241

I have 2 nested objects which are different and I need to know if they have difference in one of their nested properties.

var a = {};
var b = {};

a.prop1 = 2;
a.prop2 = { prop3: 2 };

b.prop1 = 2;
b.prop2 = { prop3: 3 };

The object could be much more complex with more nested properties. But this one is a good example. I have the option to use recursive functions or something with lodash...

16 Answers 16

397

An easy and elegant solution is to use _.isEqual, which performs a deep comparison:

var a = {};
var b = {};

a.prop1 = 2;
a.prop2 = { prop3: 2 };

b.prop1 = 2;
b.prop2 = { prop3: 3 };

_.isEqual(a, b); // returns false if different

However, this solution doesn't show which property is different.

http://jsfiddle.net/bdkeyn0h/

  • 5
    lodash.com/docs/#isEqual – Jason Deppen Oct 14 '17 at 11:16
  • 2
    I know that the answer is pretty old, but I want to add, that _.isEqual can be pretty tricky. If you copy the object and change some values in there it will still show true, because the reference is the same. So one should be careful using this function. – oruckdeschel Sep 13 '18 at 13:51
  • 5
    @oruckdeschel if the reference is the same, it is the same object. hence it is equal. this is a pointer being tricky not lodash. lodash is awesome. – guy mograbi Sep 25 '18 at 2:09
251

If you need to know which properties are different, use reduce():

_.reduce(a, function(result, value, key) {
    return _.isEqual(value, b[key]) ?
        result : result.concat(key);
}, []);
// → [ "prop2" ]
  • 34
    Note that this will only output the first level different properties. (So it's not really deep in the sense of outputting the properties which are different.) – Bloke May 5 '16 at 14:03
  • 14
    Also, this will not pick up properties in b that are not in a. – Ed Staub Aug 23 '16 at 23:47
  • 2
    and _.reduce(a, (result, value, key) => _.isEqual(value, b[key]) ? result : result.concat(key), []) for a one line ES6 solution – Dotgreg Nov 4 '17 at 9:36
  • A version concating the key:value let edited = _.reduce(a, function(result, value, key) { return _.isEqual(value, b[key]) ? result : result.concat( { [key]: value } ); }, []); – Aline Matos Sep 23 '18 at 14:31
41

For anyone stumbling upon this thread, here's a more complete solution. It will compare two objects and give you the key of all properties that are either only in object1, only in object2, or are both in object1 and object2 but have different values:

/*
 * Compare two objects by reducing an array of keys in obj1, having the
 * keys in obj2 as the intial value of the result. Key points:
 *
 * - All keys of obj2 are initially in the result.
 *
 * - If the loop finds a key (from obj1, remember) not in obj2, it adds
 *   it to the result.
 *
 * - If the loop finds a key that are both in obj1 and obj2, it compares
 *   the value. If it's the same value, the key is removed from the result.
 */
function getObjectDiff(obj1, obj2) {
    const diff = Object.keys(obj1).reduce((result, key) => {
        if (!obj2.hasOwnProperty(key)) {
            result.push(key);
        } else if (_.isEqual(obj1[key], obj2[key])) {
            const resultKeyIndex = result.indexOf(key);
            result.splice(resultKeyIndex, 1);
        }
        return result;
    }, Object.keys(obj2));

    return diff;
}

Here's an example output:

// Test
let obj1 = {
    a: 1,
    b: 2,
    c: { foo: 1, bar: 2},
    d: { baz: 1, bat: 2 }
}

let obj2 = {
    b: 2, 
    c: { foo: 1, bar: 'monkey'}, 
    d: { baz: 1, bat: 2 }
    e: 1
}
getObjectDiff(obj1, obj2)
// ["c", "e", "a"]

If you don't care about nested objects and want to skip lodash, you can substitute the _.isEqual for a normal value comparison, e.g. obj1[key] === obj2[key].

  • This chosen answer is correct for just testing equality. If you need to know what the differences are, there's no obvious way to list them, but this answer is pretty good, just giving a list of top-level property keys where there's a difference. (And it gives the answer as a function, which makes it usable.) – Sigfried Dec 12 '16 at 13:47
  • What is the difference between doing this and just using _.isEqual(obj1, obj2) ? What does adding the check for hasOwnProperty do that _.isEqual does not? I was under the assumption that if obj1 had a property that obj2 did not have, _.isEqual would not return true.. ? – Jaked222 Aug 4 '17 at 16:44
  • 2
    @Jaked222 - the difference is that isEqual returns a boolean telling you if the objects are equal or not, while the function above tells you what is different between the two objects (if they are different). If you're only interested in knowing if two objects are the same, isEqual is quite enough. In many cases though, you want to know what the difference is betwen two objects. An example could be if you want to detect changes before and after something and then dispatch an event based on the changes. – Johan Persson Aug 5 '17 at 17:28
25

Based on the answer by Adam Boduch, I wrote this function which compares two objects in the deepest possible sense, returning paths that have different values as well as paths missing from one or the other object.

