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# qs A querystring parsing and stringifying library with some added security. [![Build Status](https://api.travis-ci.org/ljharb/qs.svg)](http://travis-ci.org/ljharb/qs) Lead Maintainer: [Jordan Harband](https://github.com/ljharb) The **qs** module was originally created and maintained by [TJ Holowaychuk](https://github.com/visionmedia/node-querystring). ## Usage ```javascript var qs = require('qs'); var assert = require('assert'); var obj = qs.parse('a=c'); assert.deepEqual(obj, { a: 'c' }); var str = qs.stringify(obj); assert.equal(str, 'a=c'); ``` ### Parsing Objects [](#preventEval) ```javascript qs.parse(string, [options]); ``` **qs** allows you to create nested objects within your query strings, by surrounding the name of sub-keys with square brackets `[]`. For example, the string `'foo[bar]=baz'` converts to: ```javascript assert.deepEqual(qs.parse('foo[bar]=baz'), { foo: { bar: 'baz' } }); ``` When using the `plainObjects` option the parsed value is returned as a plain object, created via `Object.create(null)` and as such you should be aware that prototype methods will not exist on it and a user may set those names to whatever value they like: ```javascript var plainObject = qs.parse('a[hasOwnProperty]=b', { plainObjects: true }); assert.deepEqual(plainObject, { a: { hasOwnProperty: 'b' } }); ``` By default parameters that would overwrite properties on the object prototype are ignored, if you wish to keep the data from those fields either use `plainObjects` as mentioned above, or set `allowPrototypes` to `true` which will allow user input to overwrite those properties. *WARNING* It is generally a bad idea to enable this option as it can cause problems when attempting to use the properties that have been overwritten. Always be careful with this option. ```javascript var protoObject = qs.parse('a[hasOwnProperty]=b', { allowPrototypes: true }); assert.deepEqual(protoObject, { a: { hasOwnProperty: 'b' } }); ``` URI encoded strings work too: ```javascript assert.deepEqual(qs.parse('a%5Bb%5D=c'), { a: { b: 'c' } }); ``` You can also nest your objects, like `'foo[bar][baz]=foobarbaz'`: ```javascript assert.deepEqual(qs.parse('foo[bar][baz]=foobarbaz'), { foo: { bar: { baz: 'foobarbaz' } } }); ``` By default, when nesting objects **qs** will only parse up to 5 children deep. This means if you attempt to parse a string like `'a[b][c][d][e][f][g][h][i]=j'` your resulting object will be: ```javascript var expected = { a: { b: { c: { d: { e: { f: { '[g][h][i]': 'j' } } } } } } }; var string = 'a[b][c][d][e][f][g][h][i]=j'; assert.deepEqual(qs.parse(string), expected); ``` This depth can be overridden by passing a `depth` option to `qs.parse(string, [options])`: ```javascript var deep = qs.parse('a[b][c][d][e][f][g][h][i]=j', { depth: 1 }); assert.deepEqual(deep, { a: { b: { '[c][d][e][f][g][h][i]': 'j' } } }); ``` The depth limit helps mitigate abuse when **qs** is used to parse user input, and it is recommended to keep it a reasonably small number. For similar reasons, by default **qs** will only parse up to 1000 parameters. This can be overridden by passing a `parameterLimit` option: ```javascript var limited = qs.parse('a=b&c=d', { parameterLimit: 1 }); assert.deepEqual(limited, { a: 'b' }); ``` An optional delimiter can also be passed: ```javascript var delimited = qs.parse('a=b;c=d', { delimiter: ';' }); assert.deepEqual(delimited, { a: 'b', c: 'd' }); ``` Delimiters can be a regular expression too: ```javascript var regexed = qs.parse('a=b;c=d,e=f', { delimiter: /[;,]/ }); assert.deepEqual(regexed, { a: 'b', c: 'd', e: 'f' }); ``` Option `allowDots` can be used