Given a JavaScript object,
var obj = { a: { b: '1', c: '2' } }
and a string
"a.b"
how can I convert the string to dot notation so I can go
var val = obj.a.b
If the string was just 'a', I could use obj[a]. But this is more complex. I imagine there is some straightforward method, but it escapes me at present.
recent note: While I'm flattered that this answer has gotten many upvotes, I am also somewhat horrified. If one needs to convert dot-notation strings like "x.a.b.c" into references, it could (maybe) be a sign that there is something very wrong going on (unless maybe you're performing some strange deserialization).
That is to say, novices who find their way to this answer must ask themselves the question "why am I doing this?"
It is of course generally fine to do this if your use case is small and you will not run into performance issues, AND you won't need to build upon your abstraction to make it more complicated later. In fact, if this will reduce code complexity and keep things simple, you should probably go ahead and do what OP is asking for. However, if that's not the case, consider if any of these apply:
case 1: As the primary method of working with your data (e.g. as your app's default form of passing objects around and dereferencing them). Like asking "how can I look up a function or variable name from a string".
This is bad programming practice (unnecessary metaprogramming specifically, and kind of violates function side-effect-free coding style, and will have performance hits). Novices who find themselves in this case, should instead consider working with array representations, e.g. ['x','a','b','c'], or even something more direct/simple/straightforward if possible: like not losing track of the references themselves in the first place (most ideal if it's only client-side or only server-side), etc. (A pre-existing unique id would be inelegant to add, but could be used if the spec otherwise requires its existence regardless.)
case 2: Working with serialized data, or data that will be displayed to the user. Like using a date as a string "1999-12-30" rather than a Date object (which can cause timezone bugs or added serialization complexity if not careful). Or you know what you're doing.
This is maybe fine. Be careful that there are no dot strings "." in your sanitized input fragments.
If you find yourself using this answer all the time and converting back and forth between string and array, you may be in the bad case, and should consider an alternative.
Here's an elegant one-liner that's 10x shorter than the other solutions:
function index(obj,i) {return obj[i]}
'a.b.etc'.split('.').reduce(index, obj)
[edit] Or in ECMAScript 6:
'a.b.etc'.split('.').reduce((o,i)=> o[i], obj)
(Not that I think eval always bad like others suggest it is (though it usually is), nevertheless those people will be pleased that this method doesn't use eval. The above will find obj.a.b.etc given obj and the string "a.b.etc".)
In response to those who still are afraid of using reduce despite it being in the ECMA-262 standard (5th edition), here is a two-line recursive implementation:
function multiIndex(obj,is) { // obj,['1','2','3'] -> ((obj['1'])['2'])['3']
return is.length ? multiIndex(obj[is[0]],is.slice(1)) : obj
}
function pathIndex(obj,is) { // obj,'1.2.3' -> multiIndex(obj,['1','2','3'])
return multiIndex(obj,is.split('.'))
}
pathIndex('a.b.etc')
Depending on the optimizations the JS compiler is doing, you may want to make sure any nested functions are not re-defined on every call via the usual methods (placing them in a closure, object, or global namespace).
edit:
To answer an interesting question in the comments:
how would you turn this into a setter as well? Not only returning the values by path, but also setting them if a new value is sent into the function? – Swader Jun 28 at 21:42
(sidenote: sadly can't return an object with a Setter, as that would violate the calling convention; commenter seems to instead be referring to a general setter-style function with side-effects like index(obj,"a.b.etc", value) doing obj.a.b.etc = value.)
The reduce style is not really suitable to that, but we can modify the recursive implementation:
function index(obj,is, value) {
if (typeof is == 'string')
return index(obj,is.split('.'), value);
else if (is.length==1 && value!==undefined)
return obj[is[0]] = value;
else if (is.length==0)
return obj;
else
return index(obj[is[0]],is.slice(1), value);
}
Demo:
> obj = {a:{b:{etc:5}}}
> index(obj,'a.b.etc')
5
> index(obj,['a','b','etc']) #works with both strings and lists
5
> index(obj,'a.b.etc', 123) #setter-mode - third argument (possibly poor form)
123
> index(obj,'a.b.etc')
123
...though personally I'd recommend making a separate function setIndex(...). I would like to end on a side-note that the original poser of the question could (should?) be working with arrays of indices (which they can get from .split), rather than strings; though there's usually nothing wrong with a convenience function.
A commenter asked:
what about arrays? something like "a.b[4].c.d[1][2][3]" ? –AlexS
Javascript is a very weird language; in general objects can only have strings as their property keys, so for example if x was a generic object like x={}, then x[1] would become x["1"]... you read that right... yup...
Javascript Arrays (which are themselves instances of Object) specifically encourage integer keys, even though you could do something like x=[]; x["puppy"]=5;.
