ref: 78964c7a827f691188a49a4e36d8945e5ddfdf73
converter/server/vendor/rybakit/msgpack/README.md
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# msgpack.php A pure PHP implementation of the [MessagePack](https://msgpack.org/) serialization format. [](https://travis-ci.org/rybakit/msgpack.php) [](https://scrutinizer-ci.com/g/rybakit/msgpack.php/?branch=master) ## Features * Fully compliant with the latest [MessagePack specification](https://github.com/msgpack/msgpack/blob/master/spec.md), including **bin**, **str** and **ext** types * Supports [streaming unpacking](#unpacking) * Supports [unsigned 64-bit integers handling](#unpacking-options) * Supports [object serialization](#type-transformers) * [Fully tested](https://travis-ci.org/rybakit/msgpack.php) * [Relatively fast](#performance) ## Table of contents * [Installation](#installation) * [Usage](#usage) * [Packing](#packing) * [Packing options](#packing-options) * [Unpacking](#unpacking) * [Unpacking options](#unpacking-options) * [Extensions](#extensions) * [Type transformers](#type-transformers) * [Exceptions](#exceptions) * [Tests](#tests) * [Performance](#performance) * [License](#license) ## Installation The recommended way to install the library is through [Composer](http://getcomposer.org): ```sh composer require rybakit/msgpack ``` > *The minimum PHP version requirement is 7.1.1. If you need support for older PHP versions (or HHVM), please use > the [0.3.1](https://github.com/rybakit/msgpack.php/tree/v0.3.1) version of this library.* ## Usage ### Packing To pack values you can either use an instance of a `Packer`: ```php use MessagePack\Packer; $packer = new Packer(); ... $packed = $packer->pack($value); ``` or call a static method on the `MessagePack` class: ```php use MessagePack\MessagePack; ... $packed = MessagePack::pack($value); ``` In the examples above, the method `pack` automatically packs a value depending on its type. But not all PHP types can be uniquely translated to MessagePack types. For example, the MessagePack format defines `map` and `array` types, which are represented by a single `array` type in PHP. By default, the packer will pack a PHP array as a MessagePack array if it has sequential numeric keys, starting from `0` and as a MessagePack map otherwise: ```php $mpArr1 = $packer->pack([1, 2]); // MP array [1, 2] $mpArr2 = $packer->pack([0 => 1, 1 => 2]); // MP array [1, 2] $mpMap1 = $packer->pack([0 => 1, 2 => 3]); // MP map {0: 1, 2: 3} $mpMap2 = $packer->pack([1 => 2, 2 => 3]); // MP map {1: 2, 2: 3} $mpMap3 = $packer->pack(['foo' => 1, 'bar' => 2]); // MP map {foo: 1, bar: 2} ``` However, sometimes you need to pack a sequential array as a MessagePack map. To do this, use the `packMap` method: ```php $mpMap = $packer->packMap([1, 2]); // {0: 1, 1: 2} ``` Here is a list of type-specific packing methods: ```php $packer->packNil(); // MP nil $packer->packBool(true); // MP bool $packer->packInt(42); // MP int $packer->packFloat(M_PI); // MP float $packer->packStr('foo'); // MP str $packer->packBin("\x80"); // MP bin $packer->packArray([1, 2]); // MP array $packer->packMap([1, 2]); // MP map $packer->packExt(1, "\xaa"); // MP ext ``` > *Check the ["Type transformers"](#type-transformers) section below on how to pack custom types.