I have a nested data structure containing objects and arrays. How can I extract the information, i.e. access a specific or multiple values (or keys)?
For example:
var data = {
code: 42,
items: [{
id: 1,
name: 'foo'
}, {
id: 2,
name: 'bar'
}]
};
How could I access the name
of the second item in items
?
Preliminaries
JavaScript has only one data type which can contain multiple values: Object. An Array is a special form of object.
(Plain) Objects have the form
{key: value, key: value, ...}
Arrays have the form
[value, value, ...]
Both arrays and objects expose a key -> value
structure. Keys in an array must be numeric, whereas any string can be used as key in objects. The key-value pairs are also called the "properties".
Properties can be accessed either using dot notation
const value = obj.someProperty;
or bracket notation, if the property name would not be a valid JavaScript identifier name [spec], or the name is the value of a variable:
// the space is not a valid character in identifier names
const value = obj["some Property"];
// property name as variable
const name = "some Property";
const value = obj[name];
For that reason, array elements can only be accessed using bracket notation:
const value = arr[5]; // arr.5 would be a syntax error
// property name / index as variable
const x = 5;
const value = arr[x];
Wait... what about JSON?
JSON is a textual representation of data, just like XML, YAML, CSV, and others. To work with such data, it first has to be converted to JavaScript data types, i.e. arrays and objects (and how to work with those was just explained). How to parse JSON is explained in the question Parse JSON in JavaScript? .
Further reading material
How to access arrays and objects is fundamental JavaScript knowledge and therefore it is advisable to read the MDN JavaScript Guide, especially the sections
Working with Objects
Arrays
Eloquent JavaScript - Data Structures
Accessing nested data structures
A nested data structure is an array or object which refers to other arrays or objects, i.e. its values are arrays or objects. Such structures can be accessed by consecutively applying dot or bracket notation.
Here is an example:
const data = {
code: 42,
items: [{
id: 1,
name: 'foo'
}, {
id: 2,
name: 'bar'
}]
};
Let's assume we want to access the name
of the second item.
Here is how we can do it step-by-step:
As we can see data
is an object, hence we can access its properties using dot notation. The items
property is accessed as follows:
data.items
The value is an array, to access its second element, we have to use bracket notation:
data.items[1]
This value is an object and we use dot notation again to access the name
property. So we eventually get:
const item_name = data.items[1].name;
Alternatively, we could have used bracket notation for any of the properties, especially if the name contained characters that would have made it invalid for dot notation usage:
const item_name = data['items'][1]['name'];
I'm trying to access a property but I get only undefined back?
Most of the time when you are getting undefined
, the object/array simply doesn't have a property with that name.
const foo = {bar: {baz: 42}};
console.log(foo.baz); // undefined
Use console.log
or console.dir
and inspect the structure of object / array. The property you are trying to access might be actually defined on a nested object / array.
console.log(foo.bar.baz); // 42
What if the property names are dynamic and I don't know them beforehand?
If the property names are unknown or we want to access all properties of an object / elements of an array, we can use the for...in
[MDN] loop for objects and the for
[MDN] loop for arrays to iterate over all properties / elements.
Objects
To iterate over all properties of data
, we can iterate over the object like so:
for (const prop in data) {
// `prop` contains the name of each property, i.e. `'code'` or `'items'`
// consequently, `data[prop]` refers to the value of each property, i.e.
// either `42` or the array
}
Depending on where the object comes from (and what you want to do), you might have to test in each iteration whether the property is really a property of the object, or it is an inherited property. You can do this with Object#hasOwnProperty
[MDN].
As alternative to for...in
with hasOwnProperty
, you can use Object.keys
[MDN] to get an array of property names:
Object.keys(data).forEach(function(prop) {
// `prop` is the property name
// `data[prop]` is the property value
});
Arrays
To iterate over all elements of the data.items
array, we use a for
loop:
for(let i = 0, l = data.items.length; i < l; i++) {
// `i` will take on the values `0`, `1`, `2`,..., i.e. in each iteration
// we can access the next element in the array with `data.items[i]`, example:
//
// var obj = data.items[i];
//
// Since each element is an object (in our example),
// we can now access the objects properties with `obj.id` and `obj.name`.
// We could also use `data.items[i].id`.
