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# Line 4  PCRE - Perl-compatible regular expressio Line 4  PCRE - Perl-compatible regular expressio
4  .SH "PCRE REGULAR EXPRESSION DETAILS"  .SH "PCRE REGULAR EXPRESSION DETAILS"
5  .rs  .rs
6  .sp  .sp
7  The syntax and semantics of the regular expressions supported by PCRE are  The syntax and semantics of the regular expressions that are supported by PCRE
8  described below. Regular expressions are also described in the Perl  are described in detail below. There is a quick-reference syntax summary in the
9  documentation and in a number of books, some of which have copious examples.  .\" HREF
10  Jeffrey Friedl's "Mastering Regular Expressions", published by O'Reilly, covers  \fBpcresyntax\fP
11  regular expressions in great detail. This description of PCRE's regular  .\"
12  expressions is intended as reference material.  page. PCRE tries to match Perl syntax and semantics as closely as it can. PCRE
13    also supports some alternative regular expression syntax (which does not
14    conflict with the Perl syntax) in order to provide some compatibility with
15    regular expressions in Python, .NET, and Oniguruma.
16    .P
17    Perl's regular expressions are described in its own documentation, and
18    regular expressions in general are covered in a number of books, some of which
19    have copious examples. Jeffrey Friedl's "Mastering Regular Expressions",
20    published by O'Reilly, covers regular expressions in great detail. This
21    description of PCRE's regular expressions is intended as reference material.
22  .P  .P
23  The original operation of PCRE was on strings of one-byte characters. However,  The original operation of PCRE was on strings of one-byte characters. However,
24  there is now also support for UTF-8 character strings. To use this, you must  there is now also support for UTF-8 character strings. To use this, you must
# Line 40  discussed in the Line 49  discussed in the
49  page.  page.
50  .  .
51  .  .
52    .SH "NEWLINE CONVENTIONS"
53    .rs
54    .sp
55    PCRE supports five different conventions for indicating line breaks in
56    strings: a single CR (carriage return) character, a single LF (linefeed)
57    character, the two-character sequence CRLF, any of the three preceding, or any
58    Unicode newline sequence. The
59    .\" HREF
60    \fBpcreapi\fP
61    .\"
62    page has
63    .\" HTML <a href="pcreapi.html#newlines">
64    .\" </a>
65    further discussion
66    .\"
67    about newlines, and shows how to set the newline convention in the
68    \fIoptions\fP arguments for the compiling and matching functions.
69    .P
70    It is also possible to specify a newline convention by starting a pattern
71    string with one of the following five sequences:
72    .sp
73      (*CR)        carriage return
74      (*LF)        linefeed
75      (*CRLF)      carriage return, followed by linefeed
76      (*ANYCRLF)   any of the three above
77      (*ANY)       all Unicode newline sequences
78    .sp
79    These override the default and the options given to \fBpcre_compile()\fP. For
80    example, on a Unix system where LF is the default newline sequence, the pattern
81    .sp
82      (*CR)a.b
83    .sp
84    changes the convention to CR. That pattern matches "a\enb" because LF is no
85    longer a newline. Note that these special settings, which are not
86    Perl-compatible, are recognized only at the very start of a pattern, and that
87    they must be in upper case. If more than one of them is present, the last one
88    is used.
89    .P
90    The newline convention does not affect what the \eR escape sequence matches. By
91    default, this is any Unicode newline sequence, for Perl compatibility. However,
92    this can be changed; see the description of \eR in the section entitled
93    .\" HTML <a href="#newlineseq">
94    .\" </a>
95    "Newline sequences"
96    .\"
97    below. A change of \eR setting can be combined with a change of newline
98    convention.
99    .
100    .
