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I wrote a program that simulates the Game of Life. Basically the world is implemented by a bi-dimensional std::vector of bool. If the bool is true the cell is alive, if is false the cell is dead. The output of the program is the system at each time step, completely in ASCII code:

[ ][0][ ]
[ ][ ][0]

The problem is that the program runs obviously fast and each time step is printed too quickly: I can't see how the system evolves. Is there some trick to slow down the output (or directly the program)?

EDIT: I'm on Mac OS X 10.7. My compiler is GCC 4.7.

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Put in a sleep command between successive updates to allow you to visualise the process. The sleep will depend on what OS you are using. –  mathematician1975 Aug 22 '12 at 17:10
Eventually you may want to evolve your output to 'fat' pixels on a graphic screen. Besides making it a good exercise for doing graphics it lets you see the evolution more visually. Sometimes you get some that create fantastic graphics such as the machine gun life model. Fat pixels BTW are like a 4x4 output of pixels to represent a single entity on your grid. After fat pixels you could then try sprites which now gives you aging creatures that thrive or die then fade away. :) –  SASS_Shooter Aug 22 '12 at 17:21

3 Answers 3

up vote 2 down vote accepted

You can use standard C++ (C++11):

#include <thread>
#include <chrono>
#include <iostream>

int main() {
    while (true) {
        // draw loop

Alternatively, you could use a library that lets you specify an interval at which to call your draw function. OS X has Grand Central Dispatch (a.k.a. libdispatch). Using GCD you could create a dispatch timer source that calls your draw function with a specified frequency.

dispatch_source_t timer = dispatch_source_create(
    DISPATCH_SOURCE_TYPE_TIMER, 0, 0, dispatch_get_main_queue());

dispatch_source_set_timer(timer, DISPATCH_TIME_NOW,
    duration_cast<nanoseconds>(milliseconds( 5)).count());
// the API is defined to use nanoseconds, but I'd rather work in milliseconds
// so I use std::chrono to do the conversion above

    []{ your_draw_function(); });
// I'm not sure if GCC 4.7 actually supports converting C++11 lambdas to
// Apple's C blocks, or if it even supports blocks. Clang supports this.



libdispatch reference

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I like the first option with C++ standards library. Thank you. –  user1434698 Aug 22 '12 at 19:03

Whatever system you are using, it will have some kind of sleep function that you can call that will suspend your program for a specified period of time. You do not specify what OS you use, so I cant give exact details, but it sounds like the approach you are looking for.

If you call sleep for a certain length of time after drawing each update of the image, your program will sleep for that time before resuming and drawing the next update. This should give you chance to actually see the changes

If you want higher resolution time sleep you can look at nanosleep and usleep

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I use Mac OS X 10.7 –  user1434698 Aug 22 '12 at 17:14
I dont use Max OS X but this link might help you developer.apple.com/library/mac/#documentation/Darwin/Reference/… –  mathematician1975 Aug 22 '12 at 17:15
I used it by command line as sleep 5 and de prompt disappeared for 5s. How I use it in my C++ program? –  user1434698 Aug 22 '12 at 17:19
@R.M. I presume you have a loop somewhere and every time an iteration happens, it will redraw your output. Put in the sleep inside the loop just after your image gets redrawn –  mathematician1975 Aug 22 '12 at 17:21
Yes, I have a loop to draw the system. But if sleep is a command line tool, how I use it in my C++ program? –  user1434698 Aug 22 '12 at 17:23

1.You can use

int tmp; std::cin >> tmp;

and program will ask you before to go further.

2.You can use loop over some calculations. Like

double Tmp[1000000];
for( int i = 0; i < 1000000; i++ )
  Tmp[i] = i;
for( int i = 0; i < 1000000; i++ )
  Tmp[i] = sin(sin(sin(Tmp[i])));

3.You can check which delay-functions you have available for you. Example is "Sleep(nSeconds)" here

4.You can save and verify you system time. Like:

 while (time() < time_end){};
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