ) -> usize ; } extern "C" { # [ link_name = "\u{1}_fwrite_unlocked" ] pub fn fwrite_unlocked ( __ptr : * const :: std :: os :: raw :: c_void , __size : usize , __n : usize , __stream : * mut FILE ) -> usize ; } extern "C" { # [ link_name = "\u{1}_fseek" ] pub fn fseek ( __stream : * mut FILE , __off : :: std :: os :: raw :: c_long , __whence : :: std :: os :: raw :: c_int ) -> :: std :: os :: raw :: c_int ; } extern "C" { # [ link_name = "\u{1}_ftell" ] pub fn ftell ( __stream : * mut FILE ) -> :: std :: os :: raw :: c_long ; } extern "C" { # [ link_name = "\u{1}_rewind" ] pub fn rewind ( __stream : * mut FILE ) ; } extern "C" { # [ link_name = "\u{1}_fseeko" ] pub fn fseeko ( __stream : * mut FILE , __off : __off_t , __whence : :: std :: os :: raw :: c_int ) -> :: std :: os :: raw :: c_int ; } extern "C" { # [ link_name = "\u{1}_ftello" ] pub fn ftello ( __stream : * mut FILE ) -> __off_t ; } extern "C" { # [ link_name = "\u{1}_fgetpos" ] pub fn fgetpos ( __stream : * mut FILE , __pos : * mut fpos_t ) -> :: std :: os :: raw :: c_int ; } extern "C" { # [ link_name = "\u{1}_fsetpos" ] pub fn fsetpos ( __stream : * mut FILE , __pos : * const fpos_t ) -> :: std :: os :: raw :: c_int ; } extern "C" { # [ link_name = "\u{1}_fseeko64" ] pub fn fseeko64 ( __stream : * mut FILE , __off : __off64_t , __whence : :: std :: os :: raw :: c_int ) -> :: std :: os :: raw :: c_int ; } extern "C" { # [ link_name = "\u{1}_ftello64" ] pub fn ftello64 ( __stream : * mut FILE ) -> __off64_t ; } extern "C" { # [ link_name = "\u{1}_fgetpos64" ] pub fn fgetpos64 ( __stream : * mut FILE , __pos : * mut fpos64_t ) -> :: std :: os :: raw :: c_int ; } extern "C" { # [ link_name = "\u{1}_fsetpos64" ] pub fn fsetpos64 ( __stream : * mut FILE , __pos : * const fpos64_t ) -> :: std :: os :: raw :: c_int ; } extern "C" { # [ link_name = "\u{1}_clearerr" ] pub fn clearerr ( __stream : * mut FILE ) ; } extern "C" { # [ link_name = "\u{1}_feof" ] pub fn feof ( __stream : * mut FILE ) -> :: std :: os :: raw :: c_int ; } extern "C" { # [ link_name = "\u{1}_ferror" ] pub fn ferror ( __stream : * mut FILE ) -> :: std :: os :: raw :: c_int ; } extern "C" { # [ link_name = "\u{1}_clearerr_unlocked" ] pub fn clearerr_unlocked ( __stream : * mut FILE ) ; } extern "C" { # [ link_name = "\u{1}_feof_unlocked" ] pub fn feof_unlocked ( __stream : * mut FILE ) -> :: std :: os :: raw :: c_int ; } extern "C" { # [ link_name = "\u{1}_ferror_unlocked" ] pub fn ferror_unlocked ( __stream : * mut FILE ) -> :: std :: os :: raw :: c_int ; } extern "C" { # [ link_name = "\u{1}_perror" ] pub fn perror ( __s : * const :: std :: os :: raw :: c_char ) ; } extern "C" { # [ link_name = "\u{1}_sys_nerr" ] pub static mut sys_nerr : :: std :: os :: raw :: c_int ; } extern "C" { # [ link_name = "\u{1}_sys_errlist" ] pub static mut sys_errlist : [ * const :: std :: os :: raw :: c_char ; 0usize ] ; } extern "C" { # [ link_name = "\u{1}__sys_nerr" ] pub static mut _sys_nerr : :: std :: os :: raw :: c_int ; } extern "C" { # [ link_name = "\u{1}__sys_errlist" ] pub static mut _sys_errlist : [ * const :: std :: os :: raw :: c_char ; 0usize ] ; } extern "C" { # [ link_name = "\u{1}_fileno" ] pub fn fileno ( __stream : * mut FILE ) -> :: std :: os :: raw :: c_int ; } extern "C" { # [ link_name = "\u{1}_fileno_unlocked" ] pub fn fileno_unlocked ( __stream : * mut FILE ) -> :: std :: os :: raw :: c_int ; } extern "C" { # [ link_name = "\u{1}_popen" ] pub fn popen ( __command : * const :: std :: os :: raw :: c_char , __modes : * const :: std :: os :: raw :: c_char ) -> * mut FILE ; } extern "C" { # [ link_name = "\u{1}_pclose" ] pub fn pclose ( __stream : * mut FILE ) -> :: std :: os :: raw :: c_int ; } extern "C" { # [ link_name = "\u{1}_ctermid" ] pub fn ctermid ( __s : * mut :: std :: os :: raw :: c_char ) -> * mut :: std :: os :: raw :: c_char ; } extern "C" { # [ link_name = "\u{1}_cuserid" ] pub fn cuserid ( __s : * mut :: std :: os :: raw :: c_char ) -> * mut :: std :: os :: raw :: c_char ; } # [ repr ( C ) ] # [ derive ( Debug , Copy , Clone ) ] pub struct obstack { _unused : [ u8 ; 0 ] , } extern "C" { # [ link_name = "\u{1}_obstack_printf" ] pub fn obstack_printf ( __obstack : * mut obstack , __format : * const :: std :: os :: raw :: c_char , ... ) -> :: std :: os :: raw :: c_int ; } extern "C" { # [ link_name = "\u{1}_obstack_vprintf" ] pub fn obstack_vprintf ( __obstack : * mut obstack , __format : * const :: std :: os :: raw :: c_char , __args : * mut __va_list_tag ) -> :: std :: os :: raw :: c_int ; } extern "C" { # [ link_name = "\u{1}_flockfile" ] pub fn flockfile ( __stream : * mut FILE ) ; } extern "C" { # [ link_name = "\u{1}_ftrylockfile" ] pub fn ftrylockfile ( __stream : * mut FILE ) -> :: std :: os :: raw :: c_int ; } extern "C" { # [ link_name = "\u{1}_funlockfile" ] pub fn funlockfile ( __stream : * mut FILE ) ; } 
 /// A shared container is a wrapper around a container
/// with reference counting. 
 # [ repr ( C ) ] # [ derive ( Debug , Copy , Clone ) ] pub struct shared_container_s { pub container : * mut :: std :: os :: raw :: c_void , pub typecode : u8 , pub counter : u32 , } # [ test ] fn bindgen_test_layout_shared_container_s ( ) { assert_eq ! ( :: std :: mem :: size_of :: < shared_container_s > ( ) , 16usize , concat ! ( "Size of: " , stringify ! ( shared_container_s ) ) ) ; assert_eq ! ( :: std :: mem :: align_of :: < shared_container_s > ( ) , 8usize , concat ! ( "Alignment of " , stringify ! ( shared_container_s ) ) ) ; assert_eq ! ( unsafe { & ( * ( :: std :: ptr :: null :: < shared_container_s > ( ) ) ) . container as * const _ as usize } , 0usize , concat ! ( "Offset of field: " , stringify ! ( shared_container_s ) , "::" , stringify ! ( container ) ) ) ; assert_eq ! ( unsafe { & ( * ( :: std :: ptr :: null :: < shared_container_s > ( ) ) ) . typecode as * const _ as usize } , 8usize , concat ! ( "Offset of field: " , stringify ! ( shared_container_s ) , "::" , stringify ! ( typecode ) ) ) ; assert_eq ! ( unsafe { & ( * ( :: std :: ptr :: null :: < shared_container_s > ( ) ) ) . counter as * const _ as usize } , 12usize , concat ! ( "Offset of field: " , stringify ! ( shared_container_s ) , "::" , stringify ! ( counter ) ) ) ; } pub type shared_container_t = shared_container_s ; extern "C" { # [ link_name = "\u{1}_get_copy_of_container" ] pub fn get_copy_of_container ( container : * mut :: std :: os :: raw :: c_void , typecode : * mut u8 , copy_on_write : bool ) -> * mut :: std :: os :: raw :: c_void ; } extern "C" { # [ link_name = "\u{1}_shared_container_free" ] pub fn shared_container_free ( container : * mut shared_container_t ) ; } extern "C" { # [ link_name = "\u{1}_shared_container_extract_copy" ] pub fn shared_container_extract_copy ( container : * mut shared_container_t , typecode : * mut u8 ) -> * mut :: std :: os :: raw :: c_void ; } extern "C" { # [ link_name = "\u{1}_container_unwrap_shared" ] pub fn container_unwrap_shared ( candidate_shared_container : * const :: std :: os :: raw :: c_void , type_ : * mut u8 ) -> * const :: std :: os :: raw :: c_void ; } extern "C" { # [ link_name = "\u{1}_container_mutable_unwrap_shared" ] pub fn container_mutable_unwrap_shared ( candidate_shared_container : * mut :: std :: os :: raw :: c_void , type_ : * mut u8 ) -> * mut :: std :: os :: raw :: c_void ; } extern "C" { 
 /// Copies a container, requires a typecode. This allocates new memory, caller
/// is responsible for deallocation. If the container is not shared, then it is
/// physically cloned. Sharable containers are not cloneable. 