The code was not written with efficiency in mind, and improvements in that regard are most welcome, but here is the basic form:

var compare = function (a, b) {

  var result = {
    different: [],
    missing_from_first: [],
    missing_from_second: []
  };

  _.reduce(a, function (result, value, key) {
    if (b.hasOwnProperty(key)) {
      if (_.isEqual(value, b[key])) {
        return result;
      } else {
        if (typeof (a[key]) != typeof ({}) || typeof (b[key]) != typeof ({})) {
          //dead end.
          result.different.push(key);
          return result;
        } else {
          var deeper = compare(a[key], b[key]);
          result.different = result.different.concat(_.map(deeper.different, (sub_path) => {
            return key + "." + sub_path;
          }));

          result.missing_from_second = result.missing_from_second.concat(_.map(deeper.missing_from_second, (sub_path) => {
            return key + "." + sub_path;
          }));

          result.missing_from_first = result.missing_from_first.concat(_.map(deeper.missing_from_first, (sub_path) => {
            return key + "." + sub_path;
          }));
          return result;
        }
      }
    } else {
      result.missing_from_second.push(key);
      return result;
    }
  }, result);

  _.reduce(b, function (result, value, key) {
    if (a.hasOwnProperty(key)) {
      return result;
    } else {
      result.missing_from_first.push(key);
      return result;
    }
  }, result);

  return result;
}

You can try the code using this snippet (running in full page mode is recommended):

var compare = function (a, b) {

  var result = {
    different: [],
    missing_from_first: [],
    missing_from_second: []
  };

  _.reduce(a, function (result, value, key) {
    if (b.hasOwnProperty(key)) {
      if (_.isEqual(value, b[key])) {
        return result;
      } else {
        if (typeof (a[key]) != typeof ({}) || typeof (b[key]) != typeof ({})) {
          //dead end.
          result.different.push(key);
          return result;
        } else {
          var deeper = compare(a[key], b[key]);
          result.different = result.different.concat(_.map(deeper.different, (sub_path) => {
            return key + "." + sub_path;
          }));

          result.missing_from_second = result.missing_from_second.concat(_.map(deeper.missing_from_second, (sub_path) => {
            return key + "." + sub_path;
          }));

          result.missing_from_first = result.missing_from_first.concat(_.map(deeper.missing_from_first, (sub_path) => {
            return key + "." + sub_path;
          }));
          return result;
        }
      }
    } else {
      result.missing_from_second.push(key);
      return result;
    }
  }, result);

  _.reduce(b, function (result, value, key) {
    if (a.hasOwnProperty(key)) {
      return result;
    } else {
      result.missing_from_first.push(key);
      return result;
    }
  }, result);

  return result;
}

var a_editor = new JSONEditor($('#a')[0], {
  name: 'a',
  mode: 'code'
});
var b_editor = new JSONEditor($('#b')[0], {
  name: 'b',
  mode: 'code'
});

var a = {
  same: 1,
  different: 2,
  missing_from_b: 3,
  missing_nested_from_b: {
    x: 1,
    y: 2
  },
  nested: {
    same: 1,
    different: 2,
    missing_from_b: 3
  }
}

var b = {
  same: 1,
  different: 99,
  missing_from_a: 3,
  missing_nested_from_a: {
    x: 1,
    y: 2
  },
  nested: {
    same: 1,
    different: 99,
    missing_from_a: 3
  }
}

a_editor.set(a);
b_editor.set(b);

var result_editor = new JSONEditor($('#result')[0], {
  name: 'result',
  mode: 'view'
});

