Types-Serialiser/Serialiser.pm

=head1 NAME

Types::Serialiser - simple data types for common serialisation formats

=encoding utf-8

=head1 SYNOPSIS

=head1 DESCRIPTION

This module provides some extra datatypes that are used by common
serialisation formats such as JSON or CBOR. The idea is to have a
repository of simple/small constants and containers that can be shared by
different implementations so they become interoperable between each other.

=cut

package Types::Serialiser;

use common::sense; # required to suppress annoying warnings

our $VERSION = 0.03;

=head1 SIMPLE SCALAR CONSTANTS

Simple scalar constants are values that are overloaded to act like simple
Perl values, but have (class) type to differentiate them from normal Perl
scalars. This is necessary because these have different representations in
the serialisation formats.

=head2 BOOLEANS (Types::Serialiser::Boolean class)

This type has only two instances, true and false. A natural representation
for these in Perl is C<1> and C<0>, but serialisation formats need to be
able to differentiate between them and mere numbers.

=over 4

=item $Types::Serialiser::true, Types::Serialiser::true

This value represents the "true" value. In most contexts is acts like
the number C<1>. It is up to you whether you use the variable form
(C<$Types::Serialiser::true>) or the constant form (C<Types::Serialiser::true>).

The constant is represented as a reference to a scalar containing C<1> -
implementations are allowed to directly test for this.

=item $Types::Serialiser::false, Types::Serialiser::false

This value represents the "false" value. In most contexts is acts like
the number C<0>. It is up to you whether you use the variable form
(C<$Types::Serialiser::false>) or the constant form (C<Types::Serialiser::false>).

The constant is represented as a reference to a scalar containing C<0> -
implementations are allowed to directly test for this.

=item $is_bool = Types::Serialiser::is_bool $value

Returns true iff the C<$value> is either C<$Types::Serialiser::true> or
C<$Types::Serialiser::false>.

For example, you could differentiate between a perl true value and a
C<Types::Serialiser::true> by using this:

   $value && Types::Serialiser::is_bool $value

=item $is_true = Types::Serialiser::is_true $value

Returns true iff C<$value> is C<$Types::Serialiser::true>.

=item $is_false = Types::Serialiser::is_false $value

Returns false iff C<$value> is C<$Types::Serialiser::false>.

=back

=head2 ERROR (Types::Serialiser::Error class)

This class has only a single instance, C<error>. It is used to signal
an encoding or decoding error. In CBOR for example, and object that
couldn't be encoded will be represented by a CBOR undefined value, which
is represented by the error value in Perl.

=over 4

=item $Types::Serialiser::error, Types::Serialiser::error

This value represents the "error" value. Accessing values of this type
will throw an exception.

The constant is represented as a reference to a scalar containing C<undef>
- implementations are allowed to directly test for this.

=item $is_error = Types::Serialiser::is_error $value

Returns false iff C<$value> is C<$Types::Serialiser::error>.

=back

=cut

BEGIN {
   # for historical reasons, and to avoid extra dependencies in JSON::PP,
   # we alias *Types::Serialiser::Boolean with JSON::PP::Boolean.
   package JSON::PP::Boolean;

   *Types::Serialiser::Boolean:: = *JSON::PP::Boolean::;
}

{
   # this must done before blessing to work around bugs
   # in perl < 5.18 (it seems to be fixed in 5.18).
   package Types::Serialiser::BooleanBase;

   use overload
      "0+"     => sub { ${$_[0]} },
      "++"     => sub { $_[0] = ${$_[0]} + 1 },
      "--"     => sub { $_[0] = ${$_[0]} - 1 },
      fallback => 1;

   @Types::Serialiser::Boolean::ISA = Types::Serialiser::BooleanBase::;
}

our $true  = do { bless \(my $dummy = 1), Types::Serialiser::Boolean:: };
our $false = do { bless \(my $dummy = 0), Types::Serialiser::Boolean:: };
our $error = do { bless \(my $dummy    ), Types::Serialiser::Error::   };

sub true  () { $true  }
sub false () { $false }
sub error () { $error }

sub is_bool  ($) {           UNIVERSAL::isa $_[0], Types::Serialiser::Boolean:: }
sub is_true  ($) {  $_[0] && UNIVERSAL::isa $_[0], Types::Serialiser::Boolean:: }
sub is_false ($) { !$_[0] && UNIVERSAL::isa $_[0], Types::Serialiser::Boolean:: }
sub is_error ($) {           UNIVERSAL::isa $_[0], Types::Serialiser::Error::   }

package Types::Serialiser::Error;

sub error {
   require Carp;
   Carp::croak ("caught attempt to use the Types::Serialiser::error value");
};

use overload
   "0+"     => \&error,
   "++"     => \&error,
   "--"     => \&error,
   fallback => 1;