 # [ link_name = "\u{1}_container_clone" ] pub fn container_clone ( container : * const :: std :: os :: raw :: c_void , typecode : u8 ) -> * mut :: std :: os :: raw :: c_void ; } extern "C" { # [ link_name = "\u{1}_container_names" ] pub static mut container_names : [ * const :: std :: os :: raw :: c_char ; 4usize ] ; } extern "C" { # [ link_name = "\u{1}_shared_container_names" ] pub static mut shared_container_names : [ * const :: std :: os :: raw :: c_char ; 3usize ] ; } extern "C" { 
 /// print the container (useful for debugging), requires a  typecode 
 # [ link_name = "\u{1}_container_printf" ] pub fn container_printf ( container : * const :: std :: os :: raw :: c_void , typecode : u8 ) ; } extern "C" { 
 /// print the content of the container as a comma-separated list of 32-bit values
/// starting at base, requires a  typecode 
 # [ link_name = "\u{1}_container_printf_as_uint32_array" ] pub fn container_printf_as_uint32_array ( container : * const :: std :: os :: raw :: c_void , typecode : u8 , base : u32 ) ; } extern "C" { 
 /// Recover memory from a container, requires a  typecode 
 # [ link_name = "\u{1}_container_free" ] pub fn container_free ( container : * mut :: std :: os :: raw :: c_void , typecode : u8 ) ; } extern "C" { 
 /// Check whether a value is in a container, requires a  typecode 
 # [ link_name = "\u{1}_container_contains" ] pub fn container_contains ( container : * const :: std :: os :: raw :: c_void , val : u16 , typecode : u8 ) -> bool ; } extern "C" { # [ link_name = "\u{1}_container_serialize" ] pub fn container_serialize ( container : * const :: std :: os :: raw :: c_void , typecode : u8 , buf : * mut :: std :: os :: raw :: c_char ) -> i32 ; } extern "C" { # [ link_name = "\u{1}_container_serialization_len" ] pub fn container_serialization_len ( container : * const :: std :: os :: raw :: c_void , typecode : u8 ) -> u32 ; } extern "C" { # [ link_name = "\u{1}_container_deserialize" ] pub fn container_deserialize ( typecode : u8 , buf : * const :: std :: os :: raw :: c_char , buf_len : usize ) -> * mut :: std :: os :: raw :: c_void ; } pub const SERIAL_COOKIE_NO_RUNCONTAINER : _bindgen_ty_7 = 12346 ; pub const SERIAL_COOKIE : _bindgen_ty_7 = 12347 ; pub const FROZEN_COOKIE : _bindgen_ty_7 = 13766 ; pub const NO_OFFSET_THRESHOLD : _bindgen_ty_7 = 4 ; pub type _bindgen_ty_7 = u32 ; 
 /// Roaring arrays are array-based key-value pairs having containers as values
/// and 16-bit integer keys. A roaring bitmap  might be implemented as such. 
 # [ repr ( C ) ] # [ derive ( Debug , Copy , Clone ) ] pub struct roaring_array_s { pub size : i32 , pub allocation_size : i32 , pub containers : * mut * mut :: std :: os :: raw :: c_void , pub keys : * mut u16 , pub typecodes : * mut u8 , pub flags : u8 , } # [ test ] fn bindgen_test_layout_roaring_array_s ( ) { assert_eq ! ( :: std :: mem :: size_of :: < roaring_array_s > ( ) , 40usize , concat ! ( "Size of: " , stringify ! ( roaring_array_s ) ) ) ; assert_eq ! ( :: std :: mem :: align_of :: < roaring_array_s > ( ) , 8usize , concat ! ( "Alignment of " , stringify ! ( roaring_array_s ) ) ) ; assert_eq ! ( unsafe { & ( * ( :: std :: ptr :: null :: < roaring_array_s > ( ) ) ) . size as * const _ as usize } , 0usize , concat ! ( "Offset of field: " , stringify ! ( roaring_array_s ) , "::" , stringify ! ( size ) ) ) ; assert_eq ! ( unsafe { & ( * ( :: std :: ptr :: null :: < roaring_array_s > ( ) ) ) . allocation_size as * const _ as usize } , 4usize , concat ! ( "Offset of field: " , stringify ! ( roaring_array_s ) , "::" , stringify ! ( allocation_size ) ) ) ; assert_eq ! ( unsafe { & ( * ( :: std :: ptr :: null :: < roaring_array_s > ( ) ) ) . containers as * const _ as usize } , 8usize , concat ! ( "Offset of field: " , stringify ! ( roaring_array_s ) , "::" , stringify ! ( containers ) ) ) ; assert_eq ! ( unsafe { & ( * ( :: std :: ptr :: null :: < roaring_array_s > ( ) ) ) . keys as * const _ as usize } , 16usize , concat ! ( "Offset of field: " , stringify ! ( roaring_array_s ) , "::" , stringify ! ( keys ) ) ) ; assert_eq ! ( unsafe { & ( * ( :: std :: ptr :: null :: < roaring_array_s > ( ) ) ) . typecodes as * const _ as usize } , 24usize , concat ! ( "Offset of field: " , stringify ! ( roaring_array_s ) , "::" , stringify ! ( typecodes ) ) ) ; assert_eq ! ( unsafe { & ( * ( :: std :: ptr :: null :: < roaring_array_s > ( ) ) ) . flags as * const _ as usize } , 32usize , concat ! ( "Offset of field: " , stringify ! ( roaring_array_s ) , "::" , stringify ! ( flags ) ) ) ; } pub type roaring_array_t = roaring_array_s ; extern "C" { 
 /// Create a new roaring array 
 # [ link_name = "\u{1}_ra_create" ] pub fn ra_create ( ) -> * mut roaring_array_t ; } extern "C" { 
 /// Initialize an existing roaring array with the specified capacity (in number
/// of containers) 
 # [ link_name = "\u{1}_ra_init_with_capacity" ] pub fn ra_init_with_capacity ( new_ra : * mut roaring_array_t , cap : u32 ) -> bool ; } extern "C" { 
 /// Initialize with zero capacity 
 # [ link_name = "\u{1}_ra_init" ] pub fn ra_init ( t : * mut roaring_array_t ) ; } extern "C" { 
 /// Copies this roaring array, we assume that dest is not initialized 
 # [ link_name = "\u{1}_ra_copy" ] pub fn ra_copy ( source : * const roaring_array_t , dest : * mut roaring_array_t , copy_on_write : bool ) -> bool ; } extern "C" { # [ link_name = "\u{1}_ra_shrink_to_fit" ] pub fn ra_shrink_to_fit ( ra : * mut roaring_array_t ) -> :: std :: os :: raw :: c_int ; } extern "C" { 
 /// Copies this roaring array, we assume that dest is initialized 
 # [ link_name = "\u{1}_ra_overwrite" ] pub fn ra_overwrite ( source : * const roaring_array_t , dest : * mut roaring_array_t , copy_on_write : bool ) -> bool ; } extern "C" { 
 /// Frees the memory used by a roaring array 
 # [ link_name = "\u{1}_ra_clear" ] pub fn ra_clear ( r : * mut roaring_array_t ) ; } extern "C" { 
 /// Frees the memory used by a roaring array, but does not free the containers 
 # [ link_name = "\u{1}_ra_clear_without_containers" ] pub fn ra_clear_without_containers ( r : * mut roaring_array_t ) ; } extern "C" { 
 /// Frees just the containers 
 # [ link_name = "\u{1}_ra_clear_containers" ] pub fn ra_clear_containers ( ra : * mut roaring_array_t ) ; } extern "C" { 
 /// Get the index corresponding to a 16-bit key 
