From mboxrd@z Thu Jan 1 00:00:00 1970 Return-Path: Received: (qmail 30425 invoked by alias); 7 Sep 2003 22:59:16 -0000 Mailing-List: contact gcc-help@gcc.gnu.org; run by ezmlm Precedence: bulk List-Archive: List-Post: List-Help: Sender: gcc-owner@gcc.gnu.org Received: (qmail 30414 invoked from network); 7 Sep 2003 22:59:14 -0000 Received: from unknown (HELO smtp02.fuse.net) (216.68.1.133) by sources.redhat.com with SMTP; 7 Sep 2003 22:59:14 -0000 Received: from dellpi.pinski.fam ([10.228.69.236]) by smtp02.fuse.net (InterMail vM.5.01.06.04 201-253-122-130-104-20030726) with ESMTP id <20030907225905.DMHL15208.smtp02.fuse.net@dellpi.pinski.fam>; Sun, 7 Sep 2003 18:59:05 -0400 Received: from physics.uc.edu (IDENT:pinskia@localhost.pinski.fam [127.0.0.1]) by dellpi.pinski.fam (8.12.2/8.12.1) with ESMTP id h87Mw6Ce002986; Sun,: 58:07 -0400 (EDT) Date: Mon, 08 Sep 2003 01:07:00 -0000 Subject: Another reload problem/bug on powerpc-apple-darwin6.6 Content-Type: multipart/mixed; boundary=Apple-Mail-7-916417738 Mime-Version: 1.0 (Apple Message framework v552) Cc: Andrew Pinski , apinski@apple.com, Geoff Keating To: gcc@gcc.gnu.org From: Andrew Pinski Message-Id: X-SW-Source: 2003-09/txt/msg00381.txt.bz2 --Apple-Mail-7-916417738 Content-Transfer-Encoding: 7bit Content-Type: text/plain; charset=US-ASCII; format=flowed Content-length: 397 Here is another reload problem on powerpc-apple-darwin6.6 at -O2 (after unit-at-a-time was turned on at -O2), this is the source of libiberty/regex.c. The problem is reload wants to put the external symbol _CurrentRuneLocale in a constant label, LC29, but on Darwin this not allowed with shared libraries. I cannot figure out how to fix this one. Thanks, Andrew Pinski Preprocessed source: --Apple-Mail-7-916417738 Content-Disposition: attachment; filename=temp.i Content-Transfer-Encoding: quoted-printable Content-Type: application/octet-stream; x-unix-mode=0644; name="temp.i" Content-length: 154570 # 1 "../../libiberty/regex.c"=0A= # 1 ""=0A= # 1 ""=0A= # 1 "../../libiberty/regex.c"=0A= # 53 "../../libiberty/regex.c"=0A= # 1 "/Volumes/UFS_Partition/pinskia/fsf-checkin/lib/gcc/powerpc-apple-darwi= n6.6/3.4/include/sys/types.h" 1 3 4=0A= # 75 "/Volumes/UFS_Partition/pinskia/fsf-checkin/lib/gcc/powerpc-apple-darw= in6.6/3.4/include/sys/types.h" 3 4=0A= # 1 "/usr/include/sys/appleapiopts.h" 1 3 4=0A= # 76 "/Volumes/UFS_Partition/pinskia/fsf-checkin/lib/gcc/powerpc-apple-darw= in6.6/3.4/include/sys/types.h" 2 3 4=0A= =0A= =0A= # 1 "/usr/include/sys/cdefs.h" 1 3 4=0A= # 79 "/Volumes/UFS_Partition/pinskia/fsf-checkin/lib/gcc/powerpc-apple-darw= in6.6/3.4/include/sys/types.h" 2 3 4=0A= =0A= =0A= # 1 "/usr/include/machine/types.h" 1 3 4=0A= # 30 "/usr/include/machine/types.h" 3 4=0A= # 1 "/usr/include/ppc/types.h" 1 3 4=0A= # 69 "/usr/include/ppc/types.h" 3 4=0A= typedef signed char int8_t;=0A= typedef unsigned char u_int8_t;=0A= typedef short int16_t;=0A= typedef unsigned short u_int16_t;=0A= typedef int int32_t;=0A= typedef unsigned int u_int32_t;=0A= typedef long long int64_t;=0A= typedef unsigned long long u_int64_t;=0A= =0A= typedef int32_t register_t;=0A= =0A= typedef long int intptr_t;=0A= typedef unsigned long int uintptr_t;=0A= # 31 "/usr/include/machine/types.h" 2 3 4=0A= # 82 "/Volumes/UFS_Partition/pinskia/fsf-checkin/lib/gcc/powerpc-apple-darw= in6.6/3.4/include/sys/types.h" 2 3 4=0A= =0A= # 1 "/usr/include/machine/ansi.h" 1 3 4=0A= # 33 "/usr/include/machine/ansi.h" 3 4=0A= # 1 "/usr/include/ppc/ansi.h" 1 3 4=0A= # 92 "/usr/include/ppc/ansi.h" 3 4=0A= typedef union {=0A= char __mbstate8[128];=0A= long long _mbstateL;=0A= } __mbstate_t;=0A= # 34 "/usr/include/machine/ansi.h" 2 3 4=0A= # 84 "/Volumes/UFS_Partition/pinskia/fsf-checkin/lib/gcc/powerpc-apple-darw= in6.6/3.4/include/sys/types.h" 2 3 4=0A= # 1 "/usr/include/machine/endian.h" 1 3 4=0A= # 30 "/usr/include/machine/endian.h" 3 4=0A= # 1 "/usr/include/ppc/endian.h" 1 3 4=0A= # 81 "/usr/include/ppc/endian.h" 3 4=0A= =0A= unsigned long htonl (unsigned long);=0A= unsigned short htons (unsigned short);=0A= unsigned long ntohl (unsigned long);=0A= unsigned short ntohs (unsigned short);=0A= =0A= # 31 "/usr/include/machine/endian.h" 2 3 4=0A= # 85 "/Volumes/UFS_Partition/pinskia/fsf-checkin/lib/gcc/powerpc-apple-darw= in6.6/3.4/include/sys/types.h" 2 3 4=0A= =0A= =0A= typedef unsigned char u_char;=0A= typedef unsigned short u_short;=0A= typedef unsigned int u_int;=0A= typedef unsigned long u_long;=0A= typedef unsigned short ushort;=0A= typedef unsigned int uint;=0A= =0A= =0A= typedef u_int64_t u_quad_t;=0A= typedef int64_t quad_t;=0A= typedef quad_t * qaddr_t;=0A= =0A= typedef char * caddr_t;=0A= typedef int32_t daddr_t;=0A= typedef int32_t dev_t;=0A= typedef u_int32_t fixpt_t;=0A= typedef u_int32_t gid_t;=0A= typedef u_int32_t in_addr_t;=0A= typedef u_int16_t in_port_t;=0A= typedef u_int32_t ino_t;=0A= typedef long key_t;=0A= typedef u_int16_t mode_t;=0A= typedef u_int16_t nlink_t;=0A= typedef quad_t off_t;=0A= typedef int32_t pid_t;=0A= typedef quad_t rlim_t;=0A= typedef int32_t segsz_t;=0A= typedef int32_t swblk_t;=0A= typedef u_int32_t uid_t;=0A= # 126 "/Volumes/UFS_Partition/pinskia/fsf-checkin/lib/gcc/powerpc-apple-dar= win6.6/3.4/include/sys/types.h" 3 4=0A= typedef unsigned long clock_t;=0A= =0A= =0A= =0A= =0A= =0A= =0A= typedef long unsigned int size_t;=0A= =0A= =0A= =0A= =0A= =0A= =0A= typedef int ssize_t;=0A= =0A= =0A= =0A= =0A= typedef long time_t;=0A= # 159 "/Volumes/UFS_Partition/pinskia/fsf-checkin/lib/gcc/powerpc-apple-dar= win6.6/3.4/include/sys/types.h" 3 4=0A= typedef int32_t fd_mask;=0A= =0A= =0A= =0A= =0A= =0A= =0A= typedef struct fd_set {=0A= fd_mask fds_bits[(((1024) + (((sizeof(fd_mask) * 8)) - 1)) / ((sizeof(fd_m= ask) * 8)))];=0A= } fd_set;=0A= # 195 "/Volumes/UFS_Partition/pinskia/fsf-checkin/lib/gcc/powerpc-apple-dar= win6.6/3.4/include/sys/types.h" 3 4=0A= struct _pthread_handler_rec=0A= {=0A= void (*routine)(void *);=0A= void *arg;=0A= struct _pthread_handler_rec *next;=0A= };=0A= # 215 "/Volumes/UFS_Partition/pinskia/fsf-checkin/lib/gcc/powerpc-apple-dar= win6.6/3.4/include/sys/types.h" 3 4=0A= typedef struct _opaque_pthread_t { long sig; struct _pthread_handler_rec *c= leanup_stack; char opaque[596];} *pthread_t;=0A= =0A= typedef struct _opaque_pthread_attr_t { long sig; char opaque[36]; } pthrea= d_attr_t;=0A= =0A= typedef struct _opaque_pthread_mutexattr_t { long sig; char opaque[8]; } pt= hread_mutexattr_t;=0A= =0A= typedef struct _opaque_pthread_mutex_t { long sig; char opaque[40]; } pthre= ad_mutex_t;=0A= =0A= typedef struct _opaque_pthread_condattr_t { long sig; char opaque[4]; } pth= read_condattr_t;=0A= =0A= typedef struct _opaque_pthread_cond_t { long sig; char opaque[24]; } pthrea= d_cond_t;=0A= =0A= typedef struct _opaque_pthread_rwlockattr_t { long sig; char opaque[12]; } = pthread_rwlockattr_t;=0A= =0A= typedef struct _opaque_pthread_rwlock_t { long sig; char opaque[124]; } pth= read_rwlock_t;=0A= =0A= typedef struct { long sig; char opaque[4]; } pthread_once_t;=0A= =0A= =0A= =0A= typedef unsigned long pthread_key_t;=0A= # 54 "../../libiberty/regex.c" 2=0A= # 132 "../../libiberty/regex.c"=0A= char *malloc ();=0A= char *realloc ();=0A= # 160 "../../libiberty/regex.c"=0A= # 1 "/usr/include/strings.h" 1 3 4=0A= # 57 "/usr/include/strings.h" 3 4=0A= # 1 "/usr/include/string.h" 1 3 4=0A= # 72 "/usr/include/string.h" 3 4=0A= =0A= void *memchr (const void *, int, size_t);=0A= int memcmp (const void *, const void *, size_t);=0A= void *memcpy (void *, const void *, size_t);=0A= void *memmove (void *, const void *, size_t);=0A= void *memset (void *, int, size_t);=0A= char *strcat (char *, const char *);=0A= char *strchr (const char *, int);=0A= int strcmp (const char *, const char *);=0A= int strcoll (const char *, const char *);=0A= char *strcpy (char *, const char *);=0A= size_t strcspn (const char *, const char *);=0A= char *strerror (int);=0A= size_t strlen (const char *);=0A= char *strncat (char *, const char *, size_t);=0A= int strncmp (const char *, const char *, size_t);=0A= char *strncpy (char *, const char *, size_t);=0A= char *strpbrk (const char *, const char *);=0A= char *strrchr (const char *, int);=0A= size_t strspn (const char *, const char *);=0A= char *strstr (const char *, const char *);=0A= char *strtok (char *, const char *);=0A= size_t strxfrm (char *, const char *, size_t);=0A= =0A= =0A= =0A= int bcmp (const void *, const void *, size_t);=0A= void bcopy (const void *, void *, size_t);=0A= void bzero (void *, size_t);=0A= int ffs (int);=0A= char *index (const char *, int);=0A= void *memccpy (void *, const void *, int, size_t);=0A= char *rindex (const char *, int);=0A= int strcasecmp (const char *, const char *);=0A= char *strdup (const char *);=0A= size_t strlcat (char *, const char *, size_t);=0A= size_t strlcpy (char *, const char *, size_t);=0A= void strmode (int, char *);=0A= int strncasecmp (const char *, const char *, size_t);=0A= char *strsep (char **, const char *);=0A= char *strtok_r (char *, const char *, char **);=0A= void swab (const void *, void *, size_t);=0A= =0A= =0A= # 58 "/usr/include/strings.h" 2 3 4=0A= # 161 "../../libiberty/regex.c" 2=0A= # 195 "../../libiberty/regex.c"=0A= # 1 "../../include/xregex.h" 1=0A= # 26 "../../include/xregex.h"=0A= # 1 "../../include/xregex2.h" 1=0A= # 43 "../../include/xregex2.h"=0A= typedef long int s_reg_t;=0A= typedef unsigned long int active_reg_t;=0A= =0A= =0A= =0A= =0A= =0A= =0A= typedef unsigned long int reg_syntax_t;=0A= # 171 "../../include/xregex2.h"=0A= extern reg_syntax_t xre_syntax_options;=0A= # 288 "../../include/xregex2.h"=0A= typedef enum=0A= {=0A= =0A= =0A= =0A= =0A= REG_NOERROR =3D 0,=0A= REG_NOMATCH,=0A= =0A= =0A= =0A= REG_BADPAT,=0A= REG_ECOLLATE,=0A= REG_ECTYPE,=0A= REG_EESCAPE,=0A= REG_ESUBREG,=0A= REG_EBRACK,=0A= REG_EPAREN,=0A= REG_EBRACE,=0A= REG_BADBR,=0A= REG_ERANGE,=0A= REG_ESPACE,=0A= REG_BADRPT,=0A= =0A= =0A= REG_EEND,=0A= REG_ESIZE,=0A= REG_ERPAREN=0A= } reg_errcode_t;=0A= # 328 "../../include/xregex2.h"=0A= struct re_pattern_buffer=0A= {=0A= =0A= =0A= =0A= =0A= unsigned char *buffer;=0A= =0A= =0A= unsigned long int allocated;=0A= =0A= =0A= unsigned long int used;=0A= =0A= =0A= reg_syntax_t syntax;=0A= =0A= =0A= =0A= =0A= char *fastmap;=0A= =0A= =0A= =0A= =0A= =0A= char * translate;=0A= =0A= =0A= size_t re_nsub;=0A= =0A= =0A= =0A= =0A= =0A= =0A= unsigned can_be_null : 1;=0A= # 373 "../../include/xregex2.h"=0A= unsigned regs_allocated : 2;=0A= =0A= =0A= =0A= unsigned fastmap_accurate : 1;=0A= =0A= =0A= =0A= unsigned no_sub : 1;=0A= =0A= =0A= =0A= unsigned not_bol : 1;=0A= =0A= =0A= unsigned not_eol : 1;=0A= =0A= =0A= unsigned newline_anchor : 1;=0A= =0A= =0A= };=0A= =0A= typedef struct re_pattern_buffer regex_t;=0A= =0A= =0A= typedef int regoff_t;=0A= =0A= =0A= =0A= =0A= struct re_registers=0A= {=0A= unsigned num_regs;=0A= regoff_t *start;=0A= regoff_t *end;=0A= };=0A= # 423 "../../include/xregex2.h"=0A= typedef struct=0A= {=0A= regoff_t rm_so;=0A= regoff_t rm_eo;=0A= } regmatch_t;=0A= # 449 "../../include/xregex2.h"=0A= extern reg_syntax_t xre_set_syntax (reg_syntax_t syntax);=0A= =0A= =0A= =0A= =0A= extern const char *xre_compile_pattern=0A= =20=0A= (const char *pattern, size_t length, struct re_pattern_buffer = *buffer);=0A= =0A= =0A= =0A= =0A= =0A= extern int xre_compile_fastmap (struct re_pattern_buffer *buffer);=0A= =0A= =0A= =0A= =0A= =0A= =0A= =0A= extern int xre_search=0A= =20=0A= (struct re_pattern_buffer *buffer, const char *string, int leng= th, int start, int range, struct re_registers *regs);=0A= =0A= =0A= =0A= =0A= extern int xre_search_2=0A= =20=0A= =20=20=20=20=20=20=20=20=20=20=20=20=0A= (struct re_pattern_buffer *buffer, const char *string1, int le= ngth1, const char *string2, int length2, int start, int range, struct re_re= gisters *regs, int stop);=0A= =0A= =0A= =0A= =0A= extern int xre_match=0A= =20=0A= (struct re_pattern_buffer *buffer, const char *string, int len= gth, int start, struct re_registers *regs);=0A= =0A= =0A= =0A= extern int xre_match_2=0A= =20=0A= =20=20=20=20=20=20=20=20=20=20=20=20=0A= (struct re_pattern_buffer *buffer, const char *string1, int le= ngth1, const char *string2, int length2, int start, struct re_registers *re= gs, int stop);=0A= # 509 "../../include/xregex2.h"=0A= extern void xre_set_registers=0A= =20=0A= (struct re_pattern_buffer *buffer, struct re_registers *regs, = unsigned num_regs, regoff_t *starts, regoff_t *ends);=0A= =0A= =0A= =0A= =0A= extern char *xre_comp (const char *);=0A= extern int xre_exec (const char *);=0A= # 544 "../../include/xregex2.h"=0A= extern int xregcomp=0A= =20=20=20=20=20=20=20=20=0A= (regex_t *__restrict __preg, const char *__restrict __pattern, int= __cflags);=0A= =0A= extern int xregexec=0A= =20=20=20=20=20=20=20=20=0A= =20=20=20=20=20=20=20=20=0A= (const regex_t *__restrict __preg, const char *__restrict __string= , size_t __nmatch, regmatch_t __pmatch[__restrict], int __eflags);=0A= =0A= extern size_t xregerror=0A= (int __errcode, const regex_t *__preg, char *__errbuf, size_t __errbu= f_size);=0A= =0A= extern void xregfree (regex_t *__preg);=0A= # 27 "../../include/xregex.h" 2=0A= # 196 "../../libiberty/regex.c" 2=0A= =0A= =0A= # 1 "/usr/include/ctype.h" 1 3 4=0A= # 68 "/usr/include/ctype.h" 3 4=0A= # 1 "/Volumes/UFS_Partition/pinskia/fsf-checkin/lib/gcc/powerpc-apple-darwi= n6.6/3.4/include/runetype.h" 1 3 4=0A= # 56 "/Volumes/UFS_Partition/pinskia/fsf-checkin/lib/gcc/powerpc-apple-darw= in6.6/3.4/include/runetype.h" 3 4=0A= typedef int rune_t;=0A= # 67 "/Volumes/UFS_Partition/pinskia/fsf-checkin/lib/gcc/powerpc-apple-darw= in6.6/3.4/include/runetype.h" 3 4=0A= typedef int wchar_t;=0A= # 77 "/Volumes/UFS_Partition/pinskia/fsf-checkin/lib/gcc/powerpc-apple-darw= in6.6/3.4/include/runetype.h" 3 4=0A= typedef struct {=0A= rune_t min;=0A= rune_t max;=0A= rune_t map;=0A= unsigned long *types;=0A= } _RuneEntry;=0A= =0A= typedef struct {=0A= int nranges;=0A= _RuneEntry *ranges;=0A= } _RuneRange;=0A= =0A= typedef struct {=0A= char magic[8];=0A= char encoding[32];=0A= =0A= rune_t (*sgetrune)=0A= (const char *, size_t, char const **);=0A= int (*sputrune)=0A= (rune_t, char *, size_t, char **);=0A= rune_t invalid_rune;=0A= =0A= unsigned long runetype[(1 <<8 )];=0A= rune_t maplower[(1 <<8 )];=0A= rune_t mapupper[(1 <<8 )];=0A= =0A= =0A= =0A= =0A= =0A= =0A= _RuneRange runetype_ext;=0A= _RuneRange maplower_ext;=0A= _RuneRange mapupper_ext;=0A= =0A= void *variable;=0A= int variable_len;=0A= } _RuneLocale;=0A= =0A= =0A= =0A= extern _RuneLocale _DefaultRuneLocale;=0A= extern _RuneLocale *_CurrentRuneLocale;=0A= # 69 "/usr/include/ctype.h" 2 3 4=0A= # 100 "/usr/include/ctype.h" 3 4=0A= =0A= int isalnum (int);=0A= int isalpha (int);=0A= int iscntrl (int);=0A= int isdigit (int);=0A= int isgraph (int);=0A= int islower (int);=0A= int isprint (int);=0A= int ispunct (int);=0A= int isspace (int);=0A= int isupper (int);=0A= int isxdigit (int);=0A= int tolower (int);=0A= int toupper (int);=0A= =0A= =0A= int digittoint (int);=0A= int isascii (int);=0A= int isblank (int);=0A= int ishexnumber (int);=0A= int isideogram (int);=0A= int isnumber (int);=0A= int isphonogram (int);=0A= int isrune (int);=0A= int isspecial (int);=0A= int toascii (int);=0A= =0A= =0A= # 158 "/usr/include/ctype.h" 3 4=0A= =0A= unsigned long ___runetype (int);=0A= int ___tolower (int);=0A= int ___toupper (int);=0A= =0A= # 180 "/usr/include/ctype.h" 3 4=0A= static __inline int=0A= __maskrune(int _c, unsigned long _f)=0A= {=0A= return ((_c < 0 || _c >=3D (1 <<8 )) ? ___runetype(_c) :=0A= _CurrentRuneLocale->runetype[_c]) & _f;=0A= }=0A= =0A= static __inline int=0A= __istype(int c, unsigned long f)=0A= {=0A= return !!(__maskrune(c, f));=0A= }=0A= =0A= static __inline int=0A= __isctype(int _c, unsigned long _f)=0A= {=0A= return (_c < 0 || _c >=3D (1 <<8 )) ? 0 :=0A= !!(_DefaultRuneLocale.runetype[_c] & _f);=0A= }=0A= =0A= static __inline int=0A= __toupper(int _c)=0A= {=0A= return (_c < 0 || _c >=3D (1 <<8 )) ? ___toupper(_c) :=0A= _CurrentRuneLocale->mapupper[_c];=0A= }=0A= =0A= static __inline int=0A= __tolower(int _c)=0A= {=0A= return (_c < 0 || _c >=3D (1 <<8 )) ? ___tolower(_c) :=0A= _CurrentRuneLocale->maplower[_c];=0A= }=0A= # 199 "../../libiberty/regex.c" 2=0A= # 274 "../../libiberty/regex.c"=0A= static char re_syntax_table[256];=0A= =0A= static void init_syntax_once (void);=0A= =0A= static void=0A= init_syntax_once ()=0A= {=0A= register int c;=0A= static int done =3D 0;=0A= =0A= if (done)=0A= return;=0A= bzero (re_syntax_table, sizeof re_syntax_table);=0A= =0A= for (c =3D 0; c < 256; ++c)=0A= if ((((c & ~0x7F) =3D=3D 0) && __istype((c), (0x00000100L|0x00000400L)= )))=0A= re_syntax_table[c] =3D 1;=0A= =0A= re_syntax_table['_'] =3D 1;=0A= =0A= done =3D 1;=0A= }=0A= # 305 "../../libiberty/regex.c"=0A= typedef unsigned long int uintptr_t;=0A= # 406 "../../libiberty/regex.c"=0A= typedef char boolean;=0A= =0A= =0A= =0A= static reg_errcode_t byte_regex_compile=0A= =20=20=20=20=20=20=20=20=20=20=20=20=20=20=20=20=20=20=20=20=20=20=20=20=20= =20=20=20=20=20=20=20=20=20=20=20=20=20=20=20=20=20=20=20=20=20=20=20=20=20= =0A= (const char *pattern, si= ze_t size, reg_syntax_t syntax, struct re_pattern_buffer *bufp);=0A= =0A= static int byte_re_match_2_internal=0A= =20=20=20=20=20=20=20=20=20=0A= =20=20=20=20=20=20=20=20=20=0A= =20=20=20=20=20=20=20=20=20=0A= =20=20=20=20=20=20=20=20=20=0A= (struct re_pattern_buffer *bufp, const char *string1, int size1, = const char *string2, int size2, int pos, struct re_registers *regs, int sto= p);=0A= static int byte_re_search_2=0A= =20=20=20=20=20=20=20=20=0A= =20=20=20=20=20=20=20=20=0A= =20=20=20=20=20=20=20=20=0A= (struct re_pattern_buffer *bufp, const char *string1, int size1, c= onst char *string2, int size2, int startpos, int range, struct re_registers= *regs, int stop);=0A= static int byte_re_compile_fastmap (struct re_pattern_buffer *bufp);=0A= # 455 "../../libiberty/regex.c"=0A= typedef enum=0A= {=0A= no_op =3D 0,=0A= =0A= =0A= succeed,=0A= =0A= =0A= exactn,=0A= =0A= =0A= =0A= =0A= =0A= =0A= =0A= anychar,=0A= # 486 "../../libiberty/regex.c"=0A= charset,=0A= =0A= =0A= =0A= charset_not,=0A= # 499 "../../libiberty/regex.c"=0A= start_memory,=0A= # 508 "../../libiberty/regex.c"=0A= stop_memory,=0A= =0A= =0A= =0A= duplicate,=0A= =0A= =0A= begline,=0A= =0A= =0A= endline,=0A= =0A= =0A= =0A= begbuf,=0A= =0A= =0A= endbuf,=0A= =0A= =0A= jump,=0A= =0A= =0A= jump_past_alt,=0A= =0A= =0A= =0A= =0A= on_failure_jump,=0A= =0A= =0A= =0A= on_failure_keep_string_jump,=0A= =0A= =0A= =0A= =0A= pop_failure_jump,=0A= # 555 "../../libiberty/regex.c"=0A= maybe_pop_jump,=0A= =0A= =0A= =0A= =0A= =0A= =0A= =0A= dummy_failure_jump,=0A= =0A= =0A= =0A= push_dummy_failure,=0A= =0A= =0A= =0A= =0A= succeed_n,=0A= =0A= =0A= =0A= =0A= jump_n,=0A= =0A= =0A= =0A= =0A= =0A= set_number_at,=0A= =0A= wordchar,=0A= notwordchar,=0A= =0A= wordbeg,=0A= wordend,=0A= =0A= wordbound,=0A= notwordbound=0A= # 606 "../../libiberty/regex.c"=0A= } re_opcode_t;=0A= # 649 "../../libiberty/regex.c"=0A= # 1 "../../libiberty/regex.c" 1=0A= # 1489 "../../libiberty/regex.c"=0A= int xre_max_failures =3D 4000;=0A= =0A= =0A= =0A= =0A= =0A= union byte_fail_stack_elt=0A= {=0A= unsigned char *pointer;=0A= int integer;=0A= };=0A= =0A= typedef union byte_fail_stack_elt byte_fail_stack_elt_t;=0A= =0A= typedef struct=0A= {=0A= byte_fail_stack_elt_t *stack;=0A= unsigned size;=0A= unsigned avail;=0A= } byte_fail_stack_type;=0A= # 1824 "../../libiberty/regex.c"=0A= typedef union=0A= {=0A= byte_fail_stack_elt_t word;=0A= struct=0A= {=0A= =0A= =0A= =0A= unsigned match_null_string_p : 2;=0A= unsigned is_active : 1;=0A= unsigned matched_something : 1;=0A= unsigned ever_matched_something : 1;=0A= } bits;=0A= } byte_register_info_type;=0A= # 1868 "../../libiberty/regex.c"=0A= static char byte_reg_unset_dummy;=0A= =0A= =0A= =0A= =0A= static void byte_store_op1 (re_opcode_t op, unsigned char *loc, int arg);= =0A= static void byte_store_op2=0A= (re_opcode_t op, unsigned char *loc, int arg1, int arg2);=0A= static void byte_insert_op1=0A= (re_opcode_t op, unsigned char *loc, int arg, unsigned char *end);=0A= static void byte_insert_op2=0A= (re_opcode_t op, unsigned char *loc, int arg1, int arg2, unsigned cha= r *end);=0A= static boolean byte_at_begline_loc_p=0A= =20=20=20=20=20=20=20=0A= (const char *pattern, const char *p, reg_syntax_t syntax);=0A= static boolean byte_at_endline_loc_p=0A= =20=20=20=20=20=20=20=0A= (const char *p, const char *pend, reg_syntax_t syntax);=0A= # 1896 "../../libiberty/regex.c"=0A= static reg_errcode_t byte_compile_range=0A= =20=20=20=20=20=20=20=20=0A= =20=20=20=20=20=20=20=20=0A= =20=20=20=20=20=20=20=20=0A= =20=20=20=20=20=20=20=20=0A= (unsigned int range_start, const char **p_ptr, const char *pend, c= har *translate, reg_syntax_t syntax, unsigned char *b);=0A= # 2137 "../../libiberty/regex.c"=0A= typedef unsigned regnum_t;=0A= =0A= =0A= =0A= =0A= =0A= =0A= =0A= typedef long pattern_offset_t;=0A= =0A= typedef struct=0A= {=0A= pattern_offset_t begalt_offset;=0A= pattern_offset_t fixup_alt_jump;=0A= pattern_offset_t inner_group_offset;=0A= pattern_offset_t laststart_offset;=0A= regnum_t regnum;=0A= } compile_stack_elt_t;=0A= =0A= =0A= typedef struct=0A= {=0A= compile_stack_elt_t *stack;=0A= unsigned size;=0A= unsigned avail;=0A= } compile_stack_type;=0A= # 2281 "../../libiberty/regex.c"=0A= static boolean group_in_compile_stack=0A= =20=20=20=20=20=20=0A= (compile_stack_type compile_stack, regnum_t regnum);=0A= # 2313 "../../libiberty/regex.c"=0A= static reg_errcode_t=0A= byte_regex_compile (pattern, size, syntax, bufp)=0A= const char *pattern;=0A= size_t size;=0A= reg_syntax_t syntax;=0A= struct re_pattern_buffer *bufp;=0A= {=0A= =0A= =0A= =0A= register unsigned char c, c1;=0A= # 2338 "../../libiberty/regex.c"=0A= const char *p1;=0A= =0A= =0A= register unsigned char *b;=0A= =0A= =0A= compile_stack_type compile_stack;=0A= =0A= =0A= =0A= =0A= =0A= =0A= const char *p =3D pattern;=0A= const char *pend =3D pattern + size;=0A= =0A= =0A= =0A= char * translate =3D bufp->translate;=0A= =0A= =0A= =0A= =0A= =0A= unsigned char *pending_exact =3D 0;=0A= =0A= =0A= =0A= =0A= unsigned char *laststart =3D 0;=0A= =0A= =0A= unsigned char *begalt;=0A= =0A= =0A= =0A= =0A= unsigned char *fixup_alt_jump =3D 0;=0A= =0A= =0A= =0A= =0A= regnum_t regnum =3D 0;=0A= # 2419 "../../libiberty/regex.c"=0A= compile_stack.stack =3D ((compile_stack_elt_t *) malloc ((32) * sizeof (c= ompile_stack_elt_t)));=0A= if (compile_stack.stack =3D=3D 0)=0A= {=0A= =0A= =0A= =0A= =0A= =0A= return REG_ESPACE;=0A= }=0A= =0A= compile_stack.size =3D 32;=0A= compile_stack.avail =3D 0;=0A= =0A= =0A= bufp->syntax =3D syntax;=0A= bufp->fastmap_accurate =3D 0;=0A= bufp->not_bol =3D bufp->not_eol =3D 0;=0A= =0A= =0A= =0A= =0A= bufp->used =3D 0;=0A= =0A= =0A= bufp->re_nsub =3D 0;=0A= =0A= =0A= =0A= init_syntax_once ();=0A= =0A= =0A= if (bufp->allocated =3D=3D 0)=0A= {=0A= if (bufp->buffer)=0A= {=0A= # 2464 "../../libiberty/regex.c"=0A= ((bufp->buffer) =3D (unsigned char *) realloc (bufp->buffer, ((32= * sizeof(unsigned char))) * sizeof (unsigned char)));=0A= =0A= }=0A= else=0A= {=0A= bufp->buffer =3D=0A= ((unsigned char *) malloc (((32 * sizeof(unsigned char)) / sizeof(unsi= gned char)) * sizeof (unsigned char)));=0A= }=0A= =0A= if (!bufp->buffer) return (free (compile_stack.stack), REG_ESPACE);= =0A= =0A= =0A= =0A= bufp->allocated =3D (32 * sizeof(unsigned char));=0A= }=0A= =0A= =0A= =0A= =0A= =0A= begalt =3D b =3D bufp->buffer;=0A= =0A= =0A= while (p !=3D pend)=0A= {=0A= do {if (p =3D=3D pend) return REG_EEND; c =3D (unsigned char) *p++; i= f (translate) c =3D (unsigned char) translate[c]; } while (0);=0A= =0A= switch (c)=0A= {=0A= case '^':=0A= {=0A= if (=0A= p =3D=3D pattern + 1=0A= =0A= || syntax & (((((unsigned long int) 1) << 1) << 1) << 1)=0A= =0A= || byte_at_begline_loc_p (pattern, p, syntax))=0A= do { while ((unsigned long) (b - bufp->buffer + (1)) > bufp->= allocated) do { unsigned char *old_buffer =3D bufp->buffer; if (bufp->alloc= ated =3D=3D (1L << 16)) return REG_ESIZE; bufp->allocated <<=3D 1; if (bufp= ->allocated > (1L << 16)) bufp->allocated =3D (1L << 16); bufp->buffer =3D = (unsigned char *) realloc ((bufp->buffer), (bufp->allocated)); if (bufp->bu= ffer =3D=3D 0) return REG_ESPACE; if (old_buffer !=3D bufp->buffer) { int i= ncr =3D bufp->buffer - old_buffer; (b) +=3D incr; (begalt) +=3D incr; if (f= ixup_alt_jump) (fixup_alt_jump) +=3D incr; if (laststart) (laststart) +=3D = incr; if (pending_exact) (pending_exact) +=3D incr; } } while (0); *b++ =3D= (unsigned char) (begline); } while (0);=0A= else=0A= goto normal_char;=0A= }=0A= break;=0A= =0A= =0A= case '$':=0A= {=0A= if (=0A= p =3D=3D pend=0A= =0A= || syntax & (((((unsigned long int) 1) << 1) << 1) << 1)=0A= =0A= || byte_at_endline_loc_p (p, pend, syntax))=0A= do { while ((unsigned long) (b - bufp->buffer + (1)) > bufp-= >allocated) do { unsigned char *old_buffer =3D bufp->buffer; if (bufp->allo= cated =3D=3D (1L << 16)) return REG_ESIZE; bufp->allocated <<=3D 1; if (buf= p->allocated > (1L << 16)) bufp->allocated =3D (1L << 16); bufp->buffer =3D= (unsigned char *) realloc ((bufp->buffer), (bufp->allocated)); if (bufp->b= uffer =3D=3D 0) return REG_ESPACE; if (old_buffer !=3D bufp->buffer) { int = incr =3D bufp->buffer - old_buffer; (b) +=3D incr; (begalt) +=3D incr; if (= fixup_alt_jump) (fixup_alt_jump) +=3D incr; if (laststart) (laststart) +=3D= incr; if (pending_exact) (pending_exact) +=3D incr; } } while (0); *b++ = =3D (unsigned char) (endline); } while (0);=0A= else=0A= goto normal_char;=0A= }=0A= break;=0A= =0A= =0A= case '+':=0A= case '?':=0A= if ((syntax & (((unsigned long int) 1) << 1))=0A= || (syntax & ((((((((((((unsigned long int) 1) << 1) << 1) <<= 1) << 1) << 1) << 1) << 1) << 1) << 1) << 1)))=0A= goto normal_char;=0A= handle_plus:=0A= case '*':=0A= =0A= if (!laststart)=0A= {=0A= if (syntax & (((((((unsigned long int) 1) << 1) << 1) << 1) <= < 1) << 1))=0A= return (free (compile_stack.stack), REG_BADRPT);=0A= else if (!(syntax & ((((((unsigned long int) 1) << 1) << 1) <= < 1) << 1)))=0A= goto normal_char;=0A= }=0A= =0A= {=0A= =0A= boolean keep_string_p =3D 0;=0A= =0A= =0A= char zero_times_ok =3D 0, many_times_ok =3D 0;=0A= =0A= =0A= =0A= =0A= =0A= =0A= for (;;)=0A= {=0A= zero_times_ok |=3D c !=3D '+';=0A= many_times_ok |=3D c !=3D '?';=0A= =0A= if (p =3D=3D pend)=0A= break;=0A= =0A= do {if (p =3D=3D pend) return REG_EEND; c =3D (unsigned cha= r) *p++; if (translate) c =3D (unsigned char) translate[c]; } while (0);=0A= =0A= if (c =3D=3D '*'=0A= || (!(syntax & (((unsigned long int) 1) << 1)) && (c = =3D=3D '+' || c =3D=3D '?')))=0A= ;=0A= =0A= else if (syntax & (((unsigned long int) 1) << 1) && c =3D= =3D '\\')=0A= {=0A= if (p =3D=3D pend) return (free (compile_stack.stack), = REG_EESCAPE);=0A= =0A= do {if (p =3D=3D pend) return REG_EEND; c1 =3D (unsigne= d char) *p++; if (translate) c1 =3D (unsigned char) translate[c1]; } while = (0);=0A= if (!(c1 =3D=3D '+' || c1 =3D=3D '?'))=0A= {=0A= p--;=0A= p--;=0A= break;=0A= }=0A= =0A= c =3D c1;=0A= }=0A= else=0A= {=0A= p--;=0A= break;=0A= }=0A= =0A= =0A= }=0A= =0A= =0A= =0A= if (!laststart)=0A= break;=0A= =0A= =0A= =0A= if (many_times_ok)=0A= {=0A= # 2606 "../../libiberty/regex.c"=0A= ;=0A= =0A= =0A= while ((unsigned long) (b - bufp->buffer + (1 + 2)) > bufp-= >allocated) do { unsigned char *old_buffer =3D bufp->buffer; if (bufp->allo= cated =3D=3D (1L << 16)) return REG_ESIZE; bufp->allocated <<=3D 1; if (buf= p->allocated > (1L << 16)) bufp->allocated =3D (1L << 16); bufp->buffer =3D= (unsigned char *) realloc ((bufp->buffer), (bufp->allocated)); if (bufp->b= uffer =3D=3D 0) return REG_ESPACE; if (old_buffer !=3D bufp->buffer) { int = incr =3D bufp->buffer - old_buffer; (b) +=3D incr; (begalt) +=3D incr; if (= fixup_alt_jump) (fixup_alt_jump) +=3D incr; if (laststart) (laststart) +=3D= incr; if (pending_exact) (pending_exact) +=3D incr; } } while (0);=0A= =0A= =0A= =0A= =0A= =0A= =0A= if ((translate ? (char) translate[(unsigned char) (*(p - 2)= )] : (*(p - 2))) =3D=3D (translate ? (char) translate[(unsigned char) ('.')= ] : ('.'))=0A= && zero_times_ok=0A= && p < pend && (translate ? (char) translate[(unsigned = char) (*p)] : (*p)) =3D=3D (translate ? (char) translate[(unsigned char) ('= \n')] : ('\n'))=0A= && !(syntax & ((((((((unsigned long int) 1) << 1) << 1)= << 1) << 1) << 1) << 1)))=0A= {=0A= byte_store_op1 (jump, b, (int) ((laststart) - (b) - (1 = + 2)));=0A= keep_string_p =3D 1;=0A= }=0A= else=0A= =0A= =20=20=20=20=20=20=20=20=20=20=20=20=20=20=20=20=20=0A= byte_store_op1 (maybe_pop_jump, b, (int) ((laststart - (1 + 2)) - = (b) - (1 + 2)));=0A= =0A= =0A= b +=3D 1 + 2;=0A= }=0A= =0A= =0A= =0A= =0A= =0A= while ((unsigned long) (b - bufp->buffer + (1 + 2)) > bufp->all= ocated) do { unsigned char *old_buffer =3D bufp->buffer; if (bufp->allocate= d =3D=3D (1L << 16)) return REG_ESIZE; bufp->allocated <<=3D 1; if (bufp->a= llocated > (1L << 16)) bufp->allocated =3D (1L << 16); bufp->buffer =3D (un= signed char *) realloc ((bufp->buffer), (bufp->allocated)); if (bufp->buffe= r =3D=3D 0) return REG_ESPACE; if (old_buffer !=3D bufp->buffer) { int incr= =3D bufp->buffer - old_buffer; (b) +=3D incr; (begalt) +=3D incr; if (fixu= p_alt_jump) (fixup_alt_jump) +=3D incr; if (laststart) (laststart) +=3D inc= r; if (pending_exact) (pending_exact) +=3D incr; } } while (0);=0A= =20=20=20=20=20=20=20=20=20=20=20=0A= =20=20=20=20=20=20=20=20=20=20=20=20=20=20=20=20=20=20=20=20=20=20=20=20=20= =20=20=20=20=20=20=20=20=20=20=20=20=20=0A= byte_insert_op1 (keep_string_p ? on_failure_keep_s= tring_jump : on_failure_jump, laststart, (int) ((b + 1 + 2) - (laststart) -= (1 + 2)), b);=0A= pending_exact =3D 0;=0A= b +=3D 1 + 2;=0A= =0A= if (!zero_times_ok)=0A= {=0A= =0A= =0A= =0A= =0A= =0A= while ((unsigned long) (b - bufp->buffer + (1 + 2)) > bufp-= >allocated) do { unsigned char *old_buffer =3D bufp->buffer; if (bufp->allo= cated =3D=3D (1L << 16)) return REG_ESIZE; bufp->allocated <<=3D 1; if (buf= p->allocated > (1L << 16)) bufp->allocated =3D (1L << 16); bufp->buffer =3D= (unsigned char *) realloc ((bufp->buffer), (bufp->allocated)); if (bufp->b= uffer =3D=3D 0) return REG_ESPACE; if (old_buffer !=3D bufp->buffer) { int = incr =3D bufp->buffer - old_buffer; (b) +=3D incr; (begalt) +=3D incr; if (= fixup_alt_jump) (fixup_alt_jump) +=3D incr; if (laststart) (laststart) +=3D= incr; if (pending_exact) (pending_exact) +=3D incr; } } while (0);=0A= =20=20=20=20=20=20=20=20=20=20=20=20=20=20=20=0A= byte_insert_op1 (dummy_failure_jump, laststart, (int) ((laststart += 2 + 2 * 2) - (laststart) - (1 + 2)), b);=0A= b +=3D 1 + 2;=0A= }=0A= }=0A= break;=0A= =0A= =0A= case '.':=0A= laststart =3D b;=0A= do { while ((unsigned long) (b - bufp->buffer + (1)) > bufp->allo= cated) do { unsigned char *old_buffer =3D bufp->buffer; if (bufp->allocated= =3D=3D (1L << 16)) return REG_ESIZE; bufp->allocated <<=3D 1; if (bufp->al= located > (1L << 16)) bufp->allocated =3D (1L << 16); bufp->buffer =3D (uns= igned char *) realloc ((bufp->buffer), (bufp->allocated)); if (bufp->buffer= =3D=3D 0) return REG_ESPACE; if (old_buffer !