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I like the functional programming paradigm which according to me produces cleaner code and easier to understand, but I'd like to know if the performance loss is significative or not.

Let's take the example of a function that adds a new property to an object. A non-functional approach would look like this:

const addProp = (obj, prop, val) => {
  obj[prop] = val; // Mutate the object
  return obj;
}

While the functional approach would look like this:

const addProp = (obj, prop, val) => ({ ...obj, [prop]: val }); // Shallow clone

What's the cost of the shallow clone compared to the object mutation? I'd like to know how much functional programming patterns degrade performance (if they do).

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    think of what has to happen if the object has 500 properties to begin with. – Pointy Jun 14 at 11:59
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    Even with 500 properties don't start pre-optimising code. Do tests, only optimise where needed. I highly doubt the few milliseconds saved here will do very much – evolutionxbox Jun 14 at 11:59
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    @GuerricP "isn't that expensive" - no work is cheaper than no work. If you do this only a few times an hour, you can disregard the costs. But if you do this in a tight loop or with lots of objects - then it's different. Which is to say, measure measure measure. – Sergio Tulentsev Jun 14 at 12:05
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    It always depends on where you use (call) addProp. Do they actually produce the same result? Is it part of a larger, pure function, to which the mutability of obj is internal only? Go for correctness first, then universality, then speed. – Bergi Jun 14 at 12:14
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    There is also another way. You can use Object.create(obj, { [prop]: val }) which makes use of the inheritance instead. For a large set of properties seldom changed that would fare better, but if you do this consecutively the chain will get very long. – Sylwester Jun 14 at 13:17
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The performance of making shallow copies is much worse than the performance of mutation. If I have an array with 400 elements and I make a shallow copy, that's going to be much more expensive than destructively modifying a single element of the array. And the longer the array is, the worse the gap becomes. The same problem occurs with an object with many properties.

One essential element of efficient functional programming is using the right data structures. In this case, you want a data structure where modifying part of the data structure does not mean you have to completely recreate the data structure. You want a local modification of a data structure to be able to share most of its memory with the original.

An extremely basic example of this is a singly linked list. If you wish to prepend a single element to a linked list, this is an O(1) operation because the new list shares most of its memory with the old list. However, adding a single element to an array without mutating the original array is a linear-time operation because the whole array must be copied.

For sequences and maps, one generally ends up using some sort of balanced tree. Functional programming languages include these data structures as part of their standard libraries, but I'm sure someone has written a library for functional Javascript.

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