But in general (and there are exceptions), x["somestring"]===x.somestring (when it's allowed; you can't do x.123).
(Keep in mind that whatever JS compiler you're using might choose, maybe, to compile these down to saner representations if it can prove it would not violate the spec.)
So the answer to your question would depend on whether you're assuming those objects only accept integers (due to a restriction in your problem domain), or not. Let's assume not. Then a valid expression is a concatenation of a base identifier plus some .identifiers plus some ["stringindex"]s.
Let us ignore for a moment that we can of course do other things legitimately in the grammar like identifier[0xFA7C25DD].asdf[f(4)?.[5]+k][false][null][undefined][NaN]; integers are not (that) 'special'.
Commenter's statement would then be equivalent to a["b"][4]["c"]["d"][1][2][3], though we should probably also support a.b["c\"validjsstringliteral"][3]. You'd have to check the ecmascript grammar section on string literals to see how to parse a valid string literal. Technically you'd also want to check (unlike in my first answer) that a is a valid javascript identifier.
A simple answer to your question though, if your strings don't contain commas or brackets, would be just be to match length 1+ sequences of characters not in the set , or [ or ]:
> "abc[4].c.def[1][2][\"gh\"]".match(/[^\]\[.]+/g)
// ^^^ ^ ^ ^^^ ^ ^ ^^^^^
["abc", "4", "c", "def", "1", "2", ""gh""]
If your strings don't contain escape characters or " characters, and because IdentifierNames are a sublanguage of StringLiterals (I think???) you could first convert your dots to []:
> var R=[], demoString="abc[4].c.def[1][2][\"gh\"]";
> for(var match,matcher=/^([^\.\[]+)|\.([^\.\[]+)|\["([^"]+)"\]|\[(\d+)\]/g;
match=matcher.exec(demoString); ) {
R.push(Array.from(match).slice(1).filter(x=> x!==undefined)[0]);
// extremely bad code because js regexes are weird, don't use this
}
> R
["abc", "4", "c", "def", "1", "2", "gh"]
Of course, always be careful and never trust your data. Some bad ways to do this that might work for some use cases also include:
// hackish/wrongish; preprocess your string into "a.b.4.c.d.1.2.3", e.g.:
> yourstring.replace(/]/g,"").replace(/\[/g,".").split(".")
"a.b.4.c.d.1.2.3" //use code from before
Special 2018 edit:
Let's go full-circle and do the most inefficient, horribly-overmetaprogrammed solution we can come up with... in the interest of syntactical purityhamfistery. With ES6 Proxy objects!... Let's also define some properties which (imho are fine and wonderful but) may break improperly-written libraries. You should perhaps be wary of using this if you care about performance, sanity (yours or others'), your job, etc.
// [1,2,3][-1]==3 (or just use .slice(-1)[0])
if (![1][-1])
Object.defineProperty(Array.prototype, -1, {get() {return this[this.length-1]}}); //credit to caub
// WARNING: THIS XTREME™ RADICAL METHOD IS VERY INEFFICIENT,
// ESPECIALLY IF INDEXING INTO MULTIPLE OBJECTS,
// because you are constantly creating wrapper objects on-the-fly and,
// even worse, going through Proxy i.e. runtime ~reflection, which prevents
// compiler optimization
// Proxy handler to override obj[*]/obj.* and obj[*]=...
var hyperIndexProxyHandler = {
get: function(obj,key, proxy) {
return key.split('.').reduce((o,i)=> o[i], obj);
},
set: function(obj,key,value, proxy) {
var keys = key.split('.');
var beforeLast = keys.slice(0,-1).reduce((o,i)=> o[i], obj);
beforeLast[keys[-1]] = value;
},
has: function(obj,key) {
//etc
}
};
function hyperIndexOf(target) {
return new Proxy(target, hyperIndexProxyHandler);
}
Demo:
var obj = {a:{b:{c:1, d:2}}};
console.log("obj is:", JSON.stringify(obj));
var objHyper = hyperIndexOf(obj);
console.log("(proxy override get) objHyper['a.b.c'] is:", objHyper['a.b.c']);
objHyper['a.b.c'] = 3;
console.log("(proxy override set) objHyper['a.b.c']=3, now obj is:", JSON.stringify(obj));
console.log("(behind the scenes) objHyper is:", objHyper);
if (!({}).H)
Object.defineProperties(Object.prototype, {
H: {
get: function() {
return hyperIndexOf(this); // TODO:cache as a non-enumerable property for efficiency?