 # [ link_name = "\u{1}_ra_get_index" ] pub fn ra_get_index ( ra : * const roaring_array_t , x : u16 ) -> i32 ; } extern "C" { 
 /// Retrieves the container at index i, filling in the typecode 
 # [ link_name = "\u{1}_ra_get_container_at_index" ] pub fn ra_get_container_at_index ( ra : * const roaring_array_t , i : u16 , typecode : * mut u8 ) -> * mut :: std :: os :: raw :: c_void ; } extern "C" { 
 /// Retrieves the key at index i 
 # [ link_name = "\u{1}_ra_get_key_at_index" ] pub fn ra_get_key_at_index ( ra : * const roaring_array_t , i : u16 ) -> u16 ; } extern "C" { 
 /// Add a new key-value pair at index i 
 # [ link_name = "\u{1}_ra_insert_new_key_value_at" ] pub fn ra_insert_new_key_value_at ( ra : * mut roaring_array_t , i : i32 , key : u16 , container : * mut :: std :: os :: raw :: c_void , typecode : u8 ) ; } extern "C" { 
 /// Append a new key-value pair 
 # [ link_name = "\u{1}_ra_append" ] pub fn ra_append ( ra : * mut roaring_array_t , s : u16 , c : * mut :: std :: os :: raw :: c_void , typecode : u8 ) ; } extern "C" { 
 /// Append a new key-value pair to ra, cloning (in COW sense) a value from sa
/// at index index 
 # [ link_name = "\u{1}_ra_append_copy" ] pub fn ra_append_copy ( ra : * mut roaring_array_t , sa : * const roaring_array_t , index : u16 , copy_on_write : bool ) ; } extern "C" { 
 /// Append new key-value pairs to ra, cloning (in COW sense)  values from sa
/// at indexes
/// [start_index, end_index) 
 # [ link_name = "\u{1}_ra_append_copy_range" ] pub fn ra_append_copy_range ( ra : * mut roaring_array_t , sa : * const roaring_array_t , start_index : i32 , end_index : i32 , copy_on_write : bool ) ; } extern "C" { 
 /// appends from sa to ra, ending with the greatest key that is
/// is less or equal stopping_key 
 # [ link_name = "\u{1}_ra_append_copies_until" ] pub fn ra_append_copies_until ( ra : * mut roaring_array_t , sa : * const roaring_array_t , stopping_key : u16 , copy_on_write : bool ) ; } extern "C" { 
 /// appends from sa to ra, starting with the smallest key that is
/// is strictly greater than before_start 
 # [ link_name = "\u{1}_ra_append_copies_after" ] pub fn ra_append_copies_after ( ra : * mut roaring_array_t , sa : * const roaring_array_t , before_start : u16 , copy_on_write : bool ) ; } extern "C" { 
 /// Move the key-value pairs to ra from sa at indexes
/// [start_index, end_index), old array should not be freed
/// (use ra_clear_without_containers) 
 # [ link_name = "\u{1}_ra_append_move_range" ] pub fn ra_append_move_range ( ra : * mut roaring_array_t , sa : * mut roaring_array_t , start_index : i32 , end_index : i32 ) ; } extern "C" { 
 /// Append new key-value pairs to ra,  from sa at indexes
/// [start_index, end_index) 
 # [ link_name = "\u{1}_ra_append_range" ] pub fn ra_append_range ( ra : * mut roaring_array_t , sa : * mut roaring_array_t , start_index : i32 , end_index : i32 , copy_on_write : bool ) ; } extern "C" { 
 /// Set the container at the corresponding index using the specified
/// typecode. 
 # [ link_name = "\u{1}_ra_set_container_at_index" ] pub fn ra_set_container_at_index ( ra : * const roaring_array_t , i : i32 , c : * mut :: std :: os :: raw :: c_void , typecode : u8 ) ; } extern "C" { 
 /// If needed, increase the capacity of the array so that it can fit k values
/// (at
/// least); 
 # [ link_name = "\u{1}_extend_array" ] pub fn extend_array ( ra : * mut roaring_array_t , k : i32 ) -> bool ; } extern "C" { # [ link_name = "\u{1}_ra_get_size" ] pub fn ra_get_size ( ra : * const roaring_array_t ) -> i32 ; } extern "C" { # [ link_name = "\u{1}_ra_advance_until_freeing" ] pub fn ra_advance_until_freeing ( ra : * mut roaring_array_t , x : u16 , pos : i32 ) -> i32 ; } extern "C" { # [ link_name = "\u{1}_ra_downsize" ] pub fn ra_downsize ( ra : * mut roaring_array_t , new_length : i32 ) ; } extern "C" { # [ link_name = "\u{1}_ra_replace_key_and_container_at_index" ] pub fn ra_replace_key_and_container_at_index ( ra : * mut roaring_array_t , i : i32 , key : u16 , c : * mut :: std :: os :: raw :: c_void , typecode : u8 ) ; } extern "C" { # [ link_name = "\u{1}_ra_to_uint32_array" ] pub fn ra_to_uint32_array ( ra : * const roaring_array_t , ans : * mut u32 ) ; } extern "C" { # [ link_name = "\u{1}_ra_range_uint32_array" ] pub fn ra_range_uint32_array ( ra : * const roaring_array_t , offset : usize , limit : usize , ans : * mut u32 ) -> bool ; } extern "C" { 
 /// write a bitmap to a buffer. This is meant to be compatible with
/// the
/// Java and Go versions. Return the size in bytes of the serialized
/// output (which should be ra_portable_size_in_bytes(ra)). 
 # [ link_name = "\u{1}_ra_portable_serialize" ] pub fn ra_portable_serialize ( ra : * const roaring_array_t , buf : * mut :: std :: os :: raw :: c_char ) -> usize ; } extern "C" { 
 /// read a bitmap from a serialized version. This is meant to be compatible
/// with the Java and Go versions.
/// maxbytes  indicates how many bytes available from buf.
/// When the function returns true, roaring_array_t is populated with the data
/// and *readbytes indicates how many bytes were read. In all cases, if the function
/// returns true, then maxbytes >= *readbytes. 
 # [ link_name = "\u{1}_ra_portable_deserialize" ] pub fn ra_portable_deserialize ( ra : * mut roaring_array_t , buf : * const :: std :: os :: raw :: c_char , maxbytes : usize , readbytes : * mut usize ) -> bool ; } extern "C" { 
 /// Quickly checks whether there is a serialized bitmap at the pointer,
/// not exceeding size "maxbytes" in bytes. This function does not allocate
/// memory dynamically.
///
/// This function returns 0 if and only if no valid bitmap is found.
/// Otherwise, it returns how many bytes are occupied by the bitmap data. 
 # [ link_name = "\u{1}_ra_portable_deserialize_size" ] pub fn ra_portable_deserialize_size ( buf : * const :: std :: os :: raw :: c_char , maxbytes : usize ) -> usize ; } extern "C" { 
 /// How many bytes are required to serialize this bitmap (meant to be
/// compatible
/// with Java and Go versions) 
 # [ link_name = "\u{1}_ra_portable_size_in_bytes" ] pub fn ra_portable_size_in_bytes ( ra : * const roaring_array_t ) -> usize ; } extern "C" { 
 /// return true if it contains at least one run container. 