=head1 NOTES FOR XS USERS

The recommended way to detect whether a scalar is one of these objects
is to check whether the stash is the C<Types::Serialiser::Boolean> or
C<Types::Serialiser::Error> stash, and then follow the scalar reference to
see if it's C<1> (true), C<0> (false) or C<undef> (error).

While it is possible to use an isa test, directly comparing stash pointers
is faster and guaranteed to work.

For historical reasons, the C<Types::Serialiser::Boolean> stash is
just an alias for C<JSON::PP::Boolean>. When printed, the classname
with usually be C<JSON::PP::Boolean>, but isa tests and stash pointer
comparison will normally work correctly (i.e. Types::Serialiser::true ISA
JSON::PP::Boolean, but also ISA Types::Serialiser::Boolean).

=head1 A GENERIC OBJECT SERIALIATION PROTOCOL

This section explains the object serialisation protocol used by
L<CBOR::XS>. It is meant to be generic enough to support any kind of
generic object serialiser.

This protocol is called "the Types::Serialiser object serialisation
protocol".

=head2 ENCODING

When the encoder encounters an object that it cannot otherwise encode (for
example, L<CBOR::XS> can encode a few special types itself, and will first
attempt to use the special C<TO_CBOR> serialisation protocol), it will
look up the C<FREEZE> method on the object.

If it exists, it will call it with two arguments: the object to serialise,
and a constant string that indicates the name of the data model or data
format. For example L<CBOR::XS> uses C<CBOR>, and L<JSON> and L<JSON::XS>
(or any other JSON serialiser), would use C<JSON> as second argument.

The C<FREEZE> method can then return zero or more values to identify the
object instance. The serialiser is then supposed to encode the class name
and all of these return values (which must be encodable in the format)
using the relevant form for perl objects. In CBOR for example, there is a
registered tag number for encoded perl objects.

The values that C<FREEZE> returns must be serialisable with the serialiser
that calls it. Therefore, it is recommended to use simple types such as
strings and numbers, and maybe array references and hashes (basically, the
JSON data model). You can always use a more complex format for a specific
data model by checking the second argument.

=head2 DECODING

When the decoder then encounters such an encoded perl object, it should
look up the C<THAW> method on the stored classname, and invoke it with the
classname, the constant string to identify the data model/data format, and
all the return values returned by C<FREEZE>.

=head2 EXAMPLES

See the C<OBJECT SERIALISATION> section in the L<CBOR::XS> manpage for
more details, an example implementation, and code examples.

Here is an example C<FREEZE>/C<THAW> method pair:

   sub My::Object::FREEZE {
      my ($self, $model) = @_;

      ($self->{type}, $self->{id}, $self->{variant})
   }

   sub My::Object::THAW {
      my ($class, $model, $type, $id, $variant) = @_;

      $class->new (type => $type, id => $id, variant => $variant)
   }

=head1 BUGS

The use of L<overload> makes this module much heavier than it should be
(on my system, this module: 4kB RSS, overload: 260kB RSS).

=head1 SEE ALSO

Currently, L<JSON::XS> and L<CBOR::XS> use these types.