}
}
});
console.log("(shortcut) obj.H['a.b.c']=4");
obj.H['a.b.c'] = 4;
console.log("(shortcut) obj.H['a.b.c'] is obj['a']['b']['c'] is", obj.H['a.b.c']);
Output:
obj is: {"a":{"b":{"c":1,"d":2}}}
(proxy override get) objHyper['a.b.c'] is: 1
(proxy override set) objHyper['a.b.c']=3, now obj is: {"a":{"b":{"c":3,"d":2}}}
(behind the scenes) objHyper is: Proxy {a: {…}}
(shortcut) obj.H['a.b.c']=4
(shortcut) obj.H['a.b.c'] is obj['a']['b']['c'] is: 4
inefficient idea: You can modify the above to dispatch based on the input argument; either use the .match(/[^\]\[.]+/g) method to support obj['keys'].like[3]['this'], or if instanceof Array, then just accept an Array as input like keys = ['a','b','c']; obj.H[keys].
Per suggestion that maybe you want to handle undefined indices in a 'softer' NaN-style manner (e.g. index({a:{b:{c:...}}}, 'a.x.c') return undefined rather than uncaught TypeError)...:
This makes sense from the perspective of "we should return undefined rather than throw an error" in the 1-dimensional index situation ({})['e.g.']==undefined, so "we should return undefined rather than throw an error" in the N-dimensional situation.
This does not make sense from the perspective that we are doing x['a']['x']['c'], which would fail with a TypeError in the above example.
That said, you'd make this work by replacing your reducing function with either:
(o,i)=> o===undefined?undefined:o[i], or
(o,i)=> (o||{})[i].
(You can make this more efficient by using a for loop and breaking/returning whenever the subresult you'd next index into is undefined, or using a try-catch if you expect such failures to be sufficiently rare.)
If you can use Lodash, there is a function, which does exactly that:
_.get(object, path, [defaultValue])
var val = _.get(obj, "a.b");
You could use lodash.get
After installing (npm i lodash.get), use it like this:
const get = require('lodash.get');
const myObj = {
user: {
firstName: 'Stacky',
lastName: 'Overflowy',
list: ['zero', 'one', 'two']
},
id: 123
};
console.log(get(myObj, 'user.firstName')); // outputs Stacky
console.log(get(myObj, 'id')); // outputs 123
console.log(get(myObj, 'user.list[1]')); // outputs one
// You can also update values
get(myObj, 'user').firstName = 'John';
A little more involved example with recursion.
function recompose(obj, string) {
var parts = string.split('.');
var newObj = obj[parts[0]];
if (parts[1]) {
parts.splice(0, 1);
var newString = parts.join('.');
return recompose(newObj, newString);
}
return newObj;
}
var obj = { a: { b: '1', c: '2', d:{a:{b:'blah'}}}};
console.log(recompose(obj, 'a.d.a.b')); //blah
2021
You don't need to pull in another dependency every time you wish for new capabilities in your program. Modern JS is very capable and the optional-chaining operator ?. is now widely supported and makes this kind of task easy as heck.
With a single line of code we can write get that takes an input object, t and string path. It works for object and arrays of any nesting level -
const get = (t, path) =>
path.split(".").reduce((r, k) => r?.[k], t)
const mydata =
{ a: { b: [ 0, { c: { d: [ "hello", "world" ] } } ] } }
console.log(get(mydata, "a.b.1.c.d.0"))
console.log(get(mydata, "a.b.1.c.d.1"))
console.log(get(mydata, "a.b.x.y.z"))
"hello"
"world"
undefined
I suggest to split the path and iterate it and reduce the object you have. This proposal works with a default value for missing properties.
const getValue = (object, keys) => keys.split('.').reduce((o, k) => (o || {})[k], object);
console.log(getValue({ a: { b: '1', c: '2' } }, 'a.b'));
console.log(getValue({ a: { b: '1', c: '2' } }, 'foo.bar.baz'));
Many years since the original post.
Now there is a great library called 'object-path'.
https://github.com/mariocasciaro/object-path
Available on NPM and BOWER
https://www.npmjs.com/package/object-path
It's as easy as:
objectPath.get(obj, "a.c.1"); //returns "f"
objectPath.set(obj, "a.j.0.f", "m");
And works for deeply nested properties and arrays.
If you expect to dereference the same path many times, building a function for each dot notation path actually has the best performance by far (expanding on the perf tests James Wilkins linked to in comments above).
var path = 'a.b.x';
var getter = new Function("obj", "return obj." + path + ";");
getter(obj);
Using the Function constructor has some of the same drawbacks as eval() in terms of security and worst-case performance, but IMO it's a badly underused tool for cases where you need a combination of extreme dynamism and high performance. I use this methodology to build array filter functions and call them inside an AngularJS digest loop. My profiles consistently show the array.filter() step taking less than 1ms to dereference and filter about 2000 complex objects, using dynamically-defined paths 3-4 levels deep.
A similar methodology could be used to create setter functions, of course:
var setter = new Function("obj", "newval", "obj." + path + " = newval;");
setter(obj, "some new val");
Other proposals are a little cryptic, so I thought I'd contribute:
Object.prop = function(obj, prop, val){
var props = prop.split('.')
