6

Can someone please answer for me why this assertion fails

XCTAssertEqualWithAccuracy (1.56, 1.57, .01, @"");

while this one works

XCTAssertEqualWithAccuracy (1.56, 1.57, .02, @"");

I would think that 1.56 is +- .01 away from 1.57, so it shouldn't fail.

1
  • 2
    Cos they're floating point numbers. Widen the tolerance value. I.e 0.11
    – trojanfoe
    Feb 11 '14 at 21:52
14

You thought is wrong. You think in decimal numbers but use floating-point. In floating-point arithmetic 1.56 is more than 0.01 away from 1.57, because none of these numbers can be represented accurately. Try this:

#define printf(...) CFShow([NSString stringWithFormat:@""__VA_ARGS__]) // makes it look like C
printf("1.56                 = %.20f", 1.56);
printf("1.57                 = %.20f", 1.57);
printf("0.01                 = %.20f", 0.01);
printf("1.57 - 1.56          = %.20f", 1.57 - 1.56);
printf("(1.57 - 1.56) - 0.01 = %.20f", (1.57 - 1.56) - 0.01);

then marvel at your console which shows

1.56                 = 1.56000000000000005329
1.57                 = 1.57000000000000006217
0.01                 = 0.01000000000000000021
1.57 - 1.56          = 0.01000000000000000888
(1.57 - 1.56) - 0.01 = 0.00000000000000000867

If you wonder why, just google "floating point", find many excellent explanations, and read up on one of the basics of computing.

Your Answer

By clicking “Post Your Answer”, you agree to our terms of service, privacy policy and cookie policy

Not the answer you're looking for? Browse other questions tagged or ask your own question.