* #### Packing options The `Packer` object supports a number of bitmask-based options for fine-tuning the packing process (defaults are in bold): | Name | Description | | ------------------ | ------------------------------------------------------------- | | FORCE_STR | Forces PHP strings to be packed as MessagePack UTF-8 strings | | FORCE_BIN | Forces PHP strings to be packed as MessagePack binary data | | **DETECT_STR_BIN** | Detects MessagePack str/bin type automatically | | | | | FORCE_ARR | Forces PHP arrays to be packed as MessagePack arrays | | FORCE_MAP | Forces PHP arrays to be packed as MessagePack maps | | **DETECT_ARR_MAP** | Detects MessagePack array/map type automatically | | | | | FORCE_FLOAT32 | Forces PHP floats to be packed as 32-bits MessagePack floats | | **FORCE_FLOAT64** | Forces PHP floats to be packed as 64-bits MessagePack floats | > *The type detection mode (`DETECT_STR_BIN`/`DETECT_ARR_MAP`) adds some overhead which can be noticed when you pack > large (16- and 32-bit) arrays or strings. However, if you know the value type in advance (for example, you only > work with UTF-8 strings or/and associative arrays), you can eliminate this overhead by forcing the packer to use > the appropriate type, which will save it from running the auto-detection routine. Another option is to explicitly > specify the value type. The library provides 2 auxiliary classes for this, `Map` and `Binary`. > Check the ["Type transformers"](#type-transformers) section below for details.* Examples: ```php use MessagePack\Packer; use MessagePack\PackOptions; // pack PHP strings to MP strings, PHP arrays to MP maps // and PHP 64-bit floats (doubles) to MP 32-bit floats $packer = new Packer(PackOptions::FORCE_STR | PackOptions::FORCE_MAP | PackOptions::FORCE_FLOAT32); // pack PHP strings to MP binaries and PHP arrays to MP arrays $packer = new Packer(PackOptions::FORCE_BIN | PackOptions::FORCE_ARR); // these will throw MessagePack\Exception\InvalidOptionException $packer = new Packer(PackOptions::FORCE_STR | PackOptions::FORCE_BIN); $packer = new Packer(PackOptions::FORCE_FLOAT32 | PackOptions::FORCE_FLOAT64); ``` ### Unpacking To unpack data you can either use an instance of a `BufferUnpacker`: ```php use MessagePack\BufferUnpacker; $unpacker = new BufferUnpacker(); ... $unpacker->reset($packed); $value = $unpacker->unpack(); ``` or call a static method on the `MessagePack` class: ```php use MessagePack\MessagePack; ... $value = MessagePack::unpack($packed); ``` If the packed data is received in chunks (e.g. when reading from a stream), use the `tryUnpack` method, which attempts to unpack data and returns an array of unpacked messages (if any) instead of throwing an `InsufficientDataException`: ```php while ($chunk = ...) { $unpacker->append($chunk); if ($messages = $unpacker->tryUnpack()) { return $messages; } } ``` If you want to unpack from a specific position in a buffer, use `seek()`: ```php $unpacker->seek(42); // set position equal to 42 bytes $unpacker->seek(-8); // set position to 8 bytes before the end of the buffer ``` To skip bytes from the current position, use `skip()`: ```php $unpacker->skip(10); // set position to 10 bytes ahead of the current position ``` Besides the above methods `BufferUnpacker` provides type-specific unpacking methods, namely: ```php $unpacker->unpackNil(); // PHP null $unpacker->unpackBool(); // PHP bool $unpacker->unpackInt(); // PHP int $unpacker->unpackFloat(); // PHP float $unpacker->unpackStr(); // PHP UTF-8 string $unpacker->unpackBin(); // PHP binary string $unpacker->unpackArray(); // PHP sequential array $unpacker->unpackMap(); // PHP associative array $unpacker->unpackExt(); // PHP Ext class ``` #### Unpacking options The `BufferUnpacker` object supports a number of bitmask-based options for fine-tuning the unpacking process (defaults are in bold): | Name | Description | | ------------------- | ---------------------------------------------------------- | | BIGINT_AS_EXCEPTION | Throws an exception on integer overflow <sup>[1]</sup> | | BIGINT_AS_GMP | Converts overflowed integers to GMP objects <sup>[2]</sup> | | **BIGINT_AS_STR** | Converts overflowed integers to strings | > *1. The binary MessagePack format has unsigned 64-bit as its largest integer data type, > but PHP does not support such integers, which means that an overflow can occur during unpacking.