Template::Manual::Directives - Template directives
The GET
directive retrieves and outputs the value of the named variable.
[% GET foo %]
The GET
keyword is optional. A variable can be specified in a directive tag by itself.
[% foo %]
The variable can have an unlimited number of elements, each separated by a dot. Each element can have arguments specified within parentheses.
[% foo %]
[% bar.baz %]
[% biz.baz(10) %]
...etc...
See Template::Manual::Variables for a full discussion on template variables.
You can also specify expressions using the logical (and
, or
, not
, ?
, :
) and mathematic operators (+
, -
, *
, /
, %
, mod
, div
).
[% template.title or default.title %]
[% score * 100 %]
[% order.nitems ? checkout(order.total) : 'no items' %]
The div
operator returns the integer result of division. Both %
and mod
return the modulus (i.e. remainder) of division.
[% 15 / 6 %] # 2.5
[% 15 div 6 %] # 2
[% 15 mod 6 %] # 3
The CALL
directive is similar to GET
in evaluating the variable named, but doesn't print the result returned. This can be useful when a variable is bound to a sub-routine or object method which you want to call but aren't interested in the value returned.
[% CALL dbi.disconnect %]
[% CALL inc_page_counter(page_count) %]
The SET
directive allows you to assign new values to existing variables or create new temporary variables.
[% SET title = 'Hello World' %]
The SET
keyword is also optional.
[% title = 'Hello World' %]
Variables may be assigned the values of other variables, unquoted numbers (2.718), literal text ('single quotes') or quoted text ("double quotes"). In the latter case, any variable references within the text will be interpolated when the string is evaluated. Variables should be prefixed by $
, using curly braces to explicitly scope the variable name where necessary.
[% foo = 'Foo' %] # literal value 'Foo'
[% bar = foo %] # value of variable 'foo'
[% cost = '$100' %] # literal value '$100'
[% item = "$bar: ${cost}.00" %] # value "Foo: $100.00"
Multiple variables may be assigned in the same directive and are evaluated in the order specified. Thus, the above could have been written:
[% foo = 'Foo'
bar = foo
cost = '$100'
item = "$bar: ${cost}.00"
%]
Simple expressions can also be used, as per GET
.
[% ten = 10
twenty = 20
thirty = twenty + ten
forty = 2 * twenty
fifty = 100 div 2
six = twenty mod 7
%]
You can concatenate strings together using the '_'
underscore operator. In Perl 5, the .
dot is used for string concatenation, but in Perl 6, as in the Template Toolkit, the .
dot will be used as the method calling operator and '_'
underscore will be used for string concatenation. Note that the operator must be specified with surrounding whitespace which, as Larry says, is construed as a feature:
[% copyright = '(C) Copyright' _ year _ ' ' _ author %]
You can, of course, achieve a similar effect with double quoted string interpolation.
[% copyright = "(C) Copyright $year $author" %]
The DEFAULT
directive is similar to SET
but only updates variables that are currently undefined or have no "true" value (in the Perl sense).
[% DEFAULT
name = 'John Doe'
id = 'jdoe'
%]
This can be particularly useful in common template components to ensure that some sensible default are provided for otherwise undefined variables.
[% DEFAULT
title = 'Hello World'
bgcol = '#ffffff'
%]
<html>
<head>
<title>[% title %]</title>
</head>
<body bgcolor="[% bgcol %]">
...etc...
The INSERT
directive is used to insert the contents of an external file at the current position.
[% INSERT myfile %]
No attempt to parse or process the file is made. The contents, possibly including any embedded template directives, are inserted intact.
The filename specified should be relative to one of the INCLUDE_PATH
directories. Absolute (i.e. starting with /
) and relative (i.e. starting with .
) filenames may be used if the ABSOLUTE
and RELATIVE
options are set, respectively. Both these options are disabled by default.
my $template = Template->new({
INCLUDE_PATH => '/here:/there',
});
$template->process('myfile');
myfile:
[% INSERT foo %] # looks for /here/foo then /there/foo
[% INSERT /etc/passwd %] # file error: ABSOLUTE not set
[% INSERT ../secret %] # file error: RELATIVE not set
For convenience, the filename does not need to be quoted as long as it contains only alphanumeric characters, underscores, dots or forward slashes. Names containing any other characters should be quoted.
[% INSERT misc/legalese.txt %]
[% INSERT 'dos98/Program Files/stupid' %]
To evaluate a variable to specify a filename, you should explicitly prefix it with a $
or use double-quoted string interpolation.
[% language = 'en'
legalese = 'misc/legalese.txt'
%]
[% INSERT $legalese %] # misc/legalese.txt
[% INSERT "$language/$legalese" %] # en/misc/legalese.txt
Multiple files can be specified using +
as a delimiter. All files should be unquoted names or quoted strings. Any variables should be interpolated into double-quoted strings.
[% INSERT legalese.txt + warning.txt %]
[% INSERT "$legalese" + warning.txt %] # requires quoting
The INCLUDE
directive is used to process and include the output of another template file or block.
[% INCLUDE header %]
If a BLOCK
of the specified name is defined in the same file, or in a file from which the current template has been called (i.e. a parent template) then it will be used in preference to any file of the same name.
[% INCLUDE table %] # uses BLOCK defined below
[% BLOCK table %]
<table>
...
</table>
[% END %]
If a BLOCK
definition is not currently visible then the template name should be a file relative to one of the INCLUDE_PATH
directories, or an absolute or relative file name if the ABSOLUTE
/RELATIVE
options are appropriately enabled. The INCLUDE
directive automatically quotes the filename specified, as per INSERT
described above. When a variable contains the name of the template for the INCLUDE
directive, it should be explicitly prefixed by $
or double-quoted
[% myheader = 'my/misc/header' %]
[% INCLUDE myheader %] # 'myheader'
[% INCLUDE $myheader %] # 'my/misc/header'
[% INCLUDE "$myheader" %] # 'my/misc/header'
Any template directives embedded within the file will be processed accordingly. All variables currently defined will be visible and accessible from within the included template.
[% title = 'Hello World' %]
[% INCLUDE header %]
<body>
...
header:
<html>
<title>[% title %]</title>
output:
<html>
<title>Hello World</title>
<body>
...