 # [ link_name = "\u{1}_ra_has_run_container" ] pub fn ra_has_run_container ( ra : * const roaring_array_t ) -> bool ; } extern "C" { 
 /// Size of the header when serializing (meant to be compatible
/// with Java and Go versions) 
 # [ link_name = "\u{1}_ra_portable_header_size" ] pub fn ra_portable_header_size ( ra : * const roaring_array_t ) -> u32 ; } extern "C" { 
 /// remove at index i, sliding over all entries after i 
 # [ link_name = "\u{1}_ra_remove_at_index" ] pub fn ra_remove_at_index ( ra : * mut roaring_array_t , i : i32 ) ; } extern "C" { 
 /// clears all containers, sets the size at 0 and shrinks the memory usage. 
 # [ link_name = "\u{1}_ra_reset" ] pub fn ra_reset ( ra : * mut roaring_array_t ) ; } extern "C" { 
 /// remove at index i, sliding over all entries after i. Free removed container. 
 # [ link_name = "\u{1}_ra_remove_at_index_and_free" ] pub fn ra_remove_at_index_and_free ( ra : * mut roaring_array_t , i : i32 ) ; } extern "C" { # [ link_name = "\u{1}_ra_copy_range" ] pub fn ra_copy_range ( ra : * mut roaring_array_t , begin : u32 , end : u32 , new_begin : u32 ) ; } extern "C" { 
 /// Shifts rightmost $count containers to the left (distance < 0) or
/// to the right (distance > 0).
/// Allocates memory if necessary.
/// This function doesn't free or create new containers.
/// Caller is responsible for that. 
 # [ link_name = "\u{1}_ra_shift_tail" ] pub fn ra_shift_tail ( ra : * mut roaring_array_t , count : i32 , distance : i32 ) ; } # [ repr ( C ) ] # [ derive ( Debug , Copy , Clone ) ] pub struct roaring_bitmap_s { pub high_low_container : roaring_array_t , } # [ test ] fn bindgen_test_layout_roaring_bitmap_s ( ) { assert_eq ! ( :: std :: mem :: size_of :: < roaring_bitmap_s > ( ) , 40usize , concat ! ( "Size of: " , stringify ! ( roaring_bitmap_s ) ) ) ; assert_eq ! ( :: std :: mem :: align_of :: < roaring_bitmap_s > ( ) , 8usize , concat ! ( "Alignment of " , stringify ! ( roaring_bitmap_s ) ) ) ; assert_eq ! ( unsafe { & ( * ( :: std :: ptr :: null :: < roaring_bitmap_s > ( ) ) ) . high_low_container as * const _ as usize } , 0usize , concat ! ( "Offset of field: " , stringify ! ( roaring_bitmap_s ) , "::" , stringify ! ( high_low_container ) ) ) ; } pub type roaring_bitmap_t = roaring_bitmap_s ; extern "C" { 
 /// Creates a new bitmap (initially empty) 
 # [ link_name = "\u{1}_roaring_bitmap_create" ] pub fn roaring_bitmap_create ( ) -> * mut roaring_bitmap_t ; } extern "C" { 
 /// Add all the values between min (included) and max (excluded) that are at a
/// distance k*step from min. 
 # [ link_name = "\u{1}_roaring_bitmap_from_range" ] pub fn roaring_bitmap_from_range ( min : u64 , max : u64 , step : u32 ) -> * mut roaring_bitmap_t ; } extern "C" { 
 /// Creates a new bitmap (initially empty) with a provided
/// container-storage capacity (it is a performance hint). 
 # [ link_name = "\u{1}_roaring_bitmap_create_with_capacity" ] pub fn roaring_bitmap_create_with_capacity ( cap : u32 ) -> * mut roaring_bitmap_t ; } extern "C" { 
 /// Creates a new bitmap from a pointer of uint32_t integers 
 # [ link_name = "\u{1}_roaring_bitmap_of_ptr" ] pub fn roaring_bitmap_of_ptr ( n_args : usize , vals : * const u32 ) -> * mut roaring_bitmap_t ; } extern "C" { # [ link_name = "\u{1}_roaring_bitmap_get_copy_on_write" ] pub fn roaring_bitmap_get_copy_on_write ( r : * const roaring_bitmap_t ) -> bool ; } extern "C" { # [ link_name = "\u{1}_roaring_bitmap_set_copy_on_write" ] pub fn roaring_bitmap_set_copy_on_write ( r : * mut roaring_bitmap_t , cow : bool ) ; } extern "C" { 
 /// Describe the inner structure of the bitmap. 
 # [ link_name = "\u{1}_roaring_bitmap_printf_describe" ] pub fn roaring_bitmap_printf_describe ( ra : * const roaring_bitmap_t ) ; } extern "C" { 
 /// Creates a new bitmap from a list of uint32_t integers 
 # [ link_name = "\u{1}_roaring_bitmap_of" ] pub fn roaring_bitmap_of ( n : usize , ... ) -> * mut roaring_bitmap_t ; } extern "C" { 
 /// Copies a  bitmap. This does memory allocation. The caller is responsible for
/// memory management.
/// 
 # [ link_name = "\u{1}_roaring_bitmap_copy" ] pub fn roaring_bitmap_copy ( r : * const roaring_bitmap_t ) -> * mut roaring_bitmap_t ; } extern "C" { 
 /// Copies a  bitmap from src to dest. It is assumed that the pointer dest
/// is to an already allocated bitmap. The content of the dest bitmap is
/// freed/deleted.
///
/// It might be preferable and simpler to call roaring_bitmap_copy except
/// that roaring_bitmap_overwrite can save on memory allocations.
/// 
 # [ link_name = "\u{1}_roaring_bitmap_overwrite" ] pub fn roaring_bitmap_overwrite ( dest : * mut roaring_bitmap_t , src : * const roaring_bitmap_t ) -> bool ; } extern "C" { 
 /// Print the content of the bitmap. 
 # [ link_name = "\u{1}_roaring_bitmap_printf" ] pub fn roaring_bitmap_printf ( ra : * const roaring_bitmap_t ) ; } extern "C" { 
 /// Computes the intersection between two bitmaps and returns new bitmap. The
/// caller is
/// responsible for memory management.
/// 
 # [ link_name = "\u{1}_roaring_bitmap_and" ] pub fn roaring_bitmap_and ( x1 : * const roaring_bitmap_t , x2 : * const roaring_bitmap_t ) -> * mut roaring_bitmap_t ; } extern "C" { 
 /// Computes the size of the intersection between two bitmaps.
/// 
 # [ link_name = "\u{1}_roaring_bitmap_and_cardinality" ] pub fn roaring_bitmap_and_cardinality ( x1 : * const roaring_bitmap_t , x2 : * const roaring_bitmap_t ) -> u64 ; } extern "C" { 
 /// Check whether two bitmaps intersect.
/// 
 # [ link_name = "\u{1}_roaring_bitmap_intersect" ] pub fn roaring_bitmap_intersect ( x1 : * const roaring_bitmap_t , x2 : * const roaring_bitmap_t ) -> bool ; } extern "C" { 
 /// Computes the Jaccard index between two bitmaps. (Also known as the Tanimoto
/// distance,
/// or the Jaccard similarity coefficient)
///
/// The Jaccard index is undefined if both bitmaps are empty.
/// 
 # [ link_name = "\u{1}_roaring_bitmap_jaccard_index" ] pub fn roaring_bitmap_jaccard_index ( x1 : * const roaring_bitmap_t , x2 : * const roaring_bitmap_t ) -> f64 ; } extern "C" { 
 /// Computes the size of the union between two bitmaps.
/// 
 # [ link_name = "\u{1}_roaring_bitmap_or_cardinality" ] pub fn roaring_bitmap_or_cardinality ( x1 : * const roaring_bitmap_t , x2 : * const roaring_bitmap_t ) -> u64 ; } extern "C" { 
 /// Computes the size of the difference (andnot) between two bitmaps.
/// 
 # [ link_name = "\u{1}_roaring_bitmap_andnot_cardinality" ] pub fn roaring_bitmap_andnot_cardinality ( x1 : * const roaring_bitmap_t , x2 : * const roaring_bitmap_t ) -> u64 ; } extern "C" { 
 /// Computes the size of the symmetric difference (andnot) between two bitmaps.
