# Detecting integer truncation [duplicate]

Possible Duplicate:
Best way to detect integer overflow in C/C++

What is the best way to detect if integer truncation occurred?
Edit
This should cause truncation being signalled but it doesn't

``````#include <iostream>

using std::cout;
typedef signed int int32_t;
typedef unsigned int uint32_t;
typedef signed short int16_t;
typedef unsigned short uint16_t;

int32_t my32bitInt = 0xffffffff;

int32_t tmp = my32bitInt & 0xFFFF8000;

uint16_t ss = my32bitInt;

int main()
{

if (tmp != 0xFFFF8000 && tmp != 0x00000000)
{ // cannot be converted safely
cout << "truncation";
}
cout << ss << '\n';
cout << my32bitInt << '\n';
return 0;
}
``````

Edit 2

``````template <typename U, typename T>
bool is_safe(T t)
{
return sizeof(U) <= sizeof(T) ?
(t >= static_cast<T>(std::numeric_limits<U>::min()))
&& (t <= static_cast<T>(std::numeric_limits<U>::max())) : true;
}
``````

Edit 3 (Based on Oli's <>) - I found some problems, but working on it, will update asap

template bool is_safe(Source value) {

``````if (sizeof(Result) == sizeof(Source))
{/*Same size*/

if (std::is_same<Source,Result>::value)
{
//signed to signed or unsigned to unsigned when size is same - no problem
return true;
}
else
{
//MSB mustn't be set in Source
return !(value & (1u << ((sizeof(Source) * CHAR_BIT) - 1)));
}
}
else
{//smaller to larger and larger to smaller

if (sizeof(Result) <= sizeof(Source))
{ //Larger to smaller and both equal
return ((value >= static_cast<Source>(std::numeric_limits<Result>::min()))
&& (value <= static_cast<Source>(std::numeric_limits<Result>::max())));
}
else
{ //smaller to larger

if (std::is_signed<Source>::value && !std::is_signed<Result>::value)
{
//signed to unsigned - signed must be positive
return (value >= 0);
}
else
{
return true;
}
}
}
``````

}

-

## marked as duplicate by Sankar Ganesh, Cody Gray, Matthieu M., Graviton, Bart KiersApr 20 '11 at 18:53

what do you mean by "truncation"? overflow? – Mat Apr 16 '11 at 9:18
I thought I saw this question earlier this week, but I can't find it now. – Robin Green Apr 16 '11 at 9:27
Follow up: Google is telling me that integer truncation can mean converting a fractional type to an adjacent integer, e.g. 3.21 to 3 – Jim Blackler Apr 16 '11 at 9:33
Care to explain the difference, then? And what you define "integer truncation" as? Obviously people aren't sure what you mean by that. – Cody Gray Apr 16 '11 at 9:43
From Wikipedia: "In mathematics and computer science, truncation is the term for limiting the number of digits right of the decimal point, by discarding the least significant ones." – Potatoswatter Apr 16 '11 at 12:09

You can check that the value is the same after the assignment.

``````smallInt = largeInt;

if (smallInt != largeInt)
{
// Truncation
}
``````

Or, you could check with a mask before:

``````if (my32bitInt & 0xFFFF0000)
{
// Can't be assigned to a 16 bit value.
}
``````
-
@Lindydancer yep, that's the solution (the second one) I was hoping for. Funny though how many people (those who either voted to close or posted dummy comments) don't see difference between overflow and truncation. Thanks again. – There is nothing we can do Apr 16 '11 at 9:41
That second method won't work with negative numbers (assuming two's complement). – Oliver Charlesworth Apr 16 '11 at 9:53
@Lindydancer correct me if I'm wrong but your solution (the second one) works only on positive numbers isn't that so? – There is nothing we can do Apr 16 '11 at 9:55
@Oli I just thught so. – There is nothing we can do Apr 16 '11 at 9:55
@Lindy what I'm looking for is some bitwise "trick" which would allow me to do this check (on signed and unsigned) – There is nothing we can do Apr 16 '11 at 9:56

See Boost Numeric Conversion, specifically `numeric_cast`.

-
+1 Sweet! I didn't know that existed. That's my answer, but done properly. – Oliver Charlesworth Apr 16 '11 at 13:22

If you want to check without doing the conversion, in a type-safe manner, how about the following:

``````template <typename U, typename T>
bool is_safe(T t)
{
return (t >= (T)std::numeric_limits<U>::min())
&& (t <= (T)std::numeric_limits<U>::max());
}

int main()
{
int32_t a = -32768;
int32_t b = +32768;
int32_t c = +32767;
int32_t d = -32769;
std::cout << is_safe<int16_t>(a) << std::endl;  // 1
std::cout << is_safe<int16_t>(b) << std::endl;  // 0
std::cout << is_safe<int16_t>(c) << std::endl;  // 1
std::cout << is_safe<int16_t>(d) << std::endl;  // 0
}
``````

Obviously this will break if `U` is a bigger type than `T`, but I'm sure it could be adapted.

-
what about this ... check my edit. – There is nothing we can do Apr 16 '11 at 11:59
@There: That indeed catches most cases. However, one case I can think of is if e.g. `T` is `int16_t` and `U` is `uint16_t`. But I bet with a bit more work, things like that can be solved. Of course, the easiest thing to do is simply to use @LindyDancer's original test. – Oliver Charlesworth Apr 16 '11 at 12:03
I just wonder what is the performance cost between doing the let's say lindy's method and fancy template checking. Because if lindy's is more efficient there is really little point of doing the whole sophisticated "templated" stuff. – There is nothing we can do Apr 16 '11 at 13:34

The safest way is to check it before doing the conversion. These templates do exactly that. Example:

``````/* unsigned -> signed, overflow */
safe_cast<short>(UINT_MAX);

/* unsigned -> unsigned, overflow */
safe_cast<unsigned char>(ULONG_MAX);

/* signed -> unsigned, overflow */
safe_cast<unsigned long>(-1);

/* signed -> signed, overflow */
safe_cast<signed char>(INT_MAX);

/* always works (no check done) */
safe_cast<long>(INT_MAX);

// giving these assertion failures results
(type)f <= (type)is_signed<To>::v_max
f <= (To)-1
f >= 0
f >= is_signed<To>::v_min && f <= is_signed<To>::v_max
``````
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I've "improved" Oli's <> (see Edit 3) so I think it covers every case and it's "bit" less complicated than your solution (although excellent). I wonder what you think of my approach? – There is nothing we can do Apr 16 '11 at 14:24

I'm not a C++ programmer but i think you should do something like this:

``````#include <iostream.h>

int main()
{

float number = 0.001;
if ((int) number == number)
{

cout << "Hello world";
}
return 0;
}
``````

Hope that is a correct solution.

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I can't see any good reason (length of code, copyright on code, etc) to have the code not be in the answer, so I've copied it into the answer. – Rob Apr 16 '11 at 14:36
Thank u! It's just that i've already had written it there, cause i didn't have a compiler on my machine :D. – Anton Petrov Apr 18 '11 at 10:30