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Template::Alloy(3) User Contributed Perl Documentation Template::Alloy(3)

Template::Alloy - TT2/3, HT, HTE, Tmpl, and Velocity Engine

    my $t = Template::Alloy->new(
        INCLUDE_PATH => ['/path/to/templates'],
    );

    my $swap = {
        key1 => 'val1',
        key2 => 'val2',
        code => sub { 42 },
        hash => {a => 'b'},
    };

    # print to STDOUT
    $t->process('my/template.tt', $swap)
        || die $t->error;

    # process into a variable
    my $out = '';
    $t->process('my/template.tt', $swap, \$out);

    ### Alloy uses the same syntax and configuration as Template::Toolkit

    my $t = Template::Alloy->new(
        filename => 'my/template.ht',
        path     => ['/path/to/templates'],
    );

    my $swap = {
        key1 => 'val1',
        key2 => 'val2',
        code => sub { 42 },
        hash => {a => 'b'},
    };

    $t->param($swap);

    # print to STDOUT (errors die)
    $t->output(print_to => \*STDOUT);

    # process into a variable
    my $out = $t->output;

    ### Alloy can also use the same syntax and configuration as HTML::Template

    my $t = Template::Alloy->new;

    my $swap = {
        key1 => 'val1',
        key2 => 'val2',
        code => sub { 42 },
        hash => {a => 'b'},
    };

    $t->set_delimiters('#[', ']#');
    $t->set_strip(0);
    $t->set_values($swap);
    $t->set_dir('/path/to/templates');

    my $out = $t->parse_file('my/template.tmpl');

    my $str = "Foo #[echo $key1]# Bar";
    my $out = $t->parse_string($str);


    ### Alloy uses the same syntax and configuration as Text::Tmpl

    my $t = Template::Alloy->new;

    my $swap = {
        key1 => 'val1',
        key2 => 'val2',
        code => sub { 42 },
        hash => {a => 'b'},
    };

    my $out = $t->merge('my/template.vtl', $swap);

    my $str = "#set($foo 1 + 3) ($foo) ($bar) ($!baz)";
    my $out = $t->merge(\$str, $swap);

    my $t = Template::Alloy->new;

    my $swap = {
        key1 => 'val1',
        key2 => 'val2',
        code => sub { 42 },
        hash => {a => 'b'},
    };

    my $out = '';
    $t->process_js('my/template.jstem', $swap, \$out);

    my $str = "[% var foo = 1 + 3; write('(' + foo + ') (' + get('key1') + ')'); %]";
    my $out = '';
    $t->process_js(\$str, $swap, \$out);

"An alloy is a homogeneous mixture of two or more elements" (http://en.wikipedia.org/wiki/Alloy).

Template::Alloy represents the mixing of features and capabilities from all of the major mini-language based template systems (support for non-mini-language based systems will happen eventually). With Template::Alloy you can use your favorite template interface and syntax and get features from each of the other major template systems. And Template::Alloy is fast - whether your using mod_perl, CGI, or running from the commandline. There is even Template::Alloy::JS for getting a little more speed when that is necessary.

Template::Alloy happened by accident (accidentally on purpose). The Template::Alloy (Alloy hereafter) was originally a part of the CGI::Ex suite that performed simple variable interpolation. It used TT2 style variables in TT2 style tags "[% foo.bar %]". That was all the original Template::Alloy did. This was fine and dandy for a couple of years. In winter of 2005-2006 Alloy was revamped to add a few features. One thing led to another and soon Alloy provided for most of the features of TT2 as well as some from TT3. Template::Alloy now provides a full-featured implementation of the Template::Toolkit language.

After a move to a new company that was using HTML::Template::Expr and Text::Tmpl templates, support was investigated and interfaces for HTML::Template, HTML::Template::Expr, Text::Tmpl, and Velocity (VTL) were added. All of the various engines offer the same features - each using a different syntax and interface.

More recently, the Template::Alloy::JS capabilities were introduced to bring Javascript templates to the server side (along with an increase in speed if ran in persistent environments).

Template::Toolkit brought the most to the table. HTML::Template brought the LOOP directive. HTML::Template::Expr brought more vmethods and using vmethods as top level functions. Text::Tmpl brought the COMMENT directive and encouraged speed matching (Text::Tmpl is almost entirely C based and is very fast). The Velocity engine brought AUTO_EVAL and SHOW_UNDEFINED_INTERP.

Most of the standard Template::Toolkit documentation covering directives, variables, configuration, plugins, filters, syntax, and vmethods should apply to Alloy just fine (This pod tries to explain everything - but there is too much). See Template::Alloy::TT for a listing of the differences between Alloy and TT.

Most of the standard HTML::Template and HTML::Template::Expr documentation covering methods, variables, expressions, and syntax will apply to Alloy just fine as well.

Most of the standard Text::Tmpl documentation applies, as does the documentation covering Velocity (VTL).

So should you use Template::Alloy ? Well, try it out. It may give you no visible improvement. Or it could.

Template::Alloy uses a recursive regex based grammar (early versions during the CGI::Ex::Template phase did not). This allows for the embedding of opening and closing tags inside other tags (as in [% a = "[% 1 + 2 %]" ; a|eval %]). The individual methods such as parse_expr and play_expr may be used by external applications to add TT style variable parsing to other applications.

The regex parser returns an AST (abstract syntax tree) of the text, directives, variables, and expressions. All of the different template syntax options compile to the same AST format. The AST is composed only of scalars and arrayrefs and is suitable for sending to JavaScript via JSON or sharing with other languages. The parse_tree method is used for returning this AST.

Once at the AST stage, there are two modes of operation. Alloy can either operate directly on the AST using the Play role, or it can compile the AST to perl code via the Compile role, and then execute the code. To use the perl code route, you must set the COMPILE_PERL flag to 1. If you are running in a cached-in-memory environment such as mod_perl, this is the fastest option. If you are running in a non-cached-in-memory environment, then using the Play role to run the AST is generally faster. The AST method is also more secure as cached AST won't ever eval any "perl" (assuming PERL blocks are disabled - which is the default).

Template::Alloy has split out its functionality into discrete roles. In Template::Toolkit, this functionality is split into separate classes. The roles in Template::Alloy simply add on more methods to the main class. When Perl 6 arrives, these roles will be translated into true Roles.

The following is a list of roles used by Template::Alloy.

    Template::Alloy::Compile  - Compile-to-perl role
    Template::Alloy::HTE      - HTML::Template::Expr role
    Template::Alloy::Operator - Operator role
    Template::Alloy::Parse    - Parse-to-AST role
    Template::Alloy::Play     - Play-AST role
    Template::Alloy::Stream   - Stream output role
    Template::Alloy::Tmpl     - Text::Tmpl role
    Template::Alloy::TT       - Template::Toolkit role
    Template::Alloy::Velocity - Velocity role
    Template::Alloy::VMethod  - Virtual methods role

    Template::Alloy::JS       - Javascript functionality - available separately

Template::Alloy automatically loads the roles when they are needed or requested - but not sooner (with the exception of the Operator role and the VMethod role which are always needed and always loaded). This is good for a CGI environment. In mod_perl you may want to preload a role to make the most of shared memory. You may do this by passing either the role name or a method supplied by that role.

    # import roles necessary for running TT
    use Template::Alloy qw(Parse Play Compile TT);

    # import roles based on methods
    use Template::Alloy qw(parse_tree play_tree compile_tree process);

Note: importing roles by method names does not import them into that namespace - it is autoloading the role and methods into the Template::Alloy namespace. To help make this more clear you may use the following syntax as well.

    # import roles necessary for running TT
    use Template::Alloy load => qw(Parse Play Compile TT);

    # import roles based on methods
    use Template::Alloy load => qw(process parse_tree play_tree compile_tree);

    # import roles based on methods
    use Template::Alloy
        Parse => 1,
        Play => 1,
        Compile => 1,
        TT => 1;

Even with all roles loaded Template::Alloy is still relatively small. You can load all of the roles (except the JS role) by passing "all" to the use statement.

    use Template::Alloy 'all';

    # or
    use Template::Alloy load => 'all';

    # or
    use Template::Alloy all => 1;

As a final option, Template::Alloy also includes the ability to stand-in for other template modules. It is able to do this because it supports the majority of the interface of the other template systems. You can do this in the following way:

    use Template::Alloy qw(Text::Tmpl HTML::Template);

    # or
    use Template::Alloy load => qw(Text::Tmpl HTML::Template);

    # or
    use Template::Alloy
        'Text::Tmpl'     => 1,
        'HTML::Template' => 1;

Note that the use statement will die if any of the passed module names are already loaded and not subclasses of Template::Alloy. This will avoid thinking that you are using Template::Alloy when you really aren't. Using the 'all' option won't automatically do this - you must mention the "stood-in" modules by name.

The following modules may be "stood-in" for:

    Template
    Text::Tmpl
    HTML::Template
    HTML::Template::Expr

This feature is intended to make using Template::Alloy with existing code easier. Most cases should work just fine. Almost all syntax will just work (except Alloy may make some things work that were previously broken). However Template::Alloy doesn't support 100% of the interface of any of the template systems. If you are using "features-on-the-edge" then you may need to re-write portions of your code that interact with the template system.

The following section lists most of the publicly available methods. Some less commonly used public methods are listed later in this document.
"new"
    my $obj = Template::Alloy->new({
        INCLUDE_PATH => ['/my/path/to/content', '/my/path/to/content2'],
    });
    

Arguments may be passed as a hash or as a hashref. Returns a Template::Alloy object.

There are currently no errors during Template::Alloy object creation. If you are using the HTML::Template interface, this is different behavior. The document is not parsed until the output or process methods are called.

"process"
This is the TT interface for starting processing. Any errors that result in the template processing being stopped will be stored and available via the ->error method.

    my $t = Template::Alloy->new;
    $t->process($in, $swap, $out)
        || die $t->error;
    

Process takes three arguments.

The $in argument can be any one of:

    String containing the filename of the template to be processed.
    The filename should be relative to INCLUDE_PATH.  (See
    INCLUDE_PATH, ABSOLUTE, and RELATIVE configuration items).  In
    memory caching and file side caching are available for this type.

    A reference to a scalar containing the contents of the template to be processed.

    A coderef that will be called to return the contents of the template.

    An open filehandle that will return the contents of the template when read.
    

The $swap argument should be hashref containing key value pairs that will be available to variables swapped into the template. Values can be hashrefs, hashrefs of hashrefs and so on, arrayrefs, arrayrefs of arrayrefs and so on, coderefs, objects, and simple scalar values such as numbers and strings. See the section on variables.

The $out argument can be any one of:

    undef - meaning to print the completed template to STDOUT.

    String containing a filename.  The completed template will be placed in the file.

    A reference to a string.  The contents will be appended to the scalar reference.

    A coderef.  The coderef will be called with the contents as a single argument.

    An object that can run the method "print".  The contents will be passed as
    a single argument to print.

    An arrayref.  The contents will be pushed onto the array.

    An open filehandle.  The contents will be printed to the open handle.
    

Additionally - the $out argument can be configured using the OUTPUT configuration item.

The process method defaults to using the "cet" syntax which will parse TT3 and most TT2 documents. To parse HT or HTE documents, you must pass the SYNTAX configuration item to the "new" method. All calls to process would then default to HTE syntax.

    my $obj = Template::Alloy->new(SYNTAX => 'hte');
    
"process_simple"
Similar to the process method but with the following restrictions:

The $in parameter is limited to a filename or a reference a string containing the contents.