=3D bufp->buffer) { int incr = =3D bufp->buffer - old_buffer; (b) +=3D incr; (begalt) +=3D incr; if (fixup= _alt_jump) (fixup_alt_jump) +=3D incr; if (laststart) (laststart) +=3D incr= ; if (pending_exact) (pending_exact) +=3D incr; } } while (0); *b++ =3D (un= signed char) (anychar); } while (0);=0A= break;=0A= =0A= =0A= case '[':=0A= {=0A= boolean had_char_class =3D 0;=0A= =0A= =0A= =0A= unsigned int range_start =3D 0xffffffff;=0A= =0A= if (p =3D=3D pend) return (free (compile_stack.stack), REG_EBRA= CK);=0A= # 3141 "../../libiberty/regex.c"=0A= while ((unsigned long) (b - bufp->buffer + (34)) > bufp->allocated) do= { unsigned char *old_buffer =3D bufp->buffer; if (bufp->allocated =3D=3D (= 1L << 16)) return REG_ESIZE; bufp->allocated <<=3D 1; if (bufp->allocated >= (1L << 16)) bufp->allocated =3D (1L << 16); bufp->buffer =3D (unsigned cha= r *) realloc ((bufp->buffer), (bufp->allocated)); if (bufp->buffer =3D=3D 0= ) return REG_ESPACE; if (old_buffer !=3D bufp->buffer) { int incr =3D bufp-= >buffer - old_buffer; (b) +=3D incr; (begalt) +=3D incr; if (fixup_alt_jump= ) (fixup_alt_jump) +=3D incr; if (laststart) (laststart) +=3D incr; if (pen= ding_exact) (pending_exact) +=3D incr; } } while (0);=0A= =0A= laststart =3D b;=0A= =0A= =0A= =0A= do { while ((unsigned long) (b - bufp->buffer + (1)) > bufp->al= located) do { unsigned char *old_buffer =3D bufp->buffer; if (bufp->allocat= ed =3D=3D (1L << 16)) return REG_ESIZE; bufp->allocated <<=3D 1; if (bufp->= allocated > (1L << 16)) bufp->allocated =3D (1L << 16); bufp->buffer =3D (u= nsigned char *) realloc ((bufp->buffer), (bufp->allocated)); if (bufp->buff= er =3D=3D 0) return REG_ESPACE; if (old_buffer !=3D bufp->buffer) { int inc= r =3D bufp->buffer - old_buffer; (b) +=3D incr; (begalt) +=3D incr; if (fix= up_alt_jump) (fixup_alt_jump) +=3D incr; if (laststart) (laststart) +=3D in= cr; if (pending_exact) (pending_exact) +=3D incr; } } while (0); *b++ =3D (= unsigned char) (*p =3D=3D '^' ? charset_not : charset); } while (0);=0A= if (*p =3D=3D '^')=0A= p++;=0A= =0A= =0A= p1 =3D p;=0A= =0A= =0A= do { while ((unsigned long) (b - bufp->buffer + (1)) > bufp->al= located) do { unsigned char *old_buffer =3D bufp->buffer; if (bufp->allocat= ed =3D=3D (1L << 16)) return REG_ESIZE; bufp->allocated <<=3D 1; if (bufp->= allocated > (1L << 16)) bufp->allocated =3D (1L << 16); bufp->buffer =3D (u= nsigned char *) realloc ((bufp->buffer), (bufp->allocated)); if (bufp->buff= er =3D=3D 0) return REG_ESPACE; if (old_buffer !=3D bufp->buffer) { int inc= r =3D bufp->buffer - old_buffer; (b) +=3D incr; (begalt) +=3D incr; if (fix= up_alt_jump) (fixup_alt_jump) +=3D incr; if (laststart) (laststart) +=3D in= cr; if (pending_exact) (pending_exact) +=3D incr; } } while (0); *b++ =3D (= unsigned char) ((1 << 8) / 8); } while (0);=0A= =0A= =0A= bzero (b, (1 << 8) / 8);=0A= =0A= =0A= if ((re_opcode_t) b[-2] =3D=3D charset_not=0A= && (syntax & ((((((((((unsigned long int) 1) << 1) << 1) <<= 1) << 1) << 1) << 1) << 1) << 1)))=0A= (b[((unsigned char) ('\n')) / 8] |=3D 1 << (((unsigned char) = '\n') % 8));=0A= =0A= =0A= for (;;)=0A= {=0A= if (p =3D=3D pend) return (free (compile_stack.stack), REG_= EBRACK);=0A= =0A= do {if (p =3D=3D pend) return REG_EEND; c =3D (unsigned cha= r) *p++; if (translate) c =3D (unsigned char) translate[c]; } while (0);=0A= =0A= =0A= if ((syntax & ((unsigned long int) 1)) && c =3D=3D '\\')=0A= {=0A= if (p =3D=3D pend) return (free (compile_stack.stack), = REG_EESCAPE);=0A= =0A= do {if (p =3D=3D pend) return REG_EEND; c1 =3D (unsigne= d char) *p++; if (translate) c1 =3D (unsigned char) translate[c1]; } while = (0);=0A= (b[((unsigned char) (c1)) / 8] |=3D 1 << (((unsigned ch= ar) c1) % 8));=0A= range_start =3D c1;=0A= continue;=0A= }=0A= =0A= =0A= =0A= =0A= if (c =3D=3D ']' && p !=3D p1 + 1)=0A= break;=0A= =0A= =0A= =0A= if (had_char_class && c =3D=3D '-' && *p !=3D ']')=0A= return (free (compile_stack.stack), REG_ERANGE);=0A= =0A= =0A= =0A= =0A= =0A= if (c =3D=3D '-'=0A= && !(p - 2 >=3D pattern && p[-2] =3D=3D '[')=0A= && !(p - 3 >=3D pattern && p[-3] =3D=3D '[' && p[-2] = =3D=3D '^')=0A= && *p !=3D ']')=0A= {=0A= reg_errcode_t ret=0A= =3D byte_compile_range (range_start, &p, pend, transl= ate,=0A= syntax, b);=0A= if (ret !=3D REG_NOERROR) return (free (compile_stack.s= tack), ret);=0A= range_start =3D 0xffffffff;=0A= }=0A= =0A= else if (p[0] =3D=3D '-' && p[1] !=3D ']')=0A= {=0A= reg_errcode_t ret;=0A= =0A= =0A= do {if (p =3D=3D pend) return REG_EEND; c1 =3D (unsigne= d char) *p++; if (translate) c1 =3D (unsigned char) translate[c1]; } while = (0);=0A= =0A= ret =3D byte_compile_range (c, &p, pend, translate, syn= tax, b);=0A= if (ret !=3D REG_NOERROR) return (free (compile_stack.s= tack), ret);=0A= range_start =3D 0xffffffff;=0A= }=0A= =0A= =0A= =0A= =0A= else if (syntax & ((((unsigned long int) 1) << 1) << 1) && = c =3D=3D '[' && *p =3D=3D ':')=0A= {=0A= char str[6 + 1];=0A= =0A= do {if (p =3D=3D pend) return REG_EEND; c =3D (unsigned= char) *p++; if (translate) c =3D (unsigned char) translate[c]; } while (0)= ;=0A= c1 =3D 0;=0A= =0A= =0A= if (p =3D=3D pend) return (free (compile_stack.stack), = REG_EBRACK);=0A= =0A= for (;;)=0A= {=0A= do {if (p =3D=3D pend) return REG_EEND; c =3D (unsi= gned char) *p++; if (translate) c =3D (unsigned char) translate[c]; } while= (0);=0A= if ((c =3D=3D ':' && *p =3D=3D ']') || p =3D=3D pen= d)=0A= break;=0A= if (c1 < 6)=0A= str[c1++] =3D c;=0A= else=0A= =0A= str[0] =3D '\0';=0A= }=0A= str[c1] =3D '\0';=0A= =0A= =0A= =0A= =0A= if (c =3D=3D ':' && *p =3D=3D ']')=0A= {=0A= # 3286 "../../libiberty/regex.c"=0A= int ch;=0A= boolean is_alnum =3D ((strcmp (str, "alnum") =3D=3D= 0));=0A= boolean is_alpha =3D ((strcmp (str, "alpha") =3D=3D= 0));=0A= boolean is_blank =3D ((strcmp (str, "blank") =3D=3D= 0));=0A= boolean is_cntrl =3D ((strcmp (str, "cntrl") =3D=3D= 0));=0A= boolean is_digit =3D ((strcmp (str, "digit") =3D=3D= 0));=0A= boolean is_graph =3D ((strcmp (str, "graph") =3D=3D= 0));=0A= boolean is_lower =3D ((strcmp (str, "lower") =3D=3D= 0));=0A= boolean is_print =3D ((strcmp (str, "print") =3D=3D= 0));=0A= boolean is_punct =3D ((strcmp (str, "punct") =3D=3D= 0));=0A= boolean is_space =3D ((strcmp (str, "space") =3D=3D= 0));=0A= boolean is_upper =3D ((strcmp (str, "upper") =3D=3D= 0));=0A= boolean is_xdigit =3D ((strcmp (str, "xdigit") =3D= =3D 0));=0A= =0A= if (!(((strcmp (str, "alpha") =3D=3D 0)) || ((strcm= p (str, "upper") =3D=3D 0)) || ((strcmp (str, "lower") =3D=3D 0)) || ((strc= mp (str, "digit") =3D=3D 0)) || ((strcmp (str, "alnum") =3D=3D 0)) || ((str= cmp (str, "xdigit") =3D=3D 0)) || ((strcmp (str, "space") =3D=3D 0)) || ((s= trcmp (str, "print") =3D=3D 0)) || ((strcmp (str, "punct") =3D=3D 0)) || ((= strcmp (str, "graph") =3D=3D 0)) || ((strcmp (str, "cntrl") =3D=3D 0)) || (= (strcmp (str, "blank") =3D=3D 0))))=0A= return (free (compile_stack.stack), REG_ECTYPE);=0A= =0A= =0A= =0A= do {if (p =3D=3D pend) return REG_EEND; c =3D (unsi= gned char) *p++; if (translate) c =3D (unsigned char) translate[c]; } while= (0);=0A= =0A= if (p =3D=3D pend) return (free (compile_stack.stac= k), REG_EBRACK);=0A= =0A= for (ch =3D 0; ch < 1 << 8; ch++)=0A= {=0A= =0A= =0A= if ( (is_alnum && (((ch & ~0x7F) =3D=3D 0) && _= _istype((ch), (0x00000100L|0x00000400L))))=0A= || (is_alpha && (((ch & ~0x7F) =3D=3D 0) &&= __istype((ch), 0x00000100L)))=0A= || (is_blank && (((ch & ~0x7F) =3D=3D 0) &&= __istype((ch), 0x00020000L)))=0A= || (is_cntrl && (((ch & ~0x7F) =3D=3D 0) &&= __istype((ch), 0x00000200L))))=0A= (b[((unsigned char) (ch)) / 8] |=3D 1 << (((unsigned char) ch) % 8= ));=0A= if ( (is_digit && (((ch & ~0x7F) =3D=3D 0) && __isctype((ch), 0x0000= 0400L)))=0A= || (is_graph && (((ch & ~0x7F) =3D=3D 0) &&= __istype((ch), 0x00000800L)))=0A= || (is_lower && (((ch & ~0x7F) =3D=3D 0) &&= __istype((ch), 0x00001000L)))=0A= || (is_print && (((ch & ~0x7F) =3D=3D 0) &&= __istype((ch), 0x00040000L))))=0A= (b[((unsigned char) (ch)) / 8] |=3D 1 << (((unsigned char) ch) % 8= ));=0A= if ( (is_punct && (((ch & ~0x7F) =3D=3D 0) && __istype((ch), 0x00002= 000L)))=0A= || (is_space && (((ch & ~0x7F) =3D=3D 0) &&= __istype((ch), 0x00004000L)))=0A= || (is_upper && (((ch & ~0x7F) =3D=3D 0) &&= __istype((ch), 0x00008000L)))=0A= || (is_xdigit && (((ch & ~0x7F) =3D=3D 0) &= & __isctype((ch), 0x00010000L))))=0A= (b[((unsigned char) (ch)) / 8] |=3D 1 << (((unsigned char) ch) % 8= ));=0A= if ( translate && (is_upper || is_lower)=0A= && ((((ch & ~0x7F) =3D=3D 0) && __istype((ch), 0x00008000L)) || (((ch &= ~0x7F) =3D=3D 0) && __istype((ch), 0x00001000L))))=0A= (b[((unsigned char) (ch)) / 8] |=3D 1 << (((unsigned char) ch) % 8= ));=0A= }=0A= had_char_class =3D 1;=0A= =0A= }=0A= else=0A= {=0A= c1++;=0A= while (c1--)=0A= p--;=0A= (b[((unsigned char) ('[')) / 8] |=3D 1 << (((unsign= ed char) '[') % 8));=0A= (b[((unsigned char) (':')) / 8] |=3D 1 << (((unsign= ed char) ':') % 8));=0A= range_start =3D ':';=0A= had_char_class =3D 0;=0A= }=0A= }=0A= else if (syntax & ((((unsigned long int) 1) << 1) << 1) && = c =3D=3D '[' && *p =3D=3D '=3D')=0A= {=0A= unsigned char str[1 + 1];=0A= =0A= =0A= =0A= =0A= =0A= do {if (p =3D=3D pend) return REG_EEND; c =3D (unsigned char) *p++; i= f (translate) c =3D (unsigned char) translate[c]; } while (0);=0A= c1 =3D 0;=0A= =0A= =0A= if (p =3D=3D pend) return (free (compile_stack.stack), REG_EBRACK);= =0A= =0A= for (;;)=0A= {=0A= do {if (p =3D=3D pend) return REG_EEND; c =3D (unsigned char) *p++; if (= translate) c =3D (unsigned char) translate[c]; } while (0);=0A= if ((c =3D=3D '=3D' && *p =3D=3D ']') || p =3D=3D pend)=0A= break;=0A= if (c1 < 1)=0A= str[c1++] =3D c;=0A= else=0A= =0A= str[0] =3D '\0';=0A= }=0A= str[c1] =3D '\0';=0A= =0A= if (c =3D=3D '=3D' && *p =3D=3D ']' && str[0] !=3D '\0')=0A= {=0A= # 3384 "../../libiberty/regex.c"=0A= {=0A= if (c1 !=3D 1)=0A= return (free (compile_stack.stack), REG_ECOLLATE);=0A= =0A= =0A= =0A= do {if (p =3D=3D pend) return REG_EEND; c =3D (unsigned char) *p++; = if (translate) c =3D (unsigned char) translate[c]; } while (0);=0A= =0A= =0A= (b[((unsigned char) (str[0])) / 8] |=3D 1 << (((unsigned char) str[0= ]) % 8));=0A= }=0A= # 3467 "../../libiberty/regex.c"=0A= had_char_class =3D 1;=0A= }=0A= else=0A= {=0A= c1++;=0A= while (c1--)=0A= p--;=0A= (b[((unsigned char) ('[')) / 8] |=3D 1 << (((unsign= ed char) '[') % 8));=0A= (b[((unsigned char) ('=3D')) / 8] |=3D 1 << (((unsi= gned char) '=3D') % 8));=0A= range_start =3D '=3D';=0A= had_char_class =3D 0;=0A= }=0A= }=0A= else if (syntax & ((((unsigned long int) 1) << 1) << 1) && = c =3D=3D '[' && *p =3D=3D '.')=0A= {=0A= unsigned char str[128];=0A= =0A= =0A= =0A= =0A= =0A= do {if (p =3D=3D pend) return REG_EEND; c =3D (unsigned char) *p++; i= f (translate) c =3D (unsigned char) translate[c]; } while (0);=0A= c1 =3D 0;=0A= =0A= =0A= if (p =3D=3D pend) return (free (compile_stack.stack), REG_EBRACK);= =0A= =0A= for (;;)=0A= {=0A= do {if (p =3D=3D pend) return REG_EEND; c =3D (unsigned char) *p++; if (= translate) c =3D (unsigned char) translate[c]; } while (0);=0A= if ((c =3D=3D '.' && *p =3D=3D ']') || p =3D=3D pend)=0A= break;=0A= if (c1 < sizeof (str))=0A= str[c1++] =3D c;=0A= else=0A= =0A= str[0] =3D '\0';=0A= }=0A= str[c1] =3D '\0';=0A= =0A= if (c =3D=3D '.' && *p =3D=3D ']' && str[0] !=3D '\0')=0A= {=0A= # 3519 "../../libiberty/regex.c"=0A= {=0A= if (c1 !=3D 1)=0A= return (free (compile_stack.stack), REG_ECOLLATE);=0A= =0A= =0A= =0A= do {if (p =3D=3D pend) return REG_EEND; c =3D (unsigned char) *p++; = if (translate) c =3D (unsigned char) translate[c]; } while (0);=0A= =0A= =0A= (b[((unsigned char) (str[0])) / 8] |=3D 1 << (((unsigned char) str[0= ]) % 8));=0A= range_start =3D ((const unsigned char *) str)[0];=0A= }=0A= # 3610 "../../libiberty/regex.c"=0A= had_char_class =3D 0;=0A= }=0A= else=0A= {=0A= c1++;=0A= while (c1--)=0A= p--;=0A= (b[((unsigned char) ('[')) / 8] |=3D 1 << (((unsign= ed char) '[') % 8));=0A= (b[((unsigned char) ('.')) / 8] |=3D 1 << (((unsign= ed char) '.') % 8));=0A= range_start =3D '.';=0A= had_char_class =3D 0;=0A= }=0A= }=0A= else=0A= {=0A= had_char_class =3D 0;=0A= (b[((unsigned char) (c)) / 8] |=3D 1 << (((unsigned cha= r) c) % 8));=0A= range_start =3D c;=0A= }=0A= }=0A= =0A= =0A= =0A= while ((int) b[-1] > 0 && b[b[-1] - 1] =3D=3D 0)=0A= b[-1]--;=0A= b +=3D b[-1];=0A= =0A= }=0A= break;=0A= =0A= =0A= case '(':=0A= if (syntax & (((((((((((((((unsigned long int) 1) << 1) << 1) << = 1) << 1) << 1) << 1) << 1) << 1) << 1) << 1) << 1) << 1) << 1))=0A= goto handle_open;=0A= else=0A= goto normal_char;=0A= =0A= =0A= case ')':=0A= if (syntax & (((((((((((((((unsigned long int) 1) << 1) << 1) << = 1) << 1) << 1) << 1) << 1) << 1) << 1) << 1) << 1) << 1) << 1))=0A= goto handle_close;=0A= else=0A= goto normal_char;=0A= =0A= =0A= case '\n':=0A= if (syntax & (((((((((((((unsigned long int) 1) << 1) << 1) << 1)= << 1) << 1) << 1) << 1) << 1) << 1) << 1) << 1))=0A= goto handle_alt;=0A= else=0A= goto normal_char;=0A= =0A= =0A= case '|':=0A= if (syntax & (((((((((((((((((unsigned long int) 1) << 1) << 1) <= < 1) << 1) << 1) << 1) << 1) << 1) << 1) << 1) << 1) << 1) << 1) << 1) << 1= ))=0A= goto handle_alt;=0A= else=0A= goto normal_char;=0A= =0A= =0A= case '{':=0A= if (syntax & (((((((((((unsigned long int) 1) << 1) << 1) << 1) = << 1) << 1) << 1) << 1) << 1) << 1) && syntax & ((((((((((((((unsigned long= int) 1) << 1) << 1) << 1) << 1) << 1) << 1) << 1) << 1) << 1) << 1) << 1) = << 1))=0A= goto handle_interval;=0A= else=0A= goto normal_char;=0A= =0A= =0A= case '\\':=0A= if (p =3D=3D pend) return (free (compile_stack.stack), REG_EESCAP= E);=0A= =0A= =0A= =0A= =0A= do {if (p =3D=3D pend) return REG_EEND; c =3D (unsigned char) *p+= +; } while (0);=0A= =0A= switch (c)=0A= {=0A= case '(':=0A= if (syntax & (((((((((((((((unsigned long int) 1) << 1) << 1)= << 1) << 1) << 1) << 1) << 1) << 1) << 1) << 1) << 1) << 1) << 1))=0A= goto normal_backslash;=0A= =0A= handle_open:=0A= bufp->re_nsub++;=0A= regnum++;=0A= =0A= if ((compile_stack.avail =3D=3D compile_stack.size))=0A= {=0A= =20=20=20=20=20=20=20=20=20=20=20=20=20=20=20=20=20=0A= ((compile_stack.stack) =3D (compile_stack_elt_t= *) realloc (compile_stack.stack, (compile_stack.size << 1) * sizeof (compi= le_stack_elt_t)));=0A= if (compile_stack.stack =3D=3D 0) return REG_ESPACE;=0A= =0A= compile_stack.size <<=3D 1;=0A= }=0A= =0A= =0A= =0A= =0A= =0A= (compile_stack.stack[compile_stack.avail]).begalt_offset =3D = begalt - bufp->buffer;=0A= (compile_stack.stack[compile_stack.avail]).fixup_alt_jump=0A= =3D fixup_alt_jump ? fixup_alt_jump - bufp->buffer + 1 : 0;= =0A= (compile_stack.stack[compile_stack.avail]).laststart_offset = =3D b - bufp->buffer;=0A= (compile_stack.stack[compile_stack.avail]).regnum =3D regnum;= =0A= =0A= =0A= =0A= =0A= =0A= if (regnum <=3D 255)=0A= {=0A= (compile_stack.stack[compile_stack.avail]).inner_group_of= fset =3D b=0A= - bufp->buffer + 2;=0A= do { while ((unsigned long) (b - bufp->buffer + (3)) > bu= fp->allocated) do { unsigned char *old_buffer =3D bufp->buffer; if (bufp->a= llocated =3D=3D (1L << 16)) return REG_ESIZE; bufp->allocated <<=3D 1; if (= bufp->allocated > (1L << 16)) bufp->allocated =3D (1L << 16); bufp->buffer = =3D (unsigned char *) realloc ((bufp->buffer), (bufp->allocated)); if (bufp= ->buffer =3D=3D 0) return REG_ESPACE; if (old_buffer !=3D bufp->buffer) { i= nt incr =3D bufp->buffer - old_buffer; (b) +=3D incr; (begalt) +=3D incr; i= f (fixup_alt_jump) (fixup_alt_jump) +=3D incr; if (laststart) (laststart) += =3D incr; if (pending_exact) (pending_exact) +=3D incr; } } while (0); *b++= =3D (unsigned char) (start_memory); *b++ =3D (unsigned char) (regnum); *b+= + =3D (unsigned char) (0); } while (0);=0A= }=0A= =0A= compile_stack.avail++;=0A= =0A= fixup_alt_jump =3D 0;=0A= laststart =3D 0;=0A= begalt =3D b;=0A= =0A= =0A= =0A= pending_exact =3D 0;=0A= break;=0A= =0A= =0A= case ')':=0A= if (syntax & (((((((((((((((unsigned long int) 1) << 1) << 1)= << 1) << 1) << 1) << 1) << 1) << 1) << 1) << 1) << 1) << 1) << 1)) goto no= rmal_backslash;=0A= =0A= if ((compile_stack.avail =3D=3D 0))=0A= {=0A= if (syntax & (((((((((((((((((((unsigned long int) 1) << 1) << 1) << 1)= << 1) << 1) << 1) << 1) << 1) << 1) << 1) << 1) << 1) << 1) << 1) << 1) <<= 1) << 1))=0A= goto normal_backslash;=0A= else=0A= return (free (compile_stack.stack), REG_ERPAREN);=0A= }=0A= =0A= handle_close:=0A= if (fixup_alt_jump)=0A= {=0A= =0A= =0A= =0A= do { while ((unsigned long) (b - bufp->buffer + (1)) > bu= fp->allocated) do { unsigned char *old_buffer =3D bufp->buffer; if (bufp->a= llocated =3D=3D (1L << 16)) return REG_ESIZE; bufp->allocated <<=3D 1; if (= bufp->allocated > (1L << 16)) bufp->allocated =3D (1L << 16); bufp->buffer = =3D (unsigned char *) realloc ((bufp->buffer), (bufp->allocated)); if (bufp= ->buffer =3D=3D 0) return REG_ESPACE; if (old_buffer !=3D bufp->buffer) { i= nt incr =3D bufp->buffer - old_buffer; (b) +=3D incr; (begalt) +=3D incr; i= f (fixup_alt_jump) (fixup_alt_jump) +=3D incr; if (laststart) (laststart) += =3D incr; if (pending_exact) (pending_exact) +=3D incr; } } while (0); *b++= =3D (unsigned char) (push_dummy_failure); } while (0);=0A= =0A= =0A= =0A= byte_store_op1 (jump_past_alt, fixup_alt_jump, (int) ((b = - 1) - (fixup_alt_jump) - (1 + 2)));=0A= }=0A= =0A= =0A= if ((compile_stack.avail =3D=3D 0))=0A= {=0A= if (syntax & (((((((((((((((((((unsigned long int) 1) << 1) << 1) << 1)= << 1) << 1) << 1) << 1) << 1) << 1) << 1) << 1) << 1) << 1) << 1) << 1) <<= 1) << 1))=0A= goto normal_char;=0A= else=0A= return (free (compile_stack.stack), REG_ERPAREN);=0A= }=0A= =0A= =0A= =0A= ;=0A= {=0A= =0A= =0A= =0A= regnum_t this_group_regnum;=0A= =0A= compile_stack.avail--;=0A= begalt =3D bufp->buffer + (compile_stack.stack[compile_stac= k.avail]).begalt_offset;=0A= fixup_alt_jump=0A= =3D (compile_stack.stack[compile_stack.avail]).fixup_alt_= jump=0A= ? bufp->buffer + (compile_stack.stack[compile_stack.ava= il]).fixup_alt_jump - 1=0A= : 0;=0A= laststart =3D bufp->buffer + (compile_stack.stack[compile_s= tack.avail]).laststart_offset;=0A= this_group_regnum =3D (compile_stack.stack[compile_stack.av= ail]).regnum;=0A= =0A= =0A= =0A= pending_exact =3D 0;=0A= =0A= =0A= =0A= if (this_group_regnum <=3D 255)=0A= {=0A= unsigned char *inner_group_loc=0A= =3D bufp->buffer + (compile_stack.stack[compile_stack= .avail]).inner_group_offset;=0A= =0A= *inner_group_loc =3D regnum - this_group_regnum;=0A= =20=20=20=20=20=20=20=20=20=20=20=20=20=20=20=20=20=20=20=0A= do { while ((unsigned long) (b - bufp->buff= er + (3)) > bufp->allocated) do { unsigned char *old_buffer =3D bufp->buffe= r; if (bufp->allocated =3D=3D (1L << 16)) return REG_ESIZE; bufp->allocated= <<=3D 1; if (bufp->allocated > (1L << 16)) bufp->allocated =3D (1L << 16);= bufp->buffer =3D (unsigned char *) realloc ((bufp->buffer), (bufp->allocat= ed)); if (bufp->buffer =3D=3D 0) return REG_ESPACE; if (old_buffer !=3D buf= p->buffer) { int incr =3D bufp->buffer - old_buffer; (b) +=3D incr; (begalt= ) +=3D incr; if (fixup_alt_jump) (fixup_alt_jump) +=3D incr; if (laststart)= (laststart) +=3D incr; if (pending_exact) (pending_exact) +=3D incr; } } w= hile (0); *b++ =3D (unsigned char) (stop_memory); *b++ =3D (unsigned char) = (this_group_regnum); *b++ =3D (unsigned char) (regnum - this_group_regnum);= } while (0);=0A= }=0A= }=0A= break;=0A= =0A= =0A= case '|':=0A= if (syntax & ((((((((((((unsigned long int) 1) << 1) << 1) <<= 1) << 1) << 1) << 1) << 1) << 1) << 1) << 1) || syntax & (((((((((((((((((= unsigned long int) 1) << 1) << 1) << 1) << 1) << 1) << 1) << 1) << 1) << 1)= << 1) << 1) << 1) << 1) << 1) << 1))=0A= goto normal_backslash;=0A= handle_alt:=0A= if (syntax & ((((((((((((unsigned long int) 1) << 1) << 1) <<= 1) << 1) << 1) << 1) << 1) << 1) << 1) << 1))=0A= goto normal_char;=0A= =0A= =0A= =0A= while ((unsigned long) (b - bufp->buffer + (1 + 2)) > bufp->a= llocated) do { unsigned char *old_buffer =3D bufp->buffer; if (bufp->alloca= ted =3D=3D (1L << 16)) return REG_ESIZE; bufp->allocated <<=3D 1; if (bufp-= >allocated > (1L << 16)) bufp->allocated =3D (1L << 16); bufp->buffer =3D (= unsigned char *) realloc ((bufp->buffer), (bufp->allocated)); if (bufp->buf= fer =3D=3D 0) return REG_ESPACE; if (old_buffer !=3D bufp->buffer) { int in= cr =3D bufp->buffer - old_buffer; (b) +=3D incr; (begalt) +=3D incr; if (fi= xup_alt_jump) (fixup_alt_jump) +=3D incr; if (laststart) (laststart) +=3D i= ncr; if (pending_exact) (pending_exact) +=3D incr; } } while (0);=0A= =20=20=20=20=20=20=20=20=20=20=20=20=20=0A= byte_insert_op1 (on_failure_jump, begalt, (int) ((b + 2 + 2 * 2) - (b= egalt) - (1 + 2)), b);=0A= pending_exact =3D 0;=0A= b +=3D 1 + 2;=0A= # 3837 "../../libiberty/regex.c"=0A= if (fixup_alt_jump)=0A= byte_store_op1 (jump_past_alt, fixup_alt_jump, (int) ((b) -= (fixup_alt_jump) - (1 + 2)));=0A= =0A= =0A= =0A= =0A= fixup_alt_jump =3D b;=0A= while ((unsigned long) (b - bufp->buffer + (1 + 2)) > bufp->a= llocated) do { unsigned char *old_buffer =3D bufp->buffer; if (bufp->alloca= ted =3D=3D (1L << 16)) return REG_ESIZE; bufp->allocated <<=3D 1; if (bufp-= >allocated > (1L << 16)) bufp->allocated =3D (1L << 16); bufp->buffer =3D (= unsigned char *) realloc ((bufp->buffer), (bufp->allocated)); if (bufp->buf= fer =3D=3D 0) return REG_ESPACE; if (old_buffer !=3D bufp->buffer) { int in= cr =3D bufp->buffer - old_buffer; (b) +=3D incr; (begalt) +=3D incr; if (fi= xup_alt_jump) (fixup_alt_jump) +=3D incr; if (laststart) (laststart) +=3D i= ncr; if (pending_exact) (pending_exact) +=3D incr; } } while (0);=0A= b +=3D 1 + 2;=0A= =0A= laststart =3D 0;=0A= begalt =3D b;=0A= break;=0A= =0A= =0A= case '{':=0A= =0A= if (!(syntax & (((((((((((unsigned long int) 1) << 1) << 1) <= < 1) << 1) << 1) << 1) << 1) << 1) << 1))=0A= =0A= =0A= || (syntax & ((((((((((((((unsigned long int) 1) << 1) << 1) << 1) << 1= ) << 1) << 1) << 1) << 1) << 1) << 1) << 1) << 1)))=0A= goto normal_backslash;=0A= =0A= handle_interval:=0A= {=0A= =0A= =0A= =0A= int lower_bound =3D -1, upper_bound =3D -1;=0A= =0A= =0A= =0A= const char *beg_interval =3D p;=0A= =0A= if (p =3D=3D pend)=0A= goto invalid_interval;=0A= =0A= { while (p !=3D pend) { do {if (p =3D=3D pend) return REG_E= END; c =3D (unsigned char) *p++; if (translate) c =3D (unsigned char) trans= late[c]; } while (0); if (c < '0' || c > '9') break; if (lower_bound <=3D (= 0x7fff)) { if (lower_bound < 0) lower_bound =3D 0; lower_bound =3D lower_bo= und * 10 + c - '0'; } } };=0A= =0A= if (c =3D=3D ',')=0A= {=0A= { while (p !=3D pend) { do {if (p =3D=3D pend) return R= EG_EEND; c =3D (unsigned char) *p++; if (translate) c =3D (unsigned char) t= ranslate[c]; } while (0); if (c < '0' || c > '9') break; if (upper_bound <= =3D (0x7fff)) { if (upper_bound < 0) upper_bound =3D 0; upper_bound =3D upp= er_bound * 10 + c - '0'; } } };=0A= if (upper_bound < 0)=0A= upper_bound =3D (0x7fff);=0A= }=0A= else=0A= =0A= upper_bound =3D lower_bound;=0A= =0A= if (! (0 <=3D lower_bound && lower_bound <=3D upper_bound))= =0A= goto invalid_interval;=0A= =0A= if (!(syntax & ((((((((((((((unsigned long int) 1) << 1) <<= 1) << 1) << 1) << 1) << 1) << 1) << 1) << 1) << 1) << 1) << 1)))=0A= {=0A= if (c !=3D '\\' || p =3D=3D pend)=0A= goto invalid_interval;=0A= do {if (p =3D=3D pend) return REG_EEND; c =3D (unsigned= char) *p++; if (translate) c =3D (unsigned char) translate[c]; } while (0)= ;=0A= }=0A= =0A= if (c !=3D '}')=0A= goto invalid_interval;=0A= =0A= =0A= if (!laststart)=0A= {=0A= if (syntax & (((((((unsigned long int) 1) << 1) << 1) << 1) << 1) << = 1)=0A= && !(syntax & (((((((((((((((((((((((unsigned long int) 1) << 1) << 1) <= < 1) << 1) << 1) << 1) << 1) << 1) << 1) << 1) << 1) << 1) << 1) << 1) << 1= ) << 1) << 1) << 1) << 1) << 1) << 1)))=0A= return (free (compile_stack.stack), REG_BADRPT);=0A= else if (syntax & ((((((unsigned long int) 1) << 1) << = 1) << 1) << 1))=0A= laststart =3D b;=0A= else=0A= goto unfetch_interval;=0A= }=0A= =0A= =0A= =0A= if ((0x7fff) < upper_bound)=0A= return (free (compile_stack.stack), REG_BADBR);=0A= =0A= =0A= =0A= =0A= =0A= =0A= if (upper_bound =3D=3D 0)=0A= {=0A= while ((unsigned long) (b - bufp->buffer + (1 + 2)) > = bufp->allocated) do { unsigned char *old_buffer =3D bufp->buffer; if (bufp-= >allocated =3D=3D (1L << 16)) return REG_ESIZE; bufp->allocated <<=3D 1; if= (bufp->allocated > (1L << 16)) bufp->allocated =3D (1L << 16); bufp->buffe= r =3D (unsigned char *) realloc ((bufp->buffer), (bufp->allocated)); if (bu= fp->buffer =3D=3D 0) return REG_ESPACE; if (old_buffer !=3D bufp->buffer) {= int incr =3D bufp->buffer - old_buffer; (b) +=3D incr; (begalt) +=3D incr;= if (fixup_alt_jump) (fixup_alt_jump) +=3D incr; if (laststart) (laststart)= +=3D incr; if (pending_exact) (pending_exact) +=3D incr; } } while (0);=0A= =20=20=20=20=20=20=20=20=20=20=20=20=20=20=20=20=20=20=20=20=0A= byte_insert_op1 (jump, laststart, (int) ((b + 1 + 2) - (laststart) - = (1 + 2)), b);=0A= b +=3D 1 + 2;=0A= }=0A= # 3938 "../../libiberty/regex.c"=0A= else=0A= {=0A= =0A= unsigned nbytes =3D 2 + 4 * 2 +=0A= (upper_bound > 1) * (2 + 4 * 2);=0A= =0A= while ((unsigned long) (b - bufp->buffer + (nbytes)) >= bufp->allocated) do { unsigned char *old_buffer =3D bufp->buffer; if (bufp= ->allocated =3D=3D (1L << 16)) return REG_ESIZE; bufp->allocated <<=3D 1; i= f (bufp->allocated > (1L << 16)) bufp->allocated =3D (1L << 16); bufp->buff= er =3D (unsigned char *) realloc ((bufp->buffer), (bufp->allocated)); if (b= ufp->buffer =3D=3D 0) return REG_ESPACE; if (old_buffer !=3D bufp->buffer) = { int incr =3D bufp->buffer - old_buffer; (b) +=3D incr; (begalt) +=3D incr= ; if (fixup_alt_jump) (fixup_alt_jump) +=3D incr; if (laststart) (laststart= ) +=3D incr; if (pending_exact) (pending_exact) +=3D incr; } } while (0);= =0A= =0A= =0A= =0A= =0A= =0A= =0A= =20=20=20=20=20=20=20=20=20=20=20=20=20=20=20=20=20=20=20=20=0A= =20=20=20=20=20=20=20=20=20=20=20=20=20=20=20=20=20=20=20=20=20=20=20=20=20= =20=20=20=20=20=20=20=20=20=0A= =20=20=20=20=20=20=0A= byte_insert_op2 (succeed_n, laststart, (int) ((b + 1 + 2 * 2 + (uppe= r_bound > 1) * (1 + 2 * 2)) - (laststart) - (1 + 2)), lower_bound, b);=0A= b +=3D 1 + 2 * 2;=0A= # 3964 "../../libiberty/regex.c"=0A= byte_insert_op2 (set_number_at, laststart, 1=0A= + 2 * 2, lower_bound, b);=0A= b +=3D 1 + 2 * 2;=0A= =0A= if (upper_bound > 1)=0A= {=0A= =0A= =0A= =0A= =0A= =0A= =0A= =20=20=20=20=20=20=20=20=20=20=20=20=20=20=20=20=20=20=20=20=20=20=20=20=0A= =20=20=20=20=20=20=20=20=20=0A= byte_store_op2 (jump_n, b, (int) ((la= ststart + 2 * 2 + 1) - (b) - (1 + 2)), upper_bound - 1);=0A= b +=3D 1 + 2 * 2;=0A= # 3995 "../../libiberty/regex.c"=0A= byte_insert_op2 (set_number_at, laststart,=0A= b - laststart,=0A= upper_bound - 1, b);=0A= b +=3D 1 + 2 * 2;=0A= }=0A= }=0A= pending_exact =3D 0;=0A= break;=0A= =0A= invalid_interval:=0A= if (!(syntax & (((((((((((((((((((((((unsigned long int) 1) << 1) << 1) <= < 1) << 1) << 1) << 1) << 1) << 1) << 1) << 1) << 1) << 1) << 1) << 1) << 1= ) << 1) << 1) << 1) << 1) << 1) << 1)))=0A= return (free (compile_stack.stack), p =3D=3D pend ? REG_EBRACE : REG_BA= DBR);=0A= unfetch_interval:=0A= =0A= p =3D beg_interval;=0A= c =3D '{';=0A= if (syntax & ((((((((((((((unsigned long int) 1) << 1) << 1) << 1) << 1) = << 1) << 1) << 1) << 1) << 1) << 1) << 1) << 1))=0A= goto normal_char;=0A= else=0A= goto normal_backslash;=0A= }=0A= # 4038 "../../libiberty/regex.c"=0A= case 'w':=0A= if (syntax & (((((((((((((((((((((unsigned long int) 1) << 1) << 1) = << 1) << 1) << 1) << 1) << 1) << 1) << 1) << 1) << 1) << 1) << 1) << 1) << = 1) << 1) << 1) << 1) << 1))=0A= goto normal_char;=0A= laststart =3D b;=0A= do { while ((unsigned long) (b - bufp->buffer + (1)) > bufp->= allocated) do { unsigned char *old_buffer =3D bufp->buffer; if (bufp->alloc= ated =3D=3D (1L << 16)) return REG_ESIZE; bufp->allocated <<=3D 1; if (bufp= ->allocated > (1L << 16)) bufp->allocated =3D (1L << 16); bufp->buffer =3D = (unsigned char *) realloc ((bufp->buffer), (bufp->allocated)); if (bufp->bu= ffer =3D=3D 0) return REG_ESPACE; if (old_buffer !=3D bufp->buffer) { int i= ncr =3D bufp->buffer - old_buffer; (b) +=3D incr; (begalt) +=3D incr; if (f= ixup_alt_jump) (fixup_alt_jump) +=3D incr; if (laststart) (laststart) +=3D = incr; if (pending_exact) (pending_exact) +=3D incr; } } while (0); *b++ =3D= (unsigned char) (wordchar); } while (0);=0A= break;=0A= =0A= =0A= case 'W':=0A= if (syntax & (((((((((((((((((((((unsigned long int) 1) << 1) << 1) = << 1) << 1) << 1) << 1) << 1) << 1) << 1) << 1) << 1) << 1) << 1) << 1) << = 1) << 1) << 1) << 1) << 1))=0A= goto normal_char;=0A= laststart =3D b;=0A= do { while ((unsigned long) (b - bufp->buffer + (1)) > bufp->= allocated) do { unsigned char *old_buffer =3D bufp->buffer; if (bufp->alloc= ated =3D=3D (1L << 16)) return REG_ESIZE; bufp->allocated <<=3D 1; if (bufp= ->allocated > (1L << 16)) bufp->allocated =3D (1L << 16); bufp->buffer =3D = (unsigned char *) realloc ((bufp->buffer), (bufp->allocated)); if (bufp->bu= ffer =3D=3D 0) return REG_ESPACE; if (old_buffer !=3D bufp->buffer) { int i= ncr =3D bufp->buffer - old_buffer; (b) +=3D incr; (begalt) +=3D incr; if (f= ixup_alt_jump) (fixup_alt_jump) +=3D incr; if (laststart) (laststart) +=3D = incr; if (pending_exact) (pending_exact) +=3D incr; } } while (0); *b++ =3D= (unsigned char) (notwordchar); } while (0);=0A= break;=0A= =0A= =0A= case '<':=0A= if (syntax & (((((((((((((((((((((unsigned long int) 1) << 1) << 1) = << 1) << 1) << 1) << 1) << 1) << 1) << 1) << 1) << 1) << 1) << 1) << 1) << = 1) << 1) << 1) << 1) << 1))=0A= goto normal_char;=0A= do { while ((unsigned long) (b - bufp->buffer + (1)) > bufp->= allocated) do { unsigned char *old_buffer =3D bufp->buffer; if (bufp->alloc= ated =3D=3D (1L << 16)) return REG_ESIZE; bufp->allocated <<=3D 1; if (bufp= ->allocated > (1L << 16)) bufp->allocated =3D (1L << 16); bufp->buffer =3D = (unsigned char *) realloc ((bufp->buffer), (bufp->allocated)); if (bufp->bu= ffer =3D=3D 0) return REG_ESPACE; if (old_buffer !=3D bufp->buffer) { int i= ncr =3D bufp->buffer - old_buffer; (b) +=3D incr; (begalt) +=3D incr; if (f= ixup_alt_jump) (fixup_alt_jump) +=3D incr; if (laststart) (laststart) +=3D = incr; if (pending_exact) (pending_exact) +=3D incr; } } while (0); *b++ =3D= (unsigned char) (wordbeg); } while (0);=0A= break;=0A= =0A= case '>':=0A= if (syntax & (((((((((((((((((((((unsigned long int) 1) << 1) << 1) = << 1) << 1) << 1) << 1) << 1) << 1) << 1) << 1) << 1) << 1) << 1) << 1) << = 1) << 1) << 1) << 1) << 1))=0A= goto normal_char;=0A= do { while ((unsigned long) (b - bufp->buffer + (1)) > bufp->= allocated) do { unsigned char *old_buffer =3D bufp->buffer; if (bufp->alloc= ated =3D=3D (1L << 16)) return REG_ESIZE; bufp->allocated <<=3D 1; if (bufp= ->allocated > (1L << 16)) bufp->allocated =3D (1L << 16); bufp->buffer =3D = (unsigned char *) realloc ((bufp->buffer), (bufp->allocated)); if (bufp->bu= ffer =3D=3D 0) return REG_ESPACE; if (old_buffer !=3D bufp->buffer) { int i= ncr =3D bufp->buffer - old_buffer; (b) +=3D incr; (begalt) +=3D incr; if (f= ixup_alt_jump) (fixup_alt_jump) +=3D incr; if (laststart) (laststart) +=3D = incr; if (pending_exact) (pending_exact) +=3D incr; } } while (0); *b++ =3D= (unsigned char) (wordend); } while (0);=0A= break;=0A= =0A= case 'b':=0A= if (syntax & (((((((((((((((((((((unsigned long int) 1) << 1) << 1) = << 1) << 1) << 1) << 1) << 1) << 1) << 1) << 1) << 1) << 1) << 1) << 1) << = 1) << 1) << 1) << 1) << 1))=0A= goto normal_char;=0A= do { while ((unsigned long) (b - bufp->buffer + (1)) > bufp->= allocated) do { unsigned char *old_buffer =3D bufp->buffer; if (bufp->alloc= ated =3D=3D (1L << 16)) return REG_ESIZE; bufp->allocated <<=3D 1; if (bufp= ->allocated > (1L << 16)) bufp->allocated =3D (1L << 16); bufp->buffer =3D = (unsigned char *) realloc ((bufp->buffer), (bufp->allocated)); if (bufp->bu= ffer =3D=3D 0) return REG_ESPACE; if (old_buffer !