NAME

Dist::Zilla::Plugin::Rinci::Wrap - Insert wrapper-generated code

VERSION

version 0.04

SYNOPSIS

In dist.ini:

[Rinci::Wrap]
; optional, will be eval'ed as Perl code and passed to wrap_sub()
wrap_args = { validate_result => 0, convert => {retry=>2} }
; optional, will not squish code and add marker comment
debug=1

In your module:

$SPEC{foo} = {
    v => 1.1,
    args => {
        arg1 => { schema => ['int*', default=>3] },
        arg2 => { },
    },
};
sub foo {
    my %args = @_;

    ... your code
    return [200, "OK", "some result"];
}

output will be something like:

$SPEC{foo} = {
    v => 1.1,
    args => {
        arg1 => { schema => ['int*', default=>3] },
        arg2 => { },
    },
};
require Scalar::Util; require Data::Dumper; { my $meta = $SPEC{foo}; $meta->{args}{arg1}{schema} = ["int", {req=>1, default=>3}, {}]; } # WRAP_PRESUB
sub foo {
    my %args = @_;

    ... generated preamble code

    ... your code
    return [200, "OK", "some result"];

    ... generated postamble code
}

DESCRIPTION

This plugin inserts code generated by Perinci::Sub::Wrapper to your source code during building. This lets you add functionalities like argument validation, result validation, automatic retries, conversion of argument passing style, currying, and so on.

Code is inserted in three places (see the above example in Synopsis):

  • The first part (which is the part to load required modules and to modify function metadata, e.g. normalize Sah schemas, etc) will be inserted right before the opening of the subroutine (sub NAME {).

  • The second part (which is the part to validate arguments and do stuffs before performing the function) will be inserted at the start of subroutine body after the my %args = @_; (or my $args = $_[0] // {}; if you accept arguments from a hashref, or my @args = @_; if you accept arguments from an array, or my $args = $_[0] // []; if you accept arguments from an arrayref) statement. This should be one of the first things you write after your sub declaration before you do anything else.

  • The third part (which is the part to validate function result and do stuffs after performing the function) will be inserted right before the closing of the subroutine.

Currently regexes are used to parse the code so things might be rather fragile.

RESTRICTIONS

There are some restrictions (hopefully not actually restricting) when writing your code if you want to use this plugin.

  • Clash of variables

    The generated wrapper code will declare some variables. You need to make sure that the variables do not clash. This is rather simple: the variables used by the wrapper code will all be prefixed with _w_ (e.g. $_w_res) or _sahv_ for variables generated by the Sah schema compiler (e.g. <$_sahv_dpath>).

  • Variable used to accept arguments

    Currently the wrapper internally will perform argument validation on $args{ARGNAME} variables, even if you accept arguments from a hashref/array/arrayref. Thus:

    If you accept arguments from a hash (the default), you need to put the arguments to %args, i.e.:

    my %args = @_;

    You can then get the validated arguments e.g.:

    my $name = $args{name};
    my $addr = $args{address};
    ...

    If you accept arguments from a hashref (i.e. func({ arg1=>1, arg2=>2 })):

    my $args = $_[0] // {};

    If you accept arguments from an array (e.g. <func(1, 2)>:

    my @args = @_;

    If you accept arguments from an arrayref <func([1, 2])>:

    my $args = $_[0] // [];

FAQ

Rationale for this plugin?

This plugin is an alternative to using Perinci::Sub::Wrapper (PSW) dynamically. During build, you generate the wrapper code and insert it to the target code. The result is lower startup overhead (no need to generate the wrapper code during runtime) and better guarantee that your wrapping code (argument validation, etc) is always called when your subroutines are called, even if your users do not use PSW and call your subroutines directly.

Another advantage/characteristic using this plugin is that, the wrapper code does not introduce extra call level.

But why use PSW at all?

In short, adding Rinci metadata to your subroutines allows various tools to do useful stuffs, relieving you from coding those stuffs manually. Using Sah schema allows you to write validation code succintly, and gives you the ability to automatically generate Perl/JavaScript/error messages from the schema.

PSW is one of the ways (currently the only way) to implement those behaviours/functionalities.

But the generated code looks ugly!

Admittedly, yes. Wrapper-generated code is formatted as a single long line to avoid modifying line numbers, which is desirable when debugging your modules. An option to not compress everything as a single line might be added in the future.

How do I customize wrapping for my function

In the future there will be options you can specify in dist.ini.

For now, you can put in your Rinci function metadata:

"x.dist.zilla.plugin.rinci.wrap.wrap_args" => { validate_args => 0 },

This will be merged and will override wrap_args keys specified in dist.ini.

TODO

  • Use PPI instead of fragile regex.

  • Option to not compress wrapper code to a single line.

  • Option to reuse validation code for the same schema.

  • Option to exclude some subroutines from being wrapped.

  • Option to specify different wrap_args for different subroutines.

HOMEPAGE

Please visit the project's homepage at https://metacpan.org/release/Dist-Zilla-Plugin-Rinci-Wrap.

SOURCE

Source repository is at https://github.com/sharyanto/perl-Dist-Zilla-Plugin-Rinci-Wrap.

BUGS

Please report any bugs or feature requests on the bugtracker website https://rt.cpan.org/Public/Dist/Display.html?Name=Dist-Zilla-Plugin-Rinci-Wrap

When submitting a bug or request, please include a test-file or a patch to an existing test-file that illustrates the bug or desired feature.

AUTHOR

Steven Haryanto <stevenharyanto@gmail.com>

COPYRIGHT AND LICENSE

This software is copyright (c) 2014 by Steven Haryanto.

This is free software; you can redistribute it and/or modify it under the same terms as the Perl 5 programming language system itself.