The $out parameter may only be a reference to a scalar string that output will be appended to.

Additionally, the following configuration variables will be ignored: VARIABLES, PRE_DEFINE, BLOCKS, PRE_PROCESS, PROCESS, POST_PROCESS, AUTO_RESET, OUTPUT.

"error"
Should something go wrong during a "process" command, the error that occurred can be retrieved via the error method.

    $obj->process('somefile.html', {a => 'b'}, \$string_ref)
        || die $obj->error;
    
"output"
HTML::Template way to process a template. The output method requires that a filename, filehandle, scalarref, or arrayref argument was passed to the new method. All of the HT calling conventions for new are supported. The key difference is that Alloy will not actually process the template until the output method is called.

    my $obj = Template::Alloy->new(filename => 'myfile.html');
    $obj->param(\%swap);
    print $obj->output;
    

See the HTML::Template documentation for more information.

The output method defaults to using the "hte" syntax which will parse HTE and HT documents. To parse TT3 or TT2 documents, you must pass the SYNTAX configuration item to the "new" method. All calls to process would then default to TT3 syntax.

    my $obj = Template::Alloy->new(SYNTAX => 'tt3');
    

Any errors that occur during the output method will die with the error as the die value.

"param"
HTML::Template way to get or set variable values that will be used by the output method.

    my $val = $obj->param('key'); # get one value

    $obj->param(key => $val);     # set one value

    $obj->param(key => $val, key2 => $val2);   # set multiple

    $obj->param({key => $val, key2 => $val2}); # set multiple
    

See the HTML::Template documentation for more information.

Note: Alloy does not support the die_on_bad_params configuration. This is because Alloy does not resolve variable names until the output method is called.

"define_vmethod"
This method is available for defining extra Virtual methods or filters. This method is similar to Template::Stash::define_vmethod.

    Template::Alloy->define_vmethod(
        'text',
        reverse => sub { my $item = shift; return scalar reverse $item },
    );
    
"register_function"
This is the HTML::Template way of defining text vmethods. It is the same as calling define_vmethod with "text" as the first argument.

    Template::Alloy->register_function(
        reverse => sub { my $item = shift; return scalar reverse $item },
    );
    
"define_directive"
This method can be used for adding new directives or overridding existing ones.

   Template::Alloy->define_directive(
       MYDIR => {
           parse_sub => sub {}, # parse additional items in the tag
           play_sub  => sub {
               my ($self, $ref, $node, $out_ref) = @_;
               $$out_ref .= "I always say the same thing!";
               return;
           },
           is_block  => 1,  # is this block like
           is_postop => 0,  # not a post operative directive
           no_interp => 1,  # no interpolation in this block
           continues => undef, # it doesn't "continue" any other directives
       },
   );
    

Now with a template like:

   my $str = "([% MYDIR %]This is something[% END %])";
   Template::Alloy->new->process(\$str);
    

You will get:

   (I always say the same thing!)
    

We'll add more details in later revisions of this document.

"define_syntax"
This method can be used for adding another syntax to or overriding existing ones in the list of choices available in Alloy. The syntax can be chosen by the SYNTAX configuration item.

    Template::Alloy->define_syntax(
        my_uber_syntax => sub {
            my $self = shift;
            local $self->{'V2PIPE'}      = 0;
            local $self->{'V2EQUALS'}    = 0;
            local $self->{'PRE_CHOMP'}   = 0;
            local $self->{'POST_CHOMP'}  = 0;
            local $self->{'NO_INCLUDES'} = 0;
            return $self->parse_tree_tt3(@_);
        },
    );
    

The subroutine that is used must return an opcode tree (AST) that can be played by the execute_tree method.

"define_operator"
This method allows for adding new operators or overriding existing ones.

    Template::Alloy->define_operator({
        type       => 'right', # can be one of prefix, postfix, right, left, none, ternary, assign
        precedence => 84,      # relative precedence for resolving multiple operators without parens
        symbols    => ['foo', 'FOO'], # any mix of chars can be used for the operators
        play_sub   => sub {
            my ($one, $two) = @_;
            return "You've been foo'ed ($one, $two)";
        },
    });
    

You can then use it in a template as in the following:

   my $str = "[% 'ralph' foo 1 + 2 * 3 %]";
   Template::Alloy->new->process(\$str);
    

You will get:

   You've been foo'ed (ralph, 7)
    

Future revisions of this document will include more samples. This is an experimental feature and the API will probably change.

"dump_parse_tree"
This method allows for returning a Data::Dumper dump of a parsed template. It is mainly used for testing.
"dump_parse_expr"
This method allows for returning a Data::Dumper dump of a parsed variable. It is mainly used for testing.
"import"
All of the arguments that can be passed to "use" that are listed above in the section dealing with ROLES, can be used with the import method.

    # import by role
    Template::Alloy->import(qw(Compile Play Parse TT));

    # import by method
    Template::Alloy->import(qw(compile_tree play_tree parse_tree process));

    # import by "stand-in" class
    Template::Alloy->import('Text::Tmpl', 'HTML::Template::Expr');
    

As mentioned in the ROLE section - arguments passed to import are not imported into current namespace. Roles and methods are only imported into the Template::Alloy namespace.

This section discusses how to use variables and expressions in the TT mini-language.

A variable is the most simple construct to insert into the TT mini language. A variable name will look for the matching value inside Template::Alloys internal stash of variables which is essentially a hash reference. This stash is initially populated by either passing a hashref as the second argument to the process method, or by setting the "VARIABLES" or "PRE_DEFINE" configuration variables.

If you are using either the HT or the HTE syntax, the VAR, IF, UNLESS, LOOP, and INCLUDE directives will accept a NAME attribute which may only be a single level (non-chained) HTML::Template variable name, or they may accept an EXPR attribute which may be any valid TT3 variable or expression.

The following are some sample ways to access variables.

    ### some sample variables
    my %vars = (
        one       => '1.0',
        foo       => 'bar',
        vname     => 'one',
        some_code => sub { "You passed me (".join(', ', @_).")" },
        some_data => {
            a     => 'A',
            bar   => 3234,
            c     => [3, 1, 4, 1, 5, 9],
            vname => 'one',
        },
        my_list   => [20 .. 50],
        cet       => Template::Alloy->new,
    );

    ### pass the variables into the Alloy process
    $cet->process($template_name, \%vars)
         || die $cet->error;

    ### pass the variables during object creation (will be available to every process call)
    my $cet = Template::Alloy->new(VARIABLES => \%vars);

Once you have variables defined, they can be used directly in the template by using their name in the stash. Or by using the GET directive.

    [% foo %]
    [% one %]
    [% GET foo %]

Would print when processed:

    bar
    1.0
    bar

To access members of a hashref or an arrayref, you can chain together the names using a ".".

    [% some_data.a %]
    [% my_list.0] [% my_list.1 %] [% my_list.-1 %]
    [% some_data.c.2 %]

Would print:

    A
    20 21 50
    4

If the value of a variable is a code reference, it will be called. You can add a set of parenthesis and arguments to pass arguments. Arguments are variables and can be as complex as necessary.

    [% some_code %]
    [% some_code() %]
    [% some_code(foo) %]
    [% some_code(one, 2, 3) %]

Would print:

    You passed me ().
    You passed me ().
    You passed me (bar).
    You passed me (1.0, 2, 3).

If the value of a variable is an object, methods can be called using the "." operator.

    [% cet %]

    [% cet.dump_parse_expr('1 + 2').replace('\s+', ' ') %]

Would print something like:

    Template::Alloy=HASH(0x814dc28)

    $VAR1 = [ [ undef, '+', '1', '2' ], 0 ];

Each type of data (string, array and hash) have virtual methods associated with them. Virtual methods allow for access to functions that are commonly used on those types of data. For the full list of built in virtual methods, please see the section titled VIRTUAL METHODS

    [% foo.length %]
    [% my_list.size %]
    [% some_data.c.join(" | ") %]

Would print:

    3
    31
    3 | 1 | 4 | 5 | 9

It is also possible to "interpolate" variable names using a "$". This allows for storing the name of a variable inside another variable. If a variable name is a little more complex it can be embedded inside of "${" and "}".

    [% $vname %]
    [% ${vname} %]
    [% ${some_data.vname} %]
    [% some_data.$foo %]
    [% some_data.${foo} %]

Would print:

    1.0
    1.0
    1.0
    3234
    3234

In Alloy it is also possible to embed any expression (non-directive) in "${" and "}" and it is possible to use non-integers for array access. (This is not available in TT2)

    [% ['a'..'z'].${ 2.3 } %]
    [% {ab => 'AB'}.${ 'a' ~ 'b' } %]
    [% color = qw/Red Blue/; FOR [1..4] ; color.${ loop.index % color.size } ; END %]

Would print:

    c
    AB
    RedBlueRedBlue

To define variables during processing, you can use the = operator. In most cases this is the same as using the SET directive.

    [% a = 234 %][% a %]
    [% SET b = "Hello" %][% b %]

Would print:

    234
    Hello

It is also possible to create arrayrefs and hashrefs.

    [% a = [1, 2, 3] %]
    [% b = {key1 => 'val1', 'key2' => 'val2'} %]

    [% a.1 %]
    [% b.key1 %] [% b.key2 %]

Would print:

    2
    val1 val2

It is possible to set multiple values in the same SET directive.

    [% SET a = 'A'
           b = 'B'
           c = 'C' %]
    [% a %]    [% b %]    [% c %]

Would print:

    A    B    C

It is also possible to unset variables, or to set members of nested data structures.

    [% a = 1 %]
    [% SET a %]

    [% b.0.c = 37 %]

    ([% a %])
    [% b.0.c %]

Would print

    ()
    37

The following are the types of literals (numbers and strings) and constructors (hash and array constructs) allowed in Alloy. They can be used as arguments to functions, in place of variables in directives, and in place of variables in expressions. In Alloy it is also possible to call virtual methods on literal values.
Integers and Numbers.
    [% 23423   %]        Prints an integer.
    [% 3.14159 %]        Prints a number.
    [% pi = 3.14159 %]   Sets the value of the variable.
    [% 3.13159.length %] Prints 7 (the string length of the number)
    

Scientific notation is supported.

    [% 314159e-5 + 0 %]      Prints 3.14159.

    [% .0000001.fmt('%.1e') %]  Prints 1.0e-07
    

Hexadecimal input is also supported.

    [% 0xff + 0 %]    Prints 255

    [% 48875.fmt('%x') %]  Prints beeb
    
Single quoted strings.
Returns the string. No variable interpolation happens.

    [% 'foobar' %]          Prints "foobar".
    [% '$foo\n' %]          Prints "$foo\\n".  # the \\n is a literal "\" and an "n"
    [% 'That\'s nice' %]    Prints "That's nice".
    [% str = 'A string' %]  Sets the value of str.
    [% 'A string'.split %]  Splits the string on ' ' and returns the list.
    

Note: virtual methods can only be used on literal strings in Alloy, not in TT.

You may also embed the current tags in strings (Alloy only).

    [% '[% 1 + 2 %]' | eval %]  Prints "3"
    
Double quoted strings.
Returns the string. Variable interpolation happens.