, final = props.pop(), p
while(p = props.shift()){
if (typeof obj[p] === 'undefined')
return undefined;
obj = obj[p]
}
return val ? (obj[final] = val) : obj[final]
}
var obj = { a: { b: '1', c: '2' } }
// get
console.log(Object.prop(obj, 'a.c')) // -> 2
// set
Object.prop(obj, 'a.c', function(){})
console.log(obj) // -> { a: { b: '1', c: [Function] } }
var a = { b: { c: 9 } };
function value(layer, path, value) {
var i = 0,
path = path.split('.');
for (; i < path.length; i++)
if (value != null && i + 1 === path.length)
layer[path[i]] = value;
layer = layer[path[i]];
return layer;
};
value(a, 'b.c'); // 9
value(a, 'b.c', 4);
value(a, 'b.c'); // 4
This is a lot of code when compared to the much simpler eval way of doing it, but like Simon Willison says, you should never use eval.
Also, JSFiddle.
You can use the library available at npm, which simplifies this process. https://www.npmjs.com/package/dot-object
var dot = require('dot-object');
var obj = {
some: {
nested: {
value: 'Hi there!'
}
}
};
var val = dot.pick('some.nested.value', obj);
console.log(val);
// Result: Hi there!
Note if you're already using Lodash you can use the property or get functions:
var obj = { a: { b: '1', c: '2' } };
_.property('a.b')(obj); // => 1
_.get(obj, 'a.b'); // => 1
Underscore.js also has a property function, but it doesn't support dot notation.
I have extended the elegant answer by ninjagecko so that the function handles both dotted and/or array style references, and so that an empty string causes the parent object to be returned.
Here you go:
string_to_ref = function (object, reference) {
function arr_deref(o, ref, i) { return !ref ? o : (o[ref.slice(0, i ? -1 : ref.length)]) }
function dot_deref(o, ref) { return ref.split('[').reduce(arr_deref, o); }
return !reference ? object : reference.split('.').reduce(dot_deref, object);
};
See my working jsFiddle example here: http://jsfiddle.net/sc0ttyd/q7zyd/
You can obtain value of an object member by dot notation with a single line of code:
new Function('_', 'return _.' + path)(obj);
In you case:
var obj = { a: { b: '1', c: '2' } }
var val = new Function('_', 'return _.a.b')(obj);
To make it simple you may write a function like this:
function objGet(obj, path){
return new Function('_', 'return _.' + path)(obj);
}
Explanation:
The Function constructor creates a new Function object. In JavaScript every function is actually a Function object. Syntax to create a function explicitly with Function constructor is:
new Function ([arg1[, arg2[, ...argN]],] functionBody)
where arguments(arg1 to argN) must be a string that corresponds to a valid javaScript identifier and functionBody is a string containing the javaScript statements comprising the function definition.
In our case we take the advantage of string function body to retrieve object member with dot notation.
Hope it helps.
var find = function(root, path) {
var segments = path.split('.'),
cursor = root,
target;
for (var i = 0; i < segments.length; ++i) {
target = cursor[segments[i]];
if (typeof target == "undefined") return void 0;
cursor = target;
}
return cursor;
};
var obj = { a: { b: '1', c: '2' } }
find(obj, "a.b"); // 1
var set = function (root, path, value) {
var segments = path.split('.'),
cursor = root,
target;
for (var i = 0; i < segments.length - 1; ++i) {
cursor = cursor[segments[i]] || { };
}
cursor[segments[segments.length - 1]] = value;
};
set(obj, "a.k", function () { console.log("hello world"); });
find(obj, "a.k")(); // hello world
Use this function:
function dotToObject(data) {
function index(parent, key, value) {
const [mainKey, ...children] = key.split(".");
parent[mainKey] = parent[mainKey] || {};
if (children.length === 1) {
parent[mainKey][children[0]] = value;
} else {
index(parent[mainKey], children.join("."), value);
}
}
const result = Object.entries(data).reduce((acc, [key, value]) => {
if (key.includes(".")) {
index(acc, key, value);
} else {
acc[key] = value;
}
return acc;
}, {});
return result;
}
module.exports = { dotToObject };
Ex:
const user = {
id: 1,
name: 'My name',
'address.zipCode': '123',
'address.name': 'Some name',
'address.something.id': 1,
}
const mappedUser = dotToObject(user)
console.log(JSON.stringify(mappedUser, null, 2))
Output:
{
"id": 1,
"name": "My name",
"address": {
"zipCode": "123",
"name": "Some name",
"something": {
"id": 1
}
}
}
using Array Reduce function will get/set based on path provided.