* > > *2. Make sure that the [GMP](http://php.net/manual/en/book.gmp.php) extension is enabled.* Examples: ```php use MessagePack\BufferUnpacker; use MessagePack\UnpackOptions; $packedUint64 = "\xcf"."\xff\xff\xff\xff"."\xff\xff\xff\xff"; $unpacker = new BufferUnpacker($packedUint64); var_dump($unpacker->unpack()); // string(20) "18446744073709551615" $unpacker = new BufferUnpacker($packedUint64, UnpackOptions::BIGINT_AS_GMP); var_dump($unpacker->unpack()); // object(GMP) {...} $unpacker = new BufferUnpacker($packedUint64, UnpackOptions::BIGINT_AS_EXCEPTION); $unpacker->unpack(); // throws MessagePack\Exception\IntegerOverflowException ``` ### Extensions To define application-specific types use the `Ext` class: ```php use MessagePack\Ext; use MessagePack\MessagePack; $packed = MessagePack::pack(new Ext(42, "\xaa")); $ext = MessagePack::unpack($packed); var_dump($ext->type === 42); // bool(true) var_dump($ext->data === "\xaa"); // bool(true) ``` ### Type transformers In addition to [the basic types](https://github.com/msgpack/msgpack/blob/master/spec.md#type-system), the library provides functionality to serialize and deserialize arbitrary types. In order to support a custom type you need to create and register a transformer. The transformer should implement either or both the `Packable` and/or the `Unpackable` interface. The purpose of `Packable` transformers is to serialize a specific value to one of the basic MessagePack types. A good example of such a transformer is a `MapTransformer` that comes with the library. It serializes `Map` objects (which are simple wrappers around PHP arrays) to MessagePack maps. This is useful when you want to explicitly mark that a given PHP array must be packed as a MessagePack map, without triggering the type's auto-detection routine. > *More types and type transformers can be found in [src/Type](src/Type) > and [src/TypeTransformer](src/TypeTransformer) directories.* The implementation is trivial: ```php namespace MessagePack\TypeTransformer; use MessagePack\Packer; use MessagePack\Type\Map; class MapTransformer implements Packable { public function pack(Packer $packer, $value) : ?string { return $value instanceof Map ? $packer->packMap($value->map) : null; } } ``` Once `MapTransformer` is registered, you can pack `Map` objects: ```php use MessagePack\Packer; use MessagePack\PackOptions; use MessagePack\Type\Map; use MessagePack\TypeTransformer\MapTransformer; $packer = new Packer(PackOptions::FORCE_ARR); $packer->registerTransformer(new MapTransformer()); $packed = $packer->pack([ [1, 2, 3], // MP array new Map([1, 2, 3]), // MP map ]); ``` Transformers implementing the `Unpackable` interface are intended for unpacking [extension types](https://github.com/msgpack/msgpack/blob/master/spec.md#extension-types). For example, the code below shows how to create a transformer that allows you to work transparently with `DateTime` objects: ```php use MessagePack\BufferUnpacker; use MessagePack\Packer; use MessagePack\TypeTransformer\Packable; use MessagePack\TypeTransformer\Unpackable; class DateTimeTransformer implements Packable, Unpackable { private $type; public function __construct(int $type) { $this->type = $type; } public function getType() : int { return $this->type; } public function pack(Packer $packer, $value) : ?string { if (!