}
One could also use for...in
to iterate over arrays, but there are reasons why this should be avoided: Why is 'for(var item in list)' with arrays considered bad practice in JavaScript?.
With the increasing browser support of ECMAScript 5, the array method forEach
[MDN] becomes an interesting alternative as well:
data.items.forEach(function(value, index, array) {
// The callback is executed for each element in the array.
// `value` is the element itself (equivalent to `array[index]`)
// `index` will be the index of the element in the array
// `array` is a reference to the array itself (i.e. `data.items` in this case)
});
In environments supporting ES2015 (ES6), you can also use the for...of
[MDN] loop, which not only works for arrays, but for any iterable:
for (const item of data.items) {
// `item` is the array element, **not** the index
}
In each iteration, for...of
directly gives us the next element of the iterable, there is no "index" to access or use.
What if the "depth" of the data structure is unknown to me?
In addition to unknown keys, the "depth" of the data structure (i.e. how many nested objects) it has, might be unknown as well. How to access deeply nested properties usually depends on the exact data structure.
But if the data structure contains repeating patterns, e.g. the representation of a binary tree, the solution typically includes to recursively [Wikipedia] access each level of the data structure.
Here is an example to get the first leaf node of a binary tree:
function getLeaf(node) {
if (node.leftChild) {
return getLeaf(node.leftChild); // <- recursive call
}
else if (node.rightChild) {
return getLeaf(node.rightChild); // <- recursive call
}
else { // node must be a leaf node
return node;
}
}
const first_leaf = getLeaf(root);
const root = { leftChild: { leftChild: { leftChild: null, rightChild: null, data: 42 }, rightChild: { leftChild: null, rightChild: null, data: 5 } }, rightChild: { leftChild: { leftChild: null, rightChild: null, data: 6 }, rightChild: { leftChild: null, rightChild: null, data: 7 } } }; function getLeaf(node) { if (node.leftChild) { return getLeaf(node.leftChild); } else if (node.rightChild) { return getLeaf(node.rightChild); } else { // node must be a leaf node return node; } } console.log(getLeaf(root).data);
A more generic way to access a nested data structure with unknown keys and depth is to test the type of the value and act accordingly.
Here is an example which adds all primitive values inside a nested data structure into an array (assuming it does not contain any functions). If we encounter an object (or array) we simply call toArray
again on that value (recursive call).
function toArray(obj) {
const result = [];
for (const prop in obj) {
const value = obj[prop];
if (typeof value === 'object') {
result.push(toArray(value)); // <- recursive call
}
else {
result.push(value);
}
}
return result;
}
const data = { code: 42, items: [{ id: 1, name: 'foo' }, { id: 2, name: 'bar' }] }; function toArray(obj) { const result = []; for (const prop in obj) { const value = obj[prop]; if (typeof value === 'object') { result.push(toArray(value)); } else { result.push(value); } } return result; } console.log(toArray(data));
Helpers
Since the structure of a complex object or array is not necessarily obvious, we can inspect the value at each step to decide how to move further. console.log
[MDN] and console.dir
[MDN] help us doing this. For example (output of the Chrome console):
> console.log(data.items)
[ Object, Object ]
Here we see that that data.items
is an array with two elements which are both objects. In Chrome console the objects can even be expanded and inspected immediately.
> console.log(data.items[1])
Object
id: 2
name: "bar"
__proto__: Object
This tells us that data.items[1]
is an object, and after expanding it we see that it has three properties, id
, name
and __proto__
. The latter is an internal property used for the prototype chain of the object. The prototype chain and inheritance is out of scope for this answer, though.
You can access it this way
data.items[1].name
or
data["items"][1]["name"]
Both ways are equal.
Objects and arrays has a lot of built-in methods that can help you with processing data.
Note: in many of the examples I'm using arrow functions. They are similar to function expressions, but they bind the this
value lexically.
Object.keys(), Object.values() (ES 2017) and Object.entries() (ES 2017)
Object.keys()
returns an array of object's keys, Object.values()
returns an array of object's values, and Object.entries()
returns an array of object's keys and corresponding values in a format [key, value]
.
const obj = { a: 1 ,b: 2 ,c: 3 } console.log(Object.keys(obj)) // ['a', 'b', 'c'] console.log(Object.values(obj)) // [1, 2, 3] console.log(Object.entries(obj)) // [['a', 1], ['b', 2], ['c', 3]]
Object.entries() with a for-of loop and destructuring assignment
const obj = { a: 1 ,b: 2 ,c: 3 } for (const [key, value] of Object.entries(obj)) { console.log(`key: ${key}, value: ${value}`) }
It's very convenient to iterate the result of Object.entries()
with a for-of loop and destructuring assignment.