    [% "foobar" %]                   Prints "foobar".
    [% "$foo"   %]                   Prints "bar" (assuming the value of foo is bar).
    [% "${foo}" %]                   Prints "bar" (assuming the value of foo is bar).
    [% "foobar\n" %]                 Prints "foobar\n".  # the \n is a newline.
    [% str = "Hello" %]              Sets the value of str.
    [% "foo".replace('foo','bar') %] Prints "bar".
    

Note: virtual methods can only be used on literal strings in Alloy, not in TT.

You may also embed the current tags in strings (Alloy only).

    [% "[% 1 + 2 %]" | eval %]  Prints "3"
    
Array Constructs.
    [% [1, 2, 3] %]               Prints something like ARRAY(0x8309e90).
    [% array1 = [1 .. 3] %]       Sets the value of array1.
    [% array2 = [foo, 'a', []] %] Sets the value of array2.
    [% [4, 5, 6].size %]          Prints 3.
    [% [7, 8, 9].reverse.0 %]     Prints 9.
    

Note: virtual methods can only be used on array contructs in Alloy, not in TT.

Quoted Array Constructs.
    [% qw/1 2 3/ %]                Prints something like ARRAY(0x8309e90).
    [% array1 = qw{Foo Bar Baz} %] Sets the value of array1.
    [% qw[4 5 6].size %]           Prints 3.
    [% qw(Red Blue).reverse.0 %]   Prints Blue.
    

Note: this works in Alloy and is planned for TT3.

Hash Constructs.
    [% {foo => 'bar'} %]                 Prints something like HASH(0x8305880)
    [% hash = {foo => 'bar', c => {}} %] Sets the value of hash.
    [% {a => 'A', b => 'B'}.size %]      Prints 2.
    [% {'a' => 'A', 'b' => 'B'}.size %]  Prints 2.
    [% name = "Tom" %]
    [% {Tom => 'You are Tom',
        Kay => 'You are Kay'}.$name %]   Prints You are Tom
    

Note: virtual methods can only be used on hash contructs in Alloy, not in TT.

Regex Constructs.
    [% /foo/ %]                              Prints (?-xism:foo)
    [% a = /(foo)/i %][% "FOO".match(a).0 %] Prints FOO
    

Note: this works in Alloy and is planned for TT3.

Virtual methods (vmethods) are a TT feature that allow for operating on the swapped template variables.

This document shows some samples of using vmethods. For a full listing of available virtual methods, see Template::Alloy::VMethod.

Expressions are one or more variables or literals joined together with operators. An expression can be used anywhere a variable can be used with the exception of the variable name in the SET directive, and the filename of PROCESS, INCLUDE, WRAPPER, and INSERT.

For a full listing of operators, see Template::Alloy::Operator.

The following section shows some samples of expressions. For a full list of available operators, please see the section titled OPERATORS.

    [% 1 + 2 %]           Prints 3
    [% 1 + 2 * 3 %]       Prints 7
    [% (1 + 2) * 3 %]     Prints 9

    [% x = 2 %]                      # assignments don't return anything
    [% (x = 2) %]         Prints 2   # unless they are in parens
    [% y = 3 %]
    [% x * (y - 1) %]     Prints 4

This section contains the alphabetical list of DIRECTIVES available in Alloy. DIRECTIVES are the "functions" and control structures that work in the various mini-languages. For further discussion and examples beyond what is listed below, please refer to the TT directives documentation or to the appropriate documentation for the particular directive.

The examples given in this section are done using the Template::Toolkit syntax, but can be done in any of the various syntax options. See Template::Alloy::TT, Template::Alloy::HTE, Template::Alloy::Tmpl, and Template::Alloy::Velocity.

    [% IF 1 %]One[% END %]
    [% FOREACH a = [1 .. 3] %]
        a = [% a %]
    [% END %]

    [% SET a = 1 %][% SET a = 2 %][% GET a %]

In TT multiple directives can be inside the same set of '[%' and '%]' tags as long as they are separated by space or semi-colons (;) (The Alloy version of Tmpl allows multiple also - but none of the other syntax options do). Any block directive that can also be used as a post-operative directive (such as IF, WHILE, FOREACH, UNLESS, FILTER, and WRAPPER) must be separated from preceding directives with a semi-colon if it is being used as a block directive. It is more safe to always use a semi-colon. Note: separating by space is only available in Alloy but is a planned TT3 feature.

    [% SET a = 1 ; SET a = 2 ; GET a %]
    [% SET a = 1
       SET a = 2
       GET a
     %]

    [% GET 1
         IF 0   # is a post-operative
       GET 2 %] # prints 2

    [% GET 1;
       IF 0     # it is block based
         GET 2
       END
     %]         # prints 1

The following is the list of directives.

"BLOCK"
Saves a block of text under a name for later use in PROCESS, INCLUDE, and WRAPPER directives. Blocks may be placed anywhere within the template being processed including after where they are used.

    [% BLOCK foo %]Some text[% END %]
    [% PROCESS foo %]

    Would print

    Some text

    [% INCLUDE foo %]
    [% BLOCK foo %]Some text[% END %]

    Would print

    Some text
    

Anonymous BLOCKS can be used for capturing.

    [% a = BLOCK %]Some text[% END %][% a %]

    Would print

    Some text
    

Anonymous BLOCKS can be used with macros.

"BREAK"
Alias for LAST. Used for exiting FOREACH and WHILE loops.
"CALL"
Calls the variable (and any underlying coderefs) as in the GET method, but always returns an empty string.
"CASE"
Used with the SWITCH directive. See the "SWITCH" directive.
"CATCH"
Used with the TRY directive. See the "TRY" directive.
"CLEAR"
Clears any of the content currently generated in the innermost block or template. This can be useful when used in conjunction with the TRY statement to clear generated content if an error occurs later.
"COMMENT"
Will comment out any text found between open and close tags. Note, that the intermediate items are still parsed and END tags must align - but the parsed content will be discarded.

    [% COMMENT %]
       This text won't be shown.
       [% IF 1 %]And this won't either.[% END %]
    [% END %]
    
"CONFIG"
Allow for changing the value of some compile time and runtime configuration options.

    [% CONFIG
        ANYCASE   => 1
        PRE_CHOMP => '-'
    %]
    

The following compile time configuration options may be set:

    ANYCASE
    AUTO_EVAL
    AUTO_FILTER
    CACHE_STR_REFS
    ENCODING
    INTERPOLATE
    POST_CHOMP
    PRE_CHOMP
    SEMICOLONS
    SHOW_UNDEFINED_INTERP
    SYNTAX
    V1DOLLAR
    V2EQUALS
    V2PIPE
    

The following runtime configuration options may be set:

    ADD_LOCAL_PATH
    CALL_CONTEXT
    DUMP
    VMETHOD_FUNCTIONS
    STRICT (can only be enabled, cannot be disabled)
    

If non-named parameters as passed, they will show the current configuration:

   [% CONFIG ANYCASE, PRE_CHOMP %]

   CONFIG ANYCASE = undef
   CONFIG PRE_CHOMP = undef
    
"DEBUG"
Used to reset the DEBUG_FORMAT configuration variable, or to turn DEBUG statements on or off. This only has effect if the DEBUG_DIRS or DEBUG_ALL flags were passed to the DEBUG configuration variable.

    [% DEBUG format '($file) (line $line) ($text)' %]
    [% DEBUG on %]
    [% DEBUG off %]
    
"DEFAULT"
Similar to SET, but only sets the value if a previous value was not defined or was zero length.

    [% DEFAULT foo = 'bar' %][% foo %] => 'bar'

    [% foo = 'baz' %][% DEFAULT foo = 'bar' %][% foo %] => 'baz'
    
"DUMP"
DUMP inserts a Data::Dumper printout of the variable or expression. If no argument is passed it will dump the entire contents of the current variable stash (with private keys removed).

The output also includes the current file and line number that the DUMP directive was called from.

See the DUMP configuration item for ways to customize and control the output available to the DUMP directive.

    [% DUMP %] # dumps everything

    [% DUMP 1 + 2 %]
    
"ELSE"
Used with the IF directive. See the "IF" directive.
"ELSIF"
Used with the IF directive. See the "IF" directive.
"END"
Used to end a block directive.
"EVAL"
Same as the EVALUATE directive.
"EVALUATE"
Introduced by the Velocity templating language. Parses and processes the contents of the passed item. This is similar to the eval filter, but Velocity needs a directive. Named arguments may be used for re-configuring the parser. Any of the items that can be passed to the CONFIG directive may be passed here.

    [% EVALUATE "[% 1 + 3 %]" %]

    [% foo = "bar" %]
    [% EVALUATE "<TMPL_VAR foo>" SYNTAX => 'ht' %]
    
"FILTER"
Used to apply different treatments to blocks of text. It may operate as a BLOCK directive or as a post operative directive. Alloy supports all of the filters in Template::Filters. The lines between scalar virtual methods and filters is blurred (or non-existent) in Alloy. Anything that is a scalar virtual method may be used as a FILTER.

TODO - enumerate the at least 7 ways to pass and use filters.

'|'
Alias for the FILTER directive. Note that | is similar to the '.' in Template::Alloy. Therefore a pipe cannot be used directly after a variable name in some situations (the pipe will act only on that variable). This is the behavior employed by TT3. To get the TT2 behavior for a PIPE, use the V2PIPE configuration item.
"FINAL"
Used with the TRY directive. See the "TRY" directive.
"FOR"
Alias for FOREACH
"FOREACH"
Allows for iterating over the contents of any arrayref. If the variable is not an arrayref, it is automatically promoted to one.

    [% FOREACH i IN [1 .. 3] %]
        The variable i = [% i %]
    [%~ END %]

    [% a = [1 .. 3] %]
    [% FOREACH j IN a %]
        The variable j = [% j %]
    [%~ END %]
    

Would print:

        The variable i = 1
        The variable i = 2
        The variable i = 3

        The variable j = 1
        The variable j = 2
        The variable j = 3
    

You can also use the "=" instead of "IN" or "in".

    [% FOREACH i = [1 .. 3] %]
        The variable i = [% i %]
    [%~ END %]

    Same as before.
    

Setting into a variable is optional.

    [% a = [1 .. 3] %]
    [% FOREACH a %] Hi [% END %]
    

Would print:

     hi  hi  hi
    

If the item being iterated is a hashref and the FOREACH does not set into a variable, then values of the hashref are copied into the variable stash.

    [% FOREACH [{a => 1}, {a => 2}] %]
        Key a = [% a %]
    [%~ END %]
    

Would print:

        Key a = 1
        Key a = 2
    

The FOREACH process uses the Template::Alloy::Iterator class to handle iterations (It is compatible with Template::Iterator). During the FOREACH loop an object blessed into the iterator class is stored in the variable "loop".

The loop variable provides the following information during a FOREACH:

    index  - the current index
    max    - the max index of the list
    size   - the number of items in the list
    count  - index + 1
    number - index + 1
    first  - true if on the first item
    last   - true if on the last item
    next   - return the next item in the list
    prev   - return the previous item in the list
    odd    - return 1 if the current count is odd, 0 otherwise
    even   - return 1 if the current count is even, 0 otherwise
    parity - return "odd" if the current count is odd, "even" otherwise
    

The following:

    [% FOREACH [1 .. 3] %] [% loop.count %]/[% loop.size %] [% END %]
    

Would print:

     1/3  2/3  3/3
    

The iterator is also available using a plugin. This allows for access to multiple "loop" variables in a nested FOREACH directive.

