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1 | =encoding utf-8 |
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2 | |
| 1 | =head1 NAME |
3 | =head1 NAME |
| 2 | |
4 | |
| 3 | JSON::XS - JSON serialising/deserialising, done correctly and fast |
5 | JSON::XS - JSON serialising/deserialising, done correctly and fast |
| 4 | |
6 | |
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7 | JSON::XS - 正しくて高速な JSON シリアライザ/デシリアライザ |
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8 | (http://fleur.hio.jp/perldoc/mix/lib/JSON/XS.html) |
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9 | |
| 5 | =head1 SYNOPSIS |
10 | =head1 SYNOPSIS |
| 6 | |
11 | |
| 7 | use JSON::XS; |
12 | use JSON::XS; |
| 8 | |
13 | |
| 9 | # exported functions, croak on error |
14 | # exported functions, they croak on error |
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15 | # and expect/generate UTF-8 |
| 10 | |
16 | |
| 11 | $utf8_encoded_json_text = to_json $perl_hash_or_arrayref; |
17 | $utf8_encoded_json_text = to_json $perl_hash_or_arrayref; |
| 12 | $perl_hash_or_arrayref = from_json $utf8_encoded_json_text; |
18 | $perl_hash_or_arrayref = from_json $utf8_encoded_json_text; |
| 13 | |
19 | |
| 14 | # objToJson and jsonToObj are exported for JSON |
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| 15 | # compatibility, but should not be used in new code. |
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| 16 | |
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| 17 | # oo-interface |
20 | # OO-interface |
| 18 | |
21 | |
| 19 | $coder = JSON::XS->new->ascii->pretty->allow_nonref; |
22 | $coder = JSON::XS->new->ascii->pretty->allow_nonref; |
| 20 | $pretty_printed_unencoded = $coder->encode ($perl_scalar); |
23 | $pretty_printed_unencoded = $coder->encode ($perl_scalar); |
| 21 | $perl_scalar = $coder->decode ($unicode_json_text); |
24 | $perl_scalar = $coder->decode ($unicode_json_text); |
| 22 | |
25 | |
| … | |
… | |
| 83 | |
86 | |
| 84 | package JSON::XS; |
87 | package JSON::XS; |
| 85 | |
88 | |
| 86 | use strict; |
89 | use strict; |
| 87 | |
90 | |
| 88 | BEGIN { |
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| 89 | our $VERSION = '0.8'; |
91 | our $VERSION = '1.5'; |
| 90 | our @ISA = qw(Exporter); |
92 | our @ISA = qw(Exporter); |
| 91 | |
93 | |
| 92 | our @EXPORT = qw(to_json from_json objToJson jsonToObj); |
94 | our @EXPORT = qw(to_json from_json); |
| 93 | require Exporter; |
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| 94 | |
95 | |
| 95 | require XSLoader; |
96 | use Exporter; |
| 96 | XSLoader::load JSON::XS::, $VERSION; |
97 | use XSLoader; |
| 97 | } |
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| 98 | |
98 | |
| 99 | =head1 FUNCTIONAL INTERFACE |
99 | =head1 FUNCTIONAL INTERFACE |
| 100 | |
100 | |
| 101 | The following convinience methods are provided by this module. They are |
101 | The following convinience methods are provided by this module. They are |
| 102 | exported by default: |
102 | exported by default: |
| 103 | |
103 | |
| 104 | =over 4 |
104 | =over 4 |
| 105 | |
105 | |
| 106 | =item $json_text = to_json $perl_scalar |
106 | =item $json_text = to_json $perl_scalar |
| 107 | |
107 | |
| 108 | Converts the given Perl data structure (a simple scalar or a reference to |
108 | Converts the given Perl data structure to a UTF-8 encoded, binary string |
| 109 | a hash or array) to a UTF-8 encoded, binary string (that is, the string contains |
109 | (that is, the string contains octets only). Croaks on error. |
| 110 | octets only). Croaks on error. |
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| 111 | |
110 | |
| 112 | This function call is functionally identical to: |
111 | This function call is functionally identical to: |
| 113 | |
112 | |
| 114 | $json_text = JSON::XS->new->utf8->encode ($perl_scalar) |
113 | $json_text = JSON::XS->new->utf8->encode ($perl_scalar) |
| 115 | |
114 | |
| 116 | except being faster. |
115 | except being faster. |
| 117 | |
116 | |
| 118 | =item $perl_scalar = from_json $json_text |
117 | =item $perl_scalar = from_json $json_text |
| 119 | |
118 | |
| 120 | The opposite of C<to_json>: expects an UTF-8 (binary) string and tries to |
119 | The opposite of C<to_json>: expects an UTF-8 (binary) string and tries |
| 121 | parse that as an UTF-8 encoded JSON text, returning the resulting simple |
120 | to parse that as an UTF-8 encoded JSON text, returning the resulting |
| 122 | scalar or reference. Croaks on error. |
121 | reference. Croaks on error. |
| 123 | |
122 | |
| 124 | This function call is functionally identical to: |
123 | This function call is functionally identical to: |
| 125 | |
124 | |
| 126 | $perl_scalar = JSON::XS->new->utf8->decode ($json_text) |
125 | $perl_scalar = JSON::XS->new->utf8->decode ($json_text) |
| 127 | |
126 | |
| 128 | except being faster. |
127 | except being faster. |
| 129 | |
128 | |
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129 | =item $is_boolean = JSON::XS::is_bool $scalar |
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130 | |
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131 | Returns true if the passed scalar represents either JSON::XS::true or |
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132 | JSON::XS::false, two constants that act like C<1> and C<0>, respectively |
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133 | and are used to represent JSON C<true> and C<false> values in Perl. |
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134 | |
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135 | See MAPPING, below, for more information on how JSON values are mapped to |
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136 | Perl. |
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137 | |
| 130 | =back |
138 | =back |
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139 | |
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140 | |
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141 | =head1 A FEW NOTES ON UNICODE AND PERL |
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142 | |
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143 | Since this often leads to confusion, here are a few very clear words on |
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144 | how Unicode works in Perl, modulo bugs. |
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145 | |
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146 | =over 4 |
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147 | |
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148 | =item 1. Perl strings can store characters with ordinal values > 255. |
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149 | |
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150 | This enables you to store unicode characters as single characters in a |
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151 | Perl string - very natural. |
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152 | |
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153 | =item 2. Perl does I<not> associate an encoding with your strings. |
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154 | |
