Why does division result in zero instead of a decimal?

Teaching myself C and finding that when I do an equation for a temp conversion it won't work unless I change the fraction to a decimal. ie,

`tempC=(.555*(tempF-32))` will work but `tempC=((5/9)*(tempF-32))` won't work.

Why?
According to C Primer Plus it should work as I'm using floats for both tempC and tempF.

-

It looks like you have integer division in the second case:

``````tempC=((5/9)*(tempF-32))
``````

The `5 / 9` will get truncated to zero.

To fix that, you need to make one of them a floating-point type:

``````tempC=((5./9.)*(tempF-32))
``````
-
It's truncation, though, not rounding. –  Joshua K Jan 18 '12 at 7:43
Thanks for the terminology fix. :) –  Mysticial Jan 18 '12 at 7:44
doh! Thanks... that makes sense now. I saw some examples with the decimal in it but the penny didn't drop. Thank you everyone! –  Chef Flambe Jan 18 '12 at 7:46
To be picky, the 5.0 / 9.0 syntax gives two doubles. If tempF and tempC are `float` then the expression should be 5.0f / 9.0f. Otherwise the division might be performed on double precision, which is then rounded to float precision when its result is stored. Hopefully the compiler is smart enough to optimize that minor little issue away, but I wouldn't count on it. –  Lundin Jan 18 '12 at 12:53
@Lundin it can't optimize that out; if double precision is used, it must be done that way, or an unexpected answer may arise. –  rubenvb Jul 16 '13 at 14:40

Others have already told you, 5 and 9 are both integers and that is why the result gets truncated.

I will add an explanation for deeper understanding of what really goes on between the lines:

``````double tempC;
double tempF;
tempC = (5/9) * (tempF-32); // removed unnecessary parenthesis
``````

Depending on which order of evaluation, left-to-right or right-to-left, that your specific compiler uses, it will either start evaluating the sub-expression `(5/9)` or `(tempF-32)`.

You cannot know which of these two that is evaluated first! Because the order of evaluation is unspecified behavior in C, meaning that the compiler may do it either way without documenting how. Therefore, one should never write code relying on the order of evaluation, or it will not be portable and possibly incorrect.

Let us assume that one specific compiler uses left-to-right evaluation.

• The operator precedence rules of C decide where evaluation starts. The parenthesis operator has the highest priority in C, so the compiler will start by evaluating the contents of the first parenthesis encountered.
• It will therefore start with the expression `(5/9)`.
• The compiler checks the type of each operand.
• In this case they are both constant integer literals. Integer literals are always of the type `int` in C.
• Since both operands are of the same type, no implicit type conversions are needed.
• The calculation is performed on an `int` type and the result is an `int`.

So now the expression is now evaluated to:

`tempC = (int)0 * (tempF-32);`

• The compiler then evaluates (tempF-32).
• The types of the operands are `double` and `int`. They are not of the same type.
• Implicit type conversions take place. In this case something called balancing (formally called the usual arithmetic conversions).
• The balancing rules say that if one type is double and the other is something else, the other type should be converted to double.
• After the implicit type conversion the expression is now equivalent to `(double)tempF - (double)32.0`. The result of this is calculated and stored in a temporary, invisible variable of type `double`. This invisible variable is stored in a CPU register or on the stack.

Now the expression can be described as

`tempC = (int)result1 * (double)result2;`

where "result1" is 0 and "result2" is the result of tempF - 32.0.

• The compiler then evaluates this new expression. It finds an `int` and a `double`.
• Again, balancing occurs and the int is converted to a double.
• The multiplication is performed on two doubles, and the result is a double.
• The result is stored in yet another temporary, invisible variable.

`tempC = (double)result3;`

• The compiler evaluates this new expression. It finds that a double should be saved inside a double. That is not a problem, so no implicit conversions are needed. "result3" is stored in tempC.
-
The order of evaluating subexpressions doesn't matter at all here, since neither has any side effects. –  aschepler Jul 15 '13 at 13:12
The order of evaluation would matter only if you wrote it like this: `5/9*(tempF-32)` now all unnecessary parentheses are removed. Evaluated from tempF "outwards" would yield a double. If you put `(5/9)*anything` it will always be `0`, unless some compiler would magically up-cast such expression, which probably would even be against standard, but I won't bet on it. –  luk32 Jul 15 '13 at 13:27

When you do 5/9, 5 and 9 are both integers and integer division happens. The result of integer division is an integer and it is the quotient of the two operands. So, the quotient in case of 5/9 is 0 and since you multiply by 0, tempC comes out to be 0. In order to not have integer division, atleast one of the two operands must be `float`.

E.g. if you use 5.0/9 or 5/9.0 or 5.0/9.0, it will work as expected.

-

`5/9` is an integer expression, as such it gets truncated to 0. your compiler should warn you about this, else you should look into enabling warnings.

-
I really don't see why it should warn. There is no way for the compiler to tell what value someone wants their integer constants to be. –  Lundin Jan 18 '12 at 7:59
@Lundin: thats why it would be a (pedantic) warning. if a constant integer expression yields zero, it should either be zero or there was an oversight. –  Necrolis Jan 18 '12 at 8:31
Not necessarily, there may be many cases where you would want a constant expression with the result 0. For example `result = SOME_CONSTANT & MASK;` may very well result in zero. Lets say you have similar bit masking operations all over the code, with different masks. You wouldn't want hundreds of warnings then, why should you be punished just because you write generic, consistent code without any magic numbers in it? –  Lundin Jan 18 '12 at 12:45
@Lundin: but thats not a division, I'm only referring to division here. –  Necrolis Jan 18 '12 at 13:22
`SOME_CONSTANT / SOMETHING` isn't really any different from my example. Lets say that the constant states the number of outputs this build of the program is using, and the division is used to calculate the nature of the output. –  Lundin Jan 18 '12 at 15:08

5/9 is an integer division not a floating point division. That's why you are getting wrong result.

Make 5 or 9 floating point variable and you will get correct answer.

Like 5.0/9 OR 5/9.0

-
Agreed. It is always good practice to also add the `f` denoting floating point to constants. Likewise the `u` for unsigned integer constants –  Andrew Oct 27 '12 at 20:32

If you put 5/9 in parenthesis, this will be calculated first, and since those are two integers, it will be done by integer division and the result will be 0, before the rest of the expression is evaluated.

You can rearrange your expression so that the conversion to float occurs first:

`tempC=((5/9)*(tempF-32));``tempC=(5*(tempF-32))/9;`

or of course, as the others say, use floating point constants.

-
Even if they were not in parenthesis, they could still be evaluated as integers. The order of evaluation of this expression is unspecified behavior in C, the compiler may chose to evaluate left-to-right or right-to-left, and you cannot know which order of evaluation that applies. –  Lundin Jan 18 '12 at 7:57
Not entirely true. The parenthesis do have an effect! If you make sure that the first calculation that is performed results in a float, the rest of the expression will not revert back to integer. I've augmented my answer to show what I mean. –  Mr Lister Jan 18 '12 at 8:33
The rewritten example is not equivalent to removing the parenthesis, you have intentionally changed the order of evaluation. `tempC= 5/9 * (tempF-32);` is an example with the parenthesis removed. This example may or may not give the desired result, depending on whether the compiler evaluates left-to-right or right-to-left - it relies on unspecified behavior. –  Lundin Jan 18 '12 at 12:02
I'm not sure what you're trying to prove here. My example rewrote the OP's expression so that it works. Which is what they asked for. –  Mr Lister Jan 18 '12 at 13:07