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i would like to know which one of these assignments is faster, safer, better etc. and possibly why:

int choice = fgetc(stdin);
unsigned int bSize;

choice = fgetc(stdin)


bSize = (choice == 'y' || choice == 'Y') ? 256 : 128;


bSize = 128 + ((choice == 'y' || choice == 'Y') << 7);


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Reading in the character from the file is going to eclipse the time it takes to execute either line. –  Cameron Apr 28 '12 at 18:41
Surely 1 is more readable. Whatever the compiler produces in this situation is unlikely to have a noticeable impact on performance. –  DCoder Apr 28 '12 at 18:41
@DCoder: +1 - readability is far more important in this case then minor hypothetical (and premature) micro-optimisations –  Paul R Apr 28 '12 at 19:01

2 Answers 2

up vote 1 down vote accepted

Regarding speed, this would be at least as fast as choice 2:

bSize = 128 << (choice == 'y' || choice == 'Y');

Whether that would be faster than choice 1 is not immediately obvious to me. However, for tuned performance on an unknown platform, I think that I like the suggested variant on choice 2. The reason is that, at the hardware level, choice 2 (original or variant) does not involve reloading the program counter, but invokes a relatively straightforward shift-register operation, involving relatively few transistors. (Actually, if you want to get really technical about it, I am given to understand that the shift is probably accomplished by multiplexing. To detail that would be too much for the present format, but the point is that the output of (choice == 'y' || choice == 'Y') is effectively piped straight to one of the multiplexer's control lines. Anyway, it's really fast.)

Regarding whether one can safely use the evaluated condition in the manner suggested, ISO/IEC 9899:1999 (E), sect., guarantees that one can safely do this. It reads, "The || operator shall yield 1 if either of its operands compare unequal to 0; otherwise, it yields 0. The result has type int."

(@PaulR rightly observes that electronic-theoretical considerations like the ones this answer offers are not decisive. One must profile actual code on an actual platform to tell for sure which is faster. Nor is this a mere quibble on @PaulR's part. It is all well to argue that choice 2 would be faster, but this does not mean that is is faster. Depending on the CPU in use, branch-predicting or other hardware could promote choice 1, nor would I be extremely surprised if it did.)

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Yeah, i guess like this it would be even faster than choice 2, still is it 100% safe to use evaluated condition as variable ? –  Neko Apr 28 '12 at 18:47
-1: you really can't make any general predictions about the efficiency of the above examples, particularly without knowing anything about the specific compiler or platform –  Paul R Apr 28 '12 at 18:57
@Neko: It's safe. I have modified the answer above to explain why. –  thb Apr 28 '12 at 18:57
@thb That's what i wanted to know, thank you very much :) –  Neko Apr 28 '12 at 19:02
@PaulR: Wow, you're a tough audience. Of course you are right, but general electronic principles do come to bear, whether the C standard guarantees their preformance or not. I suspect that multiplexing a bit-shift is cheaper than invoking the CPU's branch-prediction hardware, especially if the brand-predictor guesses wrong and has to flush a pipeline. But what do I know? Nevertheless, your point is well taken (though I'm admittedly a little grumpy about the downvote). –  thb Apr 28 '12 at 19:04

In my opinion 'Choice 1' is 'faster' because there's only one assignment operation done after the comparison. In 'Choice 2' it does '+' and '<<' along with the comparison part. 'Choice 1' is 'safer' because it is more readable than the other choice so programmer will have less chance to do error in writing it. Choice 1 is 'better' because of the previous two reasons.

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The only problem is that choice 1 is using branching (some compare and jump instruction), where choice 2 is not. –  Neko Apr 28 '12 at 18:56
@Neko: You can't know whether the compiler will use branches or not, or what the penalty for branches might be without knowing details of the platform etc –  Paul R Apr 28 '12 at 18:58
-1: all predictions are meaningless without taking compiler and platform into consideration –  Paul R Apr 28 '12 at 19:00
[sorry,comments don't allow newlines]Dear Neko, I understand what you thought. But look at the code generated by 'gcc' with '-S' option: Choice 1: movl %eax, -4(%rbp) cmpl $121, -4(%rbp) je .L2 cmpl $89, -4(%rbp) jne .L3 .L2: movl $256, %eax jmp .L4 .L3: movl $128, %eax .L4: movl %eax, -8(%rbp) movl $0, %eax leave Choice 2: movl %eax, -4(%rbp) cmpl $121, -4(%rbp) je .L2 cmpl $89, -4(%rbp) jne .L3 .L2: movl $1, %eax jmp .L4 .L3: movl $0, %eax .L4: sall $7, %eax subl $-128, %eax movl %eax, -8(%rbp) movl $0, %eax leave See, the L4 section in both cases. Choice is yours. –  Ayub Apr 28 '12 at 19:06
Yes, I agree with Paul R, it is Platform and/or Compiler specific. –  Ayub Apr 28 '12 at 19:17

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