For-of loop lets you iterate array elements. The syntax is for (const element of array)
(we can replace const
with var
or let
, but it's better to use const
if we don't intend to modify element
).
Destructuring assignment lets you extract values from an array or an object and assign them to variables. In this case const [key, value]
means that instead of assigning the [key, value]
array to element
, we assign the first element of that array to key
and the second element to value
. It is equivalent to this:
for (const element of Object.entries(obj)) {
const key = element[0]
,value = element[1]
}
As you can see, destructuring makes this a lot simpler.
Array.prototype.every() and Array.prototype.some()
The every()
method returns true
if the specified callback function returns true
for every element of the array. The some()
method returns true
if the specified callback function returns true
for some (at least one) element.
const arr = [1, 2, 3] // true, because every element is greater than 0 console.log(arr.every(x => x > 0)) // false, because 3^2 is greater than 5 console.log(arr.every(x => Math.pow(x, 2) < 5)) // true, because 2 is even (the remainder from dividing by 2 is 0) console.log(arr.some(x => x % 2 === 0)) // false, because none of the elements is equal to 5 console.log(arr.some(x => x === 5))
Array.prototype.find() and Array.prototype.filter()
The find()
methods returns the first element which satisfies the provided callback function. The filter()
method returns an array of all elements which satisfies the provided callback function.
const arr = [1, 2, 3] // 2, because 2^2 !== 2 console.log(arr.find(x => x !== Math.pow(x, 2))) // 1, because it's the first element console.log(arr.find(x => true)) // undefined, because none of the elements equals 7 console.log(arr.find(x => x === 7)) // [2, 3], because these elements are greater than 1 console.log(arr.filter(x => x > 1)) // [1, 2, 3], because the function returns true for all elements console.log(arr.filter(x => true)) // [], because none of the elements equals neither 6 nor 7 console.log(arr.filter(x => x === 6 || x === 7))
Array.prototype.map()
The map()
method returns an array with the results of calling a provided callback function on the array elements.
const arr = [1, 2, 3] console.log(arr.map(x => x + 1)) // [2, 3, 4] console.log(arr.map(x => String.fromCharCode(96 + x))) // ['a', 'b', 'c'] console.log(arr.map(x => x)) // [1, 2, 3] (no-op) console.log(arr.map(x => Math.pow(x, 2))) // [1, 4, 9] console.log(arr.map(String)) // ['1', '2', '3']
Array.prototype.reduce()
The reduce()
method reduces an array to a single value by calling the provided callback function with two elements.
const arr = [1, 2, 3] // Sum of array elements. console.log(arr.reduce((a, b) => a + b)) // 6 // The largest number in the array. console.log(arr.reduce((a, b) => a > b ? a : b)) // 3
The reduce()
method takes an optional second parameter, which is the initial value. This is useful when the array on which you call reduce()
can has zero or one elements. For example, if we wanted to create a function sum()
which takes an array as an argument and returns the sum of all elements, we could write it like that:
const sum = arr => arr.reduce((a, b) => a + b, 0) console.log(sum([])) // 0 console.log(sum([4])) // 4 console.log(sum([2, 5])) // 7
Object.keys(data["items"]).forEach(function(key) { console.log(data["items"][key].id); console.log(data["items"][key].name); });
In case you're trying to access an item
from the example structure by id
or name
, without knowing it's position in the array, the easiest way to do it would be to use underscore.js library:
var data = {
code: 42,
items: [{
id: 1,
name: 'foo'
}, {
id: 2,
name: 'bar'
}]
};
_.find(data.items, function(item) {
return item.id === 2;
});
// Object {id: 2, name: "bar"}
From my experience, using higher order functions instead of for
or for..in
loops results in code that is easier to reason about, and hence more maintainable.
Just my 2 cents.