var do_compare = function() {
  var a = a_editor.get();
  var b = b_editor.get();
  result_editor.set(compare(a, b));
}
#objects {} #objects section {
  margin-bottom: 10px;
}
#objects section h1 {
  background: #444;
  color: white;
  font-family: monospace;
  display: inline-block;
  margin: 0;
  padding: 5px;
}
.jsoneditor-outer, .ace_editor {
min-height: 230px !important;
}
button:hover {
  background: orangered;
}
button {
  cursor: pointer;
  background: red;
  color: white;
  text-align: left;
  font-weight: bold;
  border: 5px solid crimson;
  outline: 0;
  padding: 10px;
  margin: 10px 0px;
}
<link href="https://cdnjs.cloudflare.com/ajax/libs/jsoneditor/5.5.10/jsoneditor.min.css" rel="stylesheet" />
<script src="https://cdnjs.cloudflare.com/ajax/libs/jsoneditor/5.5.10/jsoneditor.min.js"></script>
<script src="https://cdnjs.cloudflare.com/ajax/libs/lodash.js/4.17.4/lodash.min.js"></script>
<script src="https://ajax.googleapis.com/ajax/libs/jquery/2.1.1/jquery.min.js"></script>
<div id="objects">
  <section>
    <h1>a (first object)</h1>
    <div id="a"></div>
  </section>
  <section>
    <h1>b (second object)</h1>
    <div id="b"></div>
  </section>
  <button onClick="do_compare()">compare</button>
  <section>
    <h1>result</h1>
    <div id="result"></div>
  </section>
</div>

  • 2
    I just fixed the bug, but to let you know, you should check key existence within an object b using b.hasOwnProperty(key) or key in b, not with b[key] != undefined. With the old version that used b[key] != undefined, the function returned an incorrect diff for objects containing undefined, as in compare({disabled: undefined}, {disabled: undefined}). In fact, the old version also had problems with null; you can avoid problems like that by always using === and !== instead of == and !=. – Rory O'Kane Mar 23 '17 at 21:28
22

Here's a concise solution:

_.differenceWith(a, b, _.isEqual);
  • 56
    Only works for arrays, not objects – Frédéric Jul 8 '16 at 9:10
  • 3
    Lodash 4.17.4 does work with objects here – Z. Khullah Nov 17 '17 at 20:22
  • 7
    Doesn't seem to work with objects for me. Instead returns an empty array. – tomhughes Nov 22 '17 at 11:24
  • 2
    Also getting empty array with Lodash 4.17.4 – aristidesfl Jan 25 '18 at 8:59
  • 1
    @Brendon , @THughes, @aristidesfl sorry, I've mixed things, it works with arrays of objects, but not for deep object comparisons. As it turns out, if neither parameters are arrays, lodash will just return []. – Z. Khullah Jan 29 '18 at 17:36
5

This code returns an object with all properties that have a different value and also values of both objects. Useful to logging the difference.

var allkeys = _.union(_.keys(obj1), _.keys(obj2));
var difference = _.reduce(allkeys, function (result, key) {
  if ( !_.isEqual(obj1[key], obj2[key]) ) {
    result[key] = {obj1: obj1[key], obj2: obj2[key]}
  }
  return result;
}, {});
5

To recursively show how an object is different with other you can use _.reduce combined with _.isEqual and _.isPlainObject. In this case you can compare how a is different with b or how b is different with a:

var a = {prop1: {prop1_1: 'text 1', prop1_2: 'text 2', prop1_3: [1, 2, 3]}, prop2: 2, prop3: 3};
var b = {prop1: {prop1_1: 'text 1', prop1_3: [1, 2]}, prop2: 2, prop3: 4};

var diff = function(obj1, obj2) {
  return _.reduce(obj1, function(result, value, key) {
    if (_.isPlainObject(value)) {
      result[key] = diff(value, obj2[key]);
    } else if (!_.isEqual(value, obj2[key])) {
      result[key] = value;
    }
    return result;
  }, {});
};

var res1 = diff(a, b);
var res2 = diff(b, a);
console.log(res1);
console.log(res2);
<script src="https://cdn.jsdelivr.net/npm/lodash@4.17.4/lodash.min.js"></script>

3

Without use of lodash/underscore, I have written this code and is working fine for me for a deep comparison of object1 with object2

function getObjectDiff(a, b) {
    var diffObj = {};
    if (Array.isArray(a)) {
        a.forEach(function(elem, index) {
            if (!Array.isArray(diffObj)) {
                diffObj = [];
            }
            diffObj[index] = getObjectDiff(elem, (b || [])[index]);
        });
    } else if (a != null && typeof a == 'object') {
        Object.keys(a).forEach(function(key) {
            if (Array.isArray(a[key])) {
                var arr = getObjectDiff(a[key], b[key]);
                if (!Array.isArray(arr)) {
                    arr = [];
                }
                arr.forEach(function(elem, index) {
                    if (!Array.isArray(diffObj[key])) {
                        diffObj[key] = [];
                    }
                    diffObj[key][index] = elem;
                });
            } else if (typeof a[key] == 'object') {
                diffObj[key] = getObjectDiff(a[key], b[key]);
            } else if (a[key] != (b || {})[key]) {
                diffObj[key] = a[key];
            } else if (a[key] == (b || {})[key]) {
                delete a[key];
            }
        });
    }
    Object.keys(diffObj).forEach(function(key) {
        if (typeof diffObj[key] == 'object' && JSON.stringify(diffObj[key]) == '{}') {
            delete diffObj[key];
        }
    });
    return diffObj;
}
3