    [%~ USE outer_loop = Iterator(["a", "b"]) %]
    [%~ FOREACH i = outer_loop %]
        [%~ FOREACH j = ["X", "Y"] %]
           [% outer_loop.count %]-[% loop.count %] = ([% i %] and [% j %])
        [%~ END %]
    [%~ END %]
    

Would print:

           1-1 = (a and X)
           1-2 = (a and Y)
           2-1 = (b and X)
           2-2 = (b and Y)
    

FOREACH may also be used as a post operative directive.

    [% "$i" FOREACH i = [1 .. 5] %] => 12345
    
"GET"
Return the value of a variable or expression.

    [% GET a %]
    

The GET keyword may be omitted.

    [% a %]

    [% 7 + 2 - 3 %] => 6
    

See the section on VARIABLES.

"IF (IF / ELSIF / ELSE)"
Allows for conditional testing. Expects an expression as its only argument. If the expression is true, the contents of its block are processed. If false, the processor looks for an ELSIF block. If an ELSIF's expression is true then it is processed. Finally it looks for an ELSE block which is processed if none of the IF or ELSIF's expressions were true.

    [% IF a == b %]A equaled B[% END %]

    [% IF a == b -%]
        A equaled B
    [%- ELSIF a == c -%]
        A equaled C
    [%- ELSE -%]
        Couldn't determine that A equaled anything.
    [%- END %]
    

IF may also be used as a post operative directive.

    [% 'A equaled B' IF a == b %]
    

Note: If you are using HTML::Template style documents, the TMPL_IF tag parses using the limited HTML::Template parsing rules. However, you may use EXPR="" to embed a TT3 style expression.

"INCLUDE"
Parse the contents of a file or block and insert them. Variables defined or modifications made to existing variables are discarded after a template is included.

    [% INCLUDE path/to/template.html %]

    [% INCLUDE "path/to/template.html" %]

    [% file = "path/to/template.html" %]
    [% INCLUDE $file %]

    [% BLOCK foo %]This is foo[% END %]
    [% INCLUDE foo %]
    

Arguments may also be passed to the template:

    [% INCLUDE "path/to/template.html" a = "An arg" b = "Another arg" %]
    

Filenames must be relative to INCLUDE_PATH unless the ABSOLUTE or RELATIVE configuration items are set.

Multiple filenames can be passed by separating them with a plus, a space, or commas (TT2 doesn't support the comma). Any supplied arguments will be used on all templates.

    [% INCLUDE "path/to/template.html",
               "path/to/template2.html" a = "An arg" b = "Another arg" %]
    

On Perl 5.6 on some platforms there may be some issues with the variable localization. There is no problem on 5.8 and greater.

"INSERT"
Insert the contents of a file without template parsing.

Filenames must be relative to INCLUDE_PATH unless the ABSOLUTE or RELATIVE configuration items are set.

Multiple filenames can be passed by separating them with a plus, a space, or commas (TT2 doesn't support the comma).

    [% INSERT "path/to/template.html",
              "path/to/template2.html" %]
    
"JS"
Only available if the COMPILE_JS configuration item is true (default is false). This requires the Template::Alloy::JS module to be installed.

Allow eval'ing the block of text as javascript. The block will be parsed and then eval'ed.

    [% a = "BimBam" %]
    [%~ JS %]
        write('The variable a was "' + get('a') + '"');
        set('b', "FooBar");
    [% END %]
    [% b %]
    

Would print:

    The variable a was "BimBam"
    FooBar
    
"LAST"
Used to exit out of a WHILE or FOREACH loop.
"LOOP"
This directive operates similar to the HTML::Template loop directive. The LOOP directive expects a single variable name. This variable name should point to an arrayref of hashrefs. The keys of each hashref will be added to the variable stash when it is iterated.

    [% var a = [{b => 1}, {b => 2}, {b => 3}] %]

    [% LOOP a %] ([% b %]) [% END %]
    

Would print:

     (1)  (2)  (3)
    

If Alloy is in HT mode and GLOBAL_VARS is false, the contents of the hashref will be the only items available during the loop iteration.

If LOOP_CONTEXT_VARS is true, and $QR_PRIVATE is false (default when called through the output method), then the variables __first__, __last__, __inner__, __odd__, and __counter__ will be set. See the HTML::Template loop_context_vars configuration item for more information.

"MACRO"
Takes a directive and turns it into a variable that can take arguments.

    [% MACRO foo(i, j) BLOCK %]You passed me [% i %] and [% j %].[% END %]

    [%~ foo("a", "b") %]
    [% foo(1, 2) %]
    

Would print:

    You passed me a and b.
    You passed me 1 and 2.
    

Another example:

    [% MACRO bar(max) FOREACH i = [1 .. max] %]([% i %])[% END %]

    [%~ bar(4) %]
    

Would print:

    (1)(2)(3)(4)
    

Starting with version 1.012 of Template::Alloy there is also a macro operator.

    [% foo = ->(i,j){ "You passed me $i and $j" } %]

    [% bar = ->(max){ FOREACH i = [1 .. max]; i ; END } %]
    

See the Template::Alloy::Operator documentation for more examples.

"META"
Used to define variables that will be available via either the template or component namespace.

Once defined, they cannot be overwritten.

    [% template.foobar %]
    [%~ META foobar = 'baz' %]
    [%~ META foobar = 'bing' %]
    

Would print:

    baz
    
"NEXT"
Used to go to the next iteration of a WHILE or FOREACH loop.
"PERL"
Only available if the EVAL_PERL configuration item is true (default is false).

Allow eval'ing the block of text as perl. The block will be parsed and then eval'ed.

    [% a = "BimBam" %]
    [%~ PERL %]
        my $a = "[% a %]";
        print "The variable \$a was \"$a\"";
        $stash->set('b', "FooBar");
    [% END %]
    [% b %]
    

Would print:

    The variable $a was "BimBam"
    FooBar
    

During execution, anything printed to STDOUT will be inserted into the template. Also, the $stash and $context variables are set and are references to objects that mimic the interface provided by Template::Context and Template::Stash. These are provided for compatibility only. $self contains the current Template::Alloy object.

"PROCESS"
Parse the contents of a file or block and insert them. Unlike INCLUDE, no variable localization happens so variables defined or modifications made to existing variables remain after the template is processed.

    [% PROCESS path/to/template.html %]

    [% PROCESS "path/to/template.html" %]

    [% file = "path/to/template.html" %]
    [% PROCESS $file %]

    [% BLOCK foo %]This is foo[% END %]
    [% PROCESS foo %]
    

Arguments may also be passed to the template:

    [% PROCESS "path/to/template.html" a = "An arg" b = "Another arg" %]
    

Filenames must be relative to INCLUDE_PATH unless the ABSOLUTE or RELATIVE configuration items are set.

Multiple filenames can be passed by separating them with a plus, a space, or commas (TT2 doesn't support the comma). Any supplied arguments will be used on all templates.

    [% PROCESS "path/to/template.html",
               "path/to/template2.html" a = "An arg" b = "Another arg" %]
    
"RAWPERL"
Only available if the EVAL_PERL configuration item is true (default is false). Similar to the PERL directive, but you will need to append to the $output variable rather than just calling PRINT.
"RETURN"
Used to exit the innermost block or template and continue processing in the surrounding block or template.

There are two changes from TT2 behavior. First, In Alloy, a RETURN during a MACRO call will only exit the MACRO. Second, the RETURN directive takes an optional variable name or expression, if passed, the MACRO will return this value instead of the normal text from the MACRO. The process_simple method will also return this value.

You can also use the item, list, and hash return vmethods.

    [% RETURN %]       # just exits
    [% RETURN "foo" %] # return value is foo
    [% "foo".return %] # same thing
    
"SET"
Used to set variables.

   [% SET a = 1 %][% a %]             => "1"
   [% a = 1 %][% a %]                 => "1"
   [% b = 1 %][% SET a = b %][% a %]  => "1"
   [% a = 1 %][% SET a %][% a %]      => ""
   [% SET a = [1, 2, 3] %][% a.1 %]   => "2"
   [% SET a = {b => 'c'} %][% a.b %]  => "c"
    
"STOP"
Used to exit the entire process method (out of all blocks and templates). No content will be processed beyond this point.
"SWITCH"
Allow for SWITCH and CASE functionality.

   [% a = "hi" %]
   [% b = "bar" %]
   [% SWITCH a %]
       [% CASE "foo"           %]a was foo
       [% CASE b               %]a was bar
       [% CASE ["hi", "hello"] %]You said hi or hello
       [% CASE DEFAULT         %]I don't know what you said
   [% END %]
    

Would print:

   You said hi or hello
    
"TAGS"
Change the type of enclosing braces used to delineate template tags. This remains in effect until the end of the enclosing block or template or until the next TAGS directive. Either a named set of tags must be supplied, or two tags themselves must be supplied.

    [% TAGS html %]

    [% TAGS <!-- --> %]
    

The named tags are (duplicated from TT):

    asp       => ['<%',     '%>'    ], # ASP
    default   => ['\[%',    '%\]'   ], # default
    html      => ['<!--',   '-->'   ], # HTML comments
    mason     => ['<%',     '>'     ], # HTML::Mason
    metatext  => ['%%',     '%%'    ], # Text::MetaText
    php       => ['<\?',    '\?>'   ], # PHP
    star      => ['\[\*',   '\*\]'  ], # TT alternate
    template  => ['\[%',    '%\]'   ], # Normal Template Toolkit
    template1 => ['[\[%]%', '%[%\]]'], # allow TT1 style
    tt2       => ['\[%',    '%\]'   ], # TT2
    

If custom tags are supplied, by default they are escaped using quotemeta. You may also pass explicitly quoted strings, or regular expressions as arguments as well (if your regex begins with a ', ", or / you must quote it.

    [% TAGS [<] [>] %]          matches "[<] tag [>]"

    [% TAGS '[<]' '[>]' %]      matches "[<] tag [>]"

    [% TAGS "[<]" "[>]" %]      matches "[<] tag [>]"

    [% TAGS /[<]/ /[>]/ %]      matches "< tag >"

    [% TAGS ** ** %]            matches "** tag **"

    [% TAGS /**/ /**/ %]        Throws an exception.
    

You should be sure that the start tag does not include grouping parens or INTERPOLATE will not function properly.

"THROW"
Allows for throwing an exception. If the exception is not caught via the TRY DIRECTIVE, the template will abort processing of the directive.

    [% THROW mytypes.sometime 'Something happened' arg1 => val1 %]
    

See the TRY directive for examples of usage.

"TRY"
The TRY block directive will catch exceptions that are thrown while processing its block (It cannot catch parse errors unless they are in included files or evaltt'ed strings. The TRY block will then look for a CATCH block that will be processed. While it is being processed, the "error" variable will be set with the thrown exception as the value. After the TRY block - the FINAL block will be ran whether or not an error was thrown (unless a CATCH block throws an error).

Note: Parse errors cannot be caught unless they are in an eval FILTER, or are in a separate template being INCLUDEd or PROCESSed.

