typedef unsigned int size_t; typedef unsigned char __u_char; typedef unsigned short __u_short; typedef unsigned int __u_int; typedef unsigned long __u_long; typedef signed char __int8_t; typedef unsigned char __uint8_t; typedef short __int16_t; typedef unsigned short __uint16_t; typedef int __int32_t; typedef unsigned int __uint32_t; typedef long long __int64_t; typedef unsigned long long __uint64_t; typedef long long __quad_t; typedef unsigned long long __u_quad_t; typedef __u_quad_t __dev_t; typedef unsigned int __uid_t; typedef unsigned int __gid_t; typedef unsigned long __ino_t; typedef __u_quad_t __ino64_t; typedef unsigned int __mode_t; typedef unsigned int __nlink_t; typedef long __off_t; typedef __quad_t __off64_t; typedef int __pid_t; struct __anonstruct___fsid_t_1 { int __val[2] ; }; typedef struct __anonstruct___fsid_t_1 __fsid_t; typedef long __clock_t; typedef unsigned long __rlim_t; typedef __u_quad_t __rlim64_t; typedef unsigned int __id_t; typedef long __time_t; typedef unsigned int __useconds_t; typedef long __suseconds_t; typedef int __daddr_t; typedef long __swblk_t; typedef int __key_t; typedef int __clockid_t; typedef void *__timer_t; typedef long __blksize_t; typedef long __blkcnt_t; typedef __quad_t __blkcnt64_t; typedef unsigned long __fsblkcnt_t; typedef __u_quad_t __fsblkcnt64_t; typedef unsigned long __fsfilcnt_t; typedef __u_quad_t __fsfilcnt64_t; typedef int __ssize_t; typedef __off64_t __loff_t; typedef __quad_t *__qaddr_t; typedef char *__caddr_t; typedef int __intptr_t; typedef unsigned int __socklen_t; struct _IO_FILE; struct _IO_FILE; typedef struct _IO_FILE FILE; typedef struct _IO_FILE __FILE; union __anonunion___value_3 { unsigned int __wch ; char __wchb[4] ; }; struct __anonstruct___mbstate_t_2 { int __count ; union __anonunion___value_3 __value ; }; typedef struct __anonstruct___mbstate_t_2 __mbstate_t; struct __anonstruct__G_fpos_t_4 { __off_t __pos ; __mbstate_t __state ; }; typedef struct __anonstruct__G_fpos_t_4 _G_fpos_t; struct __anonstruct__G_fpos64_t_5 { __off64_t __pos ; __mbstate_t __state ; }; typedef struct __anonstruct__G_fpos64_t_5 _G_fpos64_t; typedef short _G_int16_t; typedef int _G_int32_t; typedef unsigned short _G_uint16_t; typedef unsigned int _G_uint32_t; typedef __builtin_va_list __gnuc_va_list; struct _IO_jump_t; struct _IO_jump_t; struct _IO_FILE; typedef void _IO_lock_t; struct _IO_marker { struct _IO_marker *_next ; struct _IO_FILE *_sbuf ; int _pos ; }; enum __codecvt_result { __codecvt_ok = 0, __codecvt_partial = 1, __codecvt_error = 2, __codecvt_noconv = 3 } ; struct _IO_FILE { int _flags ; char *_IO_read_ptr ; char *_IO_read_end ; char *_IO_read_base ; char *_IO_write_base ; char *_IO_write_ptr ; char *_IO_write_end ; char *_IO_buf_base ; char *_IO_buf_end ; char *_IO_save_base ; char *_IO_backup_base ; char *_IO_save_end ; struct _IO_marker *_markers ; struct _IO_FILE *_chain ; int _fileno ; int _flags2 ; __off_t _old_offset ; unsigned short _cur_column ; signed char _vtable_offset ; char _shortbuf[1] ; _IO_lock_t *_lock ; __off64_t _offset ; void *__pad1 ; void *__pad2 ; void *__pad3 ; void *__pad4 ; size_t __pad5 ; int _mode ; char _unused2[(15U * sizeof(int ) - 4U * sizeof(void *)) - sizeof(size_t )] ; }; typedef struct _IO_FILE _IO_FILE; struct _IO_FILE_plus; struct _IO_FILE_plus; typedef __ssize_t __io_read_fn(void *__cookie , char *__buf , size_t __nbytes ); typedef __ssize_t __io_write_fn(void *__cookie , char const *__buf , size_t __n ); typedef int __io_seek_fn(void *__cookie , __off64_t *__pos , int __w ); typedef int __io_close_fn(void *__cookie ); typedef __gnuc_va_list va_list; typedef __off64_t off_t; typedef __ssize_t ssize_t; typedef _G_fpos64_t fpos_t; typedef long wchar_t; struct __anonstruct___wait_terminated_6 { unsigned int __w_termsig : 7 ; unsigned int __w_coredump : 1 ; unsigned int __w_retcode : 8 ; unsigned int : 16 ; }; struct __anonstruct___wait_stopped_7 { unsigned int __w_stopval : 8 ; unsigned int __w_stopsig : 8 ; unsigned int : 16 ; }; union wait { int w_status ; struct __anonstruct___wait_terminated_6 __wait_terminated ; struct __anonstruct___wait_stopped_7 __wait_stopped ; }; union __anonunion___WAIT_STATUS_8 { union wait *__uptr ; int *__iptr ; }; typedef union __anonunion___WAIT_STATUS_8 __attribute__((__transparent_union__)) __WAIT_STATUS; struct __anonstruct_div_t_9 { int quot ; int rem ; }; typedef struct __anonstruct_div_t_9 div_t; struct __anonstruct_ldiv_t_10 { long quot ; long rem ; }; typedef struct __anonstruct_ldiv_t_10 ldiv_t; struct __anonstruct_lldiv_t_11 { long long quot ; long long rem ; }; typedef struct __anonstruct_lldiv_t_11 lldiv_t; typedef __u_char u_char; typedef __u_short u_short; typedef __u_int u_int; typedef __u_long u_long; typedef __quad_t quad_t; typedef __u_quad_t u_quad_t; typedef __fsid_t fsid_t; typedef __loff_t loff_t; typedef __ino64_t ino_t; typedef __dev_t dev_t; typedef __gid_t gid_t; typedef __mode_t mode_t; typedef __nlink_t nlink_t; typedef __uid_t uid_t; typedef __pid_t pid_t; typedef __id_t id_t; typedef __daddr_t daddr_t; typedef __caddr_t caddr_t; typedef __key_t key_t; typedef __clock_t clock_t; typedef __time_t time_t; typedef __clockid_t clockid_t; typedef __timer_t timer_t; typedef unsigned long ulong; typedef unsigned short ushort; typedef unsigned int uint; typedef signed char int8_t; typedef short int16_t; typedef int int32_t; typedef long long int64_t; typedef unsigned char u_int8_t; typedef unsigned short u_int16_t; typedef unsigned int u_int32_t; typedef unsigned long long u_int64_t; typedef int register_t; typedef int __sig_atomic_t; struct __anonstruct___sigset_t_12 { unsigned long __val[1024U / (8U * sizeof(unsigned long ))] ; }; typedef struct __anonstruct___sigset_t_12 __sigset_t; typedef __sigset_t sigset_t; struct timespec { __time_t tv_sec ; long tv_nsec ; }; struct timeval { __time_t tv_sec ; __suseconds_t tv_usec ; }; typedef __suseconds_t suseconds_t; typedef long __fd_mask; struct __anonstruct_fd_set_13 { __fd_mask __fds_bits[1024 / (8 * (int )sizeof(__fd_mask ))] ; }; typedef struct __anonstruct_fd_set_13 fd_set; typedef __fd_mask fd_mask; typedef __blksize_t blksize_t; typedef __blkcnt64_t blkcnt_t; typedef __fsblkcnt64_t fsblkcnt_t; typedef __fsfilcnt64_t fsfilcnt_t; typedef unsigned long pthread_t; union __anonunion_pthread_attr_t_14 { char __size[36] ; long __align ; }; typedef union __anonunion_pthread_attr_t_14 pthread_attr_t; struct __pthread_internal_slist { struct __pthread_internal_slist *__next ; }; typedef struct __pthread_internal_slist __pthread_slist_t; union __anonunion____missing_field_name_16 { int __spins ; __pthread_slist_t __list ; }; struct __pthread_mutex_s { int __lock ; unsigned int __count ; int __owner ; int __kind ; unsigned int __nusers ; union __anonunion____missing_field_name_16 __annonCompField1 ; }; union __anonunion_pthread_mutex_t_15 { struct __pthread_mutex_s __data ; char __size[24] ; long __align ; }; typedef union __anonunion_pthread_mutex_t_15 pthread_mutex_t; union __anonunion_pthread_mutexattr_t_17 { char __size[4] ; long __align ; }; typedef union __anonunion_pthread_mutexattr_t_17 pthread_mutexattr_t; struct __anonstruct___data_19 { int __lock ; unsigned int __futex ; unsigned long long __total_seq ; unsigned long long __wakeup_seq ; unsigned long long __woken_seq ; void *__mutex ; unsigned int __nwaiters ; unsigned int __broadcast_seq ; }; union __anonunion_pthread_cond_t_18 { struct __anonstruct___data_19 __data ; char __size[48] ; long long __align ; }; typedef union __anonunion_pthread_cond_t_18 pthread_cond_t; union __anonunion_pthread_condattr_t_20 { char __size[4] ; long __align ; }; typedef union __anonunion_pthread_condattr_t_20 pthread_condattr_t; typedef unsigned int pthread_key_t; typedef int pthread_once_t; struct __anonstruct___data_22 { int __lock ; unsigned int __nr_readers ; unsigned int __readers_wakeup ; unsigned int __writer_wakeup ; unsigned int __nr_readers_queued ; unsigned int __nr_writers_queued ; unsigned char __flags ; unsigned char __shared ; unsigned char __pad1 ; unsigned char __pad2 ; int __writer ; }; union __anonunion_pthread_rwlock_t_21 { struct __anonstruct___data_22 __data ; char __size[32] ; long __align ; }; typedef union __anonunion_pthread_rwlock_t_21 pthread_rwlock_t; union __anonunion_pthread_rwlockattr_t_23 { char __size[8] ; long __align ; }; typedef union __anonunion_pthread_rwlockattr_t_23 pthread_rwlockattr_t; typedef int volatile pthread_spinlock_t; union __anonunion_pthread_barrier_t_24 { char __size[20] ; long __align ; }; typedef union __anonunion_pthread_barrier_t_24 pthread_barrier_t; union __anonunion_pthread_barrierattr_t_25 { char __size[4] ; int __align ; }; typedef union __anonunion_pthread_barrierattr_t_25 pthread_barrierattr_t; struct random_data { int32_t *fptr ; int32_t *rptr ; int32_t *state ; int rand_type ; int rand_deg ; int rand_sep ; int32_t *end_ptr ; }; struct drand48_data { unsigned short __x[3] ; unsigned short __old_x[3] ; unsigned short __c ; unsigned short __init ; unsigned long long __a ; }; typedef int (*__compar_fn_t)(void const * , void const * ); struct __locale_data; struct __locale_struct { struct __locale_data *__locales[13] ; unsigned short const *__ctype_b ; int const *__ctype_tolower ; int const *__ctype_toupper ; char const *__names[13] ; }; typedef struct __locale_struct *__locale_t; typedef __locale_t locale_t; enum __anonenum_26 { _ISupper = 256, _ISlower = 512, _ISalpha = 1024, _ISdigit = 2048, _ISxdigit = 4096, _ISspace = 8192, _ISprint = 16384, _ISgraph = 32768, _ISblank = 1, _IScntrl = 2, _ISpunct = 4, _ISalnum = 8 } ; struct tm { int tm_sec ; int tm_min ; int tm_hour ; int tm_mday ; int tm_mon ; int tm_year ; int tm_wday ; int tm_yday ; int tm_isdst ; long tm_gmtoff ; char const *tm_zone ; }; struct itimerspec { struct timespec it_interval ; struct timespec it_value ; }; struct sigevent; struct sigevent; typedef __useconds_t useconds_t; typedef __intptr_t intptr_t; typedef __socklen_t socklen_t; enum __anonenum_27 { _PC_LINK_MAX = 0, _PC_MAX_CANON = 1, _PC_MAX_INPUT = 2, _PC_NAME_MAX = 3, _PC_PATH_MAX = 4, _PC_PIPE_BUF = 5, _PC_CHOWN_RESTRICTED = 6, _PC_NO_TRUNC = 7, _PC_VDISABLE = 8, _PC_SYNC_IO = 9, _PC_ASYNC_IO = 10, _PC_PRIO_IO = 11, _PC_SOCK_MAXBUF = 12, _PC_FILESIZEBITS = 13, _PC_REC_INCR_XFER_SIZE = 14, _PC_REC_MAX_XFER_SIZE = 15, _PC_REC_MIN_XFER_SIZE = 16, _PC_REC_XFER_ALIGN = 17, _PC_ALLOC_SIZE_MIN = 18, _PC_SYMLINK_MAX = 19, _PC_2_SYMLINKS = 20 } ; enum __anonenum_28 { _SC_ARG_MAX = 0, _SC_CHILD_MAX = 1, _SC_CLK_TCK = 2, _SC_NGROUPS_MAX = 3, _SC_OPEN_MAX = 4, _SC_STREAM_MAX = 5, _SC_TZNAME_MAX = 6, _SC_JOB_CONTROL = 7, _SC_SAVED_IDS = 8, _SC_REALTIME_SIGNALS = 9, _SC_PRIORITY_SCHEDULING = 10, _SC_TIMERS = 11, _SC_ASYNCHRONOUS_IO = 12, _SC_PRIORITIZED_IO = 13, _SC_SYNCHRONIZED_IO = 14, _SC_FSYNC = 15, _SC_MAPPED_FILES = 16, _SC_MEMLOCK = 17, _SC_MEMLOCK_RANGE = 18, _SC_MEMORY_PROTECTION = 19, _SC_MESSAGE_PASSING = 20, _SC_SEMAPHORES = 21, _SC_SHARED_MEMORY_OBJECTS = 22, _SC_AIO_LISTIO_MAX = 23, _SC_AIO_MAX = 24, _SC_AIO_PRIO_DELTA_MAX = 25, _SC_DELAYTIMER_MAX = 26, _SC_MQ_OPEN_MAX = 27, _SC_MQ_PRIO_MAX = 28, _SC_VERSION = 29, _SC_PAGESIZE = 30, _SC_RTSIG_MAX = 31, _SC_SEM_NSEMS_MAX = 32, _SC_SEM_VALUE_MAX = 33, _SC_SIGQUEUE_MAX = 34, _SC_TIMER_MAX = 35, _SC_BC_BASE_MAX = 36, _SC_BC_DIM_MAX = 37, _SC_BC_SCALE_MAX = 38, _SC_BC_STRING_MAX = 39, _SC_COLL_WEIGHTS_MAX = 40, _SC_EQUIV_CLASS_MAX = 41, _SC_EXPR_NEST_MAX = 42, _SC_LINE_MAX = 43, _SC_RE_DUP_MAX = 44, _SC_CHARCLASS_NAME_MAX = 45, _SC_2_VERSION = 46, _SC_2_C_BIND = 47, _SC_2_C_DEV = 48, _SC_2_FORT_DEV = 49, _SC_2_FORT_RUN = 50, _SC_2_SW_DEV = 51, _SC_2_LOCALEDEF = 52, _SC_PII = 53, _SC_PII_XTI = 54, _SC_PII_SOCKET = 55, _SC_PII_INTERNET = 56, _SC_PII_OSI = 57, _SC_POLL = 58, _SC_SELECT = 59, _SC_UIO_MAXIOV = 60, _SC_IOV_MAX = 60, _SC_PII_INTERNET_STREAM = 61, _SC_PII_INTERNET_DGRAM = 62, _SC_PII_OSI_COTS = 63, _SC_PII_OSI_CLTS = 64, _SC_PII_OSI_M = 65, _SC_T_IOV_MAX = 66, _SC_THREADS = 67, _SC_THREAD_SAFE_FUNCTIONS = 68, _SC_GETGR_R_SIZE_MAX = 69, _SC_GETPW_R_SIZE_MAX = 70, _SC_LOGIN_NAME_MAX = 71, _SC_TTY_NAME_MAX = 72, _SC_THREAD_DESTRUCTOR_ITERATIONS = 73, _SC_THREAD_KEYS_MAX = 74, _SC_THREAD_STACK_MIN = 75, _SC_THREAD_THREADS_MAX = 76, _SC_THREAD_ATTR_STACKADDR = 77, _SC_THREAD_ATTR_STACKSIZE = 78, _SC_THREAD_PRIORITY_SCHEDULING = 79, _SC_THREAD_PRIO_INHERIT = 80, _SC_THREAD_PRIO_PROTECT = 81, _SC_THREAD_PROCESS_SHARED = 82, _SC_NPROCESSORS_CONF = 83, _SC_NPROCESSORS_ONLN = 84, _SC_PHYS_PAGES = 85, _SC_AVPHYS_PAGES = 86, _SC_ATEXIT_MAX = 87, _SC_PASS_MAX = 88, _SC_XOPEN_VERSION = 89, _SC_XOPEN_XCU_VERSION = 90, _SC_XOPEN_UNIX = 91, _SC_XOPEN_CRYPT = 92, _SC_XOPEN_ENH_I18N = 93, _SC_XOPEN_SHM = 94, _SC_2_CHAR_TERM = 95, _SC_2_C_VERSION = 96, _SC_2_UPE = 97, _SC_XOPEN_XPG2 = 98, _SC_XOPEN_XPG3 = 99, _SC_XOPEN_XPG4 = 100, _SC_CHAR_BIT = 101, _SC_CHAR_MAX = 102, _SC_CHAR_MIN = 103, _SC_INT_MAX = 104, _SC_INT_MIN = 105, _SC_LONG_BIT = 106, _SC_WORD_BIT = 107, _SC_MB_LEN_MAX = 108, _SC_NZERO = 109, _SC_SSIZE_MAX = 110, _SC_SCHAR_MAX = 111, _SC_SCHAR_MIN = 112, _SC_SHRT_MAX = 113, _SC_SHRT_MIN = 114, _SC_UCHAR_MAX = 115, _SC_UINT_MAX = 116, _SC_ULONG_MAX = 117, _SC_USHRT_MAX = 118, _SC_NL_ARGMAX = 119, _SC_NL_LANGMAX = 120, _SC_NL_MSGMAX = 121, _SC_NL_NMAX = 122, _SC_NL_SETMAX = 123, _SC_NL_TEXTMAX = 124, _SC_XBS5_ILP32_OFF32 = 125, _SC_XBS5_ILP32_OFFBIG = 126, _SC_XBS5_LP64_OFF64 = 127, _SC_XBS5_LPBIG_OFFBIG = 128, _SC_XOPEN_LEGACY = 129, _SC_XOPEN_REALTIME = 130, _SC_XOPEN_REALTIME_THREADS = 131, _SC_ADVISORY_INFO = 132, _SC_BARRIERS = 133, _SC_BASE = 134, _SC_C_LANG_SUPPORT = 135, _SC_C_LANG_SUPPORT_R = 136, _SC_CLOCK_SELECTION = 137, _SC_CPUTIME = 138, _SC_THREAD_CPUTIME = 139, _SC_DEVICE_IO = 140, _SC_DEVICE_SPECIFIC = 141, _SC_DEVICE_SPECIFIC_R = 142, _SC_FD_MGMT = 143, _SC_FIFO = 144, _SC_PIPE = 145, _SC_FILE_ATTRIBUTES = 146, _SC_FILE_LOCKING = 147, _SC_FILE_SYSTEM = 148, _SC_MONOTONIC_CLOCK = 149, _SC_MULTI_PROCESS = 150, _SC_SINGLE_PROCESS = 151, _SC_NETWORKING = 152, _SC_READER_WRITER_LOCKS = 153, _SC_SPIN_LOCKS = 154, _SC_REGEXP = 155, _SC_REGEX_VERSION = 156, _SC_SHELL = 157, _SC_SIGNALS = 158, _SC_SPAWN = 159, _SC_SPORADIC_SERVER = 160, _SC_THREAD_SPORADIC_SERVER = 161, _SC_SYSTEM_DATABASE = 162, _SC_SYSTEM_DATABASE_R = 163, _SC_TIMEOUTS = 164, _SC_TYPED_MEMORY_OBJECTS = 165, _SC_USER_GROUPS = 166, _SC_USER_GROUPS_R = 167, _SC_2_PBS = 168, _SC_2_PBS_ACCOUNTING = 169, _SC_2_PBS_LOCATE = 170, _SC_2_PBS_MESSAGE = 171, _SC_2_PBS_TRACK = 172, _SC_SYMLOOP_MAX = 173, _SC_STREAMS = 174, _SC_2_PBS_CHECKPOINT = 175, _SC_V6_ILP32_OFF32 = 176, _SC_V6_ILP32_OFFBIG = 177, _SC_V6_LP64_OFF64 = 178, _SC_V6_LPBIG_OFFBIG = 179, _SC_HOST_NAME_MAX = 180, _SC_TRACE = 181, _SC_TRACE_EVENT_FILTER = 182, _SC_TRACE_INHERIT = 183, _SC_TRACE_LOG = 184, _SC_LEVEL1_ICACHE_SIZE = 185, _SC_LEVEL1_ICACHE_ASSOC = 186, _SC_LEVEL1_ICACHE_LINESIZE = 187, _SC_LEVEL1_DCACHE_SIZE = 188, _SC_LEVEL1_DCACHE_ASSOC = 189, _SC_LEVEL1_DCACHE_LINESIZE = 190, _SC_LEVEL2_CACHE_SIZE = 191, _SC_LEVEL2_CACHE_ASSOC = 192, _SC_LEVEL2_CACHE_LINESIZE = 193, _SC_LEVEL3_CACHE_SIZE = 194, _SC_LEVEL3_CACHE_ASSOC = 195, _SC_LEVEL3_CACHE_LINESIZE = 196, _SC_LEVEL4_CACHE_SIZE = 197, _SC_LEVEL4_CACHE_ASSOC = 198, _SC_LEVEL4_CACHE_LINESIZE = 199, _SC_IPV6 = 235, _SC_RAW_SOCKETS = 236, _SC_V7_ILP32_OFF32 = 237, _SC_V7_ILP32_OFFBIG = 238, _SC_V7_LP64_OFF64 = 239, _SC_V7_LPBIG_OFFBIG = 240, _SC_SS_REPL_MAX = 241, _SC_TRACE_EVENT_NAME_MAX = 242, _SC_TRACE_NAME_MAX = 243, _SC_TRACE_SYS_MAX = 244, _SC_TRACE_USER_EVENT_MAX = 245, _SC_XOPEN_STREAMS = 246, _SC_THREAD_ROBUST_PRIO_INHERIT = 247, _SC_THREAD_ROBUST_PRIO_PROTECT = 248 } ; enum __anonenum_29 { _CS_PATH = 0, _CS_V6_WIDTH_RESTRICTED_ENVS = 1, _CS_GNU_LIBC_VERSION = 2, _CS_GNU_LIBPTHREAD_VERSION = 3, _CS_V5_WIDTH_RESTRICTED_ENVS = 4, _CS_V7_WIDTH_RESTRICTED_ENVS = 5, _CS_LFS_CFLAGS = 1000, _CS_LFS_LDFLAGS = 1001, _CS_LFS_LIBS = 1002, _CS_LFS_LINTFLAGS = 1003, _CS_LFS64_CFLAGS = 1004, _CS_LFS64_LDFLAGS = 1005, _CS_LFS64_LIBS = 1006, _CS_LFS64_LINTFLAGS = 1007, _CS_XBS5_ILP32_OFF32_CFLAGS = 1100, _CS_XBS5_ILP32_OFF32_LDFLAGS = 1101, _CS_XBS5_ILP32_OFF32_LIBS = 1102, _CS_XBS5_ILP32_OFF32_LINTFLAGS = 1103, _CS_XBS5_ILP32_OFFBIG_CFLAGS = 1104, _CS_XBS5_ILP32_OFFBIG_LDFLAGS = 1105, _CS_XBS5_ILP32_OFFBIG_LIBS = 1106, _CS_XBS5_ILP32_OFFBIG_LINTFLAGS = 1107, _CS_XBS5_LP64_OFF64_CFLAGS = 1108, _CS_XBS5_LP64_OFF64_LDFLAGS = 1109, _CS_XBS5_LP64_OFF64_LIBS = 1110, _CS_XBS5_LP64_OFF64_LINTFLAGS = 1111, _CS_XBS5_LPBIG_OFFBIG_CFLAGS = 1112, _CS_XBS5_LPBIG_OFFBIG_LDFLAGS = 1113, _CS_XBS5_LPBIG_OFFBIG_LIBS = 1114, _CS_XBS5_LPBIG_OFFBIG_LINTFLAGS = 1115, _CS_POSIX_V6_ILP32_OFF32_CFLAGS = 1116, _CS_POSIX_V6_ILP32_OFF32_LDFLAGS = 1117, _CS_POSIX_V6_ILP32_OFF32_LIBS = 1118, _CS_POSIX_V6_ILP32_OFF32_LINTFLAGS = 1119, _CS_POSIX_V6_ILP32_OFFBIG_CFLAGS = 1120, _CS_POSIX_V6_ILP32_OFFBIG_LDFLAGS = 1121, _CS_POSIX_V6_ILP32_OFFBIG_LIBS = 1122, _CS_POSIX_V6_ILP32_OFFBIG_LINTFLAGS = 1123, _CS_POSIX_V6_LP64_OFF64_CFLAGS = 1124, _CS_POSIX_V6_LP64_OFF64_LDFLAGS = 1125, _CS_POSIX_V6_LP64_OFF64_LIBS = 1126, _CS_POSIX_V6_LP64_OFF64_LINTFLAGS = 1127, _CS_POSIX_V6_LPBIG_OFFBIG_CFLAGS = 1128, _CS_POSIX_V6_LPBIG_OFFBIG_LDFLAGS = 1129, _CS_POSIX_V6_LPBIG_OFFBIG_LIBS = 1130, _CS_POSIX_V6_LPBIG_OFFBIG_LINTFLAGS = 1131, _CS_POSIX_V7_ILP32_OFF32_CFLAGS = 1132, _CS_POSIX_V7_ILP32_OFF32_LDFLAGS = 1133, _CS_POSIX_V7_ILP32_OFF32_LIBS = 1134, _CS_POSIX_V7_ILP32_OFF32_LINTFLAGS = 1135, _CS_POSIX_V7_ILP32_OFFBIG_CFLAGS = 1136, _CS_POSIX_V7_ILP32_OFFBIG_LDFLAGS = 1137, _CS_POSIX_V7_ILP32_OFFBIG_LIBS = 1138, _CS_POSIX_V7_ILP32_OFFBIG_LINTFLAGS = 1139, _CS_POSIX_V7_LP64_OFF64_CFLAGS = 1140, _CS_POSIX_V7_LP64_OFF64_LDFLAGS = 1141, _CS_POSIX_V7_LP64_OFF64_LIBS = 1142, _CS_POSIX_V7_LP64_OFF64_LINTFLAGS = 1143, _CS_POSIX_V7_LPBIG_OFFBIG_CFLAGS = 1144, _CS_POSIX_V7_LPBIG_OFFBIG_LDFLAGS = 1145, _CS_POSIX_V7_LPBIG_OFFBIG_LIBS = 1146, _CS_POSIX_V7_LPBIG_OFFBIG_LINTFLAGS = 1147, _CS_V6_ENV = 1148, _CS_V7_ENV = 1149 } ; struct flock { short l_type ; short l_whence ; __off64_t l_start ; __off64_t l_len ; __pid_t l_pid ; }; struct stat { __dev_t st_dev ; unsigned short __pad1 ; __ino_t __st_ino ; __mode_t st_mode ; __nlink_t st_nlink ; __uid_t st_uid ; __gid_t st_gid ; __dev_t st_rdev ; unsigned short __pad2 ; __off64_t st_size ; __blksize_t st_blksize ; __blkcnt64_t st_blocks ; struct timespec st_atim ; struct timespec st_mtim ; struct timespec st_ctim ; __ino64_t st_ino ; }; enum __anonenum_ACTION_30 { FIND = 0, ENTER = 1 } ; typedef enum __anonenum_ACTION_30 ACTION; struct entry { char *key ; void *data ; }; typedef struct entry ENTRY; struct _ENTRY; struct _ENTRY; enum __anonenum_VISIT_31 { preorder = 0, postorder = 1, endorder = 2, leaf = 3 } ; typedef enum __anonenum_VISIT_31 VISIT; typedef void (*__action_fn_t)(void const *__nodep , VISIT __value , int __level ); typedef signed char int8; typedef unsigned char uint8; typedef short int16; typedef unsigned short uint16; typedef int int32; typedef unsigned int uint32; typedef long long int64; typedef unsigned long long uint64; typedef int uint16_vap; struct __anonstruct_TIFFHeaderCommon_32 { uint16 tiff_magic ; uint16 tiff_version ; }; typedef struct __anonstruct_TIFFHeaderCommon_32 TIFFHeaderCommon; struct __anonstruct_TIFFHeaderClassic_33 { uint16 tiff_magic ; uint16 tiff_version ; uint32 tiff_diroff ; }; typedef struct __anonstruct_TIFFHeaderClassic_33 TIFFHeaderClassic; struct __anonstruct_TIFFHeaderBig_34 { uint16 tiff_magic ; uint16 tiff_version ; uint16 tiff_offsetsize ; uint16 tiff_unused ; uint64 tiff_diroff ; }; typedef struct __anonstruct_TIFFHeaderBig_34 TIFFHeaderBig; enum __anonenum_TIFFDataType_35 { TIFF_NOTYPE = 0, TIFF_BYTE = 1, TIFF_ASCII = 2, TIFF_SHORT = 3, TIFF_LONG = 4, TIFF_RATIONAL = 5, TIFF_SBYTE = 6, TIFF_UNDEFINED = 7, TIFF_SSHORT = 8, TIFF_SLONG = 9, TIFF_SRATIONAL = 10, TIFF_FLOAT = 11, TIFF_DOUBLE = 12, TIFF_IFD = 13, TIFF_LONG8 = 16, TIFF_SLONG8 = 17, TIFF_IFD8 = 18 } ; typedef enum __anonenum_TIFFDataType_35 TIFFDataType; struct tiff; typedef struct tiff TIFF; typedef long tmsize_t; typedef uint64 toff_t; typedef uint32 ttag_t; typedef uint16 tdir_t; typedef uint16 tsample_t; typedef uint32 tstrile_t; typedef tstrile_t tstrip_t; typedef tstrile_t ttile_t; typedef tmsize_t tsize_t; typedef void *tdata_t; typedef void *thandle_t; typedef unsigned char TIFFRGBValue; struct __anonstruct_TIFFDisplay_36 { float d_mat[3][3] ; float d_YCR ; float d_YCG ; float d_YCB ; uint32 d_Vrwr ; uint32 d_Vrwg ; uint32 d_Vrwb ; float d_Y0R ; float d_Y0G ; float d_Y0B ; float d_gammaR ; float d_gammaG ; float d_gammaB ; }; typedef struct __anonstruct_TIFFDisplay_36 TIFFDisplay; struct __anonstruct_TIFFYCbCrToRGB_37 { TIFFRGBValue *clamptab ; int *Cr_r_tab ; int *Cb_b_tab ; int32 *Cr_g_tab ; int32 *Cb_g_tab ; int32 *Y_tab ; }; typedef struct __anonstruct_TIFFYCbCrToRGB_37 TIFFYCbCrToRGB; struct __anonstruct_TIFFCIELabToRGB_38 { int range ; float rstep ; float gstep ; float bstep ; float X0 ; float Y0 ; float Z0 ; TIFFDisplay display ; float Yr2r[1501] ; float Yg2g[1501] ; float Yb2b[1501] ; }; typedef struct __anonstruct_TIFFCIELabToRGB_38 TIFFCIELabToRGB; struct _TIFFRGBAImage; typedef struct _TIFFRGBAImage TIFFRGBAImage; typedef void (*tileContigRoutine)(TIFFRGBAImage * , uint32 * , uint32 , uint32 , uint32 , uint32 , int32 , int32 , unsigned char * ); typedef void (*tileSeparateRoutine)(TIFFRGBAImage * , uint32 * , uint32 , uint32 , uint32 , uint32 , int32 , int32 , unsigned char * , unsigned char * , unsigned char * , unsigned char * ); union __anonunion_put_39 { void (*any)(TIFFRGBAImage * ) ; void (*contig)(TIFFRGBAImage * , uint32 * , uint32 , uint32 , uint32 , uint32 , int32 , int32 , unsigned char * ) ; void (*separate)(TIFFRGBAImage * , uint32 * , uint32 , uint32 , uint32 , uint32 , int32 , int32 , unsigned char * , unsigned char * , unsigned char * , unsigned char * ) ; }; struct _TIFFRGBAImage { TIFF *tif ; int stoponerr ; int isContig ; int alpha ; uint32 width ; uint32 height ; uint16 bitspersample ; uint16 samplesperpixel ; uint16 orientation ; uint16 req_orientation ; uint16 photometric ; uint16 *redcmap ; uint16 *greencmap ; uint16 *bluecmap ; int (*get)(TIFFRGBAImage * , uint32 * , uint32 , uint32 ) ; union __anonunion_put_39 put ; TIFFRGBValue *Map ; uint32 **BWmap ; uint32 **PALmap ; TIFFYCbCrToRGB *ycbcr ; TIFFCIELabToRGB *cielab ; uint8 *UaToAa ; uint8 *Bitdepth16To8 ; int row_offset ; int col_offset ; }; typedef int (*TIFFInitMethod)(TIFF * , int ); struct __anonstruct_TIFFCodec_40 { char *name ; uint16 scheme ; int (*init)(TIFF * , int ) ; }; typedef struct __anonstruct_TIFFCodec_40 TIFFCodec; typedef void (*TIFFErrorHandler)(char const * , char const * , va_list ); typedef void (*TIFFErrorHandlerExt)(thandle_t , char const * , char const * , va_list ); typedef tmsize_t (*TIFFReadWriteProc)(thandle_t , void * , tmsize_t ); typedef toff_t (*TIFFSeekProc)(thandle_t , toff_t , int ); typedef int (*TIFFCloseProc)(thandle_t ); typedef toff_t (*TIFFSizeProc)(thandle_t ); typedef int (*TIFFMapFileProc)(thandle_t , void **base , toff_t *size ); typedef void (*TIFFUnmapFileProc)(thandle_t , void *base , toff_t size ); typedef void (*TIFFExtendProc)(TIFF * ); struct _TIFFField; typedef struct _TIFFField TIFFField; struct _TIFFFieldArray; typedef struct _TIFFFieldArray TIFFFieldArray; typedef int (*TIFFVSetMethod)(TIFF * , uint32 , va_list ); typedef int (*TIFFVGetMethod)(TIFF * , uint32 , va_list ); typedef void (*TIFFPrintMethod)(TIFF * , FILE * , long ); struct __anonstruct_TIFFTagMethods_41 { int (*vsetfield)(TIFF * , uint32 , va_list ) ; int (*vgetfield)(TIFF * , uint32 , va_list ) ; void (*printdir)(TIFF * , FILE * , long ) ; }; typedef struct __anonstruct_TIFFTagMethods_41 TIFFTagMethods; struct __anonstruct_TIFFFieldInfo_42 { ttag_t field_tag ; short field_readcount ; short field_writecount ; TIFFDataType field_type ; unsigned short field_bit ; unsigned char field_oktochange ; unsigned char field_passcount ; char *field_name ; }; typedef struct __anonstruct_TIFFFieldInfo_42 TIFFFieldInfo; struct __anonstruct_TIFFTagValue_43 { TIFFField const *info ; int count ; void *value ; }; typedef struct __anonstruct_TIFFTagValue_43 TIFFTagValue; struct __anonstruct_TIFFDirectory_44 { unsigned long td_fieldsset[4] ; uint32 td_imagewidth ; uint32 td_imagelength ; uint32 td_imagedepth ; uint32 td_tilewidth ; uint32 td_tilelength ; uint32 td_tiledepth ; uint32 td_subfiletype ; uint16 td_bitspersample ; uint16 td_sampleformat ; uint16 td_compression ; uint16 td_photometric ; uint16 td_threshholding ; uint16 td_fillorder ; uint16 td_orientation ; uint16 td_samplesperpixel ; uint32 td_rowsperstrip ; uint16 td_minsamplevalue ; uint16 td_maxsamplevalue ; double td_sminsamplevalue ; double td_smaxsamplevalue ; float td_xresolution ; float td_yresolution ; uint16 td_resolutionunit ; uint16 td_planarconfig ; float td_xposition ; float td_yposition ; uint16 td_pagenumber[2] ; uint16 *td_colormap[3] ; uint16 td_halftonehints[2] ; uint16 td_extrasamples ; uint16 *td_sampleinfo ; uint32 td_stripsperimage ; uint32 td_nstrips ; uint64 *td_stripoffset ; uint64 *td_stripbytecount ; int td_stripbytecountsorted ; uint16 td_nsubifd ; uint64 *td_subifd ; uint16 td_ycbcrsubsampling[2] ; uint16 td_ycbcrpositioning ; uint16 *td_transferfunction[3] ; float *td_refblackwhite ; int td_inknameslen ; char *td_inknames ; int td_customValueCount ; TIFFTagValue *td_customValues ; }; typedef struct __anonstruct_TIFFDirectory_44 TIFFDirectory; enum __anonenum_TIFFSetGetFieldType_45 { TIFF_SETGET_UNDEFINED = 0, TIFF_SETGET_ASCII = 1, TIFF_SETGET_UINT8 = 2, TIFF_SETGET_SINT8 = 3, TIFF_SETGET_UINT16 = 4, TIFF_SETGET_SINT16 = 5, TIFF_SETGET_UINT32 = 6, TIFF_SETGET_SINT32 = 7, TIFF_SETGET_UINT64 = 8, TIFF_SETGET_SINT64 = 9, TIFF_SETGET_FLOAT = 10, TIFF_SETGET_DOUBLE = 11, TIFF_SETGET_IFD8 = 12, TIFF_SETGET_INT = 13, TIFF_SETGET_UINT16_PAIR = 14, TIFF_SETGET_C0_ASCII = 15, TIFF_SETGET_C0_UINT8 = 16, TIFF_SETGET_C0_SINT8 = 17, TIFF_SETGET_C0_UINT16 = 18, TIFF_SETGET_C0_SINT16 = 19, TIFF_SETGET_C0_UINT32 = 20, TIFF_SETGET_C0_SINT32 = 21, TIFF_SETGET_C0_UINT64 = 22, TIFF_SETGET_C0_SINT64 = 23, TIFF_SETGET_C0_FLOAT = 24, TIFF_SETGET_C0_DOUBLE = 25, TIFF_SETGET_C0_IFD8 = 26, TIFF_SETGET_C16_ASCII = 27, TIFF_SETGET_C16_UINT8 = 28, TIFF_SETGET_C16_SINT8 = 29, TIFF_SETGET_C16_UINT16 = 30, TIFF_SETGET_C16_SINT16 = 31, TIFF_SETGET_C16_UINT32 = 32, TIFF_SETGET_C16_SINT32 = 33, TIFF_SETGET_C16_UINT64 = 34, TIFF_SETGET_C16_SINT64 = 35, TIFF_SETGET_C16_FLOAT = 36, TIFF_SETGET_C16_DOUBLE = 37, TIFF_SETGET_C16_IFD8 = 38, TIFF_SETGET_C32_ASCII = 39, TIFF_SETGET_C32_UINT8 = 40, TIFF_SETGET_C32_SINT8 = 41, TIFF_SETGET_C32_UINT16 = 42, TIFF_SETGET_C32_SINT16 = 43, TIFF_SETGET_C32_UINT32 = 44, TIFF_SETGET_C32_SINT32 = 45, TIFF_SETGET_C32_UINT64 = 46, TIFF_SETGET_C32_SINT64 = 47, TIFF_SETGET_C32_FLOAT = 48, TIFF_SETGET_C32_DOUBLE = 49, TIFF_SETGET_C32_IFD8 = 50, TIFF_SETGET_OTHER = 51 } ; typedef enum __anonenum_TIFFSetGetFieldType_45 TIFFSetGetFieldType; enum __anonenum_TIFFFieldArrayType_46 { tfiatImage = 0, tfiatExif = 1, tfiatOther = 2 } ; typedef enum __anonenum_TIFFFieldArrayType_46 TIFFFieldArrayType; struct _TIFFFieldArray { TIFFFieldArrayType type ; uint32 allocated_size ; uint32 count ; TIFFField *fields ; }; struct _TIFFField { uint32 field_tag ; short field_readcount ; short field_writecount ; TIFFDataType field_type ; uint32 reserved ; TIFFSetGetFieldType set_field_type ; TIFFSetGetFieldType get_field_type ; unsigned short field_bit ; unsigned char field_oktochange ; unsigned char field_passcount ; char *field_name ; TIFFFieldArray *field_subfields ; }; union __anonunion_tdir_offset_48 { uint16 toff_short ; uint32 toff_long ; uint64 toff_long8 ; }; struct __anonstruct_TIFFDirEntry_47 { uint16 tdir_tag ; uint16 tdir_type ; uint64 tdir_count ; union __anonunion_tdir_offset_48 tdir_offset ; }; typedef struct __anonstruct_TIFFDirEntry_47 TIFFDirEntry; struct client_info { struct client_info *next ; void *data ; char *name ; }; typedef struct client_info TIFFClientInfoLink; typedef unsigned char tidataval_t; typedef tidataval_t *tidata_t; typedef void (*TIFFVoidMethod)(TIFF * ); typedef int (*TIFFBoolMethod)(TIFF * ); typedef int (*TIFFPreMethod)(TIFF * , uint16 ); typedef int (*TIFFCodeMethod)(TIFF *tif , uint8 *buf , tmsize_t size , uint16 sample ); typedef int (*TIFFSeekMethod)(TIFF * , uint32 ); typedef void (*TIFFPostMethod)(TIFF *tif , uint8 *buf , tmsize_t size ); typedef uint32 (*TIFFStripMethod)(TIFF * , uint32 ); typedef void (*TIFFTileMethod)(TIFF * , uint32 * , uint32 * ); union __anonunion_tif_header_49 { TIFFHeaderCommon common ; TIFFHeaderClassic classic ; TIFFHeaderBig big ; }; struct tiff { char *tif_name ; int tif_fd ; int tif_mode ; uint32 tif_flags ; uint64 tif_diroff ; uint64 tif_nextdiroff ; uint64 *tif_dirlist ; uint16 tif_dirlistsize ; uint16 tif_dirnumber ; TIFFDirectory tif_dir ; TIFFDirectory tif_customdir ; union __anonunion_tif_header_49 tif_header ; uint16 tif_header_size ; uint32 tif_row ; uint16 tif_curdir ; uint32 tif_curstrip ; uint64 tif_curoff ; uint64 tif_dataoff ; uint16 tif_nsubifd ; uint64 tif_subifdoff ; uint32 tif_col ; uint32 tif_curtile ; tmsize_t tif_tilesize ; int tif_decodestatus ; int (*tif_fixuptags)(TIFF * ) ; int (*tif_setupdecode)(TIFF * ) ; int (*tif_predecode)(TIFF * , uint16 ) ; int (*tif_setupencode)(TIFF * ) ; int tif_encodestatus ; int (*tif_preencode)(TIFF * , uint16 ) ; int (*tif_postencode)(TIFF * ) ; int (*tif_decoderow)(TIFF *tif , uint8 *buf , tmsize_t size , uint16 sample ) ; int (*tif_encoderow)(TIFF *tif , uint8 *buf , tmsize_t size , uint16 sample ) ; int (*tif_decodestrip)(TIFF *tif , uint8 *buf , tmsize_t size , uint16 sample ) ; int (*tif_encodestrip)(TIFF *tif , uint8 *buf , tmsize_t size , uint16 sample ) ; int (*tif_decodetile)(TIFF *tif , uint8 *buf , tmsize_t size , uint16 sample ) ; int (*tif_encodetile)(TIFF *tif , uint8 *buf , tmsize_t size , uint16 sample ) ; void (*tif_close)(TIFF * ) ; int (*tif_seek)(TIFF * , uint32 ) ; void (*tif_cleanup)(TIFF * ) ; uint32 (*tif_defstripsize)(TIFF * , uint32 ) ; void (*tif_deftilesize)(TIFF * , uint32 * , uint32 * ) ; uint8 *tif_data ; tmsize_t tif_scanlinesize ; tmsize_t tif_scanlineskew ; uint8 *tif_rawdata ; tmsize_t tif_rawdatasize ; tmsize_t tif_rawdataoff ; tmsize_t tif_rawdataloaded ; uint8 *tif_rawcp ; tmsize_t tif_rawcc ; uint8 *tif_base ; tmsize_t tif_size ; int (*tif_mapproc)(thandle_t , void **base , toff_t *size ) ; void (*tif_unmapproc)(thandle_t , void *base , toff_t size ) ; thandle_t tif_clientdata ; tmsize_t (*tif_readproc)(thandle_t , void * , tmsize_t ) ; tmsize_t (*tif_writeproc)(thandle_t , void * , tmsize_t ) ; toff_t (*tif_seekproc)(thandle_t , toff_t , int ) ; int (*tif_closeproc)(thandle_t ) ; toff_t (*tif_sizeproc)(thandle_t ) ; void (*tif_postdecode)(TIFF *tif , uint8 *buf , tmsize_t size ) ; TIFFField **tif_fields ; size_t tif_nfields ; TIFFField const *tif_foundfield ; TIFFTagMethods tif_tagmethods ; TIFFClientInfoLink *tif_clientinfo ; TIFFFieldArray *tif_fieldscompat ; size_t tif_nfieldscompat ; }; enum __anonenum_t2p_cs_t_50 { T2P_CS_BILEVEL = 1, T2P_CS_GRAY = 2, T2P_CS_RGB = 4, T2P_CS_CMYK = 8, T2P_CS_LAB = 16, T2P_CS_PALETTE = 4096, T2P_CS_CALGRAY = 32, T2P_CS_CALRGB = 64, T2P_CS_ICCBASED = 128 } ; typedef enum __anonenum_t2p_cs_t_50 t2p_cs_t; enum __anonenum_t2p_compress_t_51 { T2P_COMPRESS_NONE = 0, T2P_COMPRESS_G4 = 1, T2P_COMPRESS_ZIP = 4 } ; typedef enum __anonenum_t2p_compress_t_51 t2p_compress_t; enum __anonenum_t2p_transcode_t_52 { T2P_TRANSCODE_RAW = 1, T2P_TRANSCODE_ENCODE = 2 } ; typedef enum __anonenum_t2p_transcode_t_52 t2p_transcode_t; enum __anonenum_t2p_sample_t_53 { T2P_SAMPLE_NOTHING = 0, T2P_SAMPLE_ABGR_TO_RGB = 1, T2P_SAMPLE_RGBA_TO_RGB = 2, T2P_SAMPLE_RGBAA_TO_RGB = 4, T2P_SAMPLE_YCBCR_TO_RGB = 8, T2P_SAMPLE_YCBCR_TO_LAB = 16, T2P_SAMPLE_REALIZE_PALETTE = 32, T2P_SAMPLE_SIGNED_TO_UNSIGNED = 64, T2P_SAMPLE_LAB_SIGNED_TO_UNSIGNED = 64, T2P_SAMPLE_PLANAR_SEPARATE_TO_CONTIG = 256 } ; typedef enum __anonenum_t2p_sample_t_53 t2p_sample_t; enum __anonenum_t2p_err_t_54 { T2P_ERR_OK = 0, T2P_ERR_ERROR = 1 } ; typedef enum __anonenum_t2p_err_t_54 t2p_err_t; struct __anonstruct_T2P_PAGE_55 { tdir_t page_directory ; uint32 page_number ; ttile_t page_tilecount ; uint32 page_extra ; }; typedef struct __anonstruct_T2P_PAGE_55 T2P_PAGE; struct __anonstruct_T2P_BOX_56 { float x1 ; float y1 ; float x2 ; float y2 ; float mat[9] ; }; typedef struct __anonstruct_T2P_BOX_56 T2P_BOX; struct __anonstruct_T2P_TILE_57 { T2P_BOX tile_box ; }; typedef struct __anonstruct_T2P_TILE_57 T2P_TILE; struct __anonstruct_T2P_TILES_58 { ttile_t tiles_tilecount ; uint32 tiles_tilewidth ; uint32 tiles_tilelength ; uint32 tiles_tilecountx ; uint32 tiles_tilecounty ; uint32 tiles_edgetilewidth ; uint32 tiles_edgetilelength ; T2P_TILE *tiles_tiles ; }; typedef struct __anonstruct_T2P_TILES_58 T2P_TILES; struct __anonstruct_T2P_59 { t2p_err_t t2p_error ; T2P_PAGE *tiff_pages ; T2P_TILES *tiff_tiles ; tdir_t tiff_pagecount ; uint16 tiff_compression ; uint16 tiff_photometric ; uint16 tiff_fillorder ; uint16 tiff_bitspersample ; uint16 tiff_samplesperpixel ; uint16 tiff_planar ; uint32 tiff_width ; uint32 tiff_length ; float tiff_xres ; float tiff_yres ; uint16 tiff_orientation ; toff_t tiff_dataoffset ; tsize_t tiff_datasize ; uint16 tiff_resunit ; uint16 pdf_centimeters ; uint16 pdf_overrideres ; uint16 pdf_overridepagesize ; float pdf_defaultxres ; float pdf_defaultyres ; float pdf_xres ; float pdf_yres ; float pdf_defaultpagewidth ; float pdf_defaultpagelength ; float pdf_pagewidth ; float pdf_pagelength ; float pdf_imagewidth ; float pdf_imagelength ; T2P_BOX pdf_mediabox ; T2P_BOX pdf_imagebox ; uint16 pdf_majorversion ; uint16 pdf_minorversion ; uint32 pdf_catalog ; uint32 pdf_pages ; uint32 pdf_info ; uint32 pdf_palettecs ; uint16 pdf_fitwindow ; uint32 pdf_startxref ; char pdf_fileid[33] ; char pdf_datetime[17] ; char pdf_creator[512] ; char pdf_author[512] ; char pdf_title[512] ; char pdf_subject[512] ; char pdf_keywords[512] ; t2p_cs_t pdf_colorspace ; uint16 pdf_colorspace_invert ; uint16 pdf_switchdecode ; uint16 pdf_palettesize ; unsigned char *pdf_palette ; int pdf_labrange[4] ; t2p_compress_t pdf_defaultcompression ; uint16 pdf_defaultcompressionquality ; t2p_compress_t pdf_compression ; uint16 pdf_compressionquality ; uint16 pdf_nopassthrough ; t2p_transcode_t pdf_transcode ; t2p_sample_t pdf_sample ; uint32 *pdf_xrefoffsets ; uint32 pdf_xrefcount ; tdir_t pdf_page ; float tiff_whitechromaticities[2] ; float tiff_primarychromaticities[6] ; float tiff_referenceblackwhite[2] ; float *tiff_transferfunction[3] ; int pdf_image_interpolate ; uint16 tiff_transferfunctioncount ; uint32 pdf_icccs ; uint32 tiff_iccprofilelength ; tdata_t tiff_iccprofile ; FILE *outputfile ; int outputdisable ; tsize_t outputwritten ; }; typedef struct __anonstruct_T2P_59 T2P; extern struct _IO_FILE_plus _IO_2_1_stdin_ ; extern struct _IO_FILE_plus _IO_2_1_stdout_ ; extern struct _IO_FILE_plus _IO_2_1_stderr_ ; extern int __underflow(_IO_FILE * ) ; extern int __uflow(_IO_FILE * ) ; extern int __overflow(_IO_FILE * , int ) ; extern int _IO_getc(_IO_FILE *__fp ) ; extern int _IO_putc(int __c , _IO_FILE *__fp ) ; extern __attribute__((__nothrow__)) int _IO_feof(_IO_FILE *__fp ) ; extern __attribute__((__nothrow__)) int _IO_ferror(_IO_FILE *__fp ) ; extern int _IO_peekc_locked(_IO_FILE *__fp ) ; extern __attribute__((__nothrow__)) void _IO_flockfile(_IO_FILE * ) ; extern __attribute__((__nothrow__)) void _IO_funlockfile(_IO_FILE * ) ; extern __attribute__((__nothrow__)) int _IO_ftrylockfile(_IO_FILE * ) ; extern int _IO_vfscanf(_IO_FILE * __restrict , char const * __restrict , __gnuc_va_list , int * __restrict ) ; extern int _IO_vfprintf(_IO_FILE * __restrict , char const * __restrict , __gnuc_va_list ) ; extern __ssize_t _IO_padn(_IO_FILE * , int , __ssize_t ) ; extern size_t _IO_sgetn(_IO_FILE * , void * , size_t ) ; extern __off64_t _IO_seekoff(_IO_FILE * , __off64_t , int , int ) ; extern __off64_t _IO_seekpos(_IO_FILE * , __off64_t , int ) ; extern __attribute__((__nothrow__)) void _IO_free_backup_area(_IO_FILE * ) ; extern struct _IO_FILE *stdin ; extern struct _IO_FILE *stdout ; extern struct _IO_FILE *stderr ; extern __attribute__((__nothrow__)) int remove(char const *__filename ) ; extern __attribute__((__nothrow__)) int rename(char const *__old , char const *__new ) ; extern __attribute__((__nothrow__)) int renameat(int __oldfd , char const *__old , int __newfd , char const *__new ) ; extern FILE *tmpfile(void) __asm__("tmpfile64") ; extern __attribute__((__nothrow__)) char *tmpnam(char *__s ) ; extern __attribute__((__nothrow__)) char *tmpnam_r(char *__s ) ; extern __attribute__((__nothrow__)) char *tempnam(char const *__dir , char const *__pfx ) __attribute__((__malloc__)) ; extern int fclose(FILE *__stream ) ; extern int fflush(FILE *__stream ) ; extern int fflush_unlocked(FILE *__stream ) ; extern FILE *fopen(char const * __restrict __filename , char const * __restrict __modes ) __asm__("fopen64") ; extern FILE *freopen(char const * __restrict __filename , char const * __restrict __modes , FILE * __restrict __stream ) __asm__("freopen64") ; extern __attribute__((__nothrow__)) FILE *fdopen(int __fd , char const *__modes ) ; extern __attribute__((__nothrow__)) FILE *fmemopen(void *__s , size_t __len , char const *__modes ) ; extern __attribute__((__nothrow__)) FILE *open_memstream(char **__bufloc , size_t *__sizeloc ) ; extern __attribute__((__nothrow__)) void setbuf(FILE * __restrict __stream , char * __restrict __buf ) ; extern __attribute__((__nothrow__)) int setvbuf(FILE * __restrict __stream , char * __restrict __buf , int __modes , size_t __n ) ; extern __attribute__((__nothrow__)) void setbuffer(FILE * __restrict __stream , char * __restrict __buf , size_t __size ) ; extern __attribute__((__nothrow__)) void setlinebuf(FILE *__stream ) ; extern int fprintf(FILE * __restrict __stream , char const * __restrict __format , ...) ; extern int printf(char const * __restrict __format , ...) ; extern __attribute__((__nothrow__)) int sprintf(char * __restrict __s , char const * __restrict __format , ...) ; extern int vfprintf(FILE * __restrict __s , char const * __restrict __format , __gnuc_va_list __arg ) ; __inline extern int vprintf(char const * __restrict __fmt , __gnuc_va_list __arg ) ; extern __attribute__((__nothrow__)) int vsprintf(char * __restrict __s , char const * __restrict __format , __gnuc_va_list __arg ) ; extern __attribute__((__nothrow__)) int ( /* format attribute */ snprintf)(char * __restrict __s , size_t __maxlen , char const * __restrict __format , ...) ; extern __attribute__((__nothrow__)) int ( /* format attribute */ vsnprintf)(char * __restrict __s , size_t __maxlen , char const * __restrict __format , __gnuc_va_list __arg ) ; extern int ( /* format attribute */ vdprintf)(int __fd , char const * __restrict __fmt , __gnuc_va_list __arg ) ; extern int ( /* format attribute */ dprintf)(int __fd , char const * __restrict __fmt , ...) ; extern int fscanf(FILE * __restrict __stream , char const * __restrict __format , ...) __asm__("__isoc99_fscanf") ; extern int scanf(char const * __restrict __format , ...) __asm__("__isoc99_scanf") ; extern __attribute__((__nothrow__)) int sscanf(char const * __restrict __s , char const * __restrict __format , ...) __asm__("__isoc99_sscanf") ; extern int ( /* format attribute */ vfscanf)(FILE * __restrict __s , char const * __restrict __format , __gnuc_va_list __arg ) __asm__("__isoc99_vfscanf") ; extern int ( /* format attribute */ vscanf)(char const * __restrict __format , __gnuc_va_list __arg ) __asm__("__isoc99_vscanf") ; extern __attribute__((__nothrow__)) int ( /* format attribute */ vsscanf)(char const * __restrict __s , char const * __restrict __format , __gnuc_va_list __arg ) __asm__("__isoc99_vsscanf") ; extern int fgetc(FILE *__stream ) ; extern int getc(FILE *__stream ) ; __inline extern int getchar(void) ; __inline extern int getc_unlocked(FILE *__fp ) ; __inline extern int getchar_unlocked(void) ; __inline extern int fgetc_unlocked(FILE *__fp ) ; extern int fputc(int __c , FILE *__stream ) ; extern int putc(int __c , FILE *__stream ) ; __inline extern int putchar(int __c ) ; __inline extern int fputc_unlocked(int __c , FILE *__stream ) ; __inline extern int putc_unlocked(int __c , FILE *__stream ) ; __inline extern int putchar_unlocked(int __c ) ; extern int getw(FILE *__stream ) ; extern int putw(int __w , FILE *__stream ) ; extern char *fgets(char * __restrict __s , int __n , FILE * __restrict __stream ) ; extern char *gets(char *__s ) ; extern __ssize_t __getdelim(char ** __restrict __lineptr , size_t * __restrict __n , int __delimiter , FILE * __restrict __stream ) ; extern __ssize_t getdelim(char ** __restrict __lineptr , size_t * __restrict __n , int __delimiter , FILE * __restrict __stream ) ; extern __ssize_t getline(char ** __restrict __lineptr , size_t * __restrict __n , FILE * __restrict __stream ) ; extern int fputs(char const * __restrict __s , FILE * __restrict __stream ) ; extern int puts(char const *__s ) ; extern int ungetc(int __c , FILE *__stream ) ; extern size_t fread(void * __restrict __ptr , size_t __size , size_t __n , FILE * __restrict __stream ) ; extern size_t fwrite(void const * __restrict __ptr , size_t __size , size_t __n , FILE * __restrict __s ) ; extern size_t fread_unlocked(void * __restrict __ptr , size_t __size , size_t __n , FILE * __restrict __stream ) ; extern size_t fwrite_unlocked(void const * __restrict __ptr , size_t __size , size_t __n , FILE * __restrict __stream ) ; extern int fseek(FILE *__stream , long __off , int __whence ) ; extern long ftell(FILE *__stream ) ; extern void rewind(FILE *__stream ) ; extern int fseeko(FILE *__stream , __off64_t __off , int __whence ) __asm__("fseeko64") ; extern __off64_t ftello(FILE *__stream ) __asm__("ftello64") ; extern int fgetpos(FILE * __restrict __stream , fpos_t * __restrict __pos ) __asm__("fgetpos64") ; extern int fsetpos(FILE *__stream , fpos_t const *__pos ) __asm__("fsetpos64") ; extern __attribute__((__nothrow__)) void clearerr(FILE *__stream ) ; extern __attribute__((__nothrow__)) int feof(FILE *__stream ) ; extern __attribute__((__nothrow__)) int ferror(FILE *__stream ) ; extern __attribute__((__nothrow__)) void clearerr_unlocked(FILE *__stream ) ; __inline extern __attribute__((__nothrow__)) int feof_unlocked(FILE *__stream ) ; __inline extern __attribute__((__nothrow__)) int ferror_unlocked(FILE *__stream ) ; extern void perror(char const *__s ) ; extern int sys_nerr ; extern char const * const sys_errlist[] ; extern __attribute__((__nothrow__)) int fileno(FILE *__stream ) ; extern __attribute__((__nothrow__)) int fileno_unlocked(FILE *__stream ) ; extern FILE *popen(char const *__command , char const *__modes ) ; extern int pclose(FILE *__stream ) ; extern __attribute__((__nothrow__)) char *ctermid(char *__s ) ; extern __attribute__((__nothrow__)) void flockfile(FILE *__stream ) ; extern __attribute__((__nothrow__)) int ftrylockfile(FILE *__stream ) ; extern __attribute__((__nothrow__)) void funlockfile(FILE *__stream ) ; __inline extern int vprintf(char const * __restrict __fmt , __gnuc_va_list __arg ) { int tmp ; { tmp = vfprintf((FILE */* __restrict */)stdout, __fmt, __arg); return (tmp); } } __inline extern int getchar(void) { int tmp ; { tmp = _IO_getc(stdin); return (tmp); } } __inline extern int fgetc_unlocked(FILE *__fp ) { long tmp ; int tmp___0 ; char *tmp___1 ; int tmp___2 ; long tmp___3 ; { tmp___3 = __builtin_expect((long )((unsigned int )__fp->_IO_read_ptr >= (unsigned int )__fp->_IO_read_end), 0L); if (tmp___3) { tmp___0 = __uflow(__fp); tmp___2 = tmp___0; } else { tmp___1 = __fp->_IO_read_ptr; (__fp->_IO_read_ptr) ++; tmp___2 = (int )*((unsigned char *)tmp___1); } return (tmp___2); } } __inline extern int getc_unlocked(FILE *__fp ) { long tmp ; int tmp___0 ; char *tmp___1 ; int tmp___2 ; long tmp___3 ; { tmp___3 = __builtin_expect((long )((unsigned int )__fp->_IO_read_ptr >= (unsigned int )__fp->_IO_read_end), 0L); if (tmp___3) { tmp___0 = __uflow(__fp); tmp___2 = tmp___0; } else { tmp___1 = __fp->_IO_read_ptr; (__fp->_IO_read_ptr) ++; tmp___2 = (int )*((unsigned char *)tmp___1); } return (tmp___2); } } __inline extern int getchar_unlocked(void) { long tmp ; int tmp___0 ; char *tmp___1 ; int tmp___2 ; long tmp___3 ; { tmp___3 = __builtin_expect((long )((unsigned int )stdin->_IO_read_ptr >= (unsigned int )stdin->_IO_read_end), 0L); if (tmp___3) { tmp___0 = __uflow(stdin); tmp___2 = tmp___0; } else { tmp___1 = stdin->_IO_read_ptr; (stdin->_IO_read_ptr) ++; tmp___2 = (int )*((unsigned char *)tmp___1); } return (tmp___2); } } __inline extern int putchar(int __c ) { int tmp ; { tmp = _IO_putc(__c, stdout); return (tmp); } } __inline extern int fputc_unlocked(int __c , FILE *__stream ) { long tmp ; int tmp___0 ; char *tmp___1 ; char tmp___2 ; int tmp___3 ; long tmp___4 ; { tmp___4 = __builtin_expect((long )((unsigned int )__stream->_IO_write_ptr >= (unsigned int )__stream->_IO_write_end), 0L); if (tmp___4) { tmp___0 = __overflow(__stream, (int )((unsigned char )__c)); tmp___3 = tmp___0; } else { tmp___1 = __stream->_IO_write_ptr; (__stream->_IO_write_ptr) ++; tmp___2 = (char )__c; *tmp___1 = tmp___2; tmp___3 = (int )((unsigned char )tmp___2); } return (tmp___3); } } __inline extern int putc_unlocked(int __c , FILE *__stream ) { long tmp ; int tmp___0 ; char *tmp___1 ; char tmp___2 ; int tmp___3 ; long tmp___4 ; { tmp___4 = __builtin_expect((long )((unsigned int )__stream->_IO_write_ptr >= (unsigned int )__stream->_IO_write_end), 0L); if (tmp___4) { tmp___0 = __overflow(__stream, (int )((unsigned char )__c)); tmp___3 = tmp___0; } else { tmp___1 = __stream->_IO_write_ptr; (__stream->_IO_write_ptr) ++; tmp___2 = (char )__c; *tmp___1 = tmp___2; tmp___3 = (int )((unsigned char )tmp___2); } return (tmp___3); } } __inline extern int putchar_unlocked(int __c ) { long tmp ; int tmp___0 ; char *tmp___1 ; char tmp___2 ; int tmp___3 ; long tmp___4 ; { tmp___4 = __builtin_expect((long )((unsigned int )stdout->_IO_write_ptr >= (unsigned int )stdout->_IO_write_end), 0L); if (tmp___4) { tmp___0 = __overflow(stdout, (int )((unsigned char )__c)); tmp___3 = tmp___0; } else { tmp___1 = stdout->_IO_write_ptr; (stdout->_IO_write_ptr) ++; tmp___2 = (char )__c; *tmp___1 = tmp___2; tmp___3 = (int )((unsigned char )tmp___2); } return (tmp___3); } } __inline extern __attribute__((__nothrow__)) int feof_unlocked(FILE *__stream ) ; __inline extern int feof_unlocked(FILE *__stream ) { { return ((__stream->_flags & 0x10) != 0); } } __inline extern __attribute__((__nothrow__)) int ferror_unlocked(FILE *__stream ) ; __inline extern int ferror_unlocked(FILE *__stream ) { { return ((__stream->_flags & 0x20) != 0); } } extern __attribute__((__nothrow__)) size_t __ctype_get_mb_cur_max(void) ; __inline extern __attribute__((__nothrow__)) double atof(char const *__nptr ) __attribute__((__pure__, __nonnull__(1))) ; __inline extern __attribute__((__nothrow__)) int atoi(char const *__nptr ) __attribute__((__pure__, __nonnull__(1))) ; __inline extern __attribute__((__nothrow__)) long atol(char const *__nptr ) __attribute__((__pure__, __nonnull__(1))) ; __inline extern __attribute__((__nothrow__)) long long atoll(char const *__nptr ) __attribute__((__pure__, __nonnull__(1))) ; extern __attribute__((__nothrow__)) double strtod(char const * __restrict __nptr , char ** __restrict __endptr ) __attribute__((__nonnull__(1))) ; extern __attribute__((__nothrow__)) float strtof(char const * __restrict __nptr , char ** __restrict __endptr ) __attribute__((__nonnull__(1))) ; extern __attribute__((__nothrow__)) long double strtold(char const * __restrict __nptr , char ** __restrict __endptr ) __attribute__((__nonnull__(1))) ; extern __attribute__((__nothrow__)) long strtol(char const * __restrict __nptr , char ** __restrict __endptr , int __base ) __attribute__((__nonnull__(1))) ; extern __attribute__((__nothrow__)) unsigned long strtoul(char const * __restrict __nptr , char ** __restrict __endptr , int __base ) __attribute__((__nonnull__(1))) ; extern __attribute__((__nothrow__)) long long strtoq(char const * __restrict __nptr , char ** __restrict __endptr , int __base ) __attribute__((__nonnull__(1))) ; extern __attribute__((__nothrow__)) unsigned long long strtouq(char const * __restrict __nptr , char ** __restrict __endptr , int __base ) __attribute__((__nonnull__(1))) ; extern __attribute__((__nothrow__)) long long strtoll(char const * __restrict __nptr , char ** __restrict __endptr , int __base ) __attribute__((__nonnull__(1))) ; extern __attribute__((__nothrow__)) unsigned long long strtoull(char const * __restrict __nptr , char ** __restrict __endptr , int __base ) __attribute__((__nonnull__(1))) ; __inline extern __attribute__((__nothrow__)) double atof(char const *__nptr ) __attribute__((__pure__, __nonnull__(1))) ; __inline extern double atof(char const *__nptr ) { double tmp ; { tmp = strtod((char const */* __restrict */)__nptr, (char **/* __restrict */)((char **)((void *)0))); return (tmp); } } __inline extern __attribute__((__nothrow__)) int atoi(char const *__nptr ) __attribute__((__pure__, __nonnull__(1))) ; __inline extern int atoi(char const *__nptr ) { long tmp ; { tmp = strtol((char const */* __restrict */)__nptr, (char **/* __restrict */)((char **)((void *)0)), 10); return ((int )tmp); } } __inline extern __attribute__((__nothrow__)) long atol(char const *__nptr ) __attribute__((__pure__, __nonnull__(1))) ; __inline extern long atol(char const *__nptr ) { long tmp ; { tmp = strtol((char const */* __restrict */)__nptr, (char **/* __restrict */)((char **)((void *)0)), 10); return (tmp); } } __inline extern __attribute__((__nothrow__)) long long atoll(char const *__nptr ) __attribute__((__pure__, __nonnull__(1))) ; __inline extern long long atoll(char const *__nptr ) { long long tmp ; { tmp = strtoll((char const */* __restrict */)__nptr, (char **/* __restrict */)((char **)((void *)0)), 10); return (tmp); } } extern __attribute__((__nothrow__)) char *l64a(long __n ) ; extern __attribute__((__nothrow__)) long a64l(char const *__s ) __attribute__((__pure__, __nonnull__(1))) ; extern int select(int __nfds , fd_set * __restrict __readfds , fd_set * __restrict __writefds , fd_set * __restrict __exceptfds , struct timeval * __restrict __timeout ) ; extern int pselect(int __nfds , fd_set * __restrict __readfds , fd_set * __restrict __writefds , fd_set * __restrict __exceptfds , struct timespec const * __restrict __timeout , __sigset_t const * __restrict __sigmask ) ; __inline extern __attribute__((__nothrow__)) unsigned int gnu_dev_major(unsigned long long __dev ) ; __inline extern __attribute__((__nothrow__)) unsigned int gnu_dev_minor(unsigned long long __dev ) ; __inline extern __attribute__((__nothrow__)) unsigned long long gnu_dev_makedev(unsigned int __major , unsigned int __minor ) ; __inline extern __attribute__((__nothrow__)) unsigned int gnu_dev_major(unsigned long long __dev ) ; __inline extern unsigned int gnu_dev_major(unsigned long long __dev ) { { return ((unsigned int )(((__dev >> 8) & 4095ULL) | (unsigned long long )((unsigned int )(__dev >> 32) & 4294963200U))); } } __inline extern __attribute__((__nothrow__)) unsigned int gnu_dev_minor(unsigned long long __dev ) ; __inline extern unsigned int gnu_dev_minor(unsigned long long __dev ) { { return ((unsigned int )((__dev & 255ULL) | (unsigned long long )((unsigned int )(__dev >> 12) & 4294967040U))); } } __inline extern __attribute__((__nothrow__)) unsigned long long gnu_dev_makedev(unsigned int __major , unsigned int __minor ) ; __inline extern unsigned long long gnu_dev_makedev(unsigned int __major , unsigned int __minor ) { { return (((unsigned long long )((__minor & 255U) | ((__major & 4095U) << 8)) | ((unsigned long long )(__minor & 4294967040U) << 12)) | ((unsigned long long )(__major & 4294963200U) << 32)); } } extern __attribute__((__nothrow__)) long random(void) ; extern __attribute__((__nothrow__)) void srandom(unsigned int __seed ) ; extern __attribute__((__nothrow__)) char *initstate(unsigned int __seed , char *__statebuf , size_t __statelen ) __attribute__((__nonnull__(2))) ; extern __attribute__((__nothrow__)) char *setstate(char *__statebuf ) __attribute__((__nonnull__(1))) ; extern __attribute__((__nothrow__)) int random_r(struct random_data * __restrict __buf , int32_t * __restrict __result ) __attribute__((__nonnull__(1,2))) ; extern __attribute__((__nothrow__)) int srandom_r(unsigned int __seed , struct random_data *__buf ) __attribute__((__nonnull__(2))) ; extern __attribute__((__nothrow__)) int initstate_r(unsigned int __seed , char * __restrict __statebuf , size_t __statelen , struct random_data * __restrict __buf ) __attribute__((__nonnull__(2,4))) ; extern __attribute__((__nothrow__)) int setstate_r(char * __restrict __statebuf , struct random_data * __restrict __buf ) __attribute__((__nonnull__(1,2))) ; extern __attribute__((__nothrow__)) int rand(void) ; extern __attribute__((__nothrow__)) void srand(unsigned int __seed ) ; extern __attribute__((__nothrow__)) int rand_r(unsigned int *__seed ) ; extern __attribute__((__nothrow__)) double drand48(void) ; extern __attribute__((__nothrow__)) double erand48(unsigned short *__xsubi ) __attribute__((__nonnull__(1))) ; extern __attribute__((__nothrow__)) long lrand48(void) ; extern __attribute__((__nothrow__)) long nrand48(unsigned short *__xsubi ) __attribute__((__nonnull__(1))) ; extern __attribute__((__nothrow__)) long mrand48(void) ; extern __attribute__((__nothrow__)) long jrand48(unsigned short *__xsubi ) __attribute__((__nonnull__(1))) ; extern __attribute__((__nothrow__)) void srand48(long __seedval ) ; extern __attribute__((__nothrow__)) unsigned short *seed48(unsigned short *__seed16v ) __attribute__((__nonnull__(1))) ; extern __attribute__((__nothrow__)) void lcong48(unsigned short *__param ) __attribute__((__nonnull__(1))) ; extern __attribute__((__nothrow__)) int drand48_r(struct drand48_data * __restrict __buffer , double * __restrict __result ) __attribute__((__nonnull__(1,2))) ; extern __attribute__((__nothrow__)) int erand48_r(unsigned short *__xsubi , struct drand48_data * __restrict __buffer , double * __restrict __result ) __attribute__((__nonnull__(1,2))) ; extern __attribute__((__nothrow__)) int lrand48_r(struct drand48_data * __restrict __buffer , long * __restrict __result ) __attribute__((__nonnull__(1,2))) ; extern __attribute__((__nothrow__)) int nrand48_r(unsigned short *__xsubi , struct drand48_data * __restrict __buffer , long * __restrict __result ) __attribute__((__nonnull__(1,2))) ; extern __attribute__((__nothrow__)) int mrand48_r(struct drand48_data * __restrict __buffer , long * __restrict __result ) __attribute__((__nonnull__(1,2))) ; extern __attribute__((__nothrow__)) int jrand48_r(unsigned short *__xsubi , struct drand48_data * __restrict __buffer , long * __restrict __result ) __attribute__((__nonnull__(1,2))) ; extern __attribute__((__nothrow__)) int srand48_r(long __seedval , struct drand48_data *__buffer ) __attribute__((__nonnull__(2))) ; extern __attribute__((__nothrow__)) int seed48_r(unsigned short *__seed16v , struct drand48_data *__buffer ) __attribute__((__nonnull__(1,2))) ; extern __attribute__((__nothrow__)) int lcong48_r(unsigned short *__param , struct drand48_data *__buffer ) __attribute__((__nonnull__(1,2))) ; extern __attribute__((__nothrow__)) void *malloc(size_t __size ) __attribute__((__malloc__)) ; extern __attribute__((__nothrow__)) void *calloc(size_t __nmemb , size_t __size ) __attribute__((__malloc__)) ; extern __attribute__((__nothrow__)) void *realloc(void *__ptr , size_t __size ) __attribute__((__warn_unused_result__)) ; extern __attribute__((__nothrow__)) void free(void *__ptr ) ; extern __attribute__((__nothrow__)) void cfree(void *__ptr ) ; extern __attribute__((__nothrow__)) void *alloca(size_t __size ) ; extern __attribute__((__nothrow__)) void *valloc(size_t __size ) __attribute__((__malloc__)) ; extern __attribute__((__nothrow__)) int posix_memalign(void **__memptr , size_t __alignment , size_t __size ) __attribute__((__nonnull__(1))) ; extern __attribute__((__nothrow__, __noreturn__)) void abort(void) ; extern __attribute__((__nothrow__)) int atexit(void (*__func)(void) ) __attribute__((__nonnull__(1))) ; extern __attribute__((__nothrow__)) int on_exit(void (*__func)(int __status , void *__arg ) , void *__arg ) __attribute__((__nonnull__(1))) ; extern __attribute__((__nothrow__, __noreturn__)) void exit(int __status ) ; extern __attribute__((__nothrow__, __noreturn__)) void _Exit(int __status ) ; extern __attribute__((__nothrow__)) char *getenv(char const *__name ) __attribute__((__nonnull__(1))) ; extern __attribute__((__nothrow__)) char *__secure_getenv(char const *__name ) __attribute__((__nonnull__(1))) ; extern __attribute__((__nothrow__)) int putenv(char *__string ) __attribute__((__nonnull__(1))) ; extern __attribute__((__nothrow__)) int setenv(char const *__name , char const *__value , int __replace ) __attribute__((__nonnull__(2))) ; extern __attribute__((__nothrow__)) int unsetenv(char const *__name ) __attribute__((__nonnull__(1))) ; extern __attribute__((__nothrow__)) int clearenv(void) ; extern __attribute__((__nothrow__)) char *mktemp(char *__template ) __attribute__((__nonnull__(1))) ; extern int mkstemp(char *__template ) __asm__("mkstemp64") __attribute__((__nonnull__(1))) ; extern int mkstemps(char *__template , int __suffixlen ) __asm__("mkstemps64") __attribute__((__nonnull__(1))) ; extern __attribute__((__nothrow__)) char *mkdtemp(char *__template ) __attribute__((__nonnull__(1))) ; extern int system(char const *__command ) ; extern __attribute__((__nothrow__)) char *realpath(char const * __restrict __name , char * __restrict __resolved ) ; extern void *bsearch(void const *__key , void const *__base , size_t __nmemb , size_t __size , int (*__compar)(void const * , void const * ) ) __attribute__((__nonnull__(1,2,5))) ; extern void qsort(void *__base , size_t __nmemb , size_t __size , int (*__compar)(void const * , void const * ) ) __attribute__((__nonnull__(1,4))) ; extern __attribute__((__nothrow__)) int abs(int __x ) __attribute__((__const__)) ; extern __attribute__((__nothrow__)) long labs(long __x ) __attribute__((__const__)) ; extern __attribute__((__nothrow__)) long long llabs(long long __x ) __attribute__((__const__)) ; extern __attribute__((__nothrow__)) div_t div(int __numer , int __denom ) __attribute__((__const__)) ; extern __attribute__((__nothrow__)) ldiv_t ldiv(long __numer , long __denom ) __attribute__((__const__)) ; extern __attribute__((__nothrow__)) lldiv_t lldiv(long long __numer , long long __denom ) __attribute__((__const__)) ; extern __attribute__((__nothrow__)) char *ecvt(double __value , int __ndigit , int * __restrict __decpt , int * __restrict __sign ) __attribute__((__nonnull__(3,4))) ; extern __attribute__((__nothrow__)) char *fcvt(double __value , int __ndigit , int * __restrict __decpt , int * __restrict __sign ) __attribute__((__nonnull__(3,4))) ; extern __attribute__((__nothrow__)) char *gcvt(double __value , int __ndigit , char *__buf ) __attribute__((__nonnull__(3))) ; extern __attribute__((__nothrow__)) char *qecvt(long double __value , int __ndigit , int * __restrict __decpt , int * __restrict __sign ) __attribute__((__nonnull__(3,4))) ; extern __attribute__((__nothrow__)) char *qfcvt(long double __value , int __ndigit , int * __restrict __decpt , int * __restrict __sign ) __attribute__((__nonnull__(3,4))) ; extern __attribute__((__nothrow__)) char *qgcvt(long double __value , int __ndigit , char *__buf ) __attribute__((__nonnull__(3))) ; extern __attribute__((__nothrow__)) int ecvt_r(double __value , int __ndigit , int * __restrict __decpt , int * __restrict __sign , char * __restrict __buf , size_t __len ) __attribute__((__nonnull__(3,4,5))) ; extern __attribute__((__nothrow__)) int fcvt_r(double __value , int __ndigit , int * __restrict __decpt , int * __restrict __sign , char * __restrict __buf , size_t __len ) __attribute__((__nonnull__(3,4,5))) ; extern __attribute__((__nothrow__)) int qecvt_r(long double __value , int __ndigit , int * __restrict __decpt , int * __restrict __sign , char * __restrict __buf , size_t __len ) __attribute__((__nonnull__(3,4,5))) ; extern __attribute__((__nothrow__)) int qfcvt_r(long double __value , int __ndigit , int * __restrict __decpt , int * __restrict __sign , char * __restrict __buf , size_t __len ) __attribute__((__nonnull__(3,4,5))) ; extern __attribute__((__nothrow__)) int mblen(char const *__s , size_t __n ) ; extern __attribute__((__nothrow__)) int mbtowc(wchar_t * __restrict __pwc , char const * __restrict __s , size_t __n ) ; extern __attribute__((__nothrow__)) int wctomb(char *__s , wchar_t __wchar ) ; extern __attribute__((__nothrow__)) size_t mbstowcs(wchar_t * __restrict __pwcs , char const * __restrict __s , size_t __n ) ; extern __attribute__((__nothrow__)) size_t wcstombs(char * __restrict __s , wchar_t const * __restrict __pwcs , size_t __n ) ; extern __attribute__((__nothrow__)) int rpmatch(char const *__response ) __attribute__((__nonnull__(1))) ; extern __attribute__((__nothrow__)) int getsubopt(char ** __restrict __optionp , char * const * __restrict __tokens , char ** __restrict __valuep ) __attribute__((__nonnull__(1,2,3))) ; extern __attribute__((__nothrow__)) int getloadavg(double *__loadavg , int __nelem ) __attribute__((__nonnull__(1))) ; extern __attribute__((__nothrow__)) void *memcpy(void * __restrict __dest , void const * __restrict __src , size_t __n ) __attribute__((__nonnull__(1,2))) ; extern __attribute__((__nothrow__)) void *memmove(void *__dest , void const *__src , size_t __n ) __attribute__((__nonnull__(1,2))) ; extern __attribute__((__nothrow__)) void *memccpy(void * __restrict __dest , void const * __restrict __src , int __c , size_t __n ) __attribute__((__nonnull__(1,2))) ; extern __attribute__((__nothrow__)) void *memset(void *__s , int __c , size_t __n ) __attribute__((__nonnull__(1))) ; extern __attribute__((__nothrow__)) int memcmp(void const *__s1 , void const *__s2 , size_t __n ) __attribute__((__pure__, __nonnull__(1,2))) ; extern __attribute__((__nothrow__)) void *memchr(void const *__s , int __c , size_t __n ) __attribute__((__pure__, __nonnull__(1))) ; extern __attribute__((__nothrow__)) char *strcpy(char * __restrict __dest , char const * __restrict __src ) __attribute__((__nonnull__(1,2))) ; extern __attribute__((__nothrow__)) char *strncpy(char * __restrict __dest , char const * __restrict __src , size_t __n ) __attribute__((__nonnull__(1,2))) ; extern __attribute__((__nothrow__)) char *strcat(char * __restrict __dest , char const * __restrict __src ) __attribute__((__nonnull__(1,2))) ; extern __attribute__((__nothrow__)) char *strncat(char * __restrict __dest , char const * __restrict __src , size_t __n ) __attribute__((__nonnull__(1,2))) ; extern __attribute__((__nothrow__)) int strcmp(char const *__s1 , char const *__s2 ) __attribute__((__pure__, __nonnull__(1,2))) ; extern __attribute__((__nothrow__)) int strncmp(char const *__s1 , char const *__s2 , size_t __n ) __attribute__((__pure__, __nonnull__(1,2))) ; extern __attribute__((__nothrow__)) int strcoll(char const *__s1 , char const *__s2 ) __attribute__((__pure__, __nonnull__(1,2))) ; extern __attribute__((__nothrow__)) size_t strxfrm(char * __restrict __dest , char const * __restrict __src , size_t __n ) __attribute__((__nonnull__(2))) ; extern __attribute__((__nothrow__)) int strcoll_l(char const *__s1 , char const *__s2 , __locale_t __l ) __attribute__((__pure__, __nonnull__(1,2,3))) ; extern __attribute__((__nothrow__)) size_t strxfrm_l(char *__dest , char const *__src , size_t __n , __locale_t __l ) __attribute__((__nonnull__(2,4))) ; extern __attribute__((__nothrow__)) char *strdup(char const *__s ) __attribute__((__nonnull__(1), __malloc__)) ; extern __attribute__((__nothrow__)) char *strndup(char const *__string , size_t __n ) __attribute__((__nonnull__(1), __malloc__)) ; extern __attribute__((__nothrow__)) char *strchr(char const *__s , int __c ) __attribute__((__pure__, __nonnull__(1))) ; extern __attribute__((__nothrow__)) char *strrchr(char const *__s , int __c ) __attribute__((__pure__, __nonnull__(1))) ; extern __attribute__((__nothrow__)) size_t strcspn(char const *__s , char const *__reject ) __attribute__((__pure__, __nonnull__(1,2))) ; extern __attribute__((__nothrow__)) size_t strspn(char const *__s , char const *__accept ) __attribute__((__pure__, __nonnull__(1,2))) ; extern __attribute__((__nothrow__)) char *strpbrk(char const *__s , char const *__accept ) __attribute__((__pure__, __nonnull__(1,2))) ; extern __attribute__((__nothrow__)) char *strstr(char const *__haystack , char const *__needle ) __attribute__((__pure__, __nonnull__(1,2))) ; extern __attribute__((__nothrow__)) char *strtok(char * __restrict __s , char const * __restrict __delim ) __attribute__((__nonnull__(2))) ; extern __attribute__((__nothrow__)) char *__strtok_r(char * __restrict __s , char const * __restrict __delim , char ** __restrict __save_ptr ) __attribute__((__nonnull__(2,3))) ; extern __attribute__((__nothrow__)) char *strtok_r(char * __restrict __s , char const * __restrict __delim , char ** __restrict __save_ptr ) __attribute__((__nonnull__(2,3))) ; extern __attribute__((__nothrow__)) size_t strlen(char const *__s ) __attribute__((__pure__, __nonnull__(1))) ; extern __attribute__((__nothrow__)) size_t strnlen(char const *__string , size_t __maxlen ) __attribute__((__pure__, __nonnull__(1))) ; extern __attribute__((__nothrow__)) char *strerror(int __errnum ) ; extern __attribute__((__nothrow__)) int strerror_r(int __errnum , char *__buf , size_t __buflen ) __asm__("__xpg_strerror_r") __attribute__((__nonnull__(2))) ; extern __attribute__((__nothrow__)) char *strerror_l(int __errnum , __locale_t __l ) ; extern __attribute__((__nothrow__)) void __bzero(void *__s , size_t __n ) __attribute__((__nonnull__(1))) ; extern __attribute__((__nothrow__)) void bcopy(void const *__src , void *__dest , size_t __n ) __attribute__((__nonnull__(1,2))) ; extern __attribute__((__nothrow__)) void bzero(void *__s , size_t __n ) __attribute__((__nonnull__(1))) ; extern __attribute__((__nothrow__)) int bcmp(void const *__s1 , void const *__s2 , size_t __n ) __attribute__((__pure__, __nonnull__(1,2))) ; extern __attribute__((__nothrow__)) char *index(char const *__s , int __c ) __attribute__((__pure__, __nonnull__(1))) ; extern __attribute__((__nothrow__)) char *rindex(char const *__s , int __c ) __attribute__((__pure__, __nonnull__(1))) ; extern __attribute__((__nothrow__)) int ffs(int __i ) __attribute__((__const__)) ; extern __attribute__((__nothrow__)) int strcasecmp(char const *__s1 , char const *__s2 ) __attribute__((__pure__, __nonnull__(1,2))) ; extern __attribute__((__nothrow__)) int strncasecmp(char const *__s1 , char const *__s2 , size_t __n ) __attribute__((__pure__, __nonnull__(1,2))) ; extern __attribute__((__nothrow__)) char *strsep(char ** __restrict __stringp , char const * __restrict __delim ) __attribute__((__nonnull__(1,2))) ; extern __attribute__((__nothrow__)) char *strsignal(int __sig ) ; extern __attribute__((__nothrow__)) char *__stpcpy(char * __restrict __dest , char const * __restrict __src ) __attribute__((__nonnull__(1,2))) ; extern __attribute__((__nothrow__)) char *stpcpy(char * __restrict __dest , char const * __restrict __src ) __attribute__((__nonnull__(1,2))) ; extern __attribute__((__nothrow__)) char *__stpncpy(char * __restrict __dest , char const * __restrict __src , size_t __n ) __attribute__((__nonnull__(1,2))) ; extern __attribute__((__nothrow__)) char *stpncpy(char * __restrict __dest , char const * __restrict __src , size_t __n ) __attribute__((__nonnull__(1,2))) ; extern void *__rawmemchr(void const *__s , int __c ) ; __inline extern size_t __strcspn_c1(char const *__s , int __reject ) ; __inline extern size_t __strcspn_c1(char const *__s , int __reject ) { register size_t __result ; { __result = (size_t )0; while (1) { if ((int const )*(__s + __result) != 0) { if ((int const )*(__s + __result) != (int const )__reject) { } else { break; } } else { break; } __result ++; } return (__result); } } __inline extern size_t __strcspn_c2(char const *__s , int __reject1 , int __reject2 ) ; __inline extern size_t __strcspn_c2(char const *__s , int __reject1 , int __reject2 ) { register size_t __result ; { __result = (size_t )0; while (1) { if ((int const )*(__s + __result) != 0) { if ((int const )*(__s + __result) != (int const )__reject1) { if ((int const )*(__s + __result) != (int const )__reject2) { } else { break; } } else { break; } } else { break; } __result ++; } return (__result); } } __inline extern size_t __strcspn_c3(char const *__s , int __reject1 , int __reject2 , int __reject3 ) ; __inline extern size_t __strcspn_c3(char const *__s , int __reject1 , int __reject2 , int __reject3 ) { register size_t __result ; { __result = (size_t )0; while (1) { if ((int const )*(__s + __result) != 0) { if ((int const )*(__s + __result) != (int const )__reject1) { if ((int const )*(__s + __result) != (int const )__reject2) { if ((int const )*(__s + __result) != (int const )__reject3) { } else { break; } } else { break; } } else { break; } } else { break; } __result ++; } return (__result); } } __inline extern size_t __strspn_c1(char const *__s , int __accept ) ; __inline extern size_t __strspn_c1(char const *__s , int __accept ) { register size_t __result ; { __result = (size_t )0; while ((int const )*(__s + __result) == (int const )__accept) { __result ++; } return (__result); } } __inline extern size_t __strspn_c2(char const *__s , int __accept1 , int __accept2 ) ; __inline extern size_t __strspn_c2(char const *__s , int __accept1 , int __accept2 ) { register size_t __result ; { __result = (size_t )0; while (1) { if ((int const )*(__s + __result) == (int const )__accept1) { } else { if ((int const )*(__s + __result) == (int const )__accept2) { } else { break; } } __result ++; } return (__result); } } __inline extern size_t __strspn_c3(char const *__s , int __accept1 , int __accept2 , int __accept3 ) ; __inline extern size_t __strspn_c3(char const *__s , int __accept1 , int __accept2 , int __accept3 ) { register size_t __result ; { __result = (size_t )0; while (1) { if ((int const )*(__s + __result) == (int const )__accept1) { } else { if ((int const )*(__s + __result) == (int const )__accept2) { } else { if ((int const )*(__s + __result) == (int const )__accept3) { } else { break; } } } __result ++; } return (__result); } } __inline extern char *__strpbrk_c2(char const *__s , int __accept1 , int __accept2 ) ; __inline extern char *__strpbrk_c2(char const *__s , int __accept1 , int __accept2 ) { char *tmp ; { while (1) { if ((int const )*__s != 0) { if ((int const )*__s != (int const )__accept1) { if ((int const )*__s != (int const )__accept2) { } else { break; } } else { break; } } else { break; } __s ++; } if ((int const )*__s == 0) { tmp = (char *)((void *)0); } else { tmp = (char *)((unsigned int )__s); } return (tmp); } } __inline extern char *__strpbrk_c3(char const *__s , int __accept1 , int __accept2 , int __accept3 ) ; __inline extern char *__strpbrk_c3(char const *__s , int __accept1 , int __accept2 , int __accept3 ) { char *tmp ; { while (1) { if ((int const )*__s != 0) { if ((int const )*__s != (int const )__accept1) { if ((int const )*__s != (int const )__accept2) { if ((int const )*__s != (int const )__accept3) { } else { break; } } else { break; } } else { break; } } else { break; } __s ++; } if ((int const )*__s == 0) { tmp = (char *)((void *)0); } else { tmp = (char *)((unsigned int )__s); } return (tmp); } } __inline extern char *__strtok_r_1c(char *__s , char __sep , char **__nextp ) ; __inline extern char *__strtok_r_1c(char *__s , char __sep , char **__nextp ) { char *__result ; char *tmp ; char *tmp___0 ; { if ((unsigned int )__s == (unsigned int )((void *)0)) { __s = *__nextp; } else { } while ((int )*__s == (int )__sep) { __s ++; } __result = (char *)((void *)0); if ((int )*__s != 0) { tmp = __s; __s ++; __result = tmp; while ((int )*__s != 0) { tmp___0 = __s; __s ++; if ((int )*tmp___0 == (int )__sep) { *(__s + -1) = (char )'\000'; break; } else { } } } else { } *__nextp = __s; return (__result); } } extern char *__strsep_g(char **__stringp , char const *__delim ) ; __inline extern char *__strsep_1c(char **__s , char __reject ) ; __inline extern char *__strsep_1c(char **__s , char __reject ) { register char *__retval ; char *tmp ; char *tmp___0 ; void *tmp___1 ; char *tmp___2 ; { __retval = *__s; if ((unsigned int )__retval != (unsigned int )((void *)0)) { tmp___2 = __builtin_strchr(__retval, (int )__reject); tmp___0 = tmp___2; *__s = tmp___0; if ((unsigned int )tmp___0 != (unsigned int )((void *)0)) { tmp = *__s; (*__s) ++; *tmp = (char )'\000'; } else { } } else { } return (__retval); } } __inline extern char *__strsep_2c(char **__s , char __reject1 , char __reject2 ) ; __inline extern char *__strsep_2c(char **__s , char __reject1 , char __reject2 ) { register char *__retval ; register char *__cp ; char *tmp ; { __retval = *__s; if ((unsigned int )__retval != (unsigned int )((void *)0)) { __cp = __retval; while (1) { if ((int )*__cp == 0) { __cp = (char *)((void *)0); break; } else { } if ((int )*__cp == (int )__reject1) { tmp = __cp; __cp ++; *tmp = (char )'\000'; break; } else { if ((int )*__cp == (int )__reject2) { tmp = __cp; __cp ++; *tmp = (char )'\000'; break; } else { } } __cp ++; } *__s = __cp; } else { } return (__retval); } } __inline extern char *__strsep_3c(char **__s , char __reject1 , char __reject2 , char __reject3 ) ; __inline extern char *__strsep_3c(char **__s , char __reject1 , char __reject2 , char __reject3 ) { register char *__retval ; register char *__cp ; char *tmp ; { __retval = *__s; if ((unsigned int )__retval != (unsigned int )((void *)0)) { __cp = __retval; while (1) { if ((int )*__cp == 0) { __cp = (char *)((void *)0); break; } else { } if ((int )*__cp == (int )__reject1) { tmp = __cp; __cp ++; *tmp = (char )'\000'; break; } else { if ((int )*__cp == (int )__reject2) { tmp = __cp; __cp ++; *tmp = (char )'\000'; break; } else { if ((int )*__cp == (int )__reject3) { tmp = __cp; __cp ++; *tmp = (char )'\000'; break; } else { } } } __cp ++; } *__s = __cp; } else { } return (__retval); } } extern __attribute__((__nothrow__)) char *__strdup(char const *__string ) __attribute__((__malloc__)) ; extern __attribute__((__nothrow__)) char *__strndup(char const *__string , size_t __n ) __attribute__((__malloc__)) ; extern __attribute__((__nothrow__)) unsigned short const **__ctype_b_loc(void) __attribute__((__const__)) ; extern __attribute__((__nothrow__)) __int32_t const **__ctype_tolower_loc(void) __attribute__((__const__)) ; extern __attribute__((__nothrow__)) __int32_t const **__ctype_toupper_loc(void) __attribute__((__const__)) ; extern __attribute__((__nothrow__)) int isalnum(int ) ; extern __attribute__((__nothrow__)) int isalpha(int ) ; extern __attribute__((__nothrow__)) int iscntrl(int ) ; extern __attribute__((__nothrow__)) int isdigit(int ) ; extern __attribute__((__nothrow__)) int islower(int ) ; extern __attribute__((__nothrow__)) int isgraph(int ) ; extern __attribute__((__nothrow__)) int isprint(int ) ; extern __attribute__((__nothrow__)) int ispunct(int ) ; extern __attribute__((__nothrow__)) int isspace(int ) ; extern __attribute__((__nothrow__)) int isupper(int ) ; extern __attribute__((__nothrow__)) int isxdigit(int ) ; __inline extern __attribute__((__nothrow__)) int tolower(int __c ) ; __inline extern __attribute__((__nothrow__)) int toupper(int __c ) ; extern __attribute__((__nothrow__)) int isblank(int ) ; extern __attribute__((__nothrow__)) int isascii(int __c ) ; extern __attribute__((__nothrow__)) int toascii(int __c ) ; extern __attribute__((__nothrow__)) int _toupper(int ) ; extern __attribute__((__nothrow__)) int _tolower(int ) ; __inline extern __attribute__((__nothrow__)) int tolower(int __c ) ; __inline extern int tolower(int __c ) { __int32_t const **tmp ; __int32_t tmp___0 ; { if (__c >= -128) { if (__c < 256) { tmp = __ctype_tolower_loc(); tmp___0 = *(*tmp + __c); } else { tmp___0 = (int const )__c; } } else { tmp___0 = (int const )__c; } return ((int )tmp___0); } } __inline extern __attribute__((__nothrow__)) int toupper(int __c ) ; __inline extern int toupper(int __c ) { __int32_t const **tmp ; __int32_t tmp___0 ; { if (__c >= -128) { if (__c < 256) { tmp = __ctype_toupper_loc(); tmp___0 = *(*tmp + __c); } else { tmp___0 = (int const )__c; } } else { tmp___0 = (int const )__c; } return ((int )tmp___0); } } extern __attribute__((__nothrow__)) int isalnum_l(int , __locale_t ) ; extern __attribute__((__nothrow__)) int isalpha_l(int , __locale_t ) ; extern __attribute__((__nothrow__)) int iscntrl_l(int , __locale_t ) ; extern __attribute__((__nothrow__)) int isdigit_l(int , __locale_t ) ; extern __attribute__((__nothrow__)) int islower_l(int , __locale_t ) ; extern __attribute__((__nothrow__)) int isgraph_l(int , __locale_t ) ; extern __attribute__((__nothrow__)) int isprint_l(int , __locale_t ) ; extern __attribute__((__nothrow__)) int ispunct_l(int , __locale_t ) ; extern __attribute__((__nothrow__)) int isspace_l(int , __locale_t ) ; extern __attribute__((__nothrow__)) int isupper_l(int , __locale_t ) ; extern __attribute__((__nothrow__)) int isxdigit_l(int , __locale_t ) ; extern __attribute__((__nothrow__)) int isblank_l(int , __locale_t ) ; extern __attribute__((__nothrow__)) int __tolower_l(int __c , __locale_t __l ) ; extern __attribute__((__nothrow__)) int tolower_l(int __c , __locale_t __l ) ; extern __attribute__((__nothrow__)) int __toupper_l(int __c , __locale_t __l ) ; extern __attribute__((__nothrow__)) int toupper_l(int __c , __locale_t __l ) ; extern __attribute__((__nothrow__)) clock_t clock(void) ; extern __attribute__((__nothrow__)) time_t time(time_t *__timer ) ; extern __attribute__((__nothrow__)) double difftime(time_t __time1 , time_t __time0 ) __attribute__((__const__)) ; extern __attribute__((__nothrow__)) time_t mktime(struct tm *__tp ) ; extern __attribute__((__nothrow__)) size_t strftime(char * __restrict __s , size_t __maxsize , char const * __restrict __format , struct tm const * __restrict __tp ) ; extern __attribute__((__nothrow__)) size_t strftime_l(char * __restrict __s , size_t __maxsize , char const * __restrict __format , struct tm const * __restrict __tp , __locale_t __loc ) ; extern __attribute__((__nothrow__)) struct tm *gmtime(time_t const *__timer ) ; extern __attribute__((__nothrow__)) struct tm *localtime(time_t const *__timer ) ; extern __attribute__((__nothrow__)) struct tm *gmtime_r(time_t const * __restrict __timer , struct tm * __restrict __tp ) ; extern __attribute__((__nothrow__)) struct tm *localtime_r(time_t const * __restrict __timer , struct tm * __restrict __tp ) ; extern __attribute__((__nothrow__)) char *asctime(struct tm const *__tp ) ; extern __attribute__((__nothrow__)) char *ctime(time_t const *__timer ) ; extern __attribute__((__nothrow__)) char *asctime_r(struct tm const * __restrict __tp , char * __restrict __buf ) ; extern __attribute__((__nothrow__)) char *ctime_r(time_t const * __restrict __timer , char * __restrict __buf ) ; extern char *__tzname[2] ; extern int __daylight ; extern long __timezone ; extern char *tzname[2] ; extern __attribute__((__nothrow__)) void tzset(void) ; extern int daylight ; extern long timezone ; extern __attribute__((__nothrow__)) int stime(time_t const *__when ) ; extern __attribute__((__nothrow__)) time_t timegm(struct tm *__tp ) ; extern __attribute__((__nothrow__)) time_t timelocal(struct tm *__tp ) ; extern __attribute__((__nothrow__)) int dysize(int __year ) __attribute__((__const__)) ; extern int nanosleep(struct timespec const *__requested_time , struct timespec *__remaining ) ; extern __attribute__((__nothrow__)) int clock_getres(clockid_t __clock_id , struct timespec *__res ) ; extern __attribute__((__nothrow__)) int clock_gettime(clockid_t __clock_id , struct timespec *__tp ) ; extern __attribute__((__nothrow__)) int clock_settime(clockid_t __clock_id , struct timespec const *__tp ) ; extern int clock_nanosleep(clockid_t __clock_id , int __flags , struct timespec const *__req , struct timespec *__rem ) ; extern __attribute__((__nothrow__)) int clock_getcpuclockid(pid_t __pid , clockid_t *__clock_id ) ; extern __attribute__((__nothrow__)) int timer_create(clockid_t __clock_id , struct sigevent * __restrict __evp , timer_t * __restrict __timerid ) ; extern __attribute__((__nothrow__)) int timer_delete(timer_t __timerid ) ; extern __attribute__((__nothrow__)) int timer_settime(timer_t __timerid , int __flags , struct itimerspec const * __restrict __value , struct itimerspec * __restrict __ovalue ) ; extern __attribute__((__nothrow__)) int timer_gettime(timer_t __timerid , struct itimerspec *__value ) ; extern __attribute__((__nothrow__)) int timer_getoverrun(timer_t __timerid ) ; extern __attribute__((__nothrow__)) int *__errno_location(void) __attribute__((__const__)) ; extern __attribute__((__nothrow__)) int access(char const *__name , int __type ) __attribute__((__nonnull__(1))) ; extern __attribute__((__nothrow__)) int faccessat(int __fd , char const *__file , int __type , int __flag ) __attribute__((__nonnull__(2))) ; extern __attribute__((__nothrow__)) __off64_t lseek(int __fd , __off64_t __offset , int __whence ) __asm__("lseek64") ; extern int close(int __fd ) ; extern ssize_t read(int __fd , void *__buf , size_t __nbytes ) ; extern ssize_t write(int __fd , void const *__buf , size_t __n ) ; extern ssize_t pread(int __fd , void *__buf , size_t __nbytes , __off64_t __offset ) __asm__("pread64") ; extern ssize_t pwrite(int __fd , void const *__buf , size_t __nbytes , __off64_t __offset ) __asm__("pwrite64") ; extern __attribute__((__nothrow__)) int pipe(int *__pipedes ) ; extern __attribute__((__nothrow__)) unsigned int alarm(unsigned int __seconds ) ; extern unsigned int sleep(unsigned int __seconds ) ; extern __attribute__((__nothrow__)) __useconds_t ualarm(__useconds_t __value , __useconds_t __interval ) ; extern int usleep(__useconds_t __useconds ) ; extern int pause(void) ; extern __attribute__((__nothrow__)) int chown(char const *__file , __uid_t __owner , __gid_t __group ) __attribute__((__nonnull__(1))) ; extern __attribute__((__nothrow__)) int fchown(int __fd , __uid_t __owner , __gid_t __group ) ; extern __attribute__((__nothrow__)) int lchown(char const *__file , __uid_t __owner , __gid_t __group ) __attribute__((__nonnull__(1))) ; extern __attribute__((__nothrow__)) int fchownat(int __fd , char const *__file , __uid_t __owner , __gid_t __group , int __flag ) __attribute__((__nonnull__(2))) ; extern __attribute__((__nothrow__)) int chdir(char const *__path ) __attribute__((__nonnull__(1))) ; extern __attribute__((__nothrow__)) int fchdir(int __fd ) ; extern __attribute__((__nothrow__)) char *getcwd(char *__buf , size_t __size ) ; extern __attribute__((__nothrow__)) char *getwd(char *__buf ) __attribute__((__nonnull__(1), __deprecated__)) ; extern __attribute__((__nothrow__)) int dup(int __fd ) ; extern __attribute__((__nothrow__)) int dup2(int __fd , int __fd2 ) ; extern char **__environ ; extern __attribute__((__nothrow__)) int execve(char const *__path , char * const *__argv , char * const *__envp ) __attribute__((__nonnull__(1,2))) ; extern __attribute__((__nothrow__)) int fexecve(int __fd , char * const *__argv , char * const *__envp ) __attribute__((__nonnull__(2))) ; extern __attribute__((__nothrow__)) int execv(char const *__path , char * const *__argv ) __attribute__((__nonnull__(1,2))) ; extern __attribute__((__nothrow__)) int execle(char const *__path , char const *__arg , ...) __attribute__((__nonnull__(1,2))) ; extern __attribute__((__nothrow__)) int execl(char const *__path , char const *__arg , ...) __attribute__((__nonnull__(1,2))) ; extern __attribute__((__nothrow__)) int execvp(char const *__file , char * const *__argv ) __attribute__((__nonnull__(1,2))) ; extern __attribute__((__nothrow__)) int execlp(char const *__file , char const *__arg , ...) __attribute__((__nonnull__(1,2))) ; extern __attribute__((__nothrow__)) int nice(int __inc ) ; extern __attribute__((__noreturn__)) void _exit(int __status ) ; extern __attribute__((__nothrow__)) long pathconf(char const *__path , int __name ) __attribute__((__nonnull__(1))) ; extern __attribute__((__nothrow__)) long fpathconf(int __fd , int __name ) ; extern __attribute__((__nothrow__)) long sysconf(int __name ) ; extern __attribute__((__nothrow__)) size_t confstr(int __name , char *__buf , size_t __len ) ; extern __attribute__((__nothrow__)) __pid_t getpid(void) ; extern __attribute__((__nothrow__)) __pid_t getppid(void) ; extern __attribute__((__nothrow__)) __pid_t getpgrp(void) ; extern __attribute__((__nothrow__)) __pid_t __getpgid(__pid_t __pid ) ; extern __attribute__((__nothrow__)) __pid_t getpgid(__pid_t __pid ) ; extern __attribute__((__nothrow__)) int setpgid(__pid_t __pid , __pid_t __pgid ) ; extern __attribute__((__nothrow__)) int setpgrp(void) ; extern __attribute__((__nothrow__)) __pid_t setsid(void) ; extern __attribute__((__nothrow__)) __pid_t getsid(__pid_t __pid ) ; extern __attribute__((__nothrow__)) __uid_t getuid(void) ; extern __attribute__((__nothrow__)) __uid_t geteuid(void) ; extern __attribute__((__nothrow__)) __gid_t getgid(void) ; extern __attribute__((__nothrow__)) __gid_t getegid(void) ; extern __attribute__((__nothrow__)) int getgroups(int __size , __gid_t *__list ) ; extern __attribute__((__nothrow__)) int setuid(__uid_t __uid ) ; extern __attribute__((__nothrow__)) int setreuid(__uid_t __ruid , __uid_t __euid ) ; extern __attribute__((__nothrow__)) int seteuid(__uid_t __uid ) ; extern __attribute__((__nothrow__)) int setgid(__gid_t __gid ) ; extern __attribute__((__nothrow__)) int setregid(__gid_t __rgid , __gid_t __egid ) ; extern __attribute__((__nothrow__)) int setegid(__gid_t __gid ) ; extern __attribute__((__nothrow__)) __pid_t fork(void) ; extern __attribute__((__nothrow__)) __pid_t vfork(void) ; extern __attribute__((__nothrow__)) char *ttyname(int __fd ) ; extern __attribute__((__nothrow__)) int ttyname_r(int __fd , char *__buf , size_t __buflen ) __attribute__((__nonnull__(2))) ; extern __attribute__((__nothrow__)) int isatty(int __fd ) ; extern __attribute__((__nothrow__)) int ttyslot(void) ; extern __attribute__((__nothrow__)) int link(char const *__from , char const *__to ) __attribute__((__nonnull__(1,2))) ; extern __attribute__((__nothrow__)) int linkat(int __fromfd , char const *__from , int __tofd , char const *__to , int __flags ) __attribute__((__nonnull__(2,4))) ; extern __attribute__((__nothrow__)) int symlink(char const *__from , char const *__to ) __attribute__((__nonnull__(1,2))) ; extern __attribute__((__nothrow__)) ssize_t readlink(char const * __restrict __path , char * __restrict __buf , size_t __len ) __attribute__((__nonnull__(1,2))) ; extern __attribute__((__nothrow__)) int symlinkat(char const *__from , int __tofd , char const *__to ) __attribute__((__nonnull__(1,3))) ; extern __attribute__((__nothrow__)) ssize_t readlinkat(int __fd , char const * __restrict __path , char * __restrict __buf , size_t __len ) __attribute__((__nonnull__(2,3))) ; extern __attribute__((__nothrow__)) int unlink(char const *__name ) __attribute__((__nonnull__(1))) ; extern __attribute__((__nothrow__)) int unlinkat(int __fd , char const *__name , int __flag ) __attribute__((__nonnull__(2))) ; extern __attribute__((__nothrow__)) int rmdir(char const *__path ) __attribute__((__nonnull__(1))) ; extern __attribute__((__nothrow__)) __pid_t tcgetpgrp(int __fd ) ; extern __attribute__((__nothrow__)) int tcsetpgrp(int __fd , __pid_t __pgrp_id ) ; extern char *getlogin(void) ; extern int getlogin_r(char *__name , size_t __name_len ) __attribute__((__nonnull__(1))) ; extern __attribute__((__nothrow__)) int setlogin(char const *__name ) __attribute__((__nonnull__(1))) ; extern char *optarg ; extern int optind ; extern int opterr ; extern int optopt ; extern __attribute__((__nothrow__)) int getopt(int ___argc , char * const *___argv , char const *__shortopts ) ; extern __attribute__((__nothrow__)) int gethostname(char *__name , size_t __len ) __attribute__((__nonnull__(1))) ; extern __attribute__((__nothrow__)) int sethostname(char const *__name , size_t __len ) __attribute__((__nonnull__(1))) ; extern __attribute__((__nothrow__)) int sethostid(long __id ) ; extern __attribute__((__nothrow__)) int getdomainname(char *__name , size_t __len ) __attribute__((__nonnull__(1))) ; extern __attribute__((__nothrow__)) int setdomainname(char const *__name , size_t __len ) __attribute__((__nonnull__(1))) ; extern __attribute__((__nothrow__)) int vhangup(void) ; extern __attribute__((__nothrow__)) int revoke(char const *__file ) __attribute__((__nonnull__(1))) ; extern __attribute__((__nothrow__)) int profil(unsigned short *__sample_buffer , size_t __size , size_t __offset , unsigned int __scale ) __attribute__((__nonnull__(1))) ; extern __attribute__((__nothrow__)) int acct(char const *__name ) ; extern __attribute__((__nothrow__)) char *getusershell(void) ; extern __attribute__((__nothrow__)) void endusershell(void) ; extern __attribute__((__nothrow__)) void setusershell(void) ; extern __attribute__((__nothrow__)) int daemon(int __nochdir , int __noclose ) ; extern __attribute__((__nothrow__)) int chroot(char const *__path ) __attribute__((__nonnull__(1))) ; extern char *getpass(char const *__prompt ) __attribute__((__nonnull__(1))) ; extern int fsync(int __fd ) ; extern long gethostid(void) ; extern __attribute__((__nothrow__)) void sync(void) ; extern __attribute__((__nothrow__)) int getpagesize(void) __attribute__((__const__)) ; extern __attribute__((__nothrow__)) int getdtablesize(void) ; extern __attribute__((__nothrow__)) int truncate(char const *__file , __off64_t __length ) __asm__("truncate64") __attribute__((__nonnull__(1))) ; extern __attribute__((__nothrow__)) int ftruncate(int __fd , __off64_t __length ) __asm__("ftruncate64") ; extern __attribute__((__nothrow__)) int brk(void *__addr ) ; extern __attribute__((__nothrow__)) void *sbrk(intptr_t __delta ) ; extern __attribute__((__nothrow__)) long syscall(long __sysno , ...) ; extern int lockf(int __fd , int __cmd , __off64_t __len ) __asm__("lockf64") ; extern int fdatasync(int __fildes ) ; extern int fcntl(int __fd , int __cmd , ...) ; extern int open(char const *__file , int __oflag , ...) __asm__("open64") __attribute__((__nonnull__(1))) ; extern int openat(int __fd , char const *__file , int __oflag , ...) __asm__("openat64") __attribute__((__nonnull__(2))) ; extern int creat(char const *__file , __mode_t __mode ) __asm__("creat64") __attribute__((__nonnull__(1))) ; extern __attribute__((__nothrow__)) int posix_fadvise(int __fd , __off64_t __offset , __off64_t __len , int __advise ) __asm__("posix_fadvise64") ; extern int posix_fallocate(int __fd , __off64_t __offset , __off64_t __len ) __asm__("posix_fallocate64") ; extern __attribute__((__nothrow__, __noreturn__)) void __assert_fail(char const *__assertion , char const *__file , unsigned int __line , char const *__function ) ; extern __attribute__((__nothrow__, __noreturn__)) void __assert_perror_fail(int __errnum , char const *__file , unsigned int __line , char const *__function ) ; extern __attribute__((__nothrow__, __noreturn__)) void __assert(char const *__assertion , char const *__file , int __line ) ; extern __attribute__((__nothrow__)) void insque(void *__elem , void *__prev ) ; extern __attribute__((__nothrow__)) void remque(void *__elem ) ; extern __attribute__((__nothrow__)) ENTRY *hsearch(ENTRY __item , ACTION __action ) ; extern __attribute__((__nothrow__)) int hcreate(size_t __nel ) ; extern __attribute__((__nothrow__)) void hdestroy(void) ; extern void *tsearch(void const *__key , void **__rootp , int (*__compar)(void const * , void const * ) ) ; extern void *tfind(void const *__key , void * const *__rootp , int (*__compar)(void const * , void const * ) ) ; extern void *tdelete(void const * __restrict __key , void ** __restrict __rootp , int (*__compar)(void const * , void const * ) ) ; extern void twalk(void const *__root , void (*__action)(void const *__nodep , VISIT __value , int __level ) ) ; extern void *lfind(void const *__key , void const *__base , size_t *__nmemb , size_t __size , int (*__compar)(void const * , void const * ) ) ; extern void *lsearch(void const *__key , void *__base , size_t *__nmemb , size_t __size , int (*__compar)(void const * , void const * ) ) ; extern char const *TIFFGetVersion(void) ; extern TIFFCodec const *TIFFFindCODEC(uint16 ) ; extern TIFFCodec *TIFFRegisterCODEC(uint16 , char const * , int (*)(TIFF * , int ) ) ; extern void TIFFUnRegisterCODEC(TIFFCodec * ) ; extern int TIFFIsCODECConfigured(uint16 ) ; extern TIFFCodec *TIFFGetConfiguredCODECs(void) ; extern void *_TIFFmalloc(tmsize_t s ) ; extern void *_TIFFrealloc(void *p , tmsize_t s ) ; extern void _TIFFmemset(void *p , int v , tmsize_t c ) ; extern void _TIFFmemcpy(void *d , void const *s , tmsize_t c ) ; extern int _TIFFmemcmp(void const *p1 , void const *p2 , tmsize_t c ) ; extern void _TIFFfree(void *p ) ; extern int TIFFGetTagListCount(TIFF * ) ; extern uint32 TIFFGetTagListEntry(TIFF * , int tag_index ) ; extern TIFFField const *TIFFFindField(TIFF * , uint32 , TIFFDataType ) ; extern TIFFField const *TIFFFieldWithTag(TIFF * , uint32 ) ; extern TIFFField const *TIFFFieldWithName(TIFF * , char const * ) ; extern TIFFTagMethods *TIFFAccessTagMethods(TIFF * ) ; extern void *TIFFGetClientInfo(TIFF * , char const * ) ; extern void TIFFSetClientInfo(TIFF * , void * , char const * ) ; extern void TIFFCleanup(TIFF *tif ) ; extern void TIFFClose(TIFF *tif ) ; extern int TIFFFlush(TIFF *tif ) ; extern int TIFFFlushData(TIFF *tif ) ; extern int TIFFGetField(TIFF *tif , uint32 tag , ...) ; extern int TIFFVGetField(TIFF *tif , uint32 tag , va_list ap ) ; extern int TIFFGetFieldDefaulted(TIFF *tif , uint32 tag , ...) ; extern int TIFFVGetFieldDefaulted(TIFF *tif , uint32 tag , va_list ap ) ; extern int TIFFReadDirectory(TIFF *tif ) ; extern int TIFFReadCustomDirectory(TIFF *tif , toff_t diroff , TIFFFieldArray const *infoarray ) ; extern int TIFFReadEXIFDirectory(TIFF *tif , toff_t diroff ) ; extern uint64 TIFFScanlineSize64(TIFF *tif ) ; extern tmsize_t TIFFScanlineSize(TIFF *tif ) ; extern uint64 TIFFRasterScanlineSize64(TIFF *tif ) ; extern tmsize_t TIFFRasterScanlineSize(TIFF *tif ) ; extern uint64 TIFFStripSize64(TIFF *tif ) ; extern tmsize_t TIFFStripSize(TIFF *tif ) ; extern uint64 TIFFRawStripSize64(TIFF *tif , uint32 strip ) ; extern tmsize_t TIFFRawStripSize(TIFF *tif , uint32 strip ) ; extern uint64 TIFFVStripSize64(TIFF *tif , uint32 nrows ) ; extern tmsize_t TIFFVStripSize(TIFF *tif , uint32 nrows ) ; extern uint64 TIFFTileRowSize64(TIFF *tif ) ; extern tmsize_t TIFFTileRowSize(TIFF *tif ) ; extern uint64 TIFFTileSize64(TIFF *tif ) ; extern tmsize_t TIFFTileSize(TIFF *tif ) ; extern uint64 TIFFVTileSize64(TIFF *tif , uint32 nrows ) ; extern tmsize_t TIFFVTileSize(TIFF *tif , uint32 nrows ) ; extern uint32 TIFFDefaultStripSize(TIFF *tif , uint32 request ) ; extern void TIFFDefaultTileSize(TIFF * , uint32 * , uint32 * ) ; extern int TIFFFileno(TIFF * ) ; extern int TIFFSetFileno(TIFF * , int ) ; extern thandle_t TIFFClientdata(TIFF * ) ; extern thandle_t TIFFSetClientdata(TIFF * , thandle_t ) ; extern int TIFFGetMode(TIFF * ) ; extern int TIFFSetMode(TIFF * , int ) ; extern int TIFFIsTiled(TIFF * ) ; extern int TIFFIsByteSwapped(TIFF * ) ; extern int TIFFIsUpSampled(TIFF * ) ; extern int TIFFIsMSB2LSB(TIFF * ) ; extern int TIFFIsBigEndian(TIFF * ) ; extern TIFFReadWriteProc TIFFGetReadProc(TIFF * ) ; extern TIFFReadWriteProc TIFFGetWriteProc(TIFF * ) ; extern TIFFSeekProc TIFFGetSeekProc(TIFF * ) ; extern TIFFCloseProc TIFFGetCloseProc(TIFF * ) ; extern TIFFSizeProc TIFFGetSizeProc(TIFF * ) ; extern TIFFMapFileProc TIFFGetMapFileProc(TIFF * ) ; extern TIFFUnmapFileProc TIFFGetUnmapFileProc(TIFF * ) ; extern uint32 TIFFCurrentRow(TIFF * ) ; extern uint16 TIFFCurrentDirectory(TIFF * ) ; extern uint16 TIFFNumberOfDirectories(TIFF * ) ; extern uint64 TIFFCurrentDirOffset(TIFF * ) ; extern uint32 TIFFCurrentStrip(TIFF * ) ; extern uint32 TIFFCurrentTile(TIFF *tif ) ; extern int TIFFReadBufferSetup(TIFF *tif , void *bp , tmsize_t size ) ; extern int TIFFWriteBufferSetup(TIFF *tif , void *bp , tmsize_t size ) ; extern int TIFFSetupStrips(TIFF * ) ; extern int TIFFWriteCheck(TIFF * , int , char const * ) ; extern void TIFFFreeDirectory(TIFF * ) ; extern int TIFFCreateDirectory(TIFF * ) ; extern int TIFFLastDirectory(TIFF * ) ; extern int TIFFSetDirectory(TIFF * , uint16 ) ; extern int TIFFSetSubDirectory(TIFF * , uint64 ) ; extern int TIFFUnlinkDirectory(TIFF * , uint16 ) ; extern int TIFFSetField(TIFF * , uint32 , ...) ; extern int TIFFVSetField(TIFF * , uint32 , va_list ) ; extern int TIFFUnsetField(TIFF * , uint32 ) ; extern int TIFFWriteDirectory(TIFF * ) ; extern int TIFFCheckpointDirectory(TIFF * ) ; extern int TIFFRewriteDirectory(TIFF * ) ; extern void TIFFPrintDirectory(TIFF * , FILE * , long ) ; extern int TIFFReadScanline(TIFF *tif , void *buf , uint32 row , uint16 sample ) ; extern int TIFFWriteScanline(TIFF *tif , void *buf , uint32 row , uint16 