$value instanceof \DateTimeInterface) { return null; } return $packer->packExt($this->type, $packer->packStr($value->format(\DateTime::RFC3339)) ); } public function unpack(BufferUnpacker $unpacker, int $extLength) { return new \DateTimeImmutable($unpacker->unpackStr()); } } ``` Register `DateTimeTransformer` for both the packer and the unpacker with a unique extension type (an integer from 0 to 127) and you are ready to go: ```php use App\MessagePack\DateTimeTransformer; use MessagePack\BufferUnpacker; use MessagePack\Packer; $transformer = new DateTimeTransformer(42); $packer = new Packer(); $packer->registerTransformer($transformer); $unpacker = new BufferUnpacker(); $unpacker->registerTransformer($transformer); $packed = $packer->pack(new DateTimeImmutable()); $date = $unpacker->reset($packed)->unpack(); ``` > *More type transformer examples can be found in the [examples](examples) directory.* ## Exceptions If an error occurs during packing/unpacking, a `PackingFailedException` or `UnpackingFailedException` will be thrown, respectively. In addition, there are two more exceptions that can be thrown during unpacking: * `InsufficientDataException` * `IntegerOverflowException` An `InvalidOptionException` will be thrown in case an invalid option (or a combination of mutually exclusive options) is used. ## Tests Run tests as follows: ```sh vendor/bin/phpunit ``` Also, if you already have Docker installed, you can run the tests in a docker container. First, create a container: ```sh ./dockerfile.sh | docker build -t msgpack - ``` The command above will create a container named `msgpack` with PHP 7.2 runtime. You may change the default runtime by defining the `PHP_RUNTIME` environment variable: ```sh PHP_RUNTIME='php:7.1-cli' ./dockerfile.sh | docker build -t msgpack - ``` > *See a list of various runtimes [here](.travis.yml#L8).* Then run the unit tests: ```sh docker run --rm --name msgpack -v $(pwd):/msgpack -w /msgpack msgpack ``` #### Performance To check performance, run: ```sh php -n -dpcre.jit=1 -dzend_extension=opcache.so -dopcache.enable_cli=1 tests/bench.php ``` This command will output something like: ``` Filter: MessagePack\Tests\Perf\Filter\ListFilter Rounds: 3 Iterations: 100000 ============================================= Test/Target Packer BufferUnpacker --------------------------------------------- nil .................. 0.0041 ........ 0.0158 false ................ 0.0046 ........ 0.0166 true ................. 0.0042 ........ 0.0158 7-bit uint #1 ........ 0.0066 ........ 0.0129 7-bit uint #2 ........ 0.0066 ........ 0.0131 7-bit uint #3 ........ 0.0067 ........ 0.0134 5-bit sint #1 ........ 0.0068 ........ 0.0153 5-bit sint #2 ........ 0.0068 ........ 0.0153 5-bit sint #3 ........ 0.0067 ........ 0.0152 8-bit uint #1 ........ 0.0088 ........ 0.0223 8-bit uint #2 ........ 0.0088 ........ 0.0226 8-bit uint #3 ........ 0.0090 ........ 0.0224 16-bit uint #1 ....... 0.0120 ........ 0.0304 16-bit uint #2 ....... 0.0125 ........ 0.0306 16-bit uint #3 ....... 0.0122 ........ 0.0301 32-bit uint #1 ....... 0.0140 ........ 0.0358 32-bit uint #2 ....... 0.0138 ........ 0.0358 32-bit uint #3 ....... 0.0141 ........ 0.0365 64-bit uint #1 ....... 0.0159 ........ 0.0361 64-bit uint #2 ....... 0.0157 ........ 0.0363 64-bit uint #3 ....... 0.0157 ........ 0.0362 8-bit int #1 ......... 0.0089 ........ 0.0251 8-bit int #2 ......... 0.0090 ........ 0.0259 8-bit int #3 ......... 0.0094 ........ 0.0255 16-bit int #1 ........ 0.0121 ........ 0.0304 16-bit int #2 ........ 