I tested it with a.b.c and a.b.2.c {a:{b:[0,1,{c:7}]}} and its works for both getting key or mutating object to set value
function setOrGet(obj, path=[], newValue){
const l = typeof path === 'string' ? path.split('.') : path;
return l.reduce((carry,item, idx)=>{
const leaf = carry[item];
// is this last item in path ? cool lets set/get value
if( l.length-idx===1) {
// mutate object if newValue is set;
carry[item] = newValue===undefined ? leaf : newValue;
// return value if its a get/object if it was a set
return newValue===undefined ? leaf : obj ;
}
carry[item] = leaf || {}; // mutate if key not an object;
return carry[item]; // return object ref: to continue reduction;
}, obj)
}
console.log(
setOrGet({a: {b:1}},'a.b') === 1 ||
'Test Case: Direct read failed'
)
console.log(
setOrGet({a: {b:1}},'a.c',22).a.c===22 ||
'Test Case: Direct set failed'
)
console.log(
setOrGet({a: {b:[1,2]}},'a.b.1',22).a.b[1]===22 ||
'Test Case: Direct set on array failed'
)
console.log(
setOrGet({a: {b:{c: {e:1} }}},'a.b.c.e',22).a.b.c. e===22 ||
'Test Case: deep get failed'
)
// failed !. Thats your homework :)
console.log(
setOrGet({a: {b:{c: {e:[1,2,3,4,5]} }}},'a.b.c.e.3 ',22)
)
my personal recommendation.
do not use such a thing unless there is no other way!
i saw many examples people use it for translations for example from json; so you see function like locale('app.homepage.welcome') . this is just bad. if you already have data in an object/json; and you know path.. then just use it directly example locale().app.homepage.welcome by changing you function to return object you get typesafe, with autocomplete, less prone to typo's ..
I copied the following from Ricardo Tomasi's answer and modified to also create sub-objects that don't yet exist as necessary. It's a little less efficient (more ifs and creating of empty objects), but should be pretty good.
Also, it'll allow us to do Object.prop(obj, 'a.b', false) where we couldn't before. Unfortunately, it still won't let us assign undefined...Not sure how to go about that one yet.
/**
* Object.prop()
*
* Allows dot-notation access to object properties for both getting and setting.
*
* #param {Object} obj The object we're getting from or setting
* #param {string} prop The dot-notated string defining the property location
* #param {mixed} val For setting only; the value to set
*/
Object.prop = function(obj, prop, val){
var props = prop.split('.'),
final = props.pop(),
p;
for (var i = 0; i < props.length; i++) {
p = props[i];
if (typeof obj[p] === 'undefined') {
// If we're setting
if (typeof val !== 'undefined') {
// If we're not at the end of the props, keep adding new empty objects
if (i != props.length)
obj[p] = {};
}
else
return undefined;
}
obj = obj[p]
}
return typeof val !== "undefined" ? (obj[final] = val) : obj[final]
}
Few years later, I found this that handles scope and array. e.g. a['b']["c"].d.etc
function getScopedObj(scope, str) {
let obj=scope, arr;
try {
arr = str.split(/[\[\]\.]/) // split by [,],.
.filter(el => el) // filter out empty one
.map(el => el.replace(/^['"]+|['"]+$/g, '')); // remove string quotation
arr.forEach(el => obj = obj[el])
} catch(e) {
obj = undefined;
}
return obj;
}
window.a = {b: {c: {d: {etc: 'success'}}}}
getScopedObj(window, `a.b.c.d.etc`) // success
getScopedObj(window, `a['b']["c"].d.etc`) // success
getScopedObj(window, `a['INVALID']["c"].d.etc`) // undefined
If you wish to convert any object that contains dot notation keys into an arrayed version of those keys you can use this.