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155 | Unless you force it to, e.g. when matching it against a regex, or printing |
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156 | the scalar to a file, in which case Perl either interprets your string as |
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157 | locale-encoded text, octets/binary, or as Unicode, depending on various |
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158 | settings. In no case is an encoding stored together with your data, it is |
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159 | I<use> that decides encoding, not any magical metadata. |
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160 | |
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161 | =item 3. The internal utf-8 flag has no meaning with regards to the |
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162 | encoding of your string. |
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163 | |
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164 | Just ignore that flag unless you debug a Perl bug, a module written in |
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165 | XS or want to dive into the internals of perl. Otherwise it will only |
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166 | confuse you, as, despite the name, it says nothing about how your string |
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167 | is encoded. You can have unicode strings with that flag set, with that |
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168 | flag clear, and you can have binary data with that flag set and that flag |
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169 | clear. Other possibilities exist, too. |
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170 | |
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171 | If you didn't know about that flag, just the better, pretend it doesn't |
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172 | exist. |
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173 | |
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174 | =item 4. A "Unicode String" is simply a string where each character can be |
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175 | validly interpreted as a Unicode codepoint. |
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176 | |
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177 | If you have UTF-8 encoded data, it is no longer a Unicode string, but a |
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178 | Unicode string encoded in UTF-8, giving you a binary string. |
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179 | |
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180 | =item 5. A string containing "high" (> 255) character values is I<not> a UTF-8 string. |
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181 | |
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182 | Its a fact. Learn to live with it. |
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183 | |
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184 | =back |
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185 | |
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186 | I hope this helps :) |
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187 | |
| 131 | |
188 | |
| 132 | =head1 OBJECT-ORIENTED INTERFACE |
189 | =head1 OBJECT-ORIENTED INTERFACE |
| 133 | |
190 | |
| 134 | The object oriented interface lets you configure your own encoding or |
191 | The object oriented interface lets you configure your own encoding or |
| 135 | decoding style, within the limits of supported formats. |
192 | decoding style, within the limits of supported formats. |
| … | |
… | |
| 151 | |
208 | |
| 152 | If C<$enable> is true (or missing), then the C<encode> method will not |
209 | If C<$enable> is true (or missing), then the C<encode> method will not |
| 153 | generate characters outside the code range C<0..127> (which is ASCII). Any |
210 | generate characters outside the code range C<0..127> (which is ASCII). Any |
| 154 | unicode characters outside that range will be escaped using either a |
211 | unicode characters outside that range will be escaped using either a |
| 155 | single \uXXXX (BMP characters) or a double \uHHHH\uLLLLL escape sequence, |
212 | single \uXXXX (BMP characters) or a double \uHHHH\uLLLLL escape sequence, |
| 156 | as per RFC4627. |
213 | as per RFC4627. The resulting encoded JSON text can be treated as a native |
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214 | unicode string, an ascii-encoded, latin1-encoded or UTF-8 encoded string, |
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215 | or any other superset of ASCII. |
| 157 | |
216 | |
| 158 | If C<$enable> is false, then the C<encode> method will not escape Unicode |
217 | If C<$enable> is false, then the C<encode> method will not escape Unicode |
| 159 | characters unless required by the JSON syntax. This results in a faster |
218 | characters unless required by the JSON syntax or other flags. This results |
| 160 | and more compact format. |
219 | in a faster and more compact format. |
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220 | |
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221 | The main use for this flag is to produce JSON texts that can be |
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222 | transmitted over a 7-bit channel, as the encoded JSON texts will not |
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223 | contain any 8 bit characters. |
| 161 | |
224 | |
| 162 | JSON::XS->new->ascii (1)->encode ([chr 0x10401]) |
225 | JSON::XS->new->ascii (1)->encode ([chr 0x10401]) |
| 163 | => ["\ud801\udc01"] |
226 | => ["\ud801\udc01"] |
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227 | |
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228 | =item $json = $json->latin1 ([$enable]) |
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229 | |
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230 | If C<$enable> is true (or missing), then the C<encode> method will encode |
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231 | the resulting JSON text as latin1 (or iso-8859-1), escaping any characters |
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232 | outside the code range C<0..255>. The resulting string can be treated as a |
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233 | latin1-encoded JSON text or a native unicode string. The C<decode> method |
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234 | will not be affected in any way by this flag, as C<decode> by default |
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235 | expects unicode, which is a strict superset of latin1. |
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236 | |
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237 | If C<$enable> is false, then the C<encode> method will not escape Unicode |
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238 | characters unless required by the JSON syntax or other flags. |
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239 | |
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240 | The main use for this flag is efficiently encoding binary data as JSON |