=3D bufp->buffer) { int i= ncr =3D bufp->buffer - old_buffer; (b) +=3D incr; (begalt) +=3D incr; if (f= ixup_alt_jump) (fixup_alt_jump) +=3D incr; if (laststart) (laststart) +=3D = incr; if (pending_exact) (pending_exact) +=3D incr; } } while (0); *b++ =3D= (unsigned char) (wordbound); } while (0);=0A= break;=0A= =0A= case 'B':=0A= if (syntax & (((((((((((((((((((((unsigned long int) 1) << 1) << 1) = << 1) << 1) << 1) << 1) << 1) << 1) << 1) << 1) << 1) << 1) << 1) << 1) << = 1) << 1) << 1) << 1) << 1))=0A= goto normal_char;=0A= do { while ((unsigned long) (b - bufp->buffer + (1)) > bufp->= allocated) do { unsigned char *old_buffer =3D bufp->buffer; if (bufp->alloc= ated =3D=3D (1L << 16)) return REG_ESIZE; bufp->allocated <<=3D 1; if (bufp= ->allocated > (1L << 16)) bufp->allocated =3D (1L << 16); bufp->buffer =3D = (unsigned char *) realloc ((bufp->buffer), (bufp->allocated)); if (bufp->bu= ffer =3D=3D 0) return REG_ESPACE; if (old_buffer !=3D bufp->buffer) { int i= ncr =3D bufp->buffer - old_buffer; (b) +=3D incr; (begalt) +=3D incr; if (f= ixup_alt_jump) (fixup_alt_jump) +=3D incr; if (laststart) (laststart) +=3D = incr; if (pending_exact) (pending_exact) +=3D incr; } } while (0); *b++ =3D= (unsigned char) (notwordbound); } while (0);=0A= break;=0A= =0A= case '`':=0A= if (syntax & (((((((((((((((((((((unsigned long int) 1) << 1) << 1) = << 1) << 1) << 1) << 1) << 1) << 1) << 1) << 1) << 1) << 1) << 1) << 1) << = 1) << 1) << 1) << 1) << 1))=0A= goto normal_char;=0A= do { while ((unsigned long) (b - bufp->buffer + (1)) > bufp->= allocated) do { unsigned char *old_buffer =3D bufp->buffer; if (bufp->alloc= ated =3D=3D (1L << 16)) return REG_ESIZE; bufp->allocated <<=3D 1; if (bufp= ->allocated > (1L << 16)) bufp->allocated =3D (1L << 16); bufp->buffer =3D = (unsigned char *) realloc ((bufp->buffer), (bufp->allocated)); if (bufp->bu= ffer =3D=3D 0) return REG_ESPACE; if (old_buffer !=3D bufp->buffer) { int i= ncr =3D bufp->buffer - old_buffer; (b) +=3D incr; (begalt) +=3D incr; if (f= ixup_alt_jump) (fixup_alt_jump) +=3D incr; if (laststart) (laststart) +=3D = incr; if (pending_exact) (pending_exact) +=3D incr; } } while (0); *b++ =3D= (unsigned char) (begbuf); } while (0);=0A= break;=0A= =0A= case '\'':=0A= if (syntax & (((((((((((((((((((((unsigned long int) 1) << 1) << 1) = << 1) << 1) << 1) << 1) << 1) << 1) << 1) << 1) << 1) << 1) << 1) << 1) << = 1) << 1) << 1) << 1) << 1))=0A= goto normal_char;=0A= do { while ((unsigned long) (b - bufp->buffer + (1)) > bufp->= allocated) do { unsigned char *old_buffer =3D bufp->buffer; if (bufp->alloc= ated =3D=3D (1L << 16)) return REG_ESIZE; bufp->allocated <<=3D 1; if (bufp= ->allocated > (1L << 16)) bufp->allocated =3D (1L << 16); bufp->buffer =3D = (unsigned char *) realloc ((bufp->buffer), (bufp->allocated)); if (bufp->bu= ffer =3D=3D 0) return REG_ESPACE; if (old_buffer !=3D bufp->buffer) { int i= ncr =3D bufp->buffer - old_buffer; (b) +=3D incr; (begalt) +=3D incr; if (f= ixup_alt_jump) (fixup_alt_jump) +=3D incr; if (laststart) (laststart) +=3D = incr; if (pending_exact) (pending_exact) +=3D incr; } } while (0); *b++ =3D= (unsigned char) (endbuf); } while (0);=0A= break;=0A= =0A= case '1': case '2': case '3': case '4': case '5':=0A= case '6': case '7': case '8': case '9':=0A= if (syntax & ((((((((((((((((unsigned long int) 1) << 1) << 1= ) << 1) << 1) << 1) << 1) << 1) << 1) << 1) << 1) << 1) << 1) << 1) << 1))= =0A= goto normal_char;=0A= =0A= c1 =3D c - '0';=0A= =0A= if (c1 > regnum)=0A= return (free (compile_stack.stack), REG_ESUBREG);=0A= =0A= =0A= if (group_in_compile_stack (compile_stack, (regnum_t) c1))=0A= goto normal_char;=0A= =0A= laststart =3D b;=0A= do { while ((unsigned long) (b - bufp->buffer + (2)) > bufp->= allocated) do { unsigned char *old_buffer =3D bufp->buffer; if (bufp->alloc= ated =3D=3D (1L << 16)) return REG_ESIZE; bufp->allocated <<=3D 1; if (bufp= ->allocated > (1L << 16)) bufp->allocated =3D (1L << 16); bufp->buffer =3D = (unsigned char *) realloc ((bufp->buffer), (bufp->allocated)); if (bufp->bu= ffer =3D=3D 0) return REG_ESPACE; if (old_buffer !=3D bufp->buffer) { int i= ncr =3D bufp->buffer - old_buffer; (b) +=3D incr; (begalt) +=3D incr; if (f= ixup_alt_jump) (fixup_alt_jump) +=3D incr; if (laststart) (laststart) +=3D = incr; if (pending_exact) (pending_exact) +=3D incr; } } while (0); *b++ =3D= (unsigned char) (duplicate); *b++ =3D (unsigned char) (c1); } while (0);= =0A= break;=0A= =0A= =0A= case '+':=0A= case '?':=0A= if (syntax & (((unsigned long int) 1) << 1))=0A= goto handle_plus;=0A= else=0A= goto normal_backslash;=0A= =0A= default:=0A= normal_backslash:=0A= =0A= =0A= =0A= c =3D (translate ? (char) translate[(unsigned char) (c)] : (c= ));=0A= goto normal_char;=0A= }=0A= break;=0A= =0A= =0A= default:=0A= =0A= normal_char:=0A= =0A= if (!pending_exact=0A= =0A= =0A= =0A= =0A= =0A= =0A= =0A= || pending_exact + *pending_exact + 1 !=3D b=0A= =0A= =0A= || *pending_exact =3D=3D (1 << 8) - 1=0A= =0A= =0A= || *p =3D=3D '*' || *p =3D=3D '^'=0A= || ((syntax & (((unsigned long int) 1) << 1))=0A= ? *p =3D=3D '\\' && (p[1] =3D=3D '+' || p[1] =3D=3D '?')=0A= : (*p =3D=3D '+' || *p =3D=3D '?'))=0A= || ((syntax & (((((((((((unsigned long int) 1) << 1) << 1) << 1) << = 1) << 1) << 1) << 1) << 1) << 1))=0A= && ((syntax & ((((((((((((((unsigned long int) 1) << 1) <= < 1) << 1) << 1) << 1) << 1) << 1) << 1) << 1) << 1) << 1) << 1))=0A= ? *p =3D=3D '{'=0A= : (p[0] =3D=3D '\\' && p[1] =3D=3D '{'))))=0A= {=0A= =0A= =0A= laststart =3D b;=0A= # 4166 "../../libiberty/regex.c"=0A= do { while ((unsigned long) (b - bufp->buffer + (2)) > bufp->allocat= ed) do { unsigned char *old_buffer =3D bufp->buffer; if (bufp->allocated = =3D=3D (1L << 16)) return REG_ESIZE; bufp->allocated <<=3D 1; if (bufp->all= ocated > (1L << 16)) bufp->allocated =3D (1L << 16); bufp->buffer =3D (unsi= gned char *) realloc ((bufp->buffer), (bufp->allocated)); if (bufp->buffer = =3D=3D 0) return REG_ESPACE; if (old_buffer !=3D bufp->buffer) { int incr = =3D bufp->buffer - old_buffer; (b) +=3D incr; (begalt) +=3D incr; if (fixup= _alt_jump) (fixup_alt_jump) +=3D incr; if (laststart) (laststart) +=3D incr= ; if (pending_exact) (pending_exact) +=3D incr; } } while (0); *b++ =3D (un= signed char) (exactn); *b++ =3D (unsigned char) (0); } while (0);=0A= =0A= pending_exact =3D b - 1;=0A= }=0A= =0A= do { while ((unsigned long) (b - bufp->buffer + (1)) > bufp->allocated) = do { unsigned char *old_buffer =3D bufp->buffer; if (bufp->allocated =3D=3D= (1L << 16)) return REG_ESIZE; bufp->allocated <<=3D 1; if (bufp->allocated= > (1L << 16)) bufp->allocated =3D (1L << 16); bufp->buffer =3D (unsigned c= har *) realloc ((bufp->buffer), (bufp->allocated)); if (bufp->buffer =3D=3D= 0) return REG_ESPACE; if (old_buffer !=3D bufp->buffer) { int incr =3D buf= p->buffer - old_buffer; (b) +=3D incr; (begalt) +=3D incr; if (fixup_alt_ju= mp) (fixup_alt_jump) +=3D incr; if (laststart) (laststart) +=3D incr; if (p= ending_exact) (pending_exact) +=3D incr; } } while (0); *b++ =3D (unsigned = char) (c); } while (0);=0A= (*pending_exact)++;=0A= break;=0A= }=0A= }=0A= =0A= =0A= =0A= =0A= if (fixup_alt_jump)=0A= byte_store_op1 (jump_past_alt, fixup_alt_jump, (int) ((b) - (fixup_alt_= jump) - (1 + 2)));=0A= =0A= if (!(compile_stack.avail =3D=3D 0))=0A= return (free (compile_stack.stack), REG_EPAREN);=0A= =0A= =0A= =0A= if (syntax & ((((((((((((((((((((unsigned long int) 1) << 1) << 1) << 1) = << 1) << 1) << 1) << 1) << 1) << 1) << 1) << 1) << 1) << 1) << 1) << 1) << = 1) << 1) << 1))=0A= do { while ((unsigned long) (b - bufp->buffer + (1)) > bufp->allocated)= do { unsigned char *old_buffer =3D bufp->buffer; if (bufp->allocated =3D= =3D (1L << 16)) return REG_ESIZE; bufp->allocated <<=3D 1; if (bufp->alloca= ted > (1L << 16)) bufp->allocated =3D (1L << 16); bufp->buffer =3D (unsigne= d char *) realloc ((bufp->buffer), (bufp->allocated)); if (bufp->buffer =3D= =3D 0) return REG_ESPACE; if (old_buffer !=3D bufp->buffer) { int incr =3D = bufp->buffer - old_buffer; (b) +=3D incr; (begalt) +=3D incr; if (fixup_alt= _jump) (fixup_alt_jump) +=3D incr; if (laststart) (laststart) +=3D incr; if= (pending_exact) (pending_exact) +=3D incr; } } while (0); *b++ =3D (unsign= ed char) (succeed); } while (0);=0A= =0A= =0A= =0A= =0A= =0A= =0A= free (compile_stack.stack);=0A= =0A= =0A= =0A= =0A= =0A= bufp->used =3D b - bufp->buffer;=0A= # 4254 "../../libiberty/regex.c"=0A= return REG_NOERROR;=0A= }=0A= =0A= =0A= =0A= =0A= =0A= =0A= static void=0A= byte_store_op1 (op, loc, arg)=0A= re_opcode_t op;=0A= unsigned char *loc;=0A= int arg;=0A= {=0A= *loc =3D (unsigned char) op;=0A= do { (loc + 1)[0] =3D (arg) & 0377; (loc + 1)[1] =3D (arg) >> 8; } while = (0);=0A= }=0A= =0A= =0A= =0A= =0A= =0A= static void=0A= byte_store_op2 (op, loc, arg1, arg2)=0A= re_opcode_t op;=0A= unsigned char *loc;=0A= int arg1, arg2;=0A= {=0A= *loc =3D (unsigned char) op;=0A= do { (loc + 1)[0] =3D (arg1) & 0377; (loc + 1)[1] =3D (arg1) >> 8; } whil= e (0);=0A= do { (loc + 1 + 2)[0] =3D (arg2) & 0377; (loc + 1 + 2)[1] =3D (arg2) >> 8= ; } while (0);=0A= }=0A= =0A= =0A= =0A= =0A= =0A= =0A= static void=0A= byte_insert_op1 (op, loc, arg, end)=0A= re_opcode_t op;=0A= unsigned char *loc;=0A= int arg;=0A= unsigned char *end;=0A= {=0A= register unsigned char *pfrom =3D end;=0A= register unsigned char *pto =3D end + 1 + 2;=0A= =0A= while (pfrom !=3D loc)=0A= *--pto =3D *--pfrom;=0A= =0A= byte_store_op1 (op, loc, arg);=0A= }=0A= =0A= =0A= =0A= =0A= =0A= static void=0A= byte_insert_op2 (op, loc, arg1, arg2, end)=0A= re_opcode_t op;=0A= unsigned char *loc;=0A= int arg1, arg2;=0A= unsigned char *end;=0A= {=0A= register unsigned char *pfrom =3D end;=0A= register unsigned char *pto =3D end + 1 + 2 * 2;=0A= =0A= while (pfrom !=3D loc)=0A= *--pto =3D *--pfrom;=0A= =0A= byte_store_op2 (op, loc, arg1, arg2);=0A= }=0A= =0A= =0A= =0A= =0A= =0A= =0A= static boolean=0A= byte_at_begline_loc_p (pattern, p, syntax)=0A= const char *pattern, *p;=0A= reg_syntax_t syntax;=0A= {=0A= const char *prev =3D p - 2;=0A= boolean prev_prev_backslash =3D prev > pattern && prev[-1] =3D=3D '\\';= =0A= =0A= return=0A= =0A= (*prev =3D=3D '(' && (syntax & (((((((((((((((unsigned long int) 1) = << 1) << 1) << 1) << 1) << 1) << 1) << 1) << 1) << 1) << 1) << 1) << 1) << = 1) || prev_prev_backslash))=0A= =0A= || (*prev =3D=3D '|' && (syntax & (((((((((((((((((unsigned long int) 1= ) << 1) << 1) << 1) << 1) << 1) << 1) << 1) << 1) << 1) << 1) << 1) << 1) <= < 1) << 1) << 1) || prev_prev_backslash));=0A= }=0A= =0A= =0A= =0A= =0A= =0A= static boolean=0A= byte_at_endline_loc_p (p, pend, syntax)=0A= const char *p, *pend;=0A= reg_syntax_t syntax;=0A= {=0A= const char *next =3D p;=0A= boolean next_backslash =3D *next =3D=3D '\\';=0A= const char *next_next =3D p + 1 < pend ? p + 1 : 0;=0A= =0A= return=0A= =0A= (syntax & (((((((((((((((unsigned long int) 1) << 1) << 1) << 1) << = 1) << 1) << 1) << 1) << 1) << 1) << 1) << 1) << 1) << 1) ? *next =3D=3D ')'= =0A= : next_backslash && next_next && *next_next =3D=3D ')')=0A= =0A= || (syntax & (((((((((((((((((unsigned long int) 1) << 1) << 1) << 1) <= < 1) << 1) << 1) << 1) << 1) << 1) << 1) << 1) << 1) << 1) << 1) << 1) ? *n= ext =3D=3D '|'=0A= : next_backslash && next_next && *next_next =3D=3D '|');=0A= }=0A= # 4499 "../../libiberty/regex.c"=0A= static reg_errcode_t=0A= byte_compile_range (range_start_char, p_ptr, pend, translate, syntax, b)=0A= unsigned int range_start_char;=0A= const char **p_ptr, *pend;=0A= char * translate;=0A= reg_syntax_t syntax;=0A= unsigned char *b;=0A= {=0A= unsigned this_char;=0A= const char *p =3D *p_ptr;=0A= reg_errcode_t ret;=0A= =0A= =0A= =0A= =0A= =0A= unsigned end_char;=0A= =0A= =0A= if (p =3D=3D pend)=0A= return REG_ERANGE;=0A= =0A= =0A= =0A= (*p_ptr)++;=0A= =0A= =0A= ret =3D syntax & ((((((((((((((((((unsigned long int) 1) << 1) << 1) << 1= ) << 1) << 1) << 1) << 1) << 1) << 1) << 1) << 1) << 1) << 1) << 1) << 1) <= < 1) ? REG_ERANGE : REG_NOERROR;=0A= # 4548 "../../libiberty/regex.c"=0A= range_start_char =3D (translate ? (char) translate[(unsigned char) (range= _start_char)] : (range_start_char));=0A= =0A= =0A= =0A= =0A= =0A= end_char =3D ((unsigned)(translate ? (char) translate[(unsigned char) (p[= 0])] : (p[0])) & ((1 << 8) - 1));=0A= =0A= for (this_char =3D range_start_char; this_char <=3D end_char; ++this_char= )=0A= {=0A= (b[((unsigned char) ((translate ? (char) translate[(unsigned char) (t= his_char)] : (this_char)))) / 8] |=3D 1 << (((unsigned char) (translate ? (= char) translate[(unsigned char) (this_char)] : (this_char))) % 8));=0A= ret =3D REG_NOERROR;=0A= }=0A= =0A= =0A= return ret;=0A= }=0A= # 4602 "../../libiberty/regex.c"=0A= static int=0A= byte_re_compile_fastmap (bufp)=0A= struct re_pattern_buffer *bufp;=0A= {=0A= int j, k;=0A= =0A= byte_fail_stack_type fail_stack;=0A= =0A= =0A= char *destination;=0A= =0A= =0A= register char *fastmap =3D bufp->fastmap;=0A= =0A= =0A= =0A= =0A= =0A= =0A= =0A= unsigned char *pattern =3D bufp->buffer;=0A= register unsigned char *pend =3D pattern + bufp->used;=0A= =0A= unsigned char *p =3D pattern;=0A= # 4637 "../../libiberty/regex.c"=0A= boolean path_can_be_null =3D 1;=0A= =0A= =0A= boolean succeed_n_p =3D 0;=0A= =0A= ;=0A= =0A= do { fail_stack.stack =3D (byte_fail_stack_elt_t *) __builtin_alloca (5 *= sizeof (byte_fail_stack_elt_t)); if (fail_stack.stack =3D=3D 0) return -2;= fail_stack.size =3D 5; fail_stack.avail =3D 0; } while (0);=0A= bzero (fastmap, 1 << 8);=0A= bufp->fastmap_accurate =3D 1;=0A= bufp->can_be_null =3D 0;=0A= =0A= while (1)=0A= {=0A= if (p =3D=3D pend || *p =3D=3D (unsigned char) succeed)=0A= {=0A= =0A= if (!(fail_stack.avail =3D=3D 0))=0A= {=0A= bufp->can_be_null |=3D path_can_be_null;=0A= =0A= =0A= path_can_be_null =3D 1;=0A= =0A= p =3D fail_stack.stack[--fail_stack.avail].pointer;=0A= =0A= continue;=0A= }=0A= else=0A= break;=0A= }=0A= =0A= =0A= ;=0A= =0A= switch (((re_opcode_t) *p++))=0A= {=0A= =0A= =0A= =0A= =0A= =0A= =0A= case duplicate:=0A= bufp->can_be_null =3D 1;=0A= goto done;=0A= # 4693 "../../libiberty/regex.c"=0A= case exactn:=0A= fastmap[p[1]] =3D 1;=0A= break;=0A= # 4713 "../../libiberty/regex.c"=0A= case charset:=0A= for (j =3D *p++ * 8 - 1; j >=3D 0; j--)=0A= if (p[j / 8] & (1 << (j % 8)))=0A= fastmap[j] =3D 1;=0A= break;=0A= =0A= =0A= case charset_not:=0A= =0A= for (j =3D *p * 8; j < (1 << 8); j++)=0A= fastmap[j] =3D 1;=0A= =0A= for (j =3D *p++ * 8 - 1; j >=3D 0; j--)=0A= if (!(p[j / 8] & (1 << (j % 8))))=0A= fastmap[j] =3D 1;=0A= break;=0A= =0A= =0A= case wordchar:=0A= for (j =3D 0; j < (1 << 8); j++)=0A= if (re_syntax_table[(unsigned char) (j)] =3D=3D 1)=0A= fastmap[j] =3D 1;=0A= break;=0A= =0A= =0A= case notwordchar:=0A= for (j =3D 0; j < (1 << 8); j++)=0A= if (re_syntax_table[(unsigned char) (j)] !=3D 1)=0A= fastmap[j] =3D 1;=0A= break;=0A= =0A= =0A= case anychar:=0A= {=0A= int fastmap_newline =3D fastmap['\n'];=0A= =0A= =0A= for (j =3D 0; j < (1 << 8); j++)=0A= fastmap[j] =3D 1;=0A= =0A= =0A= if (!(bufp->syntax & ((((((((unsigned long int) 1) << 1) << 1) << 1) <= < 1) << 1) << 1)))=0A= fastmap['\n'] =3D fastmap_newline;=0A= =0A= =0A= =0A= else if (bufp->can_be_null)=0A= goto done;=0A= =0A= =0A= break;=0A= }=0A= # 4794 "../../libiberty/regex.c"=0A= case no_op:=0A= case begline:=0A= case endline:=0A= case begbuf:=0A= case endbuf:=0A= case wordbound:=0A= case notwordbound:=0A= case wordbeg:=0A= case wordend:=0A= case push_dummy_failure:=0A= continue;=0A= =0A= =0A= case jump_n:=0A= case pop_failure_jump:=0A= case maybe_pop_jump:=0A= case jump:=0A= case jump_past_alt:=0A= case dummy_failure_jump:=0A= do { do { (j) =3D *(p) & 0377; (j) +=3D ((signed char) (*((p) + 1= ))) << 8; } while (0); (p) +=3D 2; } while (0);=0A= p +=3D j;=0A= if (j > 0)=0A= continue;=0A= =0A= =0A= =0A= =0A= =0A= =0A= if ((re_opcode_t) *p !=3D on_failure_jump=0A= && (re_opcode_t) *p !=3D succeed_n)=0A= continue;=0A= =0A= p++;=0A= do { do { (j) =3D *(p) & 0377; (j) +=3D ((signed char) (*((p) + 1= ))) << 8; } while (0); (p) +=3D 2; } while (0);=0A= p +=3D j;=0A= =0A= =0A= if (!(fail_stack.avail =3D=3D 0)=0A= && fail_stack.stack[fail_stack.avail - 1].pointer =3D=3D p)=0A= fail_stack.avail--;=0A= =0A= continue;=0A= =0A= =0A= case on_failure_jump:=0A= case on_failure_keep_string_jump:=0A= handle_on_failure_jump:=0A= do { do { (j) =3D *(p) & 0377; (j) +=3D ((signed char) (*((p) + 1= ))) << 8; } while (0); (p) +=3D 2; } while (0);=0A= # 4851 "../../libiberty/regex.c"=0A= if (p + j < pend)=0A= {=0A= if (!(((fail_stack.avail =3D=3D fail_stack.size) && !((fail_s= tack).size > (unsigned) (xre_max_failures * (5 * 3 + 4)) ? 0 : ((fail_stack= ).stack =3D (byte_fail_stack_elt_t *) (destination =3D (char *) __builtin_a= lloca (((fail_stack).size << 1) * sizeof (byte_fail_stack_elt_t)), (bcopy (= (fail_stack).stack, destination, (fail_stack).size * sizeof (byte_fail_stac= k_elt_t)), (destination))), (fail_stack).stack =3D=3D 0 ? 0 : ((fail_stack)= .size <<=3D 1, 1)))) ? 0 : ((fail_stack).stack[(fail_stack).avail++].pointe= r =3D p + j, 1)))=0A= {=0A= ;=0A= return -2;=0A= }=0A= }=0A= else=0A= bufp->can_be_null =3D 1;=0A= =0A= if (succeed_n_p)=0A= {=0A= do { do { (k) =3D *(p) & 0377; (k) +=3D ((signed char) (*((p)= + 1))) << 8; } while (0); (p) +=3D 2; } while (0);=0A= succeed_n_p =3D 0;=0A= }=0A= =0A= continue;=0A= =0A= =0A= case succeed_n:=0A= =0A= p +=3D 2;=0A= =0A= =0A= do { do { (k) =3D *(p) & 0377; (k) +=3D ((signed char) (*((p) + 1= ))) << 8; } while (0); (p) +=3D 2; } while (0);=0A= if (k =3D=3D 0)=0A= {=0A= p -=3D 2 * 2;=0A= succeed_n_p =3D 1;=0A= goto handle_on_failure_jump;=0A= }=0A= continue;=0A= =0A= =0A= case set_number_at:=0A= p +=3D 2 * 2;=0A= continue;=0A= =0A= =0A= case start_memory:=0A= case stop_memory:=0A= p +=3D 2;=0A= continue;=0A= =0A= =0A= default:=0A= abort ();=0A= }=0A= =0A= =0A= =0A= =0A= =0A= =0A= =0A= path_can_be_null =3D 0;=0A= p =3D pend;=0A= }=0A= =0A= =0A= =0A= bufp->can_be_null |=3D path_can_be_null;=0A= =0A= done:=0A= ;=0A= return 0;=0A= }=0A= # 5080 "../../libiberty/regex.c"=0A= static int=0A= byte_re_search_2 (bufp, string1, size1, string2, size2, startpos, range,=0A= regs, stop)=0A= struct re_pattern_buffer *bufp;=0A= const char *string1, *string2;=0A= int size1, size2;=0A= int startpos;=0A= int range;=0A= struct re_registers *regs;=0A= int stop;=0A= {=0A= int val;=0A= register char *fastmap =3D bufp->fastmap;=0A= register char * translate =3D bufp->translate;=0A= int total_size =3D size1 + size2;=0A= int endpos =3D startpos + range;=0A= # 5108 "../../libiberty/regex.c"=0A= if (startpos < 0 || startpos > total_size)=0A= return -1;=0A= =0A= =0A= =0A= =0A= if (endpos < 0)=0A= range =3D 0 - startpos;=0A= else if (endpos > total_size)=0A= range =3D total_size - startpos;=0A= =0A= =0A= =0A= if (bufp->used > 0 && range > 0=0A= && ((re_opcode_t) bufp->buffer[0] =3D=3D begbuf=0A= =0A= || ((re_opcode_t) bufp->buffer[0] =3D=3D begline=0A= && !bufp->newline_anchor)))=0A= {=0A= if (startpos > 0)=0A= return -1;=0A= else=0A= range =3D 1;=0A= }=0A= # 5145 "../../libiberty/regex.c"=0A= if (fastmap && !bufp->fastmap_accurate)=0A= if (xre_compile_fastmap (bufp) =3D=3D -2)=0A= return -2;=0A= # 5225 "../../libiberty/regex.c"=0A= for (;;)=0A= {=0A= =0A= =0A= =0A= =0A= if (fastmap && startpos < total_size && !bufp->can_be_null)=0A= {=0A= if (range > 0)=0A= {=0A= register const char *d;=0A= register int lim =3D 0;=0A= int irange =3D range;=0A= =0A= if (startpos < size1 && startpos + range >=3D size1)=0A= lim =3D range - (size1 - startpos);=0A= =0A= d =3D (startpos >=3D size1 ? string2 - size1 : string1) + startpos;= =0A= =0A= =0A= =0A= if (translate)=0A= while (range > lim=0A= && !fastmap[(unsigned char)=0A= translate[(unsigned char) *d++]])=0A= range--;=0A= else=0A= while (range > lim && !fastmap[(unsigned char) *d++])=0A= range--;=0A= =0A= startpos +=3D irange - range;=0A= }=0A= else=0A= {=0A= register char c =3D (size1 =3D=3D 0 || startpos >=3D size1=0A= ? string2[startpos - size1]=0A= : string1[startpos]);=0A= =0A= if (!fastmap[(unsigned char) (translate ? (char) translate[(unsigned= char) (c)] : (c))])=0A= goto advance;=0A= }=0A= }=0A= =0A= =0A= if (range >=3D 0 && startpos =3D=3D total_size && fastmap=0A= && !bufp->can_be_null)=0A= {=0A= =0A= =0A= =0A= return -1;=0A= }=0A= # 5285 "../../libiberty/regex.c"=0A= val =3D byte_re_match_2_internal (bufp, string1, size1, string2,=0A= size2, startpos, regs, stop);=0A= # 5295 "../../libiberty/regex.c"=0A= if (val >=3D 0)=0A= {=0A= =0A= =0A= =0A= return startpos;=0A= }=0A= =0A= if (val =3D=3D -2)=0A= {=0A= =0A= =0A= =0A= return -2;=0A= }=0A= =0A= advance:=0A= if (!range)=0A= break;=0A= else if (range > 0)=0A= {=0A= range--;=0A= startpos++;=0A= }=0A= else=0A= {=0A= range++;=0A= startpos--;=0A= }=0A= }=0A= =0A= =0A= =0A= return -1;=0A= }=0A= # 5503 "../../libiberty/regex.c"=0A= static boolean byte_group_match_null_string_p=0A= =20=20=20=20=20=20=20=20=20=0A= (unsigned char **p, unsigned char *end, byte_register_info_type *reg_i= nfo);=0A= static boolean byte_alt_match_null_string_p=0A= =20=20=20=20=20=20=20=0A= (unsigned char *p, unsigned char *end, byte_register_info_type *reg_in= fo);=0A= static boolean byte_common_op_match_null_string_p=0A= =20=20=20=20=20=20=0A= (unsigned char **p, unsigned char *end, byte_register_info_type *reg_i= nfo);=0A= static int byte_bcmp_translate=0A= (const char *s1, const char *s2, int len, char *translate);=0A= # 5634 "../../libiberty/regex.c"=0A= static int=0A= byte_re_match_2_internal (bufp, string1, size1,string2, size2, pos,=0A= regs, stop)=0A= struct re_pattern_buffer *bufp;=0A= const char *string1, *string2;=0A= int size1, size2;=0A= int pos;=0A= struct re_registers *regs;=0A= int stop;=0A= =0A= {=0A= =0A= int mcnt;=0A= unsigned char *p1;=0A= # 5656 "../../libiberty/regex.c"=0A= const char *end1, *end2;=0A= =0A= =0A= =0A= const char *end_match_1, *end_match_2;=0A= =0A= =0A= const char *d, *dend;=0A= =0A= =0A= =0A= =0A= =0A= =0A= unsigned char *p =3D bufp->buffer;=0A= register unsigned char *pend =3D p + bufp->used;=0A= =0A= =0A= =0A= =0A= unsigned char *just_past_start_mem =3D 0;=0A= =0A= =0A= char * translate =3D bufp->translate;=0A= # 5691 "../../libiberty/regex.c"=0A= byte_fail_stack_type fail_stack;=0A= # 5707 "../../libiberty/regex.c"=0A= size_t num_regs =3D bufp->re_nsub + 1;=0A= =0A= =0A= active_reg_t lowest_active_reg =3D ((1 << 8) + 1);=0A= active_reg_t highest_active_reg =3D (1 << 8);=0A= # 5721 "../../libiberty/regex.c"=0A= const char **regstart, **regend;=0A= # 5730 "../../libiberty/regex.c"=0A= const char **old_regstart, **old_regend;=0A= # 5740 "../../libiberty/regex.c"=0A= byte_register_info_type *reg_info;=0A= =0A= =0A= =0A= =0A= =0A= =0A= unsigned best_regs_set =3D 0;=0A= =0A= const char **best_regstart, **best_regend;=0A= # 5760 "../../libiberty/regex.c"=0A= const char *match_end =3D 0;=0A= =0A= =0A= int set_regs_matched_done =3D 0;=0A= =0A= =0A= =0A= const char **reg_dummy;=0A= byte_register_info_type *reg_info_dummy;=0A= =0A= =0A= =0A= =0A= =0A= =0A= =0A= ;=0A= =0A= do { fail_stack.stack =3D (byte_fail_stack_elt_t *) __builtin_alloca (5 *= sizeof (byte_fail_stack_elt_t)); if (fail_stack.stack =3D=3D 0) return -2;= fail_stack.size =3D 5; fail_stack.avail =3D 0; } while (0);=0A= =0A= =0A= =0A= =0A= =0A= =0A= =0A= if (bufp->re_nsub)=0A= {=0A= regstart =3D ((const char * *) __builtin_alloca ((num_regs) * sizeof = (const char *)));=0A= regend =3D ((const char * *) __builtin_alloca ((num_regs) * sizeof (c= onst char *)));=0A= old_regstart =3D ((const char * *) __builtin_alloca ((num_regs) * siz= eof (const char *)));=0A= old_regend =3D ((const char * *) __builtin_alloca ((num_regs) * sizeo= f (const char *)));=0A= best_regstart =3D ((const char * *) __builtin_alloca ((num_regs) * si= zeof (const char *)));=0A= best_regend =3D ((const char * *) __builtin_alloca ((num_regs) * size= of (const char *)));=0A= reg_info =3D ((byte_register_info_type *) __builtin_alloca ((num_regs= ) * sizeof (byte_register_info_type)));=0A= reg_dummy =3D ((const char * *) __builtin_alloca ((num_regs) * sizeof= (const char *)));=0A= reg_info_dummy =3D ((byte_register_info_type *) __builtin_alloca ((nu= m_regs) * sizeof (byte_register_info_type)));=0A= =0A= if (!(regstart && regend && old_regstart && old_regend && reg_info=0A= && best_regstart && best_regend && reg_dummy && reg_info_dummy)= )=0A= {=0A= do { ; if (regstart) ((void)0); regstart =3D 0; if (regend) ((voi= d)0); regend =3D 0; if (old_regstart) ((void)0); old_regstart =3D 0; if (ol= d_regend) ((void)0); old_regend =3D 0; if (best_regstart) ((void)0); best_r= egstart =3D 0; if (best_regend) ((void)0); best_regend =3D 0; if (reg_info)= ((void)0); reg_info =3D 0; if (reg_dummy) ((void)0); reg_dummy =3D 0; if (= reg_info_dummy) ((void)0); reg_info_dummy =3D 0; } while (0);=0A= return -2;=0A= }=0A= }=0A= else=0A= {=0A= =0A= =0A= regstart =3D regend =3D old_regstart =3D old_regend =3D best_regstart= =0A= =3D best_regend =3D reg_dummy =3D 0;=0A= reg_info =3D reg_info_dummy =3D (byte_register_info_type *) 0;=0A= }=0A= =0A= =0A= =0A= =0A= =0A= =0A= if (pos < 0 || pos > size1 + size2)=0A= =0A= {=0A= do { ; if (regstart) ((void)0); regstart =3D 0; if (regend) ((void)0)= ; regend =3D 0; if (old_regstart) ((void)0); old_regstart =3D 0; if (old_re= gend) ((void)0); old_regend =3D 0; if (best_regstart) ((void)0); best_regst= art =3D 0; if (best_regend) ((void)0); best_regend =3D 0; if (reg_info) ((v= oid)0); reg_info =3D 0; if (reg_dummy) ((void)0); reg_dummy =3D 0; if (reg_= info_dummy) ((void)0); reg_info_dummy =3D 0; } while (0);=0A= return -1;=0A= }=0A= # 5880 "../../libiberty/regex.c"=0A= for (mcnt =3D 1; (unsigned) mcnt < num_regs; mcnt++)=0A= {=0A= regstart[mcnt] =3D regend[mcnt]=0A= =3D old_regstart[mcnt] =3D old_regend[mcnt] =3D (&byte_reg_unset_du= mmy);=0A= =0A= ((reg_info[mcnt]).bits.match_null_string_p) =3D 3;=0A= ((reg_info[mcnt]).bits.is_active) =3D 0;=0A= ((reg_info[mcnt]).bits.matched_something) =3D 0;=0A= ((reg_info[mcnt]).bits.ever_matched_something) =3D 0;=0A= }=0A= =0A= =0A= =0A= if (size2 =3D=3D 0 && string1 !=3D 0)=0A= {=0A= string2 =3D string1;=0A= size2 =3D size1;=0A= string1 =3D 0;=0A= size1 =3D 0;=0A= =0A= =0A= =0A= =0A= =0A= =0A= }=0A= end1 =3D string1 + size1;=0A= end2 =3D string2 + size2;=0A= # 5931 "../../libiberty/regex.c"=0A= if (stop <=3D size1)=0A= {=0A= end_match_1 =3D string1 + stop;=0A= end_match_2 =3D string2;=0A= }=0A= else=0A= {=0A= end_match_1 =3D end1;=0A= end_match_2 =3D string2 + stop - size1;=0A= }=0A= # 5969 "../../libiberty/regex.c"=0A= if (size1 > 0 && pos <=3D size1)=0A= {=0A= d =3D string1 + pos;=0A= dend =3D end_match_1;=0A= }=0A= else=0A= {=0A= d =3D string2 + pos - size1;=0A= dend =3D end_match_2;=0A= }=0A= =0A= =0A= ;=0A= ;=0A= ;=0A= ;=0A= ;=0A= =0A= =0A= =0A= =0A= for (;;)=0A= {=0A= =0A= =0A= =0A= ;=0A= =0A= =0A= if (p =3D=3D pend)=0A= {=0A= ;=0A= =0A= =0A= =0A= if (d !=3D end_match_2)=0A= {=0A= =0A= =0A= boolean same_str_p =3D ((size1 && string1 <=3D (match_end) && (match= _end) <=3D string1 + size1)=0A= =3D=3D (dend =3D=3D end_match_1));=0A= =0A= boolean best_match_p;=0A= =0A= =0A= =0A= if (same_str_p)=0A= best_match_p =3D d > match_end;=0A= else=0A= best_match_p =3D !(dend =3D=3D end_match_1);=0A= =0A= ;=0A= =0A= if (!(fail_stack.avail =3D=3D 0))=0A= {=0A= =0A= =0A= if (!best_regs_set || best_match_p)=0A= {=0A= best_regs_set =3D 1;=0A= match_end =3D d;=0A= =0A= ;=0A= =0A= for (mcnt =3D 1; (unsigned) mcnt < num_regs; mcnt++)= =0A= {=0A= best_regstart[mcnt] =3D regstart[mcnt];=0A= best_regend[mcnt] =3D regend[mcnt];=0A= }=0A= }=0A= goto fail;=0A= }=0A= =0A= =0A= =0A= =0A= else if (best_regs_set && !best_match_p)=0A= {=0A= restore_best_regs:=0A= =0A= =0A= =0A= =0A= =0A= ;=0A= =0A= d =3D match_end;=0A= dend =3D ((d >=3D string1 && d <=3D end1)=0A= ? end_match_1 : end_match_2);=0A= =0A= for (mcnt =3D 1; (unsigned) mcnt < num_regs; mcnt++)=0A= {=0A= regstart[mcnt] =3D best_regstart[mcnt];=0A= regend[mcnt] =3D best_regend[mcnt];=0A= }=0A= }=0A= }=0A= =0A= succeed_label:=0A= ;=0A= =0A= if (regs && !bufp->no_sub)=0A= {=0A= =0A= if (bufp->regs_allocated =3D=3D 0)=0A= {=0A= =0A= =0A= regs->num_regs =3D ((30) > (num_regs + 1) ? (30) : (num_r= egs + 1));=0A= regs->start =3D ((regoff_t *) malloc ((regs->num_regs) * = sizeof (regoff_t)));=0A= regs->end =3D ((regoff_t *) malloc ((regs->num_regs) * si= zeof (regoff_t)));=0A= if (regs->start =3D=3D 0 || regs->end =3D=3D 0)=0A= {=0A= do { ; if (regstart) ((void)0); regstart =3D 0; if (regend) ((void)= 0); regend =3D 0; if (old_regstart) ((void)0); old_regstart =3D 0; if (old_= regend) ((void)0); old_regend =3D 0; if (best_regstart) ((void)0); best_reg= start =3D 0; if (best_regend) ((void)0); best_regend =3D 0; if (reg_info) (= (void)0); reg_info =3D 0; if (reg_dummy) ((void)0); reg_dummy =3D 0; if (re= g_info_dummy) ((void)0); reg_info_dummy =3D 0; } while (0);=0A= return -2;=0A= }=0A= bufp->regs_allocated =3D 1;=0A= }=0A= else if (bufp->regs_allocated =3D=3D 1)=0A= {=0A= =0A= =0A= if (regs->num_regs < num_regs + 1)=0A= {=0A= regs->num_regs =3D num_regs + 1;=0A= ((regs->start) =3D (regoff_t *) realloc (regs->start,= (regs->num_regs) * sizeof (regoff_t)));=0A= ((regs->end) =3D (regoff_t *) realloc (regs->end, (re= gs->num_regs) * sizeof (regoff_t)));=0A= if (regs->start =3D=3D 0 || regs->end =3D=3D 0)=0A= {=0A= do { ; if (regstart) ((void)0); regstart =3D 0; if (regend) ((void)0);= regend =3D 0; if (old_regstart) ((void)0); old_regstart =3D 0; if (old_reg= end) ((void)0); old_regend =3D 0; if (best_regstart) ((void)0); best_regsta= rt =3D 0; if (best_regend) ((void)0); best_regend =3D 0; if (reg_info) ((vo= id)0); reg_info =3D 0; if (reg_dummy) ((void)0); reg_dummy =3D 0; if (reg_i= nfo_dummy) ((void)0); reg_info_dummy =3D 0; } while (0);=0A= return -2;=0A= }=0A= }=0A= }=0A= else=0A= {=0A= =0A= =0A= ;=0A= }=0A= =0A= =0A= =0A= =0A= if (regs->num_regs > 0)=0A= {=0A= regs->start[0] =3D pos;=0A= # 6124 "../../libiberty/regex.c"=0A= regs->end[0] =3D ((dend =3D=3D end_match_1)=0A= ? ((regoff_t) (d - string1))=0A= : ((regoff_t) (d - string2 + size1)));=0A= =0A= }=0A= =0A= =0A= =0A= for (mcnt =3D 1; (unsigned) mcnt < ((num_regs) < (regs->num_regs) ? = (num_regs) : (regs->num_regs));=0A= mcnt++)=0A= {=0A= if (((regstart[mcnt]) =3D=3D (&byte_reg_unset_dummy)) || = ((regend[mcnt]) =3D=3D (&byte_reg_unset_dummy)))=0A= regs->start[mcnt] =3D regs->end[mcnt] =3D -1;=0A= else=0A= {=0A= regs->start[mcnt]=0A= =3D (regoff_t) ((size1 && string1 <=3D (regstart[mcnt]) && (regstart[mcn= t]) <=3D string1 + size1) ? ((regoff_t) ((regstart[mcnt]) - string1)) : ((r= egoff_t) ((regstart[mcnt]) - string2 + size1)));=0A= regs->end[mcnt]=0A= =3D (regoff_t) ((size1 && string1 <=3D (regend[mcnt]) && (regend[mcnt]) = <=3D string1 + size1) ? ((regoff_t) ((regend[mcnt]) - string1)) : ((regoff_= t) ((regend[mcnt]) - string2 + size1)));=0A= }=0A= }=0A= =0A= =0A= =0A= =0A= =0A= =0A= for (mcnt =3D num_regs; (unsigned) mcnt < regs->num_regs; mcn= t++)=0A= regs->start[mcnt] =3D regs->end[mcnt] =3D -1;=0A= }=0A= =0A= =20=20=20=20=20=20=20=20=20=0A= =20=20=20=20=20=20=20=20=20=20=20=20=20=20=20=20=20=20=20=20=20=20=20=0A= ;=0A= ;=0A= # 6168 "../../libiberty/regex.c"=0A= mcnt =3D d - pos - ((dend =3D=3D end_match_1)=0A= ? string1=0A= : string2 - size1);=0A= =0A= =0A= ;=0A= =0A= do { ; if (regstart) ((void)0); regstart =3D 0; if (regend) ((voi= d)0); regend =3D 0; if (old_regstart) ((void)0); old_regstart =3D 0; if (ol= d_regend) ((void)0); old_regend =3D 0; if (best_regstart) ((void)0); best_r= egstart =3D 0; if (best_regend) ((void)0); best_regend =3D 0; if (reg_info)= ((void)0); reg_info =3D 0; if (reg_dummy) ((void)0); reg_dummy =3D 0; if (= reg_info_dummy) ((void)0); reg_info_dummy =3D 0; } while (0);=0A= return mcnt;=0A= }=0A= =0A= =0A= switch (((re_opcode_t) *p++))=0A= {=0A= =0A= =0A= case no_op:=0A= ;=0A= break;=0A= =0A= case succeed:=0A= ;=0A= goto succeed_label;=0A= =0A= =0A= =0A= =0A= case exactn:=0A= =0A= =0A= =0A= mcnt =3D *p++;=0A= ;=0A= =0A= =0A= =0A= if (translate)=0A= {=0A= do=0A= {=0A= while (d =3D=3D dend) { if (dend =3D=3D end_match_2) goto fail; d =3D s= tring2; dend =3D end_match_2; };=0A= # 6222 "../../libiberty/regex.c"=0A= if ((unsigned char) translate[(unsigned char) *d++]=0A= !