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My code is the following:

#include <iostream>
#include <sys/time.h>
using namespace std;

int main(int argc, char** argv) {

                struct timeval m_timeEnd, m_timeCreate, m_timeStart;
        long mtime, alltime, seconds, useconds;


        gettimeofday(&m_timeEnd, NULL);
        seconds  = m_timeEnd.tv_sec  - m_timeStart.tv_sec;
        useconds = m_timeEnd.tv_usec - m_timeStart.tv_usec;

        mtime = (long) (((seconds) * 1000 + useconds/1000.0) + 0.5);
        seconds = useconds = 0;
        seconds  = m_timeEnd.tv_sec  - m_timeCreate.tv_sec;
        useconds = m_timeEnd.tv_usec - m_timeCreate.tv_usec;
        alltime = (long) (((seconds) * 1000 + useconds/1000.0) + 0.5);

        printf("IN=%ld ALL=%ld milsec.\n", mtime, alltime);


I am compiling with

g++ -W -Wall -Wno-unknown-pragmas -Wpointer-arith -Wcast-align -Wcast-qual -Wsign-compare -Wconversion -O -fno-strict-aliasing

and I have some warnings that I need to eliminate. How?

a1.cpp:21: warning: conversion to 'double' from 'long int' may alter its value
a1.cpp:21: warning: conversion to 'double' from 'long int' may alter its value
a1.cpp:25: warning: conversion to 'double' from 'long int' may alter its value
a1.cpp:25: warning: conversion to 'double' from 'long int' may alter its value
share|improve this question
up vote 0 down vote accepted

This should work:

mtime = (long)(((long long)seconds*1000000 + useconds + 500)/1000);

Convert the expression for alltime in the same way.

The reason you see the warnings is that your expression converts from long to double and back to do the math. You can avoid it by re-shuffling your expressions a bit to stay entirely within integral types. Note the conversion to long long to avoid overflowing (thanks, Nick).

EDIT You can further simplify this and eliminate the conversion:

mtime = seconds*1000 + (useconds + 500)/1000;
share|improve this answer
Isn't there a danger of this overflowing? – Nick Feb 10 '12 at 14:16
@Nick You are right, I added a conversion to long long and back to long to address this. Thanks! – dasblinkenlight Feb 10 '12 at 14:24
What happens on systems where sizeof(long) == sizeof(long long). That does not protect you from overflow in the general case. – Loki Astari Feb 10 '12 at 15:46
@LokiAstari You are right, I could just move the seconds*1000 outside of the division: it cannot change the result of the integer division by 10^3 anyway, because it is multiplied by 10^6 before the addition. – dasblinkenlight Feb 10 '12 at 16:07
Since it's C++, you should not be using C-style casts. – Mihai Todor Jun 30 '12 at 18:46

The hacky way would be to cast...

mtime = (long) (((double)seconds * 1000.0 + (double)useconds/1000.0) + 0.5);

This removes any warnings...

share|improve this answer
It removed warnings in the 'I know what I am doing stop warning me' kind of way; not in the 'I fixed the problem' kind of way. – Loki Astari Feb 10 '12 at 15:49
@LokiAstari - I did qualify with "hacky way"... ;) – Nim Feb 10 '12 at 16:02

If you don't really need the value rounded to the nearest millisecond - that is, if you can live with an inaccuracy of up to 1 millisecond instead of 1/2 millisecond - you can simply write

mtime = seconds * 1000 + useconds / 1000;

Otherwise, it'll have to be

mtime = seconds * 1000 + (useconds / 500 + 1) / 2;

Edit: or not. See comment.

share|improve this answer
+1: Took me a while to work out what you were doing with the second expression. You may want to add an explanation on how it works. – Loki Astari Feb 10 '12 at 15:58
@LokiAstari My formula does exactly the same as yours, only yours is simpler. Both of us, however, completely overlooked the fact that rounding off like this doesn't work on negative numbers, and useconds can be negative! So the formula actually should be mtime = seconds * 1000 + ((usec+(usec<0 ? -500 : 500))/1000); – Mr Lister Feb 10 '12 at 18:30
Are you sure. A lot of the macros associated with timeval will break if the microseconds in negative. Also it is defined as being the seconds and micro seconds from the epoch. If you allowed negative numbers in the usec the seconds portion would also be negative (as you would be counting away from the epoch in the negative direction (I think but I doubt that any of that works (or I would not trust it to work))). – Loki Astari Feb 10 '12 at 19:53
Also rounding to the nearest microsecond is silly. Just truncate the value (round towards zero) as in your first example and everything will work as expected for the user. – Loki Astari Feb 10 '12 at 19:55
@LokiAstari Yes, although the values in the timeval struct will not be negative, this useconds is the result of a subtraction of two longs (see the original question). And you're right, of course, about the precision, but the question was how to get rid of the warnings, not how to rewrite the calculation to make it simpler. – Mr Lister Feb 10 '12 at 20:11

Change it too:

mtime = seconds * 1000 + useconds/1000;

Difference is only that it is not rounding to the nearest microsecond (it rounds down)
There are no timers that are that accurate anyway.

If you really must have the extra accuracy (rounding to nearest rather than rounding to floor).

// Add 500 to useconds so that when we divide by 1000 we effectively
// round to nearest rather than truncate thus rounding to floor
mtime = seconds * 1000 + (useconds + 500) / 1000;
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