    [% TRY %]
    Nothing bad happened.
    [% CATCH %]
    Caught the error.
    [% FINAL %]
    This section runs no matter what happens.
    [% END %]
    

Would print:

    Nothing bad happened.
    This section runs no matter what happens.
    

Another example:

    [% TRY %]
    [% THROW "Something happened" %]
    [% CATCH %]
      Error:               [% error %]
      Error.type:          [% error.type %]
      Error.info:          [% error.info %]
    [% FINAL %]
      This section runs no matter what happens.
    [% END %]
    

Would print:

      Error:               undef error - Something happened
      Error.type:          undef
      Error.info:          Something happened
      This section runs no matter what happens.
    

You can give the error a type and more information including named arguments. This information replaces the "info" property of the exception.

    [% TRY %]
    [% THROW foo.bar "Something happened" "grrrr" foo => 'bar' %]
    [% CATCH %]
      Error:               [% error %]
      Error.type:          [% error.type %]
      Error.info:          [% error.info %]
      Error.info.0:        [% error.info.0 %]
      Error.info.1:        [% error.info.1 %]
      Error.info.args.0:   [% error.info.args.0 %]
      Error.info.foo:      [% error.info.foo %]
    [% END %]
    

Would print something like:

      Error:               foo.bar error - HASH(0x82a395c)
      Error.type:          foo.bar
      Error.info:          HASH(0x82a395c)
      Error.info.0:        Something happened
      Error.info.1:        grrrr
      Error.info.args.0:   Something happened
      Error.info.foo:      bar
    

You can also give the CATCH block a type to catch. And you can nest TRY blocks. If types are specified, Alloy will try and find the closest matching type. Also, an error object can be re-thrown using $error as the argument to THROW.

    [% TRY %]
      [% TRY %]
        [% THROW foo.bar "Something happened" %]
      [% CATCH bar %]
        Caught bar.
      [% CATCH DEFAULT %]
        Caught default - but re-threw.
        [% THROW $error %]
      [% END %]
    [% CATCH foo %]
      Caught foo.
    [% CATCH foo.bar %]
      Caught foo.bar.
    [% CATCH %]
      Caught anything else.
    [% END %]
    

Would print:

        Caught default - but re-threw.

      Caught foo.bar.
    
"UNLESS"
Same as IF but condition is negated.

    [% UNLESS 0 %]hi[% END %]  => hi
    

Can also be a post operative directive.

"USE"
Allows for loading a Template::Toolkit style plugin.

    [% USE iter = Iterator(['foo', 'bar']) %]
    [%~ iter.get_first %]
    [% iter.size %]
    

Would print:

    foo
    2
    

Note that it is possible to send arguments to the new object constructor. It is also possible to omit the variable name being assigned. In that case the name of the plugin becomes the variable.

    [% USE Iterator(['foo', 'bar', 'baz']) %]
    [%~ Iterator.get_first %]
    [% Iterator.size %]
    

Would print:

    foo
    3
    

Plugins that are loaded are looked up for in the namespace listed in the PLUGIN_BASE directive which defaults to Template::Plugin. So in the previous example, if Template::Toolkit was installed, the iter object would loaded by the class Template::Plugin::Iterator. In Alloy, an effective way to disable plugins is to set the PLUGIN_BASE to a non-existent base such as "_" (In TT it will still fall back to look in Template::Plugin).

Note: The iterator plugin will fall back and use Template::Alloy::Iterator if Template::Toolkit is not installed. No other plugins come installed with Template::Alloy.

The names of the Plugin being loaded from PLUGIN_BASE are case insensitive. However, using case insensitive names is bad as it requires scanning the @INC directories for any module matching the PLUGIN_BASE and caching the result (OK - not that bad).

If the plugin is not found and the LOAD_PERL directive is set, then Alloy will try and load a module by that name (note: this type of lookup is case sensitive and will not scan the @INC dirs for a matching file).

    # The LOAD_PERL directive should be set to 1
    [% USE ta = Template::Alloy %]
    [%~ ta.dump_parse_expr('2 * 3') %]
    

Would print:

    [[undef, '*', 2, 3], 0];
    

See the PLUGIN_BASE, and PLUGINS configuration items.

See the documentation for Template::Manual::Plugins.

"VIEW"
Implement a TT style view. For more information, please see the Template::View documentation. This DIRECTIVE will correctly parse the arguments and then pass them along to a newly created Template::View object. It will fail if Template::View can not be found.
"WHILE"
Will process a block of code while a condition is true.

    [% WHILE i < 3 %]
        [%~ i = i + 1 %]
        i = [% i %]
    [%~ END %]
    

Would print:

        i = 1
        i = 2
        i = 3
    

You could also do:

    [% i = 4 %]
    [% WHILE (i = i - 1) %]
        i = [% i %]
    [%~ END %]
    

Would print:

        i = 3
        i = 2
        i = 1
    

Note that (f = f - 1) is a valid expression that returns the value of the assignment. The parenthesis are not optional.

WHILE has a built in limit of 1000 iterations. This is controlled by the global variable $WHILE_MAX in Template::Alloy.

WHILE may also be used as a post operative directive.

    [% "$i" WHILE (i = i + 1) < 7 %] => 123456
    
"WRAPPER"
Block directive. Processes contents of its block and then passes them in the [% content %] variable to the block or filename listed in the WRAPPER tag.

    [% WRAPPER foo b = 23 %]
    My content to be processed ([% b %]).[% a = 2 %]
    [% END %]

    [% BLOCK foo %]
    A header ([% a %]).
    [% content %]
    A footer ([% a %]).
    [% END %]
    

This would print.

    A header (2).
    My content to be processed (23).
    A footer (2).
    

The WRAPPER directive may also be used as a post operative directive.

    [% BLOCK baz %]([% content %])[% END -%]
    [% "foobar" WRAPPER baz %]
    

Would print

    (foobar)');
    

Multiple filenames can be passed by separating them with a plus, a space, or commas (TT2 doesn't support the comma). Any supplied arguments will be used on all templates. Wrappers are processed in reverse order, so that the first wrapper listed will surround each subsequent wrapper listed. Variables from inner wrappers are available to the next wrapper that surrounds it.

    [% WRAPPER "path/to/outer.html",
               "path/to/inner.html" a = "An arg" b = "Another arg" %]
    

HTML::Template templates use directives that look similar to the following:

    <TMPL_VAR NAME="foo">

    <TMPL_IF NAME="bar">
      BAR
    </TMPL_IF>

The normal set of HTML::Template directives are TMPL_VAR, TMPL_IF, TMPL_ELSE, TMPL_UNLESS, TMPL_INCLUDE, and TMPL_LOOP. These tags should have either a NAME attribute, an EXPR attribute, or a bare variable name that is used to specify the value to be operated. If a NAME is specified, it may only be a single level value (as opposed to a TT chained variable). In the case of the TMPL_INCLUDE directive, the NAME is the file to be included.

In Alloy, the EXPR attribute can be used with any of these types to specify TT compatible variable or expression that will be used for the value.

    <TMPL_VAR NAME="foo">          Prints the value contained in foo
    <TMPL_VAR foo>                 Prints the value contained in foo
    <TMPL_VAR EXPR="foo">          Prints the value contained in foo

    <TMPL_VAR NAME="foo.bar.baz">  Prints the value contained in {'foo.bar.baz'}
    <TMPL_VAR EXPR="foo.bar.baz">  Prints the value contained in {foo}->{bar}->{baz}

    <TMPL_IF foo>                  Prints FOO if foo is true
      FOO
    </TMPL_IF

    <TMPL_UNLESS foo>              Prints FOO unless foo is true
      FOO
    </TMPL_UNLESS

    <TMPL_INCLUDE NAME="foo.ht">   Includes the template in "foo.ht"

    <TMPL_LOOP foo>                Iterates on the arrayref foo
      <TMPL_VAR name>
    </TMPL_LOOP>

Template::Alloy makes all of the other TT3 directives available in addition to the normal set of HTML::Template directives. For example, the following is valid in Alloy.

    <TMPL_MACRO bar(n) BLOCK>You said <TMPL_VAR n></TMPL_MACRO>
    <TMPL_GET bar("hello")>

The TMPL_VAR tag may also include an optional ESCAPE attribute. This specifies how the value of the tag should be escaped prior to substituting into the template.

    Escape value |   Type of escape
    ---------------------------------
    HTML, 1      |   HTML encoding
    URL          |   URL encoding
    JS           |   basic javascript encoding (\n, \r, and \")
    NONE, 0      |   No encoding (default).

The TMPL_VAR tag may also include an optional DEFAULT attribute that contains a string that will be used if the variable returns false.

    <TMPL_VAR foo DEFAULT="Foo was false">

Chomping refers to the handling of whitespace immediately before and immediately after template tags. By default, nothing happens to this whitespace. Modifiers can be placed just inside the opening and just before the closing tags to control this behavior.

Additionally, the PRE_CHOMP and POST_CHOMP configuration variables can be set and will globally control all chomping behavior for tags that do not have their own chomp modifier. PRE_CHOMP and POST_CHOMP can be set to any of the following values:

    none:      0   +   Template::Constants::CHOMP_NONE
    one:       1   -   Template::Constants::CHOMP_ONE
    collapse:  2   =   Template::Constants::CHOMP_COLLAPSE
    greedy:    3   ~   Template::Constants::CHOMP_GREEDY
CHOMP_NONE
Don't do any chomping. The "+" sign is used to indicate CHOMP_NONE.

    Hello.

    [%+ "Hi." +%]

    Howdy.
    

Would print:

    Hello.

    Hi.

    Howdy.
    
CHOMP_ONE (formerly known as CHOMP_ALL)
Delete any whitespace up to the adjacent newline. The "-" is used to indicate CHOMP_ONE.

    Hello.

    [%- "Hi." -%]

    Howdy.
    

Would print:

    Hello.
    Hi.
    Howdy.
    
CHOMP_COLLAPSE
Collapse adjacent whitespace to a single space. The "=" is used to indicate CHOMP_COLLAPSE.

    Hello.

    [%= "Hi." =%]

    Howdy.
    

Would print:

    Hello. Hi. Howdy.
    
CHOMP_GREEDY
Remove all adjacent whitespace. The "~" is used to indicate CHOMP_GREEDY.

    Hello.

    [%~ "Hi." ~%]

    Howdy.
    

Would print:

    Hello.Hi.Howdy.
    

The following configuration variables are supported (in alphabetical order). Note: for further discussion you can refer to the TT config documentation.

Items may be passed in upper or lower case. If lower case names are passed they will be resolved to uppercase during the "new" method.

All of the variables in this section can be passed to the "new" constructor.

    my $obj = Template::Alloy->new(
        VARIABLES  => \%hash_of_variables,
        AUTO_RESET => 0,
        TRIM       => 1,
        POST_CHOMP => "=",
        PRE_CHOMP  => "-",
    );
ABSOLUTE
Boolean. Default false. Are absolute paths allowed for included files.
ADD_LOCAL_PATH
If true, allows calls include_filename to temporarily add the directory of the current template being processed to the INCLUDE_PATHS arrayref. This allows templates to refer to files in the local template directory without specifying the local directory as part of the filename. Default is 0. If set to a negative value, the current directory will be added to the end of the current INCLUDE_PATHS.

This property may also be set in the template using the CONFIG directive.

    [% CONFIG ADD_LOCAL_PATH => 1 %]
    
ANYCASE
Allow directive matching to be case insensitive.