=3D (unsigned char) *p++)=0A= goto fail;=0A= =0A= }=0A= while (--mcnt);=0A= }=0A= else=0A= {=0A= do=0A= {=0A= while (d =3D=3D dend) { if (dend =3D=3D end_match_2) goto fail; d =3D s= tring2; dend =3D end_match_2; };=0A= if (*d++ !=3D (char) *p++) goto fail;=0A= }=0A= while (--mcnt);=0A= }=0A= do { if (!set_regs_matched_done) { active_reg_t r; set_regs_matched_done= =3D 1; for (r =3D lowest_active_reg; r <=3D highest_active_reg; r++) { ((r= eg_info[r]).bits.matched_something) =3D ((reg_info[r]).bits.ever_matched_so= mething) =3D 1; } } } while (0);=0A= break;=0A= =0A= =0A= =0A= case anychar:=0A= ;=0A= =0A= while (d =3D=3D dend) { if (dend =3D=3D end_match_2) goto fail; d= =3D string2; dend =3D end_match_2; };=0A= =0A= if ((!(bufp->syntax & ((((((((unsigned long int) 1) << 1) << 1) <= < 1) << 1) << 1) << 1)) && (translate ? (char) translate[(unsigned char) (*= d)] : (*d)) =3D=3D '\n')=0A= || (bufp->syntax & (((((((((unsigned long int) 1) << 1) << 1)= << 1) << 1) << 1) << 1) << 1) && (translate ? (char) translate[(unsigned c= har) (*d)] : (*d)) =3D=3D '\000'))=0A= goto fail;=0A= =0A= do { if (!set_regs_matched_done) { active_reg_t r; set_regs_match= ed_done =3D 1; for (r =3D lowest_active_reg; r <=3D highest_active_reg; r++= ) { ((reg_info[r]).bits.matched_something) =3D ((reg_info[r]).bits.ever_mat= ched_something) =3D 1; } } } while (0);=0A= ;=0A= d++;=0A= break;=0A= =0A= =0A= case charset:=0A= case charset_not:=0A= {=0A= register unsigned char c;=0A= # 6272 "../../libiberty/regex.c"=0A= boolean not =3D (re_opcode_t) *(p - 1) =3D=3D charset_not;=0A= =0A= ;=0A= while (d =3D=3D dend) { if (dend =3D=3D end_match_2) goto fail; d =3D = string2; dend =3D end_match_2; };=0A= c =3D (translate ? (char) translate[(unsigned char) (*d)] : (*d));=0A= # 6648 "../../libiberty/regex.c"=0A= if (c < (unsigned) (*p * 8)=0A= && p[1 + c / 8] & (1 << (c % 8)))=0A= not =3D !not;=0A= =0A= p +=3D 1 + *p;=0A= =0A= if (!not) goto fail;=0A= =0A= =0A= do { if (!set_regs_matched_done) { active_reg_t r; set_regs_matched_do= ne =3D 1; for (r =3D lowest_active_reg; r <=3D highest_active_reg; r++) { (= (reg_info[r]).bits.matched_something) =3D ((reg_info[r]).bits.ever_matched_= something) =3D 1; } } } while (0);=0A= d++;=0A= break;=0A= }=0A= =0A= =0A= =0A= =0A= =0A= =0A= =0A= case start_memory:=0A= =20=20=0A= ;=0A= =0A= =0A= p1 =3D p;=0A= =0A= if (((reg_info[*p]).bits.match_null_string_p) =3D=3D 3)=0A= ((reg_info[*p]).bits.match_null_string_p)=0A= =3D byte_group_match_null_string_p (&p1, pend, reg_info);=0A= =0A= =0A= =0A= =0A= =0A= =0A= old_regstart[*p] =3D ((reg_info[*p]).bits.match_null_string_p)=0A= ? ((regstart[*p]) =3D=3D (&byte_reg_unset_dumm= y)) ? d : regstart[*p]=0A= : regstart[*p];=0A= =20=20=0A= ;=0A= =0A= regstart[*p] =3D d;=0A= ;=0A= =0A= ((reg_info[*p]).bits.is_active) =3D 1;=0A= ((reg_info[*p]).bits.matched_something) =3D 0;=0A= =0A= =0A= set_regs_matched_done =3D 0;=0A= =0A= =0A= highest_active_reg =3D *p;=0A= =0A= =0A= =0A= if (lowest_active_reg =3D=3D ((1 << 8) + 1))=0A= lowest_active_reg =3D *p;=0A= =0A= =0A= p +=3D 2;=0A= just_past_start_mem =3D p;=0A= =0A= break;=0A= =0A= =0A= =0A= =0A= =0A= case stop_memory:=0A= =20=20=0A= ;=0A= =0A= =0A= =0A= =0A= =0A= =0A= old_regend[*p] =3D ((reg_info[*p]).bits.match_null_string_p)=0A= ? ((regend[*p]) =3D=3D (&byte_reg_unset_dummy)) = ? d : regend[*p]=0A= : regend[*p];=0A= =20=20=0A= ;=0A= =0A= regend[*p] =3D d;=0A= ;=0A= =0A= =0A= ((reg_info[*p]).bits.is_active) =3D 0;=0A= =0A= =0A= set_regs_matched_done =3D 0;=0A= =0A= =0A= =0A= if (lowest_active_reg =3D=3D highest_active_reg)=0A= {=0A= lowest_active_reg =3D ((1 << 8) + 1);=0A= highest_active_reg =3D (1 << 8);=0A= }=0A= else=0A= {=0A= =0A= =0A= =0A= unsigned char r =3D *p - 1;=0A= while (r > 0 && !((reg_info[r]).bits.is_active))=0A= r--;=0A= # 6764 "../../libiberty/regex.c"=0A= if (r =3D=3D 0)=0A= {=0A= lowest_active_reg =3D ((1 << 8) + 1);=0A= highest_active_reg =3D (1 << 8);=0A= }=0A= else=0A= highest_active_reg =3D r;=0A= }=0A= =0A= =0A= =0A= =0A= =0A= =0A= if ((!((reg_info[*p]).bits.matched_something)=0A= || just_past_start_mem =3D=3D p - 1)=0A= && (p + 2) < pend)=0A= {=0A= boolean is_a_jump_n =3D 0;=0A= =0A= p1 =3D p + 2;=0A= mcnt =3D 0;=0A= switch ((re_opcode_t) *p1++)=0A= {=0A= case jump_n:=0A= is_a_jump_n =3D 1;=0A= case pop_failure_jump:=0A= case maybe_pop_jump:=0A= case jump:=0A= case dummy_failure_jump:=0A= do { do { (mcnt) =3D *(p1) & 0377; (mcnt) +=3D ((signed= char) (*((p1) + 1))) << 8; } while (0); (p1) +=3D 2; } while (0);=0A= if (is_a_jump_n)=0A= p1 +=3D 2;=0A= break;=0A= =0A= default:=0A= ;=0A= }=0A= p1 +=3D mcnt;=0A= =0A= =0A= =0A= =0A= =0A= =0A= if (mcnt < 0 && (re_opcode_t) *p1 =3D=3D on_failure_jump=0A= && (re_opcode_t) p1[1+2] =3D=3D start_memory=0A= && p1[2+2] =3D=3D *p)=0A= {=0A= # 6823 "../../libiberty/regex.c"=0A= if (((reg_info[*p]).bits.ever_matched_something))=0A= {=0A= unsigned r;=0A= =0A= ((reg_info[*p]).bits.ever_matched_something) =3D 0;= =0A= =0A= =0A= for (r =3D *p; r < (unsigned) *p + (unsigned) *(p + 1= );=0A= r++)=0A= {=0A= regstart[r] =3D old_regstart[r];=0A= =0A= =0A= if (old_regend[r] >=3D regstart[r])=0A= regend[r] =3D old_regend[r];=0A= }=0A= }=0A= p1++;=0A= do { do { (mcnt) =3D *(p1) & 0377; (mcnt) +=3D ((signed c= har) (*((p1) + 1))) << 8; } while (0); (p1) +=3D 2; } while (0);=0A= do { char *destination; active_reg_t this_reg; ; ; ; ; ; = ; ; while (((fail_stack).size - (fail_stack).avail) < (((0 ? 0 : highest_ac= tive_reg - lowest_active_reg + 1) * 3) + 4)) { if (!((fail_stack).size > (u= nsigned) (xre_max_failures * (5 * 3 + 4)) ? 0 : ((fail_stack).stack =3D (by= te_fail_stack_elt_t *) (destination =3D (char *) __builtin_alloca (((fail_s= tack).size << 1) * sizeof (byte_fail_stack_elt_t)), (bcopy ((fail_stack).st= ack, destination, (fail_stack).size * sizeof (byte_fail_stack_elt_t)), (des= tination))), (fail_stack).stack =3D=3D 0 ? 0 : ((fail_stack).size <<=3D 1, = 1)))) return -2; ; ; } ; if (1) for (this_reg =3D lowest_active_reg; this_r= eg <=3D highest_active_reg; this_reg++) { ; ; ; fail_stack.stack[fail_stack= .avail++].pointer =3D (unsigned char *) (regstart[this_reg]); ; fail_stack.= stack[fail_stack.avail++].pointer =3D (unsigned char *) (regend[this_reg]);= ; ; ; ; ; ; fail_stack.stack[fail_stack.avail++] =3D (reg_info[this_reg].w= ord); } ; fail_stack.stack[fail_stack.avail++].integer =3D (lowest_active_r= eg); ; fail_stack.stack[fail_stack.avail++].integer =3D (highest_active_reg= ); ; ; fail_stack.stack[fail_stack.avail++].pointer =3D (unsigned char *) (= p1 + mcnt); ; ; ; fail_stack.stack[fail_stack.avail++].pointer =3D (unsigne= d char *) (d); ; ; } while (0);=0A= =0A= goto fail;=0A= }=0A= }=0A= =0A= =0A= p +=3D 2;=0A= break;=0A= =0A= =0A= =0A= =0A= case duplicate:=0A= {=0A= register const char *d2, *dend2;=0A= int regno =3D *p++;=0A= ;=0A= =0A= =0A= if (((regstart[regno]) =3D=3D (&byte_reg_unset_dummy)) || ((reg= end[regno]) =3D=3D (&byte_reg_unset_dummy)))=0A= goto fail;=0A= =0A= =0A= d2 =3D regstart[regno];=0A= =0A= =0A= =0A= =0A= =0A= =0A= dend2 =3D (((size1 && string1 <=3D (regstart[regno]) && (regsta= rt[regno]) <=3D string1 + size1)=0A= =3D=3D (size1 && string1 <=3D (regend[regno]) && (regend[regno]) <= =3D string1 + size1))=0A= ? regend[regno] : end_match_1);=0A= for (;;)=0A= {=0A= =0A= =0A= while (d2 =3D=3D dend2)=0A= {=0A= if (dend2 =3D=3D end_match_2) break;=0A= if (dend2 =3D=3D regend[regno]) break;=0A= =0A= =0A= d2 =3D string2;=0A= dend2 =3D regend[regno];=0A= }=0A= =0A= if (d2 =3D=3D dend2) break;=0A= =0A= =0A= while (d =3D=3D dend) { if (dend =3D=3D end_match_2) goto fail; d =3D str= ing2; dend =3D end_match_2; };=0A= =0A= =0A= mcnt =3D dend - d;=0A= =0A= =0A= =0A= if (mcnt > dend2 - d2)=0A= mcnt =3D dend2 - d2;=0A= =0A= =0A= =0A= if (translate=0A= ? byte_bcmp_translate (d, d2, mcnt, translate)=0A= : bcmp (d, d2, mcnt*sizeof(unsigned char)))=0A= goto fail;=0A= d +=3D mcnt, d2 +=3D mcnt;=0A= =0A= =0A= do { if (!set_regs_matched_done) { active_reg_t r; set_regs_matched_done = =3D 1; for (r =3D lowest_active_reg; r <=3D highest_active_reg; r++) { ((re= g_info[r]).bits.matched_something) =3D ((reg_info[r]).bits.ever_matched_som= ething) =3D 1; } } } while (0);=0A= }=0A= }=0A= break;=0A= =0A= =0A= =0A= =0A= =0A= case begline:=0A= ;=0A= =0A= if (((d) =3D=3D (size1 ? string1 : string2) || !size2))=0A= {=0A= if (!bufp->not_bol) break;=0A= }=0A= else if (d[-1] =3D=3D '\n' && bufp->newline_anchor)=0A= {=0A= break;=0A= }=0A= =0A= goto fail;=0A= =0A= =0A= =0A= case endline:=0A= ;=0A= =0A= if (((d) =3D=3D end2))=0A= {=0A= if (!bufp->not_eol) break;=0A= }=0A= =0A= =0A= else if ((d =3D=3D end1 ? *string2 : *d) =3D=3D '\n'=0A= && bufp->newline_anchor)=0A= {=0A= break;=0A= }=0A= goto fail;=0A= =0A= =0A= =0A= case begbuf:=0A= ;=0A= if (((d) =3D=3D (size1 ? string1 : string2) || !size2))=0A= break;=0A= goto fail;=0A= =0A= =0A= =0A= case endbuf:=0A= ;=0A= if (((d) =3D=3D end2))=0A= break;=0A= goto fail;=0A= # 6986 "../../libiberty/regex.c"=0A= case on_failure_keep_string_jump:=0A= ;=0A= =0A= do { do { (mcnt) =3D *(p) & 0377; (mcnt) +=3D ((signed char) (*((= p) + 1))) << 8; } while (0); (p) +=3D 2; } while (0);=0A= =0A= =0A= =0A= ;=0A= =0A= =0A= do { char *destination; active_reg_t this_reg; ; ; ; ; ; ; ; whil= e (((fail_stack).size - (fail_stack).avail) < (((0 ? 0 : highest_active_reg= - lowest_active_reg + 1) * 3) + 4)) { if (!((fail_stack).size > (unsigned)= (xre_max_failures * (5 * 3 + 4)) ? 0 : ((fail_stack).stack =3D (byte_fail_= stack_elt_t *) (destination =3D (char *) __builtin_alloca (((fail_stack).si= ze << 1) * sizeof (byte_fail_stack_elt_t)), (bcopy ((fail_stack).stack, des= tination, (fail_stack).size * sizeof (byte_fail_stack_elt_t)), (destination= ))), (fail_stack).stack =3D=3D 0 ? 0 : ((fail_stack).size <<=3D 1, 1)))) re= turn -2; ; ; } ; if (1) for (this_reg =3D lowest_active_reg; this_reg <=3D = highest_active_reg; this_reg++) { ; ; ; fail_stack.stack[fail_stack.avail++= ].pointer =3D (unsigned char *) (regstart[this_reg]); ; fail_stack.stack[fa= il_stack.avail++].pointer =3D (unsigned char *) (regend[this_reg]); ; ; ; ;= ; ; fail_stack.stack[fail_stack.avail++] =3D (reg_info[this_reg].word); } = ; fail_stack.stack[fail_stack.avail++].integer =3D (lowest_active_reg); ; f= ail_stack.stack[fail_stack.avail++].integer =3D (highest_active_reg); ; ; f= ail_stack.stack[fail_stack.avail++].pointer =3D (unsigned char *) (p + mcnt= ); ; ; ; fail_stack.stack[fail_stack.avail++].pointer =3D (unsigned char *)= (0); ; ; } while (0);=0A= break;=0A= # 7012 "../../libiberty/regex.c"=0A= case on_failure_jump:=0A= on_failure:=0A= ;=0A= =0A= do { do { (mcnt) =3D *(p) & 0377; (mcnt) +=3D ((signed char) (*((= p) + 1))) << 8; } while (0); (p) +=3D 2; } while (0);=0A= =0A= =0A= =0A= ;=0A= # 7032 "../../libiberty/regex.c"=0A= p1 =3D p;=0A= =0A= =0A= =0A= =0A= =0A= while (p1 < pend && (re_opcode_t) *p1 =3D=3D no_op)=0A= p1++;=0A= =0A= if (p1 < pend && (re_opcode_t) *p1 =3D=3D start_memory)=0A= {=0A= =0A= =0A= =0A= =0A= highest_active_reg =3D *(p1 + 1) + *(p1 + 2);=0A= if (lowest_active_reg =3D=3D ((1 << 8) + 1))=0A= lowest_active_reg =3D *(p1 + 1);=0A= }=0A= =0A= ;=0A= do { char *destination; active_reg_t this_reg; ; ; ; ; ; ; ; whil= e (((fail_stack).size - (fail_stack).avail) < (((0 ? 0 : highest_active_reg= - lowest_active_reg + 1) * 3) + 4)) { if (!((fail_stack).size > (unsigned)= (xre_max_failures * (5 * 3 + 4)) ? 0 : ((fail_stack).stack =3D (byte_fail_= stack_elt_t *) (destination =3D (char *) __builtin_alloca (((fail_stack).si= ze << 1) * sizeof (byte_fail_stack_elt_t)), (bcopy ((fail_stack).stack, des= tination, (fail_stack).size * sizeof (byte_fail_stack_elt_t)), (destination= ))), (fail_stack).stack =3D=3D 0 ? 0 : ((fail_stack).size <<=3D 1, 1)))) re= turn -2; ; ; } ; if (1) for (this_reg =3D lowest_active_reg; this_reg <=3D = highest_active_reg; this_reg++) { ; ; ; fail_stack.stack[fail_stack.avail++= ].pointer =3D (unsigned char *) (regstart[this_reg]); ; fail_stack.stack[fa= il_stack.avail++].pointer =3D (unsigned char *) (regend[this_reg]); ; ; ; ;= ; ; fail_stack.stack[fail_stack.avail++] =3D (reg_info[this_reg].word); } = ; fail_stack.stack[fail_stack.avail++].integer =3D (lowest_active_reg); ; f= ail_stack.stack[fail_stack.avail++].integer =3D (highest_active_reg); ; ; f= ail_stack.stack[fail_stack.avail++].pointer =3D (unsigned char *) (p + mcnt= ); ; ; ; fail_stack.stack[fail_stack.avail++].pointer =3D (unsigned char *)= (d); ; ; } while (0);=0A= break;=0A= =0A= =0A= =0A= =0A= case maybe_pop_jump:=0A= do { do { (mcnt) =3D *(p) & 0377; (mcnt) +=3D ((signed char) (*((= p) + 1))) << 8; } while (0); (p) +=3D 2; } while (0);=0A= ;=0A= {=0A= register unsigned char *p2 =3D p;=0A= # 7082 "../../libiberty/regex.c"=0A= while (1)=0A= {=0A= if (p2 + 2 < pend=0A= && ((re_opcode_t) *p2 =3D=3D stop_memory=0A= || (re_opcode_t) *p2 =3D=3D start_memory))=0A= p2 +=3D 3;=0A= else if (p2 + 2 + 2 * 2 < pend=0A= && (re_opcode_t) *p2 =3D=3D dummy_failure_jump)=0A= p2 +=3D 2 + 2 * 2;=0A= else=0A= break;=0A= }=0A= =0A= p1 =3D p + mcnt;=0A= =0A= =0A= =0A= =0A= =0A= if (p2 =3D=3D pend)=0A= {=0A= =0A= =0A= =0A= p[-(1+2)] =3D (unsigned char)=0A= pop_failure_jump;=0A= =20=20=20=20=20=20=20=20=20=20=20=20=20=20=20=0A= ;=0A= }=0A= =0A= else if ((re_opcode_t) *p2 =3D=3D exactn=0A= =0A= =0A= =0A= || (bufp->newline_anchor && (re_opcode_t) *p2 =3D=3D endline))=0A= {=0A= register unsigned char c=0A= =3D *p2 =3D=3D (unsigned char) endline ? '\n' : p2[2];=0A= =0A= if (((re_opcode_t) p1[1+2] =3D=3D exactn=0A= =0A= =0A= =0A= ) && p1[3+2] !=3D c)=0A= {=0A= p[-(1+2)] =3D (unsigned char)=0A= pop_failure_jump;=0A= =0A= =0A= =0A= =0A= =0A= =20=20=20=20=20=20=20=0A= =20=20=20=20=20=20=20=0A= ;=0A= =0A= }=0A= =0A= =0A= else if ((re_opcode_t) p1[3] =3D=3D charset=0A= || (re_opcode_t) p1[3] =3D=3D charset_not)=0A= {=0A= int not =3D (re_opcode_t) p1[3] =3D=3D charset_not;=0A= =0A= if (c < (unsigned) (p1[4] * 8)=0A= && p1[5 + c / 8] & (1 << (c % 8)))=0A= not =3D !not;=0A= =0A= =0A= =0A= if (!not)=0A= {=0A= p[-3] =3D (unsigned char) pop_failure_jump;=0A= ;=0A= }=0A= }=0A= =0A= }=0A= =0A= else if ((re_opcode_t) *p2 =3D=3D charset)=0A= {=0A= =0A= =0A= if ((re_opcode_t) p1[3] =3D=3D exactn=0A= && ! ((int) p2[1] * 8 > (int) p1[5]=0A= && (p2[2 + p1[5] / 8]=0A= & (1 << (p1[5] % 8)))))=0A= {=0A= p[-3] =3D (unsigned char) pop_failure_jump;=0A= ;=0A= }=0A= =0A= else if ((re_opcode_t) p1[3] =3D=3D charset_not)=0A= {=0A= int idx;=0A= =0A= =0A= for (idx =3D 0; idx < (int) p2[1]; idx++)=0A= if (! (p2[2 + idx] =3D=3D 0=0A= || (idx < (int) p1[4]=0A= && ((p2[2 + idx] & ~ p1[5 + idx]) =3D=3D 0))))=0A= break;=0A= =0A= if (idx =3D=3D p2[1])=0A= {=0A= p[-3] =3D (unsigned char) pop_failure_jump;=0A= ;=0A= }=0A= }=0A= else if ((re_opcode_t) p1[3] =3D=3D charset)=0A= {=0A= int idx;=0A= =0A= =0A= for (idx =3D 0;=0A= idx < (int) p2[1] && idx < (int) p1[4];=0A= idx++)=0A= if ((p2[2 + idx] & p1[5 + idx]) !=3D 0)=0A= break;=0A= =0A= if (idx =3D=3D p2[1] || idx =3D=3D p1[4])=0A= {=0A= p[-3] =3D (unsigned char) pop_failure_jump;=0A= ;=0A= }=0A= }=0A= }=0A= =0A= }=0A= p -=3D 2;=0A= if ((re_opcode_t) p[-1] !=3D pop_failure_jump)=0A= {=0A= p[-1] =3D (unsigned char) jump;=0A= ;=0A= goto unconditional_jump;=0A= }=0A= # 7227 "../../libiberty/regex.c"=0A= case pop_failure_jump:=0A= {=0A= =0A= =0A= =0A= =0A= =0A= active_reg_t dummy_low_reg, dummy_high_reg;=0A= unsigned char *pdummy =3D 0;=0A= const char *sdummy =3D 0;=0A= =0A= ;=0A= =20=20=20=20=20=20=20=20=20=20=20=0A= =20=20=20=20=20=20=20=20=20=20=20=20=20=20=20=20=20=20=20=20=20=20=20=20=20= =20=20=20=20=20=0A= { active_reg_t this_reg; const unsigned char= *string_temp; ; ; ; ; ; ; ; string_temp =3D fail_stack.stack[--fail_stack.= avail].pointer; if (string_temp !=3D 0) sdummy =3D (const char *) string_te= mp; ; ; ; pdummy =3D (unsigned char *) fail_stack.stack[--fail_stack.avail]= .pointer; ; ; dummy_high_reg =3D (active_reg_t) fail_stack.stack[--fail_sta= ck.avail].integer; ; dummy_low_reg =3D (active_reg_t) fail_stack.stack[--fa= il_stack.avail].integer; ; if (1) for (this_reg =3D dummy_high_reg; this_re= g >=3D dummy_low_reg; this_reg--) { ; reg_info_dummy[this_reg].word =3D fai= l_stack.stack[--fail_stack.avail]; ; reg_dummy[this_reg] =3D (const char *)= fail_stack.stack[--fail_stack.avail].pointer; ; reg_dummy[this_reg] =3D (c= onst char *) fail_stack.stack[--fail_stack.avail].pointer; ; } else { for (= this_reg =3D highest_active_reg; this_reg > dummy_high_reg; this_reg--) { r= eg_info_dummy[this_reg].word.integer =3D 0; reg_dummy[this_reg] =3D 0; reg_= dummy[this_reg] =3D 0; } highest_active_reg =3D dummy_high_reg; } set_regs_= matched_done =3D 0; ; };=0A= }=0A= =0A= =0A= unconditional_jump:=0A= =0A= =0A= =0A= ;=0A= =0A= =0A= =0A= =0A= case jump:=0A= do { do { (mcnt) =3D *(p) & 0377; (mcnt) +=3D ((signed char) (*((p) + 1)= )) << 8; } while (0); (p) +=3D 2; } while (0);=0A= ;=0A= p +=3D mcnt;=0A= =0A= =0A= =0A= ;=0A= =0A= break;=0A= =0A= =0A= =0A= =0A= case jump_past_alt:=0A= ;=0A= goto unconditional_jump;=0A= =0A= =0A= =0A= =0A= =0A= =0A= =0A= case dummy_failure_jump:=0A= ;=0A= =0A= =0A= do { char *destination; active_reg_t this_reg; ; ; ; ; ; ; ; whil= e (((fail_stack).size - (fail_stack).avail) < (((0 ? 0 : highest_active_reg= - lowest_active_reg + 1) * 3) + 4)) { if (!((fail_stack).size > (unsigned)= (xre_max_failures * (5 * 3 + 4)) ? 0 : ((fail_stack).stack =3D (byte_fail_= stack_elt_t *) (destination =3D (char *) __builtin_alloca (((fail_stack).si= ze << 1) * sizeof (byte_fail_stack_elt_t)), (bcopy ((fail_stack).stack, des= tination, (fail_stack).size * sizeof (byte_fail_stack_elt_t)), (destination= ))), (fail_stack).stack =3D=3D 0 ? 0 : ((fail_stack).size <<=3D 1, 1)))) re= turn -2; ; ; } ; if (1) for (this_reg =3D lowest_active_reg; this_reg <=3D = highest_active_reg; this_reg++) { ; ; ; fail_stack.stack[fail_stack.avail++= ].pointer =3D (unsigned char *) (regstart[this_reg]); ; fail_stack.stack[fa= il_stack.avail++].pointer =3D (unsigned char *) (regend[this_reg]); ; ; ; ;= ; ; fail_stack.stack[fail_stack.avail++] =3D (reg_info[this_reg].word); } = ; fail_stack.stack[fail_stack.avail++].integer =3D (lowest_active_reg); ; f= ail_stack.stack[fail_stack.avail++].integer =3D (highest_active_reg); ; ; f= ail_stack.stack[fail_stack.avail++].pointer =3D (unsigned char *) (0); ; ; = ; fail_stack.stack[fail_stack.avail++].pointer =3D (unsigned char *) (0); ;= ; } while (0);=0A= goto unconditional_jump;=0A= =0A= =0A= =0A= =0A= =0A= =0A= =0A= case push_dummy_failure:=0A= ;=0A= =0A= =0A= do { char *destination; active_reg_t this_reg; ; ; ; ; ; ; ; whil= e (((fail_stack).size - (fail_stack).avail) < (((0 ? 0 : highest_active_reg= - lowest_active_reg + 1) * 3) + 4)) { if (!((fail_stack).size > (unsigned)= (xre_max_failures * (5 * 3 + 4)) ? 0 : ((fail_stack).stack =3D (byte_fail_= stack_elt_t *) (destination =3D (char *) __builtin_alloca (((fail_stack).si= ze << 1) * sizeof (byte_fail_stack_elt_t)), (bcopy ((fail_stack).stack, des= tination, (fail_stack).size * sizeof (byte_fail_stack_elt_t)), (destination= ))), (fail_stack).stack =3D=3D 0 ? 0 : ((fail_stack).size <<=3D 1, 1)))) re= turn -2; ; ; } ; if (1) for (this_reg =3D lowest_active_reg; this_reg <=3D = highest_active_reg; this_reg++) { ; ; ; fail_stack.stack[fail_stack.avail++= ].pointer =3D (unsigned char *) (regstart[this_reg]); ; fail_stack.stack[fa= il_stack.avail++].pointer =3D (unsigned char *) (regend[this_reg]); ; ; ; ;= ; ; fail_stack.stack[fail_stack.avail++] =3D (reg_info[this_reg].word); } = ; fail_stack.stack[fail_stack.avail++].integer =3D (lowest_active_reg); ; f= ail_stack.stack[fail_stack.avail++].integer =3D (highest_active_reg); ; ; f= ail_stack.stack[fail_stack.avail++].pointer =3D (unsigned char *) (0); ; ; = ; fail_stack.stack[fail_stack.avail++].pointer =3D (unsigned char *) (0); ;= ; } while (0);=0A= break;=0A= =0A= =0A= =0A= case succeed_n:=0A= do { (mcnt) =3D *(p + 2) & 0377; (mcnt) +=3D ((signed char) (*((p= + 2) + 1))) << 8; } while (0);=0A= ;=0A= =0A= ;=0A= =0A= if (mcnt > 0)=0A= {=0A= mcnt--;=0A= p +=3D 2;=0A= do { do { (p)[0] =3D (mcnt) & 0377; (p)[1] =3D (mcnt) >> 8; = } while (0); (p) +=3D 2; } while (0);=0A= =0A= =0A= =0A= =0A= =20=20=20=20=20=20=20=20=20=20=20=20=20=20=0A= ;=0A= =0A= }=0A= else if (mcnt =3D=3D 0)=0A= {=0A= =0A= =0A= =0A= =0A= =20=20=20=20=20=20=20=20=20=20=20=20=20=0A= ;=0A= =0A= =0A= =0A= =0A= =0A= p[2] =3D (unsigned char) no_op;=0A= p[3] =3D (unsigned char) no_op;=0A= =0A= goto on_failure;=0A= }=0A= break;=0A= =0A= case jump_n:=0A= do { (mcnt) =3D *(p + 2) & 0377; (mcnt) +=3D ((signed char) (*((p= + 2) + 1))) << 8; } while (0);=0A= ;=0A= =0A= =0A= if (mcnt)=0A= {=0A= mcnt--;=0A= do { (p + 2)[0] =3D (mcnt) & 0377; (p + 2)[1] =3D (mcnt) >> = 8; } while (0);=0A= =0A= =0A= =0A= =0A= =0A= =20=20=20=20=20=20=20=20=20=20=20=20=20=20=0A= ;=0A= =0A= goto unconditional_jump;=0A= }=0A= =0A= else=0A= p +=3D 2 * 2;=0A= break;=0A= =0A= case set_number_at:=0A= {=0A= ;=0A= =0A= do { do { (mcnt) =3D *(p) & 0377; (mcnt) +=3D ((signed char) (*= ((p) + 1))) << 8; } while (0); (p) +=3D 2; } while (0);=0A= p1 =3D p + mcnt;=0A= do { do { (mcnt) =3D *(p) & 0377; (mcnt) +=3D ((signed char) (*= ((p) + 1))) << 8; } while (0); (p) +=3D 2; } while (0);=0A= =0A= =0A= =0A= ;=0A= =0A= do { (p1)[0] =3D (mcnt) & 0377; (p1)[1] =3D (mcnt) >> 8; } while (0);= =0A= break;=0A= }=0A= # 7397 "../../libiberty/regex.c"=0A= case wordbound:=0A= {=0A= boolean prevchar, thischar;=0A= =0A= ;=0A= if (((d) =3D=3D (size1 ? string1 : string2) || !size2) || ((d) =3D=3D en= d2))=0A= break;=0A= =0A= prevchar =3D (re_syntax_table[(unsigned char) ((d - 1) =3D=3D end1 ? *st= ring2 : (d - 1) =3D=3D string2 - 1 ? *(end1 - 1) : *(d - 1))] =3D=3D 1);=0A= thischar =3D (re_syntax_table[(unsigned char) ((d) =3D=3D end1 ? *string= 2 : (d) =3D=3D string2 - 1 ? *(end1 - 1) : *(d))] =3D=3D 1);=0A= if (prevchar !=3D thischar)=0A= break;=0A= goto fail;=0A= }=0A= =0A= case notwordbound:=0A= {=0A= boolean prevchar, thischar;=0A= =0A= ;=0A= if (((d) =3D=3D (size1 ? string1 : string2) || !size2) || ((d) =3D=3D en= d2))=0A= goto fail;=0A= =0A= prevchar =3D (re_syntax_table[(unsigned char) ((d - 1) =3D=3D end1 ? *st= ring2 : (d - 1) =3D=3D string2 - 1 ? *(end1 - 1) : *(d - 1))] =3D=3D 1);=0A= thischar =3D (re_syntax_table[(unsigned char) ((d) =3D=3D end1 ? *string= 2 : (d) =3D=3D string2 - 1 ? *(end1 - 1) : *(d))] =3D=3D 1);=0A= if (prevchar !=3D thischar)=0A= goto fail;=0A= break;=0A= }=0A= =0A= =0A= case wordbeg:=0A= ;=0A= if (!((d) =3D=3D end2) && (re_syntax_table[(unsigned char) ((d) =3D=3D e= nd1 ? *string2 : (d) =3D=3D string2 - 1 ? *(end1 - 1) : *(d))] =3D=3D 1)=0A= && (((d) =3D=3D (size1 ? string1 : string2) || !size2) || !(re_synta= x_table[(unsigned char) ((d - 1) =3D=3D end1 ? *string2 : (d - 1) =3D=3D st= ring2 - 1 ? *(end1 - 1) : *(d - 1))] =3D=3D 1)))=0A= break;=0A= goto fail;=0A= =0A= case wordend:=0A= ;=0A= if (!((d) =3D=3D (size1 ? string1 : string2) || !size2) && (re_syntax_ta= ble[(unsigned char) ((d - 1) =3D=3D end1 ? *string2 : (d - 1) =3D=3D string= 2 - 1 ? *(end1 - 1) : *(d - 1))] =3D=3D 1)=0A= && (((d) =3D=3D end2) || !(re_syntax_table[(unsigned char) ((= d) =3D=3D end1 ? *string2 : (d) =3D=3D string2 - 1 ? *(end1 - 1) : *(d))] = =3D=3D 1)))=0A= break;=0A= goto fail;=0A= # 7496 "../../libiberty/regex.c"=0A= case wordchar:=0A= ;=0A= while (d =3D=3D dend) { if (dend =3D=3D end_match_2) goto fail; d =3D st= ring2; dend =3D end_match_2; };=0A= if (!(re_syntax_table[(unsigned char) ((d) =3D=3D end1 ? *string2= : (d) =3D=3D string2 - 1 ? *(end1 - 1) : *(d))] =3D=3D 1))=0A= goto fail;=0A= do { if (!set_regs_matched_done) { active_reg_t r; set_regs_matched_done= =3D 1; for (r =3D lowest_active_reg; r <=3D highest_active_reg; r++) { ((r= eg_info[r]).bits.matched_something) =3D ((reg_info[r]).bits.ever_matched_so= mething) =3D 1; } } } while (0);=0A= d++;=0A= break;=0A= =0A= case notwordchar:=0A= ;=0A= while (d =3D=3D dend) { if (dend =3D=3D end_match_2) goto fail; d =3D st= ring2; dend =3D end_match_2; };=0A= if ((re_syntax_table[(unsigned char) ((d) =3D=3D end1 ? *string2 : (d) = =3D=3D string2 - 1 ? *(end1 - 1) : *(d))] =3D=3D 1))=0A= goto fail;=0A= do { if (!set_regs_matched_done) { active_reg_t r; set_regs_match= ed_done =3D 1; for (r =3D lowest_active_reg; r <=3D highest_active_reg; r++= ) { ((reg_info[r]).bits.matched_something) =3D ((reg_info[r]).bits.ever_mat= ched_something) =3D 1; } } } while (0);=0A= d++;=0A= break;=0A= =0A= =0A= default:=0A= abort ();=0A= }=0A= continue;=0A= =0A= =0A= =0A= fail:=0A= if (!(fail_stack.avail =3D=3D 0))=0A= {=0A= ;=0A= =20=20=20=20=20=20=20=20=20=0A= =20=20=20=20=20=20=20=20=20=20=20=20=20=20=20=20=20=20=20=20=20=20=20=20=20= =20=20=20=0A= { active_reg_t this_reg; const unsigned char *= string_temp; ; ; ; ; ; ; ; string_temp =3D fail_stack.stack[--fail_stack.av= ail].pointer; if (string_temp !=3D 0) d =3D (const char *) string_temp; ; ;= ; p =3D (unsigned char *) fail_stack.stack[--fail_stack.avail].pointer; ; = ; highest_active_reg =3D (active_reg_t) fail_stack.stack[--fail_stack.avail= ].integer; ; lowest_active_reg =3D (active_reg_t) fail_stack.stack[--fail_s= tack.avail].integer; ; if (1) for (this_reg =3D highest_active_reg; this_re= g >=3D lowest_active_reg; this_reg--) { ; reg_info[this_reg].word =3D fail_= stack.stack[--fail_stack.avail]; ; regend[this_reg] =3D (const char *) fail= _stack.stack[--fail_stack.avail].pointer; ; regstart[this_reg] =3D (const c= har *) fail_stack.stack[--fail_stack.avail].pointer; ; } else { for (this_r= eg =3D highest_active_reg; this_reg > highest_active_reg; this_reg--) { reg= _info[this_reg].word.integer =3D 0; regend[this_reg] =3D 0; regstart[this_r= eg] =3D 0; } highest_active_reg =3D highest_active_reg; } set_regs_matched_= done =3D 0; ; };=0A= =0A= =0A= if (!p)=0A= goto fail;=0A= =0A= =0A= ;=0A= if (p < pend)=0A= {=0A= boolean is_a_jump_n =3D 0;=0A= =0A= =0A= =0A= switch ((re_opcode_t) *p)=0A= {=0A= case jump_n:=0A= is_a_jump_n =3D 1;=0A= case maybe_pop_jump:=0A= case pop_failure_jump:=0A= case jump:=0A= p1 =3D p + 1;=0A= do { do { (mcnt) =3D *(p1) & 0377; (mcnt) +=3D ((signed c= har) (*((p1) + 1))) << 8; } while (0); (p1) +=3D 2; } while (0);=0A= p1 +=3D mcnt;=0A= =0A= if ((is_a_jump_n && (re_opcode_t) *p1 =3D=3D succeed_n)= =0A= || (!is_a_jump_n=0A= && (re_opcode_t) *p1 =3D=3D on_failure_jump))=0A= goto fail;=0A= break;=0A= default:=0A= ;=0A= }=0A= }=0A= =0A= if (d >=3D string1 && d <=3D end1)=0A= dend =3D end_match_1;=0A= }=0A= else=0A= break;=0A= }=0A= =0A= if (best_regs_set)=0A= goto restore_best_regs;=0A= =0A= do { ; if (regstart) ((void)0); regstart =3D 0; if (regend) ((void)0); re= gend =3D 0; if (old_regstart) ((void)0); old_regstart =3D 0; if (old_regend= ) ((void)0); old_regend =3D 0; if (best_regstart) ((void)0); best_regstart = =3D 0; if (best_regend) ((void)0); best_regend =3D 0; if (reg_info) ((void)= 0); reg_info =3D 0; if (reg_dummy) ((void)0); reg_dummy =3D 0; if (reg_info= _dummy) ((void)0); reg_info_dummy =3D 0; } while (0);=0A= =0A= return -1;=0A= }=0A= # 7591 "../../libiberty/regex.c"=0A= static boolean=0A= byte_group_match_null_string_p (p, end, reg_info)=0A= unsigned char **p, *end;=0A= byte_register_info_type *reg_info;=0A= {=0A= int mcnt;=0A= =0A= unsigned char *p1 =3D *p + 2;=0A= =0A= while (p1 < end)=0A= {=0A= =0A= =0A= =0A= =0A= switch ((re_opcode_t) *p1)=0A= {=0A= =0A= case on_failure_jump:=0A= p1++;=0A= do { do { (mcnt) =3D *(p1) & 0377; (mcnt) +=3D ((signed char) (*(= (p1) + 1))) << 8; } while (0); (p1) +=3D 2; } while (0);=0A= =0A= =0A= =0A= =0A= if (mcnt >=3D 0)=0A= {=0A= # 7636 "../../libiberty/regex.c"=0A= while ((re_opcode_t) p1[mcnt-(1+2)] =3D=3D=0A= jump_past_alt)=0A= {=0A= =0A= =0A= =0A= =0A= if (!byte_alt_match_null_string_p (p1, p1 + mcnt -=0A= (1 + 2),=0A= reg_info))=0A= return 0;=0A= =0A= =0A= =0A= p1 +=3D mcnt;=0A= =0A= =0A= =0A= if ((re_opcode_t) *p1 !=3D on_failure_jump)=0A= break;=0A= =0A= =0A= =0A= p1++;=0A= do { do { (mcnt) =3D *(p1) & 0377; (mcnt) +=3D ((signed c= har) (*((p1) + 1))) << 8; } while (0); (p1) +=3D 2; } while (0);=0A= if ((re_opcode_t) p1[mcnt-(1+2)] !=3D=0A= jump_past_alt)=0A= {=0A= =0A= p1 -=3D 1 + 2;=0A= break;=0A= }=0A= }=0A= =0A= =0A= =0A= =0A= do { (mcnt) =3D *(p1 - 2) & 0377; (mcnt) +=3D ((signed char) = (*((p1 - 2) + 1))) << 8; } while (0);=0A= =0A= if (!byte_alt_match_null_string_p (p1, p1 + mcnt, reg_info))= =0A= return 0;=0A= =0A= p1 +=3D mcnt;=0A= }=0A= break;=0A= =0A= =0A= case stop_memory:=0A= ;=0A= *p =3D p1 + 2;=0A= return 1;=0A= =0A= =0A= default:=0A= if (!byte_common_op_match_null_string_p (&p1, end, reg_info))=0A= return 0;=0A= }=0A= }=0A= =0A= return 0;=0A= }=0A= =0A= =0A= =0A= =0A= =0A= =0A= static boolean=0A= byte_alt_match_null_string_p (p, end, reg_info)=0A= unsigned char *p, *end;=0A= byte_register_info_type *reg_info;=0A= {=0A= int mcnt;=0A= unsigned char *p1 =3D p;=0A= =0A= while (p1 < end)=0A= {=0A= =0A= =0A= =0A= switch ((re_opcode_t) *p1)=0A= {=0A= =0A= case on_failure_jump:=0A= p1++;=0A= do { do { (mcnt) =3D *(p1) & 0377; (mcnt) +=3D ((signed char) (*(= (p1) + 1))) << 8; } while (0); (p1) +=3D 2; } while (0);=0A= p1 +=3D mcnt;=0A= break;=0A= =0A= default:=0A= if (!byte_common_op_match_null_string_p (&p1, end, reg_info))=0A= return 0;=0A= }=0A= }=0A= =0A= return 1;=0A= }=0A= =0A= =0A= =0A= =0A= =0A= =0A= =0A= static boolean=0A= byte_common_op_match_null_string_p (p, end, reg_info)=0A= unsigned char **p, *end;=0A= byte_register_info_type *reg_info;=0A= {=0A= int mcnt;=0A= boolean ret;=0A= int reg_no;=0A= unsigned char *p1 =3D *p;=0A= =0A= switch ((re_opcode_t) *p1++)=0A= {=0A= case no_op:=0A= case begline:=0A= case endline:=0A= case begbuf:=0A= case endbuf:=0A= case wordbeg:=0A= case wordend:=0A= case wordbound:=0A= case notwordbound:=0A= =0A= =0A= =0A= =0A= =0A= break;=0A= =0A= case start_memory:=0A= reg_no =3D *p1;=0A= ;=0A= ret =3D byte_group_match_null_string_p (&p1, end, reg_info);=0A= =0A= =0A= =0A= =0A= if (((reg_info[reg_no]).bits.match_null_string_p) =3D=3D 3)=0A= ((reg_info[reg_no]).bits.match_null_string_p) =3D ret;=0A= =0A= if (!ret)=0A= return 0;=0A= break;=0A= =0A= =0A= case jump:=0A= do { do { (mcnt) =3D *(p1) & 0377; (mcnt) +=3D ((signed char) (*((p1)= + 1))) << 8; } while (0); (p1) +=3D 2; } while (0);=0A= if (mcnt >=3D 0)=0A= p1 +=3D mcnt;=0A= else=0A= return 0;=0A= break;=0A= =0A= case succeed_n:=0A= =0A= p1 +=3D 2;=0A= do { do { (mcnt) =3D *(p1) & 0377; (mcnt) +=3D ((signed char) (*((p1)= + 1))) << 8; } while (0); (p1) +=3D 2; } while (0);=0A= =0A= if (mcnt =3D=3D 0)=0A= {=0A= p1 -=3D 2 * 2;=0A= do { do { (mcnt) =3D *(p1) & 0377; (mcnt) +=3D ((signed char) (*(= (p1) + 1))) << 8; } while (0); (p1) +=3D 2; } while (0);=0A= p1 +=3D mcnt;=0A= }=0A= else=0A= return 0;=0A= break;=0A= =0A= case duplicate:=0A= if (!