/// 
 # [ link_name = "\u{1}_roaring_bitmap_xor_cardinality" ] pub fn roaring_bitmap_xor_cardinality ( x1 : * const roaring_bitmap_t , x2 : * const roaring_bitmap_t ) -> u64 ; } extern "C" { 
 /// Inplace version modifies x1, x1 == x2 is allowed 
 # [ link_name = "\u{1}_roaring_bitmap_and_inplace" ] pub fn roaring_bitmap_and_inplace ( x1 : * mut roaring_bitmap_t , x2 : * const roaring_bitmap_t ) ; } extern "C" { 
 /// Computes the union between two bitmaps and returns new bitmap. The caller is
/// responsible for memory management. 
 # [ link_name = "\u{1}_roaring_bitmap_or" ] pub fn roaring_bitmap_or ( x1 : * const roaring_bitmap_t , x2 : * const roaring_bitmap_t ) -> * mut roaring_bitmap_t ; } extern "C" { 
 /// Inplace version of roaring_bitmap_or, modifies x1. TDOO: decide whether x1 ==
/// x2 ok
/// 
 # [ link_name = "\u{1}_roaring_bitmap_or_inplace" ] pub fn roaring_bitmap_or_inplace ( x1 : * mut roaring_bitmap_t , x2 : * const roaring_bitmap_t ) ; } extern "C" { 
 /// Compute the union of 'number' bitmaps. See also roaring_bitmap_or_many_heap.
/// Caller is responsible for freeing the
/// result.
/// 
 # [ link_name = "\u{1}_roaring_bitmap_or_many" ] pub fn roaring_bitmap_or_many ( number : usize , x : * mut * const roaring_bitmap_t ) -> * mut roaring_bitmap_t ; } extern "C" { 
 /// Compute the union of 'number' bitmaps using a heap. This can
/// sometimes be faster than roaring_bitmap_or_many which uses
/// a naive algorithm. Caller is responsible for freeing the
/// result.
/// 
 # [ link_name = "\u{1}_roaring_bitmap_or_many_heap" ] pub fn roaring_bitmap_or_many_heap ( number : u32 , x : * mut * const roaring_bitmap_t ) -> * mut roaring_bitmap_t ; } extern "C" { 
 /// Computes the symmetric difference (xor) between two bitmaps
/// and returns new bitmap. The caller is responsible for memory management. 
 # [ link_name = "\u{1}_roaring_bitmap_xor" ] pub fn roaring_bitmap_xor ( x1 : * const roaring_bitmap_t , x2 : * const roaring_bitmap_t ) -> * mut roaring_bitmap_t ; } extern "C" { 
 /// Inplace version of roaring_bitmap_xor, modifies x1. x1 != x2.
/// 
 # [ link_name = "\u{1}_roaring_bitmap_xor_inplace" ] pub fn roaring_bitmap_xor_inplace ( x1 : * mut roaring_bitmap_t , x2 : * const roaring_bitmap_t ) ; } extern "C" { 
 /// Compute the xor of 'number' bitmaps.
/// Caller is responsible for freeing the
/// result.
/// 
 # [ link_name = "\u{1}_roaring_bitmap_xor_many" ] pub fn roaring_bitmap_xor_many ( number : usize , x : * mut * const roaring_bitmap_t ) -> * mut roaring_bitmap_t ; } extern "C" { 
 /// Computes the  difference (andnot) between two bitmaps
/// and returns new bitmap. The caller is responsible for memory management. 
 # [ link_name = "\u{1}_roaring_bitmap_andnot" ] pub fn roaring_bitmap_andnot ( x1 : * const roaring_bitmap_t , x2 : * const roaring_bitmap_t ) -> * mut roaring_bitmap_t ; } extern "C" { 
 /// Inplace version of roaring_bitmap_andnot, modifies x1. x1 != x2.
/// 
 # [ link_name = "\u{1}_roaring_bitmap_andnot_inplace" ] pub fn roaring_bitmap_andnot_inplace ( x1 : * mut roaring_bitmap_t , x2 : * const roaring_bitmap_t ) ; } extern "C" { 
 /// Frees the memory. 
 # [ link_name = "\u{1}_roaring_bitmap_free" ] pub fn roaring_bitmap_free ( r : * const roaring_bitmap_t ) ; } extern "C" { 
 /// Add value n_args from pointer vals, faster than repeatedly calling
/// roaring_bitmap_add
/// 
 # [ link_name = "\u{1}_roaring_bitmap_add_many" ] pub fn roaring_bitmap_add_many ( r : * mut roaring_bitmap_t , n_args : usize , vals : * const u32 ) ; } extern "C" { 
 /// Add value x
/// 
 # [ link_name = "\u{1}_roaring_bitmap_add" ] pub fn roaring_bitmap_add ( r : * mut roaring_bitmap_t , x : u32 ) ; } extern "C" { 
 /// Add value x
/// Returns true if a new value was added, false if the value was already existing. 
 # [ link_name = "\u{1}_roaring_bitmap_add_checked" ] pub fn roaring_bitmap_add_checked ( r : * mut roaring_bitmap_t , x : u32 ) -> bool ; } extern "C" { 
 /// Add all values in range [min, max] 
 # [ link_name = "\u{1}_roaring_bitmap_add_range_closed" ] pub fn roaring_bitmap_add_range_closed ( ra : * mut roaring_bitmap_t , min : u32 , max : u32 ) ; } extern "C" { 
 /// Add all values in range [min, max) 
 # [ link_name = "\u{1}_roaring_bitmap_add_range" ] pub fn roaring_bitmap_add_range ( ra : * mut roaring_bitmap_t , min : u64 , max : u64 ) ; } extern "C" { 
 /// Remove value x
/// 
 # [ link_name = "\u{1}_roaring_bitmap_remove" ] pub fn roaring_bitmap_remove ( r : * mut roaring_bitmap_t , x : u32 ) ; } extern "C" { 
 /// Remove all values in range [min, max] 
 # [ link_name = "\u{1}_roaring_bitmap_remove_range_closed" ] pub fn roaring_bitmap_remove_range_closed ( ra : * mut roaring_bitmap_t , min : u32 , max : u32 ) ; } extern "C" { 
 /// Remove all values in range [min, max) 
 # [ link_name = "\u{1}_roaring_bitmap_remove_range" ] pub fn roaring_bitmap_remove_range ( ra : * mut roaring_bitmap_t , min : u64 , max : u64 ) ; } extern "C" { 
 /// Remove multiple values 
 # [ link_name = "\u{1}_roaring_bitmap_remove_many" ] pub fn roaring_bitmap_remove_many ( r : * mut roaring_bitmap_t , n_args : usize , vals : * const u32 ) ; } extern "C" { 
 /// Remove value x
/// Returns true if a new value was removed, false if the value was not existing. 
 # [ link_name = "\u{1}_roaring_bitmap_remove_checked" ] pub fn roaring_bitmap_remove_checked ( r : * mut roaring_bitmap_t , x : u32 ) -> bool ; } extern "C" { 
 /// Check if value x is present 
 # [ link_name = "\u{1}_roaring_bitmap_contains" ] pub fn roaring_bitmap_contains ( r : * const roaring_bitmap_t , val : u32 ) -> bool ; } extern "C" { 
 /// Check whether a range of values from range_start (included) to range_end (excluded) is present 
 # [ link_name = "\u{1}_roaring_bitmap_contains_range" ] pub fn roaring_bitmap_contains_range ( r : * const roaring_bitmap_t , range_start : u64 , range_end : u64 ) -> bool ; } extern "C" { 
 /// Get the cardinality of the bitmap (number of elements). 
 # [ link_name = "\u{1}_roaring_bitmap_get_cardinality" ] pub fn roaring_bitmap_get_cardinality ( ra : * const roaring_bitmap_t ) -> u64 ; } extern "C" { 
 /// Returns number of elements in range [range_start, range_end). 
 # [ link_name = "\u{1}_roaring_bitmap_range_cardinality" ] pub fn roaring_bitmap_range_cardinality ( ra : * const roaring_bitmap_t , range_start : u64 , range_end : u64 ) -> u64 ; } extern "C" { 
 /// Returns true if the bitmap is empty (cardinality is zero). 