This will convert something like
{
name: 'Andy',
brothers.0: 'Bob'
brothers.1: 'Steve'
brothers.2: 'Jack'
sisters.0: 'Sally'
}
to
{
name: 'Andy',
brothers: ['Bob', 'Steve', 'Jack']
sisters: ['Sally']
}
convertDotNotationToArray(objectWithDotNotation) {
Object.entries(objectWithDotNotation).forEach(([key, val]) => {
// Is the key of dot notation
if (key.includes('.')) {
const [name, index] = key.split('.');
// If you have not created an array version, create one
if (!objectWithDotNotation[name]) {
objectWithDotNotation[name] = new Array();
}
// Save the value in the newly created array at the specific index
objectWithDotNotation[name][index] = val;
// Delete the current dot notation key val
delete objectWithDotNotation[key];
}
});
}
If you want to convert a string dot notation into an object, I've made a handy little helper than can turn a string like a.b.c.d with a value of e with dotPathToObject("a.b.c.d", "value") returning this:
{
"a": {
"b": {
"c": {
"d": "value"
}
}
}
}
https://gist.github.com/ahallora/9731d73efb15bd3d3db647efa3389c12
Solution:
function deepFind(key, data){
return key.split('.').reduce((ob,i)=> ob?.[i], data)
}
Usage:
const obj = {
company: "Pet Shop",
person: {
name: "John"
},
animal: {
name: "Lucky"
}
}
const company = deepFind("company", obj)
const personName = deepFind("person.name", obj)
const animalName = deepFind("animal.name", obj)
Here is my implementation
Implementation 1
Object.prototype.access = function() {
var ele = this[arguments[0]];
if(arguments.length === 1) return ele;
return ele.access.apply(ele, [].slice.call(arguments, 1));
}
Implementation 2 (using array reduce instead of slice)
Object.prototype.access = function() {
var self = this;
return [].reduce.call(arguments,function(prev,cur) {
return prev[cur];
}, self);
}
Examples:
var myobj = {'a':{'b':{'c':{'d':'abcd','e':[11,22,33]}}}};
myobj.access('a','b','c'); // returns: {'d':'abcd', e:[0,1,2,3]}
myobj.a.b.access('c','d'); // returns: 'abcd'
myobj.access('a','b','c','e',0); // returns: 11
it can also handle objects inside arrays as for
var myobj2 = {'a': {'b':[{'c':'ab0c'},{'d':'ab1d'}]}}
myobj2.access('a','b','1','d'); // returns: 'ab1d'
I used this code in my project
const getValue = (obj, arrPath) => (
arrPath.reduce((x, y) => {
if (y in x) return x[y]
return {}
}, obj)
)
Usage:
const obj = { id: { user: { local: 104 } } }
const path = [ 'id', 'user', 'local' ]
getValue(obj, path) // return 104
Using object-scan seems a bit overkill, but you can simply do
// const objectScan = require('object-scan');
const get = (obj, p) => objectScan([p], { abort: true, rtn: 'value' })(obj);
const obj = { a: { b: '1', c: '2' } };
console.log(get(obj, 'a.b'));
// => 1
console.log(get(obj, '*.c'));
// => 2
.as-console-wrapper {max-height: 100% !important; top: 0}
<script src="https://bundle.run/object-scan#13.7.1"></script>
Disclaimer: I'm the author of object-scan
There are a lot more advanced examples in the readme.
This is one of those cases, where you ask 10 developers and you get 10 answers.
Below is my [simplified] solution for OP, using dynamic programming.
The idea is that you would pass an existing DTO object that you wish to UPDATE. This makes the method most useful in the case where you have a form with several input elements having name attributes set with dot (fluent) syntax.
Example use:
<input type="text" name="person.contact.firstName" />
Code snippet:
const setFluently = (obj, path, value) => {
if (typeof path === "string") {
return setFluently(obj, path.split("."), value);
}
if (path.length <= 1) {
obj[path[0]] = value;
return obj;
}
const key = path[0];
obj[key] = setFluently(obj[key] ? obj[key] : {}, path.slice(1), value);
return obj;
};
const origObj = {
a: {
b: "1",
c: "2"
}
};
setFluently(origObj, "a.b", "3");
setFluently(origObj, "a.c", "4");
console.log(JSON.stringify(origObj, null, 3));
function at(obj, path, val = undefined) {
// If path is an Array,
if (Array.isArray(path)) {
// it returns the mapped array for each result of the path
return path.map((path) => at(obj, path, val));
}
// Uniting several RegExps into one
const rx = new RegExp(
[
/(?:^(?:\.\s*)?([_a-zA-Z][_a-zA-Z0-9]*))/,
/(?:^\[\s*(\d+)\s*\])/,
/(?:^\[\s*'([^']*(?:\\'[^']*)*)'\s*\])/,
/(?:^\[\s*"([^"]*(?:\\"[^"]*)*)"\s*\])/,
/(?:^\[\s*`([^`]*(?:\\`[^`]*)*)`\s*\])/,
]
.map((r) => r.source)
.join("|")
);
let rm;
while (rm = rx.exec(path.trim())) {
// Matched resource
let [rf, rp] = rm.filter(Boolean);
// If no one matches found,
if (!rm[1] && !rm[2]) {
// it will replace escape-chars
rp = rp.replace(/\\(.)/g, "$1");
}
// If the new value is set,
if ("undefined" != typeof val && path.length == rf.length) {
// assign a value to the object property and return it
return (obj[rp] = val);
}
// Going one step deeper
obj = obj[rp];
// Removing a step from the path
path = path.substr(rf.length).trim();
}
if (path) {
throw new SyntaxError();
}
return obj;
}
// Test object schema
let o = { a: { b: [ [ { c: { d: { '"e"': { f: { g: "xxx" } } } } } ] ] } };
// Print source object
console.log(JSON.stringify(o));
// Set value
console.log(at(o, '.a["b"][0][0].c[`d`]["\\"e\\""][\'f\']["g"]', "zzz"));
// Get value
console.log(at(o, '.a["b"][0][0].c[`d`]["\\"e\\""][\'f\']["g"]'));
// Print result object
console.log(JSON.stringify(o));
Here is my code without using eval. It’s easy to understand too.
function value(obj, props) {
if (!props)
return obj;
var propsArr = props.split('.');
var prop = propsArr.splice(0, 1);
return value(obj[prop], propsArr.join('.'));
}
var obj = { a: { b: '1', c: '2', d:{a:{b:'blah'}}}};
console.log(value(obj, 'a.d.a.b')); // Returns blah
Yes, extending base prototypes is not usually good idea but, if you keep all extensions in one place, they might be useful.