to enable dot notation: ```javascript var withDots = qs.parse('a.b=c', { allowDots: true }); assert.deepEqual(withDots, { a: { b: 'c' } }); ``` ### Parsing Arrays **qs** can also parse arrays using a similar `[]` notation: ```javascript var withArray = qs.parse('a[]=b&a[]=c'); assert.deepEqual(withArray, { a: ['b', 'c'] }); ``` You may specify an index as well: ```javascript var withIndexes = qs.parse('a[1]=c&a[0]=b'); assert.deepEqual(withIndexes, { a: ['b', 'c'] }); ``` Note that the only difference between an index in an array and a key in an object is that the value between the brackets must be a number to create an array. When creating arrays with specific indices, **qs** will compact a sparse array to only the existing values preserving their order: ```javascript var noSparse = qs.parse('a[1]=b&a[15]=c'); assert.deepEqual(noSparse, { a: ['b', 'c'] }); ``` Note that an empty string is also a value, and will be preserved: ```javascript var withEmptyString = qs.parse('a[]=&a[]=b'); assert.deepEqual(withEmptyString, { a: ['', 'b'] }); var withIndexedEmptyString = qs.parse('a[0]=b&a[1]=&a[2]=c'); assert.deepEqual(withIndexedEmptyString, { a: ['b', '', 'c'] }); ``` **qs** will also limit specifying indices in an array to a maximum index of `20`. Any array members with an index of greater than `20` will instead be converted to an object with the index as the key: ```javascript var withMaxIndex = qs.parse('a[100]=b'); assert.deepEqual(withMaxIndex, { a: { '100': 'b' } }); ``` This limit can be overridden by passing an `arrayLimit` option: ```javascript var withArrayLimit = qs.parse('a[1]=b', { arrayLimit: 0 }); assert.deepEqual(withArrayLimit, { a: { '1': 'b' } }); ``` To disable array parsing entirely, set `parseArrays` to `false`. ```javascript var noParsingArrays = qs.parse('a[]=b', { parseArrays: false }); assert.deepEqual(noParsingArrays, { a: { '0': 'b' } }); ``` If you mix notations, **qs** will merge the two items into an object: ```javascript var mixedNotation = qs.parse('a[0]=b&a[b]=c'); assert.deepEqual(mixedNotation, { a: { '0': 'b', b: 'c' } }); ``` You can also create arrays of objects: ```javascript var arraysOfObjects = qs.parse('a[][b]=c'); assert.deepEqual(arraysOfObjects, { a: [{ b: 'c' }] }); ``` ### Stringifying [](#preventEval) ```javascript qs.stringify(object, [options]); ``` When stringifying, **qs** by default URI encodes output. Objects are stringified as you would expect: ```javascript assert.equal(qs.stringify({ a: 'b' }), 'a=b'); assert.equal(qs.stringify({ a: { b: 'c' } }), 'a%5Bb%5D=c'); ``` This encoding can be disabled by setting the `encode` option to `false`: ```javascript var unencoded = qs.stringify({ a: { b: 'c' } }, { encode: false }); assert.equal(unencoded, 'a[b]=c'); ``` This encoding can also be replaced by a custom encoding method set as `encoder` option: ```javascript var encoded = qs.stringify({ a: { b: 'c' } }, { encoder: function (str) { // Passed in values `a`, `b`, `c` return // Return encoded string }}) ``` _(Note: the `encoder` option does not apply if `encode` is `false`)_ Analogue to the `encoder` there is a `decoder` option for `parse` to override decoding of properties and values: ```javascript var decoded = qs.parse('x=z', { decoder: function (str) { // Passed in values `x`, `z` return // Return decoded string }}) ``` Examples beyond this point will be shown as though the output is not URI encoded for clarity. Please note that the return values in these cases *will* be URI encoded during real usage. When arrays are stringified, by default they are given explicit indices: ```javascript qs.stringify({ a: ['b', 'c', 'd'] }); // 'a[0]=b&a[1]=c&a[2]=d' ``` You may