At times, accessing a nested object using a string can be desirable. The simple approach is the first level, for example
var obj = { hello: "world" };
var key = "hello";
alert(obj[key]);//world
But this is often not the case with complex json. As json becomes more complex, the approaches for finding values inside of the json also become complex. A recursive approach for navigating the json is best, and how that recursion is leveraged will depend on the type of data being searched for. If there are conditional statements involved, a json search can be a good tool to use.
If the property being accessed is already known, but the path is complex, for example in this object
var obj = {
arr: [
{ id: 1, name: "larry" },
{ id: 2, name: "curly" },
{ id: 3, name: "moe" }
]
};
And you know you want to get the first result of the array in the object, perhaps you would like to use
var moe = obj["arr[0].name"];
However, that will cause an exception as there is no property of object with that name. The solution to be able to use this would be to flatten the tree aspect of the object. This can be done recursively.
function flatten(obj){
var root = {};
(function tree(obj, index){
var suffix = toString.call(obj) == "[object Array]" ? "]" : "";
for(var key in obj){
if(!obj.hasOwnProperty(key))continue;
root[index+key+suffix] = obj[key];
if( toString.call(obj[key]) == "[object Array]" )tree(obj[key],index+key+suffix+"[");
if( toString.call(obj[key]) == "[object Object]" )tree(obj[key],index+key+suffix+".");
}
})(obj,"");
return root;
}
Now, the complex object can be flattened
var obj = previous definition;
var flat = flatten(obj);
var moe = flat["arr[0].name"];//moe
Here is a jsFiddle Demo
of this approach being used.
To access a nested attribute, you need to specify its name and then search through the object.
If you already know the exact path, then you can hardcode it in your script like so:
data['items'][1]['name']
these also work -
data.items[1].name
data['items'][1].name
data.items[1]['name']
When you don't know the exact name before hand, or a user is the one who provides the name for you. Then dynamically searching through the data structure is required. Some suggested here that the search can be done using a for
loop, but there is a very simple way to traverse a path using Array.reduce
.
const data = { code: 42, items: [{ id: 1, name: 'foo' }, { id: 2, name: 'bar' }] }
const path = [ 'items', '1', 'name']
let result = path.reduce((a,v) => a[v], data)
The path is a way to say: First take the object with key items
, which happens to be an array. Then take the 1
-st element (0 index arrays). Last take the object with key name
in that array element, which happens to be the string bar
.
If you have a very long path, you might even use String.split
to make all of this easier -
'items.1.name'.split('.').reduce((a,v) => a[v], data)
This is just plain JavaScript, without using any third party libraries like jQuery or lodash.
It's simple explanation:
var data = { code: 42, items: [{ id: 1, name: 'foo' }, { id: 2, name: 'bar' }] }; /* 1. `data` is object contain `items` object*/ console.log(data); /* 2. `items` object contain array of two objects as elements*/ console.log(data.items); /* 3. you need 2nd element of array - the `1` from `[0, 1]`*/ console.log(data.items[1]); /* 4. and you need value of `name` property of 2nd object-element of array)*/ console.log(data.items[1].name);
Here are 4 different methods mentioned to get the javascript object property:
var data = { code: 42, items: [{ id: 1, name: 'foo' }, { id: 2, name: 'bar' }] }; // Method 1 let method1 = data.items[1].name; console.log(method1); // Method 2 let method2 = data.items[1]["name"]; console.log(method2); // Method 3 let method3 = data["items"][1]["name"]; console.log(method3); // Method 4 Destructuring let { items: [, { name: second_name }] } = data; console.log(second_name);
This question is quite old, so as a contemporary update. With the onset of ES2015 there are alternatives to get a hold of the data you require. There is now a feature called object destructuring for accessing nested objects.
const data = { code: 42, items: [{ id: 1, name: 'foo' }, { id: 2, name: 'bar' }] }; const { items: [, { name: secondName }] } = data; console.log(secondName);
The above example creates a variable called secondName
from the name
key from an array called items
, the lonely ,
says skip the first object in the array.
Notably it's probably overkill for this example, as simple array acccess is easier to read, but it comes in useful when breaking apart objects in general.
This is very brief intro to your specific use case, destructuring can be an unusual syntax to get used to at first. I'd recommend reading Mozilla's Destructuring Assignment documentation to learn more.
