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Hi all I was browsing through some of the Java source code when I came across this (java.lang.Character):

public static boolean isHighSurrogate(char ch) {
    return ch >= MIN_HIGH_SURROGATE && ch < (MAX_HIGH_SURROGATE + 1);

public static boolean isLowSurrogate(char ch) {
    return ch >= MIN_LOW_SURROGATE && ch < (MAX_LOW_SURROGATE + 1);

I was wondering why did the writer added 1 to the higher limit and doing a lesser-than compare, instead of simply doing a lesser-than-or-equal compare?

I can understand if it helps readability, but in this case it doesn't seem to be that case.

I was wondering what's the difference between the code above and this:

public static boolean isHighSurrogate(char ch) {
    return ch >= MIN_HIGH_SURROGATE && ch <= MAX_HIGH_SURROGATE;

public static boolean isLowSurrogate(char ch) {
    return ch >= MIN_LOW_SURROGATE && ch <= MAX_LOW_SURROGATE;
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This is a guess, not an answer: Perhaps it's to be consistent with the idiomatic way of writing for loops, e.g. for (i = LOWER_BOUND; i < HIGHER_BOUND; i++). –  Oliver Charlesworth Nov 20 '11 at 20:18
Maybe it was meant to emphasize that ch can also be equal to MAX_[HIGH|LOW]_SURROGATE. "<=" is easier to misread as "<" - and the compiler probably optimizes it to the same bytecode anyway. –  S.L. Barth Nov 20 '11 at 20:18
Well, for one thing, MAX_HIGH_SURROGATE is a char and 1 is an int... there may be some kind of conversion from char to int going on there that may be necessary. –  BoltClock Nov 20 '11 at 20:19
Never mind, I misread the code. Deleted my answer that should have been a comment anyway. –  Dave Nov 20 '11 at 20:37

4 Answers 4

up vote 2 down vote accepted

Perhaps the author is trying to be consistent with Dijkstra's advice to make all ranges half-open -- the start point is inclusive and the endpoint is exclusive.

There is no semantic difference here, but a subtle difference in bytecode: (ch + 1) is an int so the first code snippet does a char to char comparison followed by an int to int comparison while the second does two char to char comparisons. This does not lead to a semantic difference -- the implicit casts are to wider types and so there is no risk of overflow in either code snippet.

Optimizing out the addition and converting the int to int comparison back into a 2 byte unsigned int comparison is well within the scope of the kinds of optimizations done by the JIT so I don't see any particular performance reason to prefer one over the other.

I tend to write this kind of thing as


that way the ch in the middle makes it obvious to a reader that the ch is being tested within the range of the outer values.

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I'd thought it would have made more sense if he used the same comparison for both sides: ch >= (MIN_HIGH_SURROGATE + 0) && ch < (MAX_HIGH_SURROGATE + 1) –  Pacerier Nov 20 '11 at 20:26
@Pacerier, there's many subtly different ways to say the same thing. I'd pick whichever one makes underflow/overflow and off-by-1 errors stand out to you and stick with it. –  Mike Samuel Nov 20 '11 at 20:32

Wild guess

Surrogate character, any of a range of Unicode codepoints which are used in pairs in UTF-16 to represent characters beyond the Basic Multilingual Plane.

In my point of view he wanted to ignore 8 bit stuff, meaning if the max was 0xFF. the 0xFF+1 would overflow and go back to 0x00. Making the comparison always false.

So if the code was compiled with chars of 8 bits. It would always return false (outside of the UTF-16 range) while if it compiles a char in >8 bits the 0xFF+1 would be 0x100 and still work.

Hope this makes some sence for you.

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char is always an unsigned 16-bit integer in java. The max is 0xDBFF and the min is 0xD800. –  Mike Samuel Nov 20 '11 at 23:05

I'd say there is no really difference between the two ways of coding it, its just a matter of taste what you would prefer, since you haven't really any advantages of one of the two different implementations.

I was wondering why did the writer added 1 to the higher limit and doing a lesser-than compare, instead of simply doing a lesser-than-or-equal compare?

I mean, why would you prefer the second choice? Do I miss something here?

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I mean isn't the second choice more readable (makes more logical sense) to you too? –  Pacerier Nov 20 '11 at 20:21
Nope, actually not since I would expect a difference of at least 1 between MAX and MIN and the + 1 brings this out for me, but thats just my pov. –  philomatic Nov 20 '11 at 20:25

Because the author was a C++ or an assembler guy.

It's faster to make a >= than > and it's faster to do <= than <. Actually, when you write a < b the compiler makes a<=b+1, so it makes an addition and a compare, because the only available assembly instruction does <=. If you write that sum in the code by hand, a C++ compiler will change MIN_HIGH_SURROGATE + 1 with the actual value of the result at compile time. So you gain an instruction, and a cycle.

But all this strange reasoning is applying only for compiled code, like C++ or C. Or ASM.


Although there are instructions for each of the equality operators above (I was wrong), they all boil down to subtractions and (if needed) additions in microcode. Then the processor checks the sign bit of the result. So the above code formulation will still be faster.

To make sure there are no overflows when adding 1, the microprocessor first subtracts, then adds one.

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By that logic, if b is MAX_VALUE, then wouldn't that mean a < b gives overflow (which doesn't) ? –  Pacerier Nov 20 '11 at 20:24
You must make sure it doesn't happen. It's the programmer's job. –  sammy Nov 20 '11 at 20:25
On x86, at least, there are instructions for <= and <. Same for Java bytecode. Neither should be faster than the other. Consequently, I doubt the compiler converts one into the other. –  Oliver Charlesworth Nov 20 '11 at 20:27
I mean in java when we do a < MAX_VALUE there isn't an overflow.. –  Pacerier Nov 20 '11 at 20:29
So it's possible that I am wrong... On the other hand, it's possible that the asm < is converted to <= r+1 by microcode. –  sammy Nov 20 '11 at 20:29

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