override this by setting the `indices` option to `false`: ```javascript qs.stringify({ a: ['b', 'c', 'd'] }, { indices: false }); // 'a=b&a=c&a=d' ``` You may use the `arrayFormat` option to specify the format of the output array ```javascript qs.stringify({ a: ['b', 'c'] }, { arrayFormat: 'indices' }) // 'a[0]=b&a[1]=c' qs.stringify({ a: ['b', 'c'] }, { arrayFormat: 'brackets' }) // 'a[]=b&a[]=c' qs.stringify({ a: ['b', 'c'] }, { arrayFormat: 'repeat' }) // 'a=b&a=c' ``` Empty strings and null values will omit the value, but the equals sign (=) remains in place: ```javascript assert.equal(qs.stringify({ a: '' }), 'a='); ``` Properties that are set to `undefined` will be omitted entirely: ```javascript assert.equal(qs.stringify({ a: null, b: undefined }), 'a='); ``` The delimiter may be overridden with stringify as well: ```javascript assert.equal(qs.stringify({ a: 'b', c: 'd' }, { delimiter: ';' }), 'a=b;c=d'); ``` Finally, you can use the `filter` option to restrict which keys will be included in the stringified output. If you pass a function, it will be called for each key to obtain the replacement value. Otherwise, if you pass an array, it will be used to select properties and array indices for stringification: ```javascript function filterFunc(prefix, value) { if (prefix == 'b') { // Return an `undefined` value to omit a property. return; } if (prefix == 'e[f]') { return value.getTime(); } if (prefix == 'e[g][0]') { return value * 2; } return value; } qs.stringify({ a: 'b', c: 'd', e: { f: new Date(123), g: [2] } }, { filter: filterFunc }); // 'a=b&c=d&e[f]=123&e[g][0]=4' qs.stringify({ a: 'b', c: 'd', e: 'f' }, { filter: ['a', 'e'] }); // 'a=b&e=f' qs.stringify({ a: ['b', 'c', 'd'], e: 'f' }, { filter: ['a', 0, 2] }); // 'a[0]=b&a[2]=d' ``` ### Handling of `null` values By default, `null` values are treated like empty strings: ```javascript var withNull = qs.stringify({ a: null, b: '' }); assert.equal(withNull, 'a=&b='); ``` Parsing does not distinguish between parameters with and without equal signs. Both are converted to empty strings. ```javascript var equalsInsensitive = qs.parse('a&b='); assert.deepEqual(equalsInsensitive, { a: '', b: '' }); ``` To distinguish between `null` values and empty strings use the `strictNullHandling` flag. In the result string the `null` values have no `=` sign: ```javascript var strictNull = qs.stringify({ a: null, b: '' }, { strictNullHandling: true }); assert.equal(strictNull, 'a&b='); ``` To parse values without `=` back to `null` use the `strictNullHandling` flag: ```javascript var parsedStrictNull = qs.parse('a&b=', { strictNullHandling: true }); assert.deepEqual(parsedStrictNull, { a: null, b: '' }); ``` To completely skip rendering keys with `null` values, use the `skipNulls` flag: ```javascript var nullsSkipped = qs.stringify({ a: 'b', c: null}, { skipNulls: true }); assert.equal(nullsSkipped, 'a=b'); ``` ### Dealing with special character sets By default the encoding and decoding of characters is done in `utf-8`. If you wish to encode querystrings to a different character set (i.e. [Shift JIS](https://en.wikipedia.org/wiki/Shift_JIS)) you can use the [`qs-iconv`](https://github.com/martinheidegger/qs-iconv) library: ```javascript var encoder = require('qs-iconv/encoder')('shift_jis'); var shiftJISEncoded = qs.stringify({ a: 'こんにちは!' }, { encoder: encoder }); assert.equal(shiftJISEncoded, 'a=%82%B1%82%F1%82%C9%82%BF%82%CD%81I'); ``` This also works for decoding of query strings: ```javascript var decoder = require('qs-iconv/decoder')('shift_jis'); var obj = qs.parse('a=%82%B1%82%F1%82%C9%82%BF%82%CD%81I', { decoder: decoder }); assert.deepEqual(obj, { a: 'こんにちは!' }); ```