Local variable definitions may be specified after the template name, temporarily masking any existing variables. Insignificant whitespace is ignored within directives so you can add variable definitions on the same line, the next line or split across several line with comments interspersed, if you prefer.
[% INCLUDE table %]
[% INCLUDE table title="Active Projects" %]
[% INCLUDE table
title = "Active Projects"
bgcolor = "#80ff00" # chartreuse
border = 2
%]
The INCLUDE
directive localises (i.e. copies) all variables before processing the template. Any changes made within the included template will not affect variables in the including template.
[% foo = 10 %]
foo is originally [% foo %]
[% INCLUDE bar %]
foo is still [% foo %]
[% BLOCK bar %]
foo was [% foo %]
[% foo = 20 %]
foo is now [% foo %]
[% END %]
output:
foo is originally 10
foo was 10
foo is now 20
foo is still 10
Technical Note: the localisation of the stash (that is, the process by which variables are copied before an INCLUDE
to prevent being overwritten) is only skin deep. The top-level variable namespace (hash) is copied, but no attempt is made to perform a deep-copy of other structures (hashes, arrays, objects, etc.) Therefore, a foo
variable referencing a hash will be copied to create a new foo
variable but which points to the same hash array. Thus, if you update compound variables (e.g. foo.bar
) then you will change the original copy, regardless of any stash localisation. If you're not worried about preserving variable values, or you trust the templates you're including then you might prefer to use the PROCESS
directive which is faster by virtue of not performing any localisation.
You can specify dotted variables as "local" variables to an INCLUDE
directive. However, be aware that because of the localisation issues explained above (if you skipped the previous Technical Note above then you might want to go back and read it or skip this section too), the variables might not actually be "local". If the first element of the variable name already references a hash array then the variable update will affect the original variable.
[% foo = {
bar = 'Baz'
}
%]
[% INCLUDE somefile foo.bar='Boz' %]
[% foo.bar %] # Boz
This behaviour can be a little unpredictable (and may well be improved upon in a future version). If you know what you're doing with it and you're sure that the variables in question are defined (nor not) as you expect them to be, then you can rely on this feature to implement some powerful "global" data sharing techniques. Otherwise, you might prefer to steer well clear and always pass simple (undotted) variables as parameters to INCLUDE
and other similar directives.
If you want to process several templates in one go then you can specify each of their names (quoted or unquoted names only, no unquoted $variables
) joined together by +
. The INCLUDE
directive will then process them in order.
[% INCLUDE html/header + "site/$header" + site/menu
title = "My Groovy Web Site"
%]
The variable stash is localised once and then the templates specified are processed in order, all within that same variable context. This makes it slightly faster than specifying several separate INCLUDE
directives (because you only clone the variable stash once instead of n times), but not quite as "safe" because any variable changes in the first file will be visible in the second, third and so on. This might be what you want, of course, but then again, it might not.
The PROCESS directive is similar to INCLUDE
but does not perform any localisation of variables before processing the template. Any changes made to variables within the included template will be visible in the including template.
[% foo = 10 %]
foo is [% foo %]
[% PROCESS bar %]
foo is [% foo %]
[% BLOCK bar %]
[% foo = 20 %]
changed foo to [% foo %]
[% END %]
output:
foo is 10
changed foo to 20
foo is 20
Parameters may be specified in the PROCESS
directive, but these too will become visible changes to current variable values.
[% foo = 10 %]
foo is [% foo %]
[% PROCESS bar
foo = 20
%]
foo is [% foo %]
[% BLOCK bar %]
this is bar, foo is [% foo %]
[% END %]
output:
foo is 10
this is bar, foo is 20
foo is 20
The PROCESS
directive is slightly faster than INCLUDE
because it avoids the need to localise (i.e. copy) the variable stash before processing the template. As with INSERT
and INCLUDE
, the first parameter does not need to be quoted as long as it contains only alphanumeric characters, underscores, periods or forward slashes. A $
prefix can be used to explicitly indicate a variable which should be interpolated to provide the template name:
[% myheader = 'my/misc/header' %]
[% PROCESS myheader %] # 'myheader'
[% PROCESS $myheader %] # 'my/misc/header'
As with INCLUDE
, multiple templates can be specified, delimited by +
, and are processed in order.
[% PROCESS html/header + my/header %]
It's not unusual to find yourself adding common headers and footers to pages or sub-sections within a page. Something like this:
[% INCLUDE section/header
title = 'Quantum Mechanics'
%]
Quantum mechanics is a very interesting subject wish
should prove easy for the layman to fully comprehend.
[% INCLUDE section/footer %]
[% INCLUDE section/header
title = 'Desktop Nuclear Fusion for under $50'
%]
This describes a simple device which generates significant
sustainable electrical power from common tap water by process
of nuclear fusion.
[% INCLUDE section/footer %]
The individual template components being included might look like these:
section/header:
<p>
<h2>[% title %]</h2>
section/footer:
</p>
The WRAPPER
directive provides a way of simplifying this a little. It encloses a block up to a matching END
directive, which is first processed to generate some output. This is then passed to the named template file or BLOCK
as the content
variable.
[% WRAPPER section
title = 'Quantum Mechanics'
%]
Quantum mechanics is a very interesting subject wish
should prove easy for the layman to fully comprehend.
[% END %]
[% WRAPPER section
title = 'Desktop Nuclear Fusion for under $50'
%]
This describes a simple device which generates significant
sustainable electrical power from common tap water by process
of nuclear fusion.
[% END %]
The single 'section' template can then be defined as:
<h2>[% title %]</h2>
<p>
[% content %]
</p>
Like other block directives, it can be used in side-effect notation:
[% INSERT legalese.txt WRAPPER big_bold_table %]
It's also possible to specify multiple templates to a WRAPPER
directive. The specification order indicates outermost to innermost wrapper templates. For example, given the following template block definitions:
[% BLOCK bold %]<b>[% content %]</b>[% END %]
[% BLOCK italic %]<i>[% content %]</i>[% END %]
the directive
[% WRAPPER bold+italic %]Hello World[% END %]
would generate the following output:
<b><i>Hello World</i></b>
The BLOCK
...END
construct can be used to define template component blocks which can be processed with the INCLUDE
, PROCESS
and WRAPPER
directives.