0.0121 ........ 0.0306 16-bit int #3 ........ 0.0121 ........ 0.0305 32-bit int #1 ........ 0.0141 ........ 0.0364 32-bit int #2 ........ 0.0146 ........ 0.0377 32-bit int #3 ........ 0.0145 ........ 0.0369 64-bit int #1 ........ 0.0142 ........ 0.0359 64-bit int #2 ........ 0.0143 ........ 0.0360 64-bit int #3 ........ 0.0147 ........ 0.0360 64-bit int #4 ........ 0.0142 ........ 0.0358 64-bit float #1 ...... 0.0148 ........ 0.0363 64-bit float #2 ...... 0.0152 ........ 0.0351 64-bit float #3 ...... 0.0147 ........ 0.0353 fix string #1 ........ 0.0176 ........ 0.0143 fix string #2 ........ 0.0197 ........ 0.0234 fix string #3 ........ 0.0197 ........ 0.0250 fix string #4 ........ 0.0238 ........ 0.0254 8-bit string #1 ...... 0.0245 ........ 0.0333 8-bit string #2 ...... 0.0297 ........ 0.0345 8-bit string #3 ...... 0.0372 ........ 0.0343 16-bit string #1 ..... 0.0392 ........ 0.0411 16-bit string #2 ..... 3.2959 ........ 0.3091 32-bit string ........ 3.2918 ........ 0.3149 wide char string #1 .. 0.0203 ........ 0.0248 wide char string #2 .. 0.0262 ........ 0.0323 8-bit binary #1 ...... 0.0206 ........ 0.0309 8-bit binary #2 ...... 0.0217 ........ 0.0332 8-bit binary #3 ...... 0.0219 ........ 0.0335 16-bit binary ........ 0.0255 ........ 0.0405 32-bit binary ........ 0.3719 ........ 0.3212 fix array #1 ......... 0.0070 ........ 0.0147 fix array #2 ......... 0.0288 ........ 0.0445 fix array #3 ......... 0.0513 ........ 0.0599 16-bit array #1 ...... 0.1540 ........ 0.1718 16-bit array #2 ........... S ............. S 32-bit array .............. S ............. S complex array ........ 0.2138 ........ 0.2679 fix map #1 ........... 0.0999 ........ 0.1239 fix map #2 ........... 0.0429 ........ 0.0507 fix map #3 ........... 0.0503 ........ 0.0721 fix map #4 ........... 0.0458 ........ 0.0604 16-bit map #1 ........ 0.2516 ........ 0.3197 16-bit map #2 ............. S ............. S 32-bit map ................ S ............. S complex map .......... 0.2972 ........ 0.3501 fixext 1 ............. 0.0146 ........ 0.0403 fixext 2 ............. 0.0148 ........ 0.0422 fixext 4 ............. 0.0148 ........ 0.0426 fixext 8 ............. 0.0165 ........ 0.0427 fixext 16 ............ 0.0156 ........ 0.0422 8-bit ext ............ 0.0197 ........ 0.0494 16-bit ext ........... 0.0234 ........ 0.0576 32-bit ext ........... 0.3674 ........ 0.3327 ============================================= Total 9.4513 4.5950 Skipped 4 4 Failed 0 0 Ignored 0 0 ``` You may change default benchmark settings by defining the following environment variables: * `MP_BENCH_TARGETS` (pure_p, pure_ps, pure_pa, pure_psa, pure_bu, pecl_p, pecl_u) * `MP_BENCH_ITERATIONS`/`MP_BENCH_DURATION` * `MP_BENCH_ROUNDS` * `MP_BENCH_TESTS` For example: ```sh export MP_BENCH_TARGETS=pure_p export MP_BENCH_ITERATIONS=1000000 export MP_BENCH_ROUNDS=5 # a comma separated list of test names export MP_BENCH_TESTS='complex array, complex map' # or a group name # export MP_BENCH_TESTS='-@slow' // @pecl_comp # or a regexp # export MP_BENCH_TESTS='/complex (array|map)/' php -n -dpcre.jit=1 -dzend_extension=opcache.so -dopcache.enable_cli=1 tests/bench.php ``` Another example, benchmarking both the library and the [msgpack pecl extension](https://pecl.php.net/package/msgpack): ```sh MP_BENCH_TARGETS=pure_ps,pure_bu,pecl_p,pecl_u \ php -n -dpcre.jit=1 -dextension=msgpack.so -dzend_extension=opcache.so -dopcache.enable_cli=1 tests/bench.php ``` Output: ``` Filter: MessagePack\Tests\Perf\Filter\ListFilter Rounds: 3 Iterations: 100000 ====================================================================================== Test/Target Packer (force_str) BufferUnpacker msgpack_pack msgpack_unpack -------------------------------------------------------------------------------------- nil ............................. 