Chrome docs says that retained size is "the size of memory that is freed once the object itself is deleted along with its dependent objects that were made unreachable from GC roots" which is fair enough. However, even for simple objects, retained size is often 3x of shallow size. I understand that V8 need to store reference to hidden shape, probably some data for GC and so on, but sometimes objects have hundreds of extra "retained" bytes, which seems to be a problem when you need to have millions of such objects. Let's take a look at a simple example:

class TestObject {
    constructor( x, y, z ) {
        this.x = x;
        this.y = y;
        this.z = z;

window.arr = [];
for ( let i = 0; i < 100000; i++ ) {
    window.arr.push( new TestObject( Math.random(), Math.random(), Math.random() ) );

Here's the memory snapshot:

Memory snapshot, shallow size is 24 bytes and retained size is 60 bytes

Shallow size is 24 bytes, which is perfectly matches with the fact that we're storing 3 x 8-byte doubles. "Extra" size is 36 bytes, which allows to store 9 x 4-byte pointers (assuming that pointer compression is on). If we add three extra properties, extra size will be 72 (!) bytes, so it depends on number of properties. What is being stored there? Is it possible to avoid such massive memory overhead?

  • 1
    Only a V8 developer can answer if the observed size is normal (there is one around here). AFAIK the only way to reduce memory consumption when storing numbers is to use typed arrays (not for the entries but for the entire thing so instead of named properties you would use index offsets).
    – wOxxOm
    May 27 '20 at 17:25
  • @wOxxOm, typed array is definetely a solution, however, they are really painful to deal with when you need to store both doubles, integers and booleans in the same object. Hope I'd be able to catch attention of a V8 dev and at least satisfy my curiosity :)
    – pragma
    May 27 '20 at 17:31

V8 developer here.

Shallow size is the object itself, consisting of the standard object header (3 pointers) and 3 in-object properties, which are again pointers. That's 6 (compressed) pointers of 4 bytes each = 24 bytes.

Additional retained size is the storage for the three properties. Each of them is a "HeapNumber", consisting of a 4-byte map pointer plus an 8-byte payload. So that's 3 properties times 12 bytes = 36 bytes. (Armed with this knowledge, it shouldn't be surprising that with another three properties, which presumably are also numbers, this doubles to 72.)

Added up, each object occupies a total of 24+36 = 60 bytes.

Map and prototype don't count for each object's retained size because they are shared by all objects, so freeing one object wouldn't allow them to be freed as well.

One idea to save memory (if you feel that it is important) is to "transpose" your data organization: instead of 1 array containing 100,000 objects with 3 numbers each, you could have 1 object containing 3 arrays with 100,000 numbers each. Depending on your use case, this may or may not be a feasible approach: if the triples of numbers come and go a lot, then storing them in a single huge array would be unpleasant; whereas if it's a static data set, then both models might be fairly equivalent in usability. If you did this, you'd avoid the repeated per-object overhead; additionally arrays can store double numbers inline (as long as the entire array contains only numbers), so you'd be able to store the same 300K numbers with only 2.4MB total memory consumption.

If you try replacing the 3-property objects with many small TypedArrays, you'll see a significant increase in memory usage, because TypedArrays have much bigger per-object overhead than simple objects. They are geared towards having a few large arrays, not many small ones.

  • Thanks for the explanation, it makes perfect sence now!
    – pragma
    May 27 '20 at 19:21
  • I'm curious, why are the numbers stored on the heap instead of in the record? Is it because they don't fit in 4 bytes?
    – Bergi
    May 27 '20 at 20:05
  • @Bergi: precisely. V8 used to support "unboxed double properties" on 64-bit architectures, but we had to turn that off when pointer compression came along.
    – jmrk
    May 27 '20 at 20:16
  • Is pointer compression related to this? If so, it'd be interesting to know how the same setup was stored in the past. P.S. the TypedArray advice I gave was not about many arrays, but about a single array for the entire data.
    – wOxxOm
    May 28 '20 at 17:34

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