Deep compare using a template of (nested) properties to check

function objetcsDeepEqualByTemplate(objectA, objectB, comparisonTemplate) {
  if (!objectA || !objectB) return false

  let areDifferent = false
  Object.keys(comparisonTemplate).some((key) => {
    if (typeof comparisonTemplate[key] === 'object') {
      areDifferent = !objetcsDeepEqualByTemplate(objectA[key], objectB[key], comparisonTemplate[key])
      return areDifferent
    } else if (comparisonTemplate[key] === true) {
      areDifferent = objectA[key] !== objectB[key]
      return areDifferent
    } else {
      return false
    }
  })

  return !areDifferent
}

const objA = { 
  a: 1,
  b: {
    a: 21,
    b: 22,
  },
  c: 3,
}

const objB = { 
  a: 1,
  b: {
    a: 21,
    b: 25,
  },
  c: true,
}

// template tells which props to compare
const comparisonTemplateA = {
  a: true,
  b: {
    a: true
  }
}
objetcsDeepEqualByTemplate(objA, objB, comparisonTemplateA)
// returns true

const comparisonTemplateB = {
  a: true,
  c: true
}
// returns false
objetcsDeepEqualByTemplate(objA, objB, comparisonTemplateB)

This will work in the console. Array support could be added if needed

2

I took a stab a Adam Boduch's code to output a deep diff - this is entirely untested but the pieces are there:

function diff (obj1, obj2, path) {
    obj1 = obj1 || {};
    obj2 = obj2 || {};

    return _.reduce(obj1, function(result, value, key) {
        var p = path ? path + '.' + key : key;
        if (_.isObject(value)) {
            var d = diff(value, obj2[key], p);
            return d.length ? result.concat(d) : result;
        }
        return _.isEqual(value, obj2[key]) ? result : result.concat(p);
    }, []);
}

diff({ foo: 'lol', bar: { baz: true }}, {}) // returns ["foo", "bar.baz"]
  • 1
    Works like a charm, just that the order of obj1 and obj2 is important. For example: diff({}, { foo: 'lol', bar: { baz: true }}) // returns [] – amangpt777 Mar 31 '17 at 11:04
1

Completing the answer from Adam Boduch, this one takes into differences in properties

const differenceOfKeys = (...objects) =>
  _.difference(...objects.map(obj => Object.keys(obj)));
const differenceObj = (a, b) => 
  _.reduce(a, (result, value, key) => (
    _.isEqual(value, b[key]) ? result : [...result, key]
  ), differenceOfKeys(b, a));
1

If you need only key comparison:

 _.reduce(a, function(result, value, key) {
     return b[key] === undefined ? key : []
  }, []);
1

As it was asked, here's a recursive object comparison function. And a bit more. Assuming that primary use of such function is object inspection, I have something to say. Complete deep comparison is a bad idea when some differences are irrelevant. For example, blind deep comparison in TDD assertions makes tests unnecessary brittle. For that reason, I'd like to introduce a much more valuable partial diff. It is a recursive analogue of a previous contribution to this thread. It ignores keys not present in a

var bdiff = (a, b) =>
    _.reduce(a, (res, val, key) =>
        res.concat((_.isPlainObject(val) || _.isArray(val)) && b
            ? bdiff(val, b[key]).map(x => key + '.' + x) 
            : (!b || val != b[key] ? [key] : [])),
        []);

BDiff allows checking for expected values while tolerating other properties, which is exactly what you want for automatic inspection. This allows building all kinds of advanced assertions. For example:

var diff = bdiff(expected, actual);
// all expected properties match
console.assert(diff.length == 0, "Objects differ", diff, expected, actual);
// controlled inequality
console.assert(diff.length < 3, "Too many differences", diff, expected, actual);