You could use lodash _get
function:
var object = { 'a': [{ 'b': { 'c': 3 } }] };
_.get(object, 'a[0].b.c');
// => 3
var ourStorage = {
"desk": {
"drawer": "stapler"
},
"cabinet": {
"top drawer": {
"folder1": "a file",
"folder2": "secrets"
},
"bottom drawer": "soda"
}
};
ourStorage.cabinet["top drawer"].folder2; // Outputs -> "secrets"
or
//parent.subParent.subsubParent["almost there"]["final property"]
Basically, use a dot between each descendant that unfolds underneath it and when you have object names made out of two strings, you must use the ["obj Name"] notation. Otherwise, just a dot would suffice;
to add to this, accessing nested Arrays would happen like so:
var ourPets = [
{
animalType: "cat",
names: [
"Meowzer",
"Fluffy",
"Kit-Cat"
]
},
{
animalType: "dog",
names: [
"Spot",
"Bowser",
"Frankie"
]
}
];
ourPets[0].names[1]; // Outputs "Fluffy"
ourPets[1].names[0]; // Outputs "Spot"
Another more useful document depicting the situation above: https://developer.mozilla.org/en-US/docs/Learn/JavaScript/Objects/Basics#Bracket_notation
Property access via dot walking: https://developer.mozilla.org/en-US/docs/Web/JavaScript/Reference/Operators/Property_Accessors#Dot_notation
Just in case, anyone's visiting this question in 2017 or later and looking for an easy-to-remember way, here's an elaborate blog post on Accessing Nested Objects in JavaScript without being bamboozled by
Cannot read property 'foo' of undefined error
1. Oliver Steele's nested object access pattern
The easiest and the cleanest way is to use Oliver Steele's nested object access pattern
const name = ((user || {}).personalInfo || {}).name;
With this notation, you'll never run into
Cannot read property 'name' of undefined.
You basically check if user exists, if not, you create an empty object on the fly. This way, the next level key will always be accessed from an object that exists or an empty object, but never from undefined.
2. Access Nested Objects Using Array Reduce
To be able to access nested arrays, you can write your own array reduce util.
const getNestedObject = (nestedObj, pathArr) => {
return pathArr.reduce((obj, key) =>
(obj && obj[key] !== 'undefined') ? obj[key] : undefined, nestedObj);
}
// pass in your object structure as array elements
const name = getNestedObject(user, ['personalInfo', 'name']);
// to access nested array, just pass in array index as an element the path array.
const city = getNestedObject(user, ['personalInfo', 'addresses', 0, 'city']);
// this will return the city from the first address item.
There is also an excellent type handling minimal library typy that does all this for you.
((user || {}).address || new Array(3))[1].name
...[1].bar
would result in an error if the element 1
didn't exist. But that's also the case for ....foo.bar
if foo
didn't exist. You have to "guard" accessing 1
as well, just like you "guard" any other property access. An array is just an object. An "array element" is just a property. Correctly applied it would be (((user || {}).address || {})[1] || {}).name
.
Accessing dynamically multi levels object.
var obj = {
name: "john doe",
subobj: {
subsubobj: {
names: "I am sub sub obj"
}
}
};
var level = "subobj.subsubobj.names";
level = level.split(".");
var currentObjState = obj;
for (var i = 0; i < level.length; i++) {
currentObjState = currentObjState[level[i]];
}
console.log(currentObjState);
Working fiddle: https://jsfiddle.net/andreitodorut/3mws3kjL/
Using JSONPath would be one of the most flexible solutions if you are willing to include a library: https://github.com/s3u/JSONPath (node and browser)
For your use case the json path would be:
$..items[1].name
so:
var secondName = jsonPath.eval(data, "$..items[1].name");
I prefer JQuery. It's cleaner and easy to read.
$.each($.parseJSON(data), function (key, value) {
alert(value.<propertyname>);
});
If you are looking for one or more objects that meets certain criteria you have a few options using query-js
//will return all elements with an id larger than 1
data.items.where(function(e){return e.id > 1;});
//will return the first element with an id larger than 1
data.items.first(function(e){return e.id > 1;});
//will return the first element with an id larger than 1
//or the second argument if non are found
data.items.first(function(e){return e.id > 1;},{id:-1,name:""});
There's also a single
and a singleOrDefault
they work much like first
and firstOrDefault
respectively. The only difference is that they will throw if more than one match is found.
for further explanation of query-js you can start with this post
The Underscore js Way
Which is a JavaScript library that provides a whole mess of useful functional programming
helpers without extending any built-in objects.