101  .SH "CHARACTERS AND METACHARACTERS"  .SH "CHARACTERS AND METACHARACTERS"
102  .rs  .rs
103  .sp  .sp
# Line 149  represents: Line 207  represents:
207    \ecx       "control-x", where x is any character    \ecx       "control-x", where x is any character
208    \ee        escape (hex 1B)    \ee        escape (hex 1B)
209    \ef        formfeed (hex 0C)    \ef        formfeed (hex 0C)
210    \en        newline (hex 0A)    \en        linefeed (hex 0A)
211    \er        carriage return (hex 0D)    \er        carriage return (hex 0D)
212    \et        tab (hex 09)    \et        tab (hex 09)
213    \eddd      character with octal code ddd, or backreference    \eddd      character with octal code ddd, or backreference
# Line 164  Thus \ecz becomes hex 1A, but \ec{ becom Line 222  Thus \ecz becomes hex 1A, but \ec{ becom
222  After \ex, from zero to two hexadecimal digits are read (letters can be in  After \ex, from zero to two hexadecimal digits are read (letters can be in
223  upper or lower case). Any number of hexadecimal digits may appear between \ex{  upper or lower case). Any number of hexadecimal digits may appear between \ex{
224  and }, but the value of the character code must be less than 256 in non-UTF-8  and }, but the value of the character code must be less than 256 in non-UTF-8
225  mode, and less than 2**31 in UTF-8 mode (that is, the maximum hexadecimal value  mode, and less than 2**31 in UTF-8 mode. That is, the maximum value in
226  is 7FFFFFFF). If characters other than hexadecimal digits appear between \ex{  hexadecimal is 7FFFFFFF. Note that this is bigger than the largest Unicode code
227  and }, or if there is no terminating }, this form of escape is not recognized.  point, which is 10FFFF.
228  Instead, the initial \ex will be interpreted as a basic hexadecimal escape,  .P
229  with no following digits, giving a character whose value is zero.  If characters other than hexadecimal digits appear between \ex{ and }, or if
230    there is no terminating }, this form of escape is not recognized. Instead, the
231    initial \ex will be interpreted as a basic hexadecimal escape, with no
232    following digits, giving a character whose value is zero.
233  .P  .P
234  Characters whose value is less than 256 can be defined by either of the two  Characters whose value is less than 256 can be defined by either of the two
235  syntaxes for \ex. There is no difference in the way they are handled. For  syntaxes for \ex. There is no difference in the way they are handled. For
# Line 240  meanings Line 301  meanings
301  .SS "Absolute and relative back references"  .SS "Absolute and relative back references"
302  .rs  .rs
303  .sp  .sp
304  The sequence \eg followed by a positive or negative number, optionally enclosed  The sequence \eg followed by an unsigned or a negative number, optionally
305  in braces, is an absolute or relative back reference. A named back reference  enclosed in braces, is an absolute or relative back reference. A named back
306  can be coded as \eg{name}. Back references are discussed  reference can be coded as \eg{name}. Back references are discussed
307  .\" HTML <a href="#backreferences">  .\" HTML <a href="#backreferences">
308  .\" </a>  .\" </a>
309  later,  later,
# Line 254  parenthesized subpatterns. Line 315  parenthesized subpatterns.
315  .\"  .\"
316  .  .
317  .  .
318    .SS "Absolute and relative subroutine calls"
319    .rs
320    .sp
321    For compatibility with Oniguruma, the non-Perl syntax \eg followed by a name or
322    a number enclosed either in angle brackets or single quotes, is an alternative
323    syntax for referencing a subpattern as a "subroutine". Details are discussed
324    .\" HTML <a href="#onigurumasubroutines">
325    .\" </a>
326    later.
327    .\"
328    Note that \eg{...} (Perl syntax) and \eg<...> (Oniguruma syntax) are \fInot\fP
329    synonymous. The former is a back reference; the latter is a subroutine call.
330    .
331    .
332  .SS "Generic character types"  .SS "Generic character types"
333  .rs  .rs
334  .sp  .sp
# Line 289  In UTF-8 mode, characters with values gr Line 364  In UTF-8 mode, characters with values gr
364  \ew, and always match \eD, \eS, and \eW. This is true even when Unicode  \ew, and always match \eD, \eS, and \eW. This is true even when Unicode
365  character property support is available. These sequences retain their original  character property support is available. These sequences retain their original
366  meanings from before UTF-8 support was available, mainly for efficiency  meanings from before UTF-8 support was available, mainly for efficiency
367  reasons.  reasons. Note that this also affects \eb, because it is defined in terms of \ew
368    and \eW.
369  .P  .P
370  The sequences \eh, \eH, \ev, and \eV are Perl 5.10 features. In contrast to the  The sequences \eh, \eH, \ev, and \eV are Perl 5.10 features. In contrast to the
371  other sequences, these do match certain high-valued codepoints in UTF-8 mode.  other sequences, these do match certain high-valued codepoints in UTF-8 mode.
# Line 343  accented letters, and these are matched Line 419  accented letters, and these are matched
419  is discouraged.  is discouraged.