((reg_info[*p1]).bits.match_null_string_p))=0A= return 0;=0A= break;=0A= =0A= case set_number_at:=0A= p1 +=3D 2 * 2;=0A= =0A= default:=0A= =0A= return 0;=0A= }=0A= =0A= *p =3D p1;=0A= return 1;=0A= }=0A= =0A= =0A= =0A= =0A= =0A= static int=0A= byte_bcmp_translate (s1, s2, len, translate)=0A= const char *s1, *s2;=0A= register int len;=0A= char * translate;=0A= {=0A= register const unsigned char *p1 =3D (const unsigned char *) s1;=0A= register const unsigned char *p2 =3D (const unsigned char *) s2;=0A= while (len)=0A= {=0A= =0A= =0A= =0A= =0A= =0A= if (translate[*p1++] !=3D translate[*p2++]) return 1;=0A= =0A= len--;=0A= }=0A= return 0;=0A= }=0A= # 650 "../../libiberty/regex.c" 2=0A= # 1342 "../../libiberty/regex.c"=0A= reg_syntax_t xre_syntax_options;=0A= # 1352 "../../libiberty/regex.c"=0A= reg_syntax_t=0A= xre_set_syntax (syntax)=0A= reg_syntax_t syntax;=0A= {=0A= reg_syntax_t ret =3D xre_syntax_options;=0A= =0A= xre_syntax_options =3D syntax;=0A= =0A= =0A= =0A= =0A= =0A= =0A= return ret;=0A= }=0A= # 1376 "../../libiberty/regex.c"=0A= static const char *re_error_msgid[] =3D=0A= {=0A= "Success",=0A= "No match",=0A= "Invalid regular expression",=0A= "Invalid collation character",=0A= "Invalid character class name",=0A= "Trailing backslash",=0A= "Invalid back reference",=0A= "Unmatched [ or [^",=0A= "Unmatched ( or \\(",=0A= "Unmatched \\{",=0A= "Invalid content of \\{\\}",=0A= "Invalid range end",=0A= "Memory exhausted",=0A= "Invalid preceding regular expression",=0A= "Premature end of regular expression",=0A= "Regular expression too big",=0A= "Unmatched ) or \\)"=0A= };=0A= # 4375 "../../libiberty/regex.c"=0A= static boolean=0A= group_in_compile_stack (compile_stack, regnum)=0A= compile_stack_type compile_stack;=0A= regnum_t regnum;=0A= {=0A= int this_element;=0A= =0A= for (this_element =3D compile_stack.avail - 1;=0A= this_element >=3D 0;=0A= this_element--)=0A= if (compile_stack.stack[this_element].regnum =3D=3D regnum)=0A= return 1;=0A= =0A= return 0;=0A= }=0A= # 4922 "../../libiberty/regex.c"=0A= int=0A= xre_compile_fastmap (bufp)=0A= struct re_pattern_buffer *bufp;=0A= {=0A= =0A= =0A= =0A= =0A= =0A= return byte_re_compile_fastmap(bufp);=0A= }=0A= # 4951 "../../libiberty/regex.c"=0A= void=0A= xre_set_registers (bufp, regs, num_regs, starts, ends)=0A= struct re_pattern_buffer *bufp;=0A= struct re_registers *regs;=0A= unsigned num_regs;=0A= regoff_t *starts, *ends;=0A= {=0A= if (num_regs)=0A= {=0A= bufp->regs_allocated =3D 1;=0A= regs->num_regs =3D num_regs;=0A= regs->start =3D starts;=0A= regs->end =3D ends;=0A= }=0A= else=0A= {=0A= bufp->regs_allocated =3D 0;=0A= regs->num_regs =3D 0;=0A= regs->start =3D regs->end =3D (regoff_t *) 0;=0A= }=0A= }=0A= # 4981 "../../libiberty/regex.c"=0A= int=0A= xre_search (bufp, string, size, startpos, range, regs)=0A= struct re_pattern_buffer *bufp;=0A= const char *string;=0A= int size, startpos, range;=0A= struct re_registers *regs;=0A= {=0A= return xre_search_2 (bufp, 0, 0, string, size, startpos, range,=0A= regs, size);=0A= }=0A= # 5017 "../../libiberty/regex.c"=0A= int=0A= xre_search_2 (bufp, string1, size1, string2, size2, startpos, range, regs, = stop)=0A= struct re_pattern_buffer *bufp;=0A= const char *string1, *string2;=0A= int size1, size2;=0A= int startpos;=0A= int range;=0A= struct re_registers *regs;=0A= int stop;=0A= {=0A= =0A= =0A= =0A= =0A= =0A= =0A= return byte_re_search_2 (bufp, string1, size1, string2, size2, startpos= ,=0A= range, regs, stop);=0A= }=0A= # 5471 "../../libiberty/regex.c"=0A= int=0A= xre_match (bufp, string, size, pos, regs)=0A= struct re_pattern_buffer *bufp;=0A= const char *string;=0A= int size, pos;=0A= struct re_registers *regs;=0A= {=0A= int result;=0A= =0A= =0A= =0A= =0A= =0A= =0A= =0A= result =3D byte_re_match_2_internal (bufp, 0, 0, string, size,=0A= pos, regs, size);=0A= =0A= =0A= =0A= =0A= =0A= return result;=0A= }=0A= # 5529 "../../libiberty/regex.c"=0A= int=0A= xre_match_2 (bufp, string1, size1, string2, size2, pos, regs, stop)=0A= struct re_pattern_buffer *bufp;=0A= const char *string1, *string2;=0A= int size1, size2;=0A= int pos;=0A= struct re_registers *regs;=0A= int stop;=0A= {=0A= int result;=0A= =0A= =0A= =0A= =0A= =0A= =0A= =0A= result =3D byte_re_match_2_internal (bufp, string1, size1, string2, siz= e2,=0A= pos, regs, stop);=0A= =0A= =0A= =0A= =0A= =0A= =0A= return result;=0A= }=0A= # 7864 "../../libiberty/regex.c"=0A= const char *=0A= xre_compile_pattern (pattern, length, bufp)=0A= const char *pattern;=0A= size_t length;=0A= struct re_pattern_buffer *bufp;=0A= {=0A= reg_errcode_t ret;=0A= =0A= =0A= =0A= bufp->regs_allocated =3D 0;=0A= =0A= =0A= =0A= =0A= bufp->no_sub =3D 0;=0A= =0A= =0A= bufp->newline_anchor =3D 1;=0A= =0A= =0A= =0A= =0A= =0A= =0A= ret =3D byte_regex_compile (pattern, length, xre_syntax_options, bufp);= =0A= =0A= if (!ret)=0A= return 0;=0A= return (re_error_msgid[(int) ret]);=0A= }=0A= # 7905 "../../libiberty/regex.c"=0A= static struct re_pattern_buffer re_comp_buf;=0A= =0A= char *=0A= =0A= =0A= =0A= =0A= =0A= =0A= xre_comp (s)=0A= const char *s;=0A= {=0A= reg_errcode_t ret;=0A= =0A= if (!s)=0A= {=0A= if (!re_comp_buf.buffer)=0A= return ("No previous regular expression");=0A= return 0;=0A= }=0A= =0A= if (!re_comp_buf.buffer)=0A= {=0A= re_comp_buf.buffer =3D (unsigned char *) malloc (200);=0A= if (re_comp_buf.buffer =3D=3D 0)=0A= return (char *) (re_error_msgid[(int) REG_ESPACE]);=0A= re_comp_buf.allocated =3D 200;=0A= =0A= re_comp_buf.fastmap =3D (char *) malloc (1 << 8);=0A= if (re_comp_buf.fastmap =3D=3D 0)=0A= return (char *) (re_error_msgid[(int) REG_ESPACE]);=0A= }=0A= =0A= =0A= =0A= =0A= =0A= re_comp_buf.newline_anchor =3D 1;=0A= =0A= =0A= =0A= =0A= =0A= =0A= ret =3D byte_regex_compile (s, strlen (s), xre_syntax_options, &re_comp= _buf);=0A= =0A= if (!ret)=0A= return 0;=0A= =0A= =0A= return (char *) (re_error_msgid[(int) ret]);=0A= }=0A= =0A= =0A= int=0A= =0A= =0A= =0A= xre_exec (s)=0A= const char *s;=0A= {=0A= const int len =3D strlen (s);=0A= return=0A= 0 <=3D xre_search (&re_comp_buf, s, len, 0, len, (struct re_registers *= ) 0);=0A= }=0A= # 8012 "../../libiberty/regex.c"=0A= int=0A= xregcomp (preg, pattern, cflags)=0A= regex_t *preg;=0A= const char *pattern;=0A= int cflags;=0A= {=0A= reg_errcode_t ret;=0A= reg_syntax_t syntax=0A= =3D (cflags & 1) ?=0A= ((((((unsigned long int) 1) << 1) << 1) | ((((((((unsigned long int) = 1) << 1) << 1) << 1) << 1) << 1) << 1) | (((((((((unsigned long int) 1) << = 1) << 1) << 1) << 1) << 1) << 1) << 1) | (((((((((((unsigned long int) 1) <= < 1) << 1) << 1) << 1) << 1) << 1) << 1) << 1) << 1) | ((((((((((((((((((un= signed long int) 1) << 1) << 1) << 1) << 1) << 1) << 1) << 1) << 1) << 1) <= < 1) << 1) << 1) << 1) << 1) << 1) << 1)) | (((((unsigned long int) 1) << 1= ) << 1) << 1) | ((((((unsigned long int) 1) << 1) << 1) << 1) << 1) | (((((= (((((((((unsigned long int) 1) << 1) << 1) << 1) << 1) << 1) << 1) << 1) <<= 1) << 1) << 1) << 1) << 1) | (((((((((((((((unsigned long int) 1) << 1) <<= 1) << 1) << 1) << 1) << 1) << 1) << 1) << 1) << 1) << 1) << 1) << 1) | (((= ((((((((((((((unsigned long int) 1) << 1) << 1) << 1) << 1) << 1) << 1) << = 1) << 1) << 1) << 1) << 1) << 1) << 1) << 1) << 1) | (((((((unsigned long i= nt) 1) << 1) << 1) << 1) << 1) << 1) | (((((((((((((((((((unsigned long int= ) 1) << 1) << 1) << 1) << 1) << 1) << 1) << 1) << 1) << 1) << 1) << 1) << 1= ) << 1) << 1) << 1) << 1) << 1)) : ((((((unsigned long int) 1) << 1) << 1) = | ((((((((unsigned long int) 1) << 1) << 1) << 1) << 1) << 1) << 1) | (((((= ((((unsigned long int) 1) << 1) << 1) << 1) << 1) << 1) << 1) << 1) | (((((= ((((((unsigned long int) 1) << 1) << 1) << 1) << 1) << 1) << 1) << 1) << 1)= << 1) | ((((((((((((((((((unsigned long int) 1) << 1) << 1) << 1) << 1) <<= 1) << 1) << 1) << 1) << 1) << 1) << 1) << 1) << 1) << 1) << 1) << 1)) | ((= (unsigned long int) 1) << 1));=0A= =0A= =0A= preg->buffer =3D 0;=0A= preg->allocated =3D 0;=0A= preg->used =3D 0;=0A= =0A= =0A= preg->fastmap =3D (char *) malloc (1 << 8);=0A= =0A= if (cflags & (1 << 1))=0A= {=0A= unsigned i;=0A= =0A= preg->translate=0A= =3D (char *) malloc (256=0A= * sizeof (*(char *)0));=0A= if (preg->translate =3D=3D 0)=0A= return (int) REG_ESPACE;=0A= =0A= =0A= for (i =3D 0; i < 256; i++)=0A= preg->translate[i] =3D (((i & ~0x7F) =3D=3D 0) && __istype((i), 0x0= 0008000L)) ? __tolower(i) : i;=0A= }=0A= else=0A= preg->translate =3D 0;=0A= =0A= =0A= if (cflags & ((1 << 1) << 1))=0A= {=0A= syntax &=3D ~((((((((unsigned long int) 1) << 1) << 1) << 1) << 1) <<= 1) << 1);=0A= syntax |=3D ((((((((((unsigned long int) 1) << 1) << 1) << 1) << 1) <= < 1) << 1) << 1) << 1);=0A= =0A= preg->newline_anchor =3D 1;=0A= }=0A= else=0A= preg->newline_anchor =3D 0;=0A= =0A= preg->no_sub =3D !!(cflags & (((1 << 1) << 1) << 1));=0A= # 8068 "../../libiberty/regex.c"=0A= ret =3D byte_regex_compile (pattern, strlen (pattern), syntax, preg);= =0A= =0A= =0A= =0A= if (ret =3D=3D REG_ERPAREN) ret =3D REG_EPAREN;=0A= =0A= if (ret =3D=3D REG_NOERROR && preg->fastmap)=0A= {=0A= =0A= =0A= if (xre_compile_fastmap (preg) =3D=3D -2)=0A= {=0A= =0A= =0A= free (preg->fastmap);=0A= preg->fastmap =3D 0;=0A= }=0A= }=0A= =0A= return (int) ret;=0A= }=0A= # 8108 "../../libiberty/regex.c"=0A= int=0A= xregexec (preg, string, nmatch, pmatch, eflags)=0A= const regex_t *preg;=0A= const char *string;=0A= size_t nmatch;=0A= regmatch_t pmatch[];=0A= int eflags;=0A= {=0A= int ret;=0A= struct re_registers regs;=0A= regex_t private_preg;=0A= int len =3D strlen (string);=0A= boolean want_reg_info =3D !preg->no_sub && nmatch > 0;=0A= =0A= private_preg =3D *preg;=0A= =0A= private_preg.not_bol =3D !!(eflags & 1);=0A= private_preg.not_eol =3D !!(eflags & (1 << 1));=0A= =0A= =0A= =0A= =0A= private_preg.regs_allocated =3D 2;=0A= =0A= if (want_reg_info)=0A= {=0A= regs.num_regs =3D nmatch;=0A= regs.start =3D ((regoff_t *) malloc ((nmatch * 2) * sizeof (regoff_t)= ));=0A= if (regs.start =3D=3D 0)=0A= return (int) REG_NOMATCH;=0A= regs.end =3D regs.start + nmatch;=0A= }=0A= =0A= =0A= ret =3D xre_search (&private_preg, string, len,=0A= 0, len,=0A= want_reg_info ? ®s : (struct re_registers *) 0);=0A= =0A= =0A= if (want_reg_info)=0A= {=0A= if (ret >=3D 0)=0A= {=0A= unsigned r;=0A= =0A= for (r =3D 0; r < nmatch; r++)=0A= {=0A= pmatch[r].rm_so =3D regs.start[r];=0A= pmatch[r].rm_eo =3D regs.end[r];=0A= }=0A= }=0A= =0A= =0A= free (regs.start);=0A= }=0A= =0A= =0A= return ret >=3D 0 ? (int) REG_NOERROR : (int) REG_NOMATCH;=0A= }=0A= # 8175 "../../libiberty/regex.c"=0A= size_t=0A= xregerror (errcode, preg, errbuf, errbuf_size)=0A= int errcode;=0A= const regex_t *preg;=0A= char *errbuf;=0A= size_t errbuf_size;=0A= {=0A= const char *msg;=0A= size_t msg_size;=0A= =0A= if (errcode < 0=0A= || errcode >=3D (int) (sizeof (re_error_msgid)=0A= / sizeof (re_error_msgid[0])))=0A= =0A= =0A= =0A= =0A= abort ();=0A= =0A= msg =3D (re_error_msgid[errcode]);=0A= =0A= msg_size =3D strlen (msg) + 1;=0A= =0A= if (errbuf_size !=3D 0)=0A= {=0A= if (msg_size > errbuf_size)=0A= {=0A= =0A= =0A= =0A= (bcopy (msg, errbuf, errbuf_size - 1), (errbuf));=0A= errbuf[errbuf_size - 1] =3D 0;=0A= =0A= }=0A= else=0A= (bcopy (msg, errbuf, msg_size), (errbuf));=0A= }=0A= =0A= return msg_size;=0A= }=0A= =0A= =0A= =0A= =0A= =0A= =0A= =0A= void=0A= xregfree (preg)=0A= regex_t *preg;=0A= {=0A= if (preg->buffer !=3D 0)=0A= free (preg->buffer);=0A= preg->buffer =3D 0;=0A= =0A= preg->allocated =3D 0;=0A= preg->used =3D 0;=0A= =0A= if (preg->fastmap !=3D 0)=0A= free (preg->fastmap);=0A= preg->fastmap =3D 0;=0A= preg->fastmap_accurate =3D 0;=0A= =0A= if (preg->translate !=3D 0)=0A= free (preg->translate);=0A= preg->translate =3D 0;=0A= }=0A= --Apple-Mail-7-916417738 Content-Transfer-Encoding: 7bit Content-Type: text/plain; charset=US-ASCII; format=flowed Content-length: 16 Asm produced: --Apple-Mail-7-916417738 Content-Disposition: attachment; filename=temp.s Content-Transfer-Encoding: 7bit Content-Type: application/octet-stream; x-unix-mode=0644; name="temp.s" Content-length: 118948 .globl _xre_max_failures .data .align 2 _xre_max_failures: .long 4000 .cstring .align 2 LC0: .ascii "Success\0" .align 2 LC1: .ascii "No match\0" .align 2 LC2: .ascii "Invalid regular expression\0" .align 2 LC3: .ascii "Invalid collation character\0" .align 2 LC4: .ascii "Invalid character class name\0" .align 2 LC5: .ascii "Trailing backslash\0" .align 2 LC6: .ascii "Invalid back reference\0" .align 2 LC7: .ascii "Unmatched [ or [^\0" .align 2 LC8: .ascii "Unmatched ( or \\(\0" .align 2 LC9: .ascii "Unmatched \\{\0" .align 2 LC10: .ascii "Invalid content of \\{\\}\0" .align 2 LC11: .ascii "Invalid range end\0" .align 2 LC12: .ascii "Memory exhausted\0" .align 2 LC13: .ascii "Invalid preceding regular expression\0" .align 2 LC14: .ascii "Premature end of regular expression\0" .align 2 LC15: .ascii "Regular expression too big\0" .align 2 LC16: .ascii "Unmatched ) or \\)\0" .data .align 2 _re_error_msgid: .long LC0 .long LC1 .long LC2 .long LC3 .long LC4 .long LC5 .long LC6 .long LC7 .long LC8 .long LC9 .long LC10 .long LC11 .long LC12 .long LC13 .long LC14 .long LC15 .long LC16 .text .align 2 _byte_store_op1: srawi r0,r5,8 stb r3,0(r4) stb r0,2(r4) stb r5,1(r4) blr .align 2 _byte_store_op2: srawi r2,r5,8 srawi r0,r6,8 stb r0,4(r4) stb r3,0(r4) stb r2,2(r4) stb r5,1(r4) stb r6,3(r4) blr .align 2 _byte_insert_op1: cmpw cr7,r6,r4 stw r31,-4(r1) addi r2,r6,3 beq- cr7,L11 subf r0,r4,r6 mtctr r0 L12: lbzu r0,-1(r6) stbu r0,-1(r2) bdnz L12 L11: lwz r31,-4(r1) b _byte_store_op1 .align 2 _byte_insert_op2: cmpw cr7,r7,r4 stw r31,-4(r1) addi r2,r7,5 beq- cr7,L19 subf r0,r4,r7 mtctr r0 L20: lbzu r0,-1(r7) stbu r0,-1(r2) bdnz L20 L19: lwz r31,-4(r1) b _byte_store_op2 .align 2 _byte_compile_range: lwz r11,0(r4) mr r9,r3 li r3,11 cmpw cr7,r11,r5 beqlr- cr7 andis. r0,r7,1 cmpwi cr6,r6,0 addi r2,r11,1 mfcr r0 rlwinm r0,r0,3,1 stw r2,0(r4) addic r7,r0,-1 subfe r7,r7,r7 andi. r7,r7,11 beq- cr6,L27 rlwinm r0,r9,0,0xff lbz r2,0(r11) lbzx r9,r6,r0 lbzx r2,r6,r2 extsb r9,r9 L28: cmplw cr7,r9,r2 mr r3,r9 bgt- cr7,L40 addi r0,r2,1 li r10,1 subf r0,r9,r0 mtctr r0 b L41 L43: lbzx r0,r6,r2 srawi r0,r0,3 addze r0,r0 L42: add r9,r8,r0 srawi r0,r2,3 addze r0,r0 beq- cr6,L34 lbzx r0,r6,r2 srawi r0,r0,3 addze r0,r0 L34: add r11,r8,r0 srawi r0,r2,3 addze r0,r0 slwi r0,r0,3 lbz r11,0(r11) subf r0,r0,r2 slw r0,r10,r0 or r0,r11,r0 beq- cr6,L37 lbzx r2,r6,r2 srawi r0,r2,3 addze r0,r0 slwi r0,r0,3 subf r2,r0,r2 slw r2,r10,r2 or r0,r11,r2 L37: stb r0,0(r9) addi r3,r3,1 li r7,0 bdz L40 L41: rlwinm r2,r3,0,0xff bne- cr6,L43 rlwinm r2,r3,0,0xff srawi r0,r2,3 addze r0,r0 b L42 L40: mr r3,r7 blr L27: lbz r2,0(r11) b L28 .align 2 _byte_re_compile_fastmap: mflr r0 stmw r22,-40(r1) bcl 20,31,"L00000000001$pb" "L00000000001$pb": mr r26,r3 mflr r31 li r24,1 stw r0,8(r1) li r22,0 stwu r1,-128(r1) lwz r0,0(r1) mr r30,r1 stwu r0,-48(r1) addi r9,r1,64 lwz r0,0(r3) cmpwi cr7,r9,0 lwz r2,8(r3) lwz r28,16(r3) mr r27,r0 add r25,r0,r2 stw r9,64(r30) li r3,-2 beq- cr7,L44 li r0,5 mr r3,r28 li r4,0 li r5,256 stw r0,68(r30) stw r22,72(r30) bl L_memset$stub lwz r0,28(r26) oris r0,r0,0x1000 rlwinm r0,r0,0,1,31 stw r0,28(r26) b L168 L163: L168: cmpw cr7,r27,r25 beq- cr7,L50 lbz r9,0(r27) cmpwi cr7,r9,1 beq- cr7,L50 cmplwi cr7,r9,29 addi r27,r27,1 bgt- cr7,L141 addis r2,r31,ha16(L142-"L00000000001$pb") slwi r9,r9,2 la r2,lo16(L142-"L00000000001$pb")(r2) lwzx r0,r9,r2 add r0,r0,r2 mtctr r0 bctr .align 2 L142: .long L163-L142 .long L141-L142 .long L56-L142 .long L85-L142 .long L57-L142 .long L63-L142 .long L140-L142 .long L140-L142 .long L54-L142 .long L163-L142 .long L163-L142 .long L163-L142 .long L163-L142 .long L108-L142 .long L108-L142 .long L118-L142 .long L118-L142 .long L108-L142 .long L108-L142 .long L108-L142 .long L163-L142 .long L134-L142 .long L108-L142 .long L138-L142 .long L73-L142 .long L79-L142 .long L163-L142 .long L163-L142 .long L163-L142 .long L163-L142 L50: lwz r5,72(r30) cmpwi cr7,r5,0 beq- cr7,L48 lwz r2,28(r26) addi r5,r5,-1 lwz r9,64(r30) rlwinm r0,r2,1,31,31 or r0,r0,r24 li r24,1 rlwimi r2,r0,31,0,0 stw r2,28(r26) slwi r2,r5,2 stw r5,72(r30) lwzx r27,r2,r9 b L163 L54: lwz r0,28(r26) oris r0,r0,0x8000 stw r0,28(r26) L55: li r3,0 L44: lwz r1,0(r1) lwz r0,8(r1) lmw r22,-40(r1) mtlr r0 blr L48: lwz r0,28(r26) rlwinm r2,r0,1,31,31 or r2,r2,r24 rlwimi r0,r2,31,0,0 stw r0,28(r26) b L55 L134: lbzu r0,2(r27) lbz r2,1(r27) addi r27,r27,2 extsb r2,r2 slwi r2,r2,8 add r0,r0,r2 cmpwi cr7,r0,0 bne+ cr7,L163 addi r27,r27,-4 li r22,1 L118: lbz r0,1(r27) lbz r11,0(r27) addi r27,r27,2 extsb r0,r0 slwi r0,r0,8 add r11,r11,r0 add r23,r27,r11 cmplw cr7,r23,r25 blt- cr7,L166 lwz r0,28(r26) oris r0,r0,0x8000 stw r0,28(r26) L130: cmpwi cr7,r22,0 beq- cr7,L163 addi r27,r27,2 li r22,0 b L163 L141: bl L_abort$stub L108: lbz r0,1(r27) lbz r11,0(r27) addi r27,r27,2 extsb r0,r0 slwi r0,r0,8 add r11,r11,r0 cmpwi cr7,r11,0 add r27,r27,r11 bgt+ cr7,L163 lbz r0,0(r27) cmpwi cr7,r0,15 beq- cr7,L112 cmpwi cr7,r0,21 bne+ cr7,L163 L112: lbzu r11,1(r27) lwz r5,72(r30) lbz r0,1(r27) addi r27,r27,2 cmpwi cr7,r5,0 extsb r0,r0 slwi r0,r0,8 add r11,r11,r0 add r27,r27,r11 beq- cr7,L163 lwz r0,64(r30) slwi r2,r5,2 add r2,r2,r0 lwz r9,-4(r2) cmpw cr7,r9,r27 bne+ cr7,L163 addi r5,r5,-1 stw r5,72(r30) b L163 L138: addi r27,r27,4 b L163 L73: li r0,256 addis r9,r31,ha16(_re_syntax_table-"L00000000001$pb") mtctr r0 la r9,lo16(_re_syntax_table-"L00000000001$pb")(r9) li r11,0 b L169 L76: addi r11,r11,1 bdz L53 L157: L169: rlwinm r0,r11,0,0xff lbzx r2,r9,r0 extsb r2,r2 cmpwi cr7,r2,1 bne+ cr7,L76 stbx r2,r28,r11 addi r11,r11,1 bdnz L157 L53: li r24,0 mr r27,r25 b L163 L79: addis r9,r31,ha16(_re_syntax_table-"L00000000001$pb") li r2,256 la r9,lo16(_re_syntax_table-"L00000000001$pb")(r9) li r11,0 li r10,1 mtctr r2 L156: rlwinm r0,r11,0,0xff lbzx r2,r9,r0 cmpwi cr7,r2,1 beq- cr7,L82 stbx r10,r28,r11 L82: addi r11,r11,1 bdnz L156 li r24,0 mr r27,r25 b L163 L140: addi r27,r27,2 b L163 L56: lbz r2,1(r27) li r0,1 li r24,0 mr r27,r25 stbx r0,r28,r2 b L163 L85: lbz r0,10(r28) li r9,256 mtctr r9 li r11,0 extsb r2,r0 li r0,1 L155: stbx r0,r28,r11 addi r11,r11,1 bdnz L155 lwz r0,12(r26) andi. r9,r0,64 bne- cr0,L90 li r24,0 mr r27,r25 stb r2,10(r28) b L163 L57: lbz r0,0(r27) addi r27,r27,1 slwi r0,r0,3 addic. r11,r0,-1 blt- cr0,L53 mtctr r0 li r10,1 L160: srawi r9,r11,3 addze r9,r9 slwi r0,r9,3 lbzx r2,r27,r9 subf r0,r0,r11 sraw r2,r2,r0 andi. r0,r2,1 beq- cr0,L60 stbx r10,r28,r11 L60: addi r11,r11,-1 bdnz L160 li r24,0 mr r27,r25 b L163 L63: lbz r0,0(r27) slwi r11,r0,3 cmpwi cr7,r11,255 bgt- cr7,L146 subfic r2,r11,256 li r0,1 mtctr r2 L159: stbx r0,r28,r11 addi r11,r11,1 bdnz L159 lbz r0,0(r27) L146: slwi r0,r0,3 addi r27,r27,1 addic. r11,r0,-1 blt- cr0,L53 mtctr r0 li r10,1 L158: srawi r9,r11,3 addze r9,r9 slwi r0,r9,3 lbzx r2,r27,r9 subf r0,r0,r11 sraw r2,r2,r0 andi. r9,r2,1 bne- cr0,L70 stbx r10,r28,r11 L70: addi r11,r11,-1 bdnz L158 li r24,0 mr r27,r25 b L163 L166: lwz r5,72(r30) lwz r0,68(r30) cmpw cr7,r5,r0 beq- cr7,L167 L125: lwz r2,64(r30) addi r0,r5,1 slwi r9,r5,2 stwx r23,r9,r2 stw r0,72(r30) b L130 L90: lwz r0,28(r26) cmpwi cr7,r0,0 blt- cr7,L55 li r24,0 mr r27,r25 b L163 L167: addis r2,r31,ha16(_xre_max_failures-"L00000000001$pb") lwz r2,lo16(_xre_max_failures-"L00000000001$pb")(r2) mulli r2,r2,19 cmplw cr7,r5,r2 bgt- cr7,L124 slwi r2,r5,3 lwz r0,0(r1) addi r2,r2,30 lwz r3,64(r30) rlwinm r2,r2,0,0,27 slwi r5,r5,2 neg r2,r2 stwux r0,r1,r2 addi r29,r1,64 mr r4,r29 bl L_bcopy$stub cmpwi cr7,r29,0 stw r29,64(r30) beq- cr7,L124 lwz r0,68(r30) lwz r5,72(r30) slwi r0,r0,1 stw r0,68(r30) b L125 L124: li r3,-2 b L44 .align 2 _byte_common_op_match_null_string_p: mflr r0 stmw r28,-16(r1) bcl 20,31,"L00000000002$pb" "L00000000002$pb": mr r28,r3 mflr r31 mr r30,r5 stw r0,8(r1) stwu r1,-80(r1) lwz r11,0(r3) stw r11,56(r1) lbz r9,0(r11) addi r11,r11,1 mr r10,r11 cmplwi cr7,r9,29 bgt- cr7,L203 addis r2,r31,ha16(L200-"L00000000002$pb") slwi r9,r9,2 la r2,lo16(L200-"L00000000002$pb")(r2) lwzx r0,r9,r2 add r0,r0,r2 mtctr r0 bctr .align 2 L200: .long L204-L200 .long L203-L200 .long L203-L200 .long L203-L200 .long L203-L200 .long L203-L200 .long L181-L200 .long L203-L200 .long L196-L200 .long L204-L200 .long L204-L200 .long L204-L200 .long L204-L200 .long L184-L200 .long L203-L200 .long L203-L200 .long L203-L200 .long L203-L200 .long L203-L200 .long L203-L200 .long L203-L200 .long L189-L200 .long L203-L200 .long L198-L200 .long L203-L200 .long L203-L200 .long L204-L200 .long L204-L200 .long L204-L200 .long L204-L200 L198: addi r11,r11,4 L203: stw r11,56(r1) li r3,0 L170: addi r1,r1,80 lwz r0,8(r1) lmw r28,-16(r1) mtlr r0 blr L189: addi r11,r11,2 stw r11,56(r1) lbz r0,1(r11) addi r11,r11,2 lbz r2,2(r10) extsb r0,r0 slwi r0,r0,8 add r2,r2,r0 cmpwi cr7,r2,0 bne- cr7,L192 addi r11,r11,-4 stw r11,56(r1) lbz r0,1(r11) lbz r2,0(r11) addi r11,r11,2 extsb r0,r0 slwi r0,r0,8 add r2,r2,r0 L205: add r11,r11,r2 L204: stw r11,56(r1) li r3,1 stw r11,0(r28) L207: addi r1,r1,80 lwz r0,8(r1) lmw r28,-16(r1) mtlr r0 blr L181: stw r11,56(r1) addi r3,r1,56 lbz r29,0(r11) bl _byte_group_match_null_string_p slwi r29,r29,2 lwzx r2,r29,r30 rlwinm r0,r2,2,30,31 cmpwi cr7,r0,3 beq- cr7,L206 L182: extsb r0,r3 li r3,0 cmpwi cr7,r0,0 beq- cr7,L170 lwz r11,56(r1) li r3,1 stw r11,0(r28) b L207 L196: stw r11,56(r1) li r3,0 lbz r0,0(r11) slwi r0,r0,2 lwzx r2,r5,r0 srwi. r0,r2,30 beq- cr0,L170 li r3,1 stw r11,0(r28) b L207 L184: stw r11,56(r1) lbz r0,1(r11) lbz r2,0(r11) addi r11,r11,2 extsb r0,r0 slwi r0,r0,8 add. r2,r2,r0 bge+ cr0,L205 L192: li r3,0 stw r11,56(r1) b L170 L206: mr r0,r2 rlwimi r0,r3,30,0,1 stwx r0,r29,r30 b L182 .align 2 _byte_alt_match_null_string_p: mflr r0 cmplw cr7,r3,r4 stmw r29,-12(r1) mr r9,r3 mr r30,r4 mr r29,r5 stw r0,8(r1) stwu r1,-80(r1) stw r3,56(r1) bge- cr7,L219 L222: lbz r0,0(r9) addi r3,r1,56 mr r4,r30 mr r5,r29 cmpwi cr7,r0,15 addi r9,r9,1 bne- cr7,L215 stw r9,56(r1) lbz r0,1(r9) lbz r2,0(r9) addi r9,r9,2 extsb r0,r0 slwi r0,r0,8 add r2,r2,r0 add r9,r9,r2 cmplw cr7,r9,r30 stw r9,56(r1) L223: blt+ cr7,L222 L219: li r3,1 L208: addi r1,r1,80 lwz r0,8(r1) lmw r29,-12(r1) mtlr r0 blr L215: bl _byte_common_op_match_null_string_p extsb r3,r3 cmpwi cr7,r3,0 beq- cr7,L208 lwz r9,56(r1) cmplw cr7,r9,r30 b L223 .align 2 _byte_group_match_null_string_p: mflr r0 stmw r27,-20(r1) mr r27,r3 mr r28,r4 mr r29,r5 stw r0,8(r1) stwu r1,-96(r1) lwz r2,0(r3) addi r3,r2,2 cmplw cr7,r3,r4 stw r3,56(r1) mr r2,r3 bge- cr7,L247 L251: lbz r0,0(r3) cmpwi cr7,r0,7 beq- cr7,L242 cmpwi cr7,r0,15 bne- cr7,L243 addi r3,r3,1 stw r3,56(r1) lbz r0,1(r3) addi r3,r2,3 lbz r30,1(r2) extsb r0,r0 stw r3,56(r1) slwi r0,r0,8 add. r30,r30,r0 blt- cr0,L225 add r2,r3,r30 lbz r0,-3(r2) cmpwi cr7,r0,14 beq- cr7,L239 L233: lbz r0,-1(r3) mr r5,r29 lbz r30,-2(r3) extsb r0,r0 slwi r0,r0,8 add r30,r30,r0 add r4,r3,r30 bl _byte_alt_match_null_string_p extsb r3,r3 cmpwi cr7,r3,0 beq- cr7,L224 lwz r3,56(r1) add r3,r3,r30 stw r3,56(r1) L225: cmplw cr7,r3,r28 L252: mr r2,r3 blt+ cr7,L251 L247: li r3,0 L224: addi r1,r1,96 lwz r0,8(r1) lmw r27,-20(r1) mtlr r0 blr L239: add r4,r3,r30 mr r5,r29 addi r4,r4,-3 bl _byte_alt_match_null_string_p extsb r3,r3 cmpwi cr7,r3,0 beq- cr7,L224 lwz r2,56(r1) add r3,r2,r30 stw r3,56(r1) lbzx r0,r2,r30 cmpwi cr7,r0,15 bne- cr7,L233 addi r3,r3,1 stw r3,56(r1) lbz r0,1(r3) lbz r30,0(r3) addi r3,r3,2 extsb r0,r0 stw r3,56(r1) slwi r0,r0,8 add r30,r30,r0 add r2,r3,r30 lbz r0,-3(r2) cmpwi cr7,r0,14 beq+ cr7,L239 addi r3,r3,-3 stw r3,56(r1) b L233 L243: addi r3,r1,56 mr r4,r28 mr r5,r29 bl _byte_common_op_match_null_string_p extsb r3,r3 cmpwi cr7,r3,0 beq- cr7,L224 lwz r3,56(r1) cmplw cr7,r3,r28 b L252 L242: addi r0,r3,2 li r3,1 stw r0,0(r27) b L224 .align 2 .globl _xre_set_syntax _xre_set_syntax: mflr r0 bcl 20,31,"L00000000003$pb" "L00000000003$pb": stw r31,-4(r1) mflr r31 stw r0,8(r1) addis r2,r31,ha16(L_xre_syntax_options$non_lazy_ptr-"L00000000003$pb") lwz r31,-4(r1) lwz r2,lo16(L_xre_syntax_options$non_lazy_ptr-"L00000000003$pb")(r2) lwz r0,0(r2) stw r3,0(r2) mr r3,r0 lwz r0,8(r1) mtlr r0 blr .align 2 .globl _xre_compile_fastmap _xre_compile_fastmap: stw r31,-4(r1) lwz r31,-4(r1) b _byte_re_compile_fastmap .align 2 .globl _xre_set_registers _xre_set_registers: cmpwi cr0,r5,0 beq- cr0,L256 lwz r2,28(r3) li r0,1 rlwimi r2,r0,29,1,2 stw r2,28(r3) stw r7,8(r4) stw r5,0(r4) stw r6,4(r4) blr L256: lwz r0,28(r3) rlwimi r0,r5,29,1,2 stw r0,28(r3) stw r5,4(r4) stw r5,0(r4) stw r5,8(r4) blr .align 2 .globl _xregerror _xregerror: mflr r0 bcl 20,31,"L00000000004$pb" "L00000000004$pb": stmw r27,-20(r1) cmplwi cr7,r3,16 mflr r31 mr r28,r6 stw r0,8(r1) mr r27,r5 stwu r1,-96(r1) slwi r0,r3,2 addis r2,r31,ha16(_re_error_msgid-"L00000000004$pb") la r2,lo16(_re_error_msgid-"L00000000004$pb")(r2) bgt- cr7,L263 lwzx r30,r2,r0 mr r3,r30 bl L_strlen$stub cmpwi cr7,r28,0 addi r29,r3,1 cmplw cr6,r29,r28 beq- cr7,L260 mr r3,r30 mr r4,r27 addi r5,r28,-1 ble- cr6,L261 bl L_bcopy$stub add r2,r27,r28 li r0,0 stb r0,-1(r2) L260: addi r1,r1,96 mr r3,r29 lwz r0,8(r1) lmw r27,-20(r1) mtlr r0 blr L261: mr r3,r30 mr r4,r27 mr r5,r29 bl L_bcopy$stub addi r1,r1,96 lwz r0,8(r1) mr r3,r29 lmw r27,-20(r1) mtlr r0 blr L263: bl L_abort$stub .align 2 .globl _xregfree _xregfree: mflr r0 stmw r29,-12(r1) mr r30,r3 li r29,0 stw r0,8(r1) stwu r1,-80(r1) lwz r3,0(r3) cmpwi cr7,r3,0 bne- cr7,L268 lwz r3,16(r30) stw r29,0(r30) cmpwi cr7,r3,0 stw r29,4(r30) stw r29,8(r30) bne- cr7,L269 L266: lwz r3,20(r30) lwz r0,28(r30) cmpwi cr7,r3,0 stw r29,16(r30) rlwinm r0,r0,0,4,2 stw r0,28(r30) bne- cr7,L270 L267: addi r1,r1,80 stw r29,20(r30) lwz r0,8(r1) lmw r29,-12(r1) mtlr r0 blr L268: bl L_free$stub lwz r3,16(r30) stw r29,0(r30) cmpwi cr7,r3,0 stw r29,4(r30) stw r29,8(r30) beq+ cr7,L266 L269: bl L_free$stub lwz r3,20(r30) lwz r0,28(r30) cmpwi cr7,r3,0 stw r29,16(r30) rlwinm r0,r0,0,4,2 stw r0,28(r30) beq+ cr7,L267 L270: bl L_free$stub addi r1,r1,80 lwz r0,8(r1) stw r29,20(r30) lmw r29,-12(r1) mtlr r0 blr .lcomm done.0,4,2 .data .cstring .align 2 LC17: .ascii "alnum\0" .align 2 LC18: .ascii "alpha\0" .align 2 LC19: .ascii "blank\0" .align 2 LC20: .ascii "cntrl\0" .align 2 LC21: .ascii "digit\0" .align 2 LC22: .ascii "graph\0" .align 2 LC23: .ascii "lower\0" .align 2 LC24: .ascii "print\0" .align 2 LC25: .ascii "punct\0" .align 2 LC26: .ascii "space\0" .align 2 LC27: .ascii "upper\0" .align 2 LC28: .ascii "xdigit\0" .data .const .align 2 LC29: .long __CurrentRuneLocale .text .align 2 _byte_regex_compile: mflr r0 mfcr r12 bcl 20,31,"L00000000005$pb" "L00000000005$pb": stmw r13,-76(r1) mflr r31 mr r18,r3 stw r0,8(r1) li r3,640 stw r12,4(r1) mr r26,r6 stwu r1,-416(r1) add r21,r18,r4 stw r18,240(r1) mr r17,r5 lwz r20,20(r6) bl L_malloc$stub cmpwi cr7,r3,0 stw r3,64(r1) li r25,0 li r23,0 li r22,0 li r16,0 li r3,12 beq- cr7,L271 addis r24,r31,ha16(done.0-"L00000000005$pb") lwz r0,28(r26) lwz r2,lo16(done.0-"L00000000005$pb")(r24) rlwinm r0,r0,0,4,2 stw r17,12(r26) cmpwi cr7,r2,0 rlwinm r0,r0,0,7,4 li r2,32 stw r25,8(r26) stw r2,68(r1) stw r25,24(r26) stw r0,28(r26) stw r25,72(r1) beq- cr7,L1277 L274: lwz r0,4(r26) cmpwi cr7,r0,0 beq- cr7,L1278 lwz r3,0(r26) L284: lwz r30,240(r1) mr r27,r3 mr r24,r3 cmpw cr7,r30,r21 beq- cr7,L1018 L1017: cmpw cr7,r30,r21 beq- cr7,L1201 cmpwi cr3,r20,0 lbz r28,0(r30) addi r30,r30,1 stw r30,240(r1) beq- cr3,L290 lbzx r28,r20,r28 L290: addi r9,r28,-10 cmplwi cr7,r9,114 bgt- cr7,L315 addis r2,r31,ha16(L1016-"L00000000005$pb") slwi r9,r9,2 la r2,lo16(L1016-"L00000000005$pb")(r2) lwzx r0,r9,r2 add r0,r0,r2 mtctr r0 bctr .align 2 L1016: .long L660-L1016 .long L315-L1016 .long L315-L1016 .long L315-L1016 .long L315-L1016 .long L315-L1016 .long L315-L1016 .long L315-L1016 .long L315-L1016 .long L315-L1016 .long L315-L1016 .long L315-L1016 .long L315-L1016 .long L315-L1016 .long L315-L1016 .long L315-L1016 .long L315-L1016 .long L315-L1016 .long L315-L1016 .long L315-L1016 .long L315-L1016 .long L315-L1016 .long L315-L1016 .long L315-L1016 .long L315-L1016 .long L315-L1016 .long L316-L1016 .long L315-L1016 .long L315-L1016 .long L315-L1016 .long L652-L1016 .long L656-L1016 .long L346-L1016 .long L342-L1016 .long L315-L1016 .long L315-L1016 .long L421-L1016 .long L315-L1016 .long L315-L1016 .long L315-L1016 .long L315-L1016 .long L315-L1016 .long L315-L1016 .long L315-L1016 .long L315-L1016 .long L315-L1016 .long L315-L1016 .long L315-L1016 .long L315-L1016 .long L315-L1016 .long L315-L1016 .long L315-L1016 .long L315-L1016 .long L342-L1016 .long L315-L1016 .long L315-L1016 .long L315-L1016 .long L315-L1016 .long L315-L1016 .long L315-L1016 .long L315-L1016 .long L315-L1016 .long L315-L1016 .long L315-L1016 .long L315-L1016 .long L315-L1016 .long L315-L1016 .long L315-L1016 .long L315-L1016 .long L315-L1016 .long L315-L1016 .long L315-L1016 .long L315-L1016 .long L315-L1016 .long L315-L1016 .long L315-L1016 .long L315-L1016 .long L315-L1016 .long L315-L1016 .long L315-L1016 .long L315-L1016 .long L434-L1016 .long L671-L1016 .long L315-L1016 .long L294-L1016 .long L315-L1016 .long L315-L1016 .long L315-L1016 .long L315-L1016 .long L315-L1016 .long L315-L1016 .long L315-L1016 .long L315-L1016 .long L315-L1016 .long L315-L1016 .long L315-L1016 .long L315-L1016 .long L315-L1016 .long L315-L1016 .long L315-L1016 .long L315-L1016 .long L315-L1016 .long L315-L1016 .long L315-L1016 .long L315-L1016 .long L315-L1016 .long L315-L1016 .long L315-L1016 .long L315-L1016 .long L315-L1016 .long L315-L1016 .long L315-L1016 .long L315-L1016 .long L667-L1016 .long L664-L1016 L1278: lwz r3,0(r26) cmpwi cr7,r3,0 beq- cr7,L285 li r4,32 bl L_realloc$stub L1257: stw r3,0(r26) lwz r3,0(r26) cmpwi cr7,r3,0 beq- cr7,L1279 li r0,32 stw r0,4(r26) b L284 L696: andi. r0,r17,8192 bne- cr0,L678 lwz r0,72(r1) cmpwi cr7,r0,0 bne- cr7,L658 andis. r2,r17,2 beq- cr0,L1271 L678: beq- cr3,L315 lbzx r28,r20,r28 L315: cmpwi cr7,r25,0 beq- cr7,L987 lbz r0,0(r25) add r2,r25,r0 addi r2,r2,1 cmpw cr7,r2,r27 beq- cr7,L1280 L987: lwz r3,0(r26) mr r23,r27 lwz r0,4(r26) subf r2,r3,r27 mr r30,r3 addi r2,r2,2 cmplw cr7,r2,r0 ble- cr7,L1101 lis r29,0x1 b L1003 L1281: stw r29,4(r26) lwz r4,4(r26) bl L_realloc$stub cmpwi cr7,r3,0 stw r3,0(r26) beq- cr7,L1233 L1282: cmpw cr7,r30,r3 beq- cr7,L993 cmpwi cr7,r22,0 subf r3,r30,r3 add r27,r27,r3 add r24,r24,r3 beq- cr7,L1000 add r22,r22,r3 L1000: cmpwi cr7,r23,0 beq- cr7,L1001 add r23,r23,r3 L1001: cmpwi cr7,r25,0 beq- cr7,L993 add r25,r25,r3 L993: lwz r3,0(r26) lwz r0,4(r26) subf r2,r3,r27 mr r30,r3 addi r2,r2,2 cmplw cr7,r2,r0 