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241 | text, as most octets will not be escaped, resulting in a smaller encoded |
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242 | size. The disadvantage is that the resulting JSON text is encoded |
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243 | in latin1 (and must correctly be treated as such when storing and |
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244 | transfering), a rare encoding for JSON. It is therefore most useful when |
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245 | you want to store data structures known to contain binary data efficiently |
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246 | in files or databases, not when talking to other JSON encoders/decoders. |
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247 | |
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248 | JSON::XS->new->latin1->encode (["\x{89}\x{abc}"] |
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249 | => ["\x{89}\\u0abc"] # (perl syntax, U+abc escaped, U+89 not) |
| 164 | |
250 | |
| 165 | =item $json = $json->utf8 ([$enable]) |
251 | =item $json = $json->utf8 ([$enable]) |
| 166 | |
252 | |
| 167 | If C<$enable> is true (or missing), then the C<encode> method will encode |
253 | If C<$enable> is true (or missing), then the C<encode> method will encode |
| 168 | the JSON result into UTF-8, as required by many protocols, while the |
254 | the JSON result into UTF-8, as required by many protocols, while the |
| … | |
… | |
| 244 | |
330 | |
| 245 | Example, space_before and indent disabled, space_after enabled: |
331 | Example, space_before and indent disabled, space_after enabled: |
| 246 | |
332 | |
| 247 | {"key": "value"} |
333 | {"key": "value"} |
| 248 | |
334 | |
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335 | =item $json = $json->relaxed ([$enable]) |
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336 | |
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337 | If C<$enable> is true (or missing), then C<decode> will accept some |
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338 | extensions to normal JSON syntax (see below). C<encode> will not be |
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339 | affected in anyway. I<Be aware that this option makes you accept invalid |
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340 | JSON texts as if they were valid!>. I suggest only to use this option to |
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341 | parse application-specific files written by humans (configuration files, |
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342 | resource files etc.) |
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343 | |
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344 | If C<$enable> is false (the default), then C<decode> will only accept |
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345 | valid JSON texts. |
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346 | |
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347 | Currently accepted extensions are: |
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348 | |
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349 | =over 4 |
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350 | |
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351 | =item * list items can have an end-comma |
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352 | |
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353 | JSON I<separates> array elements and key-value pairs with commas. This |
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354 | can be annoying if you write JSON texts manually and want to be able to |
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355 | quickly append elements, so this extension accepts comma at the end of |
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356 | such items not just between them: |
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357 | |
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358 | [ |
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359 | 1, |
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360 | 2, <- this comma not normally allowed |
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361 | ] |
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362 | { |
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363 | "k1": "v1", |
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364 | "k2": "v2", <- this comma not normally allowed |
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365 | } |
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366 | |
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367 | =item * shell-style '#'-comments |
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368 | |
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369 | Whenever JSON allows whitespace, shell-style comments are additionally |
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370 | allowed. They are terminated by the first carriage-return or line-feed |
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371 | character, after which more white-space and comments are allowed. |
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372 | |
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373 | [ |
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374 | 1, # this comment not allowed in JSON |
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375 | # neither this one... |
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376 | ] |
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377 | |
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378 | =back |
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379 | |
| 249 | =item $json = $json->canonical ([$enable]) |
380 | =item $json = $json->canonical ([$enable]) |
| 250 | |
381 | |
| 251 | If C<$enable> is true (or missing), then the C<encode> method will output JSON objects |
382 | If C<$enable> is true (or missing), then the C<encode> method will output JSON objects |
| 252 | by sorting their keys. This is adding a comparatively high overhead. |
383 | by sorting their keys. This is adding a comparatively high overhead. |
| 253 | |
384 | |
| … | |
… | |
| 278 | resulting in an invalid JSON text: |
409 | resulting in an invalid JSON text: |
| 279 | |
410 | |
| 280 | JSON::XS->new->allow_nonref->encode ("Hello, World!") |
411 | JSON::XS->new->allow_nonref->encode ("Hello, World!") |
| 281 | => "Hello, World!" |
412 | => "Hello, World!" |
| 282 | |
413 | |
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414 | =item $json = $json->allow_blessed ([$enable]) |
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415 | |
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416 | If C<$enable> is true (or missing), then the C<encode> method will not |
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417 | barf when it encounters a blessed reference. Instead, the value of the |
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418 | B<convert_blessed> option will decide wether C<null> (C<convert_blessed> |
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419 | disabled or no C<to_json> method found) or a representation of the |
