# Why is (1/2)*x different from 0.5*x?

This behaves as wanted:

``````double t = r[1][0] * .5;
``````

But this doesn't:

``````double t = ((1/2)*r[1][0]);
``````

`r` is a 2-D Vector.

Just thought of a possibility. Is it because (`1/2`) is considered an `int` and `(1/2) == 0`?

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Why is a basic problem about integer vs float types being voted up? –  tbert Mar 19 '12 at 7:37
Not only basic, but the OP already had the answer but didn't try it. Votes are so random in SO... –  Franck Dernoncourt Mar 19 '12 at 9:28
It's getting extra eyeballs because it is a "hot question" in StackExchange. Extra eyeballs = extra votes. –  Mark Hurd Mar 19 '12 at 10:31
"Votes are so random in SO" I would go further, votes are 99% bonkers in SO (but it's still fun). –  Beetroot-Beetroot Mar 19 '12 at 10:49
6 upvotes for a silly question. I cant believe this!! –  Abhinav Mar 21 '12 at 8:13

Is it because (1/2) is considered an int and (1/2) == 0?

Yes, both of those literals are of type `int`, therefore the result will be of type `int`, and that result is 0.

Instead, make one of those literals a `float` or `double` and you'll end up with the floating point result of `0.5`, ie:

`double t = ((1.0/2)*r[1][0]);`

Because `1.0` is of type `double`, the `int` 2 will be promoted to a `double` and the result will be a `double`.

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45 upvotes so far, no kidding. –  Alexey Frunze Mar 22 '12 at 7:07

``````  double t = ((1/2.0)*r[1][0]);
``````

`1 / 2` is an integer division and the result is `0`.

`1 / 2.0` is a floating point division (with `double` values after the usual arithmetic conversions) and its result is `0.5`.

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Because `1/2` is `int`/`int` division. That means whatever is the result will have anything after the decimal point removed (truncated). So `1/2` = 0.5 = 0.

Normally I always write the first number in `double` : `1.0/2` …..

If you make the very first number a `double` then all remaining calculation is done in `double` only.

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Doesn't have to be the first number, just one of them at least. –  Marlon Mar 19 '12 at 6:36
Just make a habit of using first number as float then you won't run into surprises. Another good habit is to start with 1.0 * .... –  AgA Mar 19 '12 at 6:44
Note that in `2.0 * x + (7 / 5)`, the first number is a `double` and the OP's issue is still present. –  Pascal Cuoq Mar 19 '12 at 9:36
You're right, but this is the best we can do to minimize such issues. –  AgA Mar 21 '12 at 4:08
``````double t = r[1][0] * .5;
``````

is equivalent to:

``````double t = ((1/2f)*r[1][0]);
``````

and not:

``````double t = ((1/2)*r[1][0]);
``````

Due to loss of decimal part when the temporary result of 1/2 is stored in an `int` variable.

As a guideline whenever there is a division and there is a possibility of the answer being real number, do not use `int` or make one of the operands `float` or `double` or use cast.

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You can write 1.0/2.0 instead. 1/2 displays this behaviour because both the denominator and numerator act are of an integer type and a variable of an integer type divided by another variable of an integer type is always truncated to an integer.

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I cannot merit or demerit the standard of the question but this seem very critical issue to me. We assume that compiler will do the laundry for us all the time , but that is not true some times.

Is there any way to avoid this situation ?

Possibly

OR

More importantly knowing the monster (`C`,`C++`) as most of the people point out above

I would like to know if there are other ways to trace these "truncation" issues at compile time

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How about knowing the language, and testing your code? –  Jonathon Reinhart Mar 25 '12 at 16:25
@JonathonReinhart no argument over that :) But in my view its over-engineering and unexpected (in mathematical sense ) . You learn sth from 2nd or 3rd grade onward and suddenly some compiler engineers decide to change the mathematical logic .. .. and computers are for humans not vice versa. Human habits are hard to change. Just a humble opinion :) –  sakhunzai Mar 27 '12 at 17:24