[% BLOCK tabrow %]
<tr>
<td>[% name %]<td>
<td>[% email %]</td>
</tr>
[% END %]
<table>
[% PROCESS tabrow name='Fred' email='fred@nowhere.com' %]
[% PROCESS tabrow name='Alan' email='alan@nowhere.com' %]
</table>
A BLOCK
definition can be used before it is defined, as long as the definition resides in the same file. The block definition itself does not generate any output.
[% PROCESS tmpblk %]
[% BLOCK tmpblk %] This is OK [% END %]
You can use an anonymous BLOCK
to capture the output of a template fragment.
[% julius = BLOCK %]
And Caesar's spirit, ranging for revenge,
With Ate by his side come hot from hell,
Shall in these confines with a monarch's voice
Cry 'Havoc', and let slip the dogs of war;
That this foul deed shall smell above the earth
With carrion men, groaning for burial.
[% END %]
Like a named block, it can contain any other template directives which are processed when the block is defined. The output generated by the block is then assigned to the variable julius
.
Anonymous BLOCK
s can also be used to define block macros. The enclosing block is processed each time the macro is called.
[% MACRO locate BLOCK %]
The [% animal %] sat on the [% place %].
[% END %]
[% locate(animal='cat', place='mat') %] # The cat sat on the mat
[% locate(animal='dog', place='log') %] # The dog sat on the log
The IF
and UNLESS
directives can be used to process or ignore a block based on some run-time condition.
[% IF frames %]
[% INCLUDE frameset %]
[% END %]
[% UNLESS text_mode %]
[% INCLUDE biglogo %]
[% END %]
Multiple conditions may be joined with ELSIF
and/or ELSE
blocks.
[% IF age < 10 %]
Hello [% name %], does your mother know you're
using her AOL account?
[% ELSIF age < 18 %]
Sorry, you're not old enough to enter
(and too dumb to lie about your age)
[% ELSE %]
Welcome [% name %].
[% END %]
The following conditional and boolean operators may be used:
== != < <= > >= && || ! and or not
Conditions may be arbitrarily complex and are evaluated with the same precedence as in Perl. Parenthesis may be used to explicitly determine evaluation order.
# ridiculously contrived complex example
[% IF (name == 'admin' || uid <= 0) && mode == 'debug' %]
I'm confused.
[% ELSIF more > less %]
That's more or less correct.
[% END %]
The and
, or
and not
operator are provided as aliases for &&
, ||
and !
, respectively. Unlike Perl, which treats and
, or
and not
as separate, lower-precedence versions of the other operators, the Template Toolkit performs a straightforward substitution of and
for &&
, and so on. That means that and
, or
and not
have the same operator precedence as &&
, ||
and !
.
The SWITCH
/ CASE
construct can be used to perform a multi-way conditional test. The SWITCH
directive expects an expression which is first evaluated and then compared against each CASE statement in turn. Each CASE
directive should contain a single value or a list of values which should match. CASE
may also be left blank or written as [% CASE DEFAULT %]
to specify a default match. Only one CASE
matches, there is no drop-through between CASE
statements.
[% SWITCH myvar %]
[% CASE 'value1' %]
...
[% CASE ['value2', 'value3'] %] # multiple values
...
[% CASE myhash.keys %] # ditto
...
[% CASE %] # default
...
[% END %]
The FOREACH
directive will iterate through the items in a list, processing the enclosed block for each one.
[% foo = 'Foo'
items = [ 'one', 'two', 'three' ]
%]
Things:
[% FOREACH thing IN [ foo 'Bar' "$foo Baz" ] %]
* [% thing %]
[% END %]
Items:
[% FOREACH i IN items %]
* [% i %]
[% END %]
Stuff:
[% stuff = [ foo "$foo Bar" ] %]
[% FOREACH s IN stuff %]
* [% s %]
[% END %]
output:
Things:
* Foo
* Bar
* Foo Baz
Items:
* one
* two
* three
Stuff:
* Foo
* Foo Bar
You can use also use =
instead of IN
if you prefer.
[% FOREACH i = items %]
When the FOREACH
directive is used without specifying a target variable, any iterated values which are hash references will be automatically imported.
[% userlist = [
{ id => 'tom', name => 'Thomas' },
{ id => 'dick', name => 'Richard' },
{ id => 'larry', name => 'Lawrence' },
]
%]
[% FOREACH user IN userlist %]
[% user.id %] [% user.name %]
[% END %]
short form:
[% FOREACH userlist %]
[% id %] [% name %]
[% END %]
Note that this particular usage creates a localised variable context to prevent the imported hash keys from overwriting any existing variables. The imported definitions and any other variables defined in such a FOREACH
loop will be lost at the end of the loop, when the previous context and variable values are restored.
However, under normal operation, the loop variable remains in scope after the FOREACH
loop has ended (caveat: overwriting any variable previously in scope). This is useful as the loop variable is secretly an iterator object (see below) and can be used to analyse the last entry processed by the loop.
The FOREACH
directive can also be used to iterate through the entries in a hash array. Each entry in the hash is returned in sorted order (based on the key) as a hash array containing 'key' and 'value' items.
[% users = {
tom => 'Thomas',
dick => 'Richard',
larry => 'Lawrence',
}
%]
[% FOREACH u IN users %]
* [% u.key %] : [% u.value %]
[% END %]
Output:
* dick : Richard
* larry : Lawrence
* tom : Thomas
The NEXT
directive starts the next iteration in the FOREACH
loop.
[% FOREACH user IN userlist %]
[% NEXT IF user.isguest %]
Name: [% user.name %] Email: [% user.email %]
[% END %]
The LAST
directive can be used to prematurely exit the loop. BREAK
is also provided as an alias for LAST
.
[% FOREACH match IN results.nsort('score').reverse %]
[% LAST IF match.score < 50 %]
[% match.score %] : [% match.url %]
[% END %]
The FOREACH
directive is implemented using the Template::Iterator module. A reference to the iterator object for a FOREACH
directive is implicitly available in the loop
variable. The following methods can be called on the loop
iterator.
size() number of elements in the list
max() index number of last element (size - 1)
index() index of current iteration from 0 to max()
count() iteration counter from 1 to size() (i.e. index() + 1)
first() true if the current iteration is the first
last() true if the current iteration is the last
prev() return the previous item in the list
next() return the next item in the list
See Template::Iterator for further details.