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420 | object (C<convert_blessed> enabled and C<to_json> method found) is being |
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421 | encoded. Has no effect on C<decode>. |
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422 | |
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423 | If C<$enable> is false (the default), then C<encode> will throw an |
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424 | exception when it encounters a blessed object. |
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425 | |
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426 | =item $json = $json->convert_blessed ([$enable]) |
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427 | |
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428 | If C<$enable> is true (or missing), then C<encode>, upon encountering a |
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429 | blessed object, will check for the availability of the C<TO_JSON> method |
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430 | on the object's class. If found, it will be called in scalar context |
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431 | and the resulting scalar will be encoded instead of the object. If no |
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432 | C<TO_JSON> method is found, the value of C<allow_blessed> will decide what |
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433 | to do. |
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434 | |
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435 | The C<TO_JSON> method may safely call die if it wants. If C<TO_JSON> |
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436 | returns other blessed objects, those will be handled in the same |
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437 | way. C<TO_JSON> must take care of not causing an endless recursion cycle |
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438 | (== crash) in this case. The name of C<TO_JSON> was chosen because other |
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439 | methods called by the Perl core (== not by the user of the object) are |
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440 | usually in upper case letters and to avoid collisions with the C<to_json> |
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441 | function. |
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442 | |
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443 | This setting does not yet influence C<decode> in any way, but in the |
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444 | future, global hooks might get installed that influence C<decode> and are |
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445 | enabled by this setting. |
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446 | |
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447 | If C<$enable> is false, then the C<allow_blessed> setting will decide what |
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448 | to do when a blessed object is found. |
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449 | |
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450 | =item $json = $json->filter_json_object ([$coderef->($hashref)]) |
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451 | |
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452 | When C<$coderef> is specified, it will be called from C<decode> each |
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453 | time it decodes a JSON object. The only argument is a reference to the |
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454 | newly-created hash. If the code references returns a single scalar (which |
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455 | need not be a reference), this value (i.e. a copy of that scalar to avoid |
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456 | aliasing) is inserted into the deserialised data structure. If it returns |
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457 | an empty list (NOTE: I<not> C<undef>, which is a valid scalar), the |
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458 | original deserialised hash will be inserted. This setting can slow down |
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459 | decoding considerably. |
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460 | |
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461 | When C<$coderef> is omitted or undefined, any existing callback will |
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462 | be removed and C<decode> will not change the deserialised hash in any |
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463 | way. |
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464 | |
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465 | Example, convert all JSON objects into the integer 5: |
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466 | |
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467 | my $js = JSON::XS->new->filter_json_object (sub { 5 }); |
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468 | # returns [5] |
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469 | $js->decode ('[{}]') |
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470 | # throw an exception because allow_nonref is not enabled |
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471 | # so a lone 5 is not allowed. |
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472 | $js->decode ('{"a":1, "b":2}'); |
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473 | |
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474 | =item $json = $json->filter_json_single_key_object ($key [=> $coderef->($value)]) |
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475 | |
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476 | Works remotely similar to C<filter_json_object>, but is only called for |
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477 | JSON objects having a single key named C<$key>. |
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478 | |
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479 | This C<$coderef> is called before the one specified via |
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480 | C<filter_json_object>, if any. It gets passed the single value in the JSON |
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481 | object. If it returns a single value, it will be inserted into the data |
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482 | structure. If it returns nothing (not even C<undef> but the empty list), |
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483 | the callback from C<filter_json_object> will be called next, as if no |
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484 | single-key callback were specified. |
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485 | |
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486 | If C<$coderef> is omitted or undefined, the corresponding callback will be |
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487 | disabled. There can only ever be one callback for a given key. |
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488 | |