So, here is my way to do this.
Object.defineProperty(Object.prototype, "getNestedProperty", {
value : function (propertyName) {
var result = this;
var arr = propertyName.split(".");
while (arr.length && result) {
result = result[arr.shift()];
}
return result;
},
enumerable: false
});
Now you will be able to get nested property everywhere without importing module with function or copy/pasting function.
Example:
{a:{b:11}}.getNestedProperty('a.b'); // Returns 11
The Next.js extension broke Mongoose in my project. Also I've read that it might break jQuery. So, never do it in the Next.js way:
Object.prototype.getNestedProperty = function (propertyName) {
var result = this;
var arr = propertyName.split(".");
while (arr.length && result) {
result = result[arr.shift()];
}
return result;
};
This is my extended solution proposed by ninjagecko.
For me, simple string notation was not enough, so the below version supports things like:
index(obj, 'data.accounts[0].address[0].postcode');
/**
* Get object by index
* #supported
* - arrays supported
* - array indexes supported
* #not-supported
* - multiple arrays
* #issues:
* index(myAccount, 'accounts[0].address[0].id') - works fine
* index(myAccount, 'accounts[].address[0].id') - doesnt work
* #Example:
* index(obj, 'data.accounts[].id') => returns array of id's
* index(obj, 'data.accounts[0].id') => returns id of 0 element from array
* index(obj, 'data.accounts[0].addresses.list[0].id') => error
* #param obj
* #param path
* #returns {any}
*/
var index = function(obj, path, isArray?, arrIndex?){
// is an array
if(typeof isArray === 'undefined') isArray = false;
// array index,
// if null, will take all indexes
if(typeof arrIndex === 'undefined') arrIndex = null;
var _arrIndex = null;
var reduceArrayTag = function(i, subArrIndex){
return i.replace(/(\[)([\d]{0,})(\])/, (i) => {
var tmp = i.match(/(\[)([\d]{0,})(\])/);
isArray = true;
if(subArrIndex){
_arrIndex = (tmp[2] !== '') ? tmp[2] : null;
}else{
arrIndex = (tmp[2] !== '') ? tmp[2] : null;
}
return '';
});
}
function byIndex(obj, i) {
// if is an array
if(isArray){
isArray = false;
i = reduceArrayTag(i, true);
// if array index is null,
// return an array of with values from every index
if(!arrIndex){
var arrValues = [];
_.forEach(obj, (el) => {
arrValues.push(index(el, i, isArray, arrIndex));
})
return arrValues;
}
// if array index is specified
var value = obj[arrIndex][i];
if(isArray){
arrIndex = _arrIndex;
}else{
arrIndex = null;
}
return value;
}else{
// remove [] from notation,
// if [] has been removed, check the index of array
i = reduceArrayTag(i, false);
return obj[i]
}
}
// reduce with the byIndex method
return path.split('.').reduce(byIndex, obj)
}
I have a JS object I would like to save in Local Storage for future use, and I cannot parse it to a string.
Code:
JSON.stringify({
a: 5,
b: function (param) {
return param;
}
})
Result:
"{"a":5}"
How do I save it for future use, if not with JSON?
(And creating my own Lexer-Parser to interupt string function I dont think is an option)
I'd recommend this approach:
Store arguments and the body in your json:
{"function":{"arguments":"a,b,c","body":"return a*b+c;"}}
Now parse json and instantiate the function:
var f = new Function(function.arguments, function.body);
I think it's save
Usually a question like this indicates an X/Y problem: You need to do X, you think Y will help you do that, so you try to do Y, can't, and ask how to do Y. It would frequently be more useful to ask how to do X instead.
But answering the question asked: You could use replacer and reviver functions to convert the function to a string (during stringify) and back into a function (during parse) to store a string version of the function, but there are all sorts of issues with doing that, not least that the scope in which the function is defined may well matter to the function. (It doesn't matter to the function you've shown in the question, but I assume that's not really representative.) And converting a string from local storage into code you may run means that you are trusting that the local storage content hasn't been corrupted in a malicious way. Granted it's not likely unless the page is already vulnerable to XSS attacks, but it's an issue to keep in mind.