Solution:
var data = {
code: 42,
items: [{
id: 1,
name: 'foo'
}, {
id: 2,
name: 'bar'
}]
};
var item = _.findWhere(data.items, {
id: 2
});
if (!_.isUndefined(item)) {
console.log('NAME =>', item.name);
}
//using find -
var item = _.find(data.items, function(item) {
return item.id === 2;
});
if (!_.isUndefined(item)) {
console.log('NAME =>', item.name);
}
Old question but as nobody mentioned lodash (just underscore).
In case you are already using lodash in your project, I think an elegant way to do this in a complex example:
Opt 1
_.get(response, ['output', 'fund', 'data', '0', 'children', '0', 'group', 'myValue'], '')
same as:
Opt 2
response.output.fund.data[0].children[0].group.myValue
The difference between the first and second option is that in the Opt 1 if you have one of the properties missing (undefined) in the path you don't get an error, it returns you the third parameter.
For array filter lodash has _.find()
but I'd rather use the regular filter()
. But I still think the above method _.get()
is super useful when working with really complex data. I faced in the past really complex APIs and it was handy!
I hope it can be useful for who's looking for options to manipulate really complex data which the title implies.
I don't think questioner just only concern one level nested object, so I present the following demo to demonstrate how to access the node of deeply nested json object. All right, let's find the node with id '5'.
var data = { code: 42, items: [{ id: 1, name: 'aaa', items: [{ id: 3, name: 'ccc' }, { id: 4, name: 'ddd' }] }, { id: 2, name: 'bbb', items: [{ id: 5, name: 'eee' }, { id: 6, name: 'fff' }] }] }; var jsonloop = new JSONLoop(data, 'id', 'items'); jsonloop.findNodeById(data, 5, function(err, node) { if (err) { document.write(err); } else { document.write(JSON.stringify(node, null, 2)); } });
In 2020, you can use @babel/plugin-proposal-optional-chaining it is very easy to access nested values in an object.
const obj = {
foo: {
bar: {
baz: class {
},
},
},
};
const baz = new obj?.foo?.bar?.baz(); // baz instance
const safe = new obj?.qux?.baz(); // undefined
const safe2 = new obj?.foo.bar.qux?.(); // undefined
https://babeljs.io/docs/en/babel-plugin-proposal-optional-chaining
https://github.com/tc39/proposal-optional-chaining
Dynamic approach
In below deep(data,key)
function, you can use arbitrary key
string - in your case items[1].name
(you can use array notation [i]
at any level) - if key is invalid then undefined is return.
let deep = (o,k) => k.split('.').reduce((a,c,i) => { let m=c.match(/(.*?)\[(\d*)\]/); if(m && a!=null && a[m[1]]!=null) return a[m[1]][+m[2]]; return a==null ? a: a[c]; },o); // TEST let key = 'items[1].name' // arbitrary deep-key let data = { code: 42, items: [{ id: 11, name: 'foo'}, { id: 22, name: 'bar'},] }; console.log( key,'=', deep(data,key) );
jQuery's grep function lets you filter through an array:
var data = { code: 42, items: [{ id: 1, name: 'foo' }, { id: 2, name: 'bar' }] }; $.grep(data.items, function(item) { if (item.id === 2) { console.log(item.id); //console id of item console.log(item.name); //console name of item console.log(item); //console item object return item; //returns item object } }); // Object {id: 2, name: "bar"}
You can use the syntax jsonObject.key
to access the the value. And if you want access a value from an array, then you can use the syntax jsonObjectArray[index].key
.
Here are the code examples to access various values to give you the idea.
var data = { code: 42, items: [{ id: 1, name: 'foo' }, { id: 2, name: 'bar' }] }; // if you want 'bar' console.log(data.items[1].name); // if you want array of item names console.log(data.items.map(x => x.name)); // get the id of the item where name = 'bar' console.log(data.items.filter(x => (x.name == "bar") ? x.id : null)[0].id);
// const path = 'info.value[0].item'
// const obj = { info: { value: [ { item: 'it works!' } ], randominfo: 3 } }
// getValue(path, obj)
export const getValue = ( path , obj) => {
const newPath = path.replace(/\]/g, "")
const arrayPath = newPath.split(/[\[\.]+/) || newPath;
const final = arrayPath.reduce( (obj, k) => obj ? obj[k] : obj, obj)
return final;
}
Here is an answer using object-scan.