ble- cr7,L1101 L1003: cmpw cr7,r0,r29 beq- cr7,L1232 slwi r0,r0,1 cmplw cr7,r0,r29 bgt- cr7,L1281 stw r0,4(r26) lwz r4,4(r26) bl L_realloc$stub cmpwi cr7,r3,0 stw r3,0(r26) bne+ cr7,L1282 L1233: li r3,12 L271: addi r1,r1,416 lwz r12,4(r1) lmw r13,-76(r1) lwz r0,8(r1) mtcrf 32,r12 mtlr r0 mtcrf 16,r12 mtcrf 8,r12 blr L1101: li r0,2 li r2,0 stb r0,0(r27) stbu r2,1(r27) addi r27,r27,1 addi r25,r27,-1 L986: lwz r3,0(r26) lwz r0,4(r26) subf r2,r3,r27 mr r30,r3 addi r2,r2,1 cmplw cr7,r2,r0 ble- cr7,L1103 lis r29,0x1 b L1015 L1283: stw r29,4(r26) L1009: lwz r4,4(r26) bl L_realloc$stub cmpwi cr7,r3,0 stw r3,0(r26) beq- cr7,L1233 cmpw cr7,r30,r3 beq- cr7,L1005 cmpwi cr7,r22,0 subf r3,r30,r3 add r27,r27,r3 add r24,r24,r3 beq- cr7,L1012 add r22,r22,r3 L1012: cmpwi cr7,r23,0 beq- cr7,L1013 add r23,r23,r3 L1013: cmpwi cr7,r25,0 beq- cr7,L1005 add r25,r25,r3 L1005: lwz r3,0(r26) lwz r0,4(r26) subf r2,r3,r27 mr r30,r3 addi r2,r2,1 cmplw cr7,r2,r0 ble- cr7,L1103 L1015: cmpw cr7,r0,r29 beq- cr7,L1232 slwi r0,r0,1 cmplw cr7,r0,r29 bgt- cr7,L1283 stw r0,4(r26) b L1009 L1103: stb r28,0(r27) addi r27,r27,1 lbz r2,0(r25) addi r2,r2,1 stb r2,0(r25) L1114: lwz r30,240(r1) L288: cmpw cr7,r30,r21 bne+ cr7,L1017 cmpwi cr7,r22,0 beq- cr7,L1018 subf r5,r22,r27 li r3,14 addi r5,r5,-3 mr r4,r22 bl _byte_store_op1 L1018: lwz r0,72(r1) cmpwi cr7,r0,0 bne- cr7,L1284 andis. r0,r17,4 beq- cr0,L1020 lwz r3,0(r26) lwz r0,4(r26) subf r2,r3,r27 mr r30,r3 addi r2,r2,1 cmplw cr7,r2,r0 ble- cr7,L1105 lis r29,0x1 b L1032 L1285: stw r29,4(r26) L1026: lwz r4,4(r26) bl L_realloc$stub cmpwi cr7,r3,0 stw r3,0(r26) beq- cr7,L1233 cmpw cr7,r30,r3 beq- cr7,L1022 cmpwi cr7,r22,0 subf r3,r30,r3 add r27,r27,r3 beq- cr7,L1029 add r22,r22,r3 L1029: cmpwi cr7,r23,0 beq- cr7,L1030 add r23,r23,r3 L1030: cmpwi cr7,r25,0 beq- cr7,L1022 add r25,r25,r3 L1022: lwz r3,0(r26) lwz r0,4(r26) subf r2,r3,r27 mr r30,r3 addi r2,r2,1 cmplw cr7,r2,r0 ble- cr7,L1105 L1032: cmpw cr7,r0,r29 beq- cr7,L1232 slwi r0,r0,1 cmplw cr7,r0,r29 bgt- cr7,L1285 stw r0,4(r26) b L1026 L1277: addis r19,r31,ha16(_re_syntax_table-"L00000000005$pb") li r4,0 la r29,lo16(_re_syntax_table-"L00000000005$pb")(r19) li r5,256 mr r3,r29 mr r27,r29 bl L_memset$stub li r29,1 addis r2,r31,ha16(L__CurrentRuneLocale$non_lazy_ptr-"L00000000005$pb") li r30,0 lwz r28,lo16(L__CurrentRuneLocale$non_lazy_ptr-"L00000000005$pb")(r2) b L283 L279: lwz r0,0(r28) slwi r2,r30,2 add r2,r2,r0 lwz r9,52(r2) andi. r3,r9,1280 L281: cmpwi cr7,r3,0 beq- cr7,L277 stbx r29,r27,r30 L277: addi r30,r30,1 cmpwi cr7,r30,255 bgt- cr7,L1286 L283: rlwinm. r0,r30,0,0,24 bne- cr0,L277 cmplwi cr7,r30,255 ble+ cr7,L279 mr r3,r30 bl L____runetype$stub andi. r3,r3,1280 b L281 L285: li r3,32 bl L_malloc$stub b L1257 L342: andi. r0,r17,2 bne- cr0,L315 andi. r2,r17,1024 bne- cr0,L315 L345: L346: cmpwi cr1,r23,0 beq- cr1,L1287 L347: cmpwi cr6,r28,63 cmpwi cr7,r28,43 li r15,0 li r19,0 li r11,0 L1252: beq- cr7,L353 L1288: ori r19,r19,1 beq- cr6,L355 L1289: ori r11,r11,1 L356: lwz r30,240(r1) cmpw cr7,r30,r21 beq- cr7,L352 lbz r28,0(r30) addi r30,r30,1 stw r30,240(r1) beq- cr3,L358 lbzx r28,r20,r28 L358: cmpwi cr7,r28,42 beq- cr7,L1107 rlwinm r9,r17,31,31,31 cmpwi cr7,r9,0 bne- cr7,L361 cmpwi cr7,r28,43 cmpwi cr6,r28,63 mfcr r2 rlwinm r0,r2,31,1 rlwinm r2,r2,27,1 or. r10,r0,r2 bne- cr0,L1252 L361: xori r0,r28,92 subfic r2,r0,0 adde r0,r2,r0 and. r8,r9,r0 beq- cr0,L364 cmpw cr7,r30,r21 beq- cr7,L1188 lbz r29,0(r30) addi r30,r30,1 stw r30,240(r1) beq- cr3,L366 lbzx r29,r20,r29 L366: xori r0,r29,43 xori r2,r29,63 neg r0,r0 neg r2,r2 and. r9,r2,r0 blt- cr0,L1150 mr r28,r29 L1107: cmpwi cr7,r28,43 cmpwi cr6,r28,63 bne- cr7,L1288 L353: extsb r19,r19 bne- cr6,L1289 L355: extsb r11,r11 b L356 L656: andi. r0,r17,8192 beq- cr0,L315 L658: cmpwi cr7,r22,0 beq- cr7,L701 lwz r3,0(r26) lwz r0,4(r26) subf r2,r3,r27 mr r30,r3 addi r2,r2,1 cmplw cr7,r2,r0 ble- cr7,L1067 lis r29,0x1 b L713 L1290: stw r29,4(r26) L707: lwz r4,4(r26) bl L_realloc$stub cmpwi cr7,r3,0 stw r3,0(r26) beq- cr7,L1233 cmpw cr7,r30,r3 beq- cr7,L703 cmpwi cr7,r22,0 subf r3,r30,r3 add r27,r27,r3 add r24,r24,r3 beq- cr7,L710 add r22,r22,r3 L710: cmpwi cr7,r23,0 beq- cr7,L711 add r23,r23,r3 L711: cmpwi cr7,r25,0 beq- cr7,L703 add r25,r25,r3 L703: lwz r3,0(r26) lwz r0,4(r26) subf r2,r3,r27 mr r30,r3 addi r2,r2,1 cmplw cr7,r2,r0 ble- cr7,L1067 L713: cmpw cr7,r0,r29 beq- cr7,L1232 slwi r0,r0,1 cmplw cr7,r0,r29 bgt- cr7,L1290 stw r0,4(r26) b L707 L660: andi. r2,r17,2048 L1267: srwi r0,r17,10 beq- cr0,L315 L662: andi. r9,r0,1 bne- cr0,L315 lwz r3,0(r26) lwz r0,4(r26) subf r2,r3,r27 mr r30,r3 addi r2,r2,3 cmplw cr7,r2,r0 ble- cr7,L1071 lis r29,0x1 b L746 L1291: stw r29,4(r26) L740: lwz r4,4(r26) bl L_realloc$stub cmpwi cr7,r3,0 stw r3,0(r26) beq- cr7,L1233 cmpw cr7,r30,r3 beq- cr7,L736 cmpwi cr7,r22,0 subf r3,r30,r3 add r27,r27,r3 add r24,r24,r3 beq- cr7,L743 add r22,r22,r3 L743: cmpwi cr7,r23,0 beq- cr7,L744 add r23,r23,r3 L744: cmpwi cr7,r25,0 beq- cr7,L736 add r25,r25,r3 L736: lwz r3,0(r26) lwz r0,4(r26) subf r2,r3,r27 mr r30,r3 addi r2,r2,3 cmplw cr7,r2,r0 ble- cr7,L1071 L746: cmpw cr7,r0,r29 beq- cr7,L1232 slwi r0,r0,1 cmplw cr7,r0,r29 bgt- cr7,L1291 stw r0,4(r26) b L740 L652: andi. r11,r17,8192 beq- cr0,L315 L654: lwz r4,72(r1) addi r16,r16,1 lwz r0,68(r1) lwz r2,24(r26) cmpw cr7,r4,r0 addi r2,r2,1 stw r2,24(r26) beq- cr7,L1292 L679: cmpwi cr7,r22,0 lwz r3,0(r26) lwz r8,64(r1) mulli r9,r4,20 subf r0,r3,r24 subf r2,r3,r22 stwx r0,r9,r8 add r11,r9,r8 addi r0,r2,1 beq- cr7,L1293 L682: cmplwi cr7,r16,255 mulli r2,r4,20 subf r9,r3,r27 stw r0,4(r11) add r2,r2,r8 stw r16,16(r2) stw r9,12(r2) bgt- cr7,L683 lwz r2,72(r1) addi r0,r9,2 addi r9,r9,3 mulli r2,r2,20 add r2,r2,r8 stw r0,8(r2) lwz r0,4(r26) cmplw cr7,r9,r0 ble- cr7,L1065 lis r29,0x1 L695: cmpw cr7,r0,r29 mr r30,r3 beq- cr7,L1232 slwi r0,r0,1 cmplw cr7,r0,r29 ble- cr7,L1124 stw r29,4(r26) L689: lwz r4,4(r26) bl L_realloc$stub cmpwi cr7,r3,0 stw r3,0(r26) beq- cr7,L1233 cmpw cr7,r30,r3 beq- cr7,L685 cmpwi cr7,r22,0 subf r3,r30,r3 add r27,r27,r3 beq- cr7,L692 add r22,r22,r3 L692: cmpwi cr7,r23,0 beq- cr7,L693 add r23,r23,r3 L693: cmpwi cr7,r25,0 beq- cr7,L685 add r25,r25,r3 L685: lwz r3,0(r26) lwz r0,4(r26) subf r2,r3,r27 addi r2,r2,3 cmplw cr7,r2,r0 bgt+ cr7,L695 L1065: li r0,6 stb r0,0(r27) li r0,0 stbu r16,1(r27) stbu r0,1(r27) addi r27,r27,1 L683: lwz r2,72(r1) li r22,0 lwz r30,240(r1) li r23,0 addi r4,r2,1 mr r24,r27 li r25,0 stw r4,72(r1) b L288 L316: lwz r2,240(r1) cmpw cr7,r2,r21 beq- cr7,L318 andi. r0,r17,8 beq- cr0,L1294 L318: lwz r3,0(r26) lwz r0,4(r26) subf r2,r3,r27 mr r30,r3 addi r2,r2,1 cmplw cr7,r2,r0 ble- cr7,L1040 lis r29,0x1 b L339 L1295: stw r29,4(r26) L333: lwz r4,4(r26) bl L_realloc$stub cmpwi cr7,r3,0 stw r3,0(r26) beq- cr7,L1233 cmpw cr7,r30,r3 beq- cr7,L329 cmpwi cr7,r22,0 subf r3,r30,r3 add r27,r27,r3 add r24,r24,r3 beq- cr7,L336 add r22,r22,r3 L336: cmpwi cr7,r23,0 beq- cr7,L337 add r23,r23,r3 L337: cmpwi cr7,r25,0 beq- cr7,L329 add r25,r25,r3 L329: lwz r3,0(r26) lwz r0,4(r26) subf r2,r3,r27 mr r30,r3 addi r2,r2,1 cmplw cr7,r2,r0 ble- cr7,L1040 L339: cmpw cr7,r0,r29 beq- cr7,L1232 slwi r0,r0,1 cmplw cr7,r0,r29 bgt- cr7,L1295 stw r0,4(r26) b L333 L664: andi. r8,r17,32768 b L1267 L667: andi. r9,r17,512 beq- cr0,L315 srwi r9,r17,12 andi. r10,r9,1 beq+ cr0,L315 L669: lwz r30,240(r1) li r19,-1 li r29,-1 cmpw cr7,r30,r21 mr r11,r30 beq- cr7,L763 L772: cmpw cr7,r30,r21 beq- cr7,L1201 lbz r28,0(r30) addi r30,r30,1 stw r30,240(r1) beq- cr3,L766 lbzx r28,r20,r28 L766: addi r0,r28,-48 rlwinm r0,r0,0,0xff cmplwi cr7,r0,9 bgt- cr7,L765 cmpwi cr7,r19,32767 bgt- cr7,L764 nor r0,r19,r19 srawi r0,r0,31 and r19,r19,r0 mulli r2,r19,10 add r2,r2,r28 addi r19,r2,-48 L764: cmpw cr7,r30,r21 bne+ cr7,L772 L765: cmpwi cr7,r28,44 beq- cr7,L1296 mr r29,r19 L784: cmpw cr7,r19,r29 srwi r0,r19,31 li r2,1 bgt- cr7,L786 li r2,0 L786: or. r8,r0,r2 bne- cr0,L763 andi. r10,r9,1 bne- cr0,L787 cmpwi cr7,r28,92 bne- cr7,L763 lwz r3,240(r1) cmpw cr7,r3,r21 beq- cr7,L763 addi r30,r3,1 lbz r28,0(r3) stw r30,240(r1) beq- cr3,L787 lbzx r28,r20,r28 L787: cmpwi cr7,r28,125 bne- cr7,L763 cmpwi cr7,r23,0 beq- cr7,L1297 L794: cmpwi cr7,r29,32767 bgt- cr7,L1203 cmpwi cr7,r29,0 bne- cr7,L801 lwz r3,0(r26) lwz r0,4(r26) subf r2,r3,r27 mr r30,r3 addi r2,r2,3 cmplw cr7,r2,r0 ble- cr7,L1077 lis r29,0x1 b L812 L1298: stw r29,4(r26) L806: lwz r4,4(r26) bl L_realloc$stub cmpwi cr7,r3,0 stw r3,0(r26) beq- cr7,L1233 cmpw cr7,r30,r3 beq- cr7,L802 cmpwi cr7,r22,0 subf r3,r30,r3 add r27,r27,r3 add r24,r24,r3 beq- cr7,L809 add r22,r22,r3 L809: cmpwi cr7,r23,0 beq- cr7,L810 add r23,r23,r3 L810: cmpwi cr7,r25,0 beq- cr7,L802 add r25,r25,r3 L802: lwz r3,0(r26) lwz r0,4(r26) subf r2,r3,r27 mr r30,r3 addi r2,r2,3 cmplw cr7,r2,r0 ble- cr7,L1077 L812: cmpw cr7,r0,r29 beq- cr7,L1232 slwi r0,r0,1 cmplw cr7,r0,r29 bgt- cr7,L1298 stw r0,4(r26) b L806 L294: lwz r2,240(r1) addi r0,r18,1 cmpw cr7,r2,r0 beq- cr7,L296 andi. r0,r17,8 beq- cr0,L1299 L296: lwz r3,0(r26) lwz r0,4(r26) subf r2,r3,r27 mr r30,r3 addi r2,r2,1 cmplw cr7,r2,r0 ble- cr7,L1038 lis r29,0x1 b L313 L1300: stw r29,4(r26) L307: lwz r4,4(r26) bl L_realloc$stub cmpwi cr7,r3,0 stw r3,0(r26) beq- cr7,L1233 cmpw cr7,r30,r3 beq- cr7,L303 cmpwi cr7,r22,0 subf r3,r30,r3 add r27,r27,r3 add r24,r24,r3 beq- cr7,L310 add r22,r22,r3 L310: cmpwi cr7,r23,0 beq- cr7,L311 add r23,r23,r3 L311: cmpwi cr7,r25,0 beq- cr7,L303 add r25,r25,r3 L303: lwz r3,0(r26) lwz r0,4(r26) subf r2,r3,r27 mr r30,r3 addi r2,r2,1 cmplw cr7,r2,r0 ble- cr7,L1038 L313: cmpw cr7,r0,r29 beq- cr7,L1232 slwi r0,r0,1 cmplw cr7,r0,r29 bgt- cr7,L1300 stw r0,4(r26) b L307 L671: lwz r2,240(r1) cmpw cr7,r2,r21 beq- cr7,L1188 lbz r28,0(r2) addi r30,r2,1 stw r30,240(r1) addi r9,r28,-39 cmplwi cr7,r9,85 bgt- cr7,L678 addis r2,r31,ha16(L984-"L00000000005$pb") slwi r9,r9,2 la r2,lo16(L984-"L00000000005$pb")(r2) lwzx r0,r9,r2 add r0,r0,r2 mtctr r0 bctr .align 2 L984: .long L933-L984 .long L676-L984 .long L696-L984 .long L678-L984 .long L978-L984 .long L678-L984 .long L678-L984 .long L678-L984 .long L678-L984 .long L678-L984 .long L955-L984 .long L955-L984 .long L955-L984 .long L955-L984 .long L955-L984 .long L955-L984 .long L955-L984 .long L955-L984 .long L955-L984 .long L678-L984 .long L678-L984 .long L863-L984 .long L678-L984 .long L877-L984 .long L978-L984 .long L678-L984 .long L678-L984 .long L905-L984 .long L678-L984 .long L678-L984 .long L678-L984 .long L678-L984 .long L678-L984 .long L678-L984 .long L678-L984 .long L678-L984 .long L678-L984 .long L678-L984 .long L678-L984 .long L678-L984 .long L678-L984 .long L678-L984 .long L678-L984 .long L678-L984 .long L678-L984 .long L678-L984 .long L678-L984 .long L678-L984 .long L849-L984 .long L678-L984 .long L678-L984 .long L678-L984 .long L678-L984 .long L678-L984 .long L678-L984 .long L678-L984 .long L678-L984 .long L919-L984 .long L678-L984 .long L891-L984 .long L678-L984 .long L678-L984 .long L678-L984 .long L678-L984 .long L678-L984 .long L678-L984 .long L678-L984 .long L678-L984 .long L678-L984 .long L678-L984 .long L678-L984 .long L678-L984 .long L678-L984 .long L678-L984 .long L678-L984 .long L678-L984 .long L678-L984 .long L678-L984 .long L678-L984 .long L678-L984 .long L835-L984 .long L678-L984 .long L678-L984 .long L678-L984 .long L759-L984 .long L732-L984 L434: lwz r0,240(r1) li r15,0 li r14,-1 cmpw cr7,r0,r21 beq- cr7,L1184 lwz r3,0(r26) lwz r0,4(r26) subf r2,r3,r27 mr r30,r3 addi r2,r2,34 cmplw cr7,r2,r0 ble- cr7,L1050 lis r29,0x1 b L446 L1301: stw r29,4(r26) L440: lwz r4,4(r26) bl L_realloc$stub cmpwi cr7,r3,0 stw r3,0(r26) beq- cr7,L1233 cmpw cr7,r30,r3 beq- cr7,L436 cmpwi cr7,r22,0 subf r3,r30,r3 add r27,r27,r3 add r24,r24,r3 beq- cr7,L443 add r22,r22,r3 L443: cmpwi cr7,r23,0 beq- cr7,L444 add r23,r23,r3 L444: cmpwi cr7,r25,0 beq- cr7,L436 add r25,r25,r3 L436: lwz r3,0(r26) lwz r0,4(r26) subf r2,r3,r27 mr r30,r3 addi r2,r2,34 cmplw cr7,r2,r0 ble- cr7,L1050 L446: cmpw cr7,r0,r29 beq- cr7,L1232 slwi r0,r0,1 cmplw cr7,r0,r29 bgt- cr7,L1301 stw r0,4(r26) b L440 L421: lwz r3,0(r26) mr r23,r27 lwz r0,4(r26) subf r2,r3,r27 mr r30,r3 addi r2,r2,1 cmplw cr7,r2,r0 ble- cr7,L1048 lis r29,0x1 b L433 L1302: stw r29,4(r26) L427: lwz r4,4(r26) bl L_realloc$stub cmpwi cr7,r3,0 stw r3,0(r26) beq- cr7,L1233 cmpw cr7,r30,r3 beq- cr7,L423 cmpwi cr7,r22,0 subf r3,r30,r3 add r27,r27,r3 add r24,r24,r3 beq- cr7,L430 add r22,r22,r3 L430: cmpwi cr7,r23,0 beq- cr7,L431 add r23,r23,r3 L431: cmpwi cr7,r25,0 beq- cr7,L423 add r25,r25,r3 L423: lwz r3,0(r26) lwz r0,4(r26) subf r2,r3,r27 mr r30,r3 addi r2,r2,1 cmplw cr7,r2,r0 ble- cr7,L1048 L433: cmpw cr7,r0,r29 beq- cr7,L1232 slwi r0,r0,1 cmplw cr7,r0,r29 bgt- cr7,L1302 stw r0,4(r26) b L427 L1232: addi r1,r1,416 li r3,15 lwz r12,4(r1) lmw r13,-76(r1) lwz r0,8(r1) mtcrf 32,r12 mtlr r0 mtcrf 16,r12 mtcrf 8,r12 blr L1286: la r2,lo16(_re_syntax_table-"L00000000005$pb")(r19) li r0,1 li r9,1 stb r0,95(r2) stw r9,lo16(done.0-"L00000000005$pb")(r24) b L274 L1280: cmpwi cr7,r0,255 beq- cr7,L987 lwz r30,240(r1) lbz r0,0(r30) extsb r0,r0 cmpwi cr7,r0,42 beq- cr7,L987 cmpwi cr7,r0,94 beq- cr7,L987 andi. r2,r17,2 bne- cr0,L1303 L988: cmpwi cr7,r0,43 beq- cr7,L987 cmpwi cr7,r0,63 beq- cr7,L987 L989: andi. r8,r17,512 beq- cr0,L986 andi. r9,r17,4096 beq- cr0,L990 lbz r0,0(r30) L1269: cmpwi cr7,r0,123 bne+ cr7,L986 b L987 L1105: li r0,1 stb r0,0(r27) addi r27,r27,1 L1020: lwz r3,64(r1) bl L_free$stub lwz r0,0(r26) addi r1,r1,416 li r3,0 subf r0,r0,r27 lwz r12,4(r1) stw r0,8(r26) lmw r13,-76(r1) lwz r0,8(r1) mtcrf 32,r12 mtcrf 16,r12 mtlr r0 mtcrf 8,r12 blr L1303: cmpwi cr7,r0,92 bne+ cr7,L989 lbz r0,1(r30) extsb r0,r0 b L988 L1294: addi r0,r2,1 lbz r2,0(r2) cmplw cr7,r0,r21 mr r9,r0 xori r11,r2,92 subfic r8,r11,0 adde r11,r8,r11 blt- cr7,L320 li r9,0 L320: andi. r10,r17,8192 li r10,0 beq- cr0,L323 cmpwi cr7,r2,41 L1259: beq- cr7,L322 L324: andi. r0,r17,32768 beq- cr0,L325 cmpwi cr7,r2,124 L1260: beq- cr7,L322 L327: cmpwi cr7,r10,0 bne+ cr7,L318 b L315 L1299: addi r2,r2,-2 li r9,0 cmplw cr7,r2,r18 ble- cr7,L297 lbz r0,-1(r2) cmpwi cr7,r0,92 bne+ cr7,L297 li r9,1 L297: lbz r0,0(r2) li r2,0 extsb r0,r0 cmpwi cr7,r0,40 beq- cr7,L1304 cmpwi cr7,r0,124 beq- cr7,L1305 L301: cmpwi cr7,r2,0 bne+ cr7,L296 b L315 L1071: subf r5,r24,r27 mr r6,r27 mr r4,r24 addi r5,r5,3 li r3,15 addi r27,r27,3 bl _byte_insert_op1 cmpwi cr7,r22,0 li r25,0 beq- cr7,L747 subf r5,r22,r27 mr r4,r22 addi r5,r5,-3 li r3,14 bl _byte_store_op1 L747: lwz r3,0(r26) mr r22,r27 lwz r0,4(r26) subf r2,r3,r27 mr r30,r3 addi r2,r2,3 cmplw cr7,r2,r0 ble- cr7,L1073 lis r29,0x1 b L758 L1306: stw r29,4(r26) L752: lwz r4,4(r26) bl L_realloc$stub cmpwi cr7,r3,0 stw r3,0(r26) beq- cr7,L1233 cmpw cr7,r30,r3 beq- cr7,L748 cmpwi cr7,r22,0 subf r3,r30,r3 add r27,r27,r3 beq- cr7,L755 add r22,r22,r3 L755: cmpwi cr7,r23,0 beq- cr7,L756 add r23,r23,r3 L756: cmpwi cr7,r25,0 beq- cr7,L748 add r25,r25,r3 L748: lwz r3,0(r26) lwz r0,4(r26) subf r2,r3,r27 mr r30,r3 addi r2,r2,3 cmplw cr7,r2,r0 ble- cr7,L1073 L758: cmpw cr7,r0,r29 beq- cr7,L1232 slwi r0,r0,1 cmplw cr7,r0,r29 bgt- cr7,L1306 stw r0,4(r26) b L752 L1150: addi r30,r30,-2 stw r30,240(r1) L352: beq- cr1,L288 cmpwi cr7,r11,0 beq- cr7,L372 lwz r3,0(r26) lwz r0,4(r26) subf r2,r3,r27 mr r29,r3 addi r2,r2,3 cmplw cr7,r2,r0 ble- cr7,L1042 lis r30,0x1 L383: cmpw cr7,r0,r30 beq- cr7,L1232 slwi r0,r0,1 cmplw cr7,r0,r30 ble- cr7,L1117 stw r30,4(r26) L377: lwz r4,4(r26) bl L_realloc$stub cmpwi cr7,r3,0 stw r3,0(r26) beq- cr7,L1233 cmpw cr7,r29,r3 beq- cr7,L373 cmpwi cr7,r22,0 subf r3,r29,r3 add r27,r27,r3 add r24,r24,r3 beq- cr7,L380 add r22,r22,r3 L380: cmpwi cr7,r23,0 beq- cr7,L381 add r23,r23,r3 L381: cmpwi cr7,r25,0 beq- cr7,L373 add r25,r25,r3 L373: lwz r3,0(r26) lwz r0,4(r26) subf r2,r3,r27 mr r29,r3 addi r2,r2,3 cmplw cr7,r2,r0 bgt+ cr7,L383 lwz r30,240(r1) L1042: beq- cr3,L385 lbz r0,-2(r30) lbzx r2,r20,r0 extsb r2,r2 L386: beq- cr3,L387 lbz r0,46(r20) extsb r0,r0 cmpw cr7,r2,r0 L1262: beq- cr7,L1307 L384: subf r5,r27,r23 li r3,18 addi r5,r5,-6 mr r4,r27 bl _byte_store_op1 L393: addi r27,r27,3 L372: lwz r3,0(r26) lwz r0,4(r26) subf r2,r3,r27 mr r30,r3 addi r2,r2,3 cmplw cr7,r2,r0 ble- cr7,L1044 lis r29,0x1 L404: cmpw cr7,r0,r29 beq- cr7,L1232 slwi r0,r0,1 cmplw cr7,r0,r29 ble- cr7,L1118 stw r29,4(r26) L398: lwz r4,4(r26) bl L_realloc$stub cmpwi cr7,r3,0 stw r3,0(r26) beq- cr7,L1233 cmpw cr7,r30,r3 beq- cr7,L394 cmpwi cr7,r22,0 subf r3,r30,r3 add r27,r27,r3 add r24,r24,r3 beq- cr7,L401 add r22,r22,r3 L401: cmpwi cr7,r23,0 beq- cr7,L402 add r23,r23,r3 L402: cmpwi cr7,r25,0 beq- cr7,L394 add r25,r25,r3 L394: lwz r3,0(r26) lwz r0,4(r26) subf r2,r3,r27 mr r30,r3 addi r2,r2,3 cmplw cr7,r2,r0 bgt+ cr7,L404 L1044: xori r3,r15,1 subf r5,r23,r27 mr r6,r27 subfic r3,r3,16 mr r4,r23 addi r27,r27,3 bl _byte_insert_op1 cmpwi cr7,r19,0 li r25,0 bne- cr7,L1114 lwz r3,0(r26) lwz r0,4(r26) subf r2,r3,r27 mr r30,r3 addi r2,r2,3 cmplw cr7,r2,r0 ble- cr7,L1046 lis r29,0x1 b L420 L1308: stw r29,4(r26) L414: lwz r4,4(r26) bl L_realloc$stub cmpwi cr7,r3,0 stw r3,0(r26) beq- cr7,L1233 cmpw cr7,r30,r3 beq- cr7,L410 cmpwi cr7,r22,0 subf r3,r30,r3 add r27,r27,r3 add r24,r24,r3 beq- cr7,L417 add r22,r22,r3 L417: cmpwi cr7,r23,0 beq- cr7,L418 add r23,r23,r3 L418: cmpwi cr7,r25,0 beq- cr7,L410 add r25,r25,r3 L410: lwz r3,0(r26) lwz r0,4(r26) subf r2,r3,r27 mr r30,r3 addi r2,r2,3 cmplw cr7,r2,r0 ble- cr7,L1046 L420: cmpw cr7,r0,r29 beq- cr7,L1232 slwi r0,r0,1 cmplw cr7,r0,r29 bgt- cr7,L1308 stw r0,4(r26) b L414 L1118: stw r0,4(r26) b L398 L1048: li r0,3 stb r0,0(r27) L1270: lwz r30,240(r1) addi r27,r27,1 b L288 L1050: subf r2,r3,r27 mr r23,r27 addi r2,r2,1 mr r30,r3 cmplw cr7,r2,r0 ble- cr7,L1052 lis r29,0x1 b L458 L1309: stw r29,4(r26) L452: lwz r4,4(r26) bl L_realloc$stub cmpwi cr7,r3,0 stw r3,0(r26) beq- cr7,L1233 cmpw cr7,r30,r3 beq- cr7,L448 cmpwi cr7,r22,0 subf r3,r30,r3 add r27,r27,r3 add r24,r24,r3 beq- cr7,L455 add r22,r22,r3 L455: cmpwi cr7,r23,0 beq- cr7,L456 add r23,r23,r3 L456: cmpwi cr7,r25,0 beq- cr7,L448 add r25,r25,r3 L448: lwz r3,0(r26) lwz r0,4(r26) subf r2,r3,r27 mr r30,r3 addi r2,r2,1 cmplw cr7,r2,r0 ble- cr7,L1052 L458: cmpw cr7,r0,r29 beq- cr7,L1232 slwi r0,r0,1 cmplw cr7,r0,r29 bgt- cr7,L1309 stw r0,4(r26) b L452 L1040: li r0,10 stb r0,0(r27) b L1270 L1038: li r0,9 stb r0,0(r27) b L1270 L1052: lwz r9,240(r1) mr r11,r27 addi r27,r27,1 lbz r2,0(r9) extsb r2,r2 xori r2,r2,94 addic r8,r2,-1 subfe r0,r8,r2 subfic r0,r0,5 stb r0,0(r11) lwz r30,240(r1) lbz r0,0(r30) cmpwi cr7,r0,94 beq- cr7,L1310 L461: lwz r3,0(r26) mr r19,r30 lwz r0,4(r26) subf r2,r3,r27 mr r30,r3 addi r2,r2,1 cmplw cr7,r2,r0 ble- cr7,L1054 lis r29,0x1 b L473 L1311: stw r29,4(r26) L467: lwz r4,4(r26) bl L_realloc$stub cmpwi cr7,r3,0 stw r3,0(r26) beq- cr7,L1233 cmpw cr7,r30,r3 beq- cr7,L463 cmpwi cr7,r22,0 subf r3,r30,r3 add r27,r27,r3 add r24,r24,r3 beq- cr7,L470 add r22,r22,r3 L470: cmpwi cr7,r23,0 beq- cr7,L471 add r23,r23,r3 L471: cmpwi cr7,r25,0 beq- cr7,L463 add r25,r25,r3 L463: lwz r3,0(r26) lwz r0,4(r26) subf r2,r3,r27 mr r30,r3 addi r2,r2,1 cmplw cr7,r2,r0 ble- cr7,L1054 L473: cmpw cr7,r0,r29 beq- cr7,L1232 slwi r0,r0,1 cmplw cr7,r0,r29 bgt- cr7,L1311 stw r0,4(r26) b L467 L1054: li r0,0 li r2,32 stb r2,0(r27) stwu r0,1(r27) lbz r2,-2(r27) stw r0,28(r27) cmpwi cr7,r2,5 stw r0,4(r27) stw r0,8(r27) stw r0,12(r27) stw r0,16(r27) stw r0,20(r27) stw r0,24(r27) beq- cr7,L1312 L474: srwi r2,r17,2 stw r2,320(r1) b L1354 L1253: L1354: lwz r2,240(r1) cmpw cr7,r2,r21 beq- cr7,L1184 addi r30,r2,1 lbz r28,0(r2) stw r30,240(r1) beq- cr3,L478 lbzx r28,r20,r28 L478: xori r0,r28,92 subfic r8,r0,0 adde r0,r8,r0 and. r9,r17,r0 beq- cr0,L481 cmpw cr7,r30,r21 beq- cr7,L1188 addi r30,r30,1 lbz r29,1(r2) stw r30,240(r1) beq- cr3,L483 lbzx r29,r20,r29 L483: srwi r11,r29,3 rlwinm r9,r29,0,29,31 lbzx r2,r27,r11 li r0,1 slw r0,r0,r9 mr r14,r29 or r2,r2,r0 stbx r2,r27,r11 b L1253 L1312: andi. r0,r17,256 beq- cr0,L474 lbz r0,1(r27) ori r0,r0,4 stb r0,1(r27) b L474 L481: cmpwi cr7,r28,93 beq- cr7,L1313 L486: cmpwi cr6,r28,45 mfcr r0 rlwinm r0,r0,27,1 and. r10,r15,r0 beq- cr0,L487 lbz r0,0(r30) cmpwi cr7,r0,93 bne- cr7,L1168 L487: bne- cr6,L488 addi r0,r30,-2 cmplw cr7,r0,r18 blt- cr7,L489 lbz r0,-2(r30) cmpwi cr7,r0,91 beq- cr7,L488 L489: addi r0,r30,-3 cmplw cr7,r0,r18 blt- cr7,L490 lbz r0,-3(r30) cmpwi cr7,r0,91 beq- cr7,L1314 L490: lbz r0,0(r30) cmpwi cr7,r0,93 beq- cr7,L488 mr r3,r14 addi r4,r1,240 mr r5,r21 mr r6,r20 mr r7,r17 mr r8,r27 L1272: bl _byte_compile_range mr. r29,r3 bne- cr0,L1171 li r14,-1 b L1253 L1314: lbz r0,-2(r30) cmpwi cr7,r0,94 bne+ cr7,L490 L488: lbz r0,0(r30) cmpwi cr7,r0,45 beq- cr7,L1315 L493: cmpwi cr6,r28,91 lwz r2,320(r1) mfcr r0 rlwinm r0,r0,27,1 and. r2,r2,r0 beq- cr0,L499 lbz r0,0(r30) cmpwi cr7,r0,58 beq- cr7,L1316 L499: mfcr r0 rlwinm r0,r0,27,1 lwz r10,320(r1) and. r10,r10,r0 beq- cr0,L599 lbz r0,0(r30) cmpwi cr7,r0,61 beq- cr7,L1317 L599: mfcr r0 rlwinm r0,r0,27,1 lwz r2,320(r1) and. r2,r2,r0 beq- cr0,L624 lbz r0,0(r30) cmpwi cr7,r0,46 beq- cr7,L1318 L624: rlwinm r11,r28,29,24,31 rlwinm r9,r28,0,29,31 lbzx r2,r27,r11 li r0,1 slw r0,r0,r9 mr r14,r28 or r2,r2,r0 li r15,0 stbx r2,r27,r11 b L1253 L1313: addi r0,r19,1 cmpw cr7,r30,r0 beq+ cr7,L486 lbz r9,-1(r27) mr. r0,r9 beq- cr0,L650 add r2,r27,r0 lbz r0,-1(r2) cmpwi cr7,r0,0 bne- cr7,L650 L651: addi r0,r9,-1 stb r0,-1(r27) lbz r9,-1(r27) mr. r0,r9 beq- cr0,L1113 add r2,r27,r0 lbz r0,-1(r2) cmpwi cr7,r0,0 beq+ cr7,L651 L1113: lwz r30,240(r1) L650: add r27,r27,r9 b L288 L1315: lbz r0,1(r30) cmpwi cr7,r0,93 beq- cr7,L493 cmpw cr7,r30,r21 beq- cr7,L1201 addi r30,r30,1 mr r3,r28 addi r4,r1,240 mr r5,r21 mr r6,r20 mr r7,r17 mr r8,r27 stw r30,240(r1) b L1272 L1124: stw r0,4(r26) b L689 L1117: stw r0,4(r26) b L377 L1318: cmpw cr7,r30,r21 beq- cr7,L1201 addi r30,r30,1 li r29,0 cmpw cr7,r30,r21 stw r30,240(r1) beq- cr7,L1184 li r11,0 L1256: cmpw cr7,r30,r21 beq- cr7,L1201 L1320: lbz r28,0(r30) addi r30,r30,1 stw r30,240(r1) beq- cr3,L631 lbzx r28,r20,r28 L631: cmpwi cr6,r28,46 beq- cr6,L1319 L636: cmpw cr7,r30,r21 beq- cr7,L630 andi. r8,r29,128 bne- cr0,L637 addi r10,r1,56 addi r2,r29,1 add r9,r10,r29 rlwinm r29,r2,0,0xff stb r28,40(r9) lwz r30,240(r1) cmpw cr7,r30,r21 bne+ cr7,L1320 L1201: li r3,14 b L271 L1073: addi r27,r27,3 lwz r30,240(r1) li r23,0 mr r24,r27 b L288 L1316: cmpw cr7,r30,r21 beq- cr7,L1201 addi r30,r30,1 li r29,0 cmpw cr7,r30,r21 stw r30,240(r1) beq- cr7,L1184 li r11,0 L1254: cmpw cr7,r30,r21 beq- cr7,L1201 L1322: lbz r28,0(r30) addi r30,r30,1 stw r30,240(r1) beq- cr3,L506 lbzx r28,r20,r28 L506: cmpwi cr6,r28,58 beq- cr6,L1321 L511: cmpw cr7,r30,r21 beq- cr7,L505 cmplwi cr7,r29,5 bgt- cr7,L512 addi r8,r1,56 addi r2,r29,1 add r9,r8,r29 rlwinm r29,r2,0,0xff stb r28,24(r9) lwz r30,240(r1) cmpw cr7,r30,r21 bne+ cr7,L1322 li r3,14 b L271 L512: stb r11,80(r1) b L1254 L1321: lbz r0,0(r30) cmpwi cr7,r0,93 bne+ cr7,L511 L505: add r2,r1,r29 li r0,0 stb r0,80(r2) bne- cr6,L514 lwz r30,240(r1) lbz r0,0(r30) cmpwi cr7,r0,93 beq- cr7,L1323 L514: cmpwi cr7,r29,255 beq- cr7,L1058 lwz r30,240(r1) L597: addi r0,r29,-1 addi r30,r30,-1 rlwinm r29,r0,0,0xff cmpwi cr7,r29,255 bne+ cr7,L597 stw r30,240(r1) L1058: lbz r0,11(r27) li r14,58 lbz r2,7(r27) ori r0,r0,8 ori r2,r2,4 L1264: li r15,0 stb r0,11(r27) stb r2,7(r27) b L1253 L1067: li r0,20 li r3,14 stb r0,0(r27) addi r27,r27,1 subf r5,r22,r27 mr r4,r22 addi r5,r5,-4 bl _byte_store_op1 L701: lwz r10,72(r1) cmpwi cr7,r10,0 bne- cr7,L714 andis. r0,r17,2 bne+ cr0,L315 L1271: lwz r3,64(r1) bl L_free$stub li r3,16 b L271 L1317: cmpw cr7,r30,r21 beq- cr7,L1201 addi r30,r30,1 li r29,0 cmpw cr7,r30,r21 stw r30,240(r1) beq- cr7,L1184 li r9,0 L1255: cmpw cr7,r30,r21 beq- cr7,L1201 L1325: lbz r28,0(r30) addi r30,r30,1 stw r30,240(r1) beq- cr3,L606 lbzx r28,r20,r28 L606: cmpwi cr6,r28,61 beq- cr6,L1324 L611: cmpw cr7,r30,r21 beq- cr7,L605 cmpwi cr7,r29,0 bne- cr7,L612 addi r11,r29,244 addi r2,r29,1 stbx r28,r11,r1 rlwinm r29,r2,0,0xff lwz r30,240(r1) cmpw cr7,r30,r21 bne+ cr7,L1325 li r3,14 b L271 L612: stb r9,244(r1) b L1255 L1324: lbz r0,0(r30) cmpwi cr7,r0,93 bne+ cr7,L611 L605: li r0,0 addi r2,r1,244 stbx r0,r29,r2 bne- cr6,L614 lwz r30,240(r1) lbz r0,0(r30) cmpwi cr7,r0,93 beq- cr7,L1326 L614: cmpwi cr7,r29,255 beq- cr7,L1060 lwz r30,240(r1) L622: addi r0,r29,-1 addi r30,r30,-1 rlwinm r29,r0,0,0xff cmpwi cr7,r29,255 bne+ cr7,L622 stw r30,240(r1) L1060: lbz r0,11(r27) li r14,61 lbz r2,7(r27) ori r0,r0,8 ori r2,r2,32 b L1264 L1319: lbz r0,0(r30) cmpwi cr7,r0,93 bne+ cr7,L636 L630: add r2,r1,r29 li r0,0 stb r0,96(r2) bne- cr6,L639 lwz r30,240(r1) lbz r0,0(r30) cmpwi cr7,r0,93 beq- cr7,L1327 L639: cmpwi cr7,r29,255 beq- cr7,L1062 lwz r30,240(r1) L647: addi r0,r29,-1 addi r30,r30,-1 rlwinm r29,r0,0,0xff cmpwi cr7,r29,255 bne+ cr7,L647 stw r30,240(r1) L1062: lbz r0,11(r27) li r14,46 lbz r2,5(r27) li r15,0 ori r0,r0,8 ori r2,r2,64 stb r0,11(r27) stb r2,5(r27) b L1253 L637: stb r11,96(r1) b L1256 L714: addi r10,r10,-1 lwz r8,64(r1) mulli r11,r10,20 lwz r3,0(r26) stw r10,72(r1) add r2,r11,r8 lwzx r0,r11,r8 lwz r9,4(r2) add r24,r3,r0 cmpwi cr7,r9,0 add r9,r3,r9 addi r22,r9,-1 bne- cr7,L718 li r22,0 L718: lwz r0,72(r1) li r25,0 mulli r0,r0,20 add r2,r0,r8 lwz r29,16(r2) lwz r0,12(r2) cmplwi cr7,r29,255 add r23,r3,r0 bgt- cr7,L1114 lwz r2,8(r2) subf r19,r29,r16 stbx r19,r3,r2 lwz r3,0(r26) lwz r0,4(r26) subf r2,r3,r27 mr r30,r3 addi r2,r2,3 cmplw cr7,r2,r0 ble- cr7,L1069 lis r28,0x1 b L731 L1328: stw r28,4(r26) L725: lwz r4,4(r26) bl L_realloc$stub cmpwi cr7,r3,0 stw r3,0(r26) beq- cr7,L1233 cmpw cr7,r30,r3 beq- cr7,L721 cmpwi cr7,r22,0 subf r3,r30,r3 add r27,r27,r3 add r24,r24,r3 beq- cr7,L728 add r22,r22,r3 L728: cmpwi cr7,r23,0 beq- cr7,L729 add r23,r23,r3 L729: cmpwi cr7,r25,0 beq- cr7,L721 add r25,r25,r3 L721: lwz r3,0(r26) lwz r0,4(r26) subf r2,r3,r27 mr r30,r3 addi r2,r2,3 cmplw cr7,r2,r0 ble- cr7,L1069 L731: cmpw cr7,r0,r28 beq- cr7,L1232 slwi r0,r0,1 cmplw cr7,r0,r28 bgt- cr7,L1328 stw r0,4(r26) b L725 L1188: lwz r3,64(r1) bl L_free$stub li r3,5 b L271 L990: lbz r0,0(r30) cmpwi cr7,r0,92 bne+ cr7,L986 lbz r0,1(r30) b L1269 L323: addic r8,r9,-1 subfe r0,r8,r9 and. r8,r11,r0 beq- cr0,L324 lbz r0,0(r9) cmpwi cr7,r0,41 b L1259 L364: addi r30,r30,-1 stw r30,240(r1) b L352 L1287: andi. r8,r17,32 bne- cr0,L1202 andi. r9,r17,16 bne+ cr0,L347 b L315 L1284: lwz r3,64(r1) bl L_free$stub li r3,8 b L271 L1305: rlwinm r0,r17,17,31,31 or. r10,r9,r0 L1258: beq- cr0,L301 li r2,1 b L301 L1304: rlwinm r0,r17,19,31,31 or. r8,r9,r0 b L1258 L325: addic r2,r9,-1 subfe r0,r2,r9 and. r8,r11,r0 beq- cr0,L327 lbz r0,0(r9) cmpwi cr7,r0,124 b L1260 L322: li r10,1 b L327 L1307: rlwinm r0,r19,0,0xff subfc r2,r21,r30 subfe r2,r2,r2 neg r2,r2 neg r0,r0 srwi r0,r0,31 and. r8,r0,r2 beq- cr0,L384 beq- cr3,L389 lbz r0,0(r30) lbzx r2,r20,r0 extsb r2,r2 L390: beq- cr3,L391 lbz r0,10(r20) extsb r0,r0 cmpw cr7,r2,r0 L1263: bne+ cr7,L384 andi. r9,r17,64 bne+ cr0,L384 subf r5,r27,r23 li r3,13 addi r5,r5,-3 mr r4,r27 bl _byte_store_op1 li r15,1 b L393 L387: cmpwi cr7,r2,46 b L1262 L385: lbz r0,-2(r30) extsb r2,r0 b L386 L1069: li r0,7 stb r0,0(r27) stbu r29,1(r27) stbu r19,1(r27) lwz r30,240(r1) addi r27,r27,1 b L288 L1310: addi r30,r30,1 stw r30,240(r1) b L461 L1046: mr r6,r27 li r3,19 mr r4,r23 li r5,3 bl _byte_insert_op1 lwz r30,240(r1) addi r27,r27,3 b L288 L1279: lwz r3,64(r1) bl L_free$stub li r3,12 b L271 L1292: mulli r4,r4,40 lwz r3,64(r1) bl L_realloc$stub cmpwi cr7,r3,0 stw r3,64(r1) beq- cr7,L1233 lwz r0,68(r1) lwz r4,72(r1) slwi r0,r0,1 stw r0,68(r1) b L679 L1293: li r0,0 b L682 L763: andis. r0,r17,32 beq- cr0,L1329 L799: andi. r10,r9,1 stw r11,240(r1) li r28,123 beq- cr0,L678 b L315 L1326: lbz r2,244(r1) cmpwi cr7,r2,0 beq- cr7,L614 cmpwi cr7,r29,1 bne- cr7,L1186 cmpw cr7,r30,r21 beq- cr7,L1201 addi r30,r30,1 srwi r0,r2,3 stw r30,240(r1) rlwinm r2,r2,0,29,31 lbzx r9,r27,r0 slw r2,r29,r2 li r15,1 or r9,r9,r2 stbx r9,r27,r0 b L1253 L1327: lbz r2,96(r1) cmpwi cr7,r2,0 beq- cr7,L639 cmpwi cr7,r29,1 bne- cr7,L1186 cmpw cr7,r30,r21 beq- cr7,L1201 addi r30,r30,1 srwi r0,r2,3 stw r30,240(r1) rlwinm r2,r2,0,29,31 lbzx r9,r27,r0 slw r2,r29,r2 li r15,0 or r9,r9,r2 stbx r9,r27,r0 lbz r14,96(r1) b L1253 L1329: lwz r3,64(r1) bl L_free$stub lwz r0,240(r1) xor r0,r0,r21 addic r8,r0,-1 subfe r2,r8,r0 addi r3,r2,9 b L271 L1186: lwz r3,64(r1) bl L_free$stub li r3,3 b L271 L801: cmpwi cr4,r29,1 ble- cr4,L814 li r15,20 L815: lwz r3,0(r26) lwz r2,4(r26) subf r0,r3,r27 mr r30,r3 add r0,r0,r15 cmplw cr7,r0,r2 ble- cr7,L1079 lis r28,0x1 b L826 L1330: stw r28,4(r26) L820: lwz r4,4(r26) bl L_realloc$stub cmpwi cr7,r3,0 stw r3,0(r26) beq- cr7,L1233 cmpw cr7,r30,r3 beq- cr7,L816 cmpwi cr7,r22,0 subf r3,r30,r3 add r27,r27,r3 add r24,r24,r3 beq- cr7,L823 add r22,r22,r3 L823: cmpwi cr7,r23,0 beq- cr7,L824 add r23,r23,r3 L824: cmpwi cr7,r25,0 beq- cr7,L816 add r25,r25,r3 L816: lwz r3,0(r26) lwz r2,4(r26) subf r0,r3,r27 mr r30,r3 add r0,r0,r15 cmplw cr7,r0,r2 ble- cr7,L1079 L826: cmpw cr7,r2,r28 beq- cr7,L1232 slwi r0,r2,1 cmplw cr7,r0,r28 bgt- cr7,L1330 stw r0,4(r26) b L820 L1079: addi r0,r27,5 ble- cr4,L827 subf r2,r23,r0 addi r5,r2,2 L828: mr r7,r27 li r3,21 mr r27,r0 mr r4,r23 mr r6,r19 bl _byte_insert_op2 mr r7,r27 mr r6,r19 li r3,23 mr r4,r23 li r5,5 bl _byte_insert_op2 addi r27,r27,5 ble+ cr4,L813 addi r29,r29,-1 subf r5,r27,r23 mr r4,r27 addi r5,r5,2 addi r27,r27,5 li r3,22 mr r6,r29 bl _byte_store_op2 subf r5,r23,r27 mr r7,r27 mr r6,r29 li r3,23 mr r4,r23 bl _byte_insert_op2 addi r27,r27,5 L813: lwz r30,240(r1) li r25,0 b L288 L827: subf r2,r23,r0 addi r5,r2,-3 b L828 L814: li r15,10 b L815 L1203: lwz r3,64(r1) bl L_free$stub li r3,10 b L271 L1297: andi. r0,r17,32 beq- cr0,L795 andis. r2,r17,32 beq- cr0,L1202 L795: andi. r8,r17,16 beq- cr0,L799 mr r23,r27 b L794 L1296: lwz r30,240(r1) cmpw cr7,r30,r21 bne+ cr7,L782 b L1235 L1331: lbz r28,0(r30) addi r30,r30,1 stw r30,240(r1) beq- cr3,L776 lbzx r28,r20,r28 L776: addi r0,r28,-48 rlwinm r0,r0,0,0xff cmplwi cr7,r0,9 bgt- cr7,L775 cmpwi cr7,r29,32767 bgt- cr7,L774 nor r0,r29,r29 srawi r0,r0,31 and r29,r29,r0 mulli r2,r29,10 add r2,r2,r28 addi r29,r2,-48 L774: cmpw cr7,r30,r21 beq- cr7,L775 L782: cmpw cr7,r30,r21 bne+ cr7,L1331 li r3,14 b L271 L775: cmpwi cr7,r29,0 bge+ cr7,L784 L1235: li r29,32767 b L784 L1077: subf r5,r23,r27 mr r6,r27 li r3,13 mr r4,r23 bl _byte_insert_op1 addi r27,r27,3 b L813 L1202: lwz r3,64(r1) bl L_free$stub li r3,13 b L271 L391: cmpwi cr7,r2,10 b L1263 L389: lbz r0,0(r30) extsb r2,r0 b L390 L1184: lwz r3,64(r1) bl L_free$stub li r3,7 b L271 L1171: lwz r3,64(r1) bl L_free$stub mr r3,r29 b L271 L1168: lwz r3,64(r1) bl L_free$stub li r3,11 b L271 L1323: addis r4,r31,ha16(LC17-"L00000000005$pb") addi r3,r1,80 la r4,lo16(LC17-"L00000000005$pb")(r4) bl L_strcmp$stub addis r4,r31,ha16(LC18-"L00000000005$pb") cmpwi cr2,r3,0 la r4,lo16(LC18-"L00000000005$pb")(r4) addi r3,r1,80 bl L_strcmp$stub mfcr r28 rlwinm r28,r28,11,1 addis r4,r31,ha16(LC19-"L00000000005$pb") cmpwi cr4,r3,0 la r4,lo16(LC19-"L00000000005$pb")(r4) addi r3,r1,80 bl L_strcmp$stub mfcr r15 rlwinm r15,r15,19,1 cmpwi cr0,r3,0 addis r4,r31,ha16(LC20-"L00000000005$pb") la r4,lo16(LC20-"L00000000005$pb")(r4) addi r3,r1,80 mfcr r29 bl L_strcmp$stub cmpwi cr0,r3,0 addis r4,r31,ha16(LC21-"L00000000005$pb") la r4,lo16(LC21-"L00000000005$pb")(r4) addi r3,r1,80 mfcr r0 stw r0,252(r1) bl L_strcmp$stub cmpwi cr0,r3,0 addis