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author | Karl Williamson <public@khwilliamson.com> | 2012-09-02 18:29:42 -0600 |
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committer | Karl Williamson <public@khwilliamson.com> | 2012-09-13 21:14:03 -0600 |
commit | cc08b31c82fa64f8ce3a10d9c4b51581c07b2783 (patch) | |
tree | 0f7c1ded4b56c5fc4e6bce48ea907abc59b32284 /regen | |
parent | bb949220148e19c51a1fc9d5ca2fca9044bf3762 (diff) | |
download | perl-cc08b31c82fa64f8ce3a10d9c4b51581c07b2783.tar.gz |
regen/regcharclass.pl: Add documentation
Diffstat (limited to 'regen')
-rwxr-xr-x | regen/regcharclass.pl | 160 |
1 files changed, 128 insertions, 32 deletions
diff --git a/regen/regcharclass.pl b/regen/regcharclass.pl index 13dcf41065..c29af67cc3 100755 --- a/regen/regcharclass.pl +++ b/regen/regcharclass.pl @@ -24,36 +24,47 @@ CharClass::Matcher -- Generate C macros that match character classes efficiently Dynamically generates macros for detecting special charclasses in latin-1, utf8, and codepoint forms. Macros can be set to return -the length (in bytes) of the matched codepoint, or the codepoint itself. +the length (in bytes) of the matched codepoint, and/or the codepoint itself. -To regenerate regcharclass.h, run this script from perl-root. No arguments +To regenerate F<regcharclass.h>, run this script from perl-root. No arguments are necessary. -Using WHATEVER as an example the following macros will be produced: +Using WHATEVER as an example the following macros can be produced, depending +on the input parameters (how to get each is described by internal comments at +the C<__DATA__> line): =over 4 -=item is_WHATEVER(s,is_utf8) +=item C<is_WHATEVER(s,is_utf8)> -=item is_WHATEVER_safe(s,e,is_utf8) +=item C<is_WHATEVER_safe(s,e,is_utf8)> -Do a lookup as appropriate based on the is_utf8 flag. When possible -comparisons involving octect<128 are done before checking the is_utf8 +Do a lookup as appropriate based on the C<is_utf8> flag. When possible +comparisons involving octect<128 are done before checking the C<is_utf8> flag, hopefully saving time. -=item is_WHATEVER_utf8(s) +The version without the C<_safe> suffix should be used only when the input is +known to be well-formed. -=item is_WHATEVER_utf8_safe(s,e) +=item C<is_WHATEVER_utf8(s)> + +=item C<is_WHATEVER_utf8_safe(s,e)> Do a lookup assuming the string is encoded in (normalized) UTF8. -=item is_WHATEVER_latin1(s) +The version without the C<_safe> suffix should be used only when the input is +known to be well-formed. + +=item C<is_WHATEVER_latin1(s)> -=item is_WHATEVER_latin1_safe(s,e) +=item C<is_WHATEVER_latin1_safe(s,e)> Do a lookup assuming the string is encoded in latin-1 (aka plan octets). -=item is_WHATEVER_cp(cp) +The version without the C<_safe> suffix should be used only when it is known +that C<s> contains at least one character. + +=item C<is_WHATEVER_cp(cp)> Check to see if the string matches a given codepoint (hypothetically a U32). The condition is constructed as as to "break out" as early as @@ -66,11 +77,34 @@ IOW: Thus if the character is X+1 only two comparisons will be done. Making matching lookups slower, but non-matching faster. -=back +=item C<what_len_WHATEVER_FOO(arg1, ..., len)> + +A variant form of each of the macro types described above can be generated, in +which the code point is returned by the macro, and an extra parameter (in the +final position) is added, which is a pointer for the macro to set the byte +length of the returned code point. + +These forms all have a C<what_len> prefix instead of the C<is_>, for example +C<what_len_WHATEVER_safe(s,e,is_utf8,len)> and +C<what_len_WHATEVER_utf8(s,len)>. + +These forms should not be used I<except> on small sets of mostly widely +separated code points; otherwise the code generated is inefficient. For these +cases, it is best to use the C<is_> forms, and then find the code point with +C<utf8_to_uvchr_buf>(). This program can fail with a "deep recursion" +message on the worst of the inappropriate sets. Examine the generated macro +to see if it is acceptable. -Additionally it is possible to generate C<what_> variants that return -the codepoint read instead of the number of octets read, this can be -done by suffixing '-cp' to the type description. +=item C<what_WHATEVER_FOO(arg1, ...)> + +A variant form of each of the C<is_> macro types described above can be generated, in +which the code point and not the length is returned by the macro. These have +the same caveat as L</what_len_WHATEVER_FOO(arg1, ..., len)>, plus they should +not be used where the set contains a NULL, as 0 is returned for two different +cases: a) the set doesn't include the input code point; b) the set does +include it, and it is a NULL. + +=back =head2 CODE FORMAT @@ -79,7 +113,7 @@ perltidy -st -bt=1 -bbt=0 -pt=0 -sbt=1 -ce -nwls== "%f" =head1 AUTHOR -Author: Yves Orton (demerphq) 2007 +Author: Yves Orton (demerphq) 2007. Maintained by Perl5 Porters. =head1 BUGS @@ -582,6 +616,8 @@ sub _render { return $op; } my $cond= $self->_cond_as_str( $op, $combine ); + #no warnings 'recursion'; # This would allow really really inefficient + # code to be generated. See pod my $yes= $self->_render( $op->{yes}, $combine, 1 ); my $no= $self->_render( $op->{no}, $combine, 0 ); return "( $cond )" if $yes eq '1' and $no eq '0'; @@ -721,7 +757,7 @@ if ( !caller ) { next