When accessing a single entry, this answer doesn't really provide much benefit over vanilla javascript. However interacting with multiple fields at the same time this answer can be more performant.
Here is how you could interact with a single field
// const objectScan = require('object-scan'); const data = { code: 42, items: [{ id: 1, name: 'foo' }, { id: 2, name: 'bar' }] }; const get = (haystack, needle) => objectScan([needle], { abort: true, rtn: 'value' })(haystack); const set = (haystack, needle, value) => objectScan([needle], { abort: true, rtn: 'bool', filterFn: ({ parent, property }) => { parent[property] = value; return true; } })(haystack); console.log(get(data, 'items[1].name')); // => bar console.log(set(data, 'items[1].name', 'foo2')); // => true console.log(data); // => { code: 42, items: [ { id: 1, name: 'foo' }, { id: 2, name: 'foo2' } ] } .as-console-wrapper {max-height: 100% !important; top: 0}
Disclaimer: I'm the author of object-scan
and here is how you could interact with multiple fields at the same time
// const objectScan = require('object-scan'); const data = { code: 42, items: [{ id: 1, name: 'foo' }, { id: 2, name: 'bar' }] }; const get = (haystack, ...needles) => objectScan(needles, { joined: true, rtn: 'entry' })(haystack); const set = (haystack, actions) => objectScan(Object.keys(actions), { rtn: 'count', filterFn: ({ matchedBy, parent, property }) => { matchedBy.forEach((m) => { parent[property] = actions[m]; }) return true; } })(haystack); console.log(get(data, 'items[0].name', 'items[1].name')); // => [ [ 'items[1].name', 'bar' ], [ 'items[0].name', 'foo' ] ] console.log(set(data, { 'items[0].name': 'foo1', 'items[1].name': 'foo2' })); // => 2 console.log(data); // => { code: 42, items: [ { id: 1, name: 'foo1' }, { id: 2, name: 'foo2' } ] } .as-console-wrapper {max-height: 100% !important; top: 0}
Disclaimer: I'm the author of object-scan
And here is how one could find an entity in a deeply nested object searching by id (as asked in comment)
// const objectScan = require('object-scan'); const myData = { code: 42, items: [{ id: 1, name: 'aaa', items: [{ id: 3, name: 'ccc' }, { id: 4, name: 'ddd' }] }, { id: 2, name: 'bbb', items: [{ id: 5, name: 'eee' }, { id: 6, name: 'fff' }] }] }; const findItemById = (haystack, id) => objectScan(['**(^items$).id'], { abort: true, useArraySelector: false, rtn: 'parent', filterFn: ({ value }) => value === id })(haystack); console.log(findItemById(myData, 5)); // => { id: 5, name: 'eee' } .as-console-wrapper {max-height: 100% !important; top: 0}
Disclaimer: I'm the author of object-scan
this is how i have done this.
let groups = [
{
id:1,
title:"Group 1",
members:[
{
id:1,
name:"Aftab",
battry:'10%'
},
{
id:2,
name:"Jamal",
},
{
id:3,
name:"Hamid",
},
{
id:4,
name:"Aqeel",
},
]
},
{
id:2,
title:"Group 2",
members:[
{
id:1,
name:"Aftab",
battry:'10%'
},
{
id:2,
name:"Jamal",
battry:'10%'
},
{
id:3,
name:"Hamid",
},
]
},
{
id:3,
title:"Group 3",
members:[
{
id:1,
name:"Aftab",
battry:'10%'
},
{
id:3,
name:"Hamid",
},
{
id:4,
name:"Aqeel",
},
]
}
]
groups.map((item) => {
// if(item.id == 2){
item.members.map((element) => {
if(element.id == 1){
element.battry="20%"
}
})
//}
})
groups.forEach((item) => {
item.members.forEach((item) => {
console.log(item)
})
})
If you're trying to find a path in a JSON string, you can dump your data into https://jsonpathfinder.com and click on the GUI elements. It'll generate the JS syntax for the path to the element.