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489 | As this callback gets called less often then the C<filter_json_object> |
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490 | one, decoding speed will not usually suffer as much. Therefore, single-key |
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491 | objects make excellent targets to serialise Perl objects into, especially |
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492 | as single-key JSON objects are as close to the type-tagged value concept |
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493 | as JSON gets (its basically an ID/VALUE tuple). Of course, JSON does not |
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494 | support this in any way, so you need to make sure your data never looks |
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495 | like a serialised Perl hash. |
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496 | |
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497 | Typical names for the single object key are C<__class_whatever__>, or |
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498 | C<$__dollars_are_rarely_used__$> or C<}ugly_brace_placement>, or even |
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499 | things like C<__class_md5sum(classname)__>, to reduce the risk of clashing |
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500 | with real hashes. |
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501 | |
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502 | Example, decode JSON objects of the form C<< { "__widget__" => <id> } >> |
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503 | into the corresponding C<< $WIDGET{<id>} >> object: |
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504 | |
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505 | # return whatever is in $WIDGET{5}: |
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506 | JSON::XS |
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507 | ->new |
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508 | ->filter_json_single_key_object (__widget__ => sub { |
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509 | $WIDGET{ $_[0] } |
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510 | }) |
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511 | ->decode ('{"__widget__": 5') |
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512 | |
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513 | # this can be used with a TO_JSON method in some "widget" class |
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514 | # for serialisation to json: |
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515 | sub WidgetBase::TO_JSON { |
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516 | my ($self) = @_; |
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517 | |
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518 | unless ($self->{id}) { |
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519 | $self->{id} = ..get..some..id..; |
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520 | $WIDGET{$self->{id}} = $self; |
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521 | } |
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522 | |
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523 | { __widget__ => $self->{id} } |
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524 | } |
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525 | |
| 283 | =item $json = $json->shrink ([$enable]) |
526 | =item $json = $json->shrink ([$enable]) |
| 284 | |
527 | |
| 285 | Perl usually over-allocates memory a bit when allocating space for |
528 | Perl usually over-allocates memory a bit when allocating space for |
| 286 | strings. This flag optionally resizes strings generated by either |
529 | strings. This flag optionally resizes strings generated by either |
| 287 | C<encode> or C<decode> to their minimum size possible. This can save |
530 | C<encode> or C<decode> to their minimum size possible. This can save |
| 288 | memory when your JSON texts are either very very long or you have many |
531 | memory when your JSON texts are either very very long or you have many |
| 289 | short strings. It will also try to downgrade any strings to octet-form |
532 | short strings. It will also try to downgrade any strings to octet-form |
| 290 | if possible: perl stores strings internally either in an encoding called |
533 | if possible: perl stores strings internally either in an encoding called |
| 291 | UTF-X or in octet-form. The latter cannot store everything but uses less |
534 | UTF-X or in octet-form. The latter cannot store everything but uses less |
| 292 | space in general. |
535 | space in general (and some buggy Perl or C code might even rely on that |
|
|
536 | internal representation being used). |
| 293 | |
537 | |
|
|
538 | The actual definition of what shrink does might change in future versions, |
|
|
539 | but it will always try to save space at the expense of time. |
|
|
540 | |
| 294 | If C<$enable> is true (or missing), the string returned by C<encode> will be shrunk-to-fit, |
541 | If C<$enable> is true (or missing), the string returned by C<encode> will |
| 295 | while all strings generated by C<decode> will also be shrunk-to-fit. |
542 | be shrunk-to-fit, while all strings generated by C<decode> will also be |
|
|
543 | shrunk-to-fit. |
| 296 | |
544 | |
| 297 | If C<$enable> is false, then the normal perl allocation algorithms are used. |
545 | If C<$enable> is false, then the normal perl allocation algorithms are used. |
| 298 | If you work with your data, then this is likely to be faster. |
546 | If you work with your data, then this is likely to be faster. |
| 299 | |
547 | |
| 300 | In the future, this setting might control other things, such as converting |
548 | In the future, this setting might control other things, such as converting |
| 301 | strings that look like integers or floats into integers or floats |
549 | strings that look like integers or floats into integers or floats |
| 302 | internally (there is no difference on the Perl level), saving space. |
550 | internally (there is no difference on the Perl level), saving space. |
|
|
551 | |
|
|
552 | =item $json = $json->max_depth ([$maximum_nesting_depth]) |
|
|
553 | |
|
|
554 | Sets the maximum nesting level (default C<512>) accepted while encoding |
|
|
555 | or decoding. If the JSON text or Perl data structure has an equal or |
|
|
556 | higher nesting level then this limit, then the encoder and decoder will |
|
|
557 | stop and croak at that point. |
|
|
558 | |
|
|
559 | Nesting level is defined by number of hash- or arrayrefs that the encoder |
|
|
560 | needs to traverse to reach a given point or the number of C<{> or C<[> |
|
|
561 | characters without their matching closing parenthesis crossed to reach a |
|
|
562 | given character in a string. |
|
|
563 | |
|
|
564 | Setting the maximum depth to one disallows any nesting, so that ensures |
|
|
565 | that the object is only a single hash/object or array. |
|
|
566 | |
|
|
567 | The argument to C<max_depth> will be rounded up to the next highest power |
|
|
568 | of two. If no argument is given, the highest possible setting will be |