Example:
[% FOREACH item IN [ 'foo', 'bar', 'baz' ] -%]
[%- "<ul>\n" IF loop.first %]
<li>[% loop.count %]/[% loop.size %]: [% item %]
[%- "</ul>\n" IF loop.last %]
[% END %]
Output:
<ul>
<li>1/3: foo
<li>2/3: bar
<li>3/3: baz
</ul>
Nested loops will work as expected, with the loop
variable correctly referencing the innermost loop and being restored to any previous value (i.e. an outer loop) at the end of the loop.
[% FOREACH group IN grouplist;
# loop => group iterator
"Groups:\n" IF loop.first;
FOREACH user IN group.userlist;
# loop => user iterator
"$loop.count: $user.name\n";
END;
# loop => group iterator
"End of Groups\n" IF loop.last;
END
%]
The iterator
plugin can also be used to explicitly create an iterator object. This can be useful within nested loops where you need to keep a reference to the outer iterator within the inner loop. The iterator plugin effectively allows you to create an iterator by a name other than loop
. See Template::Plugin::Iterator for further details.
[% USE giter = iterator(grouplist) %]
[% FOREACH group IN giter %]
[% FOREACH user IN group.userlist %]
user #[% loop.count %] in
group [% giter.count %] is
named [% user.name %]
[% END %]
[% END %]
The WHILE
directive can be used to repeatedly process a template block while a conditional expression evaluates true. The expression may be arbitrarily complex as per IF
/ UNLESS
.
[% WHILE total < 100 %]
...
[% total = calculate_new_total %]
[% END %]
An assignment can be enclosed in parenthesis to evaluate the assigned value.
[% WHILE (user = get_next_user_record) %]
[% user.name %]
[% END %]
The NEXT
directive can be used to start the next iteration of a WHILE
loop and BREAK
can be used to exit the loop, both as per FOREACH
.
The Template Toolkit uses a failsafe counter to prevent runaway WHILE
loops which would otherwise never terminate. If the loop exceeds 1000 iterations then an undef
exception will be thrown, reporting the error:
WHILE loop terminated (> 1000 iterations)
The $Template::Directive::WHILE_MAX
variable controls this behaviour and can be set to a higher value if necessary.
The FILTER
directive can be used to post-process the output of a block. A number of standard filters are provided with the Template Toolkit. The html
filter, for example, escapes the '<', '>' and '&' characters to prevent them from being interpreted as HTML tags or entity reference markers.
[% FILTER html %]
HTML text may have < and > characters embedded
which you want converted to the correct HTML entities.
[% END %]
output:
HTML text may have < and > characters embedded
which you want converted to the correct HTML entities.
The FILTER
directive can also follow various other non-block directives. For example:
[% INCLUDE mytext FILTER html %]
The |
character can also be used as an alias for FILTER
.
[% INCLUDE mytext | html %]
Multiple filters can be chained together and will be called in sequence.
[% INCLUDE mytext FILTER html FILTER html_para %]
or
[% INCLUDE mytext | html | html_para %]
Filters come in two flavours, known as 'static' or 'dynamic'. A static filter is a simple subroutine which accepts a text string as the only argument and returns the modified text. The html
filter is an example of a static filter, implemented as:
sub html_filter {
my $text = shift;
for ($text) {
s/&/&/g;
s/</</g;
s/>/>/g;
}
return $text;
}
Dynamic filters can accept arguments which are specified when the filter is called from a template. The repeat
filter is such an example, accepting a numerical argument which specifies the number of times that the input text should be repeated.
[% FILTER repeat(3) %]blah [% END %]
output:
blah blah blah
These are implemented as filter 'factories'. The factory subroutine is passed a reference to the current Template::Context object along with any additional arguments specified. It should then return a subroutine reference (e.g. a closure) which implements the filter. The repeat
filter factory is implemented like this:
sub repeat_filter_factory {
my ($context, $iter) = @_;
$iter = 1 unless defined $iter;
return sub {
my $text = shift;
$text = '' unless defined $text;
return join('\n', $text) x $iter;
}
}
The FILTERS
option, described in Template::Manual::Config, allows custom filters to be defined when a Template object is instantiated. The define_filter() method allows further filters to be defined at any time.
When using a filter, it is possible to assign an alias to it for further use. This is most useful for dynamic filters that you want to re-use with the same configuration.
[% FILTER echo = repeat(2) %]
Is there anybody out there?
[% END %]
[% FILTER echo %]
Mother, should I build a wall?
[% END %]
Output:
Is there anybody out there?
Is there anybody out there?
Mother, should I build a wall?
Mother, should I build a wall?
The FILTER
directive automatically quotes the name of the filter. As with INCLUDE
et al, you can use a variable to provide the name of the filter, prefixed by $
.
[% myfilter = 'html' %]
[% FILTER $myfilter %] # same as [% FILTER html %]
...
[% END %]
A template variable can also be used to define a static filter subroutine. However, the Template Toolkit will automatically call any subroutine bound to a variable and use the value returned. Thus, the above example could be implemented as:
my $vars = {
myfilter => sub { return 'html' },
};
template:
[% FILTER $myfilter %] # same as [% FILTER html %]
...
[% END %]
To define a template variable that evaluates to a subroutine reference that can be used by the FILTER
directive, you should create a subroutine that, when called automatically by the Template Toolkit, returns another subroutine reference which can then be used to perform the filter operation. Note that only static filters can be implemented in this way.
my $vars = {
myfilter => sub { \&my_filter_sub },
};
sub my_filter_sub {
my $text = shift;
# do something
return $text;
}
template:
[% FILTER $myfilter %]
...
[% END %]
Alternately, you can bless a subroutine reference into a class (any class will do) to fool the Template Toolkit into thinking it's an object rather than a subroutine. This will then bypass the automatic "call-a-subroutine-to-return-a-value" magic.
my $vars = {
myfilter => bless(\&my_filter_sub, 'anything_you_like'),
};
template:
[% FILTER $myfilter %]
...
[% END %]
Filters bound to template variables remain local to the variable context in which they are defined. That is, if you define a filter in a PERL
block within a template that is loaded via INCLUDE
, then the filter definition will only exist until the end of that template when the stash is delocalised, restoring the previous variable state. If you want to define a filter which persists for the lifetime of the processor, or define additional dynamic filter factories, then you can call the define_filter() method on the current Template::Context object.
