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In reference to the link: File IO Tuning, last section titled "Further Tuning" where the author suggests using char[] to avoid generating String objects for n lines in the file, I need to understand how does

char[] arr = new char{'a','u','t','h', 'o', 'r'}

differ with

String s = "author"

in terms of memory consumption or any other performance factor? Isn't String object internally stored as a character array? I feel silly since I never thought of this before. :-)

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That article is over 10 years old. Is that want you are really looking for? –  Dmitry Beransky Nov 18 '11 at 23:47
The reasons are explained in the (really old) article as well. –  Dave Newton Nov 18 '11 at 23:54
@DmitryBeransky: Thanks for pointing that out. But isn't that still "advised" a lot i.e. using char[] ? –  name_masked Nov 19 '11 at 5:04
no, not as a rule of thumb –  Dmitry Beransky Nov 19 '11 at 5:19

4 Answers 4

up vote 4 down vote accepted

In Oracle's JDK a String has four instance-level fields:

  • A character array
  • An integral offset
  • An integral character count
  • An integral hash value

That means that each String introduces an extra object reference (the String itself), and three integers in addition to the character array itself. (The offset and character count are there to allow sharing of the character array among String instances produced through the String#substring() methods, a design choice that some other Java library implementers have eschewed.) Beyond the extra storage cost, there's also one more level of access indirection, not to mention the bounds checking with which the String guards its character array.

If you can get away with allocating and consuming just the basic character array, there's space to be saved there. It's certainly not idiomatic to do so in Java though; judicious comments would be warranted to justify the choice, preferably with mention of evidence from having profiled the difference.

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In the example you've referred to, it's because there's only a single character array being allocated for the whole loop. It's repeatedly reading into that same array, and processing it in place.

Compare that with using readLine which needs to create a new String instance on each iteration. Each String instance will contain a few int fields and a reference to a char[] containing the actual data - so it would need two new instances per iteration.

I'd usually expect the differences to be insignificant (with a decent GC throwing away unused "young" objects very efficiently) compared with the IO involved in reading the data - assuming it's from disk - but I believe that's the point the author was trying to make.

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The author didn't get the reason right. The real overhead in in.readLine() is the copying a char[] buffer when making a String out of it. The additional copying is the most damning cost when dealing with large data.

It is possible to optimize this within JDK so that the additional copying is not needed.

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My answer is going to focus on other stack questions along this similar line, others have already posted more direct answers.

There have been other questions similar to this, advice seems to go along the lines of using StringBuilder.

If you're concerned with string concentenation this have a look at the performance as described here between three different implementations. With another stack post which can give you some additional pointers and examples you could try yourself to see the performance.

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