|
|
569 | used, which is rarely useful. |
|
|
570 | |
|
|
571 | See SECURITY CONSIDERATIONS, below, for more info on why this is useful. |
|
|
572 | |
|
|
573 | =item $json = $json->max_size ([$maximum_string_size]) |
|
|
574 | |
|
|
575 | Set the maximum length a JSON text may have (in bytes) where decoding is |
|
|
576 | being attempted. The default is C<0>, meaning no limit. When C<decode> |
|
|
577 | is called on a string longer then this number of characters it will not |
|
|
578 | attempt to decode the string but throw an exception. This setting has no |
|
|
579 | effect on C<encode> (yet). |
|
|
580 | |
|
|
581 | The argument to C<max_size> will be rounded up to the next B<highest> |
|
|
582 | power of two (so may be more than requested). If no argument is given, the |
|
|
583 | limit check will be deactivated (same as when C<0> is specified). |
|
|
584 | |
|
|
585 | See SECURITY CONSIDERATIONS, below, for more info on why this is useful. |
| 303 | |
586 | |
| 304 | =item $json_text = $json->encode ($perl_scalar) |
587 | =item $json_text = $json->encode ($perl_scalar) |
| 305 | |
588 | |
| 306 | Converts the given Perl data structure (a simple scalar or a reference |
589 | Converts the given Perl data structure (a simple scalar or a reference |
| 307 | to a hash or array) to its JSON representation. Simple scalars will be |
590 | to a hash or array) to its JSON representation. Simple scalars will be |
| … | |
… | |
| 317 | |
600 | |
| 318 | JSON numbers and strings become simple Perl scalars. JSON arrays become |
601 | JSON numbers and strings become simple Perl scalars. JSON arrays become |
| 319 | Perl arrayrefs and JSON objects become Perl hashrefs. C<true> becomes |
602 | Perl arrayrefs and JSON objects become Perl hashrefs. C<true> becomes |
| 320 | C<1>, C<false> becomes C<0> and C<null> becomes C<undef>. |
603 | C<1>, C<false> becomes C<0> and C<null> becomes C<undef>. |
| 321 | |
604 | |
|
|
605 | =item ($perl_scalar, $characters) = $json->decode_prefix ($json_text) |
|
|
606 | |
|
|
607 | This works like the C<decode> method, but instead of raising an exception |
|
|
608 | when there is trailing garbage after the first JSON object, it will |
|
|
609 | silently stop parsing there and return the number of characters consumed |
|
|
610 | so far. |
|
|
611 | |
|
|
612 | This is useful if your JSON texts are not delimited by an outer protocol |
|
|
613 | (which is not the brightest thing to do in the first place) and you need |
|
|
614 | to know where the JSON text ends. |
|
|
615 | |
|
|
616 | JSON::XS->new->decode_prefix ("[1] the tail") |
|
|
617 | => ([], 3) |
|
|
618 | |
| 322 | =back |
619 | =back |
|
|
620 | |
| 323 | |
621 | |
| 324 | =head1 MAPPING |
622 | =head1 MAPPING |
| 325 | |
623 | |
| 326 | This section describes how JSON::XS maps Perl values to JSON values and |
624 | This section describes how JSON::XS maps Perl values to JSON values and |
| 327 | vice versa. These mappings are designed to "do the right thing" in most |
625 | vice versa. These mappings are designed to "do the right thing" in most |
| … | |
… | |
| 330 | |
628 | |
| 331 | For the more enlightened: note that in the following descriptions, |
629 | For the more enlightened: note that in the following descriptions, |
| 332 | lowercase I<perl> refers to the Perl interpreter, while uppcercase I<Perl> |
630 | lowercase I<perl> refers to the Perl interpreter, while uppcercase I<Perl> |
| 333 | refers to the abstract Perl language itself. |
631 | refers to the abstract Perl language itself. |
| 334 | |
632 | |
|
|
633 | |
| 335 | =head2 JSON -> PERL |
634 | =head2 JSON -> PERL |
| 336 | |
635 | |
| 337 | =over 4 |
636 | =over 4 |
| 338 | |
637 | |
| 339 | =item object |
638 | =item object |
| … | |
… | |
| 351 | are represented by the same codepoints in the Perl string, so no manual |
650 | are represented by the same codepoints in the Perl string, so no manual |
| 352 | decoding is necessary. |
651 | decoding is necessary. |
| 353 | |
652 | |
| 354 | =item number |
653 | =item number |
| 355 | |
654 | |
| 356 | A JSON number becomes either an integer or numeric (floating point) |
655 | A JSON number becomes either an integer, numeric (floating point) or |
| 357 | scalar in perl, depending on its range and any fractional parts. On the |
656 | string scalar in perl, depending on its range and any fractional parts. On |
| 358 | Perl level, there is no difference between those as Perl handles all the |
657 | the Perl level, there is no difference between those as Perl handles all |
| 359 | conversion details, but an integer may take slightly less memory and might |
658 | the conversion details, but an integer may take slightly less memory and |
| 360 | represent more values exactly than (floating point) numbers. |
659 | might represent more values exactly than (floating point) numbers. |
|
|
660 | |
|
|
661 | If the number consists of digits only, JSON::XS will try to represent |
|
|
662 | it as an integer value. If that fails, it will try to represent it as |
|
|
663 | a numeric (floating point) value if that is possible without loss of |
|
|
664 | precision. Otherwise it will preserve the number as a string value. |
|
|
665 | |
|
|
666 | Numbers containing a fractional or exponential part will always be |
|
|
667 | represented as numeric (floating point) values, possibly at a loss of |
|
|
668 | precision. |
|
|
669 | |
|
|
670 | This might create round-tripping problems as numbers might become strings, |
|
|
671 | but as Perl is typeless there is no other way to do it. |
| 361 | |
672 | |
| 362 | =item true, false |
673 | =item true, false |
| 363 | |
674 | |
| 364 | These JSON atoms become C<0>, C<1>, respectively. Information is lost in |
675 | These JSON atoms become C<JSON::XS::true> and C<JSON::XS::false>, |
| 365 | this process. Future versions might represent those values differently, |
676 | respectively. They are overloaded to act almost exactly like the numbers |
| 366 | but they will be guarenteed to act like these integers would normally in |
677 | C<1> and C<0>. You can check wether a scalar is a JSON boolean by using |
| 367 | Perl. |
678 | the C<JSON::XS::is_bool> function. |
| 368 | |
679 | |
| 369 | =item null |
680 | =item null |
| 370 | |
681 | |
| 371 | A JSON null atom becomes C<undef> in Perl. |
682 | A JSON null atom becomes C<undef> in Perl. |
| 372 | |
683 | |
| 373 | =back |
684 | =back |
|
|
685 | |
| 374 | |
686 | |
| 375 | =head2 PERL -> JSON |
687 | =head2 PERL -> JSON |
| 376 | |
688 | |
| 377 | The mapping from Perl to JSON is slightly more difficult, as Perl is a |
689 | The mapping from Perl to JSON is slightly more difficult, as Perl is a |
| 378 | truly typeless language, so we can only guess which JSON type is meant by |
690 | truly typeless language, so we can only guess which JSON type is meant by |
| … | |
… | |
| 381 | =over 4 |
693 | =over 4 |
| 382 | |
694 | |
| 383 | =item hash references |
695 | =item hash references |
| 384 | |
696 | |
| 385 | Perl hash references become JSON objects. As there is no inherent ordering |
697 | Perl hash references become JSON objects. As there is no inherent ordering |
| 386 | in hash keys, they will usually be encoded in a pseudo-random order that |