0.0040 ........ 0.0158 ...... 0.0065 ........ 0.0052 false ........................... 0.0046 ........ 0.0158 ...... 0.0064 ........ 0.0051 true ............................ 0.0045 ........ 0.0158 ...... 0.0065 ........ 0.0051 7-bit uint #1 ................... 0.0066 ........ 0.0130 ...... 0.0065 ........ 0.0054 7-bit uint #2 ................... 0.0067 ........ 0.0129 ...... 0.0065 ........ 0.0052 7-bit uint #3 ................... 0.0065 ........ 0.0129 ...... 0.0065 ........ 0.0052 5-bit sint #1 ................... 0.0067 ........ 0.0153 ...... 0.0065 ........ 0.0054 5-bit sint #2 ................... 0.0067 ........ 0.0152 ...... 0.0065 ........ 0.0053 5-bit sint #3 ................... 0.0068 ........ 0.0154 ...... 0.0065 ........ 0.0054 8-bit uint #1 ................... 0.0087 ........ 0.0223 ...... 0.0066 ........ 0.0057 8-bit uint #2 ................... 0.0088 ........ 0.0223 ...... 0.0066 ........ 0.0057 8-bit uint #3 ................... 0.0087 ........ 0.0222 ...... 0.0067 ........ 0.0057 16-bit uint #1 .................. 0.0120 ........ 0.0295 ...... 0.0068 ........ 0.0057 16-bit uint #2 .................. 0.0118 ........ 0.0296 ...... 0.0069 ........ 0.0057 16-bit uint #3 .................. 0.0119 ........ 0.0297 ...... 0.0068 ........ 0.0057 32-bit uint #1 .................. 0.0138 ........ 0.0358 ...... 0.0067 ........ 0.0056 32-bit uint #2 .................. 0.0137 ........ 0.0358 ...... 0.0066 ........ 0.0058 32-bit uint #3 .................. 0.0138 ........ 0.0358 ...... 0.0068 ........ 0.0057 64-bit uint #1 .................. 0.0140 ........ 0.0362 ...... 0.0067 ........ 0.0056 64-bit uint #2 .................. 0.0140 ........ 0.0364 ...... 0.0067 ........ 0.0056 64-bit uint #3 .................. 0.0141 ........ 0.0362 ...... 0.0066 ........ 0.0057 8-bit int #1 .................... 0.0089 ........ 0.0251 ...... 0.0068 ........ 0.0057 8-bit int #2 .................... 0.0090 ........ 0.0252 ...... 0.0066 ........ 0.0056 8-bit int #3 .................... 0.0089 ........ 0.0251 ...... 0.0066 ........ 0.0056 16-bit int #1 ................... 0.0120 ........ 0.0304 ...... 0.0067 ........ 0.0057 16-bit int #2 ................... 0.0120 ........ 0.0314 ...... 0.0069 ........ 0.0059 16-bit int #3 ................... 0.0124 ........ 0.0314 ...... 0.0070 ........ 0.0058 32-bit int #1 ................... 0.0144 ........ 0.0372 ...... 0.0067 ........ 0.0056 32-bit int #2 ................... 0.0139 ........ 0.0364 ...... 0.0068 ........ 0.0056 32-bit int #3 ................... 0.0139 ........ 0.0364 ...... 0.0067 ........ 0.0056 64-bit int #1 ................... 0.0143 ........ 0.0363 ...... 0.0067 ........ 0.0058 64-bit int #2 ................... 0.0142 ........ 0.0363 ...... 0.0068 ........ 0.0057 64-bit int #3 ................... 0.0143 ........ 0.0366 ...... 0.0067 ........ 0.0058 64-bit int #4 ................... 0.0142 ........ 0.0364 ...... 0.0067 ........ 0.0057 64-bit float #1 ................. 0.0148 ........ 0.0353 ...... 0.0066 ........ 0.0057 64-bit float #2 ................. 0.0152 ........ 0.0356 ...... 0.0066 ........ 0.0057 64-bit float #3 ................. 0.0147 ........ 0.0355 ...... 0.0066 ........ 0.0057 fix string #1 ................... 0.0082 ........ 0.0143 ...... 0.0069 ........ 0.0057 fix string #2 ................... 0.0101 ........ 0.0234 ...... 0.0069 ........ 0.0070 fix string #3 ................... 0.0101 ........ 0.0256 ...... 0.0071 ........ 