Chrome's delete is now really speedy; however, update seems to get slower when you as you approach 1 million keys.
Alright, I have some data. I am going to say yes there are differences between browsers. It seems that different environments care about different CRUD operations. Also, objects are hashes under the hood since performance is not affected when the number of keys increases. If there is no performance difference (ops/sec) between the 3 tests then (I think) that means it is a hash and the complexity of each operation is O(1) regardless of it being faster or slower in comparison to other operations. In other words, if there was a change in any test's ops/sec count as keys increase then it is not O(1) (this is not the case).
http://jsperf.com/objectsashashes/2 (100 keys)
http://jsperf.com/objectsashashes/3 (100k keys)
http://jsperf.com/objectsashashes/ (1 million keys)
http://jsperf.com/objects-as-hashes-300-mil (10m keys)
- Time to create pairs is linear through 10 mil key value pairs.
- Chrome: Optimized for reads. Create and Update are a little slower.
- Safari: Optimized for writes, but read is fairly fast. Slower to update it seems.
- IE9: Favors none of the operations. Delete yields slightly better performance. Note: I used an older machine to test.
- IE10: Delete yields slightly better performance. Creating/updating is slower than reading.
- IE8: Couldn't test, but with the latest win7 updates it seems that IE9 was automatically installed. Not sure about XP machines.
- Firefox: Extremely read optimized. Everything else is about the same.
- Opera: All operations perform at same speed.
- The only limitations for maximum keys stored seem to be memory based (browser, environment or machine enforced)
Although hash['something'] is not slower than hash.something, if you need to concatenate to find the name of your hash your performance is drastically reduced ( http://jsperf.com/member-associative-array-syntax-vs-dot-syntax ), which is why I cached those values outside of the performance tests above. Avoid concatenation if possible. Strings are immutable in JS, and as a result each concatenation creates 3 objects/"primitives" (string 1, string 2 and the concatenated string).