698 | in hash keys (or JSON objects), they will usually be encoded in a |
| 387 | can change between runs of the same program but stays generally the same |
699 | pseudo-random order that can change between runs of the same program but |
| 388 | within a single run of a program. JSON::XS can optionally sort the hash |
700 | stays generally the same within a single run of a program. JSON::XS can |
| 389 | keys (determined by the I<canonical> flag), so the same datastructure |
701 | optionally sort the hash keys (determined by the I<canonical> flag), so |
| 390 | will serialise to the same JSON text (given same settings and version of |
702 | the same datastructure will serialise to the same JSON text (given same |
| 391 | JSON::XS), but this incurs a runtime overhead. |
703 | settings and version of JSON::XS), but this incurs a runtime overhead |
|
|
704 | and is only rarely useful, e.g. when you want to compare some JSON text |
|
|
705 | against another for equality. |
| 392 | |
706 | |
| 393 | =item array references |
707 | =item array references |
| 394 | |
708 | |
| 395 | Perl array references become JSON arrays. |
709 | Perl array references become JSON arrays. |
|
|
710 | |
|
|
711 | =item other references |
|
|
712 | |
|
|
713 | Other unblessed references are generally not allowed and will cause an |
|
|
714 | exception to be thrown, except for references to the integers C<0> and |
|
|
715 | C<1>, which get turned into C<false> and C<true> atoms in JSON. You can |
|
|
716 | also use C<JSON::XS::false> and C<JSON::XS::true> to improve readability. |
|
|
717 | |
|
|
718 | to_json [\0,JSON::XS::true] # yields [false,true] |
|
|
719 | |
|
|
720 | =item JSON::XS::true, JSON::XS::false |
|
|
721 | |
|
|
722 | These special values become JSON true and JSON false values, |
|
|
723 | respectively. You can also use C<\1> and C<\0> directly if you want. |
| 396 | |
724 | |
| 397 | =item blessed objects |
725 | =item blessed objects |
| 398 | |
726 | |
| 399 | Blessed objects are not allowed. JSON::XS currently tries to encode their |
727 | Blessed objects are not allowed. JSON::XS currently tries to encode their |
| 400 | underlying representation (hash- or arrayref), but this behaviour might |
728 | underlying representation (hash- or arrayref), but this behaviour might |
| … | |
… | |
| 433 | $x *= 1; # same thing, the choise is yours. |
761 | $x *= 1; # same thing, the choise is yours. |
| 434 | |
762 | |
| 435 | You can not currently output JSON booleans or force the type in other, |
763 | You can not currently output JSON booleans or force the type in other, |
| 436 | less obscure, ways. Tell me if you need this capability. |
764 | less obscure, ways. Tell me if you need this capability. |
| 437 | |
765 | |
| 438 | =item circular data structures |
|
|
| 439 | |
|
|
| 440 | Those will be encoded until memory or stackspace runs out. |
|
|
| 441 | |
|
|
| 442 | =back |
766 | =back |
|
|
767 | |
| 443 | |
768 | |
| 444 | =head1 COMPARISON |
769 | =head1 COMPARISON |
| 445 | |
770 | |
| 446 | As already mentioned, this module was created because none of the existing |
771 | As already mentioned, this module was created because none of the existing |
| 447 | JSON modules could be made to work correctly. First I will describe the |
772 | JSON modules could be made to work correctly. First I will describe the |
| … | |
… | |
| 525 | |
850 | |
| 526 | Does not check input for validity. |
851 | Does not check input for validity. |
| 527 | |
852 | |
| 528 | =back |
853 | =back |
| 529 | |
854 | |
|
|
855 | |
|
|
856 | =head2 JSON and YAML |
|
|
857 | |
|
|
858 | You often hear that JSON is a subset (or a close subset) of YAML. This is, |
|
|
859 | however, a mass hysteria and very far from the truth. In general, there is |
|
|
860 | no way to configure JSON::XS to output a data structure as valid YAML. |
|
|
861 | |
|
|
862 | If you really must use JSON::XS to generate YAML, you should use this |
|
|
863 | algorithm (subject to change in future versions): |
|
|
864 | |
|
|
865 | my $to_yaml = JSON::XS->new->utf8->space_after (1); |
|
|
866 | my $yaml = $to_yaml->encode ($ref) . "\n"; |
|
|
867 | |
|
|
868 | This will usually generate JSON texts that also parse as valid |
|
|
869 | YAML. Please note that YAML has hardcoded limits on (simple) object key |
|
|
870 | lengths that JSON doesn't have, so you should make sure that your hash |
|
|
871 | keys are noticably shorter than the 1024 characters YAML allows. |
|
|
872 | |
|
|
873 | There might be other incompatibilities that I am not aware of. In general |
|
|
874 | you should not try to generate YAML with a JSON generator or vice versa, |
|
|
875 | or try to parse JSON with a YAML parser or vice versa: chances are high |
|
|
876 | that you will run into severe interoperability problems. |
|
|
877 | |
|
|
878 | |
| 530 | =head2 SPEED |
879 | =head2 SPEED |
| 531 | |
880 | |
| 532 | It seems that JSON::XS is surprisingly fast, as shown in the following |
881 | It seems that JSON::XS is surprisingly fast, as shown in the following |
| 533 | tables. They have been generated with the help of the C<eg/bench> program |
882 | tables. They have been generated with the help of the C<eg/bench> program |
| 534 | in the JSON::XS distribution, to make it easy to compare on your own |
883 | in the JSON::XS distribution, to make it easy to compare on your own |
| 535 | system. |
884 | system. |
| 536 | |
885 | |
| 537 | First comes a comparison between various modules using a very short JSON |
886 | First comes a comparison between various modules using a very short |
| 538 | string: |
887 | single-line JSON string: |
| 539 | |
888 | |
| 540 | {"method": "handleMessage", "params": ["user1", "we were just talking"], "id": null} |
889 | {"method": "handleMessage", "params": ["user1", "we were just talking"], \ |
|
|
890 | "id": null, "array":[1,11,234,-5,1e5,1e7, true, false]} |
| 541 | |
891 | |
| 542 | It shows the number of encodes/decodes per second (JSON::XS uses the |
892 | It shows the number of encodes/decodes per second (JSON::XS uses |
| 543 | functional interface, while JSON::XS/2 uses the OO interface with |
893 | the functional interface, while JSON::XS/2 uses the OO interface |
| 544 | pretty-printing and hashkey sorting enabled). Higher is better: |
894 | with pretty-printing and hashkey sorting enabled, JSON::XS/3 enables |
|
|
895 | shrink). Higher is better: |
| 545 | |
896 | |
|
|
897 | Storable | 15779.925 | 14169.946 | |
|
|
898 | -----------+------------+------------+ |
| 546 | module | encode | decode | |
899 | module | encode | decode | |
| 547 | -----------|------------|------------| |
900 | -----------|------------|------------| |
| 548 | JSON | 11488.516 | 7823.035 | |
901 | JSON | 4990.842 | 4088.813 | |
| 549 | JSON::DWIW | 94708.054 | 129094.260 | |
902 | JSON::DWIW | 51653.990 | 71575.154 | |
| 550 | JSON::PC | 63884.157 | 128528.212 | |
903 | JSON::PC | 65948.176 | 74631.744 | |
| 551 | JSON::Syck | 34898.677 | 42096.911 | |
904 | JSON::PP | 8931.652 | 3817.168 | |
| 552 | JSON::XS | 654027.064 | 396423.669 | |
905 | JSON::Syck | 24877.248 | 27776.848 | |
| 553 | JSON::XS/2 | 371564.190 | 371725.613 | |
906 | JSON::XS | 388361.481 | 227951.304 | |
|
|