0.0072 fix string #4 ................... 0.0102 ........ 0.0255 ...... 0.0068 ........ 0.0067 8-bit string #1 ................. 0.0122 ........ 0.0335 ...... 0.0068 ........ 0.0068 8-bit string #2 ................. 0.0127 ........ 0.0337 ...... 0.0069 ........ 0.0069 8-bit string #3 ................. 0.0127 ........ 0.0337 ...... 0.0102 ........ 0.0069 16-bit string #1 ................ 0.0161 ........ 0.0403 ...... 0.0103 ........ 0.0074 16-bit string #2 ................ 0.3583 ........ 0.3081 ...... 0.3529 ........ 0.2745 32-bit string ................... 0.3609 ........ 0.3168 ...... 0.3511 ........ 0.2749 wide char string #1 ............. 0.0098 ........ 0.0248 ...... 0.0068 ........ 0.0070 wide char string #2 ............. 0.0122 ........ 0.0324 ...... 0.0069 ........ 0.0069 8-bit binary #1 ...................... I ............. I ........... F ............. I 8-bit binary #2 ...................... I ............. I ........... F ............. I 8-bit binary #3 ...................... I ............. I ........... F ............. I 16-bit binary ........................ I ............. I ........... F ............. I 32-bit binary ........................ I ............. I ........... F ............. I fix array #1 .................... 0.0070 ........ 0.0146 ...... 0.0152 ........ 0.0069 fix array #2 .................... 0.0292 ........ 0.0444 ...... 0.0175 ........ 0.0165 fix array #3 .................... 0.0422 ........ 0.0617 ...... 0.0196 ........ 0.0209 16-bit array #1 ................. 0.1536 ........ 0.1716 ...... 0.0321 ........ 0.0449 16-bit array #2 ...................... S ............. S ........... S ............. S 32-bit array ......................... S ............. S ........... S ............. S complex array ........................ I ............. I ........... F ............. F fix map #1 ........................... I ............. I ........... F ............. I fix map #2 ...................... 0.0331 ........ 0.0502 ...... 0.0171 ........ 0.0188 fix map #3 ........................... I ............. I ........... F ............. I fix map #4 ........................... I ............. I ........... F ............. I 16-bit map #1 ................... 0.2506 ........ 0.3160 ...... 0.0330 ........ 0.0689 16-bit map #2 ........................ S ............. S ........... S ............. S 32-bit map ........................... S ............. S ........... S ............. S complex map ..................... 0.2679 ........ 0.3518 ...... 0.0659 ........ 0.0753 fixext 1 ............................. I ............. I ........... F ............. F fixext 2 ............................. I ............. I ........... F ............. F fixext 4 ............................. I ............. I ........... F ............. F fixext 8 ............................. I ............. I ........... F ............. F fixext 16 ............................ I ............. I ........... F ............. F 8-bit ext ............................ I ............. I ........... F ............. F 16-bit ext ........................... I ............. I ........... F ............. F 32-bit ext ........................... I ............. I ........... F ............. F ====================================================================================== Total 2.0227 2.9568 1.2268 1.0765 Skipped 4 4 4 4 Failed 0 0 17 9 Ignored 17 17 0 8 ``` > *Note that the msgpack extension (0.5.2+, 2.0) doesn't support **ext**, **bin** and UTF-8 **str** types.* ## License The library is released under the MIT License. See the bundled [LICENSE](LICENSE) file for details. |