Template::Parser - LALR parser for compiling template documents |
Template::Parser - LALR(1)
parser for compiling template documents
use Template::Parser;
$parser = Template::Parser->new(\%config); $template = $parser->parse($text) || die $parser->error(), "\n";
The Template::Parser module implements a LALR(1)
parser and associated methods
for parsing template documents into Perl code.
new(\%params)
The new()
constructor creates and returns a reference to a new
Template::Parser object. A reference to a hash may be supplied as a
parameter to provide configuration values. These may include:
[% example %]
Any Perl regex characters can be used and therefore should be escaped
(or use the Perl quotemeta
function) if they are intended to
represent literal characters.
my $parser = Template::Parser->new({ START_TAG => quotemeta('<+'), END_TAG => quotemeta('+>'), });
example:
<+ INCLUDE foobar +>
The TAGS directive can also be used to set the START_TAG and END_TAG values on a per-template file basis.
[% TAGS <+ +> %]
my $parser = Template::Parser->new({ TAG_STYLE => 'star', });
Available styles are:
template [% ... %] (default) template1 [% ... %] or %% ... %% (TT version 1) metatext %% ... %% (Text::MetaText) star [* ... *] (TT alternate) php <? ... ?> (PHP) asp <% ... %> (ASP) mason <% ... > (HTML::Mason) html <!-- ... --> (HTML comments)
Any values specified for START_TAG and/or END_TAG will over-ride those defined by a TAG_STYLE.
The TAGS directive may also be used to set a TAG_STYLE
[% TAGS html %] <!-- INCLUDE header -->
Example:
Foo [% a = 10 %] Bar
Output:
Foo
Bar
The PRE_CHOMP and POST_CHOMP options can help to clean up some of this extraneous whitespace. Both are disabled by default.
my $parser = Template::Parser->new({ PRE_CHOMP => 1, POST_CHOMP => 1, });
With PRE_CHOMP set to 1, the newline and whitespace preceding a directive at the start of a line will be deleted. This has the effect of concatenating a line that starts with a directive onto the end of the previous line.
Foo <----------. | ,---(PRE_CHOMP)----' | `-- [% a = 10 %] --. | ,---(POST_CHOMP)---' | `-> Bar
With POST_CHOMP set to 1, any whitespace after a directive up to and including the newline will be deleted. This has the effect of joining a line that ends with a directive onto the start of the next line.
If PRE_CHOMP or POST_CHOMP is set to 2, then instead of removing all the whitespace, the whitespace will be collapsed to a single space. This is useful for HTML, where (usually) a contiguous block of whitespace is rendered the same as a single space.
You may use the CHOMP_NONE, CHOMP_ALL, and CHOMP_COLLAPSE constants from the Template::Constants module to deactivate chomping, remove all whitespace, or collapse whitespace to a single space.
PRE_CHOMP and POST_CHOMP can be activated for individual directives by placing a '-' immediately at the start and/or end of the directive.
[% FOREACH user = userlist %] [%- user -%] [% END %]
The '-' characters activate both PRE_CHOMP and POST_CHOMP for the one directive '[%- name -%]'. Thus, the template will be processed as if written:
[% FOREACH user = userlist %][% user %][% END %]
Note that this is the same as if PRE_CHOMP and POST_CHOMP were set to CHOMP_ALL; the only way to get the CHOMP_COLLAPSE behavior is to set PRE_CHOMP or POST_CHOMP accordingly. If PRE_CHOMP or POST_CHOMP is already set to CHOMP_COLLAPSE, using '-' will give you CHOMP_COLLAPSE behavior, not CHOMP_ALL behavior.
Similarly, '+' characters can be used to disable PRE_CHOMP or POST_CHOMP (i.e. leave the whitespace/newline intact) options on a per-directive basis.
[% FOREACH user = userlist %] User: [% user +%] [% END %]
With POST_CHOMP enabled, the above example would be parsed as if written:
[% FOREACH user = userlist %]User: [% user %] [% END %]
my $parser = Template::Parser->new({ INTERPOLATE => 1, });
Variables should be prefixed by a '$' to identify them. Curly braces can be used in the familiar Perl/shell style to explicitly scope the variable name where required.
# INTERPOLATE => 0 <a href="http://[% server %]/[% help %]"> <img src="[% images %]/help.gif"></a> [% myorg.name %]
# INTERPOLATE => 1 <a href="http://$server/$help"> <img src="$images/help.gif"></a> $myorg.name
# explicit scoping with { } <img src="$images/${icon.next}.gif">
Note that a limitation in Perl's regex engine restricts the maximum length of an interpolated template to around 32 kilobytes or possibly less. Files that exceed this limit in size will typically cause Perl to dump core with a segmentation fault. If you routinely process templates of this size then you should disable INTERPOLATE or split the templates in several smaller files or blocks which can then be joined backed together via PROCESS or INCLUDE.