420  .  .
421  .  .
422    .\" HTML <a name="newlineseq"></a>
423  .SS "Newline sequences"  .SS "Newline sequences"
424  .rs  .rs
425  .sp  .sp
426  Outside a character class, the escape sequence \eR matches any Unicode newline  Outside a character class, by default, the escape sequence \eR matches any
427  sequence. This is a Perl 5.10 feature. In non-UTF-8 mode \eR is equivalent to  Unicode newline sequence. This is a Perl 5.10 feature. In non-UTF-8 mode \eR is
428  the following:  equivalent to the following:
429  .sp  .sp
430    (?>\er\en|\en|\ex0b|\ef|\er|\ex85)    (?>\er\en|\en|\ex0b|\ef|\er|\ex85)
431  .sp  .sp
# Line 368  are added: LS (line separator, U+2028) a Line 445  are added: LS (line separator, U+2028) a
445  Unicode character property support is not needed for these characters to be  Unicode character property support is not needed for these characters to be
446  recognized.  recognized.
447  .P  .P
448    It is possible to restrict \eR to match only CR, LF, or CRLF (instead of the
449    complete set of Unicode line endings) by setting the option PCRE_BSR_ANYCRLF
450    either at compile time or when the pattern is matched. (BSR is an abbrevation
451    for "backslash R".) This can be made the default when PCRE is built; if this is
452    the case, the other behaviour can be requested via the PCRE_BSR_UNICODE option.
453    It is also possible to specify these settings by starting a pattern string with
454    one of the following sequences:
455    .sp
456      (*BSR_ANYCRLF)   CR, LF, or CRLF only
457      (*BSR_UNICODE)   any Unicode newline sequence
458    .sp
459    These override the default and the options given to \fBpcre_compile()\fP, but
460    they can be overridden by options given to \fBpcre_exec()\fP. Note that these
461    special settings, which are not Perl-compatible, are recognized only at the
462    very start of a pattern, and that they must be in upper case. If more than one
463    of them is present, the last one is used. They can be combined with a change of
464    newline convention, for example, a pattern can start with:
465    .sp
466      (*ANY)(*BSR_ANYCRLF)
467    .sp
468  Inside a character class, \eR matches the letter "R".  Inside a character class, \eR matches the letter "R".
469  .  .
470  .  .
# Line 531  The special property L& is also supporte Line 628  The special property L& is also supporte
628  the Lu, Ll, or Lt property, in other words, a letter that is not classified as  the Lu, Ll, or Lt property, in other words, a letter that is not classified as
629  a modifier or "other".  a modifier or "other".
630  .P  .P
631    The Cs (Surrogate) property applies only to characters in the range U+D800 to
632    U+DFFF. Such characters are not valid in UTF-8 strings (see RFC 3629) and so
633    cannot be tested by PCRE, unless UTF-8 validity checking has been turned off
634    (see the discussion of PCRE_NO_UTF8_CHECK in the
635    .\" HREF
636    \fBpcreapi\fP
637    .\"
638    page).
639    .P
640  The long synonyms for these properties that Perl supports (such as \ep{Letter})  The long synonyms for these properties that Perl supports (such as \ep{Letter})
641  are not supported by PCRE, nor is it permitted to prefix any of these  are not supported by PCRE, nor is it permitted to prefix any of these
642  properties with "Is".  properties with "Is".
# Line 906  alternative in the subpattern. Line 1012  alternative in the subpattern.
1012  .rs  .rs
1013  .sp  .sp
1014  The settings of the PCRE_CASELESS, PCRE_MULTILINE, PCRE_DOTALL, and  The settings of the PCRE_CASELESS, PCRE_MULTILINE, PCRE_DOTALL, and
1015  PCRE_EXTENDED options can be changed from within the pattern by a sequence of  PCRE_EXTENDED options (which are Perl-compatible) can be changed from within
1016  Perl option letters enclosed between "(?" and ")". The option letters are  the pattern by a sequence of Perl option letters enclosed between "(?" and ")".
1017    The option letters are
1018  .sp  .sp
1019    i  for PCRE_CASELESS    i  for PCRE_CASELESS
1020    m  for PCRE_MULTILINE    m  for PCRE_MULTILINE
# Line 921  PCRE_MULTILINE while unsetting PCRE_DOTA Line 1028  PCRE_MULTILINE while unsetting PCRE_DOTA
1028  permitted. If a letter appears both before and after the hyphen, the option is  permitted. If a letter appears both before and after the hyphen, the option is
1029  unset.  unset.