907 | JSON::XS/2 | 227951.304 | 218453.333 | |
|
|
908 | JSON::XS/3 | 338250.323 | 218453.333 | |
|
|
909 | Storable | 16500.016 | 135300.129 | |
| 554 | -----------+------------+------------+ |
910 | -----------+------------+------------+ |
| 555 | |
911 | |
| 556 | That is, JSON::XS is more than six times faster than JSON::DWIW on |
912 | That is, JSON::XS is about five times faster than JSON::DWIW on encoding, |
| 557 | encoding, more than three times faster on decoding, and about thirty times |
913 | about three times faster on decoding, and over fourty times faster |
| 558 | faster than JSON, even with pretty-printing and key sorting. |
914 | than JSON, even with pretty-printing and key sorting. It also compares |
|
|
915 | favourably to Storable for small amounts of data. |
| 559 | |
916 | |
| 560 | Using a longer test string (roughly 18KB, generated from Yahoo! Locals |
917 | Using a longer test string (roughly 18KB, generated from Yahoo! Locals |
| 561 | search API (http://nanoref.com/yahooapis/mgPdGg): |
918 | search API (http://nanoref.com/yahooapis/mgPdGg): |
| 562 | |
919 | |
| 563 | module | encode | decode | |
920 | module | encode | decode | |
| 564 | -----------|------------|------------| |
921 | -----------|------------|------------| |
| 565 | JSON | 273.023 | 44.674 | |
922 | JSON | 55.260 | 34.971 | |
| 566 | JSON::DWIW | 1089.383 | 1145.704 | |
923 | JSON::DWIW | 825.228 | 1082.513 | |
| 567 | JSON::PC | 3097.419 | 2393.921 | |
924 | JSON::PC | 3571.444 | 2394.829 | |
| 568 | JSON::Syck | 514.060 | 843.053 | |
925 | JSON::PP | 210.987 | 32.574 | |
| 569 | JSON::XS | 6479.668 | 3636.364 | |
926 | JSON::Syck | 552.551 | 787.544 | |
| 570 | JSON::XS/2 | 3774.221 | 3599.124 | |
927 | JSON::XS | 5780.463 | 4854.519 | |
|
|
928 | JSON::XS/2 | 3869.998 | 4798.975 | |
|
|
929 | JSON::XS/3 | 5862.880 | 4798.975 | |
|
|
930 | Storable | 4445.002 | 5235.027 | |
| 571 | -----------+------------+------------+ |
931 | -----------+------------+------------+ |
| 572 | |
932 | |
| 573 | Again, JSON::XS leads by far. |
933 | Again, JSON::XS leads by far (except for Storable which non-surprisingly |
|
|
934 | decodes faster). |
| 574 | |
935 | |
| 575 | On large strings containing lots of high unicode characters, some modules |
936 | On large strings containing lots of high unicode characters, some modules |
| 576 | (such as JSON::PC) seem to decode faster than JSON::XS, but the result |
937 | (such as JSON::PC) seem to decode faster than JSON::XS, but the result |
| 577 | will be broken due to missing (or wrong) unicode handling. Others refuse |
938 | will be broken due to missing (or wrong) unicode handling. Others refuse |
| 578 | to decode or encode properly, so it was impossible to prepare a fair |
939 | to decode or encode properly, so it was impossible to prepare a fair |
| 579 | comparison table for that case. |
940 | comparison table for that case. |
| 580 | |
941 | |
| 581 | =head1 RESOURCE LIMITS |
|
|
| 582 | |
942 | |
| 583 | JSON::XS does not impose any limits on the size of JSON texts or Perl |
943 | =head1 SECURITY CONSIDERATIONS |
| 584 | values they represent - if your machine can handle it, JSON::XS will |
944 | |
| 585 | encode or decode it. Future versions might optionally impose structure |
945 | When you are using JSON in a protocol, talking to untrusted potentially |
| 586 | depth and memory use resource limits. |
946 | hostile creatures requires relatively few measures. |
|
|
947 | |
|
|
948 | First of all, your JSON decoder should be secure, that is, should not have |
|
|
949 | any buffer overflows. Obviously, this module should ensure that and I am |
|
|
950 | trying hard on making that true, but you never know. |
|
|
951 | |
|
|
952 | Second, you need to avoid resource-starving attacks. That means you should |
|
|
953 | limit the size of JSON texts you accept, or make sure then when your |
|
|
954 | resources run out, thats just fine (e.g. by using a separate process that |
|
|
955 | can crash safely). The size of a JSON text in octets or characters is |
|
|
956 | usually a good indication of the size of the resources required to decode |
|
|
957 | it into a Perl structure. While JSON::XS can check the size of the JSON |
|
|
958 | text, it might be too late when you already have it in memory, so you |
|
|
959 | might want to check the size before you accept the string. |
|
|
960 | |
|
|
961 | Third, JSON::XS recurses using the C stack when decoding objects and |
|
|
962 | arrays. The C stack is a limited resource: for instance, on my amd64 |
|
|
963 | machine with 8MB of stack size I can decode around 180k nested arrays but |
|
|
964 | only 14k nested JSON objects (due to perl itself recursing deeply on croak |
|
|
965 | to free the temporary). If that is exceeded, the program crashes. to be |
|
|
966 | conservative, the default nesting limit is set to 512. If your process |
|
|
967 | has a smaller stack, you should adjust this setting accordingly with the |
|
|
968 | C<max_depth> method. |
|
|
969 | |
|
|
970 | And last but least, something else could bomb you that I forgot to think |
|
|
971 | of. In that case, you get to keep the pieces. I am always open for hints, |
|
|
972 | though... |
|
|
973 | |
|
|
974 | If you are using JSON::XS to return packets to consumption |
|
|
975 | by javascript scripts in a browser you should have a look at |
|
|
976 | L<http://jpsykes.com/47/practical-csrf-and-json-security> to see wether |
|
|
977 | you are vulnerable to some common attack vectors (which really are browser |
|
|
978 | design bugs, but it is still you who will have to deal with it, as major |
|
|
979 | browser developers care only for features, not about doing security |
|
|
980 | right). |
|
|
981 | |
| 587 | |
982 | |
| 588 | =head1 BUGS |
983 | =head1 BUGS |
| 589 | |
984 | |
| 590 | While the goal of this module is to be correct, that unfortunately does |
985 | While the goal of this module is to be correct, that unfortunately does |
| 591 | not mean its bug-free, only that I think its design is bug-free. It is |
986 | not mean its bug-free, only that I think its design is bug-free. It is |
| 592 | still very young and not well-tested. If you keep reporting bugs they will |
987 | still relatively early in its development. If you keep reporting bugs they |
| 593 | be fixed swiftly, though. |
988 | will be fixed swiftly, though. |
| 594 | |
989 | |
| 595 | =cut |
990 | =cut |
|
|
991 | |
|
|
992 | our $true = do { bless \(my $dummy = 1), "JSON::XS::Boolean" }; |
|
|
993 | our $false = do { bless \(my $dummy = 0), "JSON::XS::Boolean" }; |
|
|
994 | |
|
|
995 | sub true() { $true } |
|
|
996 | sub false() { $false } |
|
|
997 | |
|
|
998 | sub is_bool($) { |
|
|
999 | UNIVERSAL::isa $_[0], "JSON::XS::Boolean" |
|
|
1000 | # or UNIVERSAL::isa $_[0], "JSON::Literal" |
|
|
1001 | } |
|
|
1002 | |
|
|
1003 | XSLoader::load "JSON::XS", $VERSION; |
|
|
1004 | |
|
|
1005 | package JSON::XS::Boolean; |
|
|
1006 | |
|
|
1007 | use overload |
|
|
1008 | "0+" => sub { ${$_[0]} }, |
|
|
1009 | "++" => sub { $_[0] = ${$_[0]} + 1 }, |
|
|
1010 | "--" => sub { $_[0] = ${$_[0]} - 1 }, |
|
|
1011 | fallback => 1; |
| 596 | |
1012 | |
| 597 | 1; |
1013 | 1; |
| 598 | |
1014 | |
| 599 | =head1 AUTHOR |
1015 | =head1 AUTHOR |
| 600 | |
1016 | |