=head1 AUTHOR

 Marc Lehmann <schmorp@schmorp.de>
 http://home.schmorp.de/

=cut

1

Revision:	1.8
Committed:	Mon Nov 4 15:12:16 2013 UTC (10 years, 7 months ago) by root
Branch:	MAIN
Changes since 1.7:	+10 -11 lines
Log Message:	* empty log message *
#	Content
1	=head1 NAME
2
3	Types::Serialiser - simple data types for common serialisation formats
4
5	=encoding utf-8
6
7	=head1 SYNOPSIS
8
9	=head1 DESCRIPTION
10
11	This module provides some extra datatypes that are used by common
12	serialisation formats such as JSON or CBOR. The idea is to have a
13	repository of simple/small constants and containers that can be shared by
14	different implementations so they become interoperable between each other.
15
16	=cut
17
18	package Types::Serialiser;
19
20	use common::sense; # required to suppress annoying warnings
21
22	our $VERSION = 0.03;
23
24	=head1 SIMPLE SCALAR CONSTANTS
25
26	Simple scalar constants are values that are overloaded to act like simple
27	Perl values, but have (class) type to differentiate them from normal Perl
28	scalars. This is necessary because these have different representations in
29	the serialisation formats.
30
31	=head2 BOOLEANS (Types::Serialiser::Boolean class)
32
33	This type has only two instances, true and false. A natural representation
34	for these in Perl is C<1> and C<0>, but serialisation formats need to be
35	able to differentiate between them and mere numbers.
36
37	=over 4
38
39	=item $Types::Serialiser::true, Types::Serialiser::true
40
41	This value represents the "true" value. In most contexts is acts like
42	the number C<1>. It is up to you whether you use the variable form
43	(C<$Types::Serialiser::true>) or the constant form (C<Types::Serialiser::true>).
44
45	The constant is represented as a reference to a scalar containing C<1> -
46	implementations are allowed to directly test for this.
47
48	=item $Types::Serialiser::false, Types::Serialiser::false
49
50	This value represents the "false" value. In most contexts is acts like
51	the number C<0>. It is up to you whether you use the variable form
52	(C<$Types::Serialiser::false>) or the constant form (C<Types::Serialiser::false>).
53
54	The constant is represented as a reference to a scalar containing C<0> -
55	implementations are allowed to directly test for this.
56
57	=item $is_bool = Types::Serialiser::is_bool $value
58
59	Returns true iff the C<$value> is either C<$Types::Serialiser::true> or
60	C<$Types::Serialiser::false>.
61
62	For example, you could differentiate between a perl true value and a
63	C<Types::Serialiser::true> by using this:
64
65	$value && Types::Serialiser::is_bool $value
66
67	=item $is_true = Types::Serialiser::is_true $value
68
69	Returns true iff C<$value> is C<$Types::Serialiser::true>.
70
71	=item $is_false = Types::Serialiser::is_false $value
72
73	Returns false iff C<$value> is C<$Types::Serialiser::false>.
74
75	=back
76
77	=head2 ERROR (Types::Serialiser::Error class)
78
79	This class has only a single instance, C<error>. It is used to signal
80	an encoding or decoding error. In CBOR for example, and object that
81	couldn't be encoded will be represented by a CBOR undefined value, which
82	is represented by the error value in Perl.
83
84	=over 4
85
86	=item $Types::Serialiser::error, Types::Serialiser::error
87
88	This value represents the "error" value. Accessing values of this type
89	will throw an exception.
90
91	The constant is represented as a reference to a scalar containing C<undef>
92	- implementations are allowed to directly test for this.
93
94	=item $is_error = Types::Serialiser::is_error $value
95
96	Returns false iff C<$value> is C<$Types::Serialiser::error>.
97
98	=back
99
100	=cut
101
102	BEGIN {
103	# for historical reasons, and to avoid extra dependencies in JSON::PP,
104	# we alias *Types::Serialiser::Boolean with JSON::PP::Boolean.
105	package JSON::PP::Boolean;
106
107	Types::Serialiser::Boolean:: = JSON::PP::Boolean::;
108	}
109
110	{
111	# this must done before blessing to work around bugs
112	# in perl < 5.18 (it seems to be fixed in 5.18).
113	package Types::Serialiser::BooleanBase;
114
115	use overload
116	"0+" => sub { ${$_[0]} },
117	"++" => sub { $_[0] = ${$_[0]} + 1 },
118	"--" => sub { $_[0] = ${$_[0]} - 1 },
119	fallback => 1;
120
121	@Types::Serialiser::Boolean::ISA = Types::Serialiser::BooleanBase::;
122	}
123
124	our $true = do { bless \(my $dummy = 1), Types::Serialiser::Boolean:: };