r4,r31,ha16(LC22-"L00000000005$pb") la r4,lo16(LC22-"L00000000005$pb")(r4) addi r3,r1,80 mfcr r0 stw r0,260(r1) bl L_strcmp$stub cmpwi cr0,r3,0 addis r4,r31,ha16(LC23-"L00000000005$pb") la r4,lo16(LC23-"L00000000005$pb")(r4) addi r3,r1,80 mfcr r0 stw r0,268(r1) bl L_strcmp$stub cmpwi cr0,r3,0 addis r4,r31,ha16(LC24-"L00000000005$pb") la r4,lo16(LC24-"L00000000005$pb")(r4) addi r3,r1,80 mfcr r0 stw r0,276(r1) bl L_strcmp$stub cmpwi cr0,r3,0 addis r4,r31,ha16(LC25-"L00000000005$pb") la r4,lo16(LC25-"L00000000005$pb")(r4) addi r3,r1,80 mfcr r0 stw r0,284(r1) bl L_strcmp$stub cmpwi cr0,r3,0 addis r4,r31,ha16(LC26-"L00000000005$pb") la r4,lo16(LC26-"L00000000005$pb")(r4) addi r3,r1,80 mfcr r0 stw r0,292(r1) bl L_strcmp$stub cmpwi cr0,r3,0 addis r4,r31,ha16(LC27-"L00000000005$pb") la r4,lo16(LC27-"L00000000005$pb")(r4) addi r3,r1,80 mfcr r0 stw r0,300(r1) bl L_strcmp$stub cmpwi cr0,r3,0 addis r4,r31,ha16(LC28-"L00000000005$pb") la r4,lo16(LC28-"L00000000005$pb")(r4) addi r3,r1,80 mfcr r0 stw r0,308(r1) bl L_strcmp$stub mtcrf 128,r29 lwz r0,252(r1) cmpwi cr7,r3,0 mfcr r13 rlwinm r13,r13,3,1 mtcrf 128,r0 mfcr r0 rlwinm r0,r0,3,1 stw r0,248(r1) lwz r0,260(r1) mtcrf 128,r0 mfcr r0 rlwinm r0,r0,3,1 stw r0,256(r1) lwz r0,268(r1) mtcrf 128,r0 mfcr r0 rlwinm r0,r0,3,1 stw r0,264(r1) lwz r0,276(r1) mtcrf 128,r0 mfcr r0 rlwinm r0,r0,3,1 stw r0,272(r1) lwz r0,284(r1) mtcrf 128,r0 mfcr r0 rlwinm r0,r0,3,1 stw r0,280(r1) lwz r0,292(r1) mtcrf 128,r0 mfcr r0 rlwinm r0,r0,3,1 stw r0,288(r1) lwz r0,300(r1) mtcrf 128,r0 mfcr r0 rlwinm r0,r0,3,1 stw r0,296(r1) lwz r0,308(r1) mtcrf 128,r0 mfcr r0 rlwinm r0,r0,3,1 stw r0,304(r1) mfcr r0 rlwinm r0,r0,31,1 stw r0,312(r1) beq- cr4,L515 beq- cr0,L515 lwz r8,276(r1) mtcrf 128,r8 beq- cr0,L515 lwz r0,260(r1) mtcrf 128,r0 beq- cr0,L515 beq- cr2,L515 beq- cr7,L515 lwz r0,300(r1) mtcrf 128,r0 beq- cr0,L515 lwz r0,284(r1) mtcrf 128,r0 beq- cr0,L515 lwz r0,292(r1) mtcrf 128,r0 beq- cr0,L515 lwz r0,268(r1) mtcrf 128,r0 beq- cr0,L515 lwz r0,252(r1) mtcrf 128,r0 beq- cr0,L515 rlwinm r29,r29,8,0xffffffff mtcrf 2,r29 rlwinm r29,r29,24,0xffffffff bne- cr6,L1175 L515: cmpw cr7,r30,r21 beq- cr7,L1201 addi r30,r30,1 cmpw cr7,r30,r21 stw r30,240(r1) beq- cr7,L1184 addis r8,r31,ha16(L__DefaultRuneLocale$non_lazy_ptr-"L00000000005$pb") addis r2,r31,ha16(LC29-"L00000000005$pb") lwz r8,lo16(L__DefaultRuneLocale$non_lazy_ptr-"L00000000005$pb")(r8) li r29,0 lwz r30,lo16(LC29-"L00000000005$pb")(r2) addi r8,r8,52 stw r8,316(r1) L593: extsb. r9,r28 beq- cr0,L525 rlwinm. r10,r29,0,0,24 bne- cr0,L525 cmplwi cr7,r29,255 bgt- cr7,L1332 lwz r0,0(r30) slwi r2,r29,2 add r2,r2,r0 lwz r9,52(r2) andi. r3,r9,1280 L528: cmpwi cr7,r3,0 bne- cr7,L524 L525: extsb. r0,r15 beq- cr0,L530 rlwinm. r2,r29,0,0,24 bne- cr0,L530 cmplwi cr7,r29,255 bgt- cr7,L1333 lwz r0,0(r30) slwi r2,r29,2 add r2,r2,r0 lwz r9,52(r2) rlwinm r3,r9,0,23,23 L533: cmpwi cr7,r3,0 bne- cr7,L524 L530: extsb. r0,r13 beq- cr0,L535 rlwinm. r2,r29,0,0,24 bne- cr0,L535 cmplwi cr7,r29,255 bgt- cr7,L1334 lwz r0,0(r30) slwi r2,r29,2 add r2,r2,r0 lwz r9,52(r2) rlwinm r3,r9,0,14,14 L538: cmpwi cr7,r3,0 bne- cr7,L524 L535: lwz r0,248(r1) extsb. r0,r0 beq- cr0,L523 rlwinm. r2,r29,0,0,24 bne- cr0,L523 cmplwi cr7,r29,255 bgt- cr7,L1335 lwz r0,0(r30) slwi r2,r29,2 add r2,r2,r0 lwz r9,52(r2) rlwinm r3,r9,0,22,22 L542: cmpwi cr7,r3,0 beq- cr7,L523 L524: rlwinm r0,r29,0,0xff li r8,1 srwi r9,r0,3 rlwinm r0,r0,0,29,31 lbzx r2,r27,r9 slw r0,r8,r0 or r2,r2,r0 stbx r2,r27,r9 L523: lwz r9,256(r1) extsb. r9,r9 beq- cr0,L546 rlwinm. r10,r29,0,0,24 bne- cr0,L546 cmplwi cr7,r29,255 bgt- cr7,L546 lwz r11,316(r1) lwz r0,0(r11) andi. r2,r0,1024 bne- cr0,L545 L546: lwz r8,264(r1) extsb. r8,r8 beq- cr0,L549 rlwinm. r9,r29,0,0,24 bne- cr0,L549 cmplwi cr7,r29,255 bgt- cr7,L1336 lwz r0,0(r30) slwi r2,r29,2 add r2,r2,r0 lwz r9,52(r2) rlwinm r3,r9,0,20,20 L552: cmpwi cr7,r3,0 bne- cr7,L545 L549: lwz r0,272(r1) extsb. r0,r0 beq- cr0,L554 rlwinm. r2,r29,0,0,24 bne- cr0,L554 cmplwi cr7,r29,255 bgt- cr7,L1337 lwz r0,0(r30) slwi r2,r29,2 add r2,r2,r0 lwz r9,52(r2) rlwinm r3,r9,0,19,19 L557: cmpwi cr7,r3,0 bne- cr7,L545 L554: lwz r0,280(r1) extsb. r0,r0 beq- cr0,L544 rlwinm. r2,r29,0,0,24 bne- cr0,L544 cmplwi cr7,r29,255 bgt- cr7,L1338 lwz r0,0(r30) slwi r2,r29,2 add r2,r2,r0 lwz r9,52(r2) rlwinm r3,r9,0,13,13 L561: cmpwi cr7,r3,0 beq- cr7,L544 L545: rlwinm r0,r29,0,0xff li r8,1 srwi r9,r0,3 rlwinm r0,r0,0,29,31 lbzx r2,r27,r9 slw r0,r8,r0 or r2,r2,r0 stbx r2,r27,r9 L544: lwz r9,288(r1) extsb. r9,r9 beq- cr0,L565 rlwinm. r10,r29,0,0,24 bne- cr0,L565 cmplwi cr7,r29,255 bgt- cr7,L1339 lwz r0,0(r30) slwi r2,r29,2 add r2,r2,r0 lwz r9,52(r2) rlwinm r3,r9,0,18,18 L568: cmpwi cr7,r3,0 bne- cr7,L564 L565: lwz r0,296(r1) extsb. r0,r0 beq- cr0,L570 rlwinm. r2,r29,0,0,24 bne- cr0,L570 cmplwi cr7,r29,255 bgt- cr7,L1340 lwz r0,0(r30) slwi r2,r29,2 add r2,r2,r0 lwz r9,52(r2) rlwinm r3,r9,0,17,17 L573: cmpwi cr7,r3,0 bne- cr7,L564 L570: lwz r0,304(r1) extsb. r0,r0 beq- cr0,L575 rlwinm. r2,r29,0,0,24 bne- cr0,L575 cmplwi cr7,r29,255 bgt- cr7,L1341 lwz r0,0(r30) slwi r2,r29,2 add r2,r2,r0 lwz r9,52(r2) rlwinm r3,r9,0,16,16 L578: cmpwi cr7,r3,0 bne- cr7,L564 L575: lwz r0,312(r1) extsb. r0,r0 beq- cr0,L563 rlwinm. r2,r29,0,0,24 bne- cr0,L563 cmplwi cr7,r29,255 bgt- cr7,L563 lwz r8,316(r1) lwz r0,0(r8) andis. r9,r0,1 beq- cr0,L563 L564: rlwinm r0,r29,0,0xff li r10,1 srwi r9,r0,3 rlwinm r0,r0,0,29,31 lbzx r2,r27,r9 slw r0,r10,r0 or r2,r2,r0 stbx r2,r27,r9 L563: beq- cr3,L522 lwz r11,304(r1) lwz r0,272(r1) or. r11,r11,r0 beq- cr0,L522 rlwinm. r2,r29,0,0,24 bne- cr0,L522 cmplwi cr7,r29,255 bgt- cr7,L1342 lwz r0,0(r30) slwi r2,r29,2 add r2,r2,r0 lwz r9,52(r2) rlwinm r3,r9,0,16,16 L587: cmpwi cr7,r3,0 bne- cr7,L583 cmplwi cr7,r29,255 bgt- cr7,L1343 lwz r0,0(r30) slwi r2,r29,2 add r2,r2,r0 lwz r9,52(r2) rlwinm r3,r9,0,19,19 L591: cmpwi cr7,r3,0 beq- cr7,L522 L583: rlwinm r0,r29,0,0xff li r8,1 srwi r9,r0,3 rlwinm r0,r0,0,29,31 lbzx r2,r27,r9 slw r0,r8,r0 or r2,r2,r0 stbx r2,r27,r9 L522: addi r29,r29,1 lwz r9,316(r1) cmpwi cr7,r29,255 addi r9,r9,4 stw r9,316(r1) ble+ cr7,L593 li r15,1 b L1253 L1339: mr r3,r29 bl L____runetype$stub rlwinm r3,r3,0,18,18 b L568 L1340: mr r3,r29 bl L____runetype$stub rlwinm r3,r3,0,17,17 b L573 L1336: mr r3,r29 bl L____runetype$stub rlwinm r3,r3,0,20,20 b L552 L1333: mr r3,r29 bl L____runetype$stub rlwinm r3,r3,0,23,23 b L533 L1332: mr r3,r29 bl L____runetype$stub andi. r3,r3,1280 b L528 L1334: mr r3,r29 bl L____runetype$stub rlwinm r3,r3,0,14,14 b L538 L1341: mr r3,r29 bl L____runetype$stub rlwinm r3,r3,0,16,16 b L578 L1337: mr r3,r29 bl L____runetype$stub rlwinm r3,r3,0,19,19 b L557 L1335: mr r3,r29 bl L____runetype$stub rlwinm r3,r3,0,22,22 b L542 L1338: mr r3,r29 bl L____runetype$stub rlwinm r3,r3,0,13,13 b L561 L1342: mr r3,r29 bl L____runetype$stub rlwinm r3,r3,0,16,16 b L587 L1343: mr r3,r29 bl L____runetype$stub rlwinm r3,r3,0,19,19 b L591 L1175: lwz r3,64(r1) bl L_free$stub li r3,4 b L271 L732: srwi r0,r17,10 andi. r2,r0,1 bne- cr0,L678 andi. r8,r17,32768 bne- cr0,L678 b L662 L759: andi. r0,r17,512 beq- cr0,L678 srwi r9,r17,12 andi. r2,r9,1 bne- cr0,L678 b L669 L835: andis. r11,r17,8 bne- cr0,L315 lwz r3,0(r26) mr r23,r27 lwz r0,4(r26) subf r2,r3,r27 mr r30,r3 addi r2,r2,1 cmplw cr7,r2,r0 ble- cr7,L1081 lis r29,0x1 b L848 L1344: stw r29,4(r26) L842: lwz r4,4(r26) bl L_realloc$stub cmpwi cr7,r3,0 stw r3,0(r26) beq- cr7,L1233 cmpw cr7,r30,r3 beq- cr7,L838 cmpwi cr7,r22,0 subf r3,r30,r3 add r27,r27,r3 add r24,r24,r3 beq- cr7,L845 add r22,r22,r3 L845: cmpwi cr7,r23,0 beq- cr7,L846 add r23,r23,r3 L846: cmpwi cr7,r25,0 beq- cr7,L838 add r25,r25,r3 L838: lwz r3,0(r26) lwz r0,4(r26) subf r2,r3,r27 mr r30,r3 addi r2,r2,1 cmplw cr7,r2,r0 ble- cr7,L1081 L848: cmpw cr7,r0,r29 beq- cr7,L1232 slwi r0,r0,1 cmplw cr7,r0,r29 bgt- cr7,L1344 stw r0,4(r26) b L842 L1081: li r0,24 stb r0,0(r27) b L1270 L891: andis. r0,r17,8 bne- cr0,L315 lwz r3,0(r26) lwz r0,4(r26) subf r2,r3,r27 mr r30,r3 addi r2,r2,1 cmplw cr7,r2,r0 ble- cr7,L1089 lis r29,0x1 b L904 L1345: stw r29,4(r26) L898: lwz r4,4(r26) bl L_realloc$stub cmpwi cr7,r3,0 stw r3,0(r26) beq- cr7,L1233 cmpw cr7,r30,r3 beq- cr7,L894 cmpwi cr7,r22,0 subf r3,r30,r3 add r27,r27,r3 add r24,r24,r3 beq- cr7,L901 add r22,r22,r3 L901: cmpwi cr7,r23,0 beq- cr7,L902 add r23,r23,r3 L902: cmpwi cr7,r25,0 beq- cr7,L894 add r25,r25,r3 L894: lwz r3,0(r26) lwz r0,4(r26) subf r2,r3,r27 mr r30,r3 addi r2,r2,1 cmplw cr7,r2,r0 ble- cr7,L1089 L904: cmpw cr7,r0,r29 beq- cr7,L1232 slwi r0,r0,1 cmplw cr7,r0,r29 bgt- cr7,L1345 stw r0,4(r26) b L898 L1089: li r0,28 stb r0,0(r27) b L1270 L919: andis. r0,r17,8 bne- cr0,L315 lwz r3,0(r26) lwz r0,4(r26) subf r2,r3,r27 mr r30,r3 addi r2,r2,1 cmplw cr7,r2,r0 ble- cr7,L1093 lis r29,0x1 b L932 L1346: stw r29,4(r26) L926: lwz r4,4(r26) bl L_realloc$stub cmpwi cr7,r3,0 stw r3,0(r26) beq- cr7,L1233 cmpw cr7,r30,r3 beq- cr7,L922 cmpwi cr7,r22,0 subf r3,r30,r3 add r27,r27,r3 add r24,r24,r3 beq- cr7,L929 add r22,r22,r3 L929: cmpwi cr7,r23,0 beq- cr7,L930 add r23,r23,r3 L930: cmpwi cr7,r25,0 beq- cr7,L922 add r25,r25,r3 L922: lwz r3,0(r26) lwz r0,4(r26) subf r2,r3,r27 mr r30,r3 addi r2,r2,1 cmplw cr7,r2,r0 ble- cr7,L1093 L932: cmpw cr7,r0,r29 beq- cr7,L1232 slwi r0,r0,1 cmplw cr7,r0,r29 bgt- cr7,L1346 stw r0,4(r26) b L926 L1093: li r0,11 stb r0,0(r27) b L1270 L849: andis. r0,r17,8 bne- cr0,L315 lwz r3,0(r26) mr r23,r27 lwz r0,4(r26) subf r2,r3,r27 mr r30,r3 addi r2,r2,1 cmplw cr7,r2,r0 ble- cr7,L1083 lis r29,0x1 b L862 L1347: stw r29,4(r26) L856: lwz r4,4(r26) bl L_realloc$stub cmpwi cr7,r3,0 stw r3,0(r26) beq- cr7,L1233 cmpw cr7,r30,r3 beq- cr7,L852 cmpwi cr7,r22,0 subf r3,r30,r3 add r27,r27,r3 add r24,r24,r3 beq- cr7,L859 add r22,r22,r3 L859: cmpwi cr7,r23,0 beq- cr7,L860 add r23,r23,r3 L860: cmpwi cr7,r25,0 beq- cr7,L852 add r25,r25,r3 L852: lwz r3,0(r26) lwz r0,4(r26) subf r2,r3,r27 mr r30,r3 addi r2,r2,1 cmplw cr7,r2,r0 ble- cr7,L1083 L862: cmpw cr7,r0,r29 beq- cr7,L1232 slwi r0,r0,1 cmplw cr7,r0,r29 bgt- cr7,L1347 stw r0,4(r26) b L856 L1083: li r0,25 stb r0,0(r27) b L1270 L905: andis. r0,r17,8 bne- cr0,L315 lwz r3,0(r26) lwz r0,4(r26) subf r2,r3,r27 mr r30,r3 addi r2,r2,1 cmplw cr7,r2,r0 ble- cr7,L1091 lis r29,0x1 b L918 L1348: stw r29,4(r26) L912: lwz r4,4(r26) bl L_realloc$stub cmpwi cr7,r3,0 stw r3,0(r26) beq- cr7,L1233 cmpw cr7,r30,r3 beq- cr7,L908 cmpwi cr7,r22,0 subf r3,r30,r3 add r27,r27,r3 add r24,r24,r3 beq- cr7,L915 add r22,r22,r3 L915: cmpwi cr7,r23,0 beq- cr7,L916 add r23,r23,r3 L916: cmpwi cr7,r25,0 beq- cr7,L908 add r25,r25,r3 L908: lwz r3,0(r26) lwz r0,4(r26) subf r2,r3,r27 mr r30,r3 addi r2,r2,1 cmplw cr7,r2,r0 ble- cr7,L1091 L918: cmpw cr7,r0,r29 beq- cr7,L1232 slwi r0,r0,1 cmplw cr7,r0,r29 bgt- cr7,L1348 stw r0,4(r26) b L912 L1091: li r0,29 stb r0,0(r27) b L1270 L978: andi. r0,r17,2 bne- cr0,L346 b L678 L877: andis. r0,r17,8 bne- cr0,L315 lwz r3,0(r26) lwz r0,4(r26) subf r2,r3,r27 mr r30,r3 addi r2,r2,1 cmplw cr7,r2,r0 ble- cr7,L1087 lis r29,0x1 b L890 L1349: stw r29,4(r26) L884: lwz r4,4(r26) bl L_realloc$stub cmpwi cr7,r3,0 stw r3,0(r26) beq- cr7,L1233 cmpw cr7,r30,r3 beq- cr7,L880 cmpwi cr7,r22,0 subf r3,r30,r3 add r27,r27,r3 add r24,r24,r3 beq- cr7,L887 add r22,r22,r3 L887: cmpwi cr7,r23,0 beq- cr7,L888 add r23,r23,r3 L888: cmpwi cr7,r25,0 beq- cr7,L880 add r25,r25,r3 L880: lwz r3,0(r26) lwz r0,4(r26) subf r2,r3,r27 mr r30,r3 addi r2,r2,1 cmplw cr7,r2,r0 ble- cr7,L1087 L890: cmpw cr7,r0,r29 beq- cr7,L1232 slwi r0,r0,1 cmplw cr7,r0,r29 bgt- cr7,L1349 stw r0,4(r26) b L884 L1087: li r0,27 stb r0,0(r27) b L1270 L863: andis. r0,r17,8 bne- cr0,L315 lwz r3,0(r26) lwz r0,4(r26) subf r2,r3,r27 mr r30,r3 addi r2,r2,1 cmplw cr7,r2,r0 ble- cr7,L1085 lis r29,0x1 b L876 L1350: stw r29,4(r26) L870: lwz r4,4(r26) bl L_realloc$stub cmpwi cr7,r3,0 stw r3,0(r26) beq- cr7,L1233 cmpw cr7,r30,r3 beq- cr7,L866 cmpwi cr7,r22,0 subf r3,r30,r3 add r27,r27,r3 add r24,r24,r3 beq- cr7,L873 add r22,r22,r3 L873: cmpwi cr7,r23,0 beq- cr7,L874 add r23,r23,r3 L874: cmpwi cr7,r25,0 beq- cr7,L866 add r25,r25,r3 L866: lwz r3,0(r26) lwz r0,4(r26) subf r2,r3,r27 mr r30,r3 addi r2,r2,1 cmplw cr7,r2,r0 ble- cr7,L1085 L876: cmpw cr7,r0,r29 beq- cr7,L1232 slwi r0,r0,1 cmplw cr7,r0,r29 bgt- cr7,L1350 stw r0,4(r26) b L870 L1085: li r0,26 stb r0,0(r27) b L1270 L955: andi. r0,r17,16384 bne- cr0,L315 addi r0,r28,-48 rlwinm r29,r0,0,0xff cmplw cr7,r29,r16 bgt- cr7,L1224 lwz r0,72(r1) lwz r11,64(r1) addic. r9,r0,-1 lwz r2,68(r1) stw r11,224(r1) stw r2,228(r1) stw r0,232(r1) blt- cr0,L1097 mulli r2,r9,20 add r2,r2,r11 addi r2,r2,16 b L964 L1351: addic. r9,r9,-1 blt- cr0,L1097 L964: lwz r0,0(r2) addi r2,r2,-20 cmpw cr7,r0,r29 bne+ cr7,L1351 li r0,1 L963: cmpwi cr7,r0,0 bne- cr7,L315 lwz r3,0(r26) mr r23,r27 lwz r0,4(r26) subf r2,r3,r27 mr r30,r3 addi r2,r2,2 cmplw cr7,r2,r0 ble- cr7,L1099 lis r28,0x1 b L976 L1352: stw r28,4(r26) L970: lwz r4,4(r26) bl L_realloc$stub cmpwi cr7,r3,0 stw r3,0(r26) beq- cr7,L1233 cmpw cr7,r30,r3 beq- cr7,L966 cmpwi cr7,r22,0 subf r3,r30,r3 add r27,r27,r3 add r24,r24,r3 beq- cr7,L973 add r22,r22,r3 L973: cmpwi cr7,r23,0 beq- cr7,L974 add r23,r23,r3 L974: cmpwi cr7,r25,0 beq- cr7,L966 add r25,r25,r3 L966: lwz r3,0(r26) lwz r0,4(r26) subf r2,r3,r27 mr r30,r3 addi r2,r2,2 cmplw cr7,r2,r0 ble- cr7,L1099 L976: cmpw cr7,r0,r28 beq- cr7,L1232 slwi r0,r0,1 cmplw cr7,r0,r28 bgt- cr7,L1352 stw r0,4(r26) b L970 L1099: li r0,8 stb r0,0(r27) stbu r29,1(r27) lwz r30,240(r1) addi r27,r27,1 b L288 L1097: li r0,0 b L963 L1224: lwz r3,64(r1) bl L_free$stub li r3,6 b L271 L676: andi. r11,r17,8192 beq+ cr0,L654 b L678 L933: andis. r0,r17,8 bne- cr0,L315 lwz r3,0(r26) lwz r0,4(r26) subf r2,r3,r27 mr r30,r3 addi r2,r2,1 cmplw cr7,r2,r0 ble- cr7,L1095 lis r29,0x1 b L946 L1353: stw r29,4(r26) L940: lwz r4,4(r26) bl L_realloc$stub cmpwi cr7,r3,0 stw r3,0(r26) beq- cr7,L1233 cmpw cr7,r30,r3 beq- cr7,L936 cmpwi cr7,r22,0 subf r3,r30,r3 add r27,r27,r3 add r24,r24,r3 beq- cr7,L943 add r22,r22,r3 L943: cmpwi cr7,r23,0 beq- cr7,L944 add r23,r23,r3 L944: cmpwi cr7,r25,0 beq- cr7,L936 add r25,r25,r3 L936: lwz r3,0(r26) lwz r0,4(r26) subf r2,r3,r27 mr r30,r3 addi r2,r2,1 cmplw cr7,r2,r0 ble- cr7,L1095 L946: cmpw cr7,r0,r29 beq- cr7,L1232 slwi r0,r0,1 cmplw cr7,r0,r29 bgt- cr7,L1353 stw r0,4(r26) b L940 L1095: li r0,12 stb r0,0(r27) b L1270 .align 2 .globl _xregcomp _xregcomp: mflr r0 rlwinm r2,r5,0,31,31 bcl 20,31,"L00000000006$pb" "L00000000006$pb": stmw r24,-32(r1) addic r2,r2,-1 subfe r2,r2,r2 mflr r31 stw r0,8(r1) lis r0,0xfffd ori r0,r0,20426 stwu r1,-96(r1) and r26,r2,r0 li r0,0 stw r0,8(r3) mr r25,r5 stw r0,0(r3) mr r28,r3 stw r0,4(r3) addis r2,r26,0x4 li r3,256 mr r24,r4 addi r26,r2,-19716 bl L_malloc$stub rlwinm r0,r25,31,31,31 stw r3,16(r28) cmpwi cr7,r0,0 bne- cr7,L1381 stw r0,20(r28) L1373: andi. r0,r25,4 beq- cr0,L1374 lwz r0,28(r28) rlwinm r26,r26,0,26,24 mr r3,r24 ori r26,r26,256 oris r0,r0,0x100 rlwimi r0,r25,24,4,4 stw r0,28(r28) bl L_strlen$stub mr r5,r26 mr r4,r3 mr r6,r28 mr r3,r24 bl _byte_regex_compile cmpwi cr7,r3,16 mr r30,r3 beq- cr7,L1382 L1376: cmpwi cr7,r3,0 bne- cr7,L1377 lwz r0,16(r28) cmpwi cr7,r0,0 bne- cr7,L1383 L1377: mr r3,r30 L1355: addi r1,r1,96 lwz r0,8(r1) lmw r24,-32(r1) mtlr r0 blr L1374: lwz r0,28(r28) mr r3,r24 rlwinm r0,r0,0,8,6 rlwimi r0,r25,24,4,4 stw r0,28(r28) bl L_strlen$stub mr r5,r26 mr r4,r3 mr r6,r28 mr r3,r24 bl _byte_regex_compile cmpwi cr7,r3,16 mr r30,r3 bne+ cr7,L1376 L1382: li r30,8 b L1377 L1381: li r3,256 bl L_malloc$stub cmpwi cr7,r3,0 stw r3,20(r28) li r3,12 beq- cr7,L1355 addis r2,r31,ha16(L__CurrentRuneLocale$non_lazy_ptr-"L00000000006$pb") li r30,0 lwz r27,lo16(L__CurrentRuneLocale$non_lazy_ptr-"L00000000006$pb")(r2) b L1372 L1386: cmplwi cr7,r30,255 bgt- cr7,L1384 lwz r0,0(r27) slwi r2,r30,2 add r2,r2,r0 lwz r9,52(r2) rlwinm r3,r9,0,16,16 L1367: cmpwi cr7,r3,0 beq- cr7,L1363 cmplwi cr7,r30,255 bgt- cr7,L1385 lwz r0,0(r27) slwi r2,r30,2 add r2,r2,r0 lwz r3,1076(r2) L1364: stbx r3,r29,r30 addi r30,r30,1 cmplwi cr7,r30,255 bgt- cr7,L1373 L1372: rlwinm. r0,r30,0,0,24 lwz r29,20(r28) beq- cr0,L1386 L1363: mr r3,r30 b L1364 L1384: mr r3,r30 bl L____runetype$stub rlwinm r3,r3,0,16,16 b L1367 L1385: mr r3,r30 bl L____tolower$stub b L1364 L1383: mr r3,r28 bl _xre_compile_fastmap cmpwi cr7,r3,-2 bne+ cr7,L1377 lwz r3,16(r28) bl L_free$stub stw r30,16(r28) b L1377 .data .cstring .align 2 LC30: .ascii "No previous regular expression\0" .text .align 2 .globl _xre_comp _xre_comp: stmw r28,-16(r1) mr. r28,r3 mflr r0 bcl 20,31,"L00000000007$pb" "L00000000007$pb": mflr r31 stw r0,8(r1) stwu r1,-80(r1) beq- cr0,L1396 addis r29,r31,ha16(_re_comp_buf-"L00000000007$pb") la r30,lo16(_re_comp_buf-"L00000000007$pb")(r29) lwz r0,0(r30) cmpwi cr7,r0,0 beq- cr7,L1397 L1390: la r29,lo16(_re_comp_buf-"L00000000007$pb")(r29) mr r3,r28 lwz r0,28(r29) oris r0,r0,0x100 stw r0,28(r29) bl L_strlen$stub mr r6,r29 addis r2,r31,ha16(L_xre_syntax_options$non_lazy_ptr-"L00000000007$pb") mr r4,r3 lwz r2,lo16(L_xre_syntax_options$non_lazy_ptr-"L00000000007$pb")(r2) mr r3,r28 lwz r5,0(r2) bl _byte_regex_compile mr. r0,r3 li r3,0 beq- cr0,L1387 addis r2,r31,ha16(_re_error_msgid-"L00000000007$pb") slwi r0,r0,2 la r2,lo16(_re_error_msgid-"L00000000007$pb")(r2) lwzx r3,r2,r0 L1387: addi r1,r1,80 lwz r0,8(r1) lmw r28,-16(r1) mtlr r0 blr L1397: li r3,200 bl L_malloc$stub cmpwi cr7,r3,0 stw r3,0(r30) bne- cr7,L1398 L1395: addi r1,r1,80 addis r2,r31,ha16(_re_error_msgid-"L00000000007$pb") lwz r0,8(r1) la r2,lo16(_re_error_msgid-"L00000000007$pb")(r2) lwz r3,48(r2) lmw r28,-16(r1) mtlr r0 blr L1396: addis r2,r31,ha16(_re_comp_buf-"L00000000007$pb") addis r3,r31,ha16(LC30-"L00000000007$pb") lwz r2,lo16(_re_comp_buf-"L00000000007$pb")(r2) la r3,lo16(LC30-"L00000000007$pb")(r3) cmpwi cr7,r2,0 beq+ cr7,L1387 li r3,0 b L1387 L1398: li r0,200 li r3,256 stw r0,4(r30) bl L_malloc$stub cmpwi cr7,r3,0 stw r3,16(r30) bne- cr7,L1390 b L1395 .align 2 .globl _xre_compile_pattern _xre_compile_pattern: mflr r0 stw r31,-4(r1) bcl 20,31,"L00000000008$pb" "L00000000008$pb": li r2,0 mflr r31 mr r6,r5 stw r0,8(r1) stwu r1,-80(r1) lwz r0,28(r5) rlwimi r0,r2,29,1,2 addis r2,r31,ha16(L_xre_syntax_options$non_lazy_ptr-"L00000000008$pb") rlwinm r0,r0,0,5,3 oris r0,r0,0x100 stw r0,28(r5) lwz r2,lo16(L_xre_syntax_options$non_lazy_ptr-"L00000000008$pb")(r2) lwz r5,0(r2) bl _byte_regex_compile li r0,0 cmpwi cr0,r3,0 addis r2,r31,ha16(_re_error_msgid-"L00000000008$pb") la r2,lo16(_re_error_msgid-"L00000000008$pb")(r2) slwi r3,r3,2 beq- cr0,L1399 lwzx r0,r3,r2 L1399: addi r1,r1,80 mr r3,r0 lwz r0,8(r1) lwz r31,-4(r1) mtlr r0 blr .align 2 _byte_re_match_2_internal: mflr r0 stmw r13,-76(r1) bcl 20,31,"L00000000009$pb" "L00000000009$pb": mr r16,r4 mflr r31 mr r15,r5 stw r0,8(r1) mr r18,r6 stwu r1,-224(r1) li r22,257 lwz r0,0(r1) mr r30,r1 stw r3,248(r30) li r21,256 stwu r0,-48(r1) li r17,0 addi r29,r1,64 lwz r11,24(r3) cmpwi cr7,r29,0 lwz r27,0(r3) lwz r0,8(r3) stw r8,268(r30) lwz r8,20(r3) add r19,r27,r0 stw r7,264(r30) li r7,0 stw r9,272(r30) addi r9,r11,1 stw r29,64(r30) li r3,-2 stw r7,96(r30) stw r8,100(r30) stw r9,104(r30) stw r7,116(r30) stw r7,128(r30) beq- cr7,L1401 cmpwi cr7,r11,0 li r0,5 li r11,0 stw r0,68(r30) stw r11,72(r30) bne- cr7,L2158 li r11,0 li r25,0 stw r11,132(r30) li r24,0 stw r11,124(r30) li r26,0 stw r11,120(r30) stw r11,112(r30) stw r11,108(r30) stw r25,136(r30) L1417: lwz r0,268(r30) cmpwi cr7,r0,0 blt- cr7,L2140 lwz r2,264(r30) lwz r7,268(r30) add r0,r15,r2 cmpw cr7,r7,r0 bgt- cr7,L2140 lwz r8,104(r30) li r28,1 cmplw cr7,r28,r8 bge- cr7,L1977 addis r9,r31,ha16(_byte_reg_unset_dummy-"L00000000009$pb") addi r8,r8,-1 la r9,lo16(_byte_reg_unset_dummy-"L00000000009$pb")(r9) li r11,3 mtctr r8 L2113: lwz r0,112(r30) slwi r2,r28,2 lwz r7,108(r30) addi r28,r28,1 stwx r9,r2,r0 stwx r9,r2,r7 stwx r9,r2,r24 stwx r9,r2,r25 lwzx r0,r2,r26 rlwimi r0,r11,30,0,1 rlwinm r0,r0,0,5,1 stwx r0,r2,r26 bdnz L2113 L1977: lwz r8,264(r30) addic r11,r16,-1 subfe r2,r11,r16 subfic r9,r8,0 adde r0,r9,r8 and. r7,r0,r2 beq- cr0,L1434 mr r18,r16 stw r15,264(r30) li r16,0 li r15,0 L1434: cmpw cr7,r10,r15 lwz r9,264(r30) add r8,r16,r15 add r11,r16,r10 add r9,r18,r9 stw r8,140(r30) stw r9,84(r30) stw r11,88(r30) stw r18,92(r30) ble- cr7,L1436 add r0,r18,r10 stw r8,88(r30) subf r0,r15,r0 stw r0,92(r30) L1436: lwz r0,268(r30) li r2,1 cmpw cr7,r0,r15 subfic r0,r15,0 addme r0,r0 srwi r0,r0,31 ble- cr7,L1438 li r2,0 L1438: and. r7,r0,r2 lwz r8,268(r30) lwz r14,88(r30) add r23,r16,r8 bne- cr0,L2212 add r0,r18,r8 lwz r14,92(r30) subf r23,r15,r0 b L2212 L2125: L2212: cmpw cr7,r27,r19 beq- cr7,L2159 lbz r9,0(r27) addi r27,r27,1 cmplwi cr7,r9,29 bgt- cr7,L1935 addis r2,r31,ha16(L1936-"L00000000009$pb") slwi r9,r9,2 la r2,lo16(L1936-"L00000000009$pb")(r2) lwzx r0,r9,r2 add r0,r0,r2 mtctr r0 bctr .align 2 L1936: .long L2125-L1936 .long L1464-L1936 .long L1530-L1936 .long L1555-L1936 .long L1574-L1936 .long L1574-L1936 .long L1589-L1936 .long L1596-L1936 .long L1644-L1936 .long L1679-L1936 .long L1687-L1936 .long L1694-L1936 .long L1699-L1936 .long L1797-L1936 .long L1797-L1936 .long L1719-L1936 .long L1701-L1936 .long L1785-L1936 .long L1741-L1936 .long L1801-L1936 .long L1816-L1936 .long L1831-L1936 .long L1838-L1936 .long L1843-L1936 .long L1903-L1936 .long L1919-L1936 .long L1877-L1936 .long L1890-L1936 .long L1849-L1936 .long L1863-L1936 L2158: slwi r2,r9,2 lwz r0,0(r1) addi r2,r2,30 rlwinm r2,r2,0,0,27 neg r2,r2 stwux r0,r1,r2 addi r25,r1,64 stwux r0,r1,r2 addi r24,r1,64 stwux r0,r1,r2 addi r7,r1,64 subfic r8,r25,0 adde r11,r8,r25 stw r7,108(r30) subfic r7,r24,0 adde r9,r7,r24 stwux r0,r1,r2 or. r7,r11,r9 addi r8,r1,64 stw r8,112(r30) stwux r0,r1,r2 addi r8,r1,64 stw r8,120(r30) stwux r0,r1,r2 addi r9,r1,64 stw r9,124(r30) stwux r0,r1,r2 addi r26,r1,64 stwux r0,r1,r2 addi r11,r1,64 stw r11,132(r30) stwux r0,r1,r2 addi r2,r1,64 stw r2,136(r30) bne- cr0,L1822 lwz r7,108(r30) lwz r9,112(r30) subfic r8,r7,0 adde r0,r8,r7 subfic r11,r9,0 adde r2,r11,r9 or. r7,r0,r2 bne- cr0,L1822 lwz r9,120(r30) subfic r8,r26,0 adde r0,r8,r26 subfic r11,r9,0 adde r2,r11,r9 or. r7,r0,r2 bne- cr0,L1822 lwz r8,124(r30) lwz r11,132(r30) subfic r9,r8,0 adde r0,r9,r8 subfic r7,r11,0 adde r2,r7,r11 or. r8,r0,r2 bne- cr0,L1822 lwz r9,136(r30) cmpwi cr7,r9,0 bne+ cr7,L1417 L1822: li r3,-2 L1401: lwz r1,0(r1) lwz r0,8(r1) lmw r13,-76(r1) mtlr r0 blr L2140: lwz r1,0(r1) li r3,-1 lwz r0,8(r1) lmw r13,-76(r1) mtlr r0 blr L2159: lwz r9,92(r30) cmpw cr7,r23,r9 beq- cr7,L1464 lwz r11,128(r30) subfic r10,r15,0 adde r0,r10,r15 subfc r2,r16,r11 subfe r2,r2,r2 neg r2,r2 or. r7,r0,r2 li r2,0 bne- cr0,L1445 lwz r8,140(r30) cmplw cr7,r11,r8 bgt- cr7,L1445 L1444: lwz r9,88(r30) lwz r10,128(r30) xor r0,r14,r9 subfic r9,r0,0 adde r0,r9,r0 cmpw cr7,r2,r0 subfc r2,r23,r10 subfe r2,r2,r2 neg r2,r2 bne- cr7,L1447 lwz r11,88(r30) xor r0,r14,r11 addic r7,r0,-1 subfe r2,r7,r0 L1447: lwz r7,72(r30) cmpwi cr7,r7,0 beq- cr7,L1448 lwz r8,116(r30) xori r0,r8,1 or. r9,r0,r2 beq- cr0,L2128 lwz r11,104(r30) li r10,1 stw r10,116(r30) li r28,1 cmplw cr7,r10,r11 stw r23,128(r30) bge- cr7,L2128 addi r11,r11,-1 mtctr r11 L2112: slwi r0,r28,2 lwz r2,120(r30) lwzx r9,r25,r0 addi r28,r28,1 lwz r8,124(r30) stwx r9,r2,r0 lwzx r2,r24,r0 stwx r2,r8,r0 bdnz L2112 L1454: L2128: cmpwi cr7,r7,0 beq- cr7,L1441 L2160: addi r7,r7,-1 lwz r29,64(r30) stw r7,72(r30) slwi r2,r7,2 lwzx r0,r2,r29 cmpwi cr7,r0,0 beq- cr7,L1938 mr r23,r0 L1938: addi r7,r7,-1 stw r7,72(r30) slwi r2,r7,2 addi r7,r7,-1 lwzx r27,r2,r29 stw r7,72(r30) slwi r2,r7,2 addi r7,r7,-1 lwzx r21,r2,r29 stw r7,72(r30) slwi r2,r7,2 lwzx r22,r2,r29 mr r10,r21 cmplw cr7,r21,r22 blt- cr7,L2035 addi r0,r22,-1 subf r0,r0,r21 mtctr r0 L2103: addi r7,r7,-1 slwi r11,r10,2 stw r7,72(r30) slwi r2,r7,2 lwzx r0,r2,r29 addi r10,r10,-1 stwx r0,r11,r26 lwz r7,72(r30) lwz r29,64(r30) addi r7,r7,-1 stw r7,72(r30) slwi r2,r7,2 lwzx r9,r2,r29 addi r0,r7,-1 stw r0,72(r30) slwi r2,r0,2 stwx r9,r11,r24 mr r7,r0 lwzx r0,r2,r29 stwx r0,r11,r25 bdnz L2103 L2035: cmpwi cr7,r27,0 li r17,0 beq- cr7,L2099 cmplw cr7,r27,r19 bge- cr7,L1950 lbz r0,0(r27) li r2,0 cmplwi cr7,r0,18 bgt- cr7,L1962 cmplwi cr7,r0,17 bge- cr7,L1955 cmpwi cr7,r0,13 bne- cr7,L1950 L1955: addi r29,r27,1 cmpwi cr7,r2,0 stw r29,80(r30) lbz r0,1(r29) addi r29,r27,3 lbz r28,1(r27) extsb r0,r0 slwi r0,r0,8 add r28,r28,r0 add r2,r29,r28 stw r2,80(r30) beq- cr7,L2116 lbz r0,0(r2) cmpwi cr7,r0,21 beq- cr7,L2099 L1950: lwz r7,140(r30) subfc r0,r16,r23 li r0,0 adde r0,r0,r0 subfc r2,r23,r7 li r2,0 adde r2,r2,r2 and. r8,r0,r2 beq- cr0,L2125 lwz r14,88(r30) b L2125 L1445: li r2,1 b L1444 L2116: lbz r0,0(r2) cmpwi cr7,r0,15 bne- cr7,L1950 L2099: lwz r7,72(r30) L2172: cmpwi cr7,r7,0 bne+ cr7,L2160 L1441: lwz r9,116(r30) cmpwi cr7,r9,0 beq- cr7,L2140 L1457: lwz r23,128(r30) lwz r10,140(r30) subfc r0,r16,r23 li r0,0 adde r0,r0,r0 lwz r14,88(r30) subfc r2,r23,r10 li r2,0 adde r2,r2,r2 and. r11,r0,r2 bne- cr0,L1459 lwz r14,92(r30) L1459: lwz r2,104(r30) li r28,1 cmplw cr7,r28,r2 bge- cr7,L1464 addi r2,r2,-1 mtctr r2 L2111: lwz r7,120(r30) slwi r0,r28,2 lwz r8,124(r30) addi r28,r28,1 lwzx r9,r7,r0 stwx r9,r25,r0 lwzx r2,r8,r0 stwx r2,r24,r0 bdnz L2111 L1464: lwz r9,272(r30) cmpwi cr7,r9,0 beq- cr7,L2041 lwz r10,248(r30) lwz r11,88(r30) lwz r0,28(r10) cmpw cr6,r14,r11 andis. r2,r0,2048 bne- cr0,L1465 rlwinm r0,r0,3,30,31 cmpwi cr7,r0,0 bne- cr7,L1466 lwz r7,104(r30) addi r3,r7,1 cmplwi cr7,r3,30 bge- cr7,L1467 li r3,30 L1467: lwz r8,272(r30) stw r3,0(r8) slwi r3,r3,2 bl L_malloc$stub lwz r2,272(r30) lwz r0,0(r2) stw r3,4(r2) slwi r3,r0,2 bl L_malloc$stub lwz r2,272(r30) lwz r0,4(r2) stw r3,8(r2) cmpwi cr7,r0,0 beq- cr7,L1822 cmpwi cr7,r3,0 beq- cr7,L1822 lwz r7,248(r30) li r2,1 lwz r0,28(r7) rlwimi r0,r2,29,1,2 stw r0,28(r7) L2044: lwz r8,272(r30) lwz r2,0(r8) L1480: cmpwi cr7,r2,0 lwz r9,88(r30) cmpw cr6,r14,r9 beq- cr7,L1496 lwz r10,272(r30) lwz r11,268(r30) lwz r9,4(r10) lwz r3,8(r10) stw r11,0(r9) beq- cr6,L2161 subf r0,r18,r23 add r0,r0,r15 L1498: lwz r7,272(r30) stw r0,0(r3) lwz r2,0(r7) L1496: addis r10,r31,ha16(_byte_reg_unset_dummy-"L00000000009$pb") cmpwi cr1,r15,0 la r10,lo16(_byte_reg_unset_dummy-"L00000000009$pb")(r10) li r28,1 li r8,-1 L1499: lwz r11,104(r30) mr r0,r2 cmplw cr7,r2,r11 ble- cr7,L1502 mr r0,r11 L1502: cmplw cr7,r28,r0 bge- cr7,L2162 slwi r2,r28,2 lwzx r11,r2,r25 cmpw cr7,r11,r10 beq- cr7,L1504 lwzx r0,r2,r24 cmpw cr7,r0,r10 beq- cr7,L1504 lwz r7,272(r30) lwz r9,4(r7) add r9,r2,r9 beq- cr1,L1506 cmplw cr7,r16,r11 bgt- cr7,L1506 lwz r7,140(r30) subf r0,r16,r11 cmplw cr7,r11,r7 ble- cr7,L1507 L1506: lwzx r0,r2,r25 subf r0,r18,r0 add r0,r0,r15 L1507: lwz r11,272(r30) stw r0,0(r9) lwz r3,8(r11) add r3,r2,r3 beq- cr1,L1508 lwzx r0,r2,r24 cmplw cr7,r16,r0 bgt- cr7,L1508 lwz r7,140(r30) cmplw cr7,r0,r7 subf r0,r16,r0 ble- cr7,L1509 L1508: lwzx r0,r2,r24 subf r0,r18,r0 add r0,r0,r15 L1509: stw r0,0(r3) L1501: lwz r9,272(r30) addi r28,r28,1 lwz r2,0(r9) b L1499 L1962: cmpwi cr7,r0,22 li r2,1 beq+ cr7,L1955 b L1950 L1919: cmpw cr7,r23,r14 bne- cr7,L2032 L2163: lwz r8,92(r30) cmpw cr7,r14,r8 beq- cr7,L2099 mr r23,r18 mr r14,r8 cmpw cr7,r23,r14 beq- cr7,L2163 L2032: lwz r9,140(r30) addis r2,r31,ha16(_re_syntax_table-"L00000000009$pb") la r2,lo16(_re_syntax_table-"L00000000009$pb")(r2) cmpw cr7,r23,r9 beq- cr7,L2164 addi r0,r18,-1 cmpw cr7,r23,r0 beq- cr7,L2165 lbz r0,0(r23) L1926: lbzx r0,r2,r0 cmpwi cr7,r0,1 beq- cr7,L2099 cmpwi cr7,r17,0 bne- cr7,L1929 cmplw cr7,r22,r21 li r17,1 mr r9,r22 bgt- cr7,L1929 addi r0,r21,1 subf r0,r22,r0 mtctr r0 L2104: slwi r2,r9,2 addi r9,r9,1 lwzx r0,r2,r26 oris r0,r0,0x1800 stwx r0,r2,r26 bdnz L2104 L1929: addi r23,r23,1 b L2125 L1903: cmpw cr7,r23,r14 bne- cr7,L2029 L2166: lwz r0,92(r30) cmpw cr7,r14,r0 beq- cr7,L2099 mr r23,r18 mr r14,r0 cmpw cr7,r23,r14 beq- cr7,L2166 L2029: lwz r2,140(r30) cmpw cr7,r23,r2 addis r2,r31,ha16(_re_syntax_table-"L00000000009$pb") la r2,lo16(_re_syntax_table-"L00000000009$pb")(r2) beq- cr7,L2167 addi r0,r18,-1 cmpw cr7,r23,r0 beq- cr7,L2168 lbz r0,0(r23) L1910: lbzx r0,r2,r0 cmpwi cr7,r0,1 bne- cr7,L2099 cmpwi cr7,r17,0 bne- cr7,L1929 cmplw cr7,r22,r21 li r17,1 mr r9,r22 bgt- cr7,L1929 addi r0,r21,1 subf r0,r22,r0 mtctr r0 L2105: slwi r2,r9,2 addi r9,r9,1 lwzx r0,r2,r26 oris r0,r0,0x1800 stwx r0,r2,r26 bdnz L2105 addi r23,r23,1 b L2125 L1555: cmpw cr7,r23,r14 bne- cr7,L1989 L2169: lwz r0,92(r30) cmpw cr7,r14,r0 beq- cr7,L2099 mr r23,r18 mr r14,r0 cmpw cr7,r23,r14 beq- cr7,L2169 L1989: lwz r2,248(r30) lwz r9,12(r2) andi. r7,r9,64 bne- cr0,L1562 lwz r8,100(r30) cmpwi cr7,r8,0 beq- cr7,L1563 lbz r0,0(r23) lbzx r2,r8,r0 cmpwi cr7,r2,10 L2141: beq- cr7,L2099 L1562: andi. r10,r9,128 beq- cr0,L1560 lwz r11,100(r30) cmpwi cr7,r11,0 beq- cr7,L1565 lbz r0,0(r23) lbzx r2,r11,r0 cmpwi cr7,r2,0 L2142: beq- cr7,L2099 L1560: cmpwi cr7,r17,0 bne- cr7,L1929 cmplw cr7,r22,r21 li r17,1 mr r9,r22 bgt- cr7,L1929 addi r0,r21,1 subf r0,r22,r0 mtctr r0 L2109: slwi r2,r9,2 addi r9,r9,1 lwzx r0,r2,r26 oris r0,r0,0x1800 stwx r0,r2,r26 bdnz L2109 addi r23,r23,1 b L2125 L1745: cmpw cr7,r10,r19 add r29,r27,r28 stw r29,80(r30) beq- cr7,L1782 lbz r9,0(r10) cmpwi cr7,r9,2 beq- cr7,L2079 lwz r7,248(r30) lwz r0,28(r7) andis. r8,r0,256 beq- cr0,L1752 cmpwi cr7,r9,10 beq- cr7,L2170 L1752: cmpwi cr7,r9,4 beq- cr7,L2171 L1751: addi r27,r27,-2 lbz r0,-1(r27) cmpwi cr7,r0,17 beq- cr7,L1785 li r0,13 stb r0,-1(r27) L1784: L1797: lbz r0,1(r27) lbz r28,0(r27) addi r27,r27,2 extsb r0,r0 slwi r0,r0,8 add r28,r28,r0 add r27,r27,r28 b L2125 L1785: lwz r7,72(r30) lwz r29,64(r30) addi r7,r7,-3 stw r7,72(r30) slwi r2,r7,2 addi r7,r7,-1 lwzx r0,r2,r29 stw r7,72(r30) slwi r2,r7,2 lwzx r2,r2,r29 mr r11,r0 cmplw cr7,r0,r2 blt- cr7,L2019 addi r0,r2,-1 subf r0,r0,r11 mtctr r0 L2106: addi r7,r7,-1 lwz r10,136(r30) stw r7,72(r30) slwi r2,r7,2 lwzx r0,r2,r29 slwi r9,r11,2 addi r11,r11,-1 stwx r0,r9,r10 lwz r7,72(r30) lwz r29,64(r30) addi r7,r7,-1 lwz r8,132(r30) stw r7,72(r30) slwi r2,r7,2 lwzx r0,r2,r29 addi r7,r7,-1 lwz r2,132(r30) stw r7,72(r30) stwx r0,r9,r2 slwi r2,r7,2 lwzx r0,r2,r29 stwx r0,r9,r8 bdnz L2106 L2019: li r17,0 b L1797 L1833: bne+ cr0,L2125 stb r28,3(r27) stb r28,2(r27) L1719: lbz r0,1(r27) addi r29,r27,2 lbz r28,0(r27) cmplw cr7,r29,r19 extsb r0,r0 stw r29,80(r30) slwi r0,r0,8 mr r27,r29 add r28,r28,r0 L2136: bge- cr7,L1723 lbz r0,0(r29) cmpwi cr7,r0,0 bne- cr7,L1723 addi r29,r29,1 cmplw cr7,r29,r19 stw r29,80(r30) b L2136 L1701: subf r2,r22,r21 lwz r5,68(r30) mulli r9,r2,3 lwz r7,72(r30) lbz r0,1(r27) addi r9,r9,7 subf r2,r7,r5 cmplw cr7,r2,r9 lbz r28,0(r27) extsb r0,r0 addi r27,r27,2 slwi r0,r0,8 add r28,r28,r0 bge- cr7,L2008 addis r13,r31,ha16(_xre_max_failures-"L00000000009$pb") mr r20,r9 la r13,lo16(_xre_max_failures-"L00000000009$pb")(r13) L1712: lwz r0,0(r13) mulli r0,r0,19 cmplw cr7,r5,r0 bgt- cr7,L1822 slwi r2,r5,3 lwz r0,0(r1) addi r2,r2,30 slwi r5,r5,2 rlwinm r2,r2,0,0,27 neg r2,r2 stwux r0,r1,r2 addi r29,r1,64 lwz r3,64(r30) mr r4,r29 bl L_bcopy$stub cmpwi cr7,r29,0 stw r29,64(r30) beq- cr7,L1822 lwz r0,68(r30) lwz r7,72(r30) slwi r0,r0,1 subf r2,r7,r0 mr r5,r0 cmplw cr7,r2,r20 stw r0,68(r30) blt+ cr7,L1712 L2008: cmplw cr7,r22,r21 mr r10,r22 bgt- cr7,L2075 lwz r29,64(r30) L1717: slwi r9,r10,2 slwi r2,r7,2 lwzx r0,r9,r25 addi r7,r7,1 addi r10,r10,1 slwi r11,r7,2 stwx r0,r2,r29 addi r7,r7,1 lwzx r0,r9,r24 cmplw cr7,r10,r21 lwz r2,64(r30) stwx r0,r11,r2 slwi r2,r7,2 