    [% get 23 %] prints 23 with ANYCASE => 1
    
AUTO_RESET
Boolean. Default 1. Clear blocks that were set during the process method.
AUTO_EVAL
Boolean. Default 0 (default 1 in Velocity syntax). If set to true, double quoted strings will automatically be passed to the eval filter. This configuration option may also be passed to the CONFIG directive.
AUTO_FILTER
Can be the name of any filter. Default undef. Any variable returned by a GET directive (including implicit GET) will be passed to the named filter. This configuration option may also be passed to the CONFIG directive.

    # with AUTO_FILTER => 'html'

    [% f = "&"; GET f %] prints &amp;
    [% f = "&"; f %]     prints &amp; (implicit GET)
    

If a variable already has another filter applied the AUTO_FILTER is not applied. The "none" scalar virtual method has been added to allow for using variables without reapplying filters.

    # with AUTO_FILTER => 'html'

    [% f = "&";  f | none %] prints &
    [% f = "&"; g = f; g %]  prints &amp;
    [% f = "&"; g = f; g | none %]  prints & (because g = f is a SET directive)
    [% f = "&"; g = GET f; g | none %]  prints &amp; (because the actual GET directive was called)
    
BLOCKS
Only available via when using the process interface.

A hashref of blocks that can be used by the process method.

    BLOCKS => {
        block_1 => sub { ... }, # coderef that returns a block
        block_2 => 'A String',  # simple string
    },
    

Note that a Template::Document cannot be supplied as a value (TT supports this). However, it is possible to supply a value that is equal to the hashref returned by the load_template method.

CACHE_SIZE
Number of compiled templates to keep in memory. Default undef. Undefined means to allow all templates to cache. A value of 0 will force no caching. The cache mechanism will clear templates that have not been used recently.
CACHE_STR_REFS
Default 1. If set, any string refs will have an MD5 sum taken that will then be used for caching the document - both in memory and on the file system (if configured). This will give a significant speed boost. Note that this affects strings passed to the EVALUATE directive or eval filters as well. It may be set using the CONFIG directive.
CALL_CONTEXT (Not in TT)
Can be one of 'item', 'list', or 'smart'. The default type is 'smart'. The CALL_CONTEXT configuration specifies in what Perl context coderefs and methods used in the processed templates will be called. TT historically has avoided the distinction of item (scalar) vs list context. To avoid worrying about this, TT introduced 'smart' context. The "@()" and "$()" context specifiers make it easier to use CALL_CONTEXT in some situations.

The following table shows the relationship between the various contexts:

       return values      smart context   list context    item context
       -------------      -------------   ------------    ------------
    A   'foo'              'foo'           ['foo']         'foo'
    B   undef              undef           [undef]         undef
    C   (no return value)  undef           []              undef
    D   (7)                7               [7]             7
    E   (7,8,9)            [7,8,9]         [7,8,9]         9
    F   @a = (7)           7               [7]             1
    G   @a = (7,8,9)       [7,8,9]         [7,8,9]         3
    H   ({b=>"c"})         {b=>"c"}        [{b=>"c"}]      {b=>"c"}
    I   ([1])              [1]             [[1]]           [1]
    J   ([1],[2])          [[1],[2]]       [[1],[2]]       [2]
    K   [7,8,9]            [7,8,9]         [[7,8,9]]       [7,8,9]
    L   (undef, "foo")     die "foo"       [undef, "foo"]  "foo"
    M   wantarray?1:0      1               [1]             0
    

Cases F, H, I and M are common sticking points of the smart context in TT2. Note that list context always returns an arrayref from a method or function call. Smart context can give confusing results sometimes, especially the I and J cases. Case L for smart match is very surprising.

The list and item context provide another feature for method calls. In smart context, TT will look for a hash key in the object by the same name as the method, if a method by that name doesn't exist. In item and list context Alloy will die if a method by that name cannot be found.

The CALL_CONTEXT configuration item can be passed to new or it may also be set during runtime using the CONFIG directive. The following method call would be in list context:

    [% CONFIG CALL_CONTEXT => 'list';
       results = my_obj.get_results;
       CONFIG CALL_CONTEXT => 'smart'
    %]
    

Note that we needed to restore CALL_CONTEXT to the default 'smart' value. Template::Alloy has added the "@()" (list) and the "$()" (item) context specifiers. The previous example could be written as:

    [% results = @( my_obj.get_results ) %]
    

To call that same method in item (scalar) context you would do the following:

    [% results = $( my_obj.get_results ) %]
    

The "@()" and "$()" operators are based on the Perl 6 counterpart.

COMPILE_DIR
Base directory to store compiled templates. Default undef. Compiled templates will only be stored if one of COMPILE_DIR and COMPILE_EXT is set.

If set, the AST of parsed documents will be cached. If COMPILE_PERL is set, the compiled perl code will also be stored.

COMPILE_EXT
Extension to add to stored compiled template filenames. Default undef.

If set, the AST of parsed documents will be cached. If COMPILE_PERL is set, the compiled perl code will also be stored.

COMPILE_JS
Default false.

Requires installation of Template::Alloy::JS. When enabled, the parsed templates will be translated into Javascript and executed using the V8 javascript engine. If compile_dir is also set, this compiled javascript will be cached to disk.

If your templates are short, there is little benefit to using this other than you can then use the JS directive. If your templates are long or you are running in a cached environment, this will speed up your templates.

Certain limitations exist when COMPILE_JS is set, most notably the USE and VIEW directives are not supported, and method calls on objects passed to the template do not work (code refs passed in do work however). These limitations are due to the nature of JavaScript::V8 bind and Perl/JavaScript OO differences.

COMPILE_PERL
Default false.

If set to 1 or 2, will translate the normal AST into a perl 5 code document. This document can then be executed directly, cached in memory, or cached on the file system depending upon the configuration items set.

If set to 1, a perl code document will always be generated.

If set to 2, a perl code document will only be generated if an AST has already been cached for the document. This should give a speed benefit and avoid extra compilation unless the document has been used more than once.

If Alloy is running in a cached environment such as mod_perl, then using compile_perl can offer some speed benefit and makes Alloy faster than Text::Tmpl and as fast as HTML::Template::Compiled (but Alloy has more features).

If you are not running in a cached environment, such as from commandline, or from CGI, it is generally faster to only run from the AST (with COMPILE_PERL => 0).

CONSTANTS
Hashref. Used to define variables that will be "folded" into the compiled template. Variables defined here cannot be overridden.

    CONSTANTS => {my_constant => 42},

    A template containing:

    [% constants.my_constant %]

    Will have the value 42 compiled in.
    

Constants defined in this way can be chained as in [% constant.foo.bar.baz %].

CONSTANT_NAMESPACE
Allow for setting the top level of values passed in CONSTANTS. Default value is 'constants'.
DEBUG
Takes a list of constants |'ed together which enables different debugging modes. Alternately the lowercase names may be used (multiple values joined by a ",").

    The only supported TT values are:
    DEBUG_UNDEF (2)    - debug when an undefined value is used (now easier to use STRICT)
    DEBUG_DIRS  (8)    - debug when a directive is used.
    DEBUG_ALL   (2047) - turn on all debugging.

    Either of the following would turn on undef and directive debugging:

    DEBUG => 'undef, dirs',            # preferred
    DEBUG => 2 | 8,
    DEBUG => DEBUG_UNDEF | DEBUG_DIRS, # constants from Template::Constants
    
DEBUG_FORMAT
Change the format of messages inserted when DEBUG has DEBUG_DIRS set on. This essentially the same thing as setting the format using the DEBUG directive.
DEFAULT
The name of a default template file to use if the passed one is not found.
DELIMITER
String to use to split INCLUDE_PATH with. Default is :. It is more straight forward to just send INCLUDE_PATH an arrayref of paths.
DUMP
Configures the behavior of the DUMP tag. May be set to 0, a hashref, or another true value. Default is true.

If set to 0, all DUMP directives will do nothing. This is useful if you would like to turn off the DUMP directives under some environments.

IF set to a true value (or undefined) then DUMP directives will operate.

If set to a hashref, the values of the hash can be used to configure the operation of the DUMP directives. The following are the values that can be set in this hash.

EntireStash
Default 1. If set to 0, then the DUMP directive will not print the entire contents of the stash when a DUMP directive is called without arguments.
handler
Defaults to an internal coderef. If set to a coderef, the DUMP directive will pass the arguments to be dumped and expects a string with the dumped data. This gives complete control over the dump process.

Note 1: The default handler makes sure that values matching the private variable regex are not included. If you install your own handler, you will need to take care of these variables if you intend for them to not be shown.

Note 2: If you would like the name of the variable to be dumped, include the string '$VAR1' and the DUMP directive will interpolate the value. For example, to dump all output as YAML - you could do the following:

    DUMP => {
       handler => sub {
           require YAML;
           return "\$VAR1 =\n".YAML::Dump(shift);
       },
    }
    
header
Default 1. Controls whether a header is printed for each DUMP directive. The header contains the file and line number the DUMP directive was called from. If set to 0 the headers are disabled.
html
Defaults to 1 if $ENV{'REQUEST_METHOD'} is set - 0 otherwise. If set to 1, then the output of the DUMP directive is passed to the html filter and encased in "pre" tags. If set to 0 no html encoding takes place.
Sortkeys, Useqq, Ident, Pad, etc
Any of the Data::Dumper configuration items may be passed.
ENCODING
Default undef. If set, and if Perl version is greater than or equal to 5.7.3 (when Encode.pm was first included), then Encode::decode will be called every time a template file is processed and will be passed the value of ENCODING and text from the template.

This item can also be set using [% CONFIG ENCODING => encoding %] before calling INCLUDE or PROCESS directives to change encodings on the fly.

END_TAG
Set a string to use as the closing delimiter for TT. Default is "%]".
ERROR
Used as a fall back when the processing of a template fails. May either be a single filename that will be used in all cases, or may be a hashref of options where the keynames represent error types that will be handled by the filename in their value. A key named default will be used if no other matching keyname can be found. The selection process is similar to that of the TRY/CATCH/THROW directives (see those directives for more information).

    my $t = Template::Alloy->new({
        ERROR => 'general/catch_all_errors.html',
    });

    my $t = Template::Alloy->new({
        ERROR => {
            default   => 'general/catch_all_errors.html',
            foo       => 'catch_all_general_foo_errors.html',
            'foo.bar' => 'catch_foo_bar_errors.html',
        },
    });
    

Note that the ERROR handler will only be used for errors during the processing of the main document. It will not catch errors that occur in templates found in the PRE_PROCESS, POST_PROCESS, and WRAPPER configuration items.