sample ) ; extern int TIFFReadRGBAImage(TIFF * , uint32 , uint32 , uint32 * , int ) ; extern int TIFFReadRGBAImageOriented(TIFF * , uint32 , uint32 , uint32 * , int , int ) ; extern int TIFFReadRGBAStrip(TIFF * , uint32 , uint32 * ) ; extern int TIFFReadRGBATile(TIFF * , uint32 , uint32 , uint32 * ) ; extern int TIFFRGBAImageOK(TIFF * , char * ) ; extern int TIFFRGBAImageBegin(TIFFRGBAImage * , TIFF * , int , char * ) ; extern int TIFFRGBAImageGet(TIFFRGBAImage * , uint32 * , uint32 , uint32 ) ; extern void TIFFRGBAImageEnd(TIFFRGBAImage * ) ; extern TIFF *TIFFOpen(char const * , char const * ) ; extern TIFF *TIFFFdOpen(int , char const * , char const * ) ; extern TIFF *TIFFClientOpen(char const * , char const * , thandle_t , tmsize_t (*)(thandle_t , void * , tmsize_t ) , tmsize_t (*)(thandle_t , void * , tmsize_t ) , toff_t (*)(thandle_t , toff_t , int ) , int (*)(thandle_t ) , toff_t (*)(thandle_t ) , int (*)(thandle_t , void **base , toff_t *size ) , void (*)(thandle_t , void *base , toff_t size ) ) ; extern char const *TIFFFileName(TIFF * ) ; extern char const *TIFFSetFileName(TIFF * , char const * ) ; extern void ( /* format attribute */ TIFFError)(char const * , char const * , ...) ; extern void ( /* format attribute */ TIFFErrorExt)(thandle_t , char const * , char const * , ...) ; extern void ( /* format attribute */ TIFFWarning)(char const * , char const * , ...) ; extern void ( /* format attribute */ TIFFWarningExt)(thandle_t , char const * , char const * , ...) ; extern TIFFErrorHandler TIFFSetErrorHandler(void (*)(char const * , char const * , va_list ) ) ; extern TIFFErrorHandlerExt TIFFSetErrorHandlerExt(void (*)(thandle_t , char const * , char const * , va_list ) ) ; extern TIFFErrorHandler TIFFSetWarningHandler(void (*)(char const * , char const * , va_list ) ) ; extern TIFFErrorHandlerExt TIFFSetWarningHandlerExt(void (*)(thandle_t , char const * , char const * , va_list ) ) ; extern TIFFExtendProc TIFFSetTagExtender(void (*)(TIFF * ) ) ; extern uint32 TIFFComputeTile(TIFF *tif , uint32 x , uint32 y , uint32 z , uint16 s ) ; extern int TIFFCheckTile(TIFF *tif , uint32 x , uint32 y , uint32 z , uint16 s ) ; extern uint32 TIFFNumberOfTiles(TIFF * ) ; extern tmsize_t TIFFReadTile(TIFF *tif , void *buf , uint32 x , uint32 y , uint32 z , uint16 s ) ; extern tmsize_t TIFFWriteTile(TIFF *tif , void *buf , uint32 x , uint32 y , uint32 z , uint16 s ) ; extern uint32 TIFFComputeStrip(TIFF * , uint32 , uint16 ) ; extern uint32 TIFFNumberOfStrips(TIFF * ) ; extern tmsize_t TIFFReadEncodedStrip(TIFF *tif , uint32 strip , void *buf , tmsize_t size ) ; extern tmsize_t TIFFReadRawStrip(TIFF *tif , uint32 strip , void *buf , tmsize_t size ) ; extern tmsize_t TIFFReadEncodedTile(TIFF *tif , uint32 tile , void *buf , tmsize_t size ) ; extern tmsize_t TIFFReadRawTile(TIFF *tif , uint32 tile , void *buf , tmsize_t size ) ; extern tmsize_t TIFFWriteEncodedStrip(TIFF *tif , uint32 strip , void *data , tmsize_t cc ) ; extern tmsize_t TIFFWriteRawStrip(TIFF *tif , uint32 strip , void *data , tmsize_t cc ) ; extern tmsize_t TIFFWriteEncodedTile(TIFF *tif , uint32 tile , void *data , tmsize_t cc ) ; extern tmsize_t TIFFWriteRawTile(TIFF *tif , uint32 tile , void *data , tmsize_t cc ) ; extern int TIFFDataWidth(TIFFDataType ) ; extern void TIFFSetWriteOffset(TIFF *tif , toff_t off ) ; extern void TIFFSwabShort(uint16 * ) ; extern void TIFFSwabLong(uint32 * ) ; extern void TIFFSwabLong8(uint64 * ) ; extern void TIFFSwabFloat(float * ) ; extern void TIFFSwabDouble(double * ) ; extern void TIFFSwabArrayOfShort(uint16 *wp , tmsize_t n ) ; extern void TIFFSwabArrayOfTriples(uint8 *tp , tmsize_t n ) ; extern void TIFFSwabArrayOfLong(uint32 *lp , tmsize_t n ) ; extern void TIFFSwabArrayOfLong8(uint64 *lp , tmsize_t n ) ; extern void TIFFSwabArrayOfFloat(float *fp , tmsize_t n ) ; extern void TIFFSwabArrayOfDouble(double *dp , tmsize_t n ) ; extern void TIFFReverseBits(uint8 *cp , tmsize_t n ) ; extern unsigned char const *TIFFGetBitRevTable(int ) ; extern double LogL16toY(int ) ; extern double LogL10toY(int ) ; extern void XYZtoRGB24(float * , uint8 * ) ; extern int uv_decode(double * , double * , int ) ; extern void LogLuv24toXYZ(uint32 , float * ) ; extern void LogLuv32toXYZ(uint32 , float * ) ; extern int LogL16fromY(double , int ) ; extern int LogL10fromY(double , int ) ; extern int uv_encode(double , double , int ) ; extern uint32 LogLuv24fromXYZ(float * , int ) ; extern uint32 LogLuv32fromXYZ(float * , int ) ; extern int TIFFCIELabToRGBInit(TIFFCIELabToRGB * , TIFFDisplay const * , float * ) ; extern void TIFFCIELabToXYZ(TIFFCIELabToRGB * , uint32 , int32 , int32 , float * , float * , float * ) ; extern void TIFFXYZToRGB(TIFFCIELabToRGB * , float , float , float , uint32 * , uint32 * , uint32 * ) ; extern int TIFFYCbCrToRGBInit(TIFFYCbCrToRGB * , float * , float * ) ; extern void TIFFYCbCrtoRGB(TIFFYCbCrToRGB * , uint32 , int32 , int32 , uint32 * , uint32 * , uint32 * ) ; extern int TIFFMergeFieldInfo(TIFF * , TIFFFieldInfo const * , uint32 ) ; extern TIFFFieldInfo const *TIFFFindFieldInfo(TIFF * , uint32 , TIFFDataType ) ; extern TIFFFieldInfo const *TIFFFindFieldInfoByName(TIFF * , char const * , TIFFDataType ) ; extern TIFFFieldArray const *_TIFFGetFields(void) ; extern TIFFFieldArray const *_TIFFGetExifFields(void) ; extern void _TIFFSetupFields(TIFF *tif , TIFFFieldArray const *infoarray ) ; extern void _TIFFPrintFieldInfo(TIFF * , FILE * ) ; extern int _TIFFMergeFields(TIFF * , TIFFField const * , uint32 ) ; extern TIFFField const *_TIFFFindOrRegisterField(TIFF * , uint32 , TIFFDataType ) ; extern TIFFField *_TIFFCreateAnonField(TIFF * , uint32 , TIFFDataType ) ; extern int _TIFFgetMode(char const *mode , char const *module ) ; extern int _TIFFNoRowEncode(TIFF *tif , uint8 *pp , tmsize_t cc , uint16 s ) ; extern int _TIFFNoStripEncode(TIFF *tif , uint8 *pp , tmsize_t cc , uint16 s ) ; extern int _TIFFNoTileEncode(TIFF * , uint8 *pp , tmsize_t cc , uint16 s ) ; extern int _TIFFNoRowDecode(TIFF *tif , uint8 *pp , tmsize_t cc , uint16 s ) ; extern int _TIFFNoStripDecode(TIFF *tif , uint8 *pp , tmsize_t cc , uint16 s ) ; extern int _TIFFNoTileDecode(TIFF * , uint8 *pp , tmsize_t cc , uint16 s ) ; extern void _TIFFNoPostDecode(TIFF *tif , uint8 *buf , tmsize_t cc ) ; extern int _TIFFNoPreCode(TIFF *tif , uint16 s ) ; extern int _TIFFNoSeek(TIFF *tif , uint32 off ) ; extern void _TIFFSwab16BitData(TIFF *tif , uint8 *buf , tmsize_t cc ) ; extern void _TIFFSwab24BitData(TIFF *tif , uint8 *buf , tmsize_t cc ) ; extern void _TIFFSwab32BitData(TIFF *tif , uint8 *buf , tmsize_t cc ) ; extern void _TIFFSwab64BitData(TIFF *tif , uint8 *buf , tmsize_t cc ) ; extern int TIFFFlushData1(TIFF *tif ) ; extern int TIFFDefaultDirectory(TIFF *tif ) ; extern void _TIFFSetDefaultCompressionState(TIFF *tif ) ; extern int _TIFFRewriteField(TIFF * , uint16 , TIFFDataType , tmsize_t , void * ) ; extern int TIFFSetCompressionScheme(TIFF *tif , int scheme ) ; extern int TIFFSetDefaultCompressionState(TIFF *tif ) ; extern uint32 _TIFFDefaultStripSize(TIFF *tif , uint32 s ) ; extern void _TIFFDefaultTileSize(TIFF *tif , uint32 *tw , uint32 *th ) ; extern int _TIFFDataSize(TIFFDataType type ) ; extern void _TIFFsetByteArray(void ** , void * , uint32 ) ; extern void _TIFFsetString(char ** , char * ) ; extern void _TIFFsetShortArray(uint16 ** , uint16 * , uint32 ) ; extern void _TIFFsetLongArray(uint32 ** , uint32 * , uint32 ) ; extern void _TIFFsetFloatArray(float ** , float * , uint32 ) ; extern void _TIFFsetDoubleArray(double ** , double * , uint32 ) ; extern void _TIFFprintAscii(FILE * , char const * ) ; extern void _TIFFprintAsciiTag(FILE * , char const * , char const * ) ; extern void (*_TIFFwarningHandler)(char const * , char const * , va_list ) ; extern void (*_TIFFerrorHandler)(char const * , char const * , va_list ) ; extern void (*_TIFFwarningHandlerExt)(thandle_t , char const * , char const * , va_list ) ; extern void (*_TIFFerrorHandlerExt)(thandle_t , char const * , char const * , va_list ) ; extern uint32 _TIFFMultiply32(TIFF * , uint32 , uint32 , char const * ) ; extern uint64 _TIFFMultiply64(TIFF * , uint64 , uint64 , char const * ) ; extern void *_TIFFCheckMalloc(TIFF * , tmsize_t , tmsize_t , char const * ) ; extern void *_TIFFCheckRealloc(TIFF * , void * , tmsize_t , tmsize_t , char const * ) ; extern double _TIFFUInt64ToDouble(uint64 ) ; extern float _TIFFUInt64ToFloat(uint64 ) ; extern int TIFFInitDumpMode(TIFF * , int ) ; extern int TIFFInitPackBits(TIFF * , int ) ; extern int TIFFInitCCITTRLE(TIFF * , int ) ; extern int TIFFInitCCITTRLEW(TIFF * , int ) ; extern int TIFFInitCCITTFax3(TIFF * , int ) ; extern int TIFFInitCCITTFax4(TIFF * , int ) ; extern int TIFFInitThunderScan(TIFF * , int ) ; extern int TIFFInitNeXT(TIFF * , int ) ; extern int TIFFInitLZW(TIFF * , int ) ; extern int TIFFInitZIP(TIFF * , int ) ; extern int TIFFInitPixarLog(TIFF * , int ) ; extern int TIFFInitSGILog(TIFF * , int ) ; extern TIFFCodec _TIFFBuiltinCODECS[] ; void tiff2pdf_usage(void) ; int tiff2pdf_match_paper_size(float *width , float *length , char *papersize ) ; T2P *t2p_init(void) ; void t2p_validate(T2P *t2p ) ; tsize_t t2p_write_pdf(T2P *t2p , TIFF *input , TIFF *output ) ; void t2p_free(T2P *t2p ) ; void t2p_read_tiff_init(T2P *t2p , TIFF *input ) ; int t2p_cmp_t2p_page(void const *e1 , void const *e2 ) ; void t2p_read_tiff_data(T2P *t2p , TIFF *input ) ; void t2p_read_tiff_size(T2P *t2p , TIFF *input ) ; void t2p_read_tiff_size_tile(T2P *t2p , TIFF *input , ttile_t tile ) ; int t2p_tile_is_right_edge(T2P_TILES tiles , ttile_t tile ) ; int t2p_tile_is_bottom_edge(T2P_TILES tiles , ttile_t tile ) ; int t2p_tile_is_edge(T2P_TILES tiles , ttile_t tile ) ; int t2p_tile_is_corner_edge(T2P_TILES tiles , ttile_t tile ) ; tsize_t t2p_readwrite_pdf_image(T2P *t2p , TIFF *input , TIFF *output ) ; tsize_t t2p_readwrite_pdf_image_tile(T2P *t2p , TIFF *input , TIFF *output , ttile_t tile ) ; void t2p_tile_collapse_left(tdata_t buffer , tsize_t scanwidth , uint32 tilewidth , uint32 edgetilewidth , uint32 tilelength ) ; void t2p_write_advance_directory(T2P *t2p , TIFF *output ) ; tsize_t t2p_sample_planar_separate_to_contig(T2P *t2p , unsigned char *buffer , unsigned char *samplebuffer , tsize_t samplebuffersize ) ; tsize_t t2p_sample_realize_palette(T2P *t2p , unsigned char *buffer ) ; tsize_t t2p_sample_abgr_to_rgb(tdata_t data , uint32 samplecount ) ; tsize_t t2p_sample_rgba_to_rgb(tdata_t data , uint32 samplecount ) ; tsize_t t2p_sample_rgbaa_to_rgb(tdata_t data , uint32 samplecount ) ; tsize_t t2p_sample_lab_signed_to_unsigned(tdata_t buffer , uint32 samplecount ) ; tsize_t t2p_write_pdf_header(T2P *t2p , TIFF *output ) ; tsize_t t2p_write_pdf_obj_start(uint32 number , TIFF *output ) ; tsize_t t2p_write_pdf_obj_end(TIFF *output ) ; tsize_t t2p_write_pdf_name(unsigned char *name , TIFF *output ) ; tsize_t t2p_write_pdf_string(char *pdfstr , TIFF *output ) ; tsize_t t2p_write_pdf_stream(tdata_t buffer , tsize_t len , TIFF *output ) ; tsize_t t2p_write_pdf_stream_start(TIFF *output ) ; tsize_t t2p_write_pdf_stream_end(TIFF *output ) ; tsize_t t2p_write_pdf_stream_dict(tsize_t len , uint32 number , TIFF *output ) ; tsize_t t2p_write_pdf_stream_dict_start(TIFF *output ) ; tsize_t t2p_write_pdf_stream_dict_end(TIFF *output ) ; tsize_t t2p_write_pdf_stream_length(tsize_t len , TIFF *output ) ; tsize_t t2p_write_pdf_catalog(T2P *t2p , TIFF *output ) ; tsize_t t2p_write_pdf_info(T2P *t2p , TIFF *input , TIFF *output ) ; void t2p_pdf_currenttime(T2P *t2p ) ; void t2p_pdf_tifftime(T2P *t2p , TIFF *input ) ; tsize_t t2p_write_pdf_pages(T2P *t2p , TIFF *output ) ; tsize_t t2p_write_pdf_page(uint32 object , T2P *t2p , TIFF *output ) ; void t2p_compose_pdf_page(T2P *t2p ) ; void t2p_compose_pdf_page_orient(T2P_BOX *boxp , uint16 orientation ) ; void t2p_compose_pdf_page_orient_flip(T2P_BOX *boxp , uint16 orientation ) ; extern tsize_t t2p_write_pdf_page_content(T2P * , TIFF * ) ; tsize_t t2p_write_pdf_xobject_stream_dict(ttile_t tile , T2P *t2p , TIFF *output ) ; tsize_t t2p_write_pdf_xobject_cs(T2P *t2p , TIFF *output ) ; tsize_t t2p_write_pdf_transfer(T2P *t2p , TIFF *output ) ; tsize_t t2p_write_pdf_transfer_dict(T2P *t2p , TIFF *output , uint16 i ) ; tsize_t t2p_write_pdf_transfer_stream(T2P *t2p , TIFF *output , uint16 i ) ; tsize_t t2p_write_pdf_xobject_calcs(T2P *t2p , TIFF *output ) ; tsize_t t2p_write_pdf_xobject_icccs(T2P *t2p , TIFF *output ) ; tsize_t t2p_write_pdf_xobject_icccs_dict(T2P *t2p , TIFF *output ) ; tsize_t t2p_write_pdf_xobject_icccs_stream(T2P *t2p , TIFF *output ) ; extern tsize_t t2p_write_pdf_xobject_cs_stream(T2P * , TIFF * ) ; tsize_t t2p_write_pdf_xobject_decode(T2P *t2p , TIFF *output ) ; tsize_t t2p_write_pdf_xobject_stream_filter(ttile_t tile , T2P *t2p , TIFF *output ) ; tsize_t t2p_write_pdf_xreftable(T2P *t2p , TIFF *output ) ; tsize_t t2p_write_pdf_trailer(T2P *t2p , TIFF *output ) ; static void t2p_disable(TIFF *tif ) { T2P *t2p ; thandle_t tmp ; { tmp = TIFFClientdata(tif); t2p = (T2P *)tmp; t2p->outputdisable = 1; return; } } static void t2p_enable(TIFF *tif ) { T2P *t2p ; thandle_t tmp ; { tmp = TIFFClientdata(tif); t2p = (T2P *)tmp; t2p->outputdisable = 0; return; } } static tmsize_t t2pReadFile(TIFF *tif , tdata_t data , tmsize_t size ) { thandle_t client ; thandle_t tmp ; tmsize_t (*proc)(thandle_t , void * , tmsize_t ) ; TIFFReadWriteProc tmp___0 ; tmsize_t tmp___1 ; { tmp = TIFFClientdata(tif); client = tmp; tmp___0 = TIFFGetReadProc(tif); proc = tmp___0; if (proc) { tmp___1 = (*proc)(client, data, size); return (tmp___1); } else { } return (-1L); } } static tmsize_t t2pWriteFile(TIFF *tif , tdata_t data , tmsize_t size ) { thandle_t client ; thandle_t tmp ; tmsize_t (*proc)(thandle_t , void * , tmsize_t ) ; TIFFReadWriteProc tmp___0 ; tmsize_t tmp___1 ; { tmp = TIFFClientdata(tif); client = tmp; tmp___0 = TIFFGetWriteProc(tif); proc = tmp___0; if (proc) { tmp___1 = (*proc)(client, data, size); return (tmp___1); } else { } return (-1L); } } static uint64 t2pSeekFile(TIFF *tif , toff_t offset , int whence ) { thandle_t client ; thandle_t tmp ; toff_t (*proc)(thandle_t , toff_t , int ) ; TIFFSeekProc tmp___0 ; toff_t tmp___1 ; { tmp = TIFFClientdata(tif); client = tmp; tmp___0 = TIFFGetSeekProc(tif); proc = tmp___0; if (proc) { tmp___1 = (*proc)(client, offset, whence); return (tmp___1); } else { } return (0xffffffffffffffffULL); } } static tmsize_t t2p_readproc(thandle_t handle , tdata_t data , tmsize_t size ) { { return (-1L); } } static tmsize_t t2p_writeproc(thandle_t handle , tdata_t data , tmsize_t size ) { T2P *t2p ; tsize_t written ; size_t tmp ; { t2p = (T2P *)handle; if (t2p->outputdisable <= 0) { if (t2p->outputfile) { tmp = fwrite((void const */* __restrict */)data, 1U, (unsigned int )size, (FILE */* __restrict */)t2p->outputfile); written = (tsize_t )tmp; t2p->outputwritten += written; return (written); } else { } } else { } return (size); } } static uint64 t2p_seekproc(thandle_t handle , uint64 offset , int whence ) { T2P *t2p ; int tmp ; { t2p = (T2P *)handle; if (t2p->outputdisable <= 0) { if (t2p->outputfile) { tmp = fseek(t2p->outputfile, (long )offset, whence); return ((unsigned long long )tmp); } else { } } else { } return (offset); } } static int t2p_closeproc(thandle_t handle ) { { return (0); } } static uint64 t2p_sizeproc(thandle_t handle ) { { return (0xffffffffffffffffULL); } } static int t2p_mapproc(thandle_t handle , void **data , toff_t *offset ) { { return (-1); } } static void t2p_unmapproc(thandle_t handle , void *data , toff_t offset ) { { return; } } int main(int argc , char **argv ) { char const *outfilename ; T2P *t2p ; TIFF *input ; TIFF *output ; tsize_t written ; int c ; int ret ; int tmp ; double tmp___0 ; float tmp___1 ; double tmp___2 ; float tmp___3 ; double tmp___4 ; float tmp___5 ; double tmp___6 ; float tmp___7 ; int tmp___8 ; size_t tmp___9 ; int tmp___10 ; { outfilename = (char const *)((void *)0); t2p = (T2P *)((void *)0); input = (TIFF *)((void *)0); output = (TIFF *)((void *)0); written = (tsize_t )0; ret = 0; t2p = t2p_init(); if ((unsigned int )t2p == (unsigned int )((void *)0)) { TIFFError("tiff2pdf", "Can\'t initialize context"); goto fail; } else { } while (1) { if (argv) { c = getopt(argc, (char * const *)argv, "o:q:u:x:y:w:l:r:p:e:c:a:t:s:k:jzndifbh"); if (c != -1) { } else { break; } } else { break; } switch (c) { case 111: outfilename = (char const *)optarg; break; case 106: TIFFWarning("tiff2pdf", "JPEG support in libtiff required for JPEG compression, ignoring option"); break; case 122: t2p->pdf_defaultcompression = (enum __anonenum_t2p_compress_t_51 )4; break; case 113: tmp = atoi((char const *)optarg); t2p->pdf_defaultcompressionquality = (unsigned short )tmp; break; case 110: t2p->pdf_nopassthrough = (unsigned short)1; break; case 100: t2p->pdf_defaultcompression = (enum __anonenum_t2p_compress_t_51 )0; break; case 117: if ((int )*(optarg + 0) == 109) { t2p->pdf_centimeters = (unsigned short)1; } else { } break; case 120: tmp___0 = atof((char const *)optarg); if (t2p->pdf_centimeters) { tmp___1 = 2.54F; } else { tmp___1 = 1.0F; } t2p->pdf_defaultxres = (float )tmp___0 / tmp___1; break; case 121: tmp___2 = atof((char const *)optarg); if (t2p->pdf_centimeters) { tmp___3 = 2.54F; } else { tmp___3 = 1.0F; } t2p->pdf_defaultyres = (float )tmp___2 / tmp___3; break; case 119: t2p->pdf_overridepagesize = (unsigned short)1; tmp___4 = atof((char const *)optarg); if (t2p->pdf_centimeters) { tmp___5 = 2.54F; } else { tmp___5 = 1.0F; } t2p->pdf_defaultpagewidth = ((float )tmp___4 * 72.0F) / tmp___5; break; case 108: t2p->pdf_overridepagesize = (unsigned short)1; tmp___6 = atof((char const *)optarg); if (t2p->pdf_centimeters) { tmp___7 = 2.54F; } else { tmp___7 = 1.0F; } t2p->pdf_defaultpagelength = ((float )tmp___6 * 72.0F) / tmp___7; break; case 114: if ((int )*(optarg + 0) == 111) { t2p->pdf_overrideres = (unsigned short)1; } else { } break; case 112: tmp___8 = tiff2pdf_match_paper_size(& t2p->pdf_defaultpagewidth, & t2p->pdf_defaultpagelength, optarg); if (tmp___8) { t2p->pdf_overridepagesize = (unsigned short)1; } else { TIFFWarning("tiff2pdf", "Unknown paper size %s, ignoring option", optarg); } break; case 105: t2p->pdf_colorspace_invert = (unsigned short)1; break; case 102: t2p->pdf_fitwindow = (unsigned short)1; break; case 101: tmp___9 = strlen((char const *)optarg); if (tmp___9 == 0U) { t2p->pdf_datetime[0] = (char )'\000'; } else { t2p->pdf_datetime[0] = (char )'D'; t2p->pdf_datetime[1] = (char )':'; __builtin_strncpy(t2p->pdf_datetime + 2, (char const *)optarg, sizeof(t2p->pdf_datetime) - 3U); t2p->pdf_datetime[sizeof(t2p->pdf_datetime) - 1U] = (char )'\000'; } break; case 99: __builtin_strncpy(t2p->pdf_creator, (char const *)optarg, sizeof(t2p->pdf_creator) - 1U); t2p->pdf_creator[sizeof(t2p->pdf_creator) - 1U] = (char )'\000'; break; case 97: __builtin_strncpy(t2p->pdf_author, (char const *)optarg, sizeof(t2p->pdf_author) - 1U); t2p->pdf_author[sizeof(t2p->pdf_author) - 1U] = (char )'\000'; break; case 116: __builtin_strncpy(t2p->pdf_title, (char const *)optarg, sizeof(t2p->pdf_title) - 1U); t2p->pdf_title[sizeof(t2p->pdf_title) - 1U] = (char )'\000'; break; case 115: __builtin_strncpy(t2p->pdf_subject, (char const *)optarg, sizeof(t2p->pdf_subject) - 1U); t2p->pdf_subject[sizeof(t2p->pdf_subject) - 1U] = (char )'\000'; break; case 107: __builtin_strncpy(t2p->pdf_keywords, (char const *)optarg, sizeof(t2p->pdf_keywords) - 1U); t2p->pdf_keywords[sizeof(t2p->pdf_keywords) - 1U] = (char )'\000'; break; case 98: t2p->pdf_image_interpolate = 1; break; case 104: case 63: tiff2pdf_usage(); goto success; break; } } if (argc > optind) { tmp___10 = optind; optind ++; input = TIFFOpen((char const *)*(argv + tmp___10), "r"); if ((unsigned int )input == (unsigned int )((void *)0)) { TIFFError("tiff2pdf", "Can\'t open input file %s for reading", *(argv + (optind - 1))); goto fail; } else { } } else { TIFFError("tiff2pdf", "No input file specified"); tiff2pdf_usage(); goto fail; } if (argc > optind) { TIFFError("tiff2pdf", "No support for multiple input files"); tiff2pdf_usage(); goto fail; } else { } t2p->outputdisable = 0; if (outfilename) { t2p->outputfile = fopen((char const */* __restrict */)outfilename, (char const */* __restrict */)"wb"); if ((unsigned int )t2p->outputfile == (unsigned int )((void *)0)) { TIFFError("tiff2pdf", "Can\'t open output file %s for writing", outfilename); goto fail; } else { } } else { outfilename = "-"; t2p->outputfile = stdout; } output = TIFFClientOpen(outfilename, "w", (void *)t2p, & t2p_readproc, & t2p_writeproc, & t2p_seekproc, & t2p_closeproc, & t2p_sizeproc, & t2p_mapproc, & t2p_unmapproc); if ((unsigned int )output == (unsigned int )((void *)0)) { TIFFError("tiff2pdf", "Can\'t initialize output descriptor"); goto fail; } else { } t2p_validate(t2p); t2pSeekFile(output, 0ULL, 0); written = t2p_write_pdf(t2p, input, output); if ((unsigned int )t2p->t2p_error != 0U) { TIFFError("tiff2pdf", "An error occurred creating output PDF file"); goto fail; } else { } fail: ret = 1; success: if ((unsigned int )input != (unsigned int )((void *)0)) { { TIFFClose(input); ret = 0; } } else { } if ((unsigned int )output != (unsigned int )((void *)0)) { TIFFClose(output); } else { } if ((unsigned int )t2p != (unsigned int )((void *)0)) { t2p_free(t2p); } else { } return (ret); } } void tiff2pdf_usage(void) { char *lines[25] ; int i ; char const *tmp ; { lines[0] = (char *)"usage: tiff2pdf [options] input.tiff"; lines[1] = (char *)"options:"; lines[2] = (char *)" -o: output to file name"; lines[3] = (char *)" -z: compress with Zip/Deflate"; lines[4] = (char *)" -q: compression quality"; lines[5] = (char *)" -n: no compressed data passthrough"; lines[6] = (char *)" -d: do not compress (decompress)"; lines[7] = (char *)" -i: invert colors"; lines[8] = (char *)" -u: set distance unit, \'i\' for inch, \'m\' for centimeter"; lines[9] = (char *)" -x: set x resolution default in dots per unit"; lines[10] = (char *)" -y: set y resolution default in dots per unit"; lines[11] = (char *)" -w: width in units"; lines[12] = (char *)" -l: length in units"; lines[13] = (char *)" -r: \'d\' for resolution default, \'o\' for resolution override"; lines[14] = (char *)" -p: paper size, eg \"letter\", \"legal\", \"A4\""; lines[15] = (char *)" -f: set PDF \"Fit Window\" user preference"; lines[16] = (char *)" -e: date, overrides image or current date/time default, YYYYMMDDHHMMSS"; lines[17] = (char *)" -c: sets document creator, overrides image software default"; lines[18] = (char *)" -a: sets document author, overrides image artist default"; lines[19] = (char *)" -t: sets document title, overrides image document name default"; lines[20] = (char *)" -s: sets document subject, overrides image image description default"; lines[21] = (char *)" -k: sets document keywords"; lines[22] = (char *)" -b: set PDF \"Interpolate\" user preference"; lines[23] = (char *)" -h: usage"; lines[24] = (char *)((void *)0); i = 0; tmp = TIFFGetVersion(); fprintf((FILE */* __restrict */)stderr, (char const */* __restrict */)"%s\n\n", tmp); i = 0; while ((unsigned int )lines[i] != (unsigned int )((void *)0)) { fprintf((FILE */* __restrict */)stderr, (char const */* __restrict */)"%s\n", lines[i]); i ++; } return; } } int tiff2pdf_match_paper_size(float *width , float *length , char *papersize ) { size_t i ; size_t len ; char const *sizes[80] ; int widths[80] ; int lengths[80] ; int __res ; int __c ; __int32_t const **tmp ; __int32_t const **tmp___0 ; size_t __s1_len ; size_t __s2_len ; int tmp___1 ; int tmp___2 ; int tmp___3 ; unsigned char const *__s2 ; register int __result ; int tmp___4 ; unsigned char const *__s1 ; register int __result___0 ; int tmp___5 ; int tmp___6 ; int tmp___7 ; { sizes[0] = "LETTER"; sizes[1] = "A4"; sizes[2] = "LEGAL"; sizes[3] = "EXECUTIVE"; sizes[4] = "LETTER"; sizes[5] = "LEGAL"; sizes[6] = "LEDGER"; sizes[7] = "TABLOID"; sizes[8] = "A"; sizes[9] = "B"; sizes[10] = "C"; sizes[11] = "D"; sizes[12] = "E"; sizes[13] = "F"; sizes[14] = "G"; sizes[15] = "H"; sizes[16] = "J"; sizes[17] = "K"; sizes[18] = "A10"; sizes[19] = "A9"; sizes[20] = "A8"; sizes[21] = "A7"; sizes[22] = "A6"; sizes[23] = "A5"; sizes[24] = "A4"; sizes[25] = "A3"; sizes[26] = "A2"; sizes[27] = "A1"; sizes[28] = "A0"; sizes[29] = "2A0"; sizes[30] = "4A0"; sizes[31] = "2A"; sizes[32] = "4A"; sizes[33] = "B10"; sizes[34] = "B9"; sizes[35] = "B8"; sizes[36] = "B7"; sizes[37] = "B6"; sizes[38] = "B5"; sizes[39] = "B4"; sizes[40] = "B3"; sizes[41] = "B2"; sizes[42] = "B1"; sizes[43] = "B0"; sizes[44] = "JISB10"; sizes[45] = "JISB9"; sizes[46] = "JISB8"; sizes[47] = "JISB7"; sizes[48] = "JISB6"; sizes[49] = "JISB5"; sizes[50] = "JISB4"; sizes[51] = "JISB3"; sizes[52] = "JISB2"; sizes[53] = "JISB1"; sizes[54] = "JISB0"; sizes[55] = "C10"; sizes[56] = "C9"; sizes[57] = "C8"; sizes[58] = "C7"; sizes[59] = "C6"; sizes[60] = "C5"; sizes[61] = "C4"; sizes[62] = "C3"; sizes[63] = "C2"; sizes[64] = "C1"; sizes[65] = "C0"; sizes[66] = "RA2"; sizes[67] = "RA1"; sizes[68] = "RA0"; sizes[69] = "SRA4"; sizes[70] = "SRA3"; sizes[71] = "SRA2"; sizes[72] = "SRA1"; sizes[73] = "SRA0"; sizes[74] = "A3EXTRA"; sizes[75] = "A4EXTRA"; sizes[76] = "STATEMENT"; sizes[77] = "FOLIO"; sizes[78] = "QUARTO"; sizes[79] = (char const *)((void *)0); widths[0] = 612; widths[1] = 595; widths[2] = 612; widths[3] = 522; widths[4] = 612; widths[5] = 612; widths[6] = 792; widths[7] = 792; widths[8] = 612; widths[9] = 792; widths[10] = 1224; widths[11] = 1584; widths[12] = 2448; widths[13] = 2016; widths[14] = 792; widths[15] = 2016; widths[16] = 2448; widths[17] = 2880; widths[18] = 74; widths[19] = 105; widths[20] = 147; widths[21] = 210; widths[22] = 298; widths[23] = 420; widths[24] = 595; widths[25] = 842; widths[26] = 1191; widths[27] = 1684; widths[28] = 2384; widths[29] = 3370; widths[30] = 4768; widths[31] = 3370; widths[32] = 4768; widths[33] = 88; widths[34] = 125; widths[35] = 176; widths[36] = 249; widths[37] = 354; widths[38] = 499; widths[39] = 709; widths[40] = 1001; widths[41] = 1417; widths[42] = 2004; widths[43] = 2835; widths[44] = 91; widths[45] = 128; widths[46] = 181; widths[47] = 258; widths[48] = 363; widths[49] = 516; widths[50] = 729; widths[51] = 1032; widths[52] = 1460; widths[53] = 2064; widths[54] = 2920; widths[55] = 79; widths[56] = 113; widths[57] = 162; widths[58] = 230; widths[59] = 323; widths[60] = 459; widths[61] = 649; widths[62] = 918; widths[63] = 1298; widths[64] = 1298; widths[65] = 2599; widths[66] = 1219; widths[67] = 1729; widths[68] = 2438; widths[69] = 638; widths[70] = 907; widths[71] = 1276; widths[72] = 1814; widths[73] = 2551; widths[74] = 914; widths[75] = 667; widths[76] = 396; widths[77] = 612; widths[78] = 609; widths[79] = 0; lengths[0] = 792; lengths[1] = 842; lengths[2] = 1008; lengths[3] = 756; lengths[4] = 792; lengths[5] = 1008; lengths[6] = 1224; lengths[7] = 1224; lengths[8] = 792; lengths[9] = 1224; lengths[10] = 1584; lengths[11] = 2448; lengths[12] = 3168; lengths[13] = 2880; lengths[14] = 6480; lengths[15] = 10296; lengths[16] = 12672; lengths[17] = 10296; lengths[18] = 105; lengths[19] = 147; lengths[20] = 210; lengths[21] = 298; lengths[22] = 420; lengths[23] = 595; lengths[24] = 842; lengths[25] = 1191; lengths[26] = 1684; lengths[27] = 2384; lengths[28] = 3370; lengths[29] = 4768; lengths[30] = 6741; lengths[31] = 4768; lengths[32] = 6741; lengths[33] = 125; lengths[34] = 176; lengths[35] = 249; lengths[36] = 354; lengths[37] = 499; lengths[38] = 709; lengths[39] = 1001; lengths[40] = 1417; lengths[41] = 2004; lengths[42] = 2835; lengths[43] = 4008; lengths[44] = 128; lengths[45] = 181; lengths[46] = 258; lengths[47] = 363; lengths[48] = 516; lengths[49] = 729; lengths[50] = 1032; lengths[51] = 1460; lengths[52] = 2064; lengths[53] = 2920; lengths[54] = 4127; lengths[55] = 113; lengths[56] = 162; lengths[57] = 230; lengths[58] = 323; lengths[59] = 459; lengths[60] = 649; lengths[61] = 918; lengths[62] = 1298; lengths[63] = 1837; lengths[64] = 1837; lengths[65] = 3677; lengths[66] = 1729; lengths[67] = 2438; lengths[68] = 3458; lengths[69] = 907; lengths[70] = 1276; lengths[71] = 1814; lengths[72] = 2551; lengths[73] = 3628; lengths[74] = 1262; lengths[75] = 914; lengths[76] = 612; lengths[77] = 936; lengths[78] = 780; lengths[79] = 0; len = strlen((char const *)papersize); i = 0U; while (i < len) { if (sizeof(*(papersize + i)) > 1U) { __res = toupper((int )*(papersize + i)); } else { tmp___0 = __ctype_toupper_loc(); __res = (int )*(*tmp___0 + (int )*(papersize + i)); } *(papersize + i) = (char )__res; i ++; } i = 0U; while ((unsigned int )sizes[i] != (unsigned int )((void *)0)) { if (0) { __s1_len = strlen((char const *)papersize); __s2_len = strlen(sizes[i]); if (! ((unsigned int )((void const *)((char const *)papersize + 1)) - (unsigned int )((void const *)((char const *)papersize)) == 1U)) { goto _L___0; } else { if (__s1_len >= 4U) { _L___0: /* CIL Label */ if (! ((unsigned int )((void const *)(sizes[i] + 1)) - (unsigned int )((void const *)sizes[i]) == 1U)) { tmp___7 = 1; } else { if (__s2_len >= 4U) { tmp___7 = 1; } else { tmp___7 = 0; } } } else { tmp___7 = 0; } } if (tmp___7) { tmp___2 = __builtin_strcmp((char const *)papersize, sizes[i]); tmp___6 = tmp___2; } else { tmp___5 = __builtin_strcmp((char const *)papersize, sizes[i]); tmp___6 = tmp___5; } } else { tmp___5 = __builtin_strcmp((char const *)papersize, sizes[i]); tmp___6 = tmp___5; } if (tmp___6 == 0) { *width = (float )widths[i]; *length = (float )lengths[i]; return (1); } else { } i ++; } return (0); } } T2P *t2p_init(void) { T2P *t2p ; void *tmp ; { tmp = _TIFFmalloc((long )sizeof(T2P )); t2p = (T2P *)tmp; if ((unsigned int )t2p == (unsigned int )((void *)0)) { TIFFError("tiff2pdf", "Can\'t allocate %lu bytes of memory for t2p_init", (unsigned long )sizeof(T2P )); return ((T2P *)((void *)0)); } else { } _TIFFmemset((void *)t2p, 0x00, (long )sizeof(T2P )); t2p->pdf_majorversion = (unsigned short)1; t2p->pdf_minorversion = (unsigned short)1; t2p->pdf_defaultxres = (float )300.0; t2p->pdf_defaultyres = (float )300.0; t2p->pdf_defaultpagewidth = (float )612.0; t2p->pdf_defaultpagelength = (float )792.0; t2p->pdf_xrefcount = 3U; return (t2p); } } void t2p_free(T2P *t2p ) { int i ; { i = 0; if ((unsigned int )t2p != (unsigned int )((void *)0)) { if ((unsigned int )t2p->pdf_xrefoffsets != (unsigned int )((void *)0)) { _TIFFfree((void *)t2p->pdf_xrefoffsets); } else { } if ((unsigned int )t2p->tiff_pages != (unsigned int )((void *)0)) { _TIFFfree((void *)t2p->tiff_pages); } else { } i = 0; { } if ((unsigned int )t2p->tiff_tiles != (unsigned int )((void *)0)) { _TIFFfree((void *)t2p->tiff_tiles); } else { } if ((unsigned int )t2p->pdf_palette != (unsigned int )((void *)0)) { _TIFFfree((void *)t2p->pdf_palette); } else { } _TIFFfree((void *)t2p); } else { } return; } } void t2p_validate(T2P *t2p ) { uint16 m ; { if ((unsigned int )t2p->pdf_defaultcompression == 4U) { m = (uint16 )((int )t2p->pdf_defaultcompressionquality % 100); if ((int )t2p->pdf_defaultcompressionquality / 100 > 9) { t2p->pdf_defaultcompressionquality = (unsigned short)0; } else { if ((int )m > 1) { if ((int )m < 10) { t2p->pdf_defaultcompressionquality = (unsigned short)0; } else { goto _L; } } else { _L: /* CIL Label */ if ((int )m > 15) { t2p->pdf_defaultcompressionquality = (unsigned short)0; } else { } } } if ((int )t2p->pdf_defaultcompressionquality % 100 != 0) { t2p->pdf_defaultcompressionquality = (unsigned short )((int )t2p->pdf_defaultcompressionquality / 100); t2p->pdf_defaultcompressionquality = (unsigned short )((int )t2p->pdf_defaultcompressionquality * 100); TIFFError("tiff2pdf", "PNG Group predictor differencing not implemented, assuming compression quality %u", t2p->pdf_defaultcompressionquality); } else { } t2p->pdf_defaultcompressionquality = (unsigned short )((int )t2p->pdf_defaultcompressionquality % 100); if ((int )t2p->pdf_minorversion < 2) { t2p->pdf_minorversion = (unsigned short)2; } else { } } else { } return; } } void t2p_read_tiff_init(T2P *t2p , TIFF *input ) { tdir_t directorycount ; tdir_t i ; uint16 pagen ; uint16 paged ; uint16 xuint16 ; void *tmp ; char const *tmp___0 ; void *tmp___1 ; char const *tmp___2 ; uint32 subfiletype ; char const *tmp___3 ; int tmp___4 ; int tmp___5 ; int tmp___6 ; int tmp___7 ; int tmp___8 ; int tmp___9 ; int tmp___10 ; uint32 tmp___11 ; int tmp___12 ; int tmp___13 ; int tmp___14 ; int tmp___15 ; void *tmp___16 ; char const *tmp___17 ; { directorycount = (tdir_t )0; i = (tdir_t )0; pagen = (uint16 )0; paged = (uint16 )0; xuint16 = (uint16 )0; directorycount = TIFFNumberOfDirectories(input); tmp = _TIFFmalloc((long )((unsigned int )directorycount * sizeof(T2P_PAGE ))); t2p->tiff_pages = (T2P_PAGE *)tmp; if ((unsigned int )t2p->tiff_pages == (unsigned int )((void *)0)) { tmp___0 = TIFFFileName(input); TIFFError("tiff2pdf", "Can\'t allocate %lu bytes of memory for tiff_pages array, %s", (unsigned long )directorycount * (unsigned long )sizeof(T2P_PAGE ), tmp___0); t2p->t2p_error = (enum __anonenum_t2p_err_t_54 )1; return; } else { } _TIFFmemset((void *)t2p->tiff_pages, 0x00, (long )((unsigned int )directorycount * sizeof(T2P_PAGE ))); tmp___1 = _TIFFmalloc((long )((unsigned int )directorycount * sizeof(T2P_TILES ))); t2p->tiff_tiles = (T2P_TILES *)tmp___1; if ((unsigned int )t2p->tiff_tiles == (unsigned int )((void *)0)) { tmp___2 = TIFFFileName(input); TIFFError("tiff2pdf", "Can\'t allocate %lu bytes of memory for tiff_tiles array, %s", (unsigned long )directorycount * (unsigned long )sizeof(T2P_TILES ), tmp___2); t2p->t2p_error = (enum __anonenum_t2p_err_t_54 )1; return; } else { } _TIFFmemset((void *)t2p->tiff_tiles, 0x00, (long )((unsigned int )directorycount * sizeof(T2P_TILES ))); i = (unsigned short)0; while ((int )i < (int )directorycount) { subfiletype = (uint32 )0; tmp___4 = TIFFSetDirectory(input, i); if (tmp___4) { } else { tmp___3 = TIFFFileName(input); TIFFError("tiff2pdf", "Can\'t set directory %u of input file %s", i, tmp___3); return; } tmp___5 = TIFFGetField(input, 297U, & pagen, & paged); if (tmp___5) { if ((int )pagen > (int )paged) { if ((int )paged != 0) { (t2p->tiff_pages + t2p->tiff_pagecount)->page_number = (unsigned int )paged; } else { (t2p->tiff_pages + t2p->tiff_pagecount)->page_number = (unsigned int )pagen; } } else { (t2p->tiff_pages + t2p->tiff_pagecount)->page_number = (unsigned int )pagen; } goto ispage2; } else { } tmp___6 = TIFFGetField(input, 254U, & subfiletype); if (tmp___6) { if ((subfiletype & 2U) != 0U) { goto ispage; } else { if (subfiletype == 0U) { goto ispage; } else { goto isnotpage; } } } else { } tmp___7 = TIFFGetField(input, 255U, & subfiletype); if (tmp___7) { if (subfiletype == 1U) { goto ispage; } else { if (subfiletype == 3U) { goto ispage; } else { if (subfiletype == 0U) { goto ispage; } else { goto isnotpage; } } } } else { } ispage: (t2p->tiff_pages + t2p->tiff_pagecount)->page_number = (unsigned int )t2p->tiff_pagecount; ispage2: (t2p->tiff_pages + t2p->tiff_pagecount)->page_directory = i; tmp___8 = TIFFIsTiled(input); if (tmp___8) { (t2p->tiff_pages + t2p->tiff_pagecount)->page_tilecount = TIFFNumberOfTiles(input); } else { } t2p->tiff_pagecount = (tdir_t )((int )t2p->tiff_pagecount + 1); isnotpage: i = (tdir_t )((int )i + 1); } qsort((void *)t2p->tiff_pages, (unsigned int )t2p->tiff_pagecount, sizeof(T2P_PAGE ), & t2p_cmp_t2p_page); i = (unsigned short)0; while ((int )i < (int )t2p->tiff_pagecount) { t2p->pdf_xrefcount += 5U; TIFFSetDirectory(input, (t2p->tiff_pages + i)->page_directory); tmp___9 = TIFFGetField(input, 262U, & xuint16); if (tmp___9) { if ((int )xuint16 == 3) { ((t2p->tiff_pages + i)->page_extra) ++; (t2p->pdf_xrefcount) ++; } else { goto _L; } } else { _L: /* CIL Label */ tmp___10 = TIFFGetField(input, 346U, & xuint16); if (tmp___10) { ((t2p->tiff_pages + i)->page_extra) ++; (t2p->pdf_xrefcount) ++; } else { } } tmp___12 = TIFFGetField(input, 259U, & xuint16); if (tmp___12) { if ((int )xuint16 == 32946) { goto _L___1; } else { if ((int )xuint16 == 8) { _L___1: /* CIL Label */ if ((t2p->tiff_pages + i)->page_tilecount != 0U) { goto _L___0; } else { tmp___11 = TIFFNumberOfStrips(input); if (tmp___11 == 1U) { _L___0: /* CIL Label */ if ((int )t2p->pdf_nopassthrough == 0) { if ((int )t2p->pdf_minorversion < 2) { t2p->pdf_minorversion = (unsigned short)2; } else { } } else { } } else { } } } else { } } } else { } tmp___13 = TIFFGetField(input, 301U, & t2p->tiff_transferfunction[0], & t2p->tiff_transferfunction[1], & t2p->tiff_transferfunction[2]); if (tmp___13) { if ((unsigned int )t2p->tiff_transferfunction[1] != (unsigned int )t2p->tiff_transferfunction[0]) { t2p->tiff_transferfunctioncount = (unsigned short)3; (t2p->tiff_pages + i)->page_extra += 4U; t2p->pdf_xrefcount += 4U; } else { t2p->tiff_transferfunctioncount = (unsigned short)1; (t2p->tiff_pages + i)->page_extra += 2U; t2p->pdf_xrefcount += 2U; } if ((int )t2p->pdf_minorversion < 2) { t2p->pdf_minorversion = (unsigned short)2; } else { } } else { t2p->tiff_transferfunctioncount = (unsigned short)0; } tmp___14 = TIFFGetField(input, 34675U, & t2p->tiff_iccprofilelength, & t2p->tiff_iccprofile); if (tmp___14 != 0) { ((t2p->tiff_pages + i)->page_extra) ++; (t2p->pdf_xrefcount) ++; if ((int )t2p->pdf_minorversion < 3) { t2p->pdf_minorversion = (unsigned short)3; } else { } } else { } (t2p->tiff_tiles + i)->tiles_tilecount = (t2p->tiff_pages + i)->page_tilecount; tmp___15 = TIFFGetField(input, 284U, & xuint16); if (tmp___15 != 0) { if ((int )xuint16 == 2) { TIFFGetField(input, 277U, & xuint16); (t2p->tiff_tiles + i)->tiles_tilecount /= (ttile_t )xuint16; } else { } } else { } if ((t2p->tiff_tiles + i)->tiles_tilecount > 0U) { t2p->pdf_xrefcount += ((t2p->tiff_tiles + i)->tiles_tilecount - 1U) * 2U; TIFFGetField(input, 322U, & (t2p->tiff_tiles + i)->tiles_tilewidth); TIFFGetField(input, 323U, & (t2p->tiff_tiles + i)->tiles_tilelength); tmp___16 = _TIFFmalloc((long )((t2p->tiff_tiles + i)->tiles_tilecount * sizeof(T2P_TILE ))); (t2p->tiff_tiles + i)->tiles_tiles = (T2P_TILE *)tmp___16; if ((unsigned int )(t2p->tiff_tiles + i)->tiles_tiles == (unsigned int )((void *)0)) { tmp___17 = TIFFFileName(input); TIFFError("tiff2pdf", "Can\'t allocate %lu bytes of memory for t2p_read_tiff_init, %s", (unsigned long )(t2p->tiff_tiles + i)->tiles_tilecount * (unsigned long )sizeof(T2P_TILE ), tmp___17); t2p->t2p_error = (enum __anonenum_t2p_err_t_54 )1; return; } else { } } else { } i = (tdir_t )((int )i + 1); } return; } } int t2p_cmp_t2p_page(void const *e1 , void const *e2 ) { { return ((int )(((T2P_PAGE *)e1)->page_number - ((T2P_PAGE *)e2)->page_number)); } } void t2p_read_tiff_data(T2P *t2p , TIFF *input ) { int i ; uint16 *r ; uint16 *g ; uint16 *b ; uint16 *a ; uint16 xuint16 ; uint16 *xuint16p ; float *xfloatp ; char const *tmp ; char const *tmp___0 ; char const *tmp___1 ; int tmp___2 ; char const *tmp___3 ; int tmp___4 ; char const *tmp___5 ; char const *tmp___6 ; char const *tmp___7 ; char const *tmp___8 ; char const *tmp___9 ; int tmp___10 ; char const *tmp___11 ; int tmp___12 ; int tmp___13 ; char const *tmp___14 ; int tmp___15 ; char const *tmp___16 ; char const *tmp___17 ; char const *tmp___18 ; char const *tmp___19 ; char const *tmp___20 ; int tmp___21 ; void *tmp___22 ; char const *tmp___23 ; int tmp___24 ; char const *tmp___25 ; int tmp___26 ; char const *tmp___27 ; char const *tmp___28 ; char const *tmp___29 ; int tmp___30 ; void *tmp___31 ; char const *tmp___32 ; char const *tmp___33 ; char const *tmp___34 ; char const *tmp___35 ; char const *tmp___36 ; char const *tmp___37 ; int tmp___38 ; char const *tmp___39 ; int tmp___40 ; int tmp___41 ; int tmp___42 ; uint32 tmp___43 ; int tmp___44 ; uint32 tmp___45 ; int tmp___46 ; int tmp___47 ; int tmp___48 ; int tmp___49 ; int tmp___50 ; { i = 0; t2p->pdf_transcode = (enum __anonenum_t2p_transcode_t_52 )2; t2p->pdf_sample = (enum __anonenum_t2p_sample_t_53 )0; t2p->pdf_switchdecode = t2p->pdf_colorspace_invert; TIFFSetDirectory(input, (t2p->tiff_pages + t2p->pdf_page)->page_directory); TIFFGetField(input, 256U, & t2p->tiff_width); if (t2p->tiff_width == 0U) { tmp = TIFFFileName(input); TIFFError("tiff2pdf", "No support for %s with zero width", tmp); t2p->t2p_error = (enum __anonenum_t2p_err_t_54 )1; return; } else { } TIFFGetField(input, 257U, & t2p->tiff_length); if (t2p->tiff_length == 0U) { tmp___0 = TIFFFileName(input); TIFFError("tiff2pdf", "No support for %s with zero length", tmp___0); t2p->t2p_error = (enum __anonenum_t2p_err_t_54 )1; return; } else { } tmp___2 = TIFFGetField(input, 259U, & t2p->tiff_compression); if (tmp___2 == 0) { tmp___1 = TIFFFileName(input); TIFFError("tiff2pdf", "No support for %s with no compression tag", tmp___1); t2p->t2p_error = (enum __anonenum_t2p_err_t_54 )1; return; } else { } tmp___4 = TIFFIsCODECConfigured(t2p->tiff_compression); if (tmp___4 == 0) { tmp___3 = TIFFFileName(input); TIFFError("tiff2pdf", "No support for %s with compression type %u: not configured", tmp___3, t2p->tiff_compression); t2p->t2p_error = (enum __anonenum_t2p_err_t_54 )1; return; } else { } TIFFGetFieldDefaulted(input, 258U, & t2p->tiff_bitspersample); switch ((int )t2p->tiff_bitspersample) { case 1: case 2: case 4: case 8: break; case 0: tmp___5 = TIFFFileName(input); TIFFWarning("tiff2pdf", "Image %s has 0 bits per sample, assuming 1", tmp___5); t2p->tiff_bitspersample = (unsigned short)1; break; default: tmp___6 = TIFFFileName(input); TIFFError("tiff2pdf", "No support for %s with %u bits per sample", tmp___6, t2p->tiff_bitspersample); t2p->t2p_error = (enum __anonenum_t2p_err_t_54 )1; return; } TIFFGetFieldDefaulted(input, 277U, & t2p->tiff_samplesperpixel); if ((int )t2p->tiff_samplesperpixel > 4) { tmp___7 = TIFFFileName(input); TIFFError("tiff2pdf", "No support for %s with %u samples per pixel", tmp___7, t2p->tiff_samplesperpixel); t2p->t2p_error = (enum __anonenum_t2p_err_t_54 )1; return; } else { } if ((int )t2p->tiff_samplesperpixel == 0) { tmp___8 = TIFFFileName(input); TIFFWarning("tiff2pdf", "Image %s has 0 samples per pixel, assuming 1", tmp___8); t2p->tiff_samplesperpixel = (unsigned short)1; } else { } tmp___10 = TIFFGetField(input, 339U, & xuint16); if (tmp___10 != 0) { switch ((int )xuint16) { case 0: case 1: case 4: break; default: tmp___9 = TIFFFileName(input); TIFFError("tiff2pdf", "No support for %s with sample format %u", tmp___9, xuint16); t2p->t2p_error = (enum __anonenum_t2p_err_t_54 )1; return; break; } } else { } TIFFGetFieldDefaulted(input, 266U, & t2p->tiff_fillorder); tmp___12 = TIFFGetField(input, 262U, & t2p->tiff_photometric); if (tmp___12 == 0) { tmp___11 = TIFFFileName(input); TIFFError("tiff2pdf", "No support for %s with no photometric interpretation tag", tmp___11); t2p->t2p_error = (enum __anonenum_t2p_err_t_54 )1; return; } else { } switch ((int )t2p->tiff_photometric) { case 0: case 1: if ((int )t2p->tiff_bitspersample == 1) { t2p->pdf_colorspace = (enum __anonenum_t2p_cs_t_50 )1; if ((int )t2p->tiff_photometric == 0) { t2p->pdf_switchdecode = (unsigned short )((int )t2p->pdf_switchdecode ^ 1); } else { } } else { t2p->pdf_colorspace = (enum __anonenum_t2p_cs_t_50 )2; if ((int )t2p->tiff_photometric == 0) { t2p->pdf_switchdecode = (unsigned short )((int )t2p->pdf_switchdecode ^ 1); } else { } } break; case 2: t2p->pdf_colorspace = (enum __anonenum_t2p_cs_t_50 )4; if ((int )t2p->tiff_samplesperpixel == 3) { break; } else { } tmp___13 = TIFFGetField(input, 346U, & xuint16); if (tmp___13) { if ((int )xuint16 == 1) { goto photometric_palette; } else { } } else { } if ((int )t2p->tiff_samplesperpixel > 3) { if ((int )t2p->tiff_samplesperpixel == 4) { t2p->pdf_colorspace = (enum __anonenum_t2p_cs_t_50 )4; tmp___15 = TIFFGetField(input, 338U, & xuint16, & xuint16p); if (tmp___15) { if ((int )xuint16 == 1) { if ((int )*(xuint16p + 0) == 1) { t2p->pdf_sample = (enum __anonenum_t2p_sample_t_53 )4; break; } else { } if ((int )*(xuint16p + 0) == 2) { t2p->pdf_sample = (enum __anonenum_t2p_sample_t_53 )2; break; } else { } tmp___14 = TIFFFileName(input); TIFFWarning("tiff2pdf", "RGB image %s has 4 samples per pixel, assuming RGBA", tmp___14); break; } else { } } else { } t2p->pdf_colorspace = (enum __anonenum_t2p_cs_t_50 )8; t2p->pdf_switchdecode = (unsigned short )((int )t2p->pdf_switchdecode ^ 1); tmp___16 = TIFFFileName(input); TIFFWarning("tiff2pdf", "RGB image %s has 4 samples per pixel, assuming inverse CMYK", tmp___16); break; } else { tmp___17 = TIFFFileName(input); TIFFError("tiff2pdf", "No support for RGB image %s with %u samples per pixel", tmp___17, t2p->tiff_samplesperpixel); t2p->t2p_error = (enum __anonenum_t2p_err_t_54 )1; break; } } else { tmp___18 = TIFFFileName(input); TIFFError("tiff2pdf", "No support for RGB image %s with %u samples per pixel", tmp___18, t2p->tiff_samplesperpixel); t2p->t2p_error = (enum __anonenum_t2p_err_t_54 )1; break; } case 3: photometric_palette: if ((int )t2p->tiff_samplesperpixel != 1) { tmp___19 = TIFFFileName(input); TIFFError("tiff2pdf", "No support for palettized image %s with not one sample per pixel", tmp___19); t2p->t2p_error = (enum __anonenum_t2p_err_t_54 )1; return; } else { } t2p->pdf_colorspace = (enum __anonenum_t2p_cs_t_50 )4100; t2p->pdf_palettesize = (unsigned short )(0x0001 << (int )t2p->tiff_bitspersample); tmp___21 = TIFFGetField(input, 320U, & r, & g, & b); if (tmp___21) { } else { tmp___20 = TIFFFileName(input); TIFFError("tiff2pdf", "Palettized image %s has no color map", tmp___20); t2p->t2p_error = (enum __anonenum_t2p_err_t_54 )1; return; } if ((unsigned int )t2p->pdf_palette != (unsigned int )((void *)0)) { _TIFFfree((void *)t2p->pdf_palette); t2p->pdf_palette = (unsigned char *)((void *)0); } else { } tmp___22 = _TIFFmalloc((long )((int )t2p->pdf_palettesize * 3)); t2p->pdf_palette = (unsigned char *)tmp___22; if ((unsigned int )t2p->pdf_palette == (unsigned int )((void *)0)) { tmp___23 = TIFFFileName(input); TIFFError("tiff2pdf", "Can\'t allocate %u bytes of memory for t2p_read_tiff_image, %s", t2p->pdf_palettesize, tmp___23); t2p->t2p_error = (enum __anonenum_t2p_err_t_54 )1; return; } else { } i = 0; while (i < (int )t2p->pdf_palettesize) { *(t2p->pdf_palette + i * 3) = (unsigned char )((int )*(r + i) >> 8); *(t2p->pdf_palette + (i * 3 + 1)) = (unsigned char )((int )*(g + i) >> 8); *(t2p->pdf_palette + (i * 3 + 2)) = (unsigned char )((int )*(b + i) >> 8); i ++; } t2p->pdf_palettesize = (unsigned short )((int )t2p->pdf_palettesize * 3); break; case 5: tmp___24 = TIFFGetField(input, 346U, & xuint16); if (tmp___24) { if ((int )xuint16 == 1) { goto photometric_palette_cmyk; } else { } } else { } tmp___26 = TIFFGetField(input, 332U, & xuint16); if (tmp___26) { if ((int )xuint16 != 1) { tmp___25 = TIFFFileName(input); TIFFError("tiff2pdf", "No support for %s because its inkset is not CMYK", tmp___25); t2p->t2p_error = (enum __anonenum_t2p_err_t_54 )1; return; } else { } } else { } if ((int )t2p->tiff_samplesperpixel == 4) { t2p->pdf_colorspace = (enum __anonenum_t2p_cs_t_50 )8; } else { tmp___27 = TIFFFileName(input); TIFFError("tiff2pdf", "No support for %s because it has %u samples per pixel", tmp___27, t2p->tiff_samplesperpixel); t2p->t2p_error = (enum __anonenum_t2p_err_t_54 )1; return; } break; photometric_palette_cmyk: if ((int )t2p->tiff_samplesperpixel != 1) { tmp___28 = TIFFFileName(input); TIFFError("tiff2pdf", "No support for palettized CMYK image %s with not one sample per pixel", tmp___28); t2p->t2p_error = (enum __anonenum_t2p_err_t_54 )1; return; } else { } t2p->pdf_colorspace = (enum __anonenum_t2p_cs_t_50 )4104; t2p->pdf_palettesize = (unsigned short )(0x0001 << (int )t2p->tiff_bitspersample); tmp___30 = TIFFGetField(input, 320U, & r, & g, & b, & a); if (tmp___30) { } else { tmp___29 = TIFFFileName(input); TIFFError("tiff2pdf", "Palettized image %s has no color map", tmp___29); t2p->t2p_error = (enum __anonenum_t2p_err_t_54 )1; return; } if ((unsigned int )t2p->pdf_palette != (unsigned int )((void *)0)) { _TIFFfree((void *)t2p->pdf_palette); t2p->pdf_palette = (unsigned char *)((void *)0); } else { } tmp___31 = _TIFFmalloc((long )((int )t2p->pdf_palettesize * 4)); t2p->pdf_palette = (unsigned char *)tmp___31; if ((unsigned int )t2p->pdf_palette == (unsigned int )((void *)0)) { tmp___32 = TIFFFileName(input); TIFFError("tiff2pdf", "Can\'t allocate %u bytes of memory for t2p_read_tiff_image, %s", t2p->pdf_palettesize, tmp___32); t2p->t2p_error = (enum __anonenum_t2p_err_t_54 )1; return; } else { } i = 0; while (i < (int )t2p->pdf_palettesize) { *(t2p->pdf_palette + i * 4) = (unsigned char )((int )*(r + i) >> 8); *(t2p->pdf_palette + (i * 4 + 1)) = (unsigned char )((int )*(g + i) >> 8); *(t2p->pdf_palette + (i * 4 + 2)) = (unsigned char )((int )*(b + i) >> 8); *(t2p->pdf_palette + (i * 4 + 3)) = (unsigned char )((int )*(a + i) >> 8); i ++; } t2p->pdf_palettesize = (unsigned short )((int )t2p->pdf_palettesize * 4); break; case 6: t2p->pdf_colorspace = (enum __anonenum_t2p_cs_t_50 )4; if ((int )t2p->tiff_samplesperpixel == 1) { t2p->pdf_colorspace = (enum __anonenum_t2p_cs_t_50 )2; t2p->tiff_photometric = (unsigned short)1; break; } else { } t2p->pdf_sample = (enum __anonenum_t2p_sample_t_53 )8; break; case 8: t2p->pdf_labrange[0] = -127; t2p->pdf_labrange[1] = 127; t2p->pdf_labrange[2] = -127; t2p->pdf_labrange[3] = 127; t2p->pdf_sample = (enum __anonenum_t2p_sample_t_53 )64; t2p->pdf_colorspace = (enum __anonenum_t2p_cs_t_50 )16; break; case 9: t2p->pdf_labrange[0] = 0; t2p->pdf_labrange[1] = 255; t2p->pdf_labrange[2] = 0; t2p->pdf_labrange[3] = 255; t2p->pdf_colorspace = (enum __anonenum_t2p_cs_t_50 )16; break; case 10: t2p->pdf_labrange[0] = -85; t2p->pdf_labrange[1] = 85; t2p->pdf_labrange[2] = -75; t2p->pdf_labrange[3] = 124; t2p->pdf_sample = (enum __anonenum_t2p_sample_t_53 )64; t2p->pdf_colorspace = (enum __anonenum_t2p_cs_t_50 )16; break; case 32844: case 32845: tmp___33 = TIFFFileName(input); TIFFError("tiff2pdf", "No support for %s with photometric interpretation LogL/LogLuv", tmp___33); t2p->t2p_error = (enum __anonenum_t2p_err_t_54 )1; return; default: tmp___34 = TIFFFileName(input); TIFFError("tiff2pdf", "No support for %s with photometric interpretation %u", tmp___34, t2p->tiff_photometric); t2p->t2p_error = (enum __anonenum_t2p_err_t_54 )1; return; } tmp___38 = TIFFGetField(input, 284U, & t2p->tiff_planar); if (tmp___38) { switch ((int )t2p->tiff_planar) { case 0: tmp___35 = TIFFFileName(input); TIFFWarning("tiff2pdf", "Image %s has planar configuration 0, assuming 1", tmp___35); t2p->tiff_planar = (unsigned short)1; case 1: break; case 2: t2p->pdf_sample = (enum __anonenum_t2p_sample_t_53 )256; if ((int )t2p->tiff_bitspersample != 8) { tmp___36 = TIFFFileName(input); TIFFError("tiff2pdf", "No support for %s with separated planar configuration and %u bits per sample", tmp___36, t2p->tiff_bitspersample); t2p->t2p_error = (enum __anonenum_t2p_err_t_54 )1; return; } else { } break; default: tmp___37 = TIFFFileName(input); TIFFError("tiff2pdf", "No support for %s with planar configuration %u", tmp___37, t2p->tiff_planar); t2p->t2p_error = (enum __anonenum_t2p_err_t_54 )1; return; } } else { } TIFFGetFieldDefaulted(input, 274U, & t2p->tiff_orientation); if ((int )t2p->tiff_orientation > 8) { tmp___39 = TIFFFileName(input); TIFFWarning("tiff2pdf", "Image %s has orientation %u, assuming 0", tmp___39, t2p->tiff_orientation); t2p->tiff_orientation = (unsigned short)0; } else { } tmp___40 = TIFFGetField(input, 282U, & t2p->tiff_xres); if (tmp___40 == 0) { t2p->tiff_xres = (float )0.0; } else { } tmp___41 = TIFFGetField(input, 283U, & t2p->tiff_yres); if (tmp___41 == 0) { t2p->tiff_yres = (float )0.0; } else { } TIFFGetFieldDefaulted(input, 296U, & t2p->tiff_resunit); if ((int )t2p->tiff_resunit == 3) { t2p->tiff_xres *= 2.54F; t2p->tiff_yres *= 2.54F; } else { if ((int )t2p->tiff_resunit != 2) { if ((int )t2p->pdf_centimeters != 0) { t2p->tiff_xres *= 2.54F; t2p->tiff_yres *= 2.54F; } else { } } else { } } t2p_compose_pdf_page(t2p); t2p->pdf_transcode = (enum __anonenum_t2p_transcode_t_52 )2; if ((int )t2p->pdf_nopassthrough == 0) { if ((int )t2p->tiff_compression == 4) { tmp___42 = TIFFIsTiled(input); if (tmp___42) { t2p->pdf_transcode = (enum __anonenum_t2p_transcode_t_52 )1; t2p->pdf_compression = (enum __anonenum_t2p_compress_t_51 )1; } else { tmp___43 = TIFFNumberOfStrips(input); if (tmp___43 == 1U) { t2p->pdf_transcode = (enum __anonenum_t2p_transcode_t_52 )1; t2p->pdf_compression = (enum __anonenum_t2p_compress_t_51 )1; } else { } } } else { } if ((int )t2p->tiff_compression == 8) { goto _L; } else { if ((int )t2p->tiff_compression == 32946) { _L: /* CIL Label */ tmp___44 = TIFFIsTiled(input); if (tmp___44) { t2p->pdf_transcode = (enum __anonenum_t2p_transcode_t_52 )1; t2p->pdf_compression = (enum __anonenum_t2p_compress_t_51 )4; } else { tmp___45 = TIFFNumberOfStrips(input); if (tmp___45 == 1U) { t2p->pdf_transcode = (enum __anonenum_t2p_transcode_t_52 )1; t2p->pdf_compression = (enum __anonenum_t2p_compress_t_51 )4; } else { } } } else { } } } else { } if ((unsigned int )t2p->pdf_transcode != 1U) { t2p->pdf_compression = t2p->pdf_defaultcompression; } else { } if ((unsigned int )t2p->pdf_sample & 32U) { if ((unsigned int )t2p->pdf_colorspace & 8U) { t2p->tiff_samplesperpixel = (unsigned short)4; t2p->tiff_photometric = (unsigned short)5; } else { t2p->tiff_samplesperpixel = (unsigned short)3; t2p->tiff_photometric = (unsigned short)2; } } else { } tmp___46 = TIFFGetField(input, 301U, & t2p->tiff_transferfunction[0], & t2p->tiff_transferfunction[1], & t2p->tiff_transferfunction[2]); if (tmp___46) { if ((unsigned int )t2p->tiff_transferfunction[1] != (unsigned int )t2p->tiff_transferfunction[0]) { t2p->tiff_transferfunctioncount = (unsigned short)3; } else { t2p->tiff_transferfunctioncount = (unsigned short)1; } } else { t2p->tiff_transferfunctioncount = (unsigned short)0; } tmp___47 = TIFFGetField(input, 318U, & xfloatp); if (tmp___47 != 0) { t2p->tiff_whitechromaticities[0] = *(xfloatp + 0); t2p->tiff_whitechromaticities[1] = *(xfloatp + 1); if ((unsigned int )t2p->pdf_colorspace & 2U) { t2p->pdf_colorspace = (enum __anonenum_t2p_cs_t_50 )((unsigned int )t2p->pdf_colorspace | 32U); } else { } if ((unsigned int )t2p->pdf_colorspace & 4U) { t2p->pdf_colorspace = (enum __anonenum_t2p_cs_t_50 )((unsigned int )t2p->pdf_colorspace | 64U); } else { } } else { } tmp___48 = TIFFGetField(input, 319U, & xfloatp); if (tmp___48 != 0) { t2p->tiff_primarychromaticities[0] = *(xfloatp + 0); t2p->tiff_primarychromaticities[1] = *(xfloatp + 1); t2p->tiff_primarychromaticities[2] = *(xfloatp + 2); t2p->tiff_primarychromaticities[3] = *(xfloatp + 3); t2p->tiff_primarychromaticities[4] = *(xfloatp + 4); t2p->tiff_primarychromaticities[5] = *(xfloatp + 5); if ((unsigned int )t2p->pdf_colorspace & 4U) { t2p->pdf_colorspace = (enum __anonenum_t2p_cs_t_50 )((unsigned int )t2p->pdf_colorspace | 64U); } else { } } else { } if ((unsigned int )t2p->pdf_colorspace & 16U) { tmp___49 = TIFFGetField(input, 318U, & xfloatp); if (tmp___49 != 0) { t2p->tiff_whitechromaticities[0] = *(xfloatp + 0); t2p->tiff_whitechromaticities[1] = *(xfloatp + 1); } else { t2p->tiff_whitechromaticities[0] = 0.3457F; t2p->tiff_whitechromaticities[1] = 0.3585F; } } else { } tmp___50 = TIFFGetField(input, 34675U, & t2p->tiff_iccprofilelength, & t2p->tiff_iccprofile); if (tmp___50 != 0) { t2p->pdf_colorspace = (enum __anonenum_t2p_cs_t_50 )((unsigned int )t2p->pdf_colorspace | 128U); } else { t2p->tiff_iccprofilelength = 0U; t2p->tiff_iccprofile = (void *)0; } if ((int )t2p->tiff_bitspersample == 1) { if ((int )t2p->tiff_samplesperpixel == 1) { t2p->pdf_compression = (enum __anonenum_t2p_compress_t_51 )1; } else { } } else { } return; } } void t2p_read_tiff_size(T2P *t2p , TIFF *input ) { uint64 *sbc ; tmsize_t tmp ; { sbc = (uint64 *)((void *)0); if ((unsigned int )t2p->pdf_transcode == 1U) { if ((unsigned int )t2p->pdf_compression == 1U) { TIFFGetField(input, 279U, & sbc); t2p->tiff_datasize = (long )*(sbc + 0); return; } else { } if ((unsigned int )t2p->pdf_compression == 4U) { TIFFGetField(input, 279U, & sbc); t2p->tiff_datasize = (long )*(sbc + 0); return; } else { } } else { } tmp = TIFFScanlineSize(input); t2p->tiff_datasize = (long )((unsigned long )tmp * (unsigned long )t2p->tiff_length); if ((int )t2p->tiff_planar == 2) { t2p->tiff_datasize *= (tsize_t )t2p->tiff_samplesperpixel; } else { } return; } } void t2p_read_tiff_size_tile(T2P *t2p , TIFF *input , ttile_t tile ) { uint64 *tbc ; uint16 edge ; int tmp ; int tmp___0 ; { tbc = (uint64 *)((void *)0); edge = (uint16 )0; tmp = t2p_tile_is_right_edge(*(t2p->tiff_tiles + t2p->pdf_page), tile); edge = (unsigned short )((int )edge | tmp); tmp___0 = t2p_tile_is_bottom_edge(*(t2p->tiff_tiles + t2p->pdf_page), tile); edge = (unsigned short )((int )edge | tmp___0); if ((unsigned int )t2p->pdf_transcode == 1U) { if (edge) { t2p->tiff_datasize = TIFFTileSize(input); return; } else { TIFFGetField(input, 325U, & tbc); t2p->tiff_datasize = (long )*(tbc + tile); return; } } else { } t2p->tiff_datasize = TIFFTileSize(input); if ((int )t2p->tiff_planar == 2) { t2p->tiff_datasize *= (tsize_t )t2p->tiff_samplesperpixel; } else { } return; } } int t2p_tile_is_right_edge(T2P_TILES tiles , ttile_t tile ) { { if ((tile + 1U) % tiles.tiles_tilecountx == 0U) { if (tiles.tiles_edgetilewidth != 0U) { return (1); } else { return (0); } } else { return (0); } } } int t2p_tile_is_bottom_edge(T2P_TILES tiles , ttile_t tile ) { { if (tile + 1U > tiles.tiles_tilecount - tiles.tiles_tilecountx) { if (tiles.tiles_edgetilelength != 0U) { return (1); } else { return (0); } } else { return (0); } } } int t2p_tile_is_edge(T2P_TILES tiles , ttile_t tile ) { int tmp ; int tmp___0 ; { tmp = t2p_tile_is_right_edge(tiles, tile); tmp___0 = t2p_tile_is_bottom_edge(tiles, tile); return (tmp | tmp___0); } } int t2p_tile_is_corner_edge(T2P_TILES tiles , ttile_t tile ) { int tmp ; int tmp___0 ; { tmp = t2p_tile_is_right_edge(tiles, tile); tmp___0 = t2p_tile_is_bottom_edge(tiles, tile); return (tmp & tmp___0); } } tsize_t t2p_readwrite_pdf_image(T2P *t2p , TIFF *input , TIFF *output ) { tsize_t written ; unsigned char *buffer ; unsigned char *samplebuffer ; tsize_t bufferoffset ; tsize_t samplebufferoffset ; tsize_t read___0 ; tstrip_t i ; tstrip_t j ; tstrip_t stripcount ; tsize_t stripsize ; tsize_t sepstripcount ; tsize_t sepstripsize ; void *tmp ; char const *tmp___0 ; void *tmp___1 ; char const *tmp___2 ; void *tmp___3 ; char const *tmp___4 ; char const *tmp___5 ; uint32 tmp___6 ; void *tmp___7 ; char const *tmp___8 ; void *tmp___9 ; char const *tmp___10 ; char const *tmp___11 ; void *tmp___12 ; char const *tmp___13 ; char const *tmp___14 ; void *tmp___15 ; char const *tmp___16 ; void *tmp___17 ; char const *tmp___18 ; char const *tmp___19 ; int tmp___20 ; char const *tmp___21 ; { written = (tsize_t )0; buffer = (unsigned char *)((void *)0); samplebuffer = (unsigned char *)((void *)0); bufferoffset = (tsize_t )0; samplebufferoffset = (tsize_t )0; read___0 = (tsize_t )0; i = (tstrip_t )0; j = (tstrip_t )0; stripcount = (tstrip_t )0; stripsize = (tsize_t )0; sepstripcount = (tsize_t )0; sepstripsize = (tsize_t )0; if ((unsigned int )t2p->pdf_transcode == 1U) { if ((unsigned int )t2p->pdf_compression == 1U) { tmp = _TIFFmalloc(t2p->tiff_datasize); buffer = (unsigned char *)tmp; if ((unsigned int )buffer == (unsigned int )((void *)0)) { tmp___0 = TIFFFileName(input); TIFFError("tiff2pdf", "Can\'t allocate %lu bytes of memory for t2p_readwrite_pdf_image, %s", (unsigned long )t2p->tiff_datasize, tmp___0); t2p->t2p_error = (enum __anonenum_t2p_err_t_54 )1; return (0L); } else { } TIFFReadRawStrip(input, 0U, (void *)buffer, t2p->tiff_datasize); if ((int )t2p->tiff_fillorder == 2) { TIFFReverseBits(buffer, t2p->tiff_datasize); } else { } t2pWriteFile(output, (void *)buffer, t2p->tiff_datasize); _TIFFfree((void *)buffer); return (t2p->tiff_datasize); } else { } if ((unsigned int )t2p->pdf_compression == 4U) { tmp___1 = _TIFFmalloc(t2p->tiff_datasize); buffer = (unsigned char *)tmp___1; if ((unsigned int )buffer == (unsigned int )((void *)0)) { tmp___2 = TIFFFileName(input); TIFFError("tiff2pdf", "Can\'t allocate %lu bytes of memory for t2p_readwrite_pdf_image, %s", (unsigned long )t2p->tiff_datasize, tmp___2); t2p->t2p_error = (enum __anonenum_t2p_err_t_54 )1; return (0L); } else { } memset((void *)buffer, 0, (unsigned int )t2p->tiff_datasize); TIFFReadRawStrip(input, 0U, (void *)buffer, t2p->tiff_datasize); if ((int )t2p->tiff_fillorder == 2) { TIFFReverseBits(buffer, t2p->tiff_datasize); } else { } t2pWriteFile(output, (void *)buffer, t2p->tiff_datasize); _TIFFfree((void *)buffer); return (t2p->tiff_datasize); } else { } } else { } if ((unsigned int )t2p->pdf_sample == 0U) { tmp___3 = _TIFFmalloc(t2p->tiff_datasize); buffer = (unsigned char *)tmp___3; if ((unsigned int )buffer == (unsigned int )((void *)0)) { tmp___4 = TIFFFileName(input); TIFFError("tiff2pdf", "Can\'t allocate %lu bytes of memory for t2p_readwrite_pdf_image, %s", (unsigned long )t2p->tiff_datasize, tmp___4); t2p->t2p_error = (enum __anonenum_t2p_err_t_54 )1; return (0L); } else { } memset((void *)buffer, 0, (unsigned int )t2p->tiff_datasize); stripsize = TIFFStripSize(input); stripcount = TIFFNumberOfStrips(input); i = 0U; while (i < stripcount) { read___0 = TIFFReadEncodedStrip(input, i, (void *)(buffer + bufferoffset), stripsize); if (read___0 == -1L) { tmp___5 = TIFFFileName(input); TIFFError("tiff2pdf", "Error on decoding strip %u of %s", i, tmp___5); _TIFFfree((void *)buffer); t2p->t2p_error = (enum __anonenum_t2p_err_t_54 )1; return (0L); } else { } bufferoffset += read___0; i ++; } } else { if ((unsigned int )t2p->pdf_sample & 256U) { sepstripsize = TIFFStripSize(input); tmp___6 = TIFFNumberOfStrips(input); sepstripcount = (long )tmp___6; stripsize = sepstripsize * (tsize_t )t2p->tiff_samplesperpixel; stripcount = (unsigned int )(sepstripcount / (tsize_t )t2p->tiff_samplesperpixel); tmp___7 = _TIFFmalloc(t2p->tiff_datasize); buffer = (unsigned char *)tmp___7; if ((unsigned int )buffer == (unsigned int )((void *)0)) { tmp___8 = TIFFFileName(input); TIFFError("tiff2pdf", "Can\'t allocate %lu bytes of memory for t2p_readwrite_pdf_image, %s", (unsigned long )t2p->tiff_datasize, tmp___8); t2p->t2p_error = (enum __anonenum_t2p_err_t_54 )1; return (0L); } else { } memset((void *)buffer, 0, (unsigned int )t2p->tiff_datasize); tmp___9 = _TIFFmalloc(stripsize); samplebuffer = (unsigned char *)tmp___9; if ((unsigned int )samplebuffer == (unsigned int )((void *)0)) { tmp___10 = TIFFFileName(input); TIFFError("tiff2pdf", "Can\'t allocate %lu bytes of memory for t2p_readwrite_pdf_image, %s", (unsigned long )t2p->tiff_datasize, tmp___10); t2p->t2p_error = (enum __anonenum_t2p_err_t_54 )1; return (0L); } else { } i = 0U; while (i < stripcount) { samplebufferoffset = 0L; j = 0U; while (j < (tstrip_t )t2p->tiff_samplesperpixel) { read___0 = TIFFReadEncodedStrip(input, i + j * stripcount, (void *)(samplebuffer + samplebufferoffset), sepstripsize); if (read___0 == -1L) { tmp___11 = TIFFFileName(input); TIFFError("tiff2pdf", "Error on decoding strip %u of %s", i + j * stripcount, tmp___11); _TIFFfree((void *)buffer); t2p->t2p_error = (enum __anonenum_t2p_err_t_54 )1; return (0L); } else { } samplebufferoffset += read___0; j ++; } t2p_sample_planar_separate_to_contig(t2p, buffer + bufferoffset, samplebuffer, samplebufferoffset); bufferoffset += samplebufferoffset; i ++; } _TIFFfree((void *)samplebuffer); goto dataready; } else { } tmp___12 = _TIFFmalloc(t2p->tiff_datasize); buffer = (unsigned char *)tmp___12; if ((unsigned int )buffer == (unsigned int )((void *)0)) { tmp___13 = TIFFFileName(input); TIFFError("tiff2pdf", "Can\'t allocate %lu bytes of memory for t2p_readwrite_pdf_image, %s", (unsigned long )t2p->tiff_datasize, tmp___13); t2p->t2p_error = (enum __anonenum_t2p_err_t_54 )1; return (0L); } else { } memset((void *)buffer, 0, (unsigned int )t2p->tiff_datasize); stripsize = TIFFStripSize(input); stripcount = TIFFNumberOfStrips(input); i = 0U; while (i < stripcount) { read___0 = TIFFReadEncodedStrip(input, i, (void *)(buffer + bufferoffset), stripsize); if (read___0 == -1L) { tmp___14 = TIFFFileName(input); TIFFError("tiff2pdf", "Error on decoding strip %u of %s", i, tmp___14); _TIFFfree((void *)samplebuffer); _TIFFfree((void *)buffer); t2p->t2p_error = (enum __anonenum_t2p_err_t_54 )1; return (0L); } else { } bufferoffset += read___0; i ++; } if ((unsigned int )t2p->pdf_sample & 32U) { tmp___15 = _TIFFrealloc((void *)buffer, t2p->tiff_datasize * (tsize_t )t2p->tiff_samplesperpixel); samplebuffer = (unsigned char *)tmp___15; if ((unsigned int )samplebuffer == (unsigned int )((void *)0)) { tmp___16 = TIFFFileName(input); TIFFError("tiff2pdf", "Can\'t allocate %lu bytes of memory for t2p_readwrite_pdf_image, %s", (unsigned long )t2p->tiff_datasize, tmp___16); t2p->t2p_error = (enum __anonenum_t2p_err_t_54 )1; _TIFFfree((void *)buffer); } else { buffer = samplebuffer; t2p->tiff_datasize *= (tsize_t )t2p->tiff_samplesperpixel; } t2p_sample_realize_palette(t2p, buffer); } else { } if ((unsigned int )t2p->pdf_sample & 2U) { t2p->tiff_datasize = t2p_sample_rgba_to_rgb((void *)buffer, t2p->tiff_width * t2p->tiff_length); } else { } if ((unsigned int )t2p->pdf_sample & 4U) { t2p->tiff_datasize = t2p_sample_rgbaa_to_rgb((void *)buffer, t2p->tiff_width * t2p->tiff_length); } else { } if ((unsigned int )t2p->pdf_sample & 8U) { tmp___17 = _TIFFrealloc((void *)buffer, (long )((t2p->tiff_width * t2p->tiff_length) * 4U)); samplebuffer = (unsigned char *)tmp___17; if ((unsigned int )samplebuffer == (unsigned int )((void *)0)) { tmp___18 = TIFFFileName(input); TIFFError("tiff2pdf", "Can\'t allocate %lu bytes of memory for t2p_readwrite_pdf_image, %s", (unsigned long )t2p->tiff_datasize, tmp___18); t2p->t2p_error = (enum __anonenum_t2p_err_t_54 )1; _TIFFfree((void *)buffer); return (0L); } else { buffer = samplebuffer; } tmp___20 = TIFFReadRGBAImageOriented(input, t2p->tiff_width, t2p->tiff_length, (uint32 *)buffer, 1, 0); if (tmp___20) { } else { tmp___19 = TIFFFileName(input); TIFFError("tiff2pdf", "Can\'t use TIFFReadRGBAImageOriented to extract RGB image from %s", tmp___19); t2p->t2p_error = (enum __anonenum_t2p_err_t_54 )1; return (0L); } t2p->tiff_datasize = t2p_sample_abgr_to_rgb((void *)buffer, t2p->tiff_width * t2p->tiff_length); } else { } if ((unsigned int )t2p->pdf_sample & 64U) { t2p->tiff_datasize = t2p_sample_lab_signed_to_unsigned((void *)buffer, t2p->tiff_width * t2p->tiff_length); } else { } } dataready: t2p_disable(output); TIFFSetField(output, 262U, t2p->tiff_photometric); TIFFSetField(output, 258U, t2p->tiff_bitspersample); TIFFSetField(output, 277U, t2p->tiff_samplesperpixel); TIFFSetField(output, 256U, t2p->tiff_width); TIFFSetField(output, 257U, t2p->tiff_length); TIFFSetField(output, 278U, t2p->tiff_length); TIFFSetField(output, 284U, 1); TIFFSetField(output, 266U, 1); switch ((int )t2p->pdf_compression) { case 0: TIFFSetField(output, 259U, 1); break; case 1: TIFFSetField(output, 259U, 4); break; case 4: TIFFSetField(output, 259U, 32946); if ((int )t2p->pdf_defaultcompressionquality % 100 != 0) { TIFFSetField(output, 317U, (int )t2p->pdf_defaultcompressionquality % 100); } else { } if ((int )t2p->pdf_defaultcompressionquality / 100 != 0) { TIFFSetField(output, 65557U, (int )t2p->pdf_defaultcompressionquality / 100); } else { } break; default: ; break; } t2p_enable(output); t2p->outputwritten = 0L; bufferoffset = TIFFWriteEncodedStrip(output, 0U, (void *)buffer, t2p->tiff_datasize); { if ((unsigned int )t2p->pdf_sample == 0U) { tmp___3 = _TIFFmalloc(t2p->tiff_datasize); buffer = (unsigned char *)tmp___3; if ((unsigned int )buffer == (unsigned int )((void *)0)) { tmp___4 = TIFFFileName(input); TIFFError("tiff2pdf", "Can\'t allocate %lu bytes of memory for t2p_readwrite_pdf_image, %s", (unsigned long )t2p->tiff_datasize, tmp___4); t2p->t2p_error = (enum __anonenum_t2p_err_t_54 )1; return (0L); } else { } memset((void *)buffer, 0, (unsigned int )t2p->tiff_datasize); stripsize = TIFFStripSize(input); stripcount = TIFFNumberOfStrips(input); i = 0U; while (i < stripcount) { read___0 = TIFFReadEncodedStrip(input, i, (void *)(buffer + bufferoffset), stripsize); if (read___0 == -1L) { tmp___5 = TIFFFileName(input); TIFFError("tiff2pdf", "Error on decoding strip %u of %s", i, tmp___5); _TIFFfree((void *)buffer); t2p->t2p_error = (enum __anonenum_t2p_err_t_54 )1; return (0L); } else { } bufferoffset += read___0; i ++; } } else { if ((unsigned int )t2p->pdf_sample & 256U) { sepstripsize = TIFFStripSize(input); tmp___6 = TIFFNumberOfStrips(input); sepstripcount = (long )tmp___6; stripsize = sepstripsize * (tsize_t )t2p->tiff_samplesperpixel; stripcount = (unsigned int )(sepstripcount / (tsize_t )t2p->tiff_samplesperpixel); tmp___7 = _TIFFmalloc(t2p->tiff_datasize); buffer = (unsigned char *)tmp___7; if ((unsigned int )buffer == (unsigned int )((void *)0)) { tmp___8 = TIFFFileName(input); TIFFError("tiff2pdf", "Can\'t allocate %lu bytes of memory for t2p_readwrite_pdf_image, %s", (unsigned long )t2p->tiff_datasize, tmp___8); t2p->t2p_error = (enum __anonenum_t2p_err_t_54 )1; return (0L); } else { } memset((void *)buffer, 0, (unsigned int )t2p->tiff_datasize); tmp___9 = _TIFFmalloc(stripsize); samplebuffer = (unsigned char *)tmp___9; if ((unsigned int )samplebuffer == (unsigned int )((void *)0)) { tmp___10 = TIFFFileName(input); TIFFError("tiff2pdf", "Can\'t allocate %lu bytes of memory for t2p_readwrite_pdf_image, %s", (unsigned long )t2p->tiff_datasize, tmp___10); t2p->t2p_error = (enum __anonenum_t2p_err_t_54 )1; return (0L); } else { } i = 0U; while (i < stripcount) { samplebufferoffset = 0L; j = 0U; while (j < (tstrip_t )t2p->tiff_samplesperpixel) { read___0 = TIFFReadEncodedStrip(input, i + j * stripcount, (void *)(samplebuffer + samplebufferoffset), sepstripsize); if (read___0 == -1L) { tmp___11 = TIFFFileName(input); TIFFError("tiff2pdf", "Error on decoding strip %u of %s", i + j * stripcount, tmp___11); _TIFFfree((void *)buffer); t2p->t2p_error = (enum __anonenum_t2p_err_t_54 )1; return (0L); } else { } samplebufferoffset += read___0; j ++; } t2p_sample_planar_separate_to_contig(t2p, buffer + bufferoffset, samplebuffer, samplebufferoffset); bufferoffset += samplebufferoffset; i ++; } _TIFFfree((void *)samplebuffer); goto dataready; } else { } tmp___12 = _TIFFmalloc(t2p->tiff_datasize); buffer = (unsigned char *)tmp___12; if ((unsigned int )buffer == (unsigned int )((void *)0)) { tmp___13 = TIFFFileName(input); TIFFError("tiff2pdf", "Can\'t allocate %lu bytes of memory for t2p_readwrite_pdf_image, %s", (unsigned long )t2p->tiff_datasize, tmp___13); t2p->t2p_error = (enum __anonenum_t2p_err_t_54 )1; return (0L); } else { } memset((void *)buffer, 0, (unsigned int )t2p->tiff_datasize); stripsize = TIFFStripSize(input); stripcount = TIFFNumberOfStrips(input); i = 0U; while (i < stripcount) { read___0 = TIFFReadEncodedStrip(input, i, (void *)(buffer + bufferoffset), stripsize); if (read___0 == -1L) { tmp___14 = TIFFFileName(input); TIFFError("tiff2pdf", "Error on decoding strip %u of %s", i, tmp___14); _TIFFfree((void *)samplebuffer); _TIFFfree((void *)buffer); t2p->t2p_error = (enum __anonenum_t2p_err_t_54 )1; return (0L); } else { } bufferoffset += read___0; i ++; } if ((unsigned int )t2p->pdf_sample & 32U) { tmp___15 = _TIFFrealloc((void *)buffer, t2p->tiff_datasize * (tsize_t )t2p->tiff_samplesperpixel); samplebuffer = (unsigned char *)tmp___15; if ((unsigned int )samplebuffer == (unsigned int )((void *)0)) { tmp___16 = TIFFFileName(input); TIFFError("tiff2pdf", "Can\'t allocate %lu bytes of memory for t2p_readwrite_pdf_image, %s", (unsigned long )t2p->tiff_datasize, tmp___16); t2p->t2p_error = (enum __anonenum_t2p_err_t_54 )1; _TIFFfree((void *)buffer); } else { buffer = samplebuffer; t2p->tiff_datasize *= (tsize_t )t2p->tiff_samplesperpixel; } t2p_sample_realize_palette(t2p, buffer); } else { } if ((unsigned int )t2p->pdf_sample & 2U) { t2p->tiff_datasize = t2p_sample_rgba_to_rgb((void *)buffer, t2p->tiff_width * t2p->tiff_length); } else { } if ((unsigned int )t2p->pdf_sample & 4U) { t2p->tiff_datasize = t2p_sample_rgbaa_to_rgb((void *)buffer, t2p->tiff_width * t2p->tiff_length); } else { } if ((unsigned int )t2p->pdf_sample & 8U) { tmp___17 = _TIFFrealloc((void *)buffer, (long )((t2p->tiff_width * t2p->tiff_length) * 4U)); samplebuffer = (unsigned char *)tmp___17; if ((unsigned int )samplebuffer == (unsigned int )((void *)0)) { tmp___18 = TIFFFileName(input); TIFFError("tiff2pdf", "Can\'t allocate %lu bytes of memory for t2p_readwrite_pdf_image, %s", (unsigned long )t2p->tiff_datasize, tmp___18); t2p->t2p_error = (enum __anonenum_t2p_err_t_54 )1; _TIFFfree((void *)buffer); return (0L); } else { buffer = samplebuffer; } tmp___20 = TIFFReadRGBAImageOriented(input, t2p->tiff_width, t2p->tiff_length, (uint32 *)buffer, 1, 0); if (tmp___20) { } else { tmp___19 = TIFFFileName(input); TIFFError("tiff2pdf", "Can\'t use TIFFReadRGBAImageOriented to extract RGB image from %s", tmp___19); t2p->t2p_error = (enum __anonenum_t2p_err_t_54 )1; return (0L); } t2p->tiff_datasize = t2p_sample_abgr_to_rgb((void *)buffer, t2p->tiff_width * t2p->tiff_length); } else { } if ((unsigned int )t2p->pdf_sample & 64U) { t2p->tiff_datasize = t2p_sample_lab_signed_to_unsigned((void *)buffer, t2p->tiff_width * t2p->tiff_length); } else { } } } if (bufferoffset == -1L) { tmp___21 = TIFFFileName(output); TIFFError("tiff2pdf", "Error writing encoded strip to output PDF %s", tmp___21); t2p->t2p_error = (enum __anonenum_t2p_err_t_54 )1; return (0L); } else { } written = t2p->outputwritten; return (written); } } tsize_t t2p_readwrite_pdf_image_tile(T2P *t2p , TIFF *input , TIFF *output , ttile_t tile ) { uint16 edge ; tsize_t written ; unsigned char *buffer ; tsize_t bufferoffset ; unsigned char *samplebuffer ; tsize_t samplebufferoffset ; tsize_t read___0 ; uint16 i ; ttile_t tilecount ; tsize_t tilesize ; ttile_t septilecount ; tsize_t septilesize ; int tmp ; int tmp___0 ; void *tmp___1 ; char const *tmp___2 ; void *tmp___3 ; char const *tmp___4 ; void *tmp___5 ; char const *tmp___6 ; char const *tmp___7 ; void *tmp___8 ; char const *tmp___9 ; void *tmp___10 ; char const *tmp___11 ; char const *tmp___12 ; void *tmp___13 ; char const *tmp___14 ; char const *tmp___15 ; char const *tmp___16 ; tmsize_t tmp___17 ; int tmp___18 ; int tmp___19 ; int tmp___20 ; tmsize_t tmp___21 ; char const *tmp___22 ; { edge = (uint16 )0; written = (tsize_t )0; buffer = (unsigned char *)((void *)0); bufferoffset = (tsize_t )0; samplebuffer = (unsigned char *)((void *)0); samplebufferoffset = (tsize_t )0; read___0 = (tsize_t )0; i = (uint16 )0; tilecount = (ttile_t )0; tilesize = (tsize_t )0; septilecount = (ttile_t )0; septilesize = (tsize_t )0; tmp = t2p_tile_is_right_edge(*(t2p->tiff_tiles + t2p->pdf_page), tile); edge = (unsigned short )((int )edge | tmp); tmp___0 = t2p_tile_is_bottom_edge(*(t2p->tiff_tiles + t2p->pdf_page), tile); edge = (unsigned short )((int )edge | tmp___0); if ((unsigned int )t2p->pdf_transcode == 1U) { if ((int )edge == 0) { if ((unsigned int )t2p->pdf_compression == 1U) { tmp___1 = _TIFFmalloc(t2p->tiff_datasize); buffer = (unsigned char *)tmp___1; if ((unsigned int )buffer == (unsigned int )((void *)0)) { tmp___2 = TIFFFileName(input); TIFFError("tiff2pdf", "Can\'t allocate %lu bytes of memory for t2p_readwrite_pdf_image_tile, %s", (unsigned long )t2p->tiff_datasize, tmp___2); t2p->t2p_error = (enum __anonenum_t2p_err_t_54 )1; return (0L); } else { } TIFFReadRawTile(input, tile, (void *)buffer, t2p->tiff_datasize); if ((int )t2p->tiff_fillorder == 2) { TIFFReverseBits(buffer, t2p->tiff_datasize); } else { } t2pWriteFile(output, (void *)buffer, t2p->tiff_datasize); _TIFFfree((void *)buffer); return (t2p->tiff_datasize); } else { } if ((unsigned int )t2p->pdf_compression == 4U) { tmp___3 = _TIFFmalloc(t2p->tiff_datasize); buffer = (unsigned char *)tmp___3; if ((unsigned int )buffer == (unsigned int )((void *)0)) { tmp___4 = TIFFFileName(input); TIFFError("tiff2pdf", "Can\'t allocate %lu bytes of memory for t2p_readwrite_pdf_image_tile, %s", (unsigned long )t2p->tiff_datasize, tmp___4); t2p->t2p_error = (enum __anonenum_t2p_err_t_54 )1; return (0L); } else { } TIFFReadRawTile(input, tile, (void *)buffer, t2p->tiff_datasize); if ((int )t2p->tiff_fillorder == 2) { TIFFReverseBits(buffer, t2p->tiff_datasize); } else { } t2pWriteFile(output, (void *)buffer, t2p->tiff_datasize); _TIFFfree((void *)buffer); return (t2p->tiff_datasize); } else { } } else { } } else { } if ((unsigned int )t2p->pdf_sample == 0U) { tmp___5 = _TIFFmalloc(t2p->tiff_datasize); buffer = (unsigned char *)tmp___5; if ((unsigned int )buffer == (unsigned int )((void *)0)) { tmp___6 = TIFFFileName(input); TIFFError("tiff2pdf", "Can\'t allocate %lu bytes of memory for t2p_readwrite_pdf_image_tile, %s", (unsigned long )t2p->tiff_datasize, tmp___6); t2p->t2p_error = (enum __anonenum_t2p_err_t_54 )1; return (0L); } else { } read___0 = TIFFReadEncodedTile(input, tile, (void *)(buffer + bufferoffset), t2p->tiff_datasize); if (read___0 == -1L) { tmp___7 = TIFFFileName(input); TIFFError("tiff2pdf", "Error on decoding tile %u of %s", tile, tmp___7); _TIFFfree((void *)buffer); t2p->t2p_error = (enum __anonenum_t2p_err_t_54 )1; return (0L); } else { } } else { if ((unsigned int )t2p->pdf_sample == 256U) { septilesize = TIFFTileSize(input); septilecount = TIFFNumberOfTiles(input); tilesize = septilesize * (tsize_t )t2p->tiff_samplesperpixel; tilecount = septilecount / (ttile_t )t2p->tiff_samplesperpixel; tmp___8 = _TIFFmalloc(t2p->tiff_datasize); buffer = (unsigned char *)tmp___8; if ((unsigned int )buffer == (unsigned int )((void *)0)) { tmp___9 = TIFFFileName(input); TIFFError("tiff2pdf", "Can\'t allocate %lu bytes of memory for t2p_readwrite_pdf_image_tile, %s", (unsigned long )t2p->tiff_datasize, tmp___9); t2p->t2p_error = (enum __anonenum_t2p_err_t_54 )1; return (0L); } else { } tmp___10 = _TIFFmalloc(t2p->tiff_datasize); samplebuffer = (unsigned char *)tmp___10; if ((unsigned int )samplebuffer == (unsigned int )((void *)0)) { tmp___11 = TIFFFileName(input); TIFFError("tiff2pdf", "Can\'t allocate %lu bytes of memory for t2p_readwrite_pdf_image_tile, %s", (unsigned long )t2p->tiff_datasize, tmp___11); t2p->t2p_error = (enum __anonenum_t2p_err_t_54 )1; return (0L); } else { } samplebufferoffset = 0L; i = (unsigned short)0; while ((int )i < (int )t2p->tiff_samplesperpixel) { read___0 = TIFFReadEncodedTile(input, tile + (ttile_t )i * tilecount, (void *)(samplebuffer + samplebufferoffset), septilesize); if (read___0 == -1L) { tmp___12 = TIFFFileName(input); TIFFError("tiff2pdf", "Error on decoding tile %u of %s", tile + (ttile_t )i * tilecount, tmp___12); _TIFFfree((void *)samplebuffer); _TIFFfree((void *)buffer); t2p->t2p_error = (enum __anonenum_t2p_err_t_54 )1; return (0L); } else { } samplebufferoffset += read___0; i = (uint16 )((int )i + 1); } t2p_sample_planar_separate_to_contig(t2p, buffer + bufferoffset, samplebuffer, samplebufferoffset); bufferoffset += samplebufferoffset; _TIFFfree((void *)samplebuffer); } else { } if ((unsigned int )buffer == (unsigned int )((void *)0)) { tmp___13 = _TIFFmalloc(t2p->tiff_datasize); buffer = (unsigned char *)tmp___13; if ((unsigned int )buffer == (unsigned int )((void *)0)) { tmp___14 = TIFFFileName(input); TIFFError("tiff2pdf", "Can\'t allocate %lu bytes of memory for t2p_readwrite_pdf_image_tile, %s", (unsigned long )t2p->tiff_datasize, tmp___14); t2p->t2p_error = (enum __anonenum_t2p_err_t_54 )1; return (0L); } else { } read___0 = TIFFReadEncodedTile(input, tile, (void *)(buffer + bufferoffset), t2p->tiff_datasize); if (read___0 == -1L) { tmp___15 = TIFFFileName(input); TIFFError("tiff2pdf", "Error on decoding tile %u of %s", tile, tmp___15); _TIFFfree((void *)buffer); t2p->t2p_error = (enum __anonenum_t2p_err_t_54 )1; return (0L); } else { } } else { } if ((unsigned int )t2p->pdf_sample & 2U) { t2p->tiff_datasize = t2p_sample_rgba_to_rgb((void *)buffer, (t2p->tiff_tiles + t2p->pdf_page)->tiles_tilewidth * (t2p->tiff_tiles + t2p->pdf_page)->tiles_tilelength); } else { } if ((unsigned int )t2p->pdf_sample & 4U) { t2p->tiff_datasize = t2p_sample_rgbaa_to_rgb((void *)buffer, (t2p->tiff_tiles + t2p->pdf_page)->tiles_tilewidth * (t2p->tiff_tiles + t2p->pdf_page)->tiles_tilelength); } else { } if ((unsigned int )t2p->pdf_sample & 8U) { tmp___16 = TIFFFileName(input); TIFFError("tiff2pdf", "No support for YCbCr to RGB in tile for %s", tmp___16); _TIFFfree((void *)buffer); t2p->t2p_error = (enum __anonenum_t2p_err_t_54 )1; return (0L); } else { } if ((unsigned int )t2p->pdf_sample & 64U) { t2p->tiff_datasize = t2p_sample_lab_signed_to_unsigned((void *)buffer, (t2p->tiff_tiles + t2p->pdf_page)->tiles_tilewidth * (t2p->tiff_tiles + t2p->pdf_page)->tiles_tilelength); } else { } } tmp___18 = t2p_tile_is_right_edge(*(t2p->tiff_tiles + t2p->pdf_page), tile); if (tmp___18 != 0) { tmp___17 = TIFFTileRowSize(input); t2p_tile_collapse_left((void *)buffer, tmp___17, (t2p->tiff_tiles + t2p->pdf_page)->tiles_tilewidth, (t2p->tiff_tiles + t2p->pdf_page)->tiles_edgetilewidth, (t2p->tiff_tiles + t2p->pdf_page)->tiles_tilelength); } else { } t2p_disable(output); TIFFSetField(output, 262U, t2p->tiff_photometric); TIFFSetField(output, 258U, t2p->tiff_bitspersample); TIFFSetField(output, 277U, t2p->tiff_samplesperpixel); tmp___19 = t2p_tile_is_right_edge(*(t2p->tiff_tiles + t2p->pdf_page), tile); if (tmp___19 == 0) { TIFFSetField(output, 256U, (t2p->tiff_tiles + t2p->pdf_page)->tiles_tilewidth); } else { TIFFSetField(output, 256U, (t2p->tiff_tiles + t2p->pdf_page)->tiles_edgetilewidth); } tmp___20 = t2p_tile_is_bottom_edge(*(t2p->tiff_tiles + t2p->pdf_page), tile); if (tmp___20 == 0) { TIFFSetField(output, 257U, (t2p->tiff_tiles + t2p->pdf_page)->tiles_tilelength); TIFFSetField(output, 278U, (t2p->tiff_tiles + t2p->pdf_page)->tiles_tilelength); } else { TIFFSetField(output, 257U, (t2p->tiff_tiles + t2p->pdf_page)->tiles_edgetilelength); TIFFSetField(output, 278U, (t2p->tiff_tiles + t2p->pdf_page)->tiles_edgetilelength); } TIFFSetField(output, 284U, 1); TIFFSetField(output, 266U, 1); switch ((int )t2p->pdf_compression) { case 0: TIFFSetField(output, 259U, 1); break; case 1: TIFFSetField(output, 259U, 4); break; case 4: TIFFSetField(output, 259U, 32946); if ((int )t2p->pdf_defaultcompressionquality % 100 != 0) { TIFFSetField(output, 317U, (int )t2p->pdf_defaultcompressionquality % 100); } else { } if ((int )t2p->pdf_defaultcompressionquality / 100 != 0) { TIFFSetField(output, 65557U, (int )t2p->pdf_defaultcompressionquality / 100); } else { } break; default: ; break; } t2p_enable(output); t2p->outputwritten = 0L; tmp___21 = TIFFStripSize(output); bufferoffset = TIFFWriteEncodedStrip(output, 0U, (void *)buffer, tmp___21); if ((unsigned int )buffer != (unsigned int )((void *)0)) { _TIFFfree((void *)buffer); buffer = (unsigned char *)((void *)0); } else { } if (bufferoffset == -1L) { tmp___22 = TIFFFileName(output); TIFFError("tiff2pdf", "Error writing encoded tile to output PDF %s", tmp___22); t2p->t2p_error = (enum __anonenum_t2p_err_t_54 )1; return (0L); } else { } written = t2p->outputwritten; return (written); } } void t2p_tile_collapse_left(tdata_t buffer , tsize_t scanwidth , uint32 tilewidth , uint32 edgetilewidth , uint32 tilelength ) { uint32 i ; tsize_t edgescanwidth ; { i = (uint32 )0; edgescanwidth = (tsize_t )0; edgescanwidth = (long )(((unsigned long )scanwidth * (unsigned long )edgetilewidth + (unsigned long )(tilewidth - 1U)) / (unsigned long )tilewidth); i = i; while (i < tilelength) { _TIFFmemcpy((void *)((char *)buffer + (unsigned long )edgescanwidth * (unsigned long )i), (void const *)((char *)buffer + (unsigned long )scanwidth * (unsigned long )i), edgescanwidth); i ++; } return; } } void t2p_write_advance_directory(T2P *t2p , TIFF *output ) { char const *tmp ; int tmp___0 ; { t2p_disable(output); tmp___0 = TIFFWriteDirectory(output); if (tmp___0) { } else { tmp = TIFFFileName(output); TIFFError("tiff2pdf", "Error writing virtual directory to output PDF %s", tmp); t2p->t2p_error = (enum __anonenum_t2p_err_t_54 )1; return; } t2p_enable(output); return; } } tsize_t t2p_sample_planar_separate_to_contig(T2P *t2p , unsigned char *buffer , unsigned char *samplebuffer , tsize_t samplebuffersize ) { tsize_t stride ; tsize_t i ; tsize_t j ; { stride = (tsize_t )0; i = (tsize_t )0; j = (tsize_t )0; stride = samplebuffersize / (tsize_t )t2p->tiff_samplesperpixel; i = 0L; while (i < stride) { j = 0L; while (j < (tsize_t )t2p->tiff_samplesperpixel) { *(buffer + (i * (tsize_t )t2p->tiff_samplesperpixel + j)) = *(samplebuffer + (i + j * stride)); j ++; } i ++; } return (samplebuffersize); } } tsize_t t2p_sample_realize_palette(T2P *t2p , unsigned char *buffer ) { uint32 sample_count ; uint16 component_count ; uint32 palette_offset ; uint32 sample_offset ; uint32 i ; uint32 j ; { sample_count = (uint32 )0; component_count = (uint16 )0; palette_offset = (uint32 )0; sample_offset = (uint32 )0; i = (uint32 )0; j = (uint32 )0; sample_count = t2p->tiff_width * t2p->tiff_length; component_count = t2p->tiff_samplesperpixel; i = sample_count; while (i > 0U) { palette_offset = (unsigned int )((int )*(buffer + (i - 1U)) * (int )component_count); sample_offset = (i - 1U) * (uint32 )component_count; j = 0U; while (j < (uint32 )component_count) { *(buffer + (sample_offset + j)) = *(t2p->pdf_palette + (palette_offset + j)); j ++; } i --; } return (0L); } } tsize_t t2p_sample_abgr_to_rgb(tdata_t data , uint32 samplecount ) { uint32 i ; uint32 sample ; { i = (uint32 )0; sample = (uint32 )0; i = 0U; while (i < samplecount) { sample = *((uint32 *)data + i); *((char *)data + i * 3U) = (char )(sample & 255U); *((char *)data + (i * 3U + 1U)) = (char )((sample >> 8) & 255U); *((char *)data + (i * 3U + 2U)) = (char )((sample >> 16) & 255U); i ++; } return ((long )(i * 3U)); } } tsize_t t2p_sample_rgbaa_to_rgb(tdata_t data , uint32 samplecount ) { uint32 i ; { i = 0U; while (i < samplecount) { memcpy((void */* __restrict */)((uint8 *)data + i * 3U), (void const */* __restrict */)((uint8 *)data + i * 4U), 3U); i ++; } return ((long )(i * 3U)); } } tsize_t t2p_sample_rgba_to_rgb(tdata_t data , uint32 samplecount ) { uint32 i ; uint32 sample ; uint8 alpha ; { i = (uint32 )0; sample = (uint32 )0; alpha = (uint8 )0; i = 0U; while (i < samplecount) { sample = *((uint32 *)data + i); alpha = (unsigned char )(255U - (sample & 255U)); *((uint8 *)data + i * 3U) = (unsigned char )((int )((unsigned char )((sample >> 24) & 255U)) + (int )alpha); *((uint8 *)data + (i * 3U + 1U)) = (unsigned char )((int )((unsigned char )((sample >> 16) & 255U)) + (int )alpha); *((uint8 *)data + (i * 3U + 2U)) = (unsigned char )((int )((unsigned char )((sample >> 8) & 255U)) + (int )alpha); i ++; } return ((long )(i * 3U)); } } tsize_t t2p_sample_lab_signed_to_unsigned(tdata_t buffer , uint32 samplecount ) { uint32 i ; { i = (uint32 )0; i = 0U; while (i < samplecount) { if (((int )*((unsigned char *)buffer + (i * 3U + 1U)) & 0x80) != 0) { *((unsigned char *)buffer + (i * 3U + 1U)) = (unsigned char )(0x80 + (int )*((char *)buffer + (i * 3U + 1U))); } else { *((unsigned char *)buffer + (i * 3U + 1U)) = (unsigned char )((int )*((unsigned char *)buffer + (i * 3U + 1U)) | 0x80); } if (((int )*((unsigned char *)buffer + (i * 3U + 2U)) & 0x80) != 0) { *((unsigned char *)buffer + (i * 3U + 2U)) = (unsigned char )(0x80 + (int )*((char *)buffer + (i * 3U + 2U))); } else { *((unsigned char *)buffer + (i * 3U + 2U)) = (unsigned char )((int )*((unsigned char *)buffer + (i * 3U + 2U)) | 0x80); } i ++; } return ((long )(samplecount * 3U)); } } tsize_t t2p_write_pdf_header(T2P *t2p , TIFF *output ) { tsize_t written ; char buffer[16] ; int buflen ; tmsize_t tmp ; tmsize_t tmp___0 ; { { } buflen = 0; buflen = sprintf((char */* __restrict */)(buffer), (char const */* __restrict */)"%%PDF-%u.%u ", (int )t2p->pdf_majorversion & 0xff, (int )t2p->pdf_minorversion & 0xff); tmp = t2pWriteFile(output, (void *)(buffer), (long )buflen); written += tmp; tmp___0 = t2pWriteFile(output, (void *)"\n%\342\343\317\323\n", 7L); written += tmp___0; return (written); } } tsize_t t2p_write_pdf_obj_start(uint32 number , TIFF *output ) { tsize_t written ; char buffer[16] ; int buflen ; tmsize_t tmp ; tmsize_t tmp___0 ; { written = (tsize_t )0; buflen = 0; buflen = sprintf((char */* __restrict */)(buffer), (char const */* __restrict */)"%lu", (unsigned long )number); tmp = t2pWriteFile(output, (void *)(buffer), (long )buflen); written += tmp; tmp___0 = t2pWriteFile(output, (void *)" 0 obj\n", 7L); written += tmp___0; return (written); } } tsize_t t2p_write_pdf_obj_end(TIFF *output ) { tsize_t written ; tmsize_t tmp ; { written = (tsize_t )0; tmp = t2pWriteFile(output, (void *)"endobj\n", 7L); written += tmp; return (written); } } tsize_t t2p_write_pdf_name(unsigned char *name , TIFF *output ) { tsize_t written ; uint32 i ; char buffer[64] ; uint16 nextchar ; size_t namelen ; tmsize_t tmp ; tmsize_t tmp___0 ; tmsize_t tmp___1 ; tmsize_t tmp___2 ; tmsize_t tmp___3 ; tmsize_t tmp___4 ; tmsize_t tmp___5 ; tmsize_t tmp___6 ; tmsize_t tmp___7 ; tmsize_t tmp___8 ; tmsize_t tmp___9 ; tmsize_t tmp___10 ; tmsize_t tmp___11 ; tmsize_t tmp___12 ; tmsize_t tmp___13 ; tmsize_t tmp___14 ; { written = (tsize_t )0; i = (uint32 )0; nextchar = (uint16 )0; namelen = (size_t )0; namelen = strlen((char const *)((char *)name)); if (namelen > 126U) { namelen = 126U; } else { } tmp = t2pWriteFile(output, (void *)"/", 1L); written += tmp; i = 0U; while (i < namelen) { if ((int )*(name + i) < 0x21) { sprintf((char */* __restrict */)(buffer), (char const */* __restrict */)"#%.2X", *(name + i)); buffer[sizeof(buffer) - 1U] = (char )'\000'; tmp___0 = t2pWriteFile(output, (void *)(buffer), 3L); written += tmp___0; nextchar = (unsigned short)1; } else { } if ((int )*(name + i) > 0x7E) { sprintf((char */* __restrict */)(buffer), (char const */* __restrict */)"#%.2X", *(name + i)); buffer[sizeof(buffer) - 1U] = (char )'\000'; tmp___1 = t2pWriteFile(output, (void *)(buffer), 3L); written += tmp___1; nextchar = (unsigned short)1; } else { } if ((int )nextchar == 0) { switch ((int )*(name + i)) { case 0x23: sprintf((char */* __restrict */)(buffer), (char const */* __restrict */)"#%.2X", *(name + i)); buffer[sizeof(buffer) - 1U] = (char )'\000'; tmp___2 = t2pWriteFile(output, (void *)(buffer), 3L); written += tmp___2; break; case 0x25: sprintf((char */* __restrict */)(buffer), (char const */* __restrict */)"#%.2X", *(name + i)); buffer[sizeof(buffer) - 1U] = (char )'\000'; tmp___3 = t2pWriteFile(output, (void *)(buffer), 3L); written += tmp___3; break; case 0x28: sprintf((char */* __restrict */)(buffer), (char const */* __restrict */)"#%.2X", *(name + i)); buffer[sizeof(buffer) - 1U] = (char )'\000'; tmp___4 = t2pWriteFile(output, (void *)(buffer), 3L); written += tmp___4; break; case 0x29: sprintf((char */* __restrict */)(buffer), (char const */* __restrict */)"#%.2X", *(name + i)); buffer[sizeof(buffer) - 1U] = (char )'\000'; tmp___5 = t2pWriteFile(output, (void *)(buffer), 3L); written += tmp___5; break; case 0x2F: sprintf((char */* __restrict */)(buffer), (char const */* __restrict */)"#%.2X", *(name + i)); buffer[sizeof(buffer) - 1U] = (char )'\000'; tmp___6 = t2pWriteFile(output, (void *)(buffer), 3L); written += tmp___6; break; case 0x3C: sprintf((char */* __restrict */)(buffer), (char const */* __restrict */)"#%.2X", *(name + i)); buffer[sizeof(buffer) - 1U] = (char )'\000'; tmp___7 = t2pWriteFile(output, (void *)(buffer), 3L); written += tmp___7; break; case 0x3E: sprintf((char */* __restrict */)(buffer), (char const */* __restrict */)"#%.2X", *(name + i)); buffer[sizeof(buffer) - 1U] = (char )'\000'; tmp___8 = t2pWriteFile(output, (void *)(buffer), 3L); written += tmp___8; break; case 0x5B: sprintf((char */* __restrict */)(buffer), (char const */* __restrict */)"#%.2X", *(name + i)); buffer[sizeof(buffer) - 1U] = (char )'\000'; tmp___9 = t2pWriteFile(output, (void *)(buffer), 3L); written += tmp___9; break; case 0x5D: sprintf((char */* __restrict */)(buffer), (char const */* __restrict */)"#%.2X", *(name + i)); buffer[sizeof(buffer) - 1U] = (char )'\000'; tmp___10 = t2pWriteFile(output, (void *)(buffer), 3L); written += tmp___10; break; case 0x7B: sprintf((char */* __restrict */)(buffer), (char const */* __restrict */)"#%.2X", *(name + i)); buffer[sizeof(buffer) - 1U] = (char )'\000'; tmp___11 = t2pWriteFile(output, (void *)(buffer), 3L); written += tmp___11; break; case 0x7D: sprintf((char */* __restrict */)(buffer), (char const */* __restrict */)"#%.2X", *(name + i)); buffer[sizeof(buffer) - 1U] = (char )'\000'; tmp___12 = t2pWriteFile(output, (void *)(buffer), 3L); written += tmp___12; break; default: tmp___13 = t2pWriteFile(output, (void *)(name + i), 1L); written += tmp___13; } } else { } nextchar = (unsigned short)0; i ++; } tmp___14 = t2pWriteFile(output, (void *)" ", 1L); written += tmp___14; return (written); } } tsize_t t2p_write_pdf_string(char *pdfstr , TIFF *output ) { tsize_t written ; uint32 i ; char buffer[64] ; size_t len ; tmsize_t tmp ; tmsize_t tmp___0 ; tmsize_t tmp___1 ; tmsize_t tmp___2 ; tmsize_t tmp___3 ; tmsize_t tmp___4 ; tmsize_t tmp___5 ; tmsize_t tmp___6 ; tmsize_t tmp___7 ; tmsize_t tmp___8 ; tmsize_t tmp___9 ; tmsize_t tmp___10 ; { written = (tsize_t )0; i = (uint32 )0; len = (size_t )0; len = strlen((char const *)pdfstr); tmp = t2pWriteFile(output, (void *)"(", 1L); written += tmp; i = 0U; while (i < len) { if ((int )*(pdfstr + i) & 0x80) { snprintf((char */* __restrict */)(buffer), sizeof(buffer), (char const */* __restrict */)"\\%.3hho", *(pdfstr + i)); tmp___0 = t2pWriteFile(output, (void *)(buffer), 4L); written += tmp___0; } else { if ((int )*(pdfstr + i) == 127) { snprintf((char */* __restrict */)(buffer), sizeof(buffer), (char const */* __restrict */)"\\%.3hho", *(pdfstr + i)); tmp___0 = t2pWriteFile(output, (void *)(buffer), 4L); written += tmp___0; } else { if ((int )*(pdfstr + i) < 32) { snprintf((char */* __restrict */)(buffer), sizeof(buffer), (char const */* __restrict */)"\\%.3hho", *(pdfstr + i)); tmp___0 = t2pWriteFile(output, (void *)(buffer), 4L); written += tmp___0; } else { switch ((int )*(pdfstr + i)) { case 0x08: tmp___1 = t2pWriteFile(output, (void *)"\\b", 2L); written += tmp___1; break; case 0x09: tmp___2 = t2pWriteFile(output, (void *)"\\t", 2L); written += tmp___2; break; case 0x0A: tmp___3 = t2pWriteFile(output, (void *)"\\n", 2L); written += tmp___3; break; case 0x0C: tmp___4 = t2pWriteFile(output, (void *)"\\f", 2L); written += tmp___4; break; case 0x0D: tmp___5 = t2pWriteFile(output, (void *)"\\r", 2L); written += tmp___5; break; case 0x28: tmp___6 = t2pWriteFile(output, (void *)"\\(", 2L); written += tmp___6; break; case 0x29: tmp___7 = t2pWriteFile(output, (void *)"\\)", 2L); written += tmp___7; break; case 0x5C: tmp___8 = t2pWriteFile(output, (void *)"\\\\", 2L); written += tmp___8; break; default: tmp___9 = t2pWriteFile(output, (void *)(pdfstr + i), 1L); written += tmp___9; } } } } i ++; } tmp___10 = t2pWriteFile(output, (void *)") ", 1L); written += tmp___10; return (written); } } tsize_t t2p_write_pdf_stream(tdata_t buffer , tsize_t len , TIFF *output ) { tsize_t written ; tmsize_t tmp ; { written = (tsize_t )0; tmp = t2pWriteFile(output, buffer, len); written += tmp; return (written); } } tsize_t t2p_write_pdf_stream_start(TIFF *output ) { tsize_t written ; tmsize_t tmp ; { written = (tsize_t )0; tmp = t2pWriteFile(output, (void *)"stream\n", 7L); written += tmp; return (written); } } tsize_t t2p_write_pdf_stream_end(TIFF *output ) { tsize_t written ; tmsize_t tmp ; { written = (tsize_t )0; tmp = t2pWriteFile(output, (void *)"\nendstream\n", 11L); written += tmp; return (written); } } tsize_t t2p_write_pdf_stream_dict(tsize_t len , uint32 number , TIFF *output ) { tsize_t written ; char buffer[16] ; int buflen ; tmsize_t tmp ; tsize_t tmp___0 ; tmsize_t tmp___1 ; tmsize_t tmp___2 ; { written = (tsize_t )0; buflen = 0; tmp = t2pWriteFile(output, (void *)"/Length ", 8L); written += tmp; if (len != 0L) { tmp___0 = t2p_write_pdf_stream_length(len, output); written += tmp___0; } else { buflen = sprintf((char */* __restrict */)(buffer), (char const */* __restrict */)"%lu", (unsigned long )number); tmp___1 = t2pWriteFile(output, (void *)(buffer), (long )buflen); written += tmp___1; tmp___2 = t2pWriteFile(output, (void *)" 0 R \n", 6L); { if (len != 0L) { tmp___0 = t2p_write_pdf_stream_length(len, output); written += tmp___0; } else { buflen = sprintf((char */* __restrict */)(buffer), (char const */* __restrict */)"%lu", (unsigned long )number); tmp___1 = t2pWriteFile(output, (void *)(buffer), (long )buflen); written += tmp___1; tmp___2 = t2pWriteFile(output, (void *)" 0 R \n", 6L); written += tmp___2; } } } return (written); } } tsize_t t2p_write_pdf_stream_dict_start(TIFF *output ) { tsize_t written ; tmsize_t tmp ; { written = (tsize_t )0; tmp = t2pWriteFile(output, (void *)"<< \n", 4L); written += tmp; return (written); } } tsize_t t2p_write_pdf_stream_dict_end(TIFF *output ) { tsize_t written ; tmsize_t tmp ; { written = (tsize_t )0; tmp = t2pWriteFile(output, (void *)" >>\n", 4L); written += tmp; return (written); } } tsize_t t2p_write_pdf_stream_length(tsize_t len , TIFF *output ) { tsize_t written ; char buffer[16] ; int buflen ; tmsize_t tmp ; tmsize_t tmp___0 ; { written = (tsize_t )0; buflen = 0; buflen = sprintf((char */* __restrict */)(buffer), (char const */* __restrict */)"%lu", (unsigned long )len); tmp = t2pWriteFile(output, (void *)(buffer), (long )buflen); written += tmp; tmp___0 = t2pWriteFile(output, (void *)"\n", 1L); written += tmp___0; return (written); } } tsize_t t2p_write_pdf_catalog(T2P *t2p , TIFF *output ) { tsize_t written ; char buffer[16] ; int buflen ; tmsize_t tmp ; unsigned int tmp___0 ; tmsize_t tmp___1 ; tmsize_t tmp___2 ; tmsize_t tmp___3 ; tmsize_t tmp___4 ; { written = (tsize_t )0; buflen = 0; tmp = t2pWriteFile(output, (void *)"<< \n/Type /Catalog \n/Pages ", 27L); written += tmp; buflen = snprintf((char */* __restrict */)(buffer), sizeof(buffer), (char const */* __restrict */)"%lu", (unsigned long )t2p->pdf_pages); if ((unsigned int )buflen < sizeof(buffer) - 1U) { tmp___0 = (unsigned int )buflen; } else { tmp___0 = sizeof(buffer) - 1U; } tmp___1 = t2pWriteFile(output, (void *)(buffer), (long )tmp___0); written += tmp___1; tmp___2 = t2pWriteFile(output, (void *)" 0 R \n", 6L); written += tmp___2; if (t2p->pdf_fitwindow) { tmp___3 = t2pWriteFile(output, (void *)"/ViewerPreferences <>\n", 39L); written += tmp___3; } else { } tmp___4 = t2pWriteFile(output, (void *)">>\n", 3L); written += tmp___4; return (written); } } tsize_t t2p_write_pdf_info(T2P *t2p , TIFF *input , TIFF *output ) { tsize_t written ; char *info ; char buffer[512] ; tmsize_t tmp ; tsize_t tmp___0 ; tmsize_t tmp___1 ; tsize_t tmp___2 ; size_t tmp___3 ; tmsize_t tmp___4 ; tsize_t tmp___5 ; tmsize_t tmp___6 ; tmsize_t tmp___7 ; tsize_t tmp___8 ; tmsize_t tmp___9 ; size_t tmp___10 ; tmsize_t tmp___11 ; tsize_t tmp___12 ; tmsize_t tmp___13 ; int tmp___14 ; tmsize_t tmp___15 ; tsize_t tmp___16 ; tmsize_t tmp___17 ; size_t tmp___18 ; tmsize_t tmp___19 ; tsize_t tmp___20 ; tmsize_t tmp___21 ; int tmp___22 ; int tmp___23 ; tmsize_t tmp___24 ; tsize_t tmp___25 ; tmsize_t tmp___26 ; size_t tmp___27 ; tmsize_t tmp___28 ; tsize_t tmp___29 ; tmsize_t tmp___30 ; int tmp___31 ; tmsize_t tmp___32 ; tsize_t tmp___33 ; tmsize_t tmp___34 ; size_t tmp___35 ; tmsize_t tmp___36 ; tsize_t tmp___37 ; tmsize_t tmp___38 ; int tmp___39 ; tmsize_t tmp___40 ; tsize_t tmp___41 ; tmsize_t tmp___42 ; tmsize_t tmp___43 ; { written = (tsize_t )0; if ((int )t2p->pdf_datetime[0] == 0) { t2p_pdf_tifftime(t2p, input); } else { } tmp___3 = strlen((char const *)(t2p->pdf_datetime)); if (tmp___3 > 0U) { tmp = t2pWriteFile(output, (void *)"<< \n/CreationDate ", 18L); written += tmp; tmp___0 = t2p_write_pdf_string(t2p->pdf_datetime, output); written += tmp___0; tmp___1 = t2pWriteFile(output, (void *)"\n/ModDate ", 10L); written += tmp___1; tmp___2 = t2p_write_pdf_string(t2p->pdf_datetime, output); written += tmp___2; } else { } tmp___4 = t2pWriteFile(output, (void *)"\n/Producer ", 11L); written += tmp___4; _TIFFmemset((void *)(buffer), 0x00, (long )sizeof(buffer)); snprintf((char */* __restrict */)(buffer), sizeof(buffer), (char const */* __restrict */)"libtiff / tiff2pdf - %d", 20100611); tmp___5 = t2p_write_pdf_string(buffer, output); written += tmp___5; tmp___6 = t2pWriteFile(output, (void *)"\n", 1L); written += tmp___6; if ((int )t2p->pdf_creator[0] != 0) { tmp___7 = t2pWriteFile(output, (void *)"/Creator ", 9L); written += tmp___7; tmp___8 = t2p_write_pdf_string(t2p->pdf_creator, output); written += tmp___8; tmp___9 = t2pWriteFile(output, (void *)"\n", 1L); written += tmp___9; } else { tmp___14 = TIFFGetField(input, 305U, & info); if (tmp___14 != 0) { if (info) { tmp___10 = strlen((char const *)info); if (tmp___10 >= sizeof(t2p->pdf_creator)) { *(info + (sizeof(t2p->pdf_creator) - 1U)) = (char )'\000'; } else { } tmp___11 = t2pWriteFile(output, (void *)"/Creator ", 9L); written += tmp___11; tmp___12 = t2p_write_pdf_string(info, output); written += tmp___12; tmp___13 = t2pWriteFile(output, (void *)"\n", 1L); written += tmp___13; } else { } } else { } } if ((int )t2p->pdf_author[0] != 0) { tmp___15 = t2pWriteFile(output, (void *)"/Author ", 8L); written += tmp___15; tmp___16 = t2p_write_pdf_string(t2p->pdf_author, output); written += tmp___16; tmp___17 = t2pWriteFile(output, (void *)"\n", 1L); written += tmp___17; } else { tmp___22 = TIFFGetField(input, 315U, & info); if (tmp___22 != 0) { goto _L; } else { tmp___23 = TIFFGetField(input, 33432U, & info); if (tmp___23 != 0) { _L: /* CIL Label */ if (info) { tmp___18 = strlen((char const *)info); if (tmp___18 >= sizeof(t2p->pdf_author)) { *(info + (sizeof(t2p->pdf_author) - 1U)) = (char )'\000'; } else { } tmp___19 = t2pWriteFile(output, (void *)"/Author ", 8L); written += tmp___19; tmp___20 = t2p_write_pdf_string(info, output); written += tmp___20; tmp___21 = t2pWriteFile(output, (void *)"\n", 1L); written += tmp___21; } else { } } else { } } } if ((int )t2p->pdf_title[0] != 0) { tmp___24 = t2pWriteFile(output, (void *)"/Title ", 7L); written += tmp___24; tmp___25 = t2p_write_pdf_string(t2p->pdf_title, output); written += tmp___25; tmp___26 = t2pWriteFile(output, (void *)"\n", 1L); written += tmp___26; } else { tmp___31 = TIFFGetField(input, 269U, & info); if (tmp___31 != 0) { tmp___27 = strlen((char const *)info); if (tmp___27 > 511U) { *(info + 512) = (char )'\000'; } else { } tmp___28 = t2pWriteFile(output, (void *)"/Title ", 7L); written += tmp___28; tmp___29 = t2p_write_pdf_string(info, output); written += tmp___29; tmp___30 = t2pWriteFile(output, (void *)"\n", 1L); written += tmp___30; } else { } } if ((int )t2p->pdf_subject[0] != 0) { tmp___32 = t2pWriteFile(output, (void *)"/Subject ", 9L); written += tmp___32; tmp___33 = t2p_write_pdf_string(t2p->pdf_subject, output); written += tmp___33; tmp___34 = t2pWriteFile(output, (void *)"\n", 1L); written += tmp___34; } else { tmp___39 = TIFFGetField(input, 270U, & info); if (tmp___39 != 0) { if (info) { tmp___35 = strlen((char const *)info); if (tmp___35 >= sizeof(t2p->pdf_subject)) { *(info + (sizeof(t2p->pdf_subject) - 1U)) = (char )'\000'; } else { } tmp___36 = t2pWriteFile(output, (void *)"/Subject ", 9L); written += tmp___36; tmp___37 = t2p_write_pdf_string(info, output); written += tmp___37; tmp___38 = t2pWriteFile(output, (void *)"\n", 1L); written += tmp___38; } else { } } else { } } if ((int )t2p->pdf_keywords[0] != 0) { tmp___40 = t2pWriteFile(output, (void *)"/Keywords ", 10L); written += tmp___40; tmp___41 = t2p_write_pdf_string(t2p->pdf_keywords, output); written += tmp___41; tmp___42 = t2pWriteFile(output, (void *)"\n", 1L); written += tmp___42; } else { } tmp___43 = t2pWriteFile(output, (void *)">> \n", 4L); written += tmp___43; return (written); } } void t2p_pdf_currenttime(T2P *t2p ) { struct tm *currenttime ; time_t timenow ; int *tmp ; char *tmp___0 ; time_t tmp___1 ; { tmp___1 = time(& timenow); if (tmp___1 == -1L) { tmp = __errno_location(); tmp___0 = strerror(*tmp); TIFFError("tiff2pdf", "Can\'t get the current time: %s", tmp___0); timenow = 0L; } else { } currenttime = localtime((time_t const *)(& timenow)); snprintf((char */* __restrict */)(t2p->pdf_datetime), sizeof(t2p->pdf_datetime), (char const */* __restrict */)"D:%.4d%.2d%.2d%.2d%.2d%.2d", (currenttime->tm_year + 1900) % 65536, (currenttime->tm_mon + 1) % 256, currenttime->tm_mday % 256, currenttime->tm_hour % 256, currenttime->tm_min % 256, currenttime->tm_sec % 256); return; } } void t2p_pdf_tifftime(T2P *t2p , TIFF *input ) { char *datetime ; int tmp ; size_t tmp___0 ; { tmp = TIFFGetField(input, 306U, & datetime); if (tmp != 0) { tmp___0 = strlen((char const *)datetime); if (tmp___0 >= 19U) { t2p->pdf_datetime[0] = (char )'D'; t2p->pdf_datetime[1] = (char )':'; t2p->pdf_datetime[2] = *(datetime + 0); t2p->pdf_datetime[3] = *(datetime + 1); t2p->pdf_datetime[4] = *(datetime + 2); t2p->pdf_datetime[5] = *(datetime + 3); t2p->pdf_datetime[6] = *(datetime + 5); t2p->pdf_datetime[7] = *(datetime + 6); t2p->pdf_datetime[8] = *(datetime + 8); t2p->pdf_datetime[9] = *(datetime + 9); t2p->pdf_datetime[10] = *(datetime + 11); t2p->pdf_datetime[11] = *(datetime + 12); t2p->pdf_datetime[12] = *(datetime + 14); t2p->pdf_datetime[13] = *(datetime + 15); t2p->pdf_datetime[14] = *(datetime + 17); t2p->pdf_datetime[15] = *(datetime + 18); t2p->pdf_datetime[16] = (char )'\000'; } else { t2p_pdf_currenttime(t2p); } } else { t2p_pdf_currenttime(t2p); } return; } } tsize_t t2p_write_pdf_pages(T2P *t2p , TIFF *output ) { tsize_t written ; tdir_t i ; char buffer[16] ; int buflen ; int page ; tmsize_t tmp ; tmsize_t tmp___0 ; tmsize_t tmp___1 ; tmsize_t tmp___2 ; tmsize_t tmp___3 ; tmsize_t tmp___4 ; tmsize_t tmp___5 ; { written = (tsize_t )0; i = (tdir_t )0; buflen = 0; page = 0; tmp = t2pWriteFile(output, (void *)"<< \n/Type /Pages \n/Kids [ ", 26L); written += tmp; page = (int )(t2p->pdf_pages + 1U); i = (unsigned short)0; while ((int )i < (int )t2p->tiff_pagecount) { buflen = sprintf((char */* __restrict */)(buffer), (char const */* __restrict */)"%d", page); tmp___0 = t2pWriteFile(output, (void *)(buffer), (long )buflen); written += tmp___0; tmp___1 = t2pWriteFile(output, (void *)" 0 R ", 5L); written += tmp___1; if (((int )i + 1) % 8 == 0) { tmp___2 = t2pWriteFile(output, (void *)"\n", 1L); written += tmp___2; } else { } page += 3; page = (int )((uint32 )page + (t2p->tiff_pages + i)->page_extra); if ((t2p->tiff_pages + i)->page_tilecount > 0U) { page = (int )((ttile_t )page + 2U * (t2p->tiff_pages + i)->page_tilecount); } else { page += 2; } i = (tdir_t )((int )i + 1); } tmp___3 = t2pWriteFile(output, (void *)"] \n/Count ", 10L); written += tmp___3; _TIFFmemset((void *)(buffer), 0x00, 16L); buflen = sprintf((char */* __restrict */)(buffer), (char const */* __restrict */)"%d", t2p->tiff_pagecount); tmp___4 = t2pWriteFile(output, (void *)(buffer), (long )buflen); written += tmp___4; tmp___5 = t2pWriteFile(output, (void *)" \n>> \n", 6L); written += tmp___5; return (written); } } tsize_t t2p_write_pdf_page(uint32 object , T2P *t2p , TIFF *output ) { unsigned int i ; tsize_t written ; char buffer[16] ; int buflen ; tmsize_t tmp ; tmsize_t tmp___0 ; tmsize_t tmp___1 ; tmsize_t tmp___2 ; tmsize_t tmp___3 ; tmsize_t tmp___4 ; tmsize_t tmp___5 ; tmsize_t tmp___6 ; tmsize_t tmp___7 ; tmsize_t tmp___8 ; tmsize_t tmp___9 ; tmsize_t tmp___10 ; tmsize_t tmp___11 ; tmsize_t tmp___12 ; tmsize_t tmp___13 ; tmsize_t tmp___14 ; tmsize_t tmp___15 ; tmsize_t tmp___16 ; tmsize_t tmp___17 ; tmsize_t tmp___18 ; tmsize_t tmp___19 ; tmsize_t tmp___20 ; tmsize_t tmp___21 ; tmsize_t tmp___22 ; tmsize_t tmp___23 ; tmsize_t tmp___24 ; tmsize_t tmp___25 ; tmsize_t tmp___26 ; tmsize_t tmp___27 ; tmsize_t tmp___28 ; tmsize_t tmp___29 ; tmsize_t tmp___30 ; tmsize_t tmp___31 ; tmsize_t tmp___32 ; tmsize_t tmp___33 ; tmsize_t tmp___34 ; tmsize_t tmp___35 ; tmsize_t tmp___36 ; tmsize_t tmp___37 ; tmsize_t tmp___38 ; tmsize_t tmp___39 ; tmsize_t tmp___40 ; { i = 0U; written = (tsize_t )0; buflen = 0; tmp = t2pWriteFile(output, (void *)"<<\n/Type /Page \n/Parent ", 24L); written += tmp; buflen = sprintf((char */* __restrict */)(buffer), (char const */* __restrict */)"%lu", (unsigned long )t2p->pdf_pages); tmp___0 = t2pWriteFile(output, (void *)(buffer), (long )buflen); written += tmp___0; tmp___1 = t2pWriteFile(output, (void *)" 0 R \n", 6L); written += tmp___1; tmp___2 = t2pWriteFile(output, (void *)"/MediaBox [", 11L); written += tmp___2; buflen = sprintf((char */* __restrict */)(buffer), (char const */* __restrict */)"%.4f", t2p->pdf_mediabox.x1); tmp___3 = t2pWriteFile(output, (void *)(buffer), (long )buflen); written += tmp___3; tmp___4 = t2pWriteFile(output, (void *)" ", 1L); written += tmp___4; buflen = sprintf((char */* __restrict */)(buffer), (char const */* __restrict */)"%.4f", t2p->pdf_mediabox.y1); tmp___5 = t2pWriteFile(output, (void *)(buffer), (long )buflen); written += tmp___5; tmp___6 = t2pWriteFile(output, (void *)" ", 1L); written += tmp___6; buflen = sprintf((char */* __restrict */)(buffer), (char const */* __restrict */)"%.4f", t2p->pdf_mediabox.x2); tmp___7 = t2pWriteFile(output, (void *)(buffer), (long )buflen); written += tmp___7; tmp___8 = t2pWriteFile(output, (void *)" ", 1L); written += tmp___8; buflen = sprintf((char */* __restrict */)(buffer), (char const */* __restrict */)"%.4f", t2p->pdf_mediabox.y2); tmp___9 = t2pWriteFile(output, (void *)(buffer), (long )buflen); written += tmp___9; tmp___10 = t2pWriteFile(output, (void *)"] \n", 3L); written += tmp___10; tmp___11 = t2pWriteFile(output, (void *)"/Contents ", 10L); written += tmp___11; buflen = sprintf((char */* __restrict */)(buffer), (char const */* __restrict */)"%lu", (unsigned long )(object + 1U)); tmp___12 = t2pWriteFile(output, (void *)(buffer), (long )buflen); written += tmp___12; tmp___13 = t2pWriteFile(output, (void *)" 0 R \n", 6L); written += tmp___13; tmp___14 = t2pWriteFile(output, (void *)"/Resources << \n", 15L); written += tmp___14; if ((t2p->tiff_tiles + t2p->pdf_page)->tiles_tilecount != 0U) { tmp___15 = t2pWriteFile(output, (void *)"/XObject <<\n", 12L); written += tmp___15; i = 0U; while (i < (t2p->tiff_tiles + t2p->pdf_page)->tiles_tilecount) { tmp___16 = t2pWriteFile(output, (void *)"/Im", 3L); written += tmp___16; buflen = sprintf((char */* __restrict */)(buffer), (char const */* __restrict */)"%u", (int )t2p->pdf_page + 1); tmp___17 = t2pWriteFile(output, (void *)(buffer), (long )buflen); written += tmp___17; tmp___18 = t2pWriteFile(output, (void *)"_", 1L); written += tmp___18; buflen = sprintf((char */* __restrict */)(buffer), (char const */* __restrict */)"%u", i + 1U); tmp___19 = t2pWriteFile(output, (void *)(buffer), (long )buflen); written += tmp___19; tmp___20 = t2pWriteFile(output, (void *)" ", 1L); written += tmp___20; buflen = sprintf((char */* __restrict */)(buffer), (char const */* __restrict */)"%lu", (unsigned long )(((object + 3U) + 2U * i) + (t2p->tiff_pages + t2p->pdf_page)->page_extra)); tmp___21 = t2pWriteFile(output, (void *)(buffer), (long )buflen); written += tmp___21; tmp___22 = t2pWriteFile(output, (void *)" 0 R ", 5L); written += tmp___22; if (i % 4U == 3U) { tmp___23 = t2pWriteFile(output, (void *)"\n", 1L); written += tmp___23; } else { } i ++; } tmp___24 = t2pWriteFile(output, (void *)">>\n", 3L); written += tmp___24; } else { tmp___25 = t2pWriteFile(output, (void *)"/XObject <<\n", 12L); written += tmp___25; tmp___26 = t2pWriteFile(output, (void *)"/Im", 3L); written += tmp___26; buflen = sprintf((char */* __restrict */)(buffer), (char const */* __restrict */)"%u", (int )t2p->pdf_page + 1); tmp___27 = t2pWriteFile(output, (void *)(buffer), (long )buflen); written += tmp___27; tmp___28 = t2pWriteFile(output, (void *)" ", 1L); written += tmp___28; buflen = sprintf((char */* __restrict */)(buffer), (char const */* __restrict */)"%lu", (unsigned long )(((object + 3U) + 2U * i) + (t2p->tiff_pages + t2p->pdf_page)->page_extra)); tmp___29 = t2pWriteFile(output, (void *)(buffer), (long )buflen); written += tmp___29; tmp___30 = t2pWriteFile(output, (void *)" 0 R ", 5L); written += tmp___30; tmp___31 = t2pWriteFile(output, (void *)">>\n", 3L); written += tmp___31; } if ((int )t2p->tiff_transferfunctioncount != 0) { tmp___32 = t2pWriteFile(output, (void *)"/ExtGState <<", 13L); written += tmp___32; t2pWriteFile(output, (void *)"/GS1 ", 5L); buflen = sprintf((char */* __restrict */)(buffer), (char const */* __restrict */)"%lu", (unsigned long )(object + 3U)); tmp___33 = t2pWriteFile(output, (void *)(buffer), (long )buflen); written += tmp___33; tmp___34 = t2pWriteFile(output, (void *)" 0 R ", 5L); written += tmp___34; tmp___35 = t2pWriteFile(output, (void *)">> \n", 4L); written += tmp___35; } else { } tmp___36 = t2pWriteFile(output, (void *)"/ProcSet [ ", 11L); written += tmp___36; if ((unsigned int )t2p->pdf_colorspace == 1U) { tmp___37 = t2pWriteFile(output, (void *)"/ImageB ", 8L); written += tmp___37; } else { if ((unsigned int )t2p->pdf_colorspace == 2U) { tmp___37 = t2pWriteFile(output, (void *)"/ImageB ", 8L); written += tmp___37; } else { tmp___38 = t2pWriteFile(output, (void *)"/ImageC ", 8L); written += tmp___38; if ((unsigned int )t2p->pdf_colorspace & 4096U) { tmp___39 = t2pWriteFile(output, (void *)"/ImageI ", 8L); written += tmp___39; } else { } } } tmp___40 = t2pWriteFile(output, (void *)"]\n>>\n>>\n", 8L); written += tmp___40; return (written); } } void t2p_compose_pdf_page(T2P *t2p ) { uint32 i ; uint32 i2 ; T2P_TILE *tiles ; T2P_BOX *boxp ; uint32 tilecountx ; uint32 tilecounty ; uint32 tilewidth ; uint32 tilelength ; int istiled ; float f ; { i = (uint32 )0; i2 = (uint32 )0; tiles = (T2P_TILE *)((void *)0); boxp = (T2P_BOX *)((void *)0); tilecountx = (uint32 )0; tilecounty = (uint32 )0; tilewidth = (uint32 )0; tilelength = (uint32 )0; istiled = 0; f = (float )0; t2p->pdf_xres = t2p->tiff_xres; t2p->pdf_yres = t2p->tiff_yres; if (t2p->pdf_overrideres) { t2p->pdf_xres = t2p->pdf_defaultxres; t2p->pdf_yres = t2p->pdf_defaultyres; } else { } if ((double )t2p->pdf_xres == 0.0) { t2p->pdf_xres = t2p->pdf_defaultxres; } else { } if ((double )t2p->pdf_yres == 0.0) { t2p->pdf_yres = t2p->pdf_defaultyres; } else { } if ((int )t2p->tiff_resunit != 3) { if ((int )t2p->tiff_resunit != 2) { t2p->pdf_imagewidth = (float )t2p->tiff_width / t2p->pdf_xres; t2p->pdf_imagelength = (float )t2p->tiff_length / t2p->pdf_yres; } else { t2p->pdf_imagewidth = ((float )t2p->tiff_width * 72.0F) / t2p->pdf_xres; t2p->pdf_imagelength = ((float )t2p->tiff_length * 72.0F) / t2p->pdf_yres; } } else { t2p->pdf_imagewidth = ((float )t2p->tiff_width * 72.0F) / t2p->pdf_xres; t2p->pdf_imagelength = ((float )t2p->tiff_length * 72.0F) / t2p->pdf_yres; } if ((int )t2p->pdf_overridepagesize != 0) { t2p->pdf_pagewidth = t2p->pdf_defaultpagewidth; t2p->pdf_pagelength = t2p->pdf_defaultpagelength; } else { t2p->pdf_pagewidth = t2p->pdf_imagewidth; t2p->pdf_pagelength = t2p->pdf_imagelength; } t2p->pdf_mediabox.x1 = (float )0.0; t2p->pdf_mediabox.y1 = (float )0.0; t2p->pdf_mediabox.x2 = t2p->pdf_pagewidth; t2p->pdf_mediabox.y2 = t2p->pdf_pagelength; t2p->pdf_imagebox.x1 = (float )0.0; t2p->pdf_imagebox.y1 = (float )0.0; t2p->pdf_imagebox.x2 = t2p->pdf_imagewidth; t2p->pdf_imagebox.y2 = t2p->pdf_imagelength; if ((int )t2p->pdf_overridepagesize != 0) { t2p->pdf_imagebox.x1 += (t2p->pdf_pagewidth - t2p->pdf_imagewidth) / 2.0F; t2p->pdf_imagebox.y1 += (t2p->pdf_pagelength - t2p->pdf_imagelength) / 2.0F; t2p->pdf_imagebox.x2 += (t2p->pdf_pagewidth - t2p->pdf_imagewidth) / 2.0F; t2p->pdf_imagebox.y2 += (t2p->pdf_pagelength - t2p->pdf_imagelength) / 2.0F; } else { } if ((int )t2p->tiff_orientation > 4) { f = t2p->pdf_mediabox.x2; t2p->pdf_mediabox.x2 = t2p->pdf_mediabox.y2; t2p->pdf_mediabox.y2 = f; } else { } if ((t2p->tiff_tiles + t2p->pdf_page)->tiles_tilecount == 0U) { istiled = 0; } else { istiled = 1; } if (istiled == 0) { t2p_compose_pdf_page_orient(& t2p->pdf_imagebox, t2p->tiff_orientation); return; } else { tilewidth = (t2p->tiff_tiles + t2p->pdf_page)->tiles_tilewidth; tilelength = (t2p->tiff_tiles + t2p->pdf_page)->tiles_tilelength; tilecountx = ((t2p->tiff_width + tilewidth) - 1U) / tilewidth; (t2p->tiff_tiles + t2p->pdf_page)->tiles_tilecountx = tilecountx; tilecounty = ((t2p->tiff_length + tilelength) - 1U) / tilelength; (t2p->tiff_tiles + t2p->pdf_page)->tiles_tilecounty = tilecounty; (t2p->tiff_tiles + t2p->pdf_page)->tiles_edgetilewidth = t2p->tiff_width % tilewidth; (t2p->tiff_tiles + t2p->pdf_page)->tiles_edgetilelength = t2p->tiff_length % tilelength; tiles = (t2p->tiff_tiles + t2p->pdf_page)->tiles_tiles; i2 = 0U; while (i2 < tilecounty - 1U) { i = 0U; while (i < tilecountx - 1U) { boxp = & (tiles + (i2 * tilecountx + i))->tile_box; boxp->x1 = t2p->pdf_imagebox.x1 + ((t2p->pdf_imagewidth * (float )i) * (float )tilewidth) / (float )t2p->tiff_width; boxp->x2 = t2p->pdf_imagebox.x1 + ((t2p->pdf_imagewidth * (float )(i + 1U)) * (float )tilewidth) / (float )t2p->tiff_width; boxp->y1 = t2p->pdf_imagebox.y2 - ((t2p->pdf_imagelength * (float )(i2 + 1U)) * (float )tilelength) / (float )t2p->tiff_length; boxp->y2 = t2p->pdf_imagebox.y2 - ((t2p->pdf_imagelength * (float )i2) * (float )tilelength) / (float )t2p->tiff_length; i ++; } boxp = & (tiles + (i2 * tilecountx + i))->tile_box; boxp->x1 = t2p->pdf_imagebox.x1 + ((t2p->pdf_imagewidth * (float )i) * (float )tilewidth) / (float )t2p->tiff_width; boxp->x2 = t2p->pdf_imagebox.x2; boxp->y1 = t2p->pdf_imagebox.y2 - ((t2p->pdf_imagelength * (float )(i2 + 1U)) * (float )tilelength) / (float )t2p->tiff_length; boxp->y2 = t2p->pdf_imagebox.y2 - ((t2p->pdf_imagelength * (float )i2) * (float )tilelength) / (float )t2p->tiff_length; i2 ++; } i = 0U; while (i < tilecountx - 1U) { boxp = & (tiles + (i2 * tilecountx + i))->tile_box; boxp->x1 = t2p->pdf_imagebox.x1 + ((t2p->pdf_imagewidth * (float )i) * (float )tilewidth) / (float )t2p->tiff_width; boxp->x2 = t2p->pdf_imagebox.x1 + ((t2p->pdf_imagewidth * (float )(i + 1U)) * (float )tilewidth) / (float )t2p->tiff_width; boxp->y1 = t2p->pdf_imagebox.y1; boxp->y2 = t2p->pdf_imagebox.y2 - ((t2p->pdf_imagelength * (float )i2) * (float )tilelength) / (float )t2p->tiff_length; i ++; } boxp = & (tiles + (i2 * tilecountx + i))->tile_box; boxp->x1 = t2p->pdf_imagebox.x1 + ((t2p->pdf_imagewidth * (float )i) * (float )tilewidth) / (float )t2p->tiff_width; boxp->x2 = t2p->pdf_imagebox.x2; boxp->y1 = t2p->pdf_imagebox.y1; boxp->y2 = t2p->pdf_imagebox.y2 - ((t2p->pdf_imagelength * (float )i2) * (float )tilelength) / (float )t2p->tiff_length; } if ((int )t2p->tiff_orientation == 0) { goto _L; } else { if ((int )t2p->tiff_orientation == 1) { _L: /* CIL Label */ i = 0U; while (i < (t2p->tiff_tiles + t2p->pdf_page)->tiles_tilecount) { t2p_compose_pdf_page_orient(& (tiles + i)->tile_box, (unsigned short)0); i ++; } return; } else { } } i = 0U; while (i < (t2p->tiff_tiles + t2p->pdf_page)->tiles_tilecount) { boxp = & (tiles + i)->tile_box; boxp->x1 -= t2p->pdf_imagebox.x1; boxp->x2 -= t2p->pdf_imagebox.x1; boxp->y1 -= t2p->pdf_imagebox.y1; boxp->y2 -= t2p->pdf_imagebox.y1; if ((int )t2p->tiff_orientation == 2) { boxp->x1 = (t2p->pdf_imagebox.x2 - t2p->pdf_imagebox.x1) - boxp->x1; boxp->x2 = (t2p->pdf_imagebox.x2 - t2p->pdf_imagebox.x1) - boxp->x2; } else { if ((int )t2p->tiff_orientation == 3) { boxp->x1 = (t2p->pdf_imagebox.x2 - t2p->pdf_imagebox.x1) - boxp->x1; boxp->x2 = (t2p->pdf_imagebox.x2 - t2p->pdf_imagebox.x1) - boxp->x2; } else { } } if ((int )t2p->tiff_orientation == 3) { boxp->y1 = (t2p->pdf_imagebox.y2 - t2p->pdf_imagebox.y1) - boxp->y1; boxp->y2 = (t2p->pdf_imagebox.y2 - t2p->pdf_imagebox.y1) - boxp->y2; } else { if ((int )t2p->tiff_orientation == 4) { boxp->y1 = (t2p->pdf_imagebox.y2 - t2p->pdf_imagebox.y1) - boxp->y1; boxp->y2 = (t2p->pdf_imagebox.y2 - t2p->pdf_imagebox.y1) - boxp->y2; } else { } } if ((int )t2p->tiff_orientation == 8) { boxp->y1 = (t2p->pdf_imagebox.y2 - t2p->pdf_imagebox.y1) - boxp->y1; boxp->y2 = (t2p->pdf_imagebox.y2 - t2p->pdf_imagebox.y1) - boxp->y2; } else { if ((int )t2p->tiff_orientation == 5) { boxp->y1 = (t2p->pdf_imagebox.y2 - t2p->pdf_imagebox.y1) - boxp->y1; boxp->y2 = (t2p->pdf_imagebox.y2 - t2p->pdf_imagebox.y1) - boxp->y2; } else { } } if ((int )t2p->tiff_orientation == 5) { boxp->x1 = (t2p->pdf_imagebox.x2 - t2p->pdf_imagebox.x1) - boxp->x1; boxp->x2 = (t2p->pdf_imagebox.x2 - t2p->pdf_imagebox.x1) - boxp->x2; } else { if ((int )t2p->tiff_orientation == 6) { boxp->x1 = (t2p->pdf_imagebox.x2 - t2p->pdf_imagebox.x1) - boxp->x1; boxp->x2 = (t2p->pdf_imagebox.x2 - t2p->pdf_imagebox.x1) - boxp->x2; } else { } } if ((int )t2p->tiff_orientation > 4) { f = boxp->x1; boxp->x1 = boxp->y1; boxp->y1 = f; f = boxp->x2; boxp->x2 = boxp->y2; boxp->y2 = f; t2p_compose_pdf_page_orient_flip(boxp, t2p->tiff_orientation); } else { t2p_compose_pdf_page_orient(boxp, t2p->tiff_orientation); } i ++; } return; } } void t2p_compose_pdf_page_orient(T2P_BOX *boxp , uint16 orientation ) { float m1[9] ; float f ; { f = (float )0.0; if (boxp->x1 > boxp->x2) { f = boxp->x1; boxp->x1 = boxp->x2; boxp->x2 = f; } else { } if (boxp->y1 > boxp->y2) { f = boxp->y1; boxp->y1 = boxp->y2; boxp->y2 = f; } else { } m1[0] = boxp->x2 - boxp->x1; boxp->mat[0] = m1[0]; m1[1] = (float )0.0; boxp->mat[1] = m1[1]; m1[2] = (float )0.0; boxp->mat[2] = m1[2]; m1[3] = (float )0.0; boxp->mat[3] = m1[3]; m1[4] = boxp->y2 - boxp->y1; boxp->mat[4] = m1[4]; m1[5] = (float )0.0; boxp->mat[5] = m1[5]; m1[6] = boxp->x1; boxp->mat[6] = m1[6]; m1[7] = boxp->y1; boxp->mat[7] = m1[7]; m1[8] = (float )1.0; boxp->mat[8] = m1[8]; switch ((int )orientation) { case 0: case 1: break; case 2: boxp->mat[0] = 0.0F - m1[0]; boxp->mat[6] += m1[0]; break; case 3: boxp->mat[0] = 0.0F - m1[0]; boxp->mat[4] = 0.0F - m1[4]; boxp->mat[6] += m1[0]; boxp->mat[7] += m1[4]; break; case 4: boxp->mat[4] = 0.0F - m1[4]; boxp->mat[7] += m1[4]; break; case 5: boxp->mat[0] = 0.0F; boxp->mat[1] = 0.0F - m1[0]; boxp->mat[3] = 0.0F - m1[4]; boxp->mat[4] = 0.0F; boxp->mat[6] += m1[4]; boxp->mat[7] += m1[0]; break; case 6: boxp->mat[0] = 0.0F; boxp->mat[1] = 0.0F - m1[0]; boxp->mat[3] = m1[4]; boxp->mat[4] = 0.0F; boxp->mat[7] += m1[0]; break; case 7: boxp->mat[0] = 0.0F; boxp->mat[1] = m1[0]; boxp->mat[3] = m1[4]; boxp->mat[4] = 0.0F; break; case 8: boxp->mat[0] = 0.0F; boxp->mat[1] = m1[0]; boxp->mat[3] = 0.0F - m1[4]; boxp->mat[4] = 0.0F; boxp->mat[6] += m1[4]; break; } return; } } void t2p_compose_pdf_page_orient_flip(T2P_BOX *boxp , uint16 orientation ) { float m1[9] ; float f ; { f = (float )0.0; if (boxp->x1 > boxp->x2) { f = boxp->x1; boxp->x1 = boxp->x2; boxp->x2 = f; } else { } if (boxp->y1 > boxp->y2) { f = boxp->y1; boxp->y1 = boxp->y2; boxp->y2 = f; } else { } m1[0] = boxp->x2 - boxp->x1; boxp->mat[0] = m1[0]; m1[1] = 0.0F; boxp->mat[1] = m1[1]; m1[2] = 0.0F; boxp->mat[2] = m1[2]; m1[3] = 0.0F; boxp->mat[3] = m1[3]; m1[4] = boxp->y2 - boxp->y1; boxp->mat[4] = m1[4]; m1[5] = 0.0F; boxp->mat[5] = m1[5]; m1[6] = boxp->x1; boxp->mat[6] = m1[6]; m1[7] = boxp->y1; boxp->mat[7] = m1[7]; m1[8] = 1.0F; boxp->mat[8] = m1[8]; switch ((int )orientation) { case 5: boxp->mat[0] = 0.0F; boxp->mat[1] = 0.0F - m1[4]; boxp->mat[3] = 0.0F - m1[0]; boxp->mat[4] = 0.0F; boxp->mat[6] += m1[0]; boxp->mat[7] += m1[4]; break; case 6: boxp->mat[0] = 0.0F; boxp->mat[1] = 0.0F - m1[4]; boxp->mat[3] = m1[0]; boxp->mat[4] = 0.0F; boxp->mat[7] += m1[4]; break; case 7: boxp->mat[0] = 0.0F; boxp->mat[1] = m1[4]; boxp->mat[3] = m1[0]; boxp->mat[4] = 0.0F; break; case 8: boxp->mat[0] = 0.0F; boxp->mat[1] = m1[4]; boxp->mat[3] = 0.0F - m1[0]; boxp->mat[4] = 0.0F; boxp->mat[6] += m1[0]; break; } return; } } tsize_t t2p_write_pdf_page_content_stream(T2P *t2p , TIFF *output ) { tsize_t written ; ttile_t i ; char buffer[512] ; int buflen ; T2P_BOX box ; char const *tmp ; tsize_t tmp___0 ; char const *tmp___1 ; tsize_t tmp___2 ; { written = (tsize_t )0; i = (ttile_t )0; buflen = 0; if ((t2p->tiff_tiles + t2p->pdf_page)->tiles_tilecount > 0U) { i = 0U; while (i < (t2p->tiff_tiles + t2p->pdf_page)->tiles_tilecount) { box = ((t2p->tiff_tiles + t2p->pdf_page)->tiles_tiles + i)->tile_box; if (t2p->tiff_transferfunctioncount) { tmp = "/GS1 gs "; } else { tmp = ""; } buflen = sprintf((char */* __restrict */)(buffer), (char const */* __restrict */)"q %s %.4f %.4f %.4f %.4f %.4f %.4f cm /Im%d_%ld Do Q\n", tmp, box.mat[0], box.mat[1], box.mat[3], box.mat[4], box.mat[6], box.mat[7], (int )t2p->pdf_page + 1, (long )(i + 1U)); tmp___0 = t2p_write_pdf_stream((void *)(buffer), (long )buflen, output); written += tmp___0; i ++; } } else { box = t2p->pdf_imagebox; if (t2p->tiff_transferfunctioncount) { tmp___1 = "/GS1 gs "; } else { tmp___1 = ""; } buflen = sprintf((char */* __restrict */)(buffer), (char const */* __restrict */)"q %s %.4f %.4f %.4f %.4f %.4f %.4f cm /Im%d Do Q\n", tmp___1, box.mat[0], box.mat[1], box.mat[3], box.mat[4], box.mat[6], box.mat[7], (int )t2p->pdf_page + 1); tmp___2 = t2p_write_pdf_stream((void *)(buffer), (long )buflen, output); written += tmp___2; } return (written); } } tsize_t t2p_write_pdf_xobject_stream_dict(ttile_t tile , T2P *t2p , TIFF *output ) { tsize_t written ; char buffer[16] ; int buflen ; tsize_t tmp ; tmsize_t tmp___0 ; tmsize_t tmp___1 ; tmsize_t tmp___2 ; tmsize_t tmp___3 ; tmsize_t tmp___4 ; int tmp___5 ; tmsize_t tmp___6 ; tmsize_t tmp___7 ; int tmp___8 ; tmsize_t tmp___9 ; tmsize_t tmp___10 ; tmsize_t tmp___11 ; tmsize_t tmp___12 ; tsize_t tmp___13 ; tmsize_t tmp___14 ; tsize_t tmp___15 ; tsize_t tmp___16 ; { written = (tsize_t )0; buflen = 0; tmp = t2p_write_pdf_stream_dict(0L, t2p->pdf_xrefcount + 1U, output); written += tmp; tmp___0 = t2pWriteFile(output, (void *)"/Type /XObject \n/Subtype /Image \n/Name /Im", 42L); written += tmp___0; buflen = sprintf((char */* __restrict */)(buffer), (char const */* __restrict */)"%u", (int )t2p->pdf_page + 1); tmp___1 = t2pWriteFile(output, (void *)(buffer), (long )buflen); written += tmp___1; if (tile != 0U) { tmp___2 = t2pWriteFile(output, (void *)"_", 1L); written += tmp___2; buflen = sprintf((char */* __restrict */)(buffer), (char const */* __restrict */)"%lu", (unsigned long )tile); tmp___3 = t2pWriteFile(output, (void *)(buffer), (long )buflen); written += tmp___3; } else { } tmp___4 = t2pWriteFile(output, (void *)"\n/Width ", 8L); written += tmp___4; _TIFFmemset((void *)(buffer), 0x00, 16L); if (tile == 0U) { buflen = sprintf((char */* __restrict */)(buffer), (char const */* __restrict */)"%lu", (unsigned long )t2p->tiff_width); } else { tmp___5 = t2p_tile_is_right_edge(*(t2p->tiff_tiles + t2p->pdf_page), tile - 1U); if (tmp___5 != 0) { buflen = sprintf((char */* __restrict */)(buffer), (char const */* __restrict */)"%lu", (unsigned long )(t2p->tiff_tiles + t2p->pdf_page)->tiles_edgetilewidth); } else { buflen = sprintf((char */* __restrict */)(buffer), (char const */* __restrict */)"%lu", (unsigned long )(t2p->tiff_tiles + t2p->pdf_page)->tiles_tilewidth); } } tmp___6 = t2pWriteFile(output, (void *)(buffer), (long )buflen); written += tmp___6; tmp___7 = t2pWriteFile(output, (void *)"\n/Height ", 9L); written += tmp___7; _TIFFmemset((void *)(buffer), 0x00, 16L); if (tile == 0U) { buflen = sprintf((char */* __restrict */)(buffer), (char const */* __restrict */)"%lu", (unsigned long )t2p->tiff_length); } else { tmp___8 = t2p_tile_is_bottom_edge(*(t2p->tiff_tiles + t2p->pdf_page), tile - 1U); if (tmp___8 != 0) { buflen = sprintf((char */* __restrict */)(buffer), (char const */* __restrict */)"%lu", (unsigned long )(t2p->tiff_tiles + t2p->pdf_page)->tiles_edgetilelength); } else { buflen = sprintf((char */* __restrict */)(buffer), (char const */* __restrict */)"%lu", (unsigned long )(t2p->tiff_tiles + t2p->pdf_page)->tiles_tilelength); } } tmp___9 = t2pWriteFile(output, (void *)(buffer), (long )buflen); written += tmp___9; tmp___10 = t2pWriteFile(output, (void *)"\n/BitsPerComponent ", 19L); written += tmp___10; _TIFFmemset((void *)(buffer), 0x00, 16L); buflen = sprintf((char */* __restrict */)(buffer), (char const */* __restrict */)"%u", t2p->tiff_bitspersample); tmp___11 = t2pWriteFile(output, (void *)(buffer), (long )buflen); written += tmp___11; tmp___12 = t2pWriteFile(output, (void *)"\n/ColorSpace ", 13L); written += tmp___12; tmp___13 = t2p_write_pdf_xobject_cs(t2p, output); written += tmp___13; if (t2p->pdf_image_interpolate) { tmp___14 = t2pWriteFile(output, (void *)"\n/Interpolate true", 18L); written += tmp___14; } else { } if ((int )t2p->pdf_switchdecode != 0) { if ((unsigned int )t2p->pdf_colorspace == 1U) { if ((unsigned int )t2p->pdf_compression == 1U) { } else { tmp___15 = t2p_write_pdf_xobject_decode(t2p, output); written += tmp___15; } } else { tmp___15 = t2p_write_pdf_xobject_decode(t2p, output); written += tmp___15; } } else { } tmp___16 = t2p_write_pdf_xobject_stream_filter(tile, t2p, output); written += tmp___16; return (written); } } tsize_t t2p_write_pdf_xobject_cs(T2P *t2p , TIFF *output ) { tsize_t written ; char buffer[128] ; int buflen ; float X_W ; float Y_W ; float Z_W ; tsize_t tmp ; tmsize_t tmp___0 ; tsize_t tmp___1 ; tmsize_t tmp___2 ; tmsize_t tmp___3 ; tmsize_t tmp___4 ; tmsize_t tmp___5 ; tmsize_t tmp___6 ; tsize_t tmp___7 ; tmsize_t tmp___8 ; tsize_t tmp___9 ; tmsize_t tmp___10 ; tmsize_t tmp___11 ; tmsize_t tmp___12 ; tmsize_t tmp___13 ; tmsize_t tmp___14 ; tmsize_t tmp___15 ; tmsize_t tmp___16 ; tmsize_t tmp___17 ; tmsize_t tmp___18 ; { written = (tsize_t )0; buflen = 0; X_W = (float )1.0; Y_W = (float )1.0; Z_W = (float )1.0; if (((unsigned int )t2p->pdf_colorspace & 128U) != 0U) { tmp = t2p_write_pdf_xobject_icccs(t2p, output); written += tmp; return (written); } else { } if (((unsigned int )t2p->pdf_colorspace & 4096U) != 0U) { tmp___0 = t2pWriteFile(output, (void *)"[ /Indexed ", 11L); written += tmp___0; t2p->pdf_colorspace = (enum __anonenum_t2p_cs_t_50 )((unsigned int )t2p->pdf_colorspace ^ 4096U); tmp___1 = t2p_write_pdf_xobject_cs(t2p, output); written += tmp___1; t2p->pdf_colorspace = (enum __anonenum_t2p_cs_t_50 )((unsigned int )t2p->pdf_colorspace | 4096U); buflen = sprintf((char */* __restrict */)(buffer), (char const */* __restrict */)"%u", (0x0001 << (int )t2p->tiff_bitspersample) - 1); tmp___2 = t2pWriteFile(output, (void *)(buffer), (long )buflen); written += tmp___2; tmp___3 = t2pWriteFile(output, (void *)" ", 1L); written += tmp___3; _TIFFmemset((void *)(buffer), 0x00, 16L); buflen = sprintf((char */* __restrict */)(buffer), (char const */* __restrict */)"%lu", (unsigned long )t2p->pdf_palettecs); tmp___4 = t2pWriteFile(output, (void *)(buffer), (long )buflen); written += tmp___4; tmp___5 = t2pWriteFile(output, (void *)" 0 R ]\n", 7L); written += tmp___5; return (written); } else { } if ((unsigned int )t2p->pdf_colorspace & 1U) { tmp___6 = t2pWriteFile(output, (void *)"/DeviceGray \n", 13L); written += tmp___6; } else { } if ((unsigned int )t2p->pdf_colorspace & 2U) { if ((unsigned int )t2p->pdf_colorspace & 32U) { tmp___7 = t2p_write_pdf_xobject_calcs(t2p, output); written += tmp___7; } else { tmp___8 = t2pWriteFile(output, (void *)"/DeviceGray \n", 13L); written += tmp___8; } } else { } if ((unsigned int )t2p->pdf_colorspace & 4U) { if ((unsigned int )t2p->pdf_colorspace & 64U) { tmp___9 = t2p_write_pdf_xobject_calcs(t2p, output); written += tmp___9; } else { tmp___10 = t2pWriteFile(output, (void *)"/DeviceRGB \n", 12L); written += tmp___10; } } else { } if ((unsigned int )t2p->pdf_colorspace & 8U) { tmp___11 = t2pWriteFile(output, (void *)"/DeviceCMYK \n", 13L); written += tmp___11; } else { } if ((unsigned int )t2p->pdf_colorspace & 16U) { tmp___12 = t2pWriteFile(output, (void *)"[/Lab << \n", 10L); written += tmp___12; tmp___13 = t2pWriteFile(output, (void *)"/WhitePoint ", 12L); written += tmp___13; X_W = t2p->tiff_whitechromaticities[0]; Y_W = t2p->tiff_whitechromaticities[1]; Z_W = 1.0F - (X_W + Y_W); X_W /= Y_W; Z_W /= Y_W; Y_W = 1.0F; buflen = sprintf((char */* __restrict */)(buffer), (char const */* __restrict */)"[%.4f %.4f %.4f] \n", X_W, Y_W, Z_W); tmp___14 = t2pWriteFile(output, (void *)(buffer), (long )buflen); written += tmp___14; X_W = 0.3457F; Y_W = 0.3585F; Z_W = 1.0F - (X_W + Y_W); X_W /= Y_W; Z_W /= Y_W; Y_W = 1.0F; buflen = sprintf((char */* __restrict */)(buffer), (char const */* __restrict */)"[%.4f %.4f %.4f] \n", X_W, Y_W, Z_W); tmp___15 = t2pWriteFile(output, (void *)(buffer), (long )buflen); written += tmp___15; tmp___16 = t2pWriteFile(output, (void *)"/Range ", 7L); written += tmp___16; buflen = sprintf((char */* __restrict */)(buffer), (char const */* __restrict */)"[%d %d %d %d] \n", t2p->pdf_labrange[0], t2p->pdf_labrange[1], t2p->pdf_labrange[2], t2p->pdf_labrange[3]); tmp___17 = t2pWriteFile(output, (void *)(buffer), (long )buflen); written += tmp___17; tmp___18 = t2pWriteFile(output, (void *)">>] \n", 5L); written += tmp___18; } else { } return (written); } } tsize_t t2p_write_pdf_transfer(T2P *t2p , TIFF *output ) { tsize_t written ; char buffer[16] ; int buflen ; tmsize_t tmp ; tmsize_t tmp___0 ; tmsize_t tmp___1 ; tmsize_t tmp___2 ; tmsize_t tmp___3 ; tmsize_t tmp___4 ; tmsize_t tmp___5 ; tmsize_t tmp___6 ; tmsize_t tmp___7 ; tmsize_t tmp___8 ; tmsize_t tmp___9 ; tmsize_t tmp___10 ; { written = (tsize_t )0; buflen = 0; tmp = t2pWriteFile(output, (void *)"<< /Type /ExtGState \n/TR ", 25L); written += tmp; if ((int )t2p->tiff_transferfunctioncount == 1) { buflen = sprintf((char */* __restrict */)(buffer), (char const */* __restrict */)"%lu", (unsigned long )(t2p->pdf_xrefcount + 1U)); tmp___0 = t2pWriteFile(output, (void *)(buffer), (long )buflen); written += tmp___0; tmp___1 = t2pWriteFile(output, (void *)" 0 R ", 5L); written += tmp___1; } else { tmp___2 = t2pWriteFile(output, (void *)"[ ", 2L); written += tmp___2; buflen = sprintf((char */* __restrict */)(buffer), (char const */* __restrict */)"%lu", (unsigned long )(t2p->pdf_xrefcount + 1U)); tmp___3 = t2pWriteFile(output, (void *)(buffer), (long )buflen); written += tmp___3; tmp___4 = t2pWriteFile(output, (void *)" 0 R ", 5L); written += tmp___4; buflen = sprintf((char */* __restrict */)(buffer), (char const */* __restrict */)"%lu", (unsigned long )(t2p->pdf_xrefcount + 2U)); tmp___5 = t2pWriteFile(output, (void *)(buffer), (long )buflen); written += tmp___5; tmp___6 = t2pWriteFile(output, (void *)" 0 R ", 5L); written += tmp___6; buflen = sprintf((char */* __restrict */)(buffer), (char const */* __restrict */)"%lu", (unsigned long )(t2p->pdf_xrefcount + 3U)); tmp___7 = t2pWriteFile(output, (void *)(buffer), (long )buflen); written += tmp___7; tmp___8 = t2pWriteFile(output, (void *)" 0 R ", 5L); written += tmp___8; tmp___9 = t2pWriteFile(output, (void *)"/Identity ] ", 12L); written += tmp___9; } tmp___10 = t2pWriteFile(output, (void *)" >> \n", 5L); written += tmp___10; return (written); } } tsize_t t2p_write_pdf_transfer_dict(T2P *t2p , TIFF *output , uint16 i ) { tsize_t written ; char buffer[32] ; int buflen ; tmsize_t tmp ; tmsize_t tmp___0 ; tmsize_t tmp___1 ; tmsize_t tmp___2 ; tmsize_t tmp___3 ; tsize_t tmp___4 ; { written = (tsize_t )0; buflen = 0; tmp = t2pWriteFile(output, (void *)"/FunctionType 0 \n", 17L); written += tmp; tmp___0 = t2pWriteFile(output, (void *)"/Domain [0.0 1.0] \n", 19L); written += tmp___0; tmp___1 = t2pWriteFile(output, (void *)"/Range [0.0 1.0] \n", 18L); written += tmp___1; buflen = sprintf((char */* __restrict */)(buffer), (char const */* __restrict */)"/Size [%u] \n", 1 << (int )t2p->tiff_bitspersample); tmp___2 = t2pWriteFile(output, (void *)(buffer), (long )buflen); written += tmp___2; tmp___3 = t2pWriteFile(output, (void *)"/BitsPerSample 16 \n", 19L); written += tmp___3; tmp___4 = t2p_write_pdf_stream_dict(1L << ((int )t2p->tiff_bitspersample + 1), 0U, output); written += tmp___4; return (written); } } tsize_t t2p_write_pdf_transfer_stream(T2P *t2p , TIFF *output , uint16 i ) { tsize_t written ; tsize_t tmp ; { written = (tsize_t )0; tmp = t2p_write_pdf_stream((void *)t2p->tiff_transferfunction[i], 1L << ((int )t2p->tiff_bitspersample + 1), output); written += tmp; return (written); } } tsize_t t2p_write_pdf_xobject_calcs(T2P *t2p , TIFF *output ) { tsize_t written ; char buffer[128] ; int buflen ; float X_W ; float Y_W ; float Z_W ; float X_R ; float Y_R ; float Z_R ; float X_G ; float Y_G ; float Z_G ; float X_B ; float Y_B ; float Z_B ; float x_w ; float y_w ; float z_w ; float x_r ; float y_r ; float x_g ; float y_g ; float x_b ; float y_b ; float R ; float G ; float B ; tmsize_t tmp ; tmsize_t tmp___0 ; tmsize_t tmp___1 ; tmsize_t tmp___2 ; tmsize_t tmp___3 ; tmsize_t tmp___4 ; tmsize_t tmp___5 ; tmsize_t tmp___6 ; tmsize_t tmp___7 ; tmsize_t tmp___8 ; tmsize_t tmp___9 ; tmsize_t tmp___10 ; tmsize_t tmp___11 ; { written = (tsize_t )0; buflen = 0; X_W = (float )0.0; Y_W = (float )0.0; Z_W = (float )0.0; X_R = (float )0.0; Y_R = (float )0.0; Z_R = (float )0.0; X_G = (float )0.0; Y_G = (float )0.0; Z_G = (float )0.0; X_B = (float )0.0; Y_B = (float )0.0; Z_B = (float )0.0; x_w = (float )0.0; y_w = (float )0.0; z_w = (float )0.0; x_r = (float )0.0; y_r = (float )0.0; x_g = (float )0.0; y_g = (float )0.0; x_b = (float )0.0; y_b = (float )0.0; R = (float )1.0; G = (float )1.0; B = (float )1.0; tmp = t2pWriteFile(output, (void *)"[", 1L); written += tmp; if ((unsigned int )t2p->pdf_colorspace & 32U) { tmp___0 = t2pWriteFile(output, (void *)"/CalGray ", 9L); written += tmp___0; X_W = t2p->tiff_whitechromaticities[0]; Y_W = t2p->tiff_whitechromaticities[1]; Z_W = 1.0F - (X_W + Y_W); X_W /= Y_W; Z_W /= Y_W; Y_W = 1.0F; } else { } if ((unsigned int )t2p->pdf_colorspace & 64U) { tmp___1 = t2pWriteFile(output, (void *)"/CalRGB ", 8L); written += tmp___1; x_w = t2p->tiff_whitechromaticities[0]; y_w = t2p->tiff_whitechromaticities[1]; x_r = t2p->tiff_primarychromaticities[0]; y_r = t2p->tiff_primarychromaticities[1]; x_g = t2p->tiff_primarychromaticities[2]; y_g = t2p->tiff_primarychromaticities[3]; x_b = t2p->tiff_primarychromaticities[4]; y_b = t2p->tiff_primarychromaticities[5]; z_w = y_w * (((x_g - x_b) * y_r - (x_r - x_b) * y_g) + (x_r - x_g) * y_b); Y_R = ((y_r / R) * (((x_g - x_b) * y_w - (x_w - x_b) * y_g) + (x_w - x_g) * y_b)) / z_w; X_R = (Y_R * x_r) / y_r; Z_R = Y_R * (((float )1 - x_r) / y_r - (float )1); Y_G = (((0.0F - y_g) / G) * (((x_r - x_b) * y_w - (x_w - x_b) * y_r) + (x_w - x_r) * y_b)) / z_w; X_G = (Y_G * x_g) / y_g; Z_G = Y_G * (((float )1 - x_g) / y_g - (float )1); Y_B = ((y_b / B) * (((x_r - x_g) * y_w - (x_w - x_g) * y_r) + (x_w - x_r) * y_g)) / z_w; X_B = (Y_B * x_b) / y_b; Z_B = Y_B * (((float )1 - x_b) / y_b - (float )1); X_W = (X_R * R + X_G * G) + X_B * B; Y_W = (Y_R * R + Y_G * G) + Y_B * B; Z_W = (Z_R * R + Z_G * G) + Z_B * B; X_W /= Y_W; Z_W /= Y_W; Y_W = (float )1.0; } else { } tmp___2 = t2pWriteFile(output, (void *)"<< \n", 4L); written += tmp___2; if ((unsigned int )t2p->pdf_colorspace & 32U) { tmp___3 = t2pWriteFile(output, (void *)"/WhitePoint ", 12L); written += tmp___3; buflen = sprintf((char */* __restrict */)(buffer), (char const */* __restrict */)"[%.4f %.4f %.4f] \n", X_W, Y_W, Z_W); tmp___4 = t2pWriteFile(output, (void *)(buffer), (long )buflen); written += tmp___4; tmp___5 = t2pWriteFile(output, (void *)"/Gamma 2.2 \n", 12L); written += tmp___5; } else { } if ((unsigned int )t2p->pdf_colorspace & 64U) { tmp___6 = t2pWriteFile(output, (void *)"/WhitePoint ", 12L); written += tmp___6; buflen = sprintf((char */* __restrict */)(buffer), (char const */* __restrict */)"[%.4f %.4f %.4f] \n", X_W, Y_W, Z_W); tmp___7 = t2pWriteFile(output, (void *)(buffer), (long )buflen); written += tmp___7; tmp___8 = t2pWriteFile(output, (void *)"/Matrix ", 8L); written += tmp___8; buflen = sprintf((char */* __restrict */)(buffer), (char const */* __restrict */)"[%.4f %.4f %.4f %.4f %.4f %.4f %.4f %.4f %.4f] \n", X_R, Y_R, Z_R, X_G, Y_G, Z_G, X_B, Y_B, Z_B); tmp___9 = t2pWriteFile(output, (void *)(buffer), (long )buflen); written += tmp___9; tmp___10 = t2pWriteFile(output, (void *)"/Gamma [2.2 2.2 2.2] \n", 22L); written += tmp___10; } else { } tmp___11 = t2pWriteFile(output, (void *)">>] \n", 5L); written += tmp___11; return (written); } } tsize_t t2p_write_pdf_xobject_icccs(T2P *t2p , TIFF *output ) { tsize_t written ; char buffer[16] ; int buflen ; tmsize_t tmp ; tmsize_t tmp___0 ; tmsize_t tmp___1 ; { written = (tsize_t )0; buflen = 0; tmp = t2pWriteFile(output, (void *)"[/ICCBased ", 11L); written += tmp; buflen = sprintf((char */* __restrict */)(buffer), (char const */* __restrict */)"%lu", (unsigned long )t2p->pdf_icccs); tmp___0 = t2pWriteFile(output, (void *)(buffer), (long )buflen); written += tmp___0; tmp___1 = t2pWriteFile(output, (void *)" 0 R] \n", 7L); written += tmp___1; return (written); } } tsize_t t2p_write_pdf_xobject_icccs_dict(T2P *t2p , TIFF *output ) { tsize_t written ; char buffer[16] ; int buflen ; tmsize_t tmp ; tmsize_t tmp___0 ; tmsize_t tmp___1 ; tsize_t tmp___2 ; tsize_t tmp___3 ; { written = (tsize_t )0; buflen = 0; tmp = t2pWriteFile(output, (void *)"/N ", 3L); written += tmp; buflen = sprintf((char */* __restrict */)(buffer), (char const */* __restrict */)"%u \n", t2p->tiff_samplesperpixel); tmp___0 = t2pWriteFile(output, (void *)(buffer), (long )buflen); written += tmp___0; tmp___1 = t2pWriteFile(output, (void *)"/Alternate ", 11L); written += tmp___1; t2p->pdf_colorspace = (enum __anonenum_t2p_cs_t_50 )((unsigned int )t2p->pdf_colorspace ^ 128U); tmp___2 = t2p_write_pdf_xobject_cs(t2p, output); written += tmp___2; t2p->pdf_colorspace = (enum __anonenum_t2p_cs_t_50 )((unsigned int )t2p->pdf_colorspace | 128U); tmp___3 = t2p_write_pdf_stream_dict((long )t2p->tiff_iccprofilelength, 0U, output); written += tmp___3; return (written); } } tsize_t t2p_write_pdf_xobject_icccs_stream(T2P *t2p , TIFF *output ) { tsize_t written ; tsize_t tmp ; { written = (tsize_t )0; tmp = t2p_write_pdf_stream(t2p->tiff_iccprofile, (long )t2p->tiff_iccprofilelength, output); written += tmp; return (written); } } tsize_t t2p_write_pdf_xobject_palettecs_stream(T2P *t2p , TIFF *output ) { tsize_t written ; tsize_t tmp ; { written = (tsize_t )0; tmp = t2p_write_pdf_stream((void *)t2p->pdf_palette, (long )t2p->pdf_palettesize, output); written += tmp; return (written); } } tsize_t t2p_write_pdf_xobject_decode(T2P *t2p , TIFF *output ) { tsize_t written ; int i ; tmsize_t tmp ; tmsize_t tmp___0 ; tmsize_t tmp___1 ; { written = (tsize_t )0; i = 0; tmp = t2pWriteFile(output, (void *)"/Decode [ ", 10L); written += tmp; i = 0; while (i < (int )t2p->tiff_samplesperpixel) { tmp___0 = t2pWriteFile(output, (void *)"1 0 ", 4L); written += tmp___0; i ++; } tmp___1 = t2pWriteFile(output, (void *)"]\n", 2L); written += tmp___1; return (written); } } tsize_t t2p_write_pdf_xobject_stream_filter(ttile_t tile , T2P *t2p , TIFF *output ) { tsize_t written ; char buffer[16] ; int buflen ; tmsize_t tmp ; tmsize_t tmp___0 ; tmsize_t tmp___1 ; tmsize_t tmp___2 ; tmsize_t tmp___3 ; tmsize_t tmp___4 ; tmsize_t tmp___5 ; tmsize_t tmp___6 ; tmsize_t tmp___7 ; tmsize_t tmp___8 ; tmsize_t tmp___9 ; tmsize_t tmp___10 ; int tmp___11 ; tmsize_t tmp___12 ; tmsize_t tmp___13 ; tmsize_t tmp___14 ; tmsize_t tmp___15 ; int tmp___16 ; tmsize_t tmp___17 ; tmsize_t tmp___18 ; tmsize_t tmp___19 ; tmsize_t tmp___20 ; tmsize_t tmp___21 ; tmsize_t tmp___22 ; tmsize_t tmp___23 ; tmsize_t tmp___24 ; tmsize_t tmp___25 ; tmsize_t tmp___26 ; tmsize_t tmp___27 ; tmsize_t tmp___28 ; tmsize_t tmp___29 ; { written = (tsize_t )0; buflen = 0; if ((unsigned int )t2p->pdf_compression == 0U) { return (written); } else { } tmp = t2pWriteFile(output, (void *)"/Filter ", 8L); written += tmp; switch ((int )t2p->pdf_compression) { case 1: tmp___0 = t2pWriteFile(output, (void *)"/CCITTFaxDecode ", 16L); written += tmp___0; tmp___1 = t2pWriteFile(output, (void *)"/DecodeParms ", 13L); written += tmp___1; tmp___2 = t2pWriteFile(output, (void *)"<< /K -1 ", 9L); written += tmp___2; if (tile == 0U) { { tmp___3 = t2pWriteFile(output, (void *)"/Columns ", 9L); } written += tmp___3; buflen = sprintf((char */* __restrict */)(buffer), (char const */* __restrict */)"%lu", (unsigned long )t2p->tiff_width); tmp___4 = t2pWriteFile(output, (void *)(buffer), (long )buflen); written += tmp___4; tmp___5 = t2pWriteFile(output, (void *)" /Rows ", 7L); written += tmp___5; buflen = sprintf((char */* __restrict */)(buffer), (char const */* __restrict */)"%lu", (unsigned long )t2p->tiff_length); tmp___6 = t2pWriteFile(output, (void *)(buffer), (long )buflen); written += tmp___6; } else { tmp___11 = t2p_tile_is_right_edge(*(t2p->tiff_tiles + t2p->pdf_page), tile - 1U); if (tmp___11 == 0) { tmp___7 = t2pWriteFile(output, (void *)"/Columns ", 9L); written += tmp___7; buflen = sprintf((char */* __restrict */)(buffer), (char const */* __restrict */)"%lu", (unsigned long )(t2p->tiff_tiles + t2p->pdf_page)->tiles_tilewidth); tmp___8 = t2pWriteFile(output, (void *)(buffer), (long )buflen); written += tmp___8; } else { tmp___9 = t2pWriteFile(output, (void *)"/Columns ", 9L); written += tmp___9; buflen = sprintf((char */* __restrict */)(buffer), (char const */* __restrict */)"%lu", (unsigned long )(t2p->tiff_tiles + t2p->pdf_page)->tiles_edgetilewidth); tmp___10 = t2pWriteFile(output, (void *)(buffer), (long )buflen); written += tmp___10; } tmp___16 = t2p_tile_is_bottom_edge(*(t2p->tiff_tiles + t2p->pdf_page), tile - 1U); if (tmp___16 == 0) { tmp___12 = t2pWriteFile(output, (void *)" /Rows ", 7L); written += tmp___12; buflen = sprintf((char */* __restrict */)(buffer), (char const */* __restrict */)"%lu", (unsigned long )(t2p->tiff_tiles + t2p->pdf_page)->tiles_tilelength); tmp___13 = t2pWriteFile(output, (void *)(buffer), (long )buflen); written += tmp___13; } else { tmp___14 = t2pWriteFile(output, (void *)" /Rows ", 7L); written += tmp___14; buflen = sprintf((char */* __restrict */)(buffer), (char const */* __restrict */)"%lu", (unsigned long )(t2p->tiff_tiles + t2p->pdf_page)->tiles_edgetilelength); tmp___15 = t2pWriteFile(output, (void *)(buffer), (long )buflen); written += tmp___15; } } if ((int )t2p->pdf_switchdecode == 0) { tmp___17 = t2pWriteFile(output, (void *)" /BlackIs1 true ", 16L); written += tmp___17; } else { } tmp___18 = t2pWriteFile(output, (void *)">>\n", 3L); written += tmp___18; break; case 4: tmp___19 = t2pWriteFile(output, (void *)"/FlateDecode ", 13L); written += tmp___19; if ((int )t2p->pdf_compressionquality % 100) { tmp___20 = t2pWriteFile(output, (void *)"/DecodeParms ", 13L); written += tmp___20; tmp___21 = t2pWriteFile(output, (void *)"<< /Predictor ", 14L); written += tmp___21; _TIFFmemset((void *)(buffer), 0x00, 16L); buflen = sprintf((char */* __restrict */)(buffer), (char const */* __restrict */)"%u", (int )t2p->pdf_compressionquality % 100); tmp___22 = t2pWriteFile(output, (void *)(buffer), (long )buflen); written += tmp___22; tmp___23 = t2pWriteFile(output, (void *)" /Columns ", 10L); written += tmp___23; _TIFFmemset((void *)(buffer), 0x00, 16L); buflen = sprintf((char */* __restrict */)(buffer), (char const */* __restrict */)"%lu", (unsigned long )t2p->tiff_width); tmp___24 = t2pWriteFile(output, (void *)(buffer), (long )buflen); written += tmp___24; tmp___25 = t2pWriteFile(output, (void *)" /Colors ", 9L); written += tmp___25; _TIFFmemset((void *)(buffer), 0x00, 16L); buflen = sprintf((char */* __restrict */)(buffer), (char const */* __restrict */)"%u", t2p->tiff_samplesperpixel); tmp___26 = t2pWriteFile(output, (void *)(buffer), (long )buflen); written += tmp___26; tmp___27 = t2pWriteFile(output, (void *)" /BitsPerComponent ", 19L); written += tmp___27; _TIFFmemset((void *)(buffer), 0x00, 16L); buflen = sprintf((char */* __restrict */)(buffer), (char const */* __restrict */)"%u", t2p->tiff_bitspersample); tmp___28 = t2pWriteFile(output, (void *)(buffer), (long )buflen); written += tmp___28; tmp___29 = t2pWriteFile(output, (void *)">>\n", 3L); written += tmp___29; } else { } break; default: ; break; } return (written); } } tsize_t t2p_write_pdf_xreftable(T2P *t2p , TIFF *output ) { tsize_t written ; char buffer[21] ; int buflen ; uint32 i ; tmsize_t tmp ; tmsize_t tmp___0 ; tmsize_t tmp___1 ; tmsize_t tmp___2 ; { written = (tsize_t )0; buflen = 0; i = (uint32 )0; tmp = t2pWriteFile(output, (void *)"xref\n0 ", 7L); written += tmp; buflen = sprintf((char */* __restrict */)(buffer), (char const */* __restrict */)"%lu", (unsigned long )(t2p->pdf_xrefcount + 1U)); tmp___0 = t2pWriteFile(output, (void *)(buffer), (long )buflen); written += tmp___0; tmp___1 = t2pWriteFile(output, (void *)" \n0000000000 65535 f \n", 22L); written += tmp___1; i = 0U; while (i < t2p->pdf_xrefcount) { sprintf((char */* __restrict */)(buffer), (char const */* __restrict */)"%.10lu 00000 n \n", (unsigned long )*(t2p->pdf_xrefoffsets + i)); tmp___2 = t2pWriteFile(output, (void *)(buffer), 20L); written += tmp___2; i ++; } return (written); } } tsize_t t2p_write_pdf_trailer(T2P *t2p , TIFF *output ) { tsize_t written ; char buffer[32] ; int buflen ; size_t i ; int tmp ; tmsize_t tmp___0 ; tmsize_t tmp___1 ; tmsize_t tmp___2 ; tmsize_t tmp___3 ; tmsize_t tmp___4 ; tmsize_t tmp___5 ; tmsize_t tmp___6 ; tmsize_t tmp___7 ; tmsize_t tmp___8 ; tmsize_t tmp___9 ; tmsize_t tmp___10 ; tmsize_t tmp___11 ; tmsize_t tmp___12 ; { written = (tsize_t )0; buflen = 0; i = (size_t )0; i = 0U; while (i < sizeof(t2p->pdf_fileid) - 8U) { tmp = rand(); snprintf((char */* __restrict */)(t2p->pdf_fileid + i), 9U, (char const */* __restrict */)"%.8X", tmp); i += 8U; } tmp___0 = t2pWriteFile(output, (void *)"trailer\n<<\n/Size ", 17L); written += tmp___0; buflen = sprintf((char */* __restrict */)(buffer), (char const */* __restrict */)"%lu", (unsigned long )(t2p->pdf_xrefcount + 1U)); tmp___1 = t2pWriteFile(output, (void *)(buffer), (long )buflen); written += tmp___1; _TIFFmemset((void *)(buffer), 0x00, 32L); tmp___2 = t2pWriteFile(output, (void *)"\n/Root ", 7L); written += tmp___2; buflen = sprintf((char */* __restrict */)(buffer), (char const */* __restrict */)"%lu", (unsigned long )t2p->pdf_catalog); tmp___3 = t2pWriteFile(output, (void *)(buffer), (long )buflen); written += tmp___3; _TIFFmemset((void *)(buffer), 0x00, 32L); tmp___4 = t2pWriteFile(output, (void *)" 0 R \n/Info ", 12L); written += tmp___4; buflen = sprintf((char */* __restrict */)(buffer), (char const */* __restrict */)"%lu", (unsigned long )t2p->pdf_info); tmp___5 = t2pWriteFile(output, (void *)(buffer), (long )buflen); written += tmp___5; _TIFFmemset((void *)(buffer), 0x00, 32L); tmp___6 = t2pWriteFile(output, (void *)" 0 R \n/ID[<", 11L); written += tmp___6; tmp___7 = t2pWriteFile(output, (void *)(t2p->pdf_fileid), (long )(sizeof(t2p->pdf_fileid) - 1U)); written += tmp___7; tmp___8 = t2pWriteFile(output, (void *)"><", 2L); written += tmp___8; tmp___9 = t2pWriteFile(output, (void *)(t2p->pdf_fileid), (long )(sizeof(t2p->pdf_fileid) - 1U)); written += tmp___9; tmp___10 = t2pWriteFile(output, (void *)">]\n>>\nstartxref\n", 16L); written += tmp___10; buflen = sprintf((char */* __restrict */)(buffer), (char const */* __restrict */)"%lu", (unsigned long )t2p->pdf_startxref); tmp___11 = t2pWriteFile(output, (void *)(buffer), (long )buflen); written += tmp___11; _TIFFmemset((void *)(buffer), 0x00, 32L); tmp___12 = t2pWriteFile(output, (void *)"\n%%EOF\n", 7L); written += tmp___12; return (written); } } tsize_t t2p_write_pdf(T2P *t2p , TIFF *input , TIFF *output ) { tsize_t written ; ttile_t i2 ; tsize_t streamlen ; uint16 i ; void *tmp ; tsize_t tmp___0 ; uint32 tmp___1 ; tsize_t tmp___2 ; tsize_t tmp___3 ; tsize_t tmp___4 ; uint32 tmp___5 ; tsize_t tmp___6 ; tsize_t tmp___7 ; tsize_t tmp___8 ; uint32 tmp___9 ; tsize_t tmp___10 ; tsize_t tmp___11 ; tsize_t tmp___12 ; uint32 tmp___13 ; tsize_t tmp___14 ; tsize_t tmp___15 ; tsize_t tmp___16 ; uint32 tmp___17 ; tsize_t tmp___18 ; tsize_t tmp___19 ; tsize_t tmp___20 ; tsize_t tmp___21 ; tsize_t tmp___22 ; tsize_t tmp___23 ; tsize_t tmp___24 ; tsize_t tmp___25 ; uint32 tmp___26 ; tsize_t tmp___27 ; tsize_t tmp___28 ; tsize_t tmp___29 ; uint32 tmp___30 ; tsize_t tmp___31 ; tsize_t tmp___32 ; tsize_t tmp___33 ; uint32 tmp___34 ; tsize_t tmp___35 ; tsize_t tmp___36 ; tsize_t tmp___37 ; tsize_t tmp___38 ; tsize_t tmp___39 ; tsize_t tmp___40 ; tsize_t tmp___41 ; tsize_t tmp___42 ; uint32 tmp___43 ; tsize_t tmp___44 ; tsize_t tmp___45 ; tsize_t tmp___46 ; tsize_t tmp___47 ; tsize_t tmp___48 ; tsize_t tmp___49 ; tsize_t tmp___50 ; tsize_t tmp___51 ; uint32 tmp___52 ; tsize_t tmp___53 ; tsize_t tmp___54 ; tsize_t tmp___55 ; tsize_t tmp___56 ; tsize_t tmp___57 ; tsize_t tmp___58 ; tsize_t tmp___59 ; tsize_t tmp___60 ; uint32 tmp___61 ; tsize_t tmp___62 ; tsize_t tmp___63 ; tsize_t tmp___64 ; tsize_t tmp___65 ; tsize_t tmp___66 ; tsize_t tmp___67 ; tsize_t tmp___68 ; tsize_t tmp___69 ; uint32 tmp___70 ; tsize_t tmp___71 ; tsize_t tmp___72 ; tsize_t tmp___73 ; uint32 tmp___74 ; tsize_t tmp___75 ; tsize_t tmp___76 ; tsize_t tmp___77 ; tsize_t tmp___78 ; tsize_t tmp___79 ; tsize_t tmp___80 ; tsize_t tmp___81 ; tsize_t tmp___82 ; uint32 tmp___83 ; tsize_t tmp___84 ; tsize_t tmp___85 ; tsize_t tmp___86 ; tsize_t tmp___87 ; tsize_t tmp___88 ; { written = (tsize_t )0; i2 = (ttile_t )0; streamlen = (tsize_t )0; i = (uint16 )0; t2p_read_tiff_init(t2p, input); if ((unsigned int )t2p->t2p_error != 0U) { return (0L); } else { } tmp = _TIFFmalloc((long )(t2p->pdf_xrefcount * sizeof(uint32 ))); t2p->pdf_xrefoffsets = (uint32 *)tmp; if ((unsigned int )t2p->pdf_xrefoffsets == (unsigned int )((void *)0)) { TIFFError("tiff2pdf", "Can\'t allocate %u bytes of memory for t2p_write_pdf", t2p->pdf_xrefcount * sizeof(uint32 )); return (written); } else { } t2p->pdf_xrefcount = 0U; t2p->pdf_catalog = 1U; t2p->pdf_info = 2U; t2p->pdf_pages = 3U; tmp___0 = t2p_write_pdf_header(t2p, output); written += tmp___0; tmp___1 = t2p->pdf_xrefcount; (t2p->pdf_xrefcount) ++; *(t2p->pdf_xrefoffsets + tmp___1) = (unsigned int )written; t2p->pdf_catalog = t2p->pdf_xrefcount; tmp___2 = t2p_write_pdf_obj_start(t2p->pdf_xrefcount, output); written += tmp___2; tmp___3 = t2p_write_pdf_catalog(t2p, output); written += tmp___3; tmp___4 = t2p_write_pdf_obj_end(output); written += tmp___4; tmp___5 = t2p->pdf_xrefcount; (t2p->pdf_xrefcount) ++; *(t2p->pdf_xrefoffsets + tmp___5) = (unsigned int )written; t2p->pdf_info = t2p->pdf_xrefcount; { t2p->pdf_pages = t2p->pdf_xrefcount; } written += tmp___6; tmp___7 = t2p_write_pdf_info(t2p, input, output); written += tmp___7; tmp___8 = t2p_write_pdf_obj_end(output); written += tmp___8; tmp___9 = t2p->pdf_xrefcount; (t2p->pdf_xrefcount) ++; *(t2p->pdf_xrefoffsets + tmp___9) = (unsigned int )written; { } tmp___10 = t2p_write_pdf_obj_start(t2p->pdf_xrefcount, output); written += tmp___10; tmp___11 = t2p_write_pdf_pages(t2p, output); written += tmp___11; tmp___12 = t2p_write_pdf_obj_end(output); written += tmp___12; t2p->pdf_page = (unsigned short)0; while ((int )t2p->pdf_page < (int )t2p->tiff_pagecount) { t2p_read_tiff_data(t2p, input); if ((unsigned int )t2p->t2p_error != 0U) { return (0L); } else { } tmp___13 = t2p->pdf_xrefcount; (t2p->pdf_xrefcount) ++; *(t2p->pdf_xrefoffsets + tmp___13) = (unsigned int )written; tmp___14 = t2p_write_pdf_obj_start(t2p->pdf_xrefcount, output); written += tmp___14; tmp___15 = t2p_write_pdf_page(t2p->pdf_xrefcount, t2p, output); written += tmp___15; tmp___16 = t2p_write_pdf_obj_end(output); written += tmp___16; tmp___17 = t2p->pdf_xrefcount; (t2p->pdf_xrefcount) ++; *(t2p->pdf_xrefoffsets + tmp___17) = (unsigned int )written; tmp___18 = t2p_write_pdf_obj_start(t2p->pdf_xrefcount, output); written += tmp___18; tmp___19 = t2p_write_pdf_stream_dict_start(output); written += tmp___19; tmp___20 = t2p_write_pdf_stream_dict(0L, t2p->pdf_xrefcount + 1U, output); written += tmp___20; tmp___21 = t2p_write_pdf_stream_dict_end(output); written += tmp___21; tmp___22 = t2p_write_pdf_stream_start(output); written += tmp___22; streamlen = written; tmp___23 = t2p_write_pdf_page_content_stream(t2p, output); written += tmp___23; streamlen = written - streamlen; tmp___24 = t2p_write_pdf_stream_end(output); written += tmp___24; tmp___25 = t2p_write_pdf_obj_end(output); written += tmp___25; tmp___26 = t2p->pdf_xrefcount; (t2p->pdf_xrefcount) ++; *(t2p->pdf_xrefoffsets + tmp___26) = (unsigned int )written; tmp___27 = t2p_write_pdf_obj_start(t2p->pdf_xrefcount, output); written += tmp___27; tmp___28 = t2p_write_pdf_stream_length(streamlen, output); written += tmp___28; tmp___29 = t2p_write_pdf_obj_end(output); { written += tmp___29; tmp___76 = t2p_write_pdf_stream_dict_start(output); } if ((int )t2p->tiff_transferfunctioncount != 0) { tmp___30 = t2p->pdf_xrefcount; (t2p->pdf_xrefcount) ++; *(t2p->pdf_xrefoffsets + tmp___30) = (unsigned int )written; tmp___31 = t2p_write_pdf_obj_start(t2p->pdf_xrefcount, output); written += tmp___31; tmp___32 = t2p_write_pdf_transfer(t2p, output); written += tmp___32; tmp___33 = t2p_write_pdf_obj_end(output); written += tmp___33; i = (unsigned short)0; while ((int )i < (int )t2p->tiff_transferfunctioncount) { tmp___34 = t2p->pdf_xrefcount; (t2p->pdf_xrefcount) ++; *(t2p->pdf_xrefoffsets + tmp___34) = (unsigned int )written; tmp___35 = t2p_write_pdf_obj_start(t2p->pdf_xrefcount, output); written += tmp___35; tmp___36 = t2p_write_pdf_stream_dict_start(output); written += tmp___36; tmp___37 = t2p_write_pdf_transfer_dict(t2p, output, i); written += tmp___37; tmp___38 = t2p_write_pdf_stream_dict_end(output); written += tmp___38; tmp___39 = t2p_write_pdf_stream_start(output); written += tmp___39; streamlen = written; tmp___40 = t2p_write_pdf_transfer_stream(t2p, output, i); written += tmp___40; streamlen = written - streamlen; tmp___41 = t2p_write_pdf_stream_end(output); written += tmp___41; tmp___42 = t2p_write_pdf_obj_end(output); written += tmp___42; i = (uint16 )((int )i + 1); } } else { } if (((unsigned int )t2p->pdf_colorspace & 4096U) != 0U) { tmp___43 = t2p->pdf_xrefcount; (t2p->pdf_xrefcount) ++; *(t2p->pdf_xrefoffsets + tmp___43) = (unsigned int )written; t2p->pdf_palettecs = t2p->pdf_xrefcount; tmp___44 = t2p_write_pdf_obj_start(t2p->pdf_xrefcount, output); written += tmp___44; tmp___45 = t2p_write_pdf_stream_dict_start(output); written += tmp___45; tmp___46 = t2p_write_pdf_stream_dict((long )t2p->pdf_palettesize, 0U, output); written += tmp___46; tmp___47 = t2p_write_pdf_stream_dict_end(output); written += tmp___47; tmp___48 = t2p_write_pdf_stream_start(output); written += tmp___48; streamlen = written; tmp___49 = t2p_write_pdf_xobject_palettecs_stream(t2p, output); written += tmp___49; streamlen = written - streamlen; tmp___50 = t2p_write_pdf_stream_end(output); written += tmp___50; tmp___51 = t2p_write_pdf_obj_end(output); written += tmp___51; } else { } if (((unsigned int )t2p->pdf_colorspace & 128U) != 0U) { tmp___52 = t2p->pdf_xrefcount; (t2p->pdf_xrefcount) ++; *(t2p->pdf_xrefoffsets + tmp___52) = (unsigned int )written; t2p->pdf_icccs = t2p->pdf_xrefcount; tmp___53 = t2p_write_pdf_obj_start(t2p->pdf_xrefcount, output); written += tmp___53; tmp___54 = t2p_write_pdf_stream_dict_start(output); written += tmp___54; tmp___55 = t2p_write_pdf_xobject_icccs_dict(t2p, output); written += tmp___55; tmp___56 = t2p_write_pdf_stream_dict_end(output); written += tmp___56; tmp___57 = t2p_write_pdf_stream_start(output); written += tmp___57; streamlen = written; tmp___58 = t2p_write_pdf_xobject_icccs_stream(t2p, output); written += tmp___58; streamlen = written - streamlen; tmp___59 = t2p_write_pdf_stream_end(output); written += tmp___59; tmp___60 = t2p_write_pdf_obj_end(output); written += tmp___60; } else { } if ((t2p->tiff_tiles + t2p->pdf_page)->tiles_tilecount != 0U) { i2 = 0U; while (i2 < (t2p->tiff_tiles + t2p->pdf_page)->tiles_tilecount) { tmp___61 = t2p->pdf_xrefcount; (t2p->pdf_xrefcount) ++; *(t2p->pdf_xrefoffsets + tmp___61) = (unsigned int )written; tmp___62 = t2p_write_pdf_obj_start(t2p->pdf_xrefcount, output); written += tmp___62; tmp___63 = t2p_write_pdf_stream_dict_start(output); written += tmp___63; tmp___64 = t2p_write_pdf_xobject_stream_dict(i2 + 1U, t2p, output); written += tmp___64; tmp___65 = t2p_write_pdf_stream_dict_end(output); written += tmp___65; tmp___66 = t2p_write_pdf_stream_start(output); written += tmp___66; streamlen = written; t2p_read_tiff_size_tile(t2p, input, i2); tmp___67 = t2p_readwrite_pdf_image_tile(t2p, input, output, i2); written += tmp___67; t2p_write_advance_directory(t2p, output); if ((unsigned int )t2p->t2p_error != 0U) { return (0L); } else { } streamlen = written - streamlen; tmp___68 = t2p_write_pdf_stream_end(output); written += tmp___68; tmp___69 = t2p_write_pdf_obj_end(output); written += tmp___69; tmp___70 = t2p->pdf_xrefcount; (t2p->pdf_xrefcount) ++; *(t2p->pdf_xrefoffsets + tmp___70) = (unsigned int )written; tmp___71 = t2p_write_pdf_obj_start(t2p->pdf_xrefcount, output); written += tmp___71; tmp___72 = t2p_write_pdf_stream_length(streamlen, output); written += tmp___72; tmp___73 = t2p_write_pdf_obj_end(output); written += tmp___73; i2 ++; } } else { tmp___74 = t2p->pdf_xrefcount; (t2p->pdf_xrefcount) ++; *(t2p->pdf_xrefoffsets + tmp___74) = (unsigned int )written; tmp___75 = t2p_write_pdf_obj_start(t2p->pdf_xrefcount, output); written += tmp___75; tmp___76 = t2p_write_pdf_stream_dict_start(output); written += tmp___76; tmp___77 = t2p_write_pdf_xobject_stream_dict(0U, t2p, output); written += tmp___77; tmp___78 = t2p_write_pdf_stream_dict_end(output); written += tmp___78; tmp___79 = t2p_write_pdf_stream_start(output); written += tmp___79; streamlen = written; t2p_read_tiff_size(t2p, input); tmp___80 = t2p_readwrite_pdf_image(t2p, input, output); written += tmp___80; t2p_write_advance_directory(t2p, output); if ((unsigned int )t2p->t2p_error != 0U) { return (0L); } else { } streamlen = written - streamlen; tmp___81 = t2p_write_pdf_stream_end(output); written += tmp___81; tmp___82 = t2p_write_pdf_obj_end(output); written += tmp___82; tmp___83 = t2p->pdf_xrefcount; (t2p->pdf_xrefcount) ++; *(t2p->pdf_xrefoffsets + tmp___83) = (unsigned int )written; tmp___84 = t2p_write_pdf_obj_start(t2p->pdf_xrefcount, output); written += tmp___84; tmp___85 = t2p_write_pdf_stream_length(streamlen, output); { } tmp___86 = t2p_write_pdf_obj_end(output); written += tmp___86; } t2p->pdf_page = (tdir_t )((int )t2p->pdf_page + 1); } t2p->pdf_startxref = (unsigned int )written; tmp___87 = t2p_write_pdf_xreftable(t2p, output); written += tmp___87; tmp___88 = t2p_write_pdf_trailer(t2p, output); written += tmp___88; t2p_disable(output); return (written); } }