Returning to the complete solution. Building a full traditional diff with bdiff is trivial:

function diff(a, b) {
    var u = bdiff(a, b), v = bdiff(b, a);
    return u.filter(x=>!v.includes(x)).map(x=>' < ' + x)
    .concat(u.filter(x=>v.includes(x)).map(x=>' | ' + x))
    .concat(v.filter(x=>!u.includes(x)).map(x=>' > ' + x));
};

Running above function on two complex objects will output something similar to this:

 [
  " < components.0.components.1.components.1.isNew",
  " < components.0.cryptoKey",
  " | components.0.components.2.components.2.components.2.FFT.min",
  " | components.0.components.2.components.2.components.2.FFT.max",
  " > components.0.components.1.components.1.merkleTree",
  " > components.0.components.2.components.2.components.2.merkleTree",
  " > components.0.components.3.FFTResult"
 ]

Finally, in order to have a glimpse into how the values differ, we may want to directly eval() the diff output. For that, we need an uglier version of bdiff that outputs syntactically correct paths:

// provides syntactically correct output
var bdiff = (a, b) =>
    _.reduce(a, (res, val, key) =>
        res.concat((_.isPlainObject(val) || _.isArray(val)) && b
            ? bdiff(val, b[key]).map(x => 
                key + (key.trim ? '':']') + (x.search(/^\d/)? '.':'[') + x)
            : (!b || val != b[key] ? [key + (key.trim ? '':']')] : [])),
        []);

// now we can eval output of the diff fuction that we left unchanged
diff(a, b).filter(x=>x[1] == '|').map(x=>[x].concat([a, b].map(y=>((z) =>eval('z.' + x.substr(3))).call(this, y)))));

That will output something similar to this:

[" | components[0].components[2].components[2].components[2].FFT.min", 0, 3]
[" | components[0].components[2].components[2].components[2].FFT.max", 100, 50]

MIT license ;)

0

Here is a simple Typescript with Lodash deep difference checker which will produce a new object with just the differences between an old object and a new object.

For example, if we had:

const oldData = {a: 1, b: 2};
const newData = {a: 1, b: 3};

the resulting object would be:

const result: {b: 3};

It is also compatible with multi-level deep objects, for arrays it may need some tweaking.

import * as _ from "lodash";

export const objectDeepDiff = (data: object | any, oldData: object | any) => {
  const record: any = {};
  Object.keys(data).forEach((key: string) => {
    // Checks that isn't an object and isn't equal
    if (!(typeof data[key] === "object" && _.isEqual(data[key], oldData[key]))) {
      record[key] = data[key];
    }
    // If is an object, and the object isn't equal
    if ((typeof data[key] === "object" && !_.isEqual(data[key], oldData[key]))) {
      record[key] = objectDeepDiff(data[key], oldData[key]);
    }
  });
  return record;
};
-1
var isEqual = function(f,s) {
  if (f === s) return true;

  if (Array.isArray(f)&&Array.isArray(s)) {
    return isEqual(f.sort(), s.sort());
  }
  if (_.isObject(f)) {
    return isEqual(f, s);
  }
  return _.isEqual(f, s);
};
  • This is invalid. You cannot compare objects with === directly, { a: 20 } === { a: 20 } will return false, because it compares prototype. More right way to primarily compare objects is to wrap them into JSON.stringify() – Herrgott Aug 13 '17 at 6:06
  • if (f === s) return true; - is only for recursion. Yes a: 20 } === { a: 20 } will return false and go to the next condition – Crusader Aug 30 '17 at 7:32
  • why not only _.isEqual(f, s)? :) – Herrgott Aug 30 '17 at 8:46
  • This will result in an infinite recursion loop because if f is an object and you get to if (_.isObject(f)) you simply go back through the function and hit that point again. Same goes for f (Array.isArray(f)&&Array.isArray(s)) – rady Nov 28 '17 at 20:09
-2

this was based on @JLavoie, using lodash

let differences = function (newObj, oldObj) {
      return _.reduce(newObj, function (result, value, key) {
        if (!_.isEqual(value, oldObj[key])) {
          if (_.isArray(value)) {
            result[key] = []
            _.forEach(value, function (innerObjFrom1, index) {
              if (_.isNil(oldObj[key][index])) {
                result[key].push(innerObjFrom1)
              } else {
                let changes = differences(innerObjFrom1, oldObj[key][index])
                if (!_.isEmpty(changes)) {
                  result[key].push(changes)
                }
              }
            })
          } else if (_.isObject(value)) {
            result[key] = differences(value, oldObj[key])
          } else {
            result[key] = value
          }
        }
        return result
      }, {})
    }

https://jsfiddle.net/EmilianoBarboza/0g0sn3b9/8/

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