 # [ link_name = "\u{1}_roaring_bitmap_is_empty" ] pub fn roaring_bitmap_is_empty ( ra : * const roaring_bitmap_t ) -> bool ; } extern "C" { 
 /// Empties the bitmap 
 # [ link_name = "\u{1}_roaring_bitmap_clear" ] pub fn roaring_bitmap_clear ( ra : * mut roaring_bitmap_t ) ; } extern "C" { 
 /// Convert the bitmap to an array. Write the output to "ans",
/// caller is responsible to ensure that there is enough memory
/// allocated
/// (e.g., ans = malloc(roaring_bitmap_get_cardinality(mybitmap)
/// * sizeof(uint32_t)) 
 # [ link_name = "\u{1}_roaring_bitmap_to_uint32_array" ] pub fn roaring_bitmap_to_uint32_array ( ra : * const roaring_bitmap_t , ans : * mut u32 ) ; } extern "C" { 
 /// Convert the bitmap to an array from "offset" by "limit". Write the output to "ans".
/// so, you can get data in paging.
/// caller is responsible to ensure that there is enough memory
/// allocated
/// (e.g., ans = malloc(roaring_bitmap_get_cardinality(limit)
/// * sizeof(uint32_t))
/// Return false in case of failure (e.g., insufficient memory) 
 # [ link_name = "\u{1}_roaring_bitmap_range_uint32_array" ] pub fn roaring_bitmap_range_uint32_array ( ra : * const roaring_bitmap_t , offset : usize , limit : usize , ans : * mut u32 ) -> bool ; } extern "C" { 
 /// Remove run-length encoding even when it is more space efficient
/// return whether a change was applied 
 # [ link_name = "\u{1}_roaring_bitmap_remove_run_compression" ] pub fn roaring_bitmap_remove_run_compression ( r : * mut roaring_bitmap_t ) -> bool ; } extern "C" { 
 /// convert array and bitmap containers to run containers when it is more
/// efficient;
/// also convert from run containers when more space efficient.  Returns
/// true if the result has at least one run container.
/// Additional savings might be possible by calling shrinkToFit(). 
 # [ link_name = "\u{1}_roaring_bitmap_run_optimize" ] pub fn roaring_bitmap_run_optimize ( r : * mut roaring_bitmap_t ) -> bool ; } extern "C" { 
 /// If needed, reallocate memory to shrink the memory usage. Returns
/// the number of bytes saved. 
 # [ link_name = "\u{1}_roaring_bitmap_shrink_to_fit" ] pub fn roaring_bitmap_shrink_to_fit ( r : * mut roaring_bitmap_t ) -> usize ; } extern "C" { 
 /// write the bitmap to an output pointer, this output buffer should refer to
/// at least roaring_bitmap_size_in_bytes(ra) allocated bytes.
///
/// see roaring_bitmap_portable_serialize if you want a format that's compatible
/// with Java and Go implementations
///
/// this format has the benefit of being sometimes more space efficient than
/// roaring_bitmap_portable_serialize
/// e.g., when the data is sparse.
///
/// Returns how many bytes were written which should be
/// roaring_bitmap_size_in_bytes(ra). 
 # [ link_name = "\u{1}_roaring_bitmap_serialize" ] pub fn roaring_bitmap_serialize ( ra : * const roaring_bitmap_t , buf : * mut :: std :: os :: raw :: c_char ) -> usize ; } extern "C" { 
 /// use with roaring_bitmap_serialize
/// see roaring_bitmap_portable_deserialize if you want a format that's
/// compatible with Java and Go implementations 
 # [ link_name = "\u{1}_roaring_bitmap_deserialize" ] pub fn roaring_bitmap_deserialize ( buf : * const :: std :: os :: raw :: c_void ) -> * mut roaring_bitmap_t ; } extern "C" { 
 /// How many bytes are required to serialize this bitmap (NOT compatible
/// with Java and Go versions) 
 # [ link_name = "\u{1}_roaring_bitmap_size_in_bytes" ] pub fn roaring_bitmap_size_in_bytes ( ra : * const roaring_bitmap_t ) -> usize ; } extern "C" { 
 /// read a bitmap from a serialized version. This is meant to be compatible with
/// the Java and Go versions. See format specification at
/// https://github.com/RoaringBitmap/RoaringFormatSpec
/// In case of failure, a null pointer is returned.
/// This function is unsafe in the sense that if there is no valid serialized
/// bitmap at the pointer, then many bytes could be read, possibly causing a buffer
/// overflow. For a safer approach,
/// call roaring_bitmap_portable_deserialize_safe. 
 # [ link_name = "\u{1}_roaring_bitmap_portable_deserialize" ] pub fn roaring_bitmap_portable_deserialize ( buf : * const :: std :: os :: raw :: c_char ) -> * mut roaring_bitmap_t ; } extern "C" { 
 /// read a bitmap from a serialized version in a safe manner (reading up to maxbytes).
/// This is meant to be compatible with
/// the Java and Go versions. See format specification at
/// https://github.com/RoaringBitmap/RoaringFormatSpec
/// In case of failure, a null pointer is returned. 
 # [ link_name = "\u{1}_roaring_bitmap_portable_deserialize_safe" ] pub fn roaring_bitmap_portable_deserialize_safe ( buf : * const :: std :: os :: raw :: c_char , maxbytes : usize ) -> * mut roaring_bitmap_t ; } extern "C" { 
 /// Check how many bytes would be read (up to maxbytes) at this pointer if there
/// is a bitmap, returns zero if there is no valid bitmap.
/// This is meant to be compatible with
/// the Java and Go versions. See format specification at
/// https://github.com/RoaringBitmap/RoaringFormatSpec 
 # [ link_name = "\u{1}_roaring_bitmap_portable_deserialize_size" ] pub fn roaring_bitmap_portable_deserialize_size ( buf : * const :: std :: os :: raw :: c_char , maxbytes : usize ) -> usize ; } extern "C" { 
 /// How many bytes are required to serialize this bitmap (meant to be compatible
/// with Java and Go versions).  See format specification at
/// https://github.com/RoaringBitmap/RoaringFormatSpec 
 # [ link_name = "\u{1}_roaring_bitmap_portable_size_in_bytes" ] pub fn roaring_bitmap_portable_size_in_bytes ( ra : * const roaring_bitmap_t ) -> usize ; } extern "C" { 
 /// write a bitmap to a char buffer.  The output buffer should refer to at least
/// roaring_bitmap_portable_size_in_bytes(ra) bytes of allocated memory.
/// This is meant to be compatible with
/// the
/// Java and Go versions. Returns how many bytes were written which should be
/// roaring_bitmap_portable_size_in_bytes(ra).  See format specification at
/// https://github.com/RoaringBitmap/RoaringFormatSpec 
 # [ link_name = "\u{1}_roaring_bitmap_portable_serialize" ] pub fn roaring_bitmap_portable_serialize ( ra : * const roaring_bitmap_t , buf : * mut :: std :: os :: raw :: c_char ) -> usize ; } extern "C" { 
 /// Returns number of bytes required to serialize bitmap using frozen format. 
 # [ link_name = "\u{1}_roaring_bitmap_frozen_size_in_bytes" ] pub fn roaring_bitmap_frozen_size_in_bytes ( ra : * const roaring_bitmap_t ) -> usize ; } extern "C" { 
 /// Serializes bitmap using frozen format.
/// Buffer size must be at least roaring_bitmap_frozen_size_in_bytes(). 
 # [ link_name = "\u{1}_roaring_bitmap_frozen_serialize" ] pub fn roaring_bitmap_frozen_serialize ( ra : * const roaring_bitmap_t , buf : * mut :: std :: os :: raw :: c_char ) ; } extern "C" { 
 /// Creates constant bitmap that is a view of a given buffer.
/// Buffer must contain data previously written by roaring_bitmap_frozen_serialize(),
/// and additionally its beginning must be aligned by 32 bytes.
/// Length must be equal exactly to roaring_bitmap_frozen_size_in_bytes().
///
/// On error, NULL is returned.
///
/// Bitmap returned by this function can be used in all readonly contexts.
/// Bitmap must be freed as usual, by calling roaring_bitmap_free().
/// Underlying buffer must not be freed or modified while it backs any bitmaps. 
 # [ link_name = "\u{1}_roaring_bitmap_frozen_view" ] pub fn roaring_bitmap_frozen_view ( buf : * const :: std :: os :: raw :: c_char , length : usize ) -> * const roaring_bitmap_t ; } extern "C" { 
 /// Iterate over the bitmap elements. The function iterator is called once for
/// all the values with ptr (can be NULL) as the second parameter of each call.