See Template::Manual::Filters for a complete list of available filters, their descriptions and examples of use.
The USE
directive can be used to load and initialise "plugin" extension modules.
[% USE myplugin %]
A plugin is a regular Perl module that conforms to a particular object-oriented interface, allowing it to be loaded into and used automatically by the Template Toolkit. For details of this interface and information on writing plugins, consult Template::Plugin.
A number of standard plugins are included with the Template Toolkit (see below and Template::Manual::Plugins). The names of these standard plugins are case insensitive.
[% USE CGI %] # => Template::Plugin::CGI
[% USE Cgi %] # => Template::Plugin::CGI
[% USE cgi %] # => Template::Plugin::CGI
You can also define further plugins using the PLUGINS
option.
my $tt = Template->new({
PLUGINS => {
foo => 'My::Plugin::Foo',
bar => 'My::Plugin::Bar',
},
});
The recommended convention is to specify these plugin names in lower case. The Template Toolkit first looks for an exact case-sensitive match and then tries the lower case conversion of the name specified.
[% USE Foo %] # look for 'Foo' then 'foo'
If you define all your PLUGINS
with lower case names then they will be located regardless of how the user specifies the name in the USE
directive. If, on the other hand, you define your PLUGINS
with upper or mixed case names then the name specified in the USE
directive must match the case exactly.
If the plugin isn't defined in either the standard plugins ($Template::Plugins::STD_PLUGINS
) or via the PLUGINS
option, then the PLUGIN_BASE
is searched.
In this case the plugin name is case-sensitive. It is appended to each of the PLUGIN_BASE
module namespaces in turn (default: Template::Plugin
) to construct a full module name which it attempts to locate and load. Any periods, '.
', in the name will be converted to '::
'.
[% USE MyPlugin %] # => Template::Plugin::MyPlugin
[% USE Foo.Bar %] # => Template::Plugin::Foo::Bar
The LOAD_PERL
option (disabled by default) provides a further way by which external Perl modules may be loaded. If a regular Perl module (i.e. not a Template::Plugin::*
or other module relative to some PLUGIN_BASE
) supports an object-oriented interface and a new()
constructor then it can be loaded and instantiated automatically. The following trivial example shows how the IO::File module might be used.
[% USE file = IO.File('/tmp/mydata') %]
[% WHILE (line = file.getline) %]
<!-- [% line %] -->
[% END %]
Any additional parameters supplied in parenthesis after the plugin name will be also be passed to the new()
constructor. A reference to the current Template::Context object is passed as the first parameter.
[% USE MyPlugin('foo', 123) %]
equivalent to:
Template::Plugin::MyPlugin->new($context, 'foo', 123);
The only exception to this is when a module is loaded via the LOAD_PERL
option. In this case the $context
reference is not passed to the new()
constructor. This is based on the assumption that the module is a regular Perl module rather than a Template Toolkit plugin so isn't expecting a context reference and wouldn't know what to do with it anyway.
Named parameters may also be specified. These are collated into a hash which is passed by reference as the last parameter to the constructor, as per the general code calling interface.
[% USE url('/cgi-bin/foo', mode='submit', debug=1) %]
equivalent to:
Template::Plugin::URL->new(
$context,
'/cgi-bin/foo'
{ mode => 'submit', debug => 1 }
);
The plugin may represent any data type; a simple variable, hash, list or code reference, but in the general case it will be an object reference. Methods can be called on the object (or the relevant members of the specific data type) in the usual way:
[% USE table(mydata, rows=3) %]
[% FOREACH row IN table.rows %]
<tr>
[% FOREACH item IN row %]
<td>[% item %]</td>
[% END %]
</tr>
[% END %]
An alternative name may be provided for the plugin by which it can be referenced:
[% USE scores = table(myscores, cols=5) %]
[% FOREACH row IN scores.rows %]
...
[% END %]
You can use this approach to create multiple plugin objects with different configurations. This example shows how the format plugin is used to create sub-routines bound to variables for formatting text as per printf()
.
[% USE bold = format('<b>%s</b>') %]
[% USE ital = format('<i>%s</i>') %]
[% bold('This is bold') %]
[% ital('This is italic') %]
Output:
<b>This is bold</b>
<i>This is italic</i>
This next example shows how the URL plugin can be used to build dynamic URLs from a base part and optional query parameters.
[% USE mycgi = URL('/cgi-bin/foo.pl', debug=1) %]
<a href="[% mycgi %]">...
<a href="[% mycgi(mode='submit') %]"...
Output:
<a href="/cgi-bin/foo.pl?debug=1">...
<a href="/cgi-bin/foo.pl?mode=submit&debug=1">...
The CGI plugin is an example of one which delegates to another Perl module. In this case, to Lincoln Stein's CGI
module. All of the methods provided by the CGI
module are available via the plugin.
[% USE CGI;
CGI.start_form;
CGI.checkbox_group( name = 'colours',
values = [ 'red' 'green' 'blue' ] );
CGI.popup_menu( name = 'items',
values = [ 'foo' 'bar' 'baz' ] );
CGI.end_form
%]
See Template::Manual::Plugins for more information on the plugins distributed with the toolkit or available from CPAN.
The MACRO
directive allows you to define a directive or directive block which is then evaluated each time the macro is called.
[% MACRO header INCLUDE header %]
Calling the macro as:
[% header %]
is then equivalent to:
[% INCLUDE header %]
Macros can be passed named parameters when called. These values remain local to the macro.
[% header(title='Hello World') %]
equivalent to:
[% INCLUDE header title='Hello World' %]
A MACRO
definition may include parameter names. Values passed to the macros are then mapped to these local variables. Other named parameters may follow these.
[% MACRO header(title) INCLUDE header %]
[% header('Hello World') %]
[% header('Hello World', bgcol='#123456') %]
equivalent to:
[% INCLUDE header title='Hello World' %]
[% INCLUDE header title='Hello World' bgcol='#123456' %]
Here's another example, defining a macro for display numbers in comma-delimited groups of 3, using the chunk and join virtual method.
[% MACRO number(n) GET n.chunk(-3).join(',') %]
[% number(1234567) %] # 1,234,567
A MACRO
may precede any directive and must conform to the structure of the directive.