125	our $false = do { bless \(my $dummy = 0), Types::Serialiser::Boolean:: };
126	our $error = do { bless \(my $dummy ), Types::Serialiser::Error:: };
127
128	sub true () { $true }
129	sub false () { $false }
130	sub error () { $error }
131
132	sub is_bool ($) { UNIVERSAL::isa $_[0], Types::Serialiser::Boolean:: }
133	sub is_true ($) { $_[0] && UNIVERSAL::isa $_[0], Types::Serialiser::Boolean:: }
134	sub is_false ($) { !$_[0] && UNIVERSAL::isa $_[0], Types::Serialiser::Boolean:: }
135	sub is_error ($) { UNIVERSAL::isa $_[0], Types::Serialiser::Error:: }
136
137	package Types::Serialiser::Error;
138
139	sub error {
140	require Carp;
141	Carp::croak ("caught attempt to use the Types::Serialiser::error value");
142	};
143
144	use overload
145	"0+" => \&error,
146	"++" => \&error,
147	"--" => \&error,
148	fallback => 1;
149
150	=head1 NOTES FOR XS USERS
151
152	The recommended way to detect whether a scalar is one of these objects
153	is to check whether the stash is the C<Types::Serialiser::Boolean> or
154	C<Types::Serialiser::Error> stash, and then follow the scalar reference to
155	see if it's C<1> (true), C<0> (false) or C<undef> (error).
156
157	While it is possible to use an isa test, directly comparing stash pointers
158	is faster and guaranteed to work.
159
160	For historical reasons, the C<Types::Serialiser::Boolean> stash is
161	just an alias for C<JSON::PP::Boolean>. When printed, the classname
162	with usually be C<JSON::PP::Boolean>, but isa tests and stash pointer
163	comparison will normally work correctly (i.e. Types::Serialiser::true ISA
164	JSON::PP::Boolean, but also ISA Types::Serialiser::Boolean).
165
166	=head1 A GENERIC OBJECT SERIALIATION PROTOCOL
167
168	This section explains the object serialisation protocol used by
169	L<CBOR::XS>. It is meant to be generic enough to support any kind of
170	generic object serialiser.
171
172	This protocol is called "the Types::Serialiser object serialisation
173	protocol".
174
175	=head2 ENCODING
176
177	When the encoder encounters an object that it cannot otherwise encode (for
178	example, L<CBOR::XS> can encode a few special types itself, and will first
179	attempt to use the special C<TO_CBOR> serialisation protocol), it will
180	look up the C<FREEZE> method on the object.
181
182	If it exists, it will call it with two arguments: the object to serialise,
183	and a constant string that indicates the name of the data model or data
184	format. For example L<CBOR::XS> uses C<CBOR>, and L<JSON> and L<JSON::XS>
185	(or any other JSON serialiser), would use C<JSON> as second argument.
186
187	The C<FREEZE> method can then return zero or more values to identify the
188	object instance. The serialiser is then supposed to encode the class name
189	and all of these return values (which must be encodable in the format)
190	using the relevant form for perl objects. In CBOR for example, there is a
191	registered tag number for encoded perl objects.
192
193	The values that C<FREEZE> returns must be serialisable with the serialiser
194	that calls it. Therefore, it is recommended to use simple types such as
195	strings and numbers, and maybe array references and hashes (basically, the
196	JSON data model). You can always use a more complex format for a specific
197	data model by checking the second argument.
198
199	=head2 DECODING
200
201	When the decoder then encounters such an encoded perl object, it should
202	look up the C<THAW> method on the stored classname, and invoke it with the
203	classname, the constant string to identify the data model/data format, and
204	all the return values returned by C<FREEZE>.
205
206	=head2 EXAMPLES
207
208	See the C<OBJECT SERIALISATION> section in the L<CBOR::XS> manpage for
209	more details, an example implementation, and code examples.
210
211	Here is an example C<FREEZE>/C<THAW> method pair:
212
213	sub My::Object::FREEZE {
214	my ($self, $model) = @_;
215
216	($self->{type}, $self->{id}, $self->{variant})
217	}
218
219	sub My::Object::THAW {
220	my ($class, $model, $type, $id, $variant) = @_;
221
222	$class->new (type => $type, id => $id, variant => $variant)
223	}
224
225	=head1 BUGS
226
227	The use of L<overload> makes this module much heavier than it should be
228	(on my system, this module: 4kB RSS, overload: 260kB RSS).
229
230	=head1 SEE ALSO
231
232	Currently, L<JSON::XS> and L<CBOR::XS> use these types.
233
234	=head1 AUTHOR
235
236	Marc Lehmann <schmorp@schmorp.de>
237	http://home.schmorp.de/
238
239	=cut
240
241	1
242