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This question already has an answer here:

When I read the Java source code of HashMap.class,

 /** The default initial capacity - MUST be a power of two. **/
  static final int DEFAULT_INITIAL_CAPACITY = 1 << 4; // aka 16

why does Java use 1<<4, not 16?

marked as duplicate by bashrc, John Dvorak, Boann java Mar 20 at 12:21

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    Ask this guy ~ hg.openjdk.java.net/jdk8/jdk8/jdk/rev/2e3cc7f599ca – Phil Mar 20 at 5:14
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    You may yourself write code with readability in mind. For example, one may want to declare a bunch of time period in second, and write 5025 seconds as 1 * 60 * 60 + 23 * 60 + 45 so that you know it is 1:23:45 once you look at it. These simple expressions should be optimized by compiler anyway so don't worry for performance hit. – Ricky Mo Mar 20 at 5:23
  • @RickyMo since 1 << 4 is a compile-time constant, the compiler must treat it the same way as if you had written 16. The same applies to your 1 * 60 * 60 + 23 * 60 + 45 example. Even at the places within the code where DEFAULT_INITIAL_CAPACITY is used, the compiler must treat it the same way as the literal value 16. Besides not having any performance impact, it implies that you can use descriptive expressions and named constants at places where only compile-time constants are allowed, like annotation values or case labels of switch statements. – Holger Mar 20 at 12:12
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It provides more readability and understanding of how you arrived at a certain number to begin with. Consider the below example

final int red = 1;
final int blue = 1 << 1;
final int magenta = red | blue; // 3

Each bit in the above numbers represent a primary color, and from the code you could easily figure out why I chose 3 for magenta. It wouldn't have been easier for the reader if you directly set the value 3 in the declaration.

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Because it's clearly stated in the Java documentation that default initial capacity must be a power of two. If we were to see just any other integer instead of the bitwise operator, that wouldn't illustrate the limitation so well.

Thus by using a left shift operator, it is letting every developer know that it is there for us to notice a point which one should know, be it while modifying or using the HashMap class.

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    plus one, this makes it clear that it's 2 pow 4, power of two being burned inside a HashMap; for example this is how a bucket is chosen - (n - 1) & hash, only possible when power of two buckets. – Eugene Mar 20 at 10:10

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