[% MACRO header IF frames %]
[% INCLUDE frames/header %]
[% ELSE %]
[% INCLUDE header %]
[% END %]
[% header %]
A MACRO
may also be defined as an anonymous BLOCK
. The block will be evaluated each time the macro is called.
[% MACRO header BLOCK %]
...content...
[% END %]
[% header %]
If you've got the EVAL_PERL
option set, then you can even define a MACRO
as a PERL
block (see below):
[% MACRO triple(n) PERL %]
my $n = $stash->get('n');
print $n * 3;
[% END -%]
(for the advanced reader)
The PERL
directive is used to mark the start of a block which contains Perl code for evaluation. The EVAL_PERL
option must be enabled for Perl code to be evaluated or a perl
exception will be thrown with the message 'EVAL_PERL not set
'.
Perl code is evaluated in the Template::Perl
package. The $context
package variable contains a reference to the current Template::Context object. This can be used to access the functionality of the Template Toolkit to process other templates, load plugins, filters, etc. See Template::Context for further details.
[% PERL %]
print $context->include('myfile');
[% END %]
The $stash variable contains a reference to the top-level stash object which manages template variables. Through this, variable values can be retrieved and updated. See Template::Stash for further details.
[% PERL %]
$stash->set(foo => 'bar');
print "foo value: ", $stash->get('foo');
[% END %]
Output:
foo value: bar
Output is generated from the PERL
block by calling print()
. Note that the Template::Perl::PERLOUT
handle is selected (tied to an output buffer) instead of STDOUT
.
[% PERL %]
print "foo\n"; # OK
print PERLOUT "bar\n"; # OK, same as above
print Template::Perl::PERLOUT "baz\n"; # OK, same as above
print STDOUT "qux\n"; # WRONG!
[% END %]
The PERL
block may contain other template directives. These are processed before the Perl code is evaluated.
[% name = 'Fred Smith' %]
[% PERL %]
print "[% name %]\n";
[% END %]
Thus, the Perl code in the above example is evaluated as:
print "Fred Smith\n";
Exceptions may be thrown from within PERL
blocks using die()
. They will be correctly caught by enclosing TRY
blocks.
[% TRY %]
[% PERL %]
die "nothing to live for\n";
[% END %]
[% CATCH %]
error: [% error.info %]
[% END %]
output: error: nothing to live for
(for the very advanced reader)
The Template Toolkit parser reads a source template and generates the text of a Perl subroutine as output. It then uses eval()
to evaluate it into a subroutine reference. This subroutine is then called to process the template, passing a reference to the current Template::Context object through which the functionality of the Template Toolkit can be accessed. The subroutine reference can be cached, allowing the template to be processed repeatedly without requiring any further parsing.
For example, a template such as:
[% PROCESS header %]
The [% animal %] sat on the [% location %]
[% PROCESS footer %]
is converted into the following Perl subroutine definition:
sub {
my $context = shift;
my $stash = $context->stash;
my $output = '';
my $error;
eval { BLOCK: {
$output .= $context->process('header');
$output .= "The ";
$output .= $stash->get('animal');
$output .= " sat on the ";
$output .= $stash->get('location');
$output .= $context->process('footer');
$output .= "\n";
} };
if ($@) {
$error = $context->catch($@, \$output);
die $error unless $error->type eq 'return';
}
return $output;
}
To examine the Perl code generated, such as in the above example, set the $Template::Parser::DEBUG
package variable to any true value. You can also set the $Template::Directive::PRETTY
variable true to have the code formatted in a readable manner for human consumption. The source code for each generated template subroutine will be printed to STDERR
on compilation (i.e. the first time a template is used).
$Template::Parser::DEBUG = 1;
$Template::Directive::PRETTY = 1;
$template->process($file, $vars)
|| die $template->error(), "\n";
The PERL
... END
construct allows Perl code to be embedded into a template when the EVAL_PERL
option is set. It is evaluated at "runtime" using eval()
each time the template subroutine is called. This is inherently flexible, but not as efficient as it could be, especially in a persistent server environment where a template may be processed many times.
The RAWPERL
directive allows you to write Perl code that is integrated directly into the generated Perl subroutine text. It is evaluated once at compile time and is stored in cached form as part of the compiled template subroutine. This makes RAWPERL
blocks more efficient than PERL
blocks.
The downside is that you must code much closer to the metal. For example, in a PERL
block you can call print() to generate some output. RAWPERL
blocks don't afford such luxury. The code is inserted directly into the generated subroutine text and should conform to the convention of appending to the $output
variable.
[% PROCESS header %]
[% RAWPERL %]
$output .= "Some output\n";
...
$output .= "Some more output\n";
[% END %]
The critical section of the generated subroutine for this example would then look something like:
...
eval { BLOCK: {
$output .= $context->process('header');
$output .= "\n";
$output .= "Some output\n";
...
$output .= "Some more output\n";
$output .= "\n";
} };
...
As with PERL
blocks, the $context and $stash references are pre-defined and available for use within RAWPERL
code.
(more advanced material)
The Template Toolkit supports fully functional, nested exception handling. The TRY
directive introduces an exception handling scope which continues until the matching END
directive. Any errors that occur within that block will be caught and can be handled by one of the CATCH
blocks defined.
[% TRY %]
...blah...blah...
[% CALL somecode %]
...etc...
[% INCLUDE someblock %]
...and so on...
[% CATCH %]
An error occurred!
[% END %]
Errors are raised as exceptions (objects of the Template::Exception class) which contain two fields: type
and info
. The exception type
is used to indicate the kind of error that occurred. It is a simple text string which can contain letters, numbers, '_
' or '.
'. The info
field contains an error message indicating what actually went wrong. Within a catch block, the exception object is aliased to the error
variable. You can access the type
and info
fields directly.
[% mydsn = 'dbi:MySQL:foobar' %]
...
[% TRY %]
[% USE DBI(mydsn) %]
[% CATCH %]
ERROR! Type: [% error.type %]
Info: [% error.info %]
[% END %]
output (assuming a non-existent database called 'foobar
'):
ERROR! Type: DBI
Info: Unknown database "foobar"
The error
variable can also be specified by itself and will return a string of the form "$type error - $info
".
...