stw r7,72(r30) addi r7,r7,1 lwzx r0,r9,r26 lwz r29,64(r30) stwx r0,r2,r29 stw r7,72(r30) ble+ cr7,L1717 L2010: slwi r2,r7,2 addi r7,r7,1 stwx r22,r2,r29 slwi r9,r7,2 lwz r2,64(r30) addi r7,r7,1 add r0,r27,r28 stwx r21,r9,r2 slwi r9,r7,2 lwz r2,64(r30) addi r7,r7,1 stwx r0,r9,r2 slwi r9,r7,2 lwz r2,64(r30) li r0,0 addi r7,r7,1 stwx r0,r9,r2 L2129: stw r7,72(r30) b L2125 L1699: lwz r11,84(r30) cmpw cr7,r23,r11 beq- cr7,L2125 L2175: lwz r7,72(r30) b L2172 L1687: lwz r10,84(r30) cmpw cr7,r23,r10 beq- cr7,L2173 lwz r7,140(r30) cmpw cr7,r23,r7 beq- cr7,L2174 lbz r0,0(r23) L2143: cmpwi cr7,r0,10 bne+ cr7,L2099 lwz r8,248(r30) lwz r0,28(r8) andis. r9,r0,256 bne- cr0,L2125 lwz r7,72(r30) b L2172 L1679: cmpwi cr7,r15,0 beq- cr7,L1682 cmpw cr7,r23,r16 L2133: beq- cr7,L1681 lwz r0,264(r30) cmpwi cr7,r0,0 bne- cr7,L1680 L1681: lwz r2,248(r30) lwz r0,28(r2) andis. r7,r0,1024 beq- cr0,L2125 L2153: lwz r7,72(r30) b L2172 L1694: cmpwi cr7,r15,0 beq- cr7,L1697 cmpw cr7,r23,r16 L2134: beq- cr7,L2125 lwz r10,264(r30) cmpwi cr7,r10,0 beq- cr7,L2125 b L2175 L1644: lbz r0,0(r27) addis r2,r31,ha16(_byte_reg_unset_dummy-"L00000000009$pb") la r2,lo16(_byte_reg_unset_dummy-"L00000000009$pb")(r2) addi r27,r27,1 slwi r13,r0,2 lwzx r4,r13,r25 cmpw cr7,r4,r2 beq- cr7,L2099 lwzx r0,r13,r24 cmpw cr7,r0,r2 beq- cr7,L2099 cmpwi cr6,r15,0 mr r20,r4 li r9,0 beq- cr6,L1650 cmplw cr7,r16,r4 bgt- cr7,L1650 lwz r2,140(r30) cmplw cr7,r4,r2 bgt- cr7,L1650 L1649: li r2,0 beq- cr6,L1651 lwzx r0,r13,r24 cmplw cr7,r16,r0 bgt- cr7,L1651 lwz r7,140(r30) cmplw cr7,r0,r7 bgt- cr7,L1651 li r2,1 L1651: cmpw cr7,r9,r2 lwz r29,88(r30) beq- cr7,L2213 lwzx r29,r13,r24 b L2213 L2126: L2213: cmpw cr7,r20,r29 beq- cr7,L1658 L2115: cmpw cr7,r23,r14 beq- cr7,L1663 L2002: subf r28,r23,r14 subf r0,r20,r29 cmpw cr7,r28,r0 ble- cr7,L1664 mr r28,r0 L1664: lwz r10,100(r30) cmpwi cr7,r10,0 beq- cr7,L1666 cmpwi cr7,r28,0 mtctr r28 mr r8,r23 mr r10,r20 beq- cr7,L1665 L1672: lbz r9,0(r8) addi r8,r8,1 lbz r11,0(r10) addi r10,r10,1 lwz r0,100(r30) lbzx r2,r9,r0 lbzx r0,r11,r0 extsb r2,r2 extsb r0,r0 cmpw cr7,r2,r0 bne- cr7,L2099 bdnz L1672 L1665: cmpwi cr7,r17,0 add r20,r20,r28 add r23,r23,r28 bne- cr7,L2126 cmplw cr7,r22,r21 li r17,1 mr r9,r22 bgt- cr7,L2126 addi r0,r21,1 subf r0,r22,r0 mtctr r0 L2107: slwi r2,r9,2 addi r9,r9,1 lwzx r0,r2,r26 oris r0,r0,0x1800 stwx r0,r2,r26 bdnz L2107 b L2126 L1596: lbz r0,0(r27) lwz r10,112(r30) slwi r0,r0,2 lwzx r2,r26,r0 add r9,r0,r10 srwi. r11,r2,30 beq- cr0,L1597 lwzx r0,r24,r0 addis r2,r31,ha16(_byte_reg_unset_dummy-"L00000000009$pb") la r2,lo16(_byte_reg_unset_dummy-"L00000000009$pb")(r2) cmpw cr7,r0,r2 beq- cr7,L2176 L1598: stw r0,0(r9) cmpw cr7,r22,r21 lbz r0,0(r27) li r17,0 slwi r0,r0,2 stwx r23,r24,r0 lbz r2,0(r27) slwi r2,r2,2 lwzx r0,r2,r26 rlwinm r0,r0,0,3,1 stwx r0,r2,r26 beq- cr7,L2177 lbz r11,0(r27) addi r0,r11,-1 rlwinm r9,r0,0,0xff cmpwi cr7,r9,0 beq- cr7,L1604 slwi r0,r9,2 lwzx r2,r26,r0 andis. r0,r2,8192 L2131: bne- cr0,L1604 addi r0,r9,-1 rlwinm r9,r0,0,0xff cmpwi cr7,r9,0 beq- cr7,L1604 slwi r0,r9,2 lwzx r2,r26,r0 andis. r7,r2,8192 b L2131 L1863: cmpwi cr7,r15,0 beq- cr7,L1866 cmpw cr7,r23,r16 L2145: beq- cr7,L2099 lwz r2,264(r30) lwz r8,84(r30) subfic r7,r2,0 adde r0,r7,r2 xor r2,r23,r8 subfic r8,r2,0 adde r2,r8,r2 or. r9,r0,r2 bne- cr0,L2099 lwz r10,140(r30) addi r2,r23,-1 addis r11,r31,ha16(_re_syntax_table-"L00000000009$pb") cmpw cr7,r2,r10 la r9,lo16(_re_syntax_table-"L00000000009$pb")(r11) beq- cr7,L2178 addi r0,r18,-1 cmpw cr7,r2,r0 beq- cr7,L2179 lbz r0,-1(r23) L1869: lwz r7,140(r30) lbzx r0,r9,r0 la r9,lo16(_re_syntax_table-"L00000000009$pb")(r11) cmpw cr7,r23,r7 xori r2,r0,1 subfic r8,r2,0 adde r2,r8,r2 beq- cr7,L2180 addi r0,r18,-1 cmpw cr7,r23,r0 beq- cr7,L2181 lbz r0,0(r23) L1873: lbzx r0,r9,r0 xori r0,r0,1 subfic r11,r0,0 adde r0,r11,r0 cmpw cr7,r2,r0 beq- cr7,L2125 b L2175 L1849: cmpwi cr7,r15,0 beq- cr7,L1852 cmpw cr7,r23,r16 L2138: beq- cr7,L2125 lwz r2,264(r30) lwz r8,84(r30) subfic r7,r2,0 adde r0,r7,r2 xor r2,r23,r8 subfic r8,r2,0 adde r2,r8,r2 or. r9,r0,r2 bne- cr0,L2125 lwz r10,140(r30) addi r2,r23,-1 addis r11,r31,ha16(_re_syntax_table-"L00000000009$pb") cmpw cr7,r2,r10 la r9,lo16(_re_syntax_table-"L00000000009$pb")(r11) beq- cr7,L2182 addi r0,r18,-1 cmpw cr7,r2,r0 beq- cr7,L2183 lbz r0,-1(r23) L1855: lwz r7,140(r30) lbzx r0,r9,r0 la r9,lo16(_re_syntax_table-"L00000000009$pb")(r11) cmpw cr7,r23,r7 xori r2,r0,1 subfic r8,r2,0 adde r2,r8,r2 beq- cr7,L2184 addi r0,r18,-1 cmpw cr7,r23,r0 beq- cr7,L2185 lbz r0,0(r23) L1859: lbzx r0,r9,r0 xori r0,r0,1 subfic r11,r0,0 adde r0,r11,r0 cmpw cr7,r2,r0 bne+ cr7,L2125 L2195: lwz r7,72(r30) b L2172 L1530: lwz r10,100(r30) lbz r28,0(r27) addi r27,r27,1 cmpwi cr7,r10,0 beq- cr7,L1541 L1532: cmpw cr7,r23,r14 beq- cr7,L1538 L1983: lbz r2,0(r23) addi r23,r23,1 lwz r7,100(r30) lbz r0,0(r27) addi r27,r27,1 lbzx r9,r7,r2 cmpw cr7,r9,r0 bne- cr7,L2099 addic. r28,r28,-1 bne+ cr0,L1532 b L1540 L2186: cmpw cr7,r18,r11 mr r23,r18 mr r14,r11 bne- cr7,L1983 L1538: lwz r11,92(r30) cmpw cr7,r14,r11 bne+ cr7,L2186 lwz r7,72(r30) b L2172 L1541: cmpw cr7,r23,r14 bne- cr7,L1985 L2187: lwz r0,92(r30) cmpw cr7,r14,r0 beq- cr7,L2099 mr r23,r18 mr r14,r0 cmpw cr7,r23,r14 beq- cr7,L2187 L1985: lbz r0,0(r27) addi r27,r27,1 lbz r2,0(r23) addi r23,r23,1 extsb r0,r0 extsb r2,r2 cmpw cr7,r2,r0 bne- cr7,L2099 addic. r28,r28,-1 bne+ cr0,L1541 L1540: cmpwi cr7,r17,0 bne- cr7,L2125 cmplw cr7,r22,r21 li r17,1 mr r9,r22 bgt- cr7,L2125 addi r0,r21,1 subf r0,r22,r0 mtctr r0 L2110: slwi r2,r9,2 addi r9,r9,1 lwzx r0,r2,r26 oris r0,r0,0x1800 stwx r0,r2,r26 bdnz L2110 b L2125 L1843: lbz r0,1(r27) lbz r28,0(r27) addi r27,r27,2 extsb r0,r0 slwi r0,r0,8 add r28,r28,r0 add r29,r27,r28 stw r29,80(r30) lbz r0,1(r27) lbz r28,0(r27) addi r27,r27,2 extsb r0,r0 slwi r0,r0,8 add r28,r28,r0 stb r28,0(r29) srawi r0,r28,8 lwz r2,80(r30) stb r0,1(r2) b L2125 L1589: stw r27,80(r30) lbz r11,0(r27) slwi r28,r11,2 lwzx r0,r28,r26 rlwinm r0,r0,2,30,31 cmpwi cr7,r0,3 beq- cr7,L2188 L1590: slwi r2,r11,2 lwz r7,108(r30) lwzx r0,r2,r26 add r9,r2,r7 srwi. r8,r0,30 beq- cr0,L1591 lwzx r0,r2,r25 addis r2,r31,ha16(_byte_reg_unset_dummy-"L00000000009$pb") la r2,lo16(_byte_reg_unset_dummy-"L00000000009$pb")(r2) cmpw cr7,r0,r2 beq- cr7,L2189 L1592: stw r0,0(r9) cmpwi cr7,r22,257 lbz r0,0(r27) li r17,0 slwi r0,r0,2 stwx r23,r25,r0 lbz r9,0(r27) slwi r9,r9,2 lwzx r0,r9,r26 oris r0,r0,0x2000 stwx r0,r9,r26 lbz r2,0(r27) slwi r2,r2,2 lwzx r0,r2,r26 rlwinm r0,r0,0,4,2 stwx r0,r2,r26 lbz r21,0(r27) beq- cr7,L2190 addi r27,r27,2 stw r27,96(r30) b L2125 L1574: lbz r0,-1(r27) cmpw cr7,r23,r14 xori r10,r0,5 subfic r2,r10,0 adde r10,r2,r10 L2130: bne- cr7,L1992 lwz r7,92(r30) cmpw cr7,r14,r7 beq- cr7,L2099 cmpw cr7,r18,r7 mr r23,r18 mr r14,r7 b L2130 L1890: cmpwi cr7,r15,0 beq- cr7,L1892 cmpw cr7,r23,r16 L2146: beq- cr7,L2099 lwz r11,264(r30) cmpwi cr7,r11,0 beq- cr7,L2099 lwz r7,140(r30) addi r2,r23,-1 addis r11,r31,ha16(_re_syntax_table-"L00000000009$pb") cmpw cr7,r2,r7 la r9,lo16(_re_syntax_table-"L00000000009$pb")(r11) beq- cr7,L2191 addi r0,r18,-1 cmpw cr7,r2,r0 beq- cr7,L2192 lbz r0,-1(r23) L1895: lbzx r0,r9,r0 cmpwi cr7,r0,1 bne+ cr7,L2099 lwz r9,84(r30) cmpw cr7,r23,r9 beq- cr7,L2125 lwz r10,140(r30) la r2,lo16(_re_syntax_table-"L00000000009$pb")(r11) cmpw cr7,r23,r10 beq- cr7,L2193 addi r0,r18,-1 cmpw cr7,r23,r0 beq- cr7,L2194 lbz r0,0(r23) lbzx r0,r2,r0 L2147: cmpwi cr7,r0,1 L2200: bne+ cr7,L2125 b L2195 L1831: lbz r0,3(r27) lbz r28,2(r27) extsb r0,r0 slwi r0,r0,8 add. r28,r28,r0 ble- cr0,L1833 addi r28,r28,-1 stbu r28,2(r27) srawi r0,r28,8 stb r0,1(r27) addi r27,r27,2 b L2125 L1816: subf r2,r22,r21 lwz r5,68(r30) mulli r2,r2,3 lwz r7,72(r30) addi r2,r2,7 subf r0,r7,r5 cmplw cr7,r0,r2 bge- cr7,L2025 addis r20,r31,ha16(_xre_max_failures-"L00000000009$pb") mr r28,r2 la r20,lo16(_xre_max_failures-"L00000000009$pb")(r20) L1825: lwz r0,0(r20) mulli r0,r0,19 cmplw cr7,r5,r0 bgt- cr7,L1822 slwi r2,r5,3 lwz r0,0(r1) addi r2,r2,30 slwi r5,r5,2 rlwinm r2,r2,0,0,27 neg r2,r2 stwux r0,r1,r2 addi r29,r1,64 lwz r3,64(r30) mr r4,r29 bl L_bcopy$stub cmpwi cr7,r29,0 stw r29,64(r30) beq- cr7,L1822 lwz r0,68(r30) lwz r7,72(r30) slwi r0,r0,1 subf r2,r7,r0 mr r5,r0 cmplw cr7,r2,r28 stw r0,68(r30) blt+ cr7,L1825 L2025: cmplw cr7,r22,r21 mr r10,r22 bgt- cr7,L2082 lwz r29,64(r30) L1830: slwi r9,r10,2 slwi r2,r7,2 lwzx r0,r9,r25 addi r7,r7,1 addi r10,r10,1 slwi r11,r7,2 stwx r0,r2,r29 addi r7,r7,1 lwzx r0,r9,r24 cmplw cr7,r10,r21 lwz r2,64(r30) stwx r0,r11,r2 slwi r2,r7,2 stw r7,72(r30) addi r7,r7,1 lwzx r0,r9,r26 lwz r29,64(r30) stwx r0,r2,r29 stw r7,72(r30) ble+ cr7,L1830 L2027: slwi r2,r7,2 addi r7,r7,1 stwx r22,r2,r29 slwi r9,r7,2 lwz r2,64(r30) addi r7,r7,1 li r0,0 stwx r21,r9,r2 slwi r9,r7,2 lwz r2,64(r30) addi r7,r7,1 stwx r0,r9,r2 slwi r9,r7,2 lwz r2,64(r30) addi r7,r7,1 stwx r0,r9,r2 b L2129 L1877: lwz r0,84(r30) cmpw cr7,r23,r0 beq- cr7,L2099 lwz r2,140(r30) addis r11,r31,ha16(_re_syntax_table-"L00000000009$pb") cmpw cr7,r23,r2 la r2,lo16(_re_syntax_table-"L00000000009$pb")(r11) beq- cr7,L2196 addi r0,r18,-1 cmpw cr7,r23,r0 beq- cr7,L2197 lbz r0,0(r23) L1880: lbzx r0,r2,r0 cmpwi cr7,r0,1 bne+ cr7,L2099 cmpwi cr7,r15,0 beq- cr7,L1884 cmpw cr7,r23,r16 L2139: beq- cr7,L2125 lwz r8,264(r30) cmpwi cr7,r8,0 beq- cr7,L2125 lwz r9,140(r30) addi r2,r23,-1 cmpw cr7,r2,r9 la r9,lo16(_re_syntax_table-"L00000000009$pb")(r11) beq- cr7,L2198 addi r0,r18,-1 cmpw cr7,r2,r0 beq- cr7,L2199 lbz r0,-1(r23) lbzx r0,r9,r0 L2211: cmpwi cr7,r0,1 b L2200 L1838: lbz r0,3(r27) lbz r28,2(r27) extsb r0,r0 slwi r0,r0,8 add. r28,r28,r0 bne- cr0,L2201 addi r27,r27,4 b L2125 L1801: subf r2,r22,r21 lwz r5,68(r30) mulli r2,r2,3 lwz r7,72(r30) addi r2,r2,7 subf r0,r7,r5 cmplw cr7,r0,r2 bge- cr7,L2021 addis r20,r31,ha16(_xre_max_failures-"L00000000009$pb") mr r28,r2 la r20,lo16(_xre_max_failures-"L00000000009$pb")(r20) L1810: lwz r0,0(r20) mulli r0,r0,19 cmplw cr7,r5,r0 bgt- cr7,L1822 slwi r2,r5,3 lwz r0,0(r1) addi r2,r2,30 slwi r5,r5,2 rlwinm r2,r2,0,0,27 neg r2,r2 stwux r0,r1,r2 addi r29,r1,64 lwz r3,64(r30) mr r4,r29 bl L_bcopy$stub cmpwi cr7,r29,0 stw r29,64(r30) beq- cr7,L1822 lwz r0,68(r30) lwz r7,72(r30) slwi r0,r0,1 subf r2,r7,r0 mr r5,r0 cmplw cr7,r2,r28 stw r0,68(r30) blt+ cr7,L1810 L2021: cmplw cr7,r22,r21 mr r10,r22 bgt- cr7,L2080 lwz r29,64(r30) L1815: slwi r9,r10,2 slwi r2,r7,2 lwzx r0,r9,r25 addi r7,r7,1 addi r10,r10,1 slwi r11,r7,2 stwx r0,r2,r29 addi r7,r7,1 lwzx r0,r9,r24 cmplw cr7,r10,r21 lwz r2,64(r30) stwx r0,r11,r2 slwi r2,r7,2 stw r7,72(r30) addi r7,r7,1 lwzx r0,r9,r26 lwz r29,64(r30) stwx r0,r2,r29 stw r7,72(r30) ble+ cr7,L1815 L2023: slwi r2,r7,2 addi r7,r7,1 stwx r22,r2,r29 slwi r9,r7,2 lwz r2,64(r30) addi r7,r7,1 li r0,0 stwx r21,r9,r2 slwi r9,r7,2 lwz r2,64(r30) addi r7,r7,1 stwx r0,r9,r2 slwi r9,r7,2 lwz r2,64(r30) addi r7,r7,1 stwx r0,r9,r2 stw r7,72(r30) b L1797 L1741: lbz r0,1(r27) lbz r28,0(r27) addi r27,r27,2 extsb r0,r0 mr r10,r27 slwi r0,r0,8 add r28,r28,r0 L2127: addi r0,r10,2 cmplw cr7,r0,r19 bge- cr7,L1746 L2202: lbz r2,0(r10) addi r2,r2,-6 cmplwi cr7,r2,1 bgt- cr7,L1746 addi r10,r10,3 addi r0,r10,2 cmplw cr7,r0,r19 blt- cr7,L2202 L1746: addi r2,r10,6 cmplw cr7,r2,r19 bge- cr7,L1745 lbz r0,0(r10) cmpwi cr7,r0,19 bne- cr7,L1745 mr r10,r2 b L2127 L2190: addi r27,r27,2 mr r22,r21 stw r27,96(r30) b L2125 L2203: cmpw cr7,r18,r9 mr r23,r18 mr r14,r9 bne- cr7,L2002 L1663: lwz r9,92(r30) cmpw cr7,r14,r9 bne+ cr7,L2203 lwz r7,72(r30) b L2172 L1658: lwz r8,92(r30) cmpw cr7,r29,r8 beq- cr7,L2063 lwzx r0,r13,r24 cmpw cr7,r29,r0 beq- cr7,L2063 cmpw cr7,r18,r0 mr r29,r0 mr r20,r18 beq+ cr7,L1658 bne+ cr7,L2115 b L2125 L1650: li r9,1 b L1649 L1504: lwz r11,272(r30) lwz r9,4(r11) lwz r3,8(r11) stwx r8,r2,r3 stwx r8,r2,r9 b L1501 L2041: lwz r8,88(r30) cmpw cr6,r14,r8 L1465: lwz r9,268(r30) subf r2,r9,r23 beq- cr6,L1515 subf r0,r15,r18 subf r28,r0,r2 mr r3,r28 L2204: lwz r1,0(r1) lwz r0,8(r1) lmw r13,-76(r1) mtlr r0 blr L1515: subf r28,r16,r2 mr r3,r28 b L2204 L2162: lwz r28,104(r30) cmplw cr7,r28,r2 bge- cr7,L1465 lwz r2,272(r30) li r11,-1 lwz r9,4(r2) lwz r3,8(r2) L1514: slwi r2,r28,2 lwz r7,272(r30) stwx r11,r2,r3 addi r28,r28,1 stwx r11,r2,r9 lwz r0,0(r7) cmplw cr7,r28,r0 blt+ cr7,L1514 b L1465 L1723: cmplw cr7,r29,r19 bge- cr7,L1725 lbz r0,0(r29) cmpwi cr7,r0,6 beq- cr7,L2205 L1725: subf r2,r22,r21 lwz r5,68(r30) mulli r2,r2,3 lwz r7,72(r30) addi r2,r2,7 subf r0,r7,r5 cmplw cr7,r0,r2 bge- cr7,L2013 addis r13,r31,ha16(_xre_max_failures-"L00000000009$pb") mr r20,r2 la r13,lo16(_xre_max_failures-"L00000000009$pb")(r13) L1735: lwz r0,0(r13) mulli r0,r0,19 cmplw cr7,r5,r0 bgt- cr7,L1822 slwi r2,r5,3 lwz r0,0(r1) addi r2,r2,30 slwi r5,r5,2 rlwinm r2,r2,0,0,27 neg r2,r2 stwux r0,r1,r2 addi r29,r1,64 lwz r3,64(r30) mr r4,r29 bl L_bcopy$stub cmpwi cr7,r29,0 stw r29,64(r30) beq- cr7,L1822 lwz r0,68(r30) lwz r7,72(r30) slwi r0,r0,1 subf r2,r7,r0 mr r5,r0 cmplw cr7,r2,r20 stw r0,68(r30) blt+ cr7,L1735 L2013: cmplw cr7,r22,r21 mr r10,r22 bgt- cr7,L2077 lwz r29,64(r30) L1740: slwi r9,r10,2 slwi r2,r7,2 lwzx r0,r9,r25 addi r7,r7,1 addi r10,r10,1 slwi r11,r7,2 stwx r0,r2,r29 addi r7,r7,1 lwzx r0,r9,r24 cmplw cr7,r10,r21 lwz r2,64(r30) stwx r0,r11,r2 slwi r2,r7,2 stw r7,72(r30) addi r7,r7,1 lwzx r0,r9,r26 lwz r29,64(r30) stwx r0,r2,r29 stw r7,72(r30) ble+ cr7,L1740 L2015: slwi r2,r7,2 addi r7,r7,1 stwx r22,r2,r29 slwi r9,r7,2 lwz r2,64(r30) addi r7,r7,1 add r0,r27,r28 stwx r21,r9,r2 slwi r9,r7,2 lwz r2,64(r30) addi r7,r7,1 stwx r0,r9,r2 slwi r9,r7,2 lwz r2,64(r30) addi r7,r7,1 stwx r23,r9,r2 stw r7,72(r30) b L2125 L1466: cmpwi cr7,r0,1 beq- cr7,L2206 lwz r7,272(r30) lwz r2,0(r7) b L1480 L1992: lwz r8,100(r30) cmpwi cr7,r8,0 beq- cr7,L1579 lbz r0,0(r23) lbzx r9,r8,r0 L1580: lbz r11,0(r27) slwi r0,r11,3 cmplw cr7,r9,r0 bge- cr7,L1581 srwi r2,r9,3 rlwinm r9,r9,0,29,31 add r2,r27,r2 lbz r0,1(r2) sraw r0,r0,r9 andi. r9,r0,1 beq- cr0,L1581 xori r10,r10,1 L1581: cmpwi cr7,r10,0 add r2,r27,r11 addi r27,r2,1 beq- cr7,L2099 cmpwi cr7,r17,0 bne- cr7,L1929 cmplw cr7,r22,r21 li r17,1 mr r9,r22 bgt- cr7,L1929 addi r0,r21,1 subf r0,r22,r0 mtctr r0 L2108: slwi r2,r9,2 addi r9,r9,1 lwzx r0,r2,r26 oris r0,r0,0x1800 stwx r0,r2,r26 bdnz L2108 addi r23,r23,1 b L2125 L1604: cmpwi cr7,r9,0 mr r21,r9 beq- cr7,L2132 L1602: slwi r0,r11,2 lwzx r2,r26,r0 andis. r8,r2,4096 beq- cr0,L1609 lwz r9,96(r30) addi r0,r27,-1 cmpw cr7,r9,r0 addi r9,r27,2 beq- cr7,L1609 L1608: mr r27,r9 b L2125 L2177: lbz r11,0(r27) L2132: li r22,257 li r21,256 b L1602 L1609: addi r9,r27,2 cmplw cr7,r9,r19 bge- cr7,L1608 stw r9,80(r30) li r2,0 lbz r0,2(r27) li r28,0 addi r29,r27,3 cmplwi cr7,r0,19 bgt- cr7,L1620 cmplwi cr7,r0,17 bge- cr7,L2101 cmpwi cr7,r0,13 beq- cr7,L2101 L1610: cmpwi cr7,r28,0 add r29,r29,r28 stw r29,80(r30) bge+ cr7,L1608 lbz r0,0(r29) cmpwi cr7,r0,15 bne+ cr7,L1608 lbz r0,3(r29) cmpwi cr7,r0,6 bne+ cr7,L1608 lbz r2,4(r29) lbz r0,0(r27) cmpw cr7,r2,r0 bne+ cr7,L1608 slwi r2,r2,2 lwzx r0,r2,r26 andis. r10,r0,2048 beq- cr0,L1622 rlwinm r0,r0,0,5,3 stwx r0,r2,r26 lbz r11,0(r27) lbz r0,1(r27) add r0,r11,r0 cmplw cr7,r11,r0 bge- cr7,L2057 mr r9,r29 L1627: lwz r7,108(r30) slwi r2,r11,2 lwz r8,112(r30) lwzx r0,r2,r7 stwx r0,r2,r25 lwzx r10,r2,r8 cmplw cr7,r10,r0 blt- cr7,L1625 stwx r10,r2,r24 L1625: lbz r0,0(r27) addi r11,r11,1 lbz r2,1(r27) add r0,r0,r2 cmplw cr7,r11,r0 blt+ cr7,L1627 mr r29,r9 b L1622 L1852: cmpw cr7,r23,r18 b L2138 L1682: cmpw cr7,r23,r18 b L2133 L1591: lwzx r0,r2,r25 b L1592 L1866: cmpw cr7,r23,r18 b L2145 L1697: cmpw cr7,r23,r18 b L2134 L1892: cmpw cr7,r23,r18 b L2146 L1597: lwzx r0,r24,r0 b L1598 L1666: mr r3,r23 mr r4,r20 mr r5,r28 bl L_bcmp$stub cmpwi cr7,r3,0 beq+ cr7,L1665 lwz r7,72(r30) b L2172 L1680: lbz r0,-1(r23) b L2143 L1935: bl L_abort$stub L2063: cmpw cr7,r20,r29 bne+ cr7,L2115 b L2125 L2201: addi r28,r28,-1 srawi r0,r28,8 stb r28,2(r27) stb r0,3(r27) b L1797 L2206: lwz r9,272(r30) lwz r10,104(r30) lwz r2,0(r9) addi r0,r10,1 cmplw cr7,r2,r0 bge+ cr7,L1480 lwz r3,4(r9) slwi r4,r0,2 stw r0,0(r9) bl L_realloc$stub lwz r2,272(r30) lwz r4,0(r2) stw r3,4(r2) lwz r3,8(r2) slwi r4,r4,2 bl L_realloc$stub lwz r2,272(r30) lwz r9,4(r2) stw r3,8(r2) cmpwi cr7,r9,0 beq- cr7,L1822 cmpwi cr7,r3,0 bne- cr7,L2044 li r3,-2 b L1401 L2079: lbz r9,2(r10) L1755: lwz r29,80(r30) lbz r0,3(r29) cmpwi cr7,r0,2 beq- cr7,L2207 L1756: lbz r2,3(r29) addi r0,r2,-4 cmplwi cr7,r0,1 bgt- cr7,L1751 lbz r0,4(r29) xori r11,r2,5 subfic r10,r11,0 adde r11,r10,r11 slwi r0,r0,3 cmplw cr7,r9,r0 bge- cr7,L1759 srwi r2,r9,3 rlwinm r9,r9,0,29,31 add r2,r29,r2 lbz r0,5(r2) sraw r0,r0,r9 andi. r2,r0,1 beq- cr0,L1759 xori r11,r11,1 L1759: cmpwi cr7,r11,0 bne+ cr7,L1751 L1782: li r0,17 stb r0,-3(r27) b L1751 L2075: lwz r29,64(r30) b L2010 L2082: lwz r29,64(r30) b L2027 L2080: lwz r29,64(r30) b L2023 L2077: lwz r29,64(r30) b L2015 L2176: mr r0,r23 b L1598 L1579: lbz r9,0(r23) b L1580 L2168: lwz r7,140(r30) lbz r0,-1(r7) b L1910 L2167: lbz r0,0(r18) b L1910 L2165: lwz r10,140(r30) lbz r0,-1(r10) b L1926 L2164: lbz r0,0(r18) b L1926 L2184: lbz r0,0(r18) b L1859 L2182: lbz r0,0(r18) b L1855 L2161: subf r0,r16,r23 b L1498 L1563: lbz r0,0(r23) cmpwi cr7,r0,10 b L2141 L2170: li r9,10 b L1755 L1565: lbz r0,0(r23) cmpwi cr7,r0,0 b L2142 L2205: cmpwi cr7,r22,257 lbz r0,2(r29) lbz r2,1(r29) add r21,r2,r0 bne+ cr7,L1725 mr r22,r2 b L1725 L2207: lbz r0,5(r29) cmpw cr7,r0,r9 beq- cr7,L1756 li r0,17 stb r0,-3(r27) b L1751 L2174: lbz r0,0(r18) b L2143 L2173: lwz r11,248(r30) lwz r0,28(r11) andis. r2,r0,512 bne- cr0,L2153 b L2125 L2189: mr r0,r23 b L1592 L1884: cmpw cr7,r23,r18 b L2139 L2197: lwz r7,140(r30) lbz r0,-1(r7) b L1880 L2196: lbz r0,0(r18) b L1880 L2188: addi r3,r30,80 mr r4,r19 mr r5,r26 bl _byte_group_match_null_string_p lwzx r0,r28,r26 rlwimi r0,r3,30,0,1 stwx r0,r28,r26 lbz r11,0(r27) b L1590 L2171: lwz r29,80(r30) lbz r0,3(r29) cmpwi cr7,r0,2 beq- cr7,L2208 L1763: lbz r0,3(r29) cmpwi cr7,r0,5 beq- cr7,L2209 cmpwi cr7,r0,4 bne+ cr7,L1751 lbz r7,1(r10) li r8,0 cmpw cr7,r8,r7 bge- cr7,L1777 lbz r0,4(r29) cmpw cr7,r8,r0 bge- cr7,L1777 mr r6,r7 mr r5,r0 L1780: add r9,r29,r8 add r2,r10,r8 lbz r11,2(r2) lbz r0,5(r9) and. r9,r11,r0 bne- cr0,L1777 addi r8,r8,1 cmpw cr7,r8,r6 bge- cr7,L1777 cmpw cr7,r8,r5 blt+ cr7,L1780 L1777: cmpw cr7,r8,r7 beq- cr7,L1782 lbz r0,4(r29) cmpw cr7,r8,r0 bne+ cr7,L1751 b L1782 L2180: lbz r0,0(r18) b L1873 L2178: lbz r0,0(r18) b L1869 L1620: cmpwi cr7,r0,22 bne+ cr7,L1610 li r2,1 L2101: stw r29,80(r30) cmpwi cr7,r2,0 lbz r0,1(r29) lbz r28,0(r29) addi r29,r29,2 extsb r0,r0 slwi r0,r0,8 add r28,r28,r0 beq- cr7,L1610 addi r29,r29,2 b L1610 L2191: lbz r0,0(r18) b L1895 L2179: lwz r2,140(r30) lbz r0,-1(r2) b L1869 L2192: lwz r8,140(r30) lbz r0,-1(r8) b L1895 L2194: lwz r11,140(r30) lbz r0,-1(r11) lbzx r0,r2,r0 b L2147 L2193: lbz r0,0(r18) lbzx r0,r2,r0 b L2147 L2183: lwz r2,140(r30) lbz r0,-1(r2) b L1855 L1448: lwz r9,116(r30) andc. r9,r9,r2 beq- cr0,L1464 b L1457 L2057: lwz r29,80(r30) L1622: subf r2,r22,r21 lwz r5,68(r30) mulli r9,r2,3 lwz r7,72(r30) addi r29,r29,1 stw r29,80(r30) addi r9,r9,7 subf r2,r7,r5 lbz r0,1(r29) cmplw cr7,r2,r9 lbz r28,0(r29) extsb r0,r0 addi r29,r29,2 slwi r0,r0,8 stw r29,80(r30) add r28,r28,r0 bge- cr7,L1997 addis r27,r31,ha16(_xre_max_failures-"L00000000009$pb") mr r20,r9 la r27,lo16(_xre_max_failures-"L00000000009$pb")(r27) L1638: lwz r0,0(r27) mulli r0,r0,19 cmplw cr7,r5,r0 bgt- cr7,L1822 slwi r2,r5,3 lwz r0,0(r1) addi r2,r2,30 slwi r5,r5,2 rlwinm r2,r2,0,0,27 neg r2,r2 stwux r0,r1,r2 addi r29,r1,64 lwz r3,64(r30) mr r4,r29 bl L_bcopy$stub cmpwi cr7,r29,0 stw r29,64(r30) beq- cr7,L1822 lwz r0,68(r30) lwz r7,72(r30) slwi r0,r0,1 subf r2,r7,r0 mr r5,r0 cmplw cr7,r2,r20 stw r0,68(r30) blt+ cr7,L1638 L1997: cmplw cr7,r22,r21 mr r10,r22 bgt- cr7,L2058 lwz r29,64(r30) L1643: slwi r9,r10,2 slwi r2,r7,2 lwzx r0,r9,r25 addi r7,r7,1 addi r10,r10,1 slwi r11,r7,2 stwx r0,r2,r29 addi r7,r7,1 lwzx r0,r9,r24 cmplw cr7,r10,r21 lwz r2,64(r30) stwx r0,r11,r2 slwi r2,r7,2 stw r7,72(r30) addi r7,r7,1 lwzx r0,r9,r26 lwz r29,64(r30) stwx r0,r2,r29 stw r7,72(r30) ble+ cr7,L1643 b L1999 L2181: lwz r10,140(r30) lbz r0,-1(r10) b L1873 L2209: lbz r7,1(r10) li r9,0 cmpw cr7,r9,r7 mr r8,r7 blt+ cr7,L1772 b L1768 L2210: add r2,r29,r9 lbz r0,5(r2) andc. r2,r11,r0 bne- cr0,L1768 L1769: addi r9,r9,1 cmpw cr7,r9,r8 bge- cr7,L1768 L1772: add r2,r10,r9 lbz r11,2(r2) cmpwi cr7,r11,0 beq- cr7,L1769 lbz r0,4(r29) cmpw cr7,r9,r0 blt+ cr7,L2210 L1768: cmpw cr7,r9,r7 bne+ cr7,L1751 b L1782 L2208: lbz r0,1(r10) lbz r9,5(r29) slwi r0,r0,3 cmpw cr7,r0,r9 ble- cr7,L1782 srwi r2,r9,3 rlwinm r9,r9,0,29,31 add r2,r10,r2 lbz r0,2(r2) sraw r0,r0,r9 andi. r7,r0,1 beq- cr0,L1782 b L1763 L2199: lwz r10,140(r30) lbz r0,-1(r10) lbzx r0,r9,r0 b L2211 L2198: lbz r0,0(r18) lbzx r0,r9,r0 b L2211 L2185: lwz r10,140(r30) lbz r0,-1(r10) b L1859 L2058: lwz r29,64(r30) L1999: slwi r2,r7,2 addi r7,r7,1 stwx r22,r2,r29 slwi r9,r7,2 lwz r2,64(r30) addi r7,r7,1 lwz r0,80(r30) stwx r21,r9,r2 slwi r9,r7,2 lwz r2,64(r30) add r0,r0,r28 addi r7,r7,1 stwx r0,r9,r2 slwi r9,r7,2 lwz r2,64(r30) addi r7,r7,1 stwx r23,r9,r2 stw r7,72(r30) b L2128 .align 2 .globl _xre_match_2 _xre_match_2: stw r31,-4(r1) lwz r31,-4(r1) b _byte_re_match_2_internal .align 2 .globl _xre_match _xre_match: stw r31,-4(r1) mr r9,r7 lwz r31,-4(r1) mr r7,r5 mr r8,r6 li r5,0 mr r6,r4 mr r10,r7 li r4,0 b _byte_re_match_2_internal .align 2 .globl _xre_search_2 _xre_search_2: stmw r17,-60(r1) add r27,r5,r7 mflr r0 mfcr r12 cmpw cr4,r8,r27 mr r30,r9 stw r12,4(r1) mr r25,r5 stw r0,8(r1) mr r20,r7 stwu r1,-128(r1) mr r29,r8 mr r28,r3 mr r21,r4 mr r23,r6 mr r19,r10 lwz r18,184(r1) add r9,r8,r9 lwz r26,16(r3) srwi r0,r8,31 lwz r22,20(r3) li r2,1 bgt- cr4,L2218 li r2,0 L2218: or. r11,r0,r2 li r3,-1 bne- cr0,L2219 cmpwi cr7,r9,0 blt- cr7,L2274 cmpw cr7,r9,r27 bgt- cr7,L2275 L2221: lwz r2,8(r28) subfic r9,r30,0 addme r9,r9 srwi r9,r9,31 addic r11,r2,-1 subfe r0,r11,r2 and. r2,r0,r9 beq- cr0,L2223 lwz r2,0(r28) lbz r0,0(r2) cmpwi cr7,r0,11 beq- cr7,L2224 cmpwi cr7,r0,9 beq- cr7,L2276 L2223: cmpwi cr3,r26,0 beq- cr3,L2227 lwz r0,28(r28) andis. r11,r0,4096 beq- cr0,L2277 L2227: cmpwi cr2,r22,0 addic r0,r26,-1 subfe r24,r0,r26 subfic r2,r25,0 adde r17,r2,r25 b L2280 L2269: L2280: li r0,1 blt- cr4,L2232 li r0,0 L2232: and. r9,r24,r0 beq- cr0,L2231 lwz r0,28(r28) cmpwi cr7,r0,0 blt- cr7,L2231 cmpwi cr6,r30,0 ble- cr6,L2233 cmpw cr7,r29,r25 subf r0,r25,r23 add r11,r0,r29 li r10,0 mr r8,r30 bge- cr7,L2236 add r0,r29,r30 cmpw cr7,r0,r25 blt- cr7,L2235 subf r0,r29,r25 subf r10,r0,r30 L2235: add r11,r21,r29 L2236: beq- cr2,L2272 cmpw cr7,r30,r10 ble- cr7,L2241 L2278: lbz r9,0(r11) addi r11,r11,1 lbzx r0,r22,r9 lbzx r2,r26,r0 cmpwi cr7,r2,0 bne- cr7,L2241 addi r30,r30,-1 cmpw cr7,r30,r10 bgt+ cr7,L2278 L2241: subf r0,r30,r8 add r29,r29,r0 cmpw cr4,r29,r27 L2231: mfcr r0 rlwinm r0,r0,19,1 nor r2,r30,r30 srwi r2,r2,31 and. r9,r2,r0 beq- cr0,L2253 beq- cr3,L2253 lwz r0,28(r28) cmpwi cr7,r0,0 bge- cr7,L2230 L2253: mr r3,r28 mr r4,r21 mr r5,r25 mr r6,r23 mr r7,r20 mr r8,r29 mr r9,r19 mr r10,r18 bl _byte_re_match_2_internal cmpwi cr0,r3,0 bge- cr0,L2264 cmpwi cr7,r3,-2 beq- cr7,L2265 cmpwi cr6,r30,0 L2252: beq- cr6,L2230 ble- cr6,L2258 addi r29,r29,1 addi r30,r30,-1 cmpw cr4,r29,r27 b L2269 L2230: li r3,-1 L2219: addi r1,r1,128 lwz r12,4(r1) lmw r17,-60(r1) lwz r0,8(r1) mtcrf 32,r12 mtlr r0 mtcrf 16,r12 mtcrf 8,r12 blr L2272: cmpw cr7,r30,r10 ble- cr7,L2241 L2271: lbz r0,0(r11) addi r11,r11,1 lbzx r2,r26,r0 cmpwi cr7,r2,0 bne- cr7,L2241 addi r30,r30,-1 cmpw cr7,r30,r10 bgt+ cr7,L2271 b L2241 L2275: subf r30,r29,r27 b L2221 L2274: neg r30,r29 b L2221 L2258: addi r29,r29,-1 addi r30,r30,1 cmpw cr4,r29,r27 b L2269 L2233: cmpw cr7,r29,r25 li r0,1 bge- cr7,L2248 li r0,0 L2248: or. r11,r17,r0 beq- cr0,L2246 subf r0,r25,r29 lbzx r2,r23,r0 extsb r0,r2 beq- cr2,L2250 L2279: rlwinm r0,r0,0,0xff lbzx r2,r22,r0 add r2,r26,r2 L2251: lbz r0,0(r2) cmpwi cr7,r0,0 bne+ cr7,L2231 b L2252 L2246: lbzx r0,r21,r29 extsb r0,r0 bne- cr2,L2279 L2250: rlwinm r0,r0,0,0xff add r2,r26,r0 b L2251 L2277: mr r3,r28 bl _xre_compile_fastmap cmpwi cr7,r3,-2 li r3,-2 bne+ cr7,L2227 b L2219 L2276: lwz r0,28(r28) andis. r9,r0,256 bne- cr0,L2223 L2224: cmpwi cr7,r8,0 li r30,1 li r3,-1 ble- cr7,L2223 b L2219 L2264: addi r1,r1,128 mr r3,r29 lwz r12,4(r1) lmw r17,-60(r1) lwz r0,8(r1) mtcrf 32,r12 mtlr r0 mtcrf 16,r12 mtcrf 8,r12 blr L2265: addi r1,r1,128 li r3,-2 lwz r12,4(r1) lmw r17,-60(r1) lwz r0,8(r1) mtcrf 32,r12 mtlr r0 mtcrf 16,r12 mtcrf 8,r12 blr .align 2 .globl _xre_search _xre_search: mflr r0 mr r2,r5 stw r31,-4(r1) mr r9,r7 mr r10,r8 mr r7,r5 stw r0,8(r1) mr r0,r6 stwu r1,-96(r1) mr r6,r4 mr r8,r0 li r4,0 li r5,0 stw r2,56(r1) bl _xre_search_2 addi r1,r1,96 lwz r0,8(r1) lwz r31,-4(r1) mtlr r0 blr .align 2 .globl _xregexec _xregexec: mflr r0 stmw r24,-32(r1) mr r29,r3 mr r30,r5 mr r3,r4 mr r28,r7 stw r0,8(r1) mr r25,r6 stwu r1,-144(r1) mr r24,r4 bl L_strlen$stub lwz r2,28(r29) rlwinm r11,r28,0,31,31 lwz r5,24(r29) andis. r0,r2,2048 rlwimi r2,r11,26,5,5 addic r11,r30,-1 subfe r0,r11,r30 lwz r10,8(r29) mfcr r9 rlwinm r9,r9,3,1 lwz r11,4(r29) lwz r8,12(r29) rlwimi r2,r28,24,6,6 and. r27,r9,r0 lwz r7,16(r29) lwz r9,0(r29) li r0,2 lwz r6,20(r29) rlwimi r2,r0,29,1,2 mr r26,r3 stw r9,80(r1) stw r11,84(r1) stw r10,88(r1) stw r8,92(r1) stw r7,96(r1) stw r6,100(r1) stw r5,104(r1) stw r2,108(r1) bne- cr0,L2298 L2283: cmpwi cr7,r27,0 addi r8,r1,64 beq- cr7,L2299 L2288: mr r5,r26 addi r3,r1,80 mr r4,r24 li r6,0 mr r7,r26 bl _xre_search cmpwi cr7,r27,0 mr r29,r3 beq- cr7,L2289 cmpwi cr7,r3,0 blt- cr7,L2297 li r10,0 cmplw cr7,r10,r30 bge- cr7,L2297 lwz r3,68(r1) lwz r8,72(r1) L2294: slwi r11,r10,2 slwi r2,r10,3 lwzx r0,r11,r3 addi r10,r10,1 cmplw cr7,r10,r30 stwx r0,r2,r25 add r2,r2,r25 lwzx r9,r11,r8 stw r9,4(r2) blt+ cr7,L2294 bl L_free$stub L2289: srwi r0,r29,31 L2282: addi r1,r1,144 mr r3,r0 lwz r0,8(r1) lmw r24,-32(r1) mtlr r0 blr L2299: li r8,0 b L2288 L2298: slwi r3,r30,3 stw r30,64(r1) bl L_malloc$stub li r0,1 cmpwi cr7,r3,0 stw r3,68(r1) beq- cr7,L2282 slwi r0,r30,2 add r8,r3,r0 stw r8,72(r1) b L2283 L2297: lwz r3,68(r1) bl L_free$stub b L2289 .align 2 .globl _xre_exec _xre_exec: mflr r0 bcl 20,31,"L00000000010$pb" "L00000000010$pb": stmw r29,-12(r1) mr r29,r3 mflr r31 stw r0,8(r1) stwu r1,-80(r1) bl L_strlen$stub mr r4,r29 mr r5,r3 addis r3,r31,ha16(_re_comp_buf-"L00000000010$pb") la r3,lo16(_re_comp_buf-"L00000000010$pb")(r3) li r6,0 mr r7,r5 li r8,0 bl _xre_search addi r1,r1,80 lwz r0,8(r1) nor r3,r3,r3 srwi r3,r3,31 lmw r29,-12(r1) mtlr r0 blr .comm _xre_syntax_options,4 .lcomm _re_syntax_table,256,2 .lcomm _byte_reg_unset_dummy,1,0 .lcomm _re_comp_buf,32,2 .data .section __TEXT,__picsymbolstub1,symbol_stubs,pure_instructions,32 .align 2 L_bcmp$stub: .indirect_symbol _bcmp mflr r0 bcl 20,31,L0$_bcmp L0$_bcmp: mflr r11 addis r11,r11,ha16(L_bcmp$lazy_ptr-L0$_bcmp) mtlr r0 lwzu r12,lo16(L_bcmp$lazy_ptr-L0$_bcmp)(r11) mtctr r12 bctr .data .lazy_symbol_pointer L_bcmp$lazy_ptr: .indirect_symbol _bcmp .long dyld_stub_binding_helper .data .section __TEXT,__picsymbolstub1,symbol_stubs,pure_instructions,32 .align 2 L____tolower$stub: .indirect_symbol ____tolower mflr r0 bcl 20,31,L0$____tolower L0$____tolower: mflr r11 addis r11,r11,ha16(L____tolower$lazy_ptr-L0$____tolower) mtlr r0 lwzu r12,lo16(L____tolower$lazy_ptr-L0$____tolower)(r11) mtctr r12 bctr .data .lazy_symbol_pointer L____tolower$lazy_ptr: .indirect_symbol ____tolower .long dyld_stub_binding_helper .data .section __TEXT,__picsymbolstub1,symbol_stubs,pure_instructions,32 .align 2 L_strcmp$stub: .indirect_symbol _strcmp mflr r0 bcl 20,31,L0$_strcmp L0$_strcmp: mflr r11 addis r11,r11,ha16(L_strcmp$lazy_ptr-L0$_strcmp) mtlr r0 lwzu r12,lo16(L_strcmp$lazy_ptr-L0$_strcmp)(r11) mtctr r12 bctr .data .lazy_symbol_pointer L_strcmp$lazy_ptr: .indirect_symbol _strcmp .long dyld_stub_binding_helper .data .section __TEXT,__picsymbolstub1,symbol_stubs,pure_instructions,32 .align 2 L_realloc$stub: .indirect_symbol _realloc mflr r0 bcl 20,31,L0$_realloc L0$_realloc: mflr r11 addis r11,r11,ha16(L_realloc$lazy_ptr-L0$_realloc) mtlr r0 lwzu r12,lo16(L_realloc$lazy_ptr-L0$_realloc)(r11) mtctr r12 bctr .data .lazy_symbol_pointer L_realloc$lazy_ptr: .indirect_symbol _realloc .long dyld_stub_binding_helper .data .section __TEXT,__picsymbolstub1,symbol_stubs,pure_instructions,32 .align 2 L____runetype$stub: .indirect_symbol ____runetype mflr r0 bcl 20,31,L0$____runetype L0$____runetype: mflr r11 addis r11,r11,ha16(L____runetype$lazy_ptr-L0$____runetype) mtlr r0 lwzu r12,lo16(L____runetype$lazy_ptr-L0$____runetype)(r11) mtctr r12 bctr .data .lazy_symbol_pointer L____runetype$lazy_ptr: .indirect_symbol ____runetype .long dyld_stub_binding_helper .data .section __TEXT,__picsymbolstub1,symbol_stubs,pure_instructions,32 .align 2 L_malloc$stub: .indirect_symbol _malloc mflr r0 bcl 20,31,L0$_malloc L0$_malloc: mflr r11 addis r11,r11,ha16(L_malloc$lazy_ptr-L0$_malloc) mtlr r0 lwzu r12,lo16(L_malloc$lazy_ptr-L0$_malloc)(r11) mtctr r12 bctr .data .lazy_symbol_pointer L_malloc$lazy_ptr: .indirect_symbol _malloc .long dyld_stub_binding_helper .data .section __TEXT,__picsymbolstub1,symbol_stubs,pure_instructions,32 .align 2 L_free$stub: .indirect_symbol _free mflr r0 bcl 20,31,L0$_free L0$_free: mflr r11 addis r11,r11,ha16(L_free$lazy_ptr-L0$_free) mtlr r0 lwzu r12,lo16(L_free$lazy_ptr-L0$_free)(r11) mtctr r12 bctr .data .lazy_symbol_pointer L_free$lazy_ptr: .indirect_symbol _free .long dyld_stub_binding_helper .data .section __TEXT,__picsymbolstub1,symbol_stubs,pure_instructions,32 .align 2 L_strlen$stub: .indirect_symbol _strlen mflr r0 bcl 20,31,L0$_strlen L0$_strlen: mflr r11 addis r11,r11,ha16(L_strlen$lazy_ptr-L0$_strlen) mtlr r0 lwzu r12,lo16(L_strlen$lazy_ptr-L0$_strlen)(r11) mtctr r12 bctr .data .lazy_symbol_pointer L_strlen$lazy_ptr: .indirect_symbol _strlen .long dyld_stub_binding_helper .data .section __TEXT,__picsymbolstub1,symbol_stubs,pure_instructions,32 .align 2 L_abort$stub: .indirect_symbol _abort mflr r0 bcl 20,31,L0$_abort L0$_abort: mflr r11 addis r11,r11,ha16(L_abort$lazy_ptr-L0$_abort) mtlr r0 lwzu r12,lo16(L_abort$lazy_ptr-L0$_abort)(r11) mtctr r12 bctr .data .lazy_symbol_pointer L_abort$lazy_ptr: .indirect_symbol _abort .long dyld_stub_binding_helper .data .section __TEXT,__picsymbolstub1,symbol_stubs,pure_instructions,32 .align 2 L_bcopy$stub: .indirect_symbol _bcopy mflr r0 bcl 20,31,L0$_bcopy L0$_bcopy: mflr r11 addis r11,r11,ha16(L_bcopy$lazy_ptr-L0$_bcopy) mtlr r0 lwzu r12,lo16(L_bcopy$lazy_ptr-L0$_bcopy)(r11) mtctr r12 bctr .data .lazy_symbol_pointer L_bcopy$lazy_ptr: .indirect_symbol _bcopy .long dyld_stub_binding_helper .data .section __TEXT,__picsymbolstub1,symbol_stubs,pure_instructions,32 .align 2 L_memset$stub: .indirect_symbol _memset mflr r0 bcl 20,31,L0$_memset L0$_memset: mflr r11 addis r11,r11,ha16(L_memset$lazy_ptr-L0$_memset) mtlr r0 lwzu r12,lo16(L_memset$lazy_ptr-L0$_memset)(r11) mtctr r12 bctr .data .lazy_symbol_pointer L_memset$lazy_ptr: .indirect_symbol _memset .long dyld_stub_binding_helper .data .non_lazy_symbol_pointer L__DefaultRuneLocale$non_lazy_ptr: .indirect_symbol __DefaultRuneLocale .long 0 L__CurrentRuneLocale$non_lazy_ptr: .indirect_symbol __CurrentRuneLocale .long 0 L_xre_syntax_options$non_lazy_ptr: .indirect_symbol _xre_syntax_options .long 0 --Apple-Mail-7-916417738--