# Inconsistent results while printing float as integer [duplicate]

Possible Duplicate:
print the float value in integer in C language

I am trying out a rather simple code like this:

float a = 1.5;
printf("%d",a);

It prints out 0. However, for other values, like 1.4,1.21, etc, it is printing out a garbage value. Not only for 1.5, for 1.25, 1.5, 1.75, 1.3125 (in other words, decimal numbers which can be perfectly converted into binary form), it is printing 0. What is the reason behind this? I found a similar post here, and the first answer looks like an awesome answer, but I couldn't discern it. Can any body explain why is this happening? What has endian-ness got to do with t?

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## marked as duplicate by Jon Skeet, Adam Rosenfield, Barmar, Bo Persson, MikeNov 1 '12 at 17:15

Yeah I know. That is the link I provided in my question! –  Cupidvogel Nov 1 '12 at 17:11
Take a look into how floating point numbers and integers are stored in bits. –  Benedict Cohen Nov 1 '12 at 17:12
@Cupidvogel: Yes, I know it is. You're basically asking the same question again because you didn't understand the answer. You should have added a comment on the accepted answer, requesting clarification. –  Jon Skeet Nov 1 '12 at 17:13
Most of the times I do it, people don't respond. That's why I asked it again. Plus the answer, while concise, is a bit too hard to grasp for me, given I am new to C. So I thought I could do with a detailed explanation. –  Cupidvogel Nov 1 '12 at 17:15
Why are you guys always scouting around for opportunities to close questions, delete questions, downvote, etc? Do you earn points just to be able to do that? Does doing these things give you a sense of power? It is one thing to try and maintain the site's standards by being responsible, it is another thing to go out of the way and let that be your raison d'etre, even when it is very inconvenient to the OP. –  Cupidvogel Nov 1 '12 at 17:19

you're not casting the float, printf is just interpreting it as an integer which is why you're getting seemingly garbage values.

Edit:

Check this example C code, which shows how a double is stored in memory:

int main()
{
double a = 1.5;
unsigned char *p = &a;
int i;

for (i=0; i<sizeof(double); i++) {
printf("%.2x", *(p+i));
}
printf("\n");
return 0;
}

If you run that with 1.5 it prints

000000000000f83f

If you try it with 1.41 it prints

b81e85eb51b8f63f

So when printf interprets 1.5 as an int, it prints zero because the 4 LSBs are zeros and some other value when trying with 1.41.

That being said, it is an undefined behaviour and you should avoid it plus you won't always get the same result it depends on the machine and how the arguments are passed.

Note: the bytes are reversed because this is compiled on a little indian machine which means the least significant byte comes first.

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This is not garbage value. For those numbers, it always prints a 0. There is a logic behind it, I want to understand that. –  Cupidvogel Nov 1 '12 at 17:11
@Cupidvogel I didn't say it was garbage, I said it seems so because printf is trying to interpret the float (or double) as int and that's the logic behind it –  mux Nov 1 '12 at 17:15
The fact that you always get the same garbage value doesn't mean that there is some logic behind it. Just that the computer executes the same instructions every time. –  Bo Persson Nov 1 '12 at 17:16
@BoPersson actually there's logic behind it, check the question linked in the OP's question –  mux Nov 1 '12 at 17:17
When printf is passed the “%d” specification with a double argument, printf likely tries to interpret something as an integer, but you cannot rely on it being the bits of the double. In many implementations, floating-point values are passed in different registers from integer values. So, when printf attempts to format an argument for the “%d”, it will use bits completely unrelated to the double value. –  Eric Postpischil Nov 1 '12 at 17:47

d stands for : decimal. so, nevertheless a is float/double/integer/char,.... when you use : "%d", C will print that number by decimal. So, if a is integer type (integer, long), no problem. If a is char : because char is a type of integer, so, C will print value of char in ASCII.

But, the problem appears, when a is float type (float/double), just because if a is float type, C will have special way to read this, but not by decimal way. So, you will have strange result.

Why has this strange result ?

I just give a short explanation : in computer, real number is presented by two part: exponent and a mantissa. If you say : this is a real number, C will know which is exponent, which is mantissa. But, because you say : hey, this is integer. no difference between exponent part and mantissa part -> strange result.

If you want understand exactly, how can know which integer will it print (and of course, you can guess that). You can visit this link : represent FLOAT number in memory in C

If you don't want to have this trange result, you can cast int to float, so, it will print the integer part of float number.

float a = 1.5;
printf("%d",(int)a);

Hope this help :)

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I have edited some part. hope this help you :) –  hqt Nov 1 '12 at 17:20

Mismatch of arguments in printf is undefined beahivour either typecast a or use %f

use this way

printf("%d",(int)a);

or

printf("%f",a);
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You don't take care about argument promotions. Because printf is a variadic function, the arguments are promoted:

C11 (n1570), § 6.5.2.2 Function calls
arguments that have type float are promoted to double.

So printf tries to interpret your double variable as an integer type. It leads to an undefined behavior. Just add a cast:

double a = 1.5;
printf("%d", (int)a);
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Okay, it gets promoted to double. What happens then? –  Cupidvogel Nov 1 '12 at 17:16
It is incorrect to assert that printf tries to interpret the double variable as an integer type. The actual behavior is up to the implementation. Commonly, the double is passed in a completely different register from where an integer is passed. When printf attempts to read an integer argument, it reads the register where it expects to find an integer argument. The contents of that register are likely completely unrelated to the value of the double. –  Eric Postpischil Nov 1 '12 at 17:43