[% CATCH %]
ERROR: [% error %]
[% END %]
Output:
ERROR: DBI error - Unknown database "foobar"
Each CATCH
block may be specified with a particular exception type denoting the kind of error that it should catch. Multiple CATCH
blocks can be provided to handle different types of exception that may be thrown in the TRY
block. A CATCH
block specified without any type, as in the previous example, is a default handler which will catch any otherwise uncaught exceptions. This can also be specified as [% CATCH DEFAULT %]
.
[% TRY %]
[% INCLUDE myfile %]
[% USE DBI(mydsn) %]
[% CALL somecode %]
[% CATCH file %]
File Error! [% error.info %]
[% CATCH DBI %]
[% INCLUDE database/error.html %]
[% CATCH %]
[% error %]
[% END %]
Remember that you can specify multiple directives within a single tag, each delimited by ';
'. So the above example can be written more concisely as:
[% TRY;
INCLUDE myfile;
USE DBI(mydsn);
CALL somecode;
CATCH file;
"File Error! $error.info";
CATCH DBI;
INCLUDE database/error.html;
CATCH;
error;
END
%]
The DBI
plugin throws exceptions of the DBI
type (in case that wasn't already obvious). The other specific exception caught here is of the file
type.
A file
exception is automatically thrown by the Template Toolkit when it can't find a file, or fails to load, parse or process a file that has been requested by an INCLUDE
, PROCESS
, INSERT
or WRAPPER
directive. If myfile
can't be found in the example above, the [% INCLUDE myfile %]
directive will raise a file
exception which is then caught by the [% CATCH file %]
block. The output generated would be:
File Error! myfile: not found
Note that the DEFAULT
option (disabled by default) allows you to specify a default file to be used any time a template file can't be found. This will prevent file exceptions from ever being raised when a non-existent file is requested (unless, of course, the DEFAULT
file your specify doesn't exist). Errors encountered once the file has been found (i.e. read error, parse error) will be raised as file exceptions as per usual.
Uncaught exceptions (i.e. if the TRY
block doesn't have a type specific or default CATCH
handler) may be caught by enclosing TRY
blocks which can be nested indefinitely across multiple templates. If the error isn't caught at any level then processing will stop and the Template process() method will return a false value to the caller. The relevant Template::Exception object can be retrieved by calling the error() method.
[% TRY %]
...
[% TRY %]
[% INCLUDE $user.header %]
[% CATCH file %]
[% INCLUDE header %]
[% END %]
...
[% CATCH DBI %]
[% INCLUDE database/error.html %]
[% END %]
In this example, the inner TRY
block is used to ensure that the first INCLUDE
directive works as expected. We're using a variable to provide the name of the template we want to include, user.header
, and it's possible this contains the name of a non-existent template, or perhaps one containing invalid template directives. If the INCLUDE
fails with a file
error then we CATCH
it in the inner block and INCLUDE
the default header
file instead. Any DBI
errors that occur within the scope of the outer TRY
block will be caught in the relevant CATCH
block, causing the database/error.html
template to be processed. Note that included templates inherit all currently defined template variable so these error files can quite happily access the <error> variable to retrieve information about the currently caught exception. For example, the database/error.html
template might look like this:
<h2>Database Error</h2>
A database error has occurred: [% error.info %]
You can also specify a FINAL
block. This is always processed regardless of the outcome of the TRY
and/or CATCH
blocks. If an exception is uncaught then the FINAL
block is processed before jumping to the enclosing block or returning to the caller.
[% TRY %]
...
[% CATCH this %]
...
[% CATCH that %]
...
[% FINAL %]
All done!
[% END %]
The output from the TRY
block is left intact up to the point where an exception occurs. For example, this template:
[% TRY %]
This gets printed
[% THROW food 'carrots' %]
This doesn't
[% CATCH food %]
culinary delights: [% error.info %]
[% END %]
generates the following output:
This gets printed
culinary delights: carrots
The CLEAR
directive can be used in a CATCH
or FINAL
block to clear any output created in the TRY
block.
[% TRY %]
This gets printed
[% THROW food 'carrots' %]
This doesn't
[% CATCH food %]
[% CLEAR %]
culinary delights: [% error.info %]
[% END %]
Output:
culinary delights: carrots
Exception types are hierarchical, with each level being separated by the familiar dot operator. A DBI.connect
exception is a more specific kind of DBI
error. Similarly, an example.error.barf
is a more specific kind of example.error
type which itself is also a example
error.
A CATCH
handler that specifies a general exception type (such as DBI
or example.error
) will also catch more specific types that have the same prefix as long as a more specific handler isn't defined. Note that the order in which CATCH
handlers are defined is irrelevant; a more specific handler will always catch an exception in preference to a more generic or default one.
[% TRY %]
...
[% CATCH DBI ;
INCLUDE database/error.html ;
CATCH DBI.connect ;
INCLUDE database/connect.html ;
CATCH ;
INCLUDE error.html ;
END
%]
In this example, a DBI.connect
error has it's own handler, a more general DBI
block is used for all other DBI
or DBI.*
errors and a default handler catches everything else.
Exceptions can be raised in a template using the THROW
directive. The first parameter is the exception type which doesn't need to be quoted (but can be, it's the same as INCLUDE
) followed by the relevant error message which can be any regular value such as a quoted string, variable, etc.
[% THROW food "Missing ingredients: $recipe.error" %]
[% THROW user.login 'no user id: please login' %]
[% THROW $myerror.type "My Error: $myerror.info" %]
It's also possible to specify additional positional or named parameters to the THROW
directive if you want to pass more than just a simple message back as the error info field.
[% THROW food 'eggs' 'flour' msg='Missing Ingredients' %]
In this case, the error info
field will be a hash array containing the named arguments and an args
item which contains a list of the positional arguments.
type => 'food',
info => {
msg => 'Missing Ingredients',
args => ['eggs', 'flour'],
}
In addition to specifying individual positional arguments as [% error.info.args.n %]
, the info
hash contains keys directly pointing to the positional arguments, as a convenient shortcut.
