NAME
PPIx::Regexp::Tokenizer - Tokenize a regular expression
SYNOPSIS
use PPIx::Regexp::Dumper;
PPIx::Regexp::Dumper->new( 'qr{foo}smx' )
->print();
INHERITANCE
PPIx::Regexp::Tokenizer
is a PPIx::Regexp::Support.
PPIx::Regexp::Tokenizer
has no descendants.
DESCRIPTION
This class provides tokenization of the regular expression.
METHODS
This class provides the following public methods. Methods not documented here (or documented below under "EXTERNAL TOKENIZERS") are private, and unsupported in the sense that the author reserves the right to change or remove them without notice.
new
my $tokenizer = PPIx::Regexp::Tokenizer->new( 'xyzzy' );
This static method instantiates the tokenizer. You must pass it the regular expression to be parsed, either as a string or as a PPI::Element of some sort. You can also pass optional name/value pairs of arguments. The option names are specified without a leading dash. Supported options are:
- default_modifiers array_reference
-
This argument specifies default statement modifiers. It is optional, but if specified must be an array reference. See the PPIx::Regexp new() documentation for the details.
- encoding name
-
This option specifies the encoding of the string to be tokenized. If specified, an
Encode::decode
is done on the string (or thecontent
of the PPI class) before it is tokenized. - postderef boolean
-
This option specifies whether the tokenizer recognizes postfix dereferencing. See the PPIx::Regexp new() documentation for the details.
$PPIx::Regexp::Tokenizer::DEFAULT_POSTDEREF
is not exported. - strict boolean
-
This option specifies whether tokenization should assume
use re 'strict';
is in effect.The
'strict'
pragma was introduced in Perl 5.22, and its documentation says that it is experimental, and that there is no commitment to backward compatibility. The same applies to the tokenization produced when this option is asserted. - trace number
-
Specifying a positive value for this option causes a trace of the tokenization. This option is unsupported in the sense that the author reserves the right to alter it without notice.
If this option is unspecified, the value comes from environment variable
PPIX_REGEXP_TOKENIZER_TRACE
(see "ENVIRONMENT VARIABLES"). If this environment variable does not exist, the default is 0.
Undocumented options are unsupported.
The returned value is the instantiated tokenizer, or undef
if instantiation failed. In the latter case a call to "errstr" will return the reason.
content
print $tokenizer->content();
This method returns the string being tokenized. This will be the result of the PPI::Element->content() method if the object was instantiated with a PPI::Element.
default_modifiers
print join ', ', @{ $tokenizer->default_modifiers() };
This method returns a reference to a copy of the array passed to the default_modifiers
argument to new(). If this argument was not used to instantiate the object, the return is a reference to an empty array.
encoding
This method returns the encoding of the data being parsed, if one was set when the class was instantiated; otherwise it simply returns undef.
errstr
my $tokenizer = PPIx::Regexp::Tokenizer->new( 'xyzzy' )
or die PPIx::Regexp::Tokenizer->errstr();
This static method returns an error description if tokenizer instantiation failed.
failures
print $tokenizer->failures(), " tokenization failures\n";
This method returns the number of tokenization failures encountered. A tokenization failure is represented in the output token stream by a PPIx::Regexp::Token::Unknown.
modifier
$tokenizer->modifier( 'x' )
and print "Tokenizing an extended regular expression\n";
This method returns true if the given modifier character was found on the end of the regular expression, and false otherwise.
Starting with version 0.036_01, if the argument is a single-character modifier followed by an asterisk (intended as a wild card character), the return is the number of times that modifier appears. In this case an exception will be thrown if you specify a multi-character modifier (e.g. 'ee*'
), or if you specify one of the match semantics modifiers (e.g. 'a*'
).
If called by an external tokenizer, this method returns true if if the given modifier was true at the current point in the tokenization.
next_token
my $token = $tokenizer->next_token();
This method returns the next token in the token stream, or nothing if there are no more tokens.
significant
This method exists simply for the convenience of PPIx::Regexp::Dumper. It always returns true.
tokens
my @tokens = $tokenizer->tokens();
This method returns all remaining tokens in the token stream.