unless /\S/; chomp; if ( /^([A-Z]+)/ ) { - $doit->(); + $doit->(); # This starts a new definition; do the previous one ( $op, $title )= split /\s*:\s*/, $_, 2; @txt= (); } elsif ( s/^=>// ) { @@ -744,21 +780,82 @@ if ( !caller ) { } } -# -# Valid types: generic, LATIN1, UTF8, low, latin1, utf8 -# default return value is octects read. -# append -cp to make it codepoint matched. -# modifiers come after the colon, valid possibilities -# being 'fast' and 'safe'. -# -# Accepts a single Unicode code point per line, prefaced by '0x' -# or a range of two code points separated by a minus (and optional space) -# or a single \p{} per line. -# A blank line or one whose first non-blank character is '#' is a comment +# The form of the input is a series of definitions to make macros for. +# The first line gives the base name of the macro, followed by a colon, and +# then text to be used in comments associated with the macro that are its +# title or description. In all cases the first (perhaps only) parameter to +# the macro is a pointer to the first byte of the code point it is to test to +# see if it is in the class determined by the macro. In the case of non-UTF8, +# the code point consists only of a single byte. +# +# The second line must begin with a '=>' and be followed by the types of +# macro(s) to be generated; these are specified below. A colon follows the +# types, followed by the modifiers, also specified below. At least one +# modifier is required. +# +# The subsequent lines give what code points go into the class defined by the +# macro. Multiple characters may be specified via a string like "\x0D\x0A", +# enclosed in quotes. Otherwise the lines consist of single Unicode code +# point, prefaced by 0x; or a single range of Unicode code points separated by +# a minus (and optional space); or a single Unicode property specified in the +# standard Perl form "\p{...}". +# +# A blank line or one whose first non-blank character is '#' is a comment. +# The definition of the macro is terminated by a line unlike those described. +# +# Valid types: +# low generate a macro whose name is 'is_BASE_low' and defines a +# class that includes only ASCII-range chars. (BASE is the +# input macro base name.) +# latin1 generate a macro whose name is 'is_BASE_latin1' and defines a +# class that includes only upper-Latin1-range chars. It is not +# designed to take a UTF-8 input parameter. +# utf8 generate a macro whose name is 'is_BASE_utf8' and defines a +# class that includes all relevant characters that aren't ASCII. +# It is designed to take only an input UTF-8 parameter. +# LATIN1 generate a macro whose name is 'is_BASE_latin1' and defines a +# class that includes both ASCII and upper-Latin1-range chars. +# It is not designed to take a UTF-8 input parameter. +# UTF8 generate a macro whose name is 'is_BASE_utf8' and defines a +# class that can include any code point, adding the 'low' ones +# to what 'utf8' works on. It is designed to take only an input +# UTF-8 parameter. +# generic generate a macro whose name is 'is_BASE". It has a 2nd, +# boolean, parameter which indicates if the first one points to +# a UTF-8 string or not. Thus it works in all circumstances. +# cp generate a macro whose name is 'is_BASE_cp' and defines a +# class that returns true if the UV parameter is a member of the +# class; false if not. +# A macro of the given type is generated for each type listed in the input. +# The default return value is the number of octets read to generate the match. +# Append "-cp" to the type to have it instead return the matched codepoint. +# The macro name is changed to 'what_BASE...'. See pod for +# caveats +# Appending '-both" instead adds an extra parameter to the end of the argument +# list, which is a pointer as to where to store the number of +# bytes matched, while also returning the code point. The macro +# name is changed to 'what_len_BASE...'. See pod for caveats +# +# Valid modifiers: +# safe The input string is not necessarily valid UTF-8. In +# particular an extra parameter (always the 2nd) to the macro is +# required, which points to one beyond the end of the string. +# The macro will make sure not to read off the end of the +# string. In the case of non-UTF8, it makes sure that the +# string has at least one byte in it. The macro name has +# '_safe' appended to it. +# fast The input string is valid UTF-8. No bounds checking is done, +# and the macro can make assumptions that lead to faster +# execution. +# No modifier need be specified; fast is assumed for this case. If both +# 'fast', and 'safe' are specified, two macros will be created for each +# 'type'. # # If run on a non-ASCII platform will automatically convert the Unicode input -# to native -# +# to native. The documentation above is slightly wrong in this case. 'low' +# actually refers to code points whose UTF-8 representation is the same as the +# non-UTF-8 version (invariants); and 'latin1' refers to all the rest of the +# code points less than 256. 1; # in the unlikely case we are being used as a module @@ -773,7 +870,6 @@ __DATA__ # 0x1FD3 # GREEK SMALL LETTER IOTA WITH DIALYTIKA AND OXIA; maps same as 0390 # 0x1FE3 # GREEK SMALL LETTER UPSILON WITH DIALYTIKA AND OXIA; maps same as 03B0 - LNBREAK: Line Break: \R => generic UTF8 LATIN1 :fast safe "\x0D\x0A" # CRLF - Network (Windows) line ending |