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| 17 | |
17 | |
| 18 | package Types::Serialiser; |
18 | package Types::Serialiser; |
| 19 | |
19 | |
| 20 | use common::sense; # required to suppress annoying warnings |
20 | use common::sense; # required to suppress annoying warnings |
| 21 | |
21 | |
| 22 | our $VERSION = 0.03; |
22 | our $VERSION = '1.01'; |
| 23 | |
23 | |
| 24 | =head1 SIMPLE SCALAR CONSTANTS |
24 | =head1 SIMPLE SCALAR CONSTANTS |
| 25 | |
25 | |
| 26 | Simple scalar constants are values that are overloaded to act like simple |
26 | Simple scalar constants are values that are overloaded to act like simple |
| 27 | Perl values, but have (class) type to differentiate them from normal Perl |
27 | Perl values, but have (class) type to differentiate them from normal Perl |
| 28 | scalars. This is necessary because these have different representations in |
28 | scalars. This is necessary because these have different representations in |
| 29 | the serialisation formats. |
29 | the serialisation formats. |
| 30 | |
30 | |
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31 | In the following, functions with zero or one arguments have a prototype of |
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32 | C<()> and C<($)>, respectively, so act as constants and unary operators. |
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33 | |
| 31 | =head2 BOOLEANS (Types::Serialiser::Boolean class) |
34 | =head2 BOOLEANS (Types::Serialiser::Boolean class) |
| 32 | |
35 | |
| 33 | This type has only two instances, true and false. A natural representation |
36 | 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 |
37 | 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. |
38 | able to differentiate between them and mere numbers. |
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| 51 | the number C<0>. It is up to you whether you use the variable form |
54 | the number C<0>. It is up to you whether you use the variable form |
| 52 | (C<$Types::Serialiser::false>) or the constant form (C<Types::Serialiser::false>). |
55 | (C<$Types::Serialiser::false>) or the constant form (C<Types::Serialiser::false>). |
| 53 | |
56 | |
| 54 | The constant is represented as a reference to a scalar containing C<0> - |
57 | The constant is represented as a reference to a scalar containing C<0> - |
| 55 | implementations are allowed to directly test for this. |
58 | implementations are allowed to directly test for this. |
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59 | |
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60 | =item Types::Serialiser::as_bool $value |
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61 | |
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62 | Converts a Perl scalar into a boolean, which is useful syntactic |
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63 | sugar. Strictly equivalent to: |
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64 | |
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65 | $value ? $Types::Serialiser::true : $Types::Serialiser::false |
| 56 | |
66 | |
| 57 | =item $is_bool = Types::Serialiser::is_bool $value |
67 | =item $is_bool = Types::Serialiser::is_bool $value |
| 58 | |
68 | |
| 59 | Returns true iff the C<$value> is either C<$Types::Serialiser::true> or |
69 | Returns true iff the C<$value> is either C<$Types::Serialiser::true> or |
| 60 | C<$Types::Serialiser::false>. |
70 | C<$Types::Serialiser::false>. |
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| 127 | |
137 | |
| 128 | sub true () { $true } |
138 | sub true () { $true } |
| 129 | sub false () { $false } |
139 | sub false () { $false } |
| 130 | sub error () { $error } |
140 | sub error () { $error } |
| 131 | |
141 | |
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142 | sub as_bool($) { $_[0] ? $true : $false } |
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143 | |
| 132 | sub is_bool ($) { UNIVERSAL::isa $_[0], Types::Serialiser::Boolean:: } |
144 | sub is_bool ($) { UNIVERSAL::isa $_[0], Types::Serialiser::Boolean:: } |
| 133 | sub is_true ($) { $_[0] && UNIVERSAL::isa $_[0], Types::Serialiser::Boolean:: } |
145 | sub is_true ($) { $_[0] && UNIVERSAL::isa $_[0], Types::Serialiser::Boolean:: } |
| 134 | sub is_false ($) { !$_[0] && UNIVERSAL::isa $_[0], Types::Serialiser::Boolean:: } |
146 | sub is_false ($) { !$_[0] && UNIVERSAL::isa $_[0], Types::Serialiser::Boolean:: } |
| 135 | sub is_error ($) { UNIVERSAL::isa $_[0], Types::Serialiser::Error:: } |
147 | sub is_error ($) { UNIVERSAL::isa $_[0], Types::Serialiser::Error:: } |
| 136 | |
148 | |
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| 177 | When the encoder encounters an object that it cannot otherwise encode (for |
189 | 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 |
190 | 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 |
191 | attempt to use the special C<TO_CBOR> serialisation protocol), it will |
| 180 | look up the C<FREEZE> method on the object. |
192 | look up the C<FREEZE> method on the object. |
| 181 | |
193 | |
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194 | Note that the C<FREEZE> method will normally be called I<during> encoding, |
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195 | and I<MUST NOT> change the data structure that is being encoded in any |
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196 | way, or it might cause memory corruption or worse. |
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197 | |
| 182 | If it exists, it will call it with two arguments: the object to serialise, |
198 | 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 |
199 | and a constant string that indicates the name of the data model. For |
| 184 | format. For example L<CBOR::XS> uses C<CBOR>, and L<JSON> and L<JSON::XS> |
200 | example L<CBOR::XS> uses C<CBOR>, and the L<JSON> and L<JSON::XS> modules |
| 185 | (or any other JSON serialiser), would use C<JSON> as second argument. |
201 | (or any other JSON serialiser), would use C<JSON> as second argument. |
| 186 | |
202 | |
| 187 | The C<FREEZE> method can then return zero or more values to identify the |
203 | 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 |
204 | 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) |
205 | 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 |
206 | using the relevant form for Perl objects. In CBOR for example, there is a |
| 191 | registered tag number for encoded perl objects. |
207 | registered tag number for encoded perl objects. |
| 192 | |
208 | |
| 193 | The values that C<FREEZE> returns must be serialisable with the serialiser |
209 | 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 |
210 | 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 |
211 | 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 |
212 | JSON data model). You can always use a more complex format for a specific |
| 197 | data model by checking the second argument. |
213 | data model by checking the second argument, the data model. |
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214 | |
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215 | The "data model" is not the same as the "data format" - the data model |
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216 | indicates what types and kinds of return values can be returned from |
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217 | C<FREEZE>. For example, in C<CBOR> it is permissible to return tagged CBOR |
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218 | values, while JSON does not support these at all, so C<JSON> would be a |
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219 | valid (but too limited) data model name for C<CBOR::XS>. similarly, a |
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220 | serialising format that supports more or less the same data model as JSON |
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221 | could use C<JSON> as data model without losing anything. |
| 198 | |
222 | |
| 199 | =head2 DECODING |
223 | =head2 DECODING |
| 200 | |
224 | |
| 201 | When the decoder then encounters such an encoded perl object, it should |
225 | 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 |
226 | look up the C<THAW> method on the stored classname, and invoke it with the |