ERRORS
Same as the ERROR configuration item. Both may be used interchangeably.
EVAL_PERL
Boolean. Default false. If set to a true value, PERL and RAWPERL blocks will be allowed to run. This is a potential security hole, as arbitrary perl can be included in the template. If Template::Toolkit is installed, a true EVAL_PERL value also allows the perl and evalperl filters to be used.
FILTERS
Allow for passing in TT style filters.

    my $filters = {
        filter1 =>  sub { my $str = shift; $s =~ s/./1/gs; $s },
        filter2 => [sub { my $str = shift; $s =~ s/./2/gs; $s }, 0],
        filter3 => [sub { my ($context, @args) = @_; return sub { my $s = shift; $s =~ s/./3/gs; $s } }, 1],
    };

    my $str = q{
        [% a = "Hello" %]
        1 ([% a | filter1 %])
        2 ([% a | filter2 %])
        3 ([% a | filter3 %])
    };

    my $obj = Template::Alloy->new(FILTERS => $filters);
    $obj->process(\$str) || die $obj->error;
    

Would print:

        1 (11111)
        2 (22222)
        3 (33333)
    

Filters passed in as an arrayref should contain a coderef and a value indicating if they are dynamic or static (true meaning dynamic). The dynamic filters are passed the pseudo context object and any arguments and should return a coderef that will be called as the filter. The filter coderef is then passed the string.

GLOBAL_CACHE
Default 0. If true, documents will be cached in $Template::Alloy::GLOBAL_CACHE. It may also be passed a hashref, in which case the documents will be cached in the passed hashref.

The TT, Tmpl, and velocity will automatically cache documents in the object. The HTML::Template interface uses a new object each time. Setting the HTML::Template's CACHE configuration is the same as setting GLOBAL_CACHE.

INCLUDE_PATH
A string or an arrayref or coderef that returns an arrayref that contains directories to look for files included by processed templates. Defaults to "." (the current directory).
INCLUDE_PATHS
Non-TT item. Same as INCLUDE_PATH but only takes an arrayref. If not specified then INCLUDE_PATH is turned into an arrayref and stored in INCLUDE_PATHS. Overrides INCLUDE_PATH.
INTERPOLATE
Boolean. Specifies whether variables in text portions of the template will be interpolated. For example, the $variable and ${var.value} would be substituted with the appropriate values from the variable cache (if INTERPOLATE is on).

    [% IF 1 %]The variable $variable had a value ${var.value}[% END %]
    
LOAD_PERL
Indicates if the USE directive can fall back and try and load a perl module if the indicated module was not found in the PLUGIN_BASE path. See the USE directive. This configuration has no bearing on the COMPILE_PERL directive used to indicate using compiled perl documents.
MAX_EVAL_RECURSE (Alloy only)
Will use $Template::Alloy::MAX_EVAL_RECURSE if not present. Default is 50. Prevents runaway on the following:

    [% f = "[% f|eval %]" %][% f|eval %]
    
MAX_MACRO_RECURSE (Alloy only)
Will use $Template::Alloy::MAX_MACRO_RECURSE if not present. Default is 50. Prevents runaway on the following:

    [% MACRO f BLOCK %][% f %][% END %][% f %]
    
NAMESPACE
No Template::Namespace::Constants support. Hashref of hashrefs representing constants that will be folded into the template at compile time.

    Template::Alloy->new(NAMESPACE => {constants => {
         foo => 'bar',
    }});
    

Is the same as

    Template::Alloy->new(CONSTANTS => {
         foo => 'bar',
    });
    

Any number of hashes can be added to the NAMESPACE hash.

NEGATIVE_STAT_TTL (Not in TT)
Defaults to STAT_TTL which defaults to $STAT_TTL which defaults to 1.

Similar to STAT_TTL - but represents the time-to-live seconds until a document that was not found is checked again against the system for modifications. Setting this number higher will allow for fewer file system accesses. Setting it to a negative number will allow for the file system to be checked every hit.

NO_INCLUDES
Default false. If true, calls to INCLUDE, PROCESS, WRAPPER and INSERT will fail. This option is also available when using the process method.
OUTPUT
Alternate way of passing in the output location for processed templates. If process is not passed an output argument, it will look for this value.

See the process method for a listing of possible values.

OUTPUT_PATH
Base path for files written out via the process method or via the redirect and file filters. See the redirect virtual method and the process method for more information.
PLUGINS
A hashref of mappings of plugin modules.

   PLUGINS => {
      Iterator => 'Template::Plugin::Iterator',
      DBI      => 'MyDBI',
   },
    

See the USE directive for more information.

PLUGIN_BASE
Default value is Template::Plugin. The base module namespace that template plugins will be looked for. See the USE directive for more information. May be either a single namespace, or an arrayref of namespaces.
POST_CHOMP
Set the type of chomping at the ending of a tag. See the section on chomping for more information.
POST_PROCESS
Only available via when using the process interface.

A list of templates to be processed and appended to the content after the main template. During this processing the "template" namespace will contain the name of the main file being processed.

This is useful for adding a global footer to all templates.

PRE_CHOMP
Set the type of chomping at the beginning of a tag. See the section on chomping for more information.
PRE_DEFINE
Same as the VARIABLES configuration item.
PRE_PROCESS
Only available via when using the process interface.

A list of templates to be processed before and pre-pended to the content before the main template. During this processing the "template" namespace will contain the name of the main file being processed.

This is useful for adding a global header to all templates.

PROCESS
Only available via when using the process interface.

Specify a file to use as the template rather than the one passed in to the ->process method.

RECURSION
Boolean. Default false. Indicates that INCLUDED or PROCESSED files can refer to each other in a circular manner. Be careful about recursion.
RELATIVE
Boolean. Default false. If true, allows filenames to be specified that are relative to the currently running process.
SEMICOLONS
Boolean. Default false. If true, then the syntax will require that semi-colons separate multiple directives in the same tag. This is useful for keeping the syntax a little more clean as well as trouble shooting some errors.
SHOW_UNDEFINED_INTERP (Not in TT)
Default false (default true in Velocity). If INTERPOLATE is true, interpolated dollar variables that return undef will be removed. With SHOW_UNDEFINED_INTERP set, undef values will leave the variable there.

    [% CONFIG INTERPOLATE => 1 %]
    [% SET foo = 1 %][% SET bar %]
    ($foo)($bar) ($!foo)($!bar)
    

Would print:

    (1)() (1)()
    

But the following:

    [% CONFIG INTERPOLATE => 1, SHOW_UNDEFINED_INTERP => 1 %]
    [% SET foo = 1 %][% SET bar %]
    ($foo)($bar) ($!foo)($!bar)
    

Would print:

    (1)($bar) (1)()
    

Note that you can use an exclamation point directly after the dollar to make the variable silent. This is similar to how Velocity works.

START_TAG
Set a string or regular expression to use as the opening delimiter for TT. Default is "[%". You should be sure that the tag does not include grouping parens or INTERPOLATE will not function properly.
STASH
Template::Alloy manages its own stash of variables. You can pass a Template::Stash or Template::Stash::XS object, but Template::Alloy will copy all of values out of the object into its own stash. Template::Alloy won't use any of the methods of the passed STASH object. The STASH option is only available when using the process method.
STAT_TTL
Defaults to $STAT_TTL which defaults to 1. Represents time-to-live seconds until a cached in memory document is compared to the file system for modifications. Setting this number higher will allow for fewer file system accesses. Setting it to a negative number will allow for the file system to be checked every hit.
STREAM
Defaults to false. If set to true, generated template content will be printed to the currently selected filehandle (default is STDOUT) as soon as it is ready - there will be no buffering of the output.

The Stream role uses the Play role's directives (non-compiled_perl).

All directives and configuration work, except for the following exceptions:

CLEAR directive
Because the output is not buffered - the CLEAR directive would have no effect. The CLEAR directive will throw an error when STREAM is on.
TRIM configuration
Because the output is not buffered - trim operations cannot be played on the output buffers.
WRAPPER configuration/directive
The WRAPPER configuration and directive items effectively turn off STREAM since the WRAPPERS are generated in reverse order and because the content is inserted into the middle of the WRAPPERS. WRAPPERS will still work, they just won't stream.
VARIOUS errors
Because the template is streaming, items that cause errors my result in partially printed pages - since the error would occur part way through the print.

All output is printed directly to the currently selected filehandle (defaults to STDOUT) via the CORE::print function. Any output parameter passed to process or process_simple will be ignored.

If you would like the output to go to another handle, you will need to select that handle, process the template, and re-select STDOUT.

STRICT
Defaults to false. If set to true, any undefined variable that is encountered will cause the processing of the template to abort. This can be caught with a TRY block. This can be useful for making sure that the template only attempts to use variables that were correctly initialized similar in spirit to Perl's "use strict."

When this occurs the strict_throw method is called.

See the STRICT_THROW configuration for additional options.

Similar functionality could be implemented using UNDEFINED_ANY.

The STRICT configuration item can be passed to new or it may also be set during runtime using the CONFIG directive. Once set though it cannot be disabled for the duration of the current template and sub components. For example you could call [% CONFIG STRICT => 1 %] in header.tt and strict mode would be enabled for the header.tt and any sub templates processed by header.tt.

STRICT_THROW (not in TT)
Default undef. Can be set to a subroutine which will be called when STRICT is set and an undefined variable is processed. It will be passed the error type, error message, and a hashref of template information containing the current component being processed, the current outer template being processed, the identity reference for the variable, and the stringified name of the identity. This override can be used for filtering allowable elements.

    my $ta = Template::Alloy->new({
        STRICT => 1,
        STRICT_THROW => sub {
            my ($ta, $err_type, $msg, $args) = @_;

            return if $args->{'component'} eq 'header.tt'
                      && $args->{'template'} eq 'main.html'
                      && $args->{'name'} eq 'foo.bar(1)'; # stringified identity name

            $ta->throw($err_type, $msg); # all other undefined variables die
        },
    });
    
SYNTAX (not in TT)
Defaults to "cet". Indicates the syntax that will be used for parsing included templates or eval'ed strings. You can use the CONFIG directive to change the SYNTAX on the fly (it will not affect the syntax of the document currently being parsed).

The syntax may be passed in upper or lower case.

The available choices are:

    alloy - Template::Alloy style - the same as TT3
    tt3   - Template::Toolkit ver3 - same as Alloy
    tt2   - Template::Toolkit ver2 - almost the same as TT3
    tt1   - Template::Toolkit ver1 - almost the same as TT2
    ht    - HTML::Template - same as HTML::Template::Expr without EXPR
    hte   - HTML::Template::Expr
    js    - JavaScript style - requires compile_js to be set.
    jsr   - JavaScript Raw style - requires compile_js to be set.
    

Passing in a different syntax allows for the process method to use a non-TT syntax and for the output method to use a non-HT syntax.

The following is a sample of HTML::Template interface usage parsing a Template::Toolkit style document.

    my $obj = Template::Alloy->new(filename => 'my/template.tt'
                                     syntax   => 'cet');
    $obj->param(\%swap);
    print $obj->output;
    

The following is a sample of Template::Toolkit interface usage parsing a HTML::Template::Expr style document.

    my $obj = Template::Alloy->new(SYNTAX => 'hte');
    $obj->process('my/template.ht', \%swap);
    

You can use the define_syntax method to add another custom syntax to the list of available options.

TAG_STYLE
Allow for setting the type of tag delimiters to use for parsing the TT. See the TAGS directive for a listing of the available types.
TRIM
Remove leading and trailing whitespace from blocks and templates. This operation is performed after all enclosed template tags have been executed.
UNDEFINED_ANY
This is not a TT configuration option. This option expects to be a code ref that will be called if a variable is undefined during a call to play_expr. It is passed the variable identity array as a single argument. This is most similar to the "undefined" method of Template::Stash. It allows for the "auto-defining" of a variable for use in the template. It is suggested that UNDEFINED_GET be used instead as UNDEFINED_ANY is a little to general in defining variables.