1030  .P  .P
1031    The PCRE-specific options PCRE_DUPNAMES, PCRE_UNGREEDY, and PCRE_EXTRA can be
1032    changed in the same way as the Perl-compatible options by using the characters
1033    J, U and X respectively.
1034    .P
1035  When an option change occurs at top level (that is, not inside subpattern  When an option change occurs at top level (that is, not inside subpattern
1036  parentheses), the change applies to the remainder of the pattern that follows.  parentheses), the change applies to the remainder of the pattern that follows.
1037  If the change is placed right at the start of a pattern, PCRE extracts it into  If the change is placed right at the start of a pattern, PCRE extracts it into
# Line 944  branch is abandoned before the option se Line 1055  branch is abandoned before the option se
1055  option settings happen at compile time. There would be some very weird  option settings happen at compile time. There would be some very weird
1056  behaviour otherwise.  behaviour otherwise.
1057  .P  .P
1058  The PCRE-specific options PCRE_DUPNAMES, PCRE_UNGREEDY, and PCRE_EXTRA can be  \fBNote:\fP There are other PCRE-specific options that can be set by the
1059  changed in the same way as the Perl-compatible options by using the characters  application when the compile or match functions are called. In some cases the
1060  J, U and X respectively.  pattern can contain special leading sequences to override what the application
1061    has set or what has been defaulted. Details are given in the section entitled
1062    .\" HTML <a href="#newlineseq">
1063    .\" </a>
1064    "Newline sequences"
1065    .\"
1066    above.
1067  .  .
1068  .  .
1069  .\" HTML <a name="subpattern"></a>  .\" HTML <a name="subpattern"></a>
# Line 1095  details of the interfaces for handling n Line 1212  details of the interfaces for handling n
1212  \fBpcreapi\fP  \fBpcreapi\fP
1213  .\"  .\"
1214  documentation.  documentation.
1215    .P
1216    \fBWarning:\fP You cannot use different names to distinguish between two
1217    subpatterns with the same number (see the previous section) because PCRE uses
1218    only the numbers when matching.
1219  .  .
1220  .  .
1221  .SH REPETITION  .SH REPETITION
# Line 1143  support is available, \eX{3} matches thr Line 1264  support is available, \eX{3} matches thr
1264  which may be several bytes long (and they may be of different lengths).  which may be several bytes long (and they may be of different lengths).
1265  .P  .P
1266  The quantifier {0} is permitted, causing the expression to behave as if the  The quantifier {0} is permitted, causing the expression to behave as if the
1267  previous item and the quantifier were not present.  previous item and the quantifier were not present. This may be useful for
1268    subpatterns that are referenced as
1269    .\" HTML <a href="#subpatternsassubroutines">
1270    .\" </a>
1271    subroutines
1272    .\"
1273    from elsewhere in the pattern. Items other than subpatterns that have a {0}
1274    quantifier are omitted from the compiled pattern.
1275  .P  .P
1276  For convenience, the three most common quantifiers have single-character  For convenience, the three most common quantifiers have single-character
1277  abbreviations:  abbreviations:
# Line 1290  previous example can be rewritten as Line 1418  previous example can be rewritten as
1418  .sp  .sp
1419    \ed++foo    \ed++foo
1420  .sp  .sp
1421    Note that a possessive quantifier can be used with an entire group, for
1422    example:
1423    .sp
1424      (abc|xyz){2,3}+
1425    .sp
1426  Possessive quantifiers are always greedy; the setting of the PCRE_UNGREEDY  Possessive quantifiers are always greedy; the setting of the PCRE_UNGREEDY
1427  option is ignored. They are a convenient notation for the simpler forms of  option is ignored. They are a convenient notation for the simpler forms of
1428  atomic group. However, there is no difference in the meaning of a possessive  atomic group. However, there is no difference in the meaning of a possessive
# Line 1364  subpattern is possible using named paren Line 1497  subpattern is possible using named paren
1497  .P  .P
1498  Another way of avoiding the ambiguity inherent in the use of digits following a  Another way of avoiding the ambiguity inherent in the use of digits following a
1499  backslash is to use the \eg escape sequence, which is a feature introduced in  backslash is to use the \eg escape sequence, which is a feature introduced in
1500  Perl 5.10. This escape must be followed by a positive or a negative number,  Perl 5.10. This escape must be followed by an unsigned number or a negative
1501  optionally enclosed in braces. These examples are all identical:  number, optionally enclosed in braces. These examples are all identical:
1502  .sp  .sp
1503    (ring), \e1    (ring), \e1
1504    (ring), \eg1    (ring), \eg1
1505    (ring), \eg{1}    (ring), \eg{1}
1506  .sp  .sp
1507  A positive number specifies an absolute reference without the ambiguity that is  An unsigned number specifies an absolute reference without the ambiguity that
1508  present in the older syntax. It is also useful when literal digits follow the  is present in the older syntax. It is also useful when literal digits follow
1509  reference. A negative number is a relative reference. Consider this example:  the reference. A negative number is a relative reference. Consider this
1510    example:
1511  .sp  .sp
1512    (abc(def)ghi)\eg{-1}    (abc(def)ghi)\eg{-1}
1513  .sp  .sp
# Line 1920  It matches "abcabc". It does not match " Line 2054  It matches "abcabc". It does not match "
2054  processing option does not affect the called subpattern.  processing option does not affect the called subpattern.