Here's an example, but I don't recommend it unless other options have been exhausted, not least because it uses eval, which (like its close cousin new Function)) can be a vector for malicious code:
// The object
var obj = {
a: 5,
b: function (param) {
return param;
}
};
// Convert to JSON using a replacer function to output
// the string version of a function with /Function(
// in front and )/ at the end.
var json = JSON.stringify(obj, function(key, value) {
if (typeof value === "function") {
return "/Function(" + value.toString() + ")/";
}
return value;
});
// Convert to an object using a reviver function that
// recognizes the /Function(...)/ value and converts it
// into a function via -shudder- `eval`.
var obj2 = JSON.parse(json, function(key, value) {
if (typeof value === "string" &&
value.startsWith("/Function(") &&
value.endsWith(")/")) {
value = value.substring(10, value.length - 2);
return (0, eval)("(" + value + ")");
}
return value;
});
document.body.innerHTML = obj2.b(42);
The construct (0, eval)("(" + value + ")"); ensures that eval runs at global scope rather than within the scope of the reviver function. Normally eval has a magic ability to use the scope you call it in, but that only works when you call it directly. Indirect eval as shown (or just var e = eval; e("(" + value + ")");) doesn't have that magic ability, it runs at global scope.
You can't store functions in JSON.
The value in JSON may contain only string, number, object, array, true, false or null:
Check out it on JSON site.
One simple way of doing this is
var dstr = JSON.stringify( { a: 5
, b: x => x
}
, (k,v) => typeof v === "function" ? "" + v : v
);
I've taken to storing the function name, along with the parameter values, in an array, with the first item in the array being the function name prepended with a $, to separate them from normal arrays.
{
"object": {
"your-function": ["$functionName", "param-1", "param-2"],
"color": ["$getColor", "brand", "brand-2"],
"normal-array": ["normal", "array"]
...
}
}
In the above example I have Sass and JS functions to retrieve color values from a global map/object. Parsing the function in this manner naturally requires custom code, but in terms of "storing" functions in JSON, I like this way of doing it.
I have created JSON.parseIt() and JSON.stringifyIt() functions based on the first answer without using eval
JSON.stringifyIt = (obj)=>{
return(
JSON.stringify(obj, function(key, value) {
if (typeof value === "function") {
return "/Function(" + value.toString() + ")/";
}
if(typeof value === "string"){
return "/String(" + value.toString() + ")/"
}
return value;
})
)
}
JSON.parseIt=(json)=>{
return(
JSON.parse(json, function(key, value) {
if (typeof value === "string" &&
value.startsWith("/Function(") &&
value.endsWith(")/")) {
value = value.substring(10, value.length - 2);
var string = value.slice(value.indexOf("(") + 1, value.indexOf(")"));
if(/\S+/g.test(string)){
return (new Function(string,value.slice(value.indexOf("{") + 1, value.lastIndexOf("}"))))
}else{
return (new Function(value.slice(value.indexOf("{") + 1, value.lastIndexOf("}"))));
}
}
if (typeof value === "string" &&
value.startsWith("/String(") &&
value.endsWith(")/")){
value = value.substring(8, value.length - 2);
}
return value;
})
)
}
// DEMO
var obj = {
string:"a string",
number:10,
func:()=>{
console.log("this is a string from a parsed json function");
},
secFunc:(none,ntwo)=>{console.log(none + ntwo)} ,
confuse:"/Function(hello)/"
}
const stringifiedObj = JSON.stringifyIt(obj);
console.log("the stringified object is: ",stringifiedObj);
const parsedObj = JSON.parseIt(stringifiedObj);
// console.log("the parsed object is: ",parsedObj);
console.log(parsedObj.string);
console.log(parsedObj.number);
console.log(parsedObj.confuse);
parsedObj.func();
parsedObj.secFunc(5,6);
The problems I fixed were
Removed eval.
there was a problem in the stringifying and parsing that if I give a string like
"/Function(hello)/" will be a function when parsed
Made it to two functions
Added parameter insertation
For someone that still need include, for whatever reason, the function definition in JSON, this code can help (but can be slow depending object size):
function Object2JsonWithFunctions(o, space = null) {
var functionList = {}
var fnSeq = 0;
var snrepl = function(k,v){
if(typeof v === 'function'){
fnSeq++;
var funcName = `___fun${fnSeq}___`;
var funcText = ''+v;
functionList[funcName] = funcText
return funcName;
}
return v;
}
var RawJson = JSON.stringify(o, snrepl, space);
for(func in functionList){
var PropValue = `"${func}"`;
RawJson = RawJson.replace(PropValue, functionList[func])
}
return RawJson;}
The code will do the normal convert to JSON.
For functions, the original stringify will return as "prop":"function()..." (function as a string)... The code above will create a placeholder (e.g: "prop":"fn1") and create a function list... After, will replace every placeholder to original function body...