# ANYCASE => 0 (default) [% INCLUDE foobar %] # OK [% include foobar %] # ERROR [% include = 10 %] # OK, 'include' is a variable
# ANYCASE => 1 [% INCLUDE foobar %] # OK [% include foobar %] # OK [% include = 10 %] # ERROR, 'include' is reserved word
One side-effect of enabling ANYCASE is that you cannot use a variable of the same name as a reserved word, regardless of case. The reserved words are currently:
GET CALL SET DEFAULT INSERT INCLUDE PROCESS WRAPPER IF UNLESS ELSE ELSIF FOR FOREACH WHILE SWITCH CASE USE PLUGIN FILTER MACRO PERL RAWPERL BLOCK META TRY THROW CATCH FINAL NEXT LAST BREAK RETURN STOP CLEAR TO STEP AND OR NOT MOD DIV END
The only lower case reserved words that cannot be used for variables, regardless of the ANYCASE option, are the operators:
and or not mod div
# VERSION 1 [% $foo %] === [% foo %] [% $hash.$key %] === [% hash.key %]
To interpolate a variable value the '${' ... '}' construct was used. Typically, one would do this to index into a hash array when the key value was stored in a variable.
example:
my $vars = { users => { aba => { name => 'Alan Aardvark', ... }, abw => { name => 'Andy Wardley', ... }, ... }, uid => 'aba', ... };
$template->process('user/home.html', $vars) || die $template->error(), "\n";
'user/home.html':
[% user = users.${uid} %] # users.aba Name: [% user.name %] # Alan Aardvark
This was inconsistent with double quoted strings and also the INTERPOLATE mode, where a leading '$' in text was enough to indicate a variable for interpolation, and the additional curly braces were used to delimit variable names where necessary. Note that this use is consistent with UNIX and Perl conventions, among others.
# double quoted string interpolation [% name = "$title ${user.name}" %]
# INTERPOLATE = 1 <img src="$images/help.gif"></a> <img src="$images/${icon.next}.gif">
For version 2, these inconsistencies have been removed and the syntax clarified. A leading '$' on a variable is now used exclusively to indicate that the variable name should be interpolated (e.g. subsituted for its value) before being used. The earlier example from version 1:
# VERSION 1 [% user = users.${uid} %] Name: [% user.name %]
can now be simplified in version 2 as:
# VERSION 2 [% user = users.$uid %] Name: [% user.name %]
The leading dollar is no longer ignored and has the same effect of interpolation as '${' ... '}' in version 1. The curly braces may still be used to explicitly scope the interpolated variable name where necessary.
e.g.
[% user = users.${me.id} %] Name: [% user.name %]
The rule applies for all variables, both within directives and in plain text if processed with the INTERPOLATE option. This means that you should no longer (if you ever did) add a leading '$' to a variable inside a directive, unless you explicitly want it to be interpolated.
One obvious side-effect is that any version 1 templates with variables using a leading '$' will no longer be processed as expected. Given the following variable definitions,
[% foo = 'bar' bar = 'baz' %]
version 1 would interpret the following as:
# VERSION 1 [% $foo %] => [% GET foo %] => bar
whereas version 2 interprets it as:
# VERSION 2 [% $foo %] => [% GET $foo %] => [% GET bar %] => baz
In version 1, the '$' is ignored and the value for the variable 'foo' is retrieved and printed. In version 2, the variable '$foo' is first interpolated to give the variable name 'bar' whose value is then retrieved and printed.
The use of the optional '$' has never been strongly recommended, but to assist in backwards compatibility with any version 1 templates that may rely on this ``feature'', the V1DOLLAR option can be set to 1 (default: 0) to revert the behaviour and have leading '$' characters ignored.
my $parser = Template::Parser->new({ V1DOLLAR => 1, });
Source templates are compiled to Perl code by the Template::Parser using the Template::Grammar (by default) to define the language structure and semantics. Compiled templates are thus inherently ``compatible'' with each other and there is nothing to prevent any number of different template languages being compiled and used within the same Template Toolkit processing environment (other than the usual time and memory constraints).
The Template::Grammar file is constructed from a YACC like grammar (using Parse::YAPP) and a skeleton module template. These files are provided, along with a small script to rebuild the grammar, in the 'parser' sub-directory of the distribution. You don't have to know or worry about these unless you want to hack on the template language or define your own variant. There is a README file in the same directory which provides some small guidance but it is assumed that you know what you're doing if you venture herein. If you grok LALR parsers, then you should find it comfortably familiar.
By default, an instance of the default Template::Grammar will be created and used automatically if a GRAMMAR item isn't specified.
use MyOrg::Template::Grammar;
my $parser = Template::Parser->new({ GRAMMAR = MyOrg::Template::Grammar->new(); });
use Template::Constants qw( :debug );
my $template = Template->new({ DEBUG => DEBUG_PARSER | DEBUG_DIRS, });
The DEBUG value can include any of the following. Multiple values should be combined using the logical OR operator, '|'.
For example, the following template fragment:
Hello World
would generate this output:
## input text line 1 : ## Hello ## input text line 2 : World ## World
parse($text)
The parse()
method parses the text passed in the first parameter and
returns a reference to a Template::Document object which contains the
compiled representation of the template text. On error, undef is
returned.
Example:
$doc = $parser->parse($text) || die $parser->error();
Andy Wardley <abw@andywardley.com>
http://www.andywardley.com/|http://www.andywardley.com/
2.75, distributed as part of the Template Toolkit version 2.10, released on 24 July 2003.
Copyright (C) 1996-2003 Andy Wardley. All Rights Reserved. Copyright (C) 1998-2002 Canon Research Centre Europe Ltd.
This module is free software; you can redistribute it and/or modify it under the same terms as Perl itself.
The original Template::Parser module was derived from a standalone parser generated by version 0.16 of the Parse::Yapp module. The following copyright notice appears in the Parse::Yapp documentation.
The Parse::Yapp module and its related modules and shell scripts are copyright (c) 1998 Francois Desarmenien, France. All rights reserved.
You may use and distribute them under the terms of either the GNU General Public License or the Artistic License, as specified in the Perl README file.
Template, Template::Grammar, Template::Directive
Template::Parser - LALR parser for compiling template documents |