2055  .  .
2056  .  .
2057    .\" HTML <a name="onigurumasubroutines"></a>
2058    .SH "ONIGURUMA SUBROUTINE SYNTAX"
2059    .rs
2060    .sp
2061    For compatibility with Oniguruma, the non-Perl syntax \eg followed by a name or
2062    a number enclosed either in angle brackets or single quotes, is an alternative
2063    syntax for referencing a subpattern as a subroutine, possibly recursively. Here
2064    are two of the examples used above, rewritten using this syntax:
2065    .sp
2066      (?<pn> \e( ( (?>[^()]+) | \eg<pn> )* \e) )
2067      (sens|respons)e and \eg'1'ibility
2068    .sp
2069    PCRE supports an extension to Oniguruma: if a number is preceded by a
2070    plus or a minus sign it is taken as a relative reference. For example:
2071    .sp
2072      (abc)(?i:\eg<-1>)
2073    .sp
2074    Note that \eg{...} (Perl syntax) and \eg<...> (Oniguruma syntax) are \fInot\fP
2075    synonymous. The former is a back reference; the latter is a subroutine call.
2076    .
2077    .
2078  .SH CALLOUTS  .SH CALLOUTS
2079  .rs  .rs
2080  .sp  .sp
# Line 1956  description of the interface to the call Line 2111  description of the interface to the call
2111  documentation.  documentation.
2112  .  .
2113  .  .
2114    .SH "BACKTRACKING CONTROL"
2115    .rs
2116    .sp
2117    Perl 5.10 introduced a number of "Special Backtracking Control Verbs", which
2118    are described in the Perl documentation as "experimental and subject to change
2119    or removal in a future version of Perl". It goes on to say: "Their usage in
2120    production code should be noted to avoid problems during upgrades." The same
2121    remarks apply to the PCRE features described in this section.
2122    .P
2123    Since these verbs are specifically related to backtracking, most of them can be
2124    used only when the pattern is to be matched using \fBpcre_exec()\fP, which uses
2125    a backtracking algorithm. With the exception of (*FAIL), which behaves like a
2126    failing negative assertion, they cause an error if encountered by
2127    \fBpcre_dfa_exec()\fP.
2128    .P
2129    The new verbs make use of what was previously invalid syntax: an opening
2130    parenthesis followed by an asterisk. In Perl, they are generally of the form
2131    (*VERB:ARG) but PCRE does not support the use of arguments, so its general
2132    form is just (*VERB). Any number of these verbs may occur in a pattern. There
2133    are two kinds:
2134    .
2135    .SS "Verbs that act immediately"
2136    .rs
2137    .sp
2138    The following verbs act as soon as they are encountered:
2139    .sp
2140       (*ACCEPT)
2141    .sp
2142    This verb causes the match to end successfully, skipping the remainder of the
2143    pattern. When inside a recursion, only the innermost pattern is ended
2144    immediately. PCRE differs from Perl in what happens if the (*ACCEPT) is inside
2145    capturing parentheses. In Perl, the data so far is captured: in PCRE no data is
2146    captured. For example:
2147    .sp
2148      A(A|B(*ACCEPT)|C)D
2149    .sp
2150    This matches "AB", "AAD", or "ACD", but when it matches "AB", no data is
2151    captured.