EXTERNAL TOKENIZERS
This class does very little of its own tokenization. Instead the token classes contain external tokenization routines, whose name is '__PPIX_TOKENIZER__' concatenated with the current mode of the tokenizer ('regexp' for regular expressions, 'repl' for the replacement string).
These external tokenizers are called as static methods, and passed the PPIx::Regexp::Tokenizer
object and the current character in the character stream.
If the external tokenizer wants to make one or more tokens, it returns an array containing either length in characters for tokens of the tokenizer's own class, or the results of one or more "make_token" calls for tokens of an arbitrary class.
If the external tokenizer is not interested in the characters starting at the current position it simply returns.
The following methods are for the use of external tokenizers, and are not part of the public interface to this class.
capture
if ( $tokenizer->find_regexp( qr{ \A ( foo ) }smx ) ) {
foreach ( $tokenizer->capture() ) {
print "$_\n";
}
}
This method returns all the contents of any capture buffers from the previous call to "find_regexp". The first element of the array (i.e. element 0) corresponds to $1
, and so on.
The captures are cleared by "make_token", as well as by another call to "find_regexp".
cookie
$tokenizer->cookie( foo => sub { 1 } );
my $cookie = $tokenizer->cookie( 'foo' );
my $old_hint = $tokenizer->cookie( foo => undef );
This method either creates, deletes, or accesses a cookie.
A cookie is a code reference which is called whenever the tokenizer makes a token. If it returns a false value, it is deleted. Explicitly setting the cookie to undef
also deletes it.
When you call $tokenizer->cookie( 'foo' )
, the current cookie is returned. If you pass a new value of undef
to delete the token, the deleted cookie (if any) is returned.
When the "make_token" method calls a cookie, it passes it the tokenizer and the token just made. If a token calls a cookie, it is recommended that it merely pass the tokenizer, though of course the token can do whatever it wants.
The cookie mechanism seems to be a bit of a crock, but it appeared to be more work to fix things up in the lexer after the tokenizer got something wrong.
The recommended way to write a cookie is to use a closure to store any necessary data, and have a call to the cookie return the data; otherwise the ultimate consumer of the cookie has no way to access the data. Of course, it may be that the presence of the cookie at a certain point in the parse is all that is required.
expect
$tokenizer->expect( 'PPIx::Regexp::Token::Code' );
This method inserts a given class at the head of the token scan, for the next iteration only. More than one class can be specified. Class names can be abbreviated by removing the leading 'PPIx::Regexp::'.
If no class is specified, this method does nothing.
The expectation lasts from the next time "get_token" is called until the next time make_token makes a significant token, or until the next expect
call if that is done sooner.
find_regexp
my $end = $tokenizer->find_regexp( qr{ \A \w+ }smx );
my ( $begin, $end ) = $tokenizer->find_regexp(
qr{ \A \w+ }smx );
This method finds the given regular expression in the content, starting at the current position. If called in scalar context, the offset from the current position to the end of the matched string is returned. If called in list context, the offsets to both the beginning and the end of the matched string are returned.
find_matching_delimiter
my $offset = $tokenizer->find_matching_delimiter();
This method is used by tokenizers to find the delimiter matching the character at the current position in the content string. If the delimiter is an opening bracket of some sort, bracket nesting will be taken into account.
When searching for the matching delimiter, the back slash character is considered to escape the following character, so back-slashed delimiters will be ignored. No other quoting mechanisms are recognized, though, so delimiters inside quotes still count. This is actually the way Perl works, as
$ perl -e 'qr<(?{ print "}" })>'
demonstrates.
This method returns the offset from the current position in the content string to the matching delimiter (which will always be positive), or undef if no match can be found.
get_mode
This method returns the name of the current mode of the tokenizer.
get_start_delimiter
my $start_delimiter = $tokenizer->get_start_delimiter();
This method is used by tokenizers to access the start delimiter for the regular expression.
get_token
my $token = $tokenizer->make_token( 3 );
my @tokens = $tokenizer->get_token();
This method returns the next token that can be made from the input stream. It is not part of the external interface, but is intended for the use of an external tokenizer which calls it after making and retaining its own token to look at the next token ( if any ) in the input stream.
If any external tokenizer calls get_token without first calling make_token, a fatal error occurs; this is better than the infinite recursion which would occur if the condition were not trapped.