///
/// roaring_iterator is simply a pointer to a function that returns bool
/// (true means that the iteration should continue while false means that it
/// should stop),
/// and takes (uint32_t,void*) as inputs.
///
/// Returns true if the roaring_iterator returned true throughout (so that
/// all data points were necessarily visited). 
 # [ link_name = "\u{1}_roaring_iterate" ] pub fn roaring_iterate ( ra : * const roaring_bitmap_t , iterator : roaring_iterator , ptr : * mut :: std :: os :: raw :: c_void ) -> bool ; } extern "C" { # [ link_name = "\u{1}_roaring_iterate64" ] pub fn roaring_iterate64 ( ra : * const roaring_bitmap_t , iterator : roaring_iterator64 , high_bits : u64 , ptr : * mut :: std :: os :: raw :: c_void ) -> bool ; } extern "C" { 
 /// Return true if the two bitmaps contain the same elements. 
 # [ link_name = "\u{1}_roaring_bitmap_equals" ] pub fn roaring_bitmap_equals ( ra1 : * const roaring_bitmap_t , ra2 : * const roaring_bitmap_t ) -> bool ; } extern "C" { 
 /// Return true if all the elements of ra1 are also in ra2. 
 # [ link_name = "\u{1}_roaring_bitmap_is_subset" ] pub fn roaring_bitmap_is_subset ( ra1 : * const roaring_bitmap_t , ra2 : * const roaring_bitmap_t ) -> bool ; } extern "C" { 
 /// Return true if all the elements of ra1 are also in ra2 and ra2 is strictly
/// greater
/// than ra1. 
 # [ link_name = "\u{1}_roaring_bitmap_is_strict_subset" ] pub fn roaring_bitmap_is_strict_subset ( ra1 : * const roaring_bitmap_t , ra2 : * const roaring_bitmap_t ) -> bool ; } extern "C" { 
 /// (For expert users who seek high performance.)
///
/// Computes the union between two bitmaps and returns new bitmap. The caller is
/// responsible for memory management.
///
/// The lazy version defers some computations such as the maintenance of the
/// cardinality counts. Thus you need
/// to call roaring_bitmap_repair_after_lazy after executing "lazy" computations.
/// It is safe to repeatedly call roaring_bitmap_lazy_or_inplace on the result.
/// The bitsetconversion conversion is a flag which determines
/// whether container-container operations force a bitset conversion. 
 # [ link_name = "\u{1}_roaring_bitmap_lazy_or" ] pub fn roaring_bitmap_lazy_or ( x1 : * const roaring_bitmap_t , x2 : * const roaring_bitmap_t , bitsetconversion : bool ) -> * mut roaring_bitmap_t ; } extern "C" { 
 /// (For expert users who seek high performance.)
/// Inplace version of roaring_bitmap_lazy_or, modifies x1
/// The bitsetconversion conversion is a flag which determines
/// whether container-container operations force a bitset conversion. 
 # [ link_name = "\u{1}_roaring_bitmap_lazy_or_inplace" ] pub fn roaring_bitmap_lazy_or_inplace ( x1 : * mut roaring_bitmap_t , x2 : * const roaring_bitmap_t , bitsetconversion : bool ) ; } extern "C" { 
 /// (For expert users who seek high performance.)
///
/// Execute maintenance operations on a bitmap created from
/// roaring_bitmap_lazy_or
/// or modified with roaring_bitmap_lazy_or_inplace. 
 # [ link_name = "\u{1}_roaring_bitmap_repair_after_lazy" ] pub fn roaring_bitmap_repair_after_lazy ( x1 : * mut roaring_bitmap_t ) ; } extern "C" { 
 /// Computes the symmetric difference between two bitmaps and returns new bitmap.
/// The caller is
/// responsible for memory management.
///
/// The lazy version defers some computations such as the maintenance of the
/// cardinality counts. Thus you need
/// to call roaring_bitmap_repair_after_lazy after executing "lazy" computations.
/// It is safe to repeatedly call roaring_bitmap_lazy_xor_inplace on the result.
/// 
 # [ link_name = "\u{1}_roaring_bitmap_lazy_xor" ] pub fn roaring_bitmap_lazy_xor ( x1 : * const roaring_bitmap_t , x2 : * const roaring_bitmap_t ) -> * mut roaring_bitmap_t ; } extern "C" { 
 /// (For expert users who seek high performance.)
/// Inplace version of roaring_bitmap_lazy_xor, modifies x1. x1 != x2
/// 
 # [ link_name = "\u{1}_roaring_bitmap_lazy_xor_inplace" ] pub fn roaring_bitmap_lazy_xor_inplace ( x1 : * mut roaring_bitmap_t , x2 : * const roaring_bitmap_t ) ; } extern "C" { 
 /// compute the negation of the roaring bitmap within a specified
/// interval: [range_start, range_end). The number of negated values is
/// range_end - range_start.
/// Areas outside the range are passed through unchanged. 
 # [ link_name = "\u{1}_roaring_bitmap_flip" ] pub fn roaring_bitmap_flip ( x1 : * const roaring_bitmap_t , range_start : u64 , range_end : u64 ) -> * mut roaring_bitmap_t ; } extern "C" { 
 /// compute (in place) the negation of the roaring bitmap within a specified
/// interval: [range_start, range_end). The number of negated values is
/// range_end - range_start.
/// Areas outside the range are passed through unchanged. 
 # [ link_name = "\u{1}_roaring_bitmap_flip_inplace" ] pub fn roaring_bitmap_flip_inplace ( x1 : * mut roaring_bitmap_t , range_start : u64 , range_end : u64 ) ; } extern "C" { 
 /// If the size of the roaring bitmap is strictly greater than rank, then this
/// function returns true and set element to the element of given rank.
/// Otherwise, it returns false. 
 # [ link_name = "\u{1}_roaring_bitmap_select" ] pub fn roaring_bitmap_select ( ra : * const roaring_bitmap_t , rank : u32 , element : * mut u32 ) -> bool ; } extern "C" { 
 /// roaring_bitmap_rank returns the number of integers that are smaller or equal
/// to x. 
 # [ link_name = "\u{1}_roaring_bitmap_rank" ] pub fn roaring_bitmap_rank ( bm : * const roaring_bitmap_t , x : u32 ) -> u64 ; } extern "C" { 
 /// roaring_bitmap_smallest returns the smallest value in the set.
/// Returns UINT32_MAX if the set is empty. 
 # [ link_name = "\u{1}_roaring_bitmap_minimum" ] pub fn roaring_bitmap_minimum ( bm : * const roaring_bitmap_t ) -> u32 ; } extern "C" { 
 /// roaring_bitmap_smallest returns the greatest value in the set.
/// Returns 0 if the set is empty. 
 # [ link_name = "\u{1}_roaring_bitmap_maximum" ] pub fn roaring_bitmap_maximum ( bm : * const roaring_bitmap_t ) -> u32 ; } extern "C" { 
 /// (For advanced users.)
/// Collect statistics about the bitmap, see roaring_types.h for
/// a description of roaring_statistics_t 
 # [ link_name = "\u{1}_roaring_bitmap_statistics" ] pub fn roaring_bitmap_statistics ( ra : * const roaring_bitmap_t , stat : * mut roaring_statistics_t ) ; } 
 /// What follows is code use to iterate through values in a roaring bitmap
///
/// roaring_bitmap_t *ra =...
/// roaring_uint32_iterator_t   i;
/// roaring_create_iterator(ra, &i);
/// while(i.has_value) {
/// printf("value = %d\n", i.current_value);
/// roaring_advance_uint32_iterator(&i);
/// }
///
/// Obviously, if you modify the underlying bitmap, the iterator
/// becomes invalid. So don't. 