2152    .sp
2153      (*FAIL) or (*F)
2154    .sp
2155    This verb causes the match to fail, forcing backtracking to occur. It is
2156    equivalent to (?!) but easier to read. The Perl documentation notes that it is
2157    probably useful only when combined with (?{}) or (??{}). Those are, of course,
2158    Perl features that are not present in PCRE. The nearest equivalent is the
2159    callout feature, as for example in this pattern:
2160    .sp
2161      a+(?C)(*FAIL)
2162    .sp
2163    A match with the string "aaaa" always fails, but the callout is taken before
2164    each backtrack happens (in this example, 10 times).
2165    .
2166    .SS "Verbs that act after backtracking"
2167    .rs
2168    .sp
2169    The following verbs do nothing when they are encountered. Matching continues
2170    with what follows, but if there is no subsequent match, a failure is forced.
2171    The verbs differ in exactly what kind of failure occurs.
2172    .sp
2173      (*COMMIT)
2174    .sp
2175    This verb causes the whole match to fail outright if the rest of the pattern
2176    does not match. Even if the pattern is unanchored, no further attempts to find
2177    a match by advancing the start point take place. Once (*COMMIT) has been
2178    passed, \fBpcre_exec()\fP is committed to finding a match at the current
2179    starting point, or not at all. For example:
2180    .sp
2181      a+(*COMMIT)b
2182    .sp
2183    This matches "xxaab" but not "aacaab". It can be thought of as a kind of
2184    dynamic anchor, or "I've started, so I must finish."
2185    .sp
2186      (*PRUNE)
2187    .sp
2188    This verb causes the match to fail at the current position if the rest of the
2189    pattern does not match. If the pattern is unanchored, the normal "bumpalong"
2190    advance to the next starting character then happens. Backtracking can occur as
2191    usual to the left of (*PRUNE), or when matching to the right of (*PRUNE), but
2192    if there is no match to the right, backtracking cannot cross (*PRUNE).
2193    In simple cases, the use of (*PRUNE) is just an alternative to an atomic
2194    group or possessive quantifier, but there are some uses of (*PRUNE) that cannot
2195    be expressed in any other way.
2196    .sp
2197      (*SKIP)
2198    .sp
2199    This verb is like (*PRUNE), except that if the pattern is unanchored, the
2200    "bumpalong" advance is not to the next character, but to the position in the
2201    subject where (*SKIP) was encountered. (*SKIP) signifies that whatever text
2202    was matched leading up to it cannot be part of a successful match. Consider:
2203    .sp
2204      a+(*SKIP)b
2205    .sp
2206    If the subject is "aaaac...", after the first match attempt fails (starting at
2207    the first character in the string), the starting point skips on to start the
2208    next attempt at "c". Note that a possessive quantifer does not have the same
2209    effect in this example; although it would suppress backtracking during the
2210    first match attempt, the second attempt would start at the second character
2211    instead of skipping on to "c".
2212    .sp
2213      (*THEN)
2214    .sp
2215    This verb causes a skip to the next alternation if the rest of the pattern does
2216    not match. That is, it cancels pending backtracking, but only within the
2217    current alternation. Its name comes from the observation that it can be used
2218    for a pattern-based if-then-else block:
2219    .sp
2220      ( COND1 (*THEN) FOO | COND2 (*THEN) BAR | COND3 (*THEN) BAZ ) ...
2221    .sp
2222    If the COND1 pattern matches, FOO is tried (and possibly further items after
2223    the end of the group if FOO succeeds); on failure the matcher skips to the
2224    second alternative and tries COND2, without backtracking into COND1. If (*THEN)
2225    is used outside of any alternation, it acts exactly like (*PRUNE).
2226    .
2227    .
2228  .SH "SEE ALSO"  .SH "SEE ALSO"
2229  .rs  .rs
2230  .sp  .sp
# Line 1976  Cambridge CB2 3QH, England. Line 2245  Cambridge CB2 3QH, England.
2245  .rs  .rs
2246  .sp  .sp
2247  .nf  .nf
2248  Last updated: 19 June 2007  Last updated: 18 March 2009
2249  Copyright (c) 1997-2007 University of Cambridge.  Copyright (c) 1997-2009 University of Cambridge.
2250  .fi  .fi

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