You can also sub class the module and override the undefined_any method.

UNDEFINED_GET
This is not a TT configuration option. This option expects to be a code ref that will be called if a variable is undefined during a call to GET. It is passed the variable identity array as a single argument. This is more useful than UNDEFINED_ANY in that it is only called during a GET directive rather than in embedded expressions (such as [% a || b || c %]).

You can also sub class the module and override the undefined_get method.

V1DOLLAR
This allows for some compatibility with TT1 templates. The only real behavior change is that [% $foo %] becomes the same as [% foo %]. The following is a basic table of changes invoked by using V1DOLLAR.

   With V1DOLLAR        Equivalent Without V1DOLLAR (Normal default)
   "[% foo %]"          "[% foo %]"
   "[% $foo %]"         "[% foo %]"
   "[% ${foo} %]"       "[% ${foo} %]"
   "[% foo.$bar %]"     "[% foo.bar %]"
   "[% ${foo.bar} %]"   "[% ${foo.bar} %]"
   "[% ${foo.$bar} %]"  "[% ${foo.bar} %]"
   "Text: $foo"         "Text: $foo"
   "Text: ${foo}"       "Text: ${foo}"
   "Text: ${$foo}"      "Text: ${foo}"
    
V2EQUALS
Default 1 in the TT syntax, defaults to 0 in the HTML::Template syntax.

If set to 1 then "==" is an alias for "eq" and "!= is an alias for "ne".

    [% CONFIG V2EQUALS => 1 %][% ('7' == '7.0') || 0 %]
    [% CONFIG V2EQUALS => 0 %][% ('7' == '7.0') || 0 %]

    Prints

    0
    1
    
V2PIPE
Restores the behavior of the pipe operator to be compatible with TT2.

With V2PIPE = 1

    [%- BLOCK a %]b is [% b %]
    [% END %]
    [%- PROCESS a b => 237 | repeat(2) %]

    # output of block "a" with b set to 237 is passed to the repeat(2) filter

    b is 237
    b is 237
    

With V2PIPE = 0 (default)

    [%- BLOCK a %]b is [% b %]
    [% END %]
    [% PROCESS a b => 237 | repeat(2) %]

    # b set to 237 repeated twice, and b passed to block "a"

    b is 237237
    
VARIABLES
A hashref of variables to initialize the template stash with. These variables are available for use in any of the executed templates. See the section on VARIABLES for the types of information that can be passed in.
VMETHOD_FUNCTIONS
Defaults to 1. All scalar virtual methods are available as top level functions as well. This is not true of TT2. In Template::Alloy the following are equivalent:

    [% "abc".length %]
    [% length("abc") %]
    

You may set VMETHOD_FUNCTIONS to 0 to disable this behavior.

WRAPPER
Only available via when using the process interface.

Operates similar to the WRAPPER directive. The option can be given a single filename, or an arrayref of filenames that will be used to wrap the processed content. If an arrayref is passed the filenames are processed in reverse order, so that the first filename specified will end up being on the outside (surrounding all other wrappers).

   my $t = Template::Alloy->new(
       WRAPPER => ['my/wrappers/outer.html', 'my/wrappers/inner.html'],
   );
    

Content generated by the PRE_PROCESS and POST_PROCESS will come before and after (respectively) the content generated by the WRAPPER configuration item.

See the WRAPPER directive for more examples of how wrappers are constructed.

The following HTML::Template and HTML::Template::Expr configuration variables are supported (in HTML::Template documentation order). Note: for further discussion you can refer to the HT documentation. Many of the variables mentioned in the TT CONFIGURATION section apply here as well. Unless noted, these items only apply when using the output method.

Items may be passed in upper or lower case. All passed items are resolved to upper case.

These variables should be passed to the "new" constructor.

    my $obj = Template::Alloy->new(
        type   => 'filename',
        source => 'my/template.ht',
        die_on_bad_params => 1,
        loop_context_vars => 1,
        global_vars       => 1
        post_chomp => "=",
        pre_chomp  => "-",
    );
TYPE
Can be one of filename, filehandle, arrayref, or scalarref. Indicates what type of input is in the "source" configuration item.
SOURCE
Stores where to read the input file. The type is specified in the "type" configuration item.
FILENAME
Indicates a filename to read the template from. Same as putting the filename in the "source" item and setting "type" to "filename".

Must be set to enable caching.

FILEHANDLE
Should contain an open filehandle to read the template from. Same as putting the filehandle in the "source" item and setting "type" to "filehandle".

Will not be cached.

ARRAYREF
Should contain an arrayref whose values are the lines of the template. Same as putting the arrayref in the "source" item and setting "type" to "arrayref".

Will not be cached.

SCALARREF
Should contain an reference to a scalar that contains the template. Same as putting the scalar ref in the "source" item and setting "type" to "scalarref".

Will not be cached.

CACHE
If set to one, then Alloy will use a global, in-memory document cache to store compiled templates in between calls. This is generally only useful in a mod_perl environment. The document is checked for a different modification time at each request.
BLIND_CACHE
Same as with cache enabled, but will not check if the document has been modified.
FILE_CACHE
If set to 1, will cache the compiled document on the file system. If true, file_cache_dir must be set.
FILE_CACHE_DIR
The directory where to store cached documents when file_cache is true. This is similar to the TT compile_dir option.
DOUBLE_FILE_CACHE
Uses a combination of file_cache and cache.
PATH
Same as INCLUDE_PATH when using the process method.
ASSOCIATE
May be a single CGI object or an arrayref of objects. The params from these objects will be added to the params during the output call.
CASE_SENSITIVE
Allow passed variables set through the param method, or the associate configuration to be used case sensitively. Default is off. It is highly suggested that this be set to 1.
LOOP_CONTEXT_VARS
Default false. When true, calls to the loop directive will create the following variables that give information about the current iteration of the loop:

   __first__   - True on first iteration only
   __last__    - True on last iteration only
   __inner__   - True on any iteration that isn't first or last
   __odd__     - True on odd iterations
   __counter__ - The iteration count
    

These variables are also available to LOOPs run under TT syntax if loop_context_vars is set and if QR_PRIVATE is set to 0.

GLOBAL_VARS.
Default true in HTE mode. Default false in HT. Allows top level variables to be used in LOOPs. When false, only variables defined in the current LOOP iteration hashref will be available.
DEFAULT_ESCAPE
Controls the type of escape used on named variables in TMPL_VAR directives. Can be one of HTML, URL, or JS. The values of TMPL_VAR directives will be encoded with this type unless they specify their own type via an ESCAPE attribute.

You may alternately use the AUTO_FILTER directive which can be any of the item vmethod filters (you must use lower case when specifying the AUTO_FILTER directive). The AUTO_FILTER directive will also be applied to TMPL_VAR EXPR and TMPL_GET items while DEFAULT_ESCAPE only applies to TMPL_VAR NAME items.

NO_TT
Default false in 'hte' syntax. Default true in 'ht' syntax. If true, no extended TT directives will be allowed.

The output method uses 'hte' syntax by default.

The following list of methods are other interesting methods of Alloy that may be re-implemented by subclasses of Alloy.
"exception"
Creates an exception object blessed into the package listed in Template::Alloy::Exception.
"execute_tree"
Executes a parsed tree (returned from parse_tree)
"play_expr"
Play the parsed expression. Turns a variable identity array into the parsed variable. This method is also responsible for playing operators and running virtual methods and filters. The variable identity array may also contain literal values, or operator identity arrays.
"include_filename"
Takes a file path, and resolves it into the full filename using paths from INCLUDE_PATH or INCLUDE_PATHS.
"_insert"
Resolves the file passed, and then returns its contents.
"list_filters"
Dynamically loads the filters list from Template::Filters when a filter is used that does not have a native implementation in Alloy.
"load_template"
Given a filename or a string reference will return a "document" hashref hash that contains the parsed tree.

    my $doc = $self->load_template($file); # errors die
    

This method handles the in-memory caching of the document.

"load_tree"
Given the "document" hashref, will either load the parsed AST from file (if configured to do so), or will load the content, parse the content using the Parse role, and will return the tree. File based caching of the parsed AST happens here.
"load_perl"
Only used if COMPILE_PERL is true (default is false).

Given the "document" hashref, will either load the compiled perl from file (if configured to do so), or will load the AST using "load_tree", will compile a new perl code document using the Compile role, and will return the perl code. File based caching of the compiled perl happens here.

"parse_tree"
Parses the passed string ref with the appropriate template syntax.

See Template::Alloy::Parse for more details.

"parse_expr"
Parses the passed string ref for a variable or expression.

See Template::Alloy::Parse for more details.

"parse_args"
See Template::Alloy::Parse for more details.
"set_variable"
Used to set a variable. Expects a variable identity array and the value to set. It will autovifiy as necessary.
"strict_throw"
Called during processing of template when STRICT configuration is set and an uninitialized variable is met. Arguments are the variable identity reference. Will call STRICT_THROW configuration item if set, otherwise will call throw with a useful message.
"throw"
Creates an exception object from the arguments and dies.
"undefined_any"
Called during play_expr if a value is returned that is undefined. This could be used to magically create variables on the fly. This is similar to Template::Stash::undefined. It is suggested that undefined_get be used instead. Default behavior returns undef. You may also pass a coderef via the UNDEFINED_ANY configuration variable. Also, you can try using the DEBUG => 'undef', configuration option which will throw an error on undefined variables.
"undefined_get"
Called when a variable is undefined during a GET directive. This is useful to see if a value that is about to get inserted into the text is undefined. undefined_any is a little too general for most cases. Also, you may pass a coderef via the UNDEFINED_GET configuration variable.

The following is a brief list of other methods used by Alloy. Generally, these shouldn't be overwritten by subclasses.
"ast_string"
Returns perl code representation of a variable.
"context"
Used to create a "pseudo" context object that allows for portability of TT plugins, filters, and perl blocks that need a context object. Uses the Template::Alloy::Context class.
"debug_node"
Used to get debug info on a directive if DEBUG_DIRS is set.
"get_line_number_by_index"
Used to turn string index position into line number
"interpolate_node"
Used for parsing text nodes for dollar variables when interpolate is on.
"play_operator"
Provided by the Operator role. Allows for playing an operator AST.

See Template::Alloy::Operator for more details.

"apply_precedence"
Provided by the Parse role. Allows for parsed operator array to be translated to a tree based upon operator precedence.
"_process"
Called by process and the PROCESS, INCLUDE and other directives.
"slurp"
Reads contents of passed filename - throws file exception on error.
"split_paths"
Used to split INCLUDE_PATH or other directives if an arrayref is not passed.
"tt_var_string"
Returns a template toolkit representation of a variable.
"_vars"
Return a reference to the current stash of variables. This is currently only used by the pseudo context object and may disappear at some point.

Thanks to Andy Wardley for creating Template::Toolkit.

Thanks to Sam Tregar for creating HTML::Template.

Thanks to David Lowe for creating Text::Tmpl.

Thanks to the Apache Velocity guys.

Thanks to Ben Grimm for a patch to allow passing a parsed document to the ->process method.

Thanks to David Warring for finding a parse error in HTE syntax.

Thanks to Carl Franks for adding the base ENCODING support.

Paul Seamons <paul@seamons.com>

This module may be distributed under the same terms as Perl itself.
2020-07-11 perl v5.32.1

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