An external tokenizer must return anything returned by get_token; otherwise tokens get lost.
interpolates
This method returns true if the top-level structure being tokenized interpolates; that is, if the delimiter is not a single quote.
make_token
return $tokenizer->make_token( 3, 'PPIx::Regexp::Token::Unknown' );
This method is used by this class (and possibly by individual tokenizers) to manufacture a token. Its arguments are the number of characters to include in the token, and optionally the class of the token. If no class name is given, the caller's class is used. Class names may be shortened by removing the initial 'PPIx::Regexp::', which will be restored by this method.
The token will be manufactured from the given number of characters starting at the current cursor position, which will be adjusted.
If the given length would include characters past the end of the string being tokenized, the length is reduced appropriately. If this means a token with no characters, nothing is returned.
match
if ( $tokenizer->find_regexp( qr{ \A \w+ }smx ) ) {
print $tokenizer->match(), "\n";
}
This method returns the string matched by the previous call to "find_regexp".
The match is set to undef
by "make_token", as well as by another call to "find_regexp".
modifier_duplicate
$tokenizer->modifier_duplicate();
This method duplicates the modifiers on the top of the modifier stack, with the intent of creating a locally-scoped copy of the modifiers. This should only be called by an external tokenizer that is actually creating a modifier scope. In other words, only when creating a PPIx::Regexp::Token::Structure token whose content is '('.
modifier_modify
$tokenizer->modifier_modify( name => $value ... );
This method sets new values for the modifiers in the local scope. Only the modifiers whose names are actually passed have their values changed.
This method is intended to be called after manufacturing a PPIx::Regexp::Token::Modifier token, and passed the results of its modifiers
method.
modifier_pop
$tokenizer->modifier_pop();
This method removes the modifiers on the top of the modifier stack. This should only be called by an external tokenizer that is ending a modifier scope. In other words, only when creating a PPIx::Regexp::Token::Structure token whose content is ')'.
Note that this method will never pop the last modifier item off the stack, to guard against unmatched right parentheses.
modifier_seen
$tokenizer->modifier_seen( 'i' )
and print "/i was seen at some point.\n";
Unlike modifier(), this method returns a true value if the given modifier has been seen in any scope visible from the current location in the parse. There is no magic for group match semantics ( /a, /aa, /d, /l, /u) or modifiers that can be repeated, like /x and /xx, or /e and /ee.
peek
my $character = $tokenizer->peek();
my $next_char = $tokenizer->peek( 1 );
This method returns the character at the given non-negative offset from the current position. If no offset is given, an offset of 0 is used.
If you ask for a negative offset or an offset off the end of the sting, undef
is returned.
ppi_document
This method makes a PPI document out of the remainder of the string, and returns it.
prior_significant_token
$tokenizer->prior_significant_token( 'can_be_quantified' )
and print "The prior token can be quantified.\n";
This method calls the named method on the most-recently-instantiated significant token, and returns the result. Any arguments subsequent to the method name will be passed to the method.
Because this method is designed to be used within the tokenizing system, it will die horribly if the named method does not exist.
If called with no arguments at all the most-recently-instantiated significant token is returned.
strict
say 'Parse is ', $tokenizer->strict() ? 'strict' : 'lenient';
This method simply returns true or false, depending on whether the 'strict'
option to new()
was true or false.
ENVIRONMENT VARIABLES
A tokenizer trace can be requested by setting environment variable PPIX_REGEXP_TOKENIZER_TRACE to a numeric value other than 0. Use of this environment variable is unsupported in the same sense that the trace
option of "new" is unsupported. Explicitly specifying the trace
option to "new" overrides the environment variable.
The real reason this is documented is to give the user a way to troubleshoot funny output from the tokenizer.
SUPPORT
Support is by the author. Please file bug reports at http://rt.cpan.org, or in electronic mail to the author.
AUTHOR
Thomas R. Wyant, III wyant at cpan dot org
COPYRIGHT AND LICENSE
Copyright (C) 2009-2018 by Thomas R. Wyant, III
This program is free software; you can redistribute it and/or modify it under the same terms as Perl 5.10.0. For more details, see the full text of the licenses in the directory LICENSES.
This program is distributed in the hope that it will be useful, but without any warranty; without even the implied warranty of merchantability or fitness for a particular purpose.