Beyond that, for any arrays you might want to iterate, replace the relevant array offset indices like [0]
with a loop.
Here's a simpler version of the tool you can run here, or at https://ggorlen.github.io/json-dive/. Click the node you want to copy the path to your clipboard.
/* code minified to make the tool easier to run without having to scroll */ let bracketsOnly=!1,lastHighlighted={style:{}};const keyToStr=t=>!bracketsOnly&&/^[a-zA-Z_$][a-zA-Z$_\d]*$/.test(t)?`.${toHTML(t)}`:`["${toHTML(t)}"]`,pathToData=t=>`data-path="data${t.join("")}"`,htmlSpecialChars={"&":"&","<":"<",">":">",'"':""","'":"'","\t":"\\t","\r":"\\r","\n":"\\n"," ":" "},toHTML=t=>(""+t).replace(/[&<>"'\t\r\n ]/g,t=>htmlSpecialChars[t]),makeArray=(t,e)=>`\n [
Unminified (also available on GitHub):
let bracketsOnly = false; let lastHighlighted = {style: {}}; const keyToStr = k => !bracketsOnly && /^[a-zA-Z_$][a-zA-Z$_\d]*$/.test(k) ? `.${toHTML(k)}` : `["${toHTML(k)}"]` ; const pathToData = p => `data-path="data${p.join("")}"`; const htmlSpecialChars = { "&": "&", "<": "<", ">": ">", '"': """, "'": "'", "\t": "\\t", "\r": "\\r", "\n": "\\n", " ": " ", }; const toHTML = x => ("" + x) .replace(/[&<>"'\t\r\n ]/g, m => htmlSpecialChars[m]) ; const makeArray = (x, path) => ` [
This isn't intended as a substitute for learning how to fish but can save time once you do know.
what you need to do is really simple and it can be achieved trough recursivity:
const json_object = {
"item1":{
"name": "apple",
"value": 2,
},
"item2":{
"name": "pear",
"value": 4,
},
"item3":{
"name": "mango",
"value": 3,
"prices": {
"1": "9$",
"2": "59$",
"3": "1$"
}
}
}
function walkJson(json_object){
for(obj in json_object){
if(typeof json_object[obj] === 'string'){
console.log(`${obj}=>${json_object[obj]}`);
}else{
console.log(`${obj}=>${json_object[obj]}`);
walkJson(json_object[obj]);
}
}
}
walkJson(json_object);
A pythonic, recursive and functional approach to unravel arbitrary JSON trees:
handlers = {
list: iterate,
dict: delve,
str: emit_li,
float: emit_li,
}
def emit_li(stuff, strong=False):
emission = '<li><strong>%s</strong></li>' if strong else '<li>%s</li>'
print(emission % stuff)
def iterate(a_list):
print('<ul>')
map(unravel, a_list)
print('</ul>')
def delve(a_dict):
print('<ul>')
for key, value in a_dict.items():
emit_li(key, strong=True)
unravel(value)
print('</ul>')
def unravel(structure):
h = handlers[type(structure)]
return h(structure)
unravel(data)
where data is a python list (parsed from a JSON text string):
data = [
{'data': {'customKey1': 'customValue1',
'customKey2': {'customSubKey1': {'customSubSubKey1': 'keyvalue'}}},
'geometry': {'location': {'lat': 37.3860517, 'lng': -122.0838511},
'viewport': {'northeast': {'lat': 37.4508789,
'lng': -122.0446721},
'southwest': {'lat': 37.3567599,
'lng': -122.1178619}}},
'name': 'Mountain View',
'scope': 'GOOGLE',
'types': ['locality', 'political']}
]
My stringdata
is coming from PHP file but still, I indicate here in var
. When i directly take my json into obj
it will nothing show thats why i put my json file as
var obj=JSON.parse(stringdata);
so after that i get message
obj and show in alert box then I get data
which is json array and store in one varible ArrObj
then i read first object of that array with key value like this ArrObj[0].id
var stringdata={
"success": true,
"message": "working",
"data": [{
"id": 1,
"name": "foo"
}]
};
var obj=JSON.parse(stringdata);
var key = "message";
alert(obj[key]);
var keyobj = "data";
var ArrObj =obj[keyobj];
alert(ArrObj[0].id);
stringjson
is not a string.
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