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I would like to schedule tasks at different time intervals: at 0.1 sec, 0.9s .... 2s etc I use the clock() C++ function that returns the number of ticks since the beginning of the simulation and I convert the ticks number to seconds using CLOCKS_PER_SEC but I have noticed that the task isn't scheduled when the instant is a float, but when it's an integer it does. Here the portion of the code responsible for the scheduling:

float goal = (float) clock() / CLOCKS_PER_SEC + 0.4 ;  // initially (float) clock() / CLOCKS_PER_SEC = 0 ; 
if ((float) clock() / CLOCKS_PER_SEC == goal) 
     do stuff ; 

In that case, it doesn't work, but when I schedule the task to be done in 3 seconds for instance it works. Is it a problem of precision??

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  • If you want to use less than second resolution, then clock is not a good function to use. I would rather recommend gettimeofday instead. Commented Aug 8, 2012 at 13:24
  • You probably don't want to use == here. What happens if for some reason your process gets put to sleep for just long enough to miss your goal? Probably should use >= or > instead.
    – twalberg
    Commented Aug 8, 2012 at 13:35
  • Thanks for your replies. I can't use > or >= cause I have to schedule the task exactly at this time. Commented Aug 8, 2012 at 13:54
  • you could use std::chrono::steady_clock. See Making a Timer in c++?
    – jfs
    Commented Aug 8, 2012 at 17:04

3 Answers 3

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If I was to implement some timer mechanism in C++, I would probably be using the std::chrono namespace together with std::priority_queue.

#include <functional>
#include <queue>
#include <chrono>
#include <sys/time.h>  // for `time_t` and `struct timeval`

namespace events
{
    struct event
    {
        typedef std::function<void()> callback_type;
        typedef std::chrono::time_point<std::chrono::system_clock> time_type;

        event(const callback_type &cb, const time_type &when)
            : callback_(cb), when_(when)
            { }

        void operator()() const
            { callback_(); }

        callback_type callback_;
        time_type     when_;
    };

    struct event_less : public std::less<event>
    {
        bool operator()(const event &e1, const event &e2) const
        {
            return (e2.when_ < e1.when_);
        }
    };

    std::priority_queue<event, std::vector<event>, event_less> event_queue;

    void add(const event::callback_type &cb, const time_t &when)
    {
        auto real_when = std::chrono::system_clock::from_time_t(when);

        event_queue.emplace(cb, real_when);
    }

    void add(const event::callback_type &cb, const timeval &when)
    {
        auto real_when = std::chrono::system_clock::from_time_t(when.tv_sec) +
                         std::chrono::microseconds(when.tv_usec);

        event_queue.emplace(cb, real_when);
    }

    void add(const event::callback_type &cb,
             const std::chrono::time_point<std::chrono::system_clock> &when)
    {
        event_queue.emplace(cb, when);
    }

    void timer()
    {
        event::time_type now = std::chrono::system_clock::now();

        while (!event_queue.empty() &&
               (event_queue.top().when_ < now))
        {
            event_queue.top()();
            event_queue.pop();
        }
    }
}

To use, simply add events using events::add, and call events::timer a few times every second.

Simple example:

void foo()
{
    std::cout << "hello from foo\n";
}

void done()
{
    std::cout << "Done!\n";
}

struct bar
{
    void hello()
    {
        std::cout << "Hello from bar::hello\n";
    }
};

auto now = std::chrono::system_clock::now();
bar b;

events::add(foo, now + std::chrono::seconds(2));

events::add(std::bind(&bar::hello, b), now + std::chrono::seconds(4));

events::add(done, now + std::chrono::seconds(6));

while (true)
{
    usleep(10000);  // TODO: Do some "real" work here instead...
    events::timer();
}

The above example will print:

hello from foo
hello from bar::hello
Done!

One line will be printed every two second. After "Done!" the program will just loop forever, doing nothing.

Note that this program contains lots of C++11 functionality, but has been tested with GCC 4.4.5 and 4.7.1. VC++2010 unfortunately does not have the <chrono> header, but the VC++2012RC apparently have it.

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  • 1
  • 1
    @J.F.Sebastian Well, tomorrow when I have time I will convert it to use std::chrono instead. :) Commented Aug 8, 2012 at 14:34
  • 1
    This is nice but it seems like the granularity of the timer--how often checks for updates--should be part of the events namespace, or perhaps the whole thing should be encapsulated in a class.
    – Matt
    Commented May 18, 2016 at 12:47
  • This implementation basically polls constantly, using the CPU the whole time to execute code in between actual timeout events. It's valid, but there are other ways that don't require polling. Commented Jan 11, 2022 at 0:07
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CLOCKS_PER_SEC is integer in your system. in other systems, it could be float too. put (float) near it too

1
  • Thanks for the reply. In my case it's an integer equal to 1000000 Commented Aug 8, 2012 at 13:57
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The problem could be because of your floating point comparison. This can provide unexpected results. Please avoid this.

Refer this link

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