[% error.info.0 %] # same as [% error.info.args.0 %]
Exceptions can also be thrown from Perl code which you've bound to template variables, or defined as a plugin or other extension. To raise an exception, call die()
passing a reference to a Template::Exception object as the argument. This will then be caught by any enclosing TRY
blocks from where the code was called.
use Template::Exception;
...
my $vars = {
foo => sub {
# ... do something ...
die Template::Exception->new('myerr.naughty',
'Bad, bad error');
},
};
Template:
[% TRY %]
[% foo %]
[% CATCH myerr ;
"Error: $error" ;
END
%]
Output:
Error: myerr.naughty error - Bad, bad error
The info
field can also be a reference to another object or data structure, if required.
die Template::Exception->new('myerror', {
module => 'foo.pl',
errors => [ 'bad permissions', 'naughty boy' ],
});
Later, in a template:
[% TRY %]
...
[% CATCH myerror %]
[% error.info.errors.size or 'no';
error.info.errors.size == 1 ? ' error' : ' errors' %]
in [% error.info.module %]:
[% error.info.errors.join(', ') %].
[% END %]
Generating the output:
2 errors in foo.pl:
bad permissions, naughty boy.
You can also call die()
with a single string, as is common in much existing Perl code. This will automatically be converted to an exception of the 'undef
' type (that's the literal string 'undef
', not the undefined value). If the string isn't terminated with a newline then Perl will append the familiar " at $file line $line"
message.
sub foo {
# ... do something ...
die "I'm sorry, Dave, I can't do that\n";
}
If you're writing a plugin, or some extension code that has the current Template::Context in scope (you can safely skip this section if this means nothing to you) then you can also raise an exception by calling the context throw() method. You can pass it an Template::Exception object reference, a pair of ($type, $info)
parameters or just an $info
string to create an exception of 'undef
' type.
$context->throw($e); # exception object
$context->throw('Denied'); # 'undef' type
$context->throw('user.passwd', 'Bad Password');
The NEXT
directive can be used to start the next iteration of a FOREACH
or WHILE
loop.
[% FOREACH user IN users %]
[% NEXT IF user.isguest %]
Name: [% user.name %] Email: [% user.email %]
[% END %]
The LAST
directive can be used to prematurely exit a FOREACH
or WHILE
loop.
[% FOREACH user IN users %]
Name: [% user.name %] Email: [% user.email %]
[% LAST IF some.condition %]
[% END %]
BREAK
can also be used as an alias for LAST
.
The RETURN
directive can be used to stop processing the current template and return to the template from which it was called, resuming processing at the point immediately after the INCLUDE
, PROCESS
or WRAPPER
directive. If there is no enclosing template then the Template process() method will return to the calling code with a true value.
Before
[% INCLUDE half_wit %]
After
[% BLOCK half_wit %]
This is just half...
[% RETURN %]
...a complete block
[% END %]
Output:
Before
This is just half...
After
The STOP
directive can be used to indicate that the processor should stop gracefully without processing any more of the template document. This is a planned stop and the Template process() method will return a true value to the caller. This indicates that the template was processed successfully according to the directives within it.
[% IF something.terrible.happened %]
[% INCLUDE fatal/error.html %]
[% STOP %]
[% END %]
[% TRY %]
[% USE DBI(mydsn) %]
...
[% CATCH DBI.connect %]
<h1>Cannot connect to the database: [% error.info %]</h1>
<p>
We apologise for the inconvenience.
</p>
[% INCLUDE footer %]
[% STOP %]
[% END %]
The CLEAR
directive can be used to clear the output buffer for the current enclosing block. It is most commonly used to clear the output generated from a TRY
block up to the point where the error occurred.
[% TRY %]
blah blah blah # this is normally left intact
[% THROW some 'error' %] # up to the point of error
...
[% CATCH %]
[% CLEAR %] # clear the TRY output
[% error %] # print error string
[% END %]
The META
directive allows simple metadata items to be defined within a template. These are evaluated when the template is parsed and as such may only contain simple values (e.g. it's not possible to interpolate other variables values into META
variables).
[% META
title = 'The Cat in the Hat'
author = 'Dr. Seuss'
version = 1.23
%]
The template
variable contains a reference to the main template being processed. These metadata items may be retrieved as attributes of the template.
<h1>[% template.title %]</h1>
<h2>[% template.author %]</h2>
The name
and modtime
metadata items are automatically defined for each template to contain its name and modification time in seconds since the epoch.
[% USE date %] # use Date plugin to format time
...
[% template.name %] last modified
at [% date.format(template.modtime) %]
The PRE_PROCESS
and POST_PROCESS
options allow common headers and footers to be added to all templates. The template
reference is correctly defined when these templates are processed, allowing headers and footers to reference metadata items from the main template.
$template = Template->new({
PRE_PROCESS => 'header',
POST_PROCESS => 'footer',
});
$template->process('cat_in_hat');
header:
<html>
<head>
<title>[% template.title %]</title>
</head>
<body>
cat_in_hat:
[% META
title = 'The Cat in the Hat'
author = 'Dr. Seuss'
version = 1.23
year = 2000
%]
The cat in the hat sat on the mat.
footer:
<hr>
© [% template.year %] [% template.author %]
</body>
</html>
The output generated from the above example is:
<html>
<head>
<title>The Cat in the Hat</title>
</head>
<body>
The cat in the hat sat on the mat.
<hr>
© 2000 Dr. Seuss
</body>
</html>
The TAGS
directive can be used to set the START_TAG
and END_TAG
values on a per-template file basis.
[% TAGS <+ +> %]
<+ INCLUDE header +>
The TAGS directive may also be used to set a named TAG_STYLE
[% TAGS html %]
<!-- INCLUDE header -->
See the TAGS and TAG_STYLE configuration options for further details.
The DEBUG
directive can be used to enable or disable directive debug messages within a template. The DEBUG
configuration option must be set to include DEBUG_DIRS
for the DEBUG
directives to have any effect. If DEBUG_DIRS
is not set then the parser will automatically ignore and remove any DEBUG
directives.
The DEBUG
directive can be used with an on
or off
parameter to enable or disable directive debugging messages from that point forward. When enabled, the output of each directive in the generated output will be prefixed by a comment indicate the file, line and original directive text.
[% DEBUG on %]
directive debugging is on (assuming DEBUG option is set true)
[% DEBUG off %]
directive debugging is off
The format
parameter can be used to change the format of the debugging message.
[% DEBUG format '<!-- $file line $line : [% $text %] -->' %]