 # [ repr ( C ) ] # [ derive ( Debug , Copy , Clone ) ] pub struct roaring_uint32_iterator_s { pub parent : * const roaring_bitmap_t , pub container_index : i32 , pub in_container_index : i32 , pub run_index : i32 , pub current_value : u32 , pub has_value : bool , pub container : * const :: std :: os :: raw :: c_void , pub typecode : u8 , pub highbits : u32 , } # [ test ] fn bindgen_test_layout_roaring_uint32_iterator_s ( ) { assert_eq ! ( :: std :: mem :: size_of :: < roaring_uint32_iterator_s > ( ) , 48usize , concat ! ( "Size of: " , stringify ! ( roaring_uint32_iterator_s ) ) ) ; assert_eq ! ( :: std :: mem :: align_of :: < roaring_uint32_iterator_s > ( ) , 8usize , concat ! ( "Alignment of " , stringify ! ( roaring_uint32_iterator_s ) ) ) ; assert_eq ! ( unsafe { & ( * ( :: std :: ptr :: null :: < roaring_uint32_iterator_s > ( ) ) ) . parent as * const _ as usize } , 0usize , concat ! ( "Offset of field: " , stringify ! ( roaring_uint32_iterator_s ) , "::" , stringify ! ( parent ) ) ) ; assert_eq ! ( unsafe { & ( * ( :: std :: ptr :: null :: < roaring_uint32_iterator_s > ( ) ) ) . container_index as * const _ as usize } , 8usize , concat ! ( "Offset of field: " , stringify ! ( roaring_uint32_iterator_s ) , "::" , stringify ! ( container_index ) ) ) ; assert_eq ! ( unsafe { & ( * ( :: std :: ptr :: null :: < roaring_uint32_iterator_s > ( ) ) ) . in_container_index as * const _ as usize } , 12usize , concat ! ( "Offset of field: " , stringify ! ( roaring_uint32_iterator_s ) , "::" , stringify ! ( in_container_index ) ) ) ; assert_eq ! ( unsafe { & ( * ( :: std :: ptr :: null :: < roaring_uint32_iterator_s > ( ) ) ) . run_index as * const _ as usize } , 16usize , concat ! ( "Offset of field: " , stringify ! ( roaring_uint32_iterator_s ) , "::" , stringify ! ( run_index ) ) ) ; assert_eq ! ( unsafe { & ( * ( :: std :: ptr :: null :: < roaring_uint32_iterator_s > ( ) ) ) . current_value as * const _ as usize } , 20usize , concat ! ( "Offset of field: " , stringify ! ( roaring_uint32_iterator_s ) , "::" , stringify ! ( current_value ) ) ) ; assert_eq ! ( unsafe { & ( * ( :: std :: ptr :: null :: < roaring_uint32_iterator_s > ( ) ) ) . has_value as * const _ as usize } , 24usize , concat ! ( "Offset of field: " , stringify ! ( roaring_uint32_iterator_s ) , "::" , stringify ! ( has_value ) ) ) ; assert_eq ! ( unsafe { & ( * ( :: std :: ptr :: null :: < roaring_uint32_iterator_s > ( ) ) ) . container as * const _ as usize } , 32usize , concat ! ( "Offset of field: " , stringify ! ( roaring_uint32_iterator_s ) , "::" , stringify ! ( container ) ) ) ; assert_eq ! ( unsafe { & ( * ( :: std :: ptr :: null :: < roaring_uint32_iterator_s > ( ) ) ) . typecode as * const _ as usize } , 40usize , concat ! ( "Offset of field: " , stringify ! ( roaring_uint32_iterator_s ) , "::" , stringify ! ( typecode ) ) ) ; assert_eq ! ( unsafe { & ( * ( :: std :: ptr :: null :: < roaring_uint32_iterator_s > ( ) ) ) . highbits as * const _ as usize } , 44usize , concat ! ( "Offset of field: " , stringify ! ( roaring_uint32_iterator_s ) , "::" , stringify ! ( highbits ) ) ) ; } pub type roaring_uint32_iterator_t = roaring_uint32_iterator_s ; extern "C" { 
 /// Initialize an iterator object that can be used to iterate through the
/// values. If there is a  value, then this iterator points to the first value
/// and it->has_value is true. The value is in it->current_value. 
 # [ link_name = "\u{1}_roaring_init_iterator" ] pub fn roaring_init_iterator ( ra : * const roaring_bitmap_t , newit : * mut roaring_uint32_iterator_t ) ; } extern "C" { 
 /// Initialize an iterator object that can be used to iterate through the
/// values. If there is a value, then this iterator points to the last value
/// and it->has_value is true. The value is in it->current_value. 
 # [ link_name = "\u{1}_roaring_init_iterator_last" ] pub fn roaring_init_iterator_last ( ra : * const roaring_bitmap_t , newit : * mut roaring_uint32_iterator_t ) ; } extern "C" { 
 /// Create an iterator object that can be used to iterate through the
/// values. Caller is responsible for calling roaring_free_iterator.
/// The iterator is initialized. If there is a  value, then this iterator
/// points to the first value and it->has_value is true.
/// The value is in it->current_value.
///
/// This function calls roaring_init_iterator. 
 # [ link_name = "\u{1}_roaring_create_iterator" ] pub fn roaring_create_iterator ( ra : * const roaring_bitmap_t ) -> * mut roaring_uint32_iterator_t ; } extern "C" { 
 /// Advance the iterator. If there is a new value, then it->has_value is true.
/// The new value is in it->current_value. Values are traversed in increasing
/// orders. For convenience, returns it->has_value. 
 # [ link_name = "\u{1}_roaring_advance_uint32_iterator" ] pub fn roaring_advance_uint32_iterator ( it : * mut roaring_uint32_iterator_t ) -> bool ; } extern "C" { 
 /// Decrement the iterator. If there is a new value, then it->has_value is true.
/// The new value is in it->current_value. Values are traversed in decreasing
/// orders. For convenience, returns it->has_value. 
 # [ link_name = "\u{1}_roaring_previous_uint32_iterator" ] pub fn roaring_previous_uint32_iterator ( it : * mut roaring_uint32_iterator_t ) -> bool ; } extern "C" { 
 /// Move the iterator to the first value >= val. If there is a such a value, then it->has_value is true.
/// The new value is in it->current_value. For convenience, returns it->has_value. 
 # [ link_name = "\u{1}_roaring_move_uint32_iterator_equalorlarger" ] pub fn roaring_move_uint32_iterator_equalorlarger ( it : * mut roaring_uint32_iterator_t , val : u32 ) -> bool ; } extern "C" { 
 /// Creates a copy of an iterator.
/// Caller must free it. 
 # [ link_name = "\u{1}_roaring_copy_uint32_iterator" ] pub fn roaring_copy_uint32_iterator ( it : * const roaring_uint32_iterator_t ) -> * mut roaring_uint32_iterator_t ; } extern "C" { 
 /// Free memory following roaring_create_iterator 
 # [ link_name = "\u{1}_roaring_free_uint32_iterator" ] pub fn roaring_free_uint32_iterator ( it : * mut roaring_uint32_iterator_t ) ; } extern "C" { # [ link_name = "\u{1}_roaring_read_uint32_iterator" ] pub fn roaring_read_uint32_iterator ( it : * mut roaring_uint32_iterator_t , buf : * mut u32 , count : u32 ) -> u32 ; } # [ repr ( C ) ] # [ derive ( Debug , Copy , Clone ) ] pub struct __locale_data { pub _address : u8 , } pub type __builtin_va_list = [ __va_list_tag ; 1usize ] ; # [ repr ( C ) ] # [ derive ( Debug , Copy , Clone ) ] pub struct __va_list_tag { pub gp_offset : :: std :: os :: raw :: c_uint , pub fp_offset : :: std :: os :: raw :: c_uint , pub overflow_arg_area : * mut :: std :: os :: raw :: c_void , pub reg_save_area : * mut :: std :: os :: raw :: c_void , } # [ test ] fn bindgen_test_layout___va_list_tag ( ) { assert_eq ! ( :: std :: mem :: size_of :: < __va_list_tag > ( ) , 24usize , concat ! ( "Size of: " , stringify ! ( __va_list_tag ) ) ) ; assert_eq ! ( :: std :: mem :: align_of :: < __va_list_tag > ( ) , 8usize , concat ! ( "Alignment of " , stringify ! ( __va_list_tag ) ) ) ; assert_eq ! ( unsafe { & ( * ( :: std :: 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 { & ( * ( :: std :: 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 { & ( * ( :: std :: 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 { & ( * ( :: std :: 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 ) ) ) ; }