8

Consider the following conditions:

if(a < 10)

and

if(a <= 9)

Considering only int.

I know these conditions serve the same purpose and the processing difference would be negligible. Yet, what can be the processing difference between the two?

closed as primarily opinion-based by devnull, Suresh Atta, Laurent S., Robert Merkwürdigeliebe, ratchet freak Apr 11 '14 at 12:07

Many good questions generate some degree of opinion based on expert experience, but answers to this question will tend to be almost entirely based on opinions, rather than facts, references, or specific expertise. If this question can be reworded to fit the rules in the help center, please edit the question.

  • 1
    The difference is huge if a is of double type :) – Mercurial Apr 11 '14 at 11:07
  • 5
    @Mercurial Explain. – h0ussni Apr 11 '14 at 11:10
  • 2
    Then I'm preempting you with a vote to close as "too broad", which it is already, anyway. – Marko Topolnik Apr 11 '14 at 11:12
  • 1
    And of course, you are asking about the Cartesian product of Language X type. – Marko Topolnik Apr 11 '14 at 11:16
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    @GauravBhor ok, then the answer is "it depends". What CPU? Also, consider that the source is not what is executed. Comparison with a constant is something that the compiler can trivially rewrite to use the fastest comparison. – harold Apr 11 '14 at 11:47
6

For int and long there is no real difference as they both deal in whole numbers.
This is because 9 is the next valid value below 10.

But for float, double and other types that can hold values smaller than a whole number there is a big difference.

Consider how these numbers would be handled by your two cases:

float a = 9.0
float b = 10.0
float c = 9.5

Edit:

In the first case if (val < 10):

a < 10  ... true
b < 10  ... false
c < 10  ... true    <--- note this

Second case if (val <= 9):

a <= 9  ... true
b <= 9  ... false
c <= 9  ... false    <--- note this

And this is all assuming that you end up with 'clean' numbers and rounding or division errors are not introduced such as 9.99999999999 and 10.000000000001 through any calculations you may be performing.

When comparing floating point numbers you should use that class's built-in compare method.

a.compare(value) < 0  ... true if 'a' is smaller than 'value'
a.compare(value) > 0  ... true if 'a' is bigger than 'value'
a.compare(value) == 0 ... true if 'a' is equal to 'value'
  • I just needed the difference for integer types. I have edited the question accordingly. – Gaurav Bhor Apr 11 '14 at 11:22
  • I started my answer when you had said you would expand the question to include both groups of numerical types. I'll leave it here as it answers the amended question but has further information for any future readers. – indivisible Apr 11 '14 at 11:25
  • 2
    Note that this is why you have {Double,Float}.compare() – fge Apr 11 '14 at 11:28
  • Good point, I'll throw that in too. – indivisible Apr 11 '14 at 11:29
1

For integers, there is no difference in the logical flow of the program.

But different standard solutions use one of the symbols out of tradition, and as such unofficial standards stick, it increases readability to use the "correct" symbol becasue people are used to it.

Performancewise, talking about languages that compile to Assembler, they both (on most architectures) translate to one direct processor instruction (conditional jump), making them pretty much the same.

  • I just needed the difference for integer types. I have edited the question accordingly. – Gaurav Bhor Apr 11 '14 at 11:23
  • @GauravBhor edited, thanks for notifying – LionC Apr 11 '14 at 11:27
1

<= can be useful, if you have an "end point" rather than a "length". For example, take this:

for (int i = 1; i <= 16; i <<= 1)
{
    gz = (~(~gz << i) | pz) & gz; // this is just an example
    go = (go << i) & po | go;
}

Alternatively one could write the condition as i < 17, or i < 32, which might make more sense, but either way hides the fact that 16 is the important number.

<= can also be dangerous, consider:

for (int i = 0; i <= x; i++)
{
    // anything
}

Why dangerous? If x = Integer.MAX_VALUE, this is a sneaky infinite loop. Sneaky because it doesn't look like an infinite loop. It's especially sneaky since it's probably a very rare occurrence for x to be Integer.MAX_VALUE, so it'll likely be a bug waiting to happen for a long time and then it suddenly pounces, causing unexpected negative values of i. For shorter types this sort of thing is probably more likely happen.

  • +1 Of course, none of this "helps" OP to see which is more peformant :) – Marko Topolnik Apr 11 '14 at 11:53
0

Considering only int

There is no real difference both are equal, if you run performance test it will produce random result, resulting that both are equal.

  • if '9' and '10' are constants, it'll even compile to the exact same opcodes. – Mikkel Løkke Apr 11 '14 at 11:30
  • @MikkelLøkke do they? there are actually two different assembler instructions (at least on x86) for it – LionC Apr 11 '14 at 11:33
  • @LionC Yeah, there are also 2 separate for Java bytecode instructions aswell. However modern compilers do not simply translate instructions from source code to object code. They will often restructure the code according to the syntax tree. While it will naturally depend largely on the compiler, it is likely that any type of constant comparison will end up being identical. – Mikkel Løkke Apr 11 '14 at 14:19
0

Well, even if the number is int (for float and double, <= 9 is not same as < 10), <=9 and < 10 are same meaning, but comparing with <= requires two checks < as well as == whereas < is just a less than, < seems better

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