JMESPath (pronounced 'jaymz path') allows you to declaratively specify how to
extract elements from a JSON document. jmespath.php allows you to use
JMESPath in PHP applications with PHP data structures. It requires PHP 5.4 or
greater and can be installed through Composer
using the mtdowling/jmespath.php
package.
require 'vendor/autoload.php';
$expression = 'foo.*.baz';
$data = [
'foo' => [
'bar' => ['baz' => 1],
'bam' => ['baz' => 2],
'boo' => ['baz' => 3]
]
];
JmesPath\search($expression, $data);
// Returns: [1, 2, 3]
The following features have been added to this fork.
The following operators are supported: +
(addition), -
(substraction),
*
(multiplication), /
(division) and %
(modulo).
JmesPath\search('(foo.bar.baz + foo.boo.baz) * 100', $data);
// Returns: 400
Use $
to reference to the root of the data anywhere in an expression.
$expression = 'locations[?state == $.selected].name | sort(@) | [Cities: join($.glue, @)]';
$data = [
'locations' => [
['name' => 'Seattle', 'state' => 'WA'],
['name' => 'New York', 'state' => 'NY'],
['name' => 'Bellevue', 'state' => 'WA'],
['name' => 'Olympia', 'state' => 'WA']
],
'selected' => 'WA',
'glue' => ', '
];
JmesPath\search($expression, $data);
// Returns: [ 'Cities' => 'Bellevue, Olympia, Seattle' ]
The JmesPath\search
function can be used in most cases when using the
library. This function utilizes a JMESPath runtime based on your environment.
The runtime utilized can be configured using environment variables and may at
some point in the future automatically utilize a C extension if available.
$result = JmesPath\search($expression, $data);
// or, if you require PSR-4 compliance.
$result = JmesPath\Env::search($expression, $data);
jmespath.php utilizes runtimes. There are currently two runtimes: AstRuntime and CompilerRuntime.
AstRuntime is utilized by JmesPath\search()
and JmesPath\Env::search()
by default.
The AstRuntime will parse an expression, cache the resulting AST in memory, and interpret the AST using an external tree visitor. AstRuntime provides a good general approach for interpreting JMESPath expressions that have a low to moderate level of reuse.
$runtime = new JmesPath\AstRuntime();
$runtime('foo.bar', ['foo' => ['bar' => 'baz']]);
// > 'baz'
JmesPath\CompilerRuntime
provides the most performance for
applications that have a moderate to high level of reuse of JMESPath
expressions. The CompilerRuntime will walk a JMESPath AST and emit PHP source
code, resulting in anywhere from 7x to 60x speed improvements.
Compiling JMESPath expressions to source code is a slower process than just
walking and interpreting a JMESPath AST (via the AstRuntime). However,
running the compiled JMESPath code results in much better performance than
walking an AST. This essentially means that there is a warm-up period when
using the CompilerRuntime
, but after the warm-up period, it will provide
much better performance.
Use the CompilerRuntime if you know that you will be executing JMESPath expressions more than once or if you can pre-compile JMESPath expressions before executing them (for example, server-side applications).
// Note: The cache directory argument is optional.
$runtime = new JmesPath\CompilerRuntime('/path/to/compile/folder');
$runtime('foo.bar', ['foo' => ['bar' => 'baz']]);
// > 'baz'
You can utilize the CompilerRuntime in JmesPath\search()
by setting
the JP_PHP_COMPILE
environment variable to 'on' or to a directory
on disk used to store cached expressions.
A comprehensive list of test cases can be found at https://github.com/jmespath/jmespath.php/tree/master/tests/compliance. These compliance tests are utilized by jmespath.php to ensure consistency with other implementations, and can serve as examples of the language.
jmespath.php is tested using PHPUnit. In order to run the tests, you need to first install the dependencies using Composer as described in the Installation section. Next you just need to run the tests via make:
make test
You can run a suite of performance tests as well:
make perf