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As per Sun Java Implementation, during expansion, ArrayList grows to 3/2 it's initial capacity whereas for HashMap the expansion rate is double. What is reason behind this?

As per the implementation, for HashMap, the capacity should always be in the power of two. That may be a reason for HashMap's behavior. But in that case the question is, for HashMap why the capacity should always be in power of two?

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StringBuffer/StringBuilder also grows by a factor of 2, and there is no requirement that its size has to be a power of 2. –  Jörn Horstmann Feb 18 '11 at 11:38
It's probably nothing more than the fact that two different programmers coded the implementations for ArrayList and HashMap and they both arbitrarily decided on different growth values. –  Adrian Pronk Feb 18 '11 at 12:31

6 Answers 6

up vote 7 down vote accepted

The expensive part at increasing the capacity of an ArrayList is copying the content of the backing array a new (larger) one.

For the HashMap, it is creating a new backing array and putting all map entries in the new array. And, the higher the capacity, the lower the risk of collisions. This is more expensive and explains, why the expansion factor is higher. The reason for 1.5 vs. 2.0? I consider this as "best practise" or "good tradeoff".

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Even the ArrayList may multiply the capacity by 2. Is there any harm in it? –  Arnab Biswas Feb 18 '11 at 11:48
The harm is that the bigger the size of the ArrayList, the more memory allocated to it (which could go to waste if the space is not used). Since increasing the capacity of the ArrayList is much less expensive than increasing the capacity of a HashMap, it makes sense to be more conservative with the increase of capacity of an ArrayList. Essentially, @Andreas_D explained why the factor for a HashMap should be larger than that of an ArrayList. Why 2.0 and 1.5 specifically? This is probably based on usage tests, but you'd have to ask the Java developers themselves I guess. –  Lucas Zamboulis Feb 18 '11 at 12:20
@Arnab Biswas: One more reason: The unused memory in ArrayList is wasted, unlike in HashMap where it makes the collisions rate lower and thus speeds up the access. –  maaartinus Jan 6 '13 at 22:36

for HashMap why the capacity should always be in power of two?

I can think of two reasons.

  1. You can quickly determine the bucket a hashcode goes in to. You only need a bitwise AND and no expensive modulo. int bucket = hashcode & (size-1);

  2. Let's say we have a grow factor of 1.7. If we start with a size 11, the next size would be 18, then 31. No problem. Right? But the hashcodes of Strings in Java, are calculated with a prime factor of 31. The bucket a string goes into,hashcode%31, is then determined only by the last character of the String. Bye bye O(1) if you store folders that all end in /. If you use a size of, for example, 3^n, the distribution will not get worse if you increase n. Going from size 3 to 9, every element in bucket 2, will now go to bucket 2,5 or 7, depending on the higher digit. It's like splitting each bucket in three pieces. So a size of integer growth factor would be preferred. (Off course this all depends on how you calculate hashcodes, but a arbitrary growth factor doesn't feel 'stable'.)

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Regarding your second argument: 1. Avoiding 31 is easy. 2. The expression hashcode%31 can't work because of negative values. 3. Some "hash strengthening" like in HashMap.hash could help. 4. Modulus can be replaced by something like (int) ((size * (h & 0xFFFFFFFFL)) >> 32) which is more than twice as fast on my computer. 5. That all said, +1. –  maaartinus Jan 6 '13 at 22:34

The way HashMap is designed/implemented its underlying number of buckets must be a power of 2 (even if you give it a different size, it makes it a power of 2), thus it grows by a factor of two each time. An ArrayList can be any size and it can be more conservative in how it grows.

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Hashing takes advantage of distributing data evenly into buckets. The algorithm tries to prevent multiple entries in the buckets ("hash collisions"), as they will decrease performance.

Now when the capacity of a HashMap is reached, size is extended and existing data is re-distributed with the new buckets. If the size-increas would be too small, this re-allocation of space and re-dsitribution would happen too often.

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While this explains the basic principle, it doesn't really explain why HashMap multiplies the size by 2 instead of 1.5 (for example) as ArrayList does. –  Joachim Sauer Feb 18 '11 at 11:38

I can't give you a reason why this is so (you'd have to ask Sun developers), but to see how this happens take a look at source:

  1. HashMap: Take a look at how HashMap resizes to new size (source line 799)

         resize(2 * table.length);
  2. ArrayList: source, line 183:

    int newCapacity = (oldCapacity * 3)/2 + 1;

Update: I mistakenly linked to sources of Apache Harmony JDK - changed it to Sun's JDK.

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Thanks Peter, I have checked the source code earlier. But that didn't help me to understand the intention of the API developer. –  Arnab Biswas Feb 18 '11 at 11:50
By the way: the OpenJDK (and thus the Oracle JDK) use some quite different code, but effectively increments by half its size as well. –  Joachim Sauer Feb 18 '11 at 11:51

A general rule to avoid collisions on Maps is to keep to load factor max at around 0.75 To decrease possibility of collisions and avoid expensive copying process HashMap grows at a larger rate.

Also as @Peter says, it must be a power of 2.

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