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I have a server program that sends clients' data to another that processes it. But because a function can take a long time to execute and prevent the program to work on other clients' data I want to concurrently execute the same function on others' data, without using pthreads or creating processes.

I tried to create something that can do that but it's ugly and surely not the best way. Here's my code :

#include <stdio.h>
#include <string.h>
#include <vector>

struct userdata {
    int rt; //The 'func' function uses it to resume work where it returned the last time
    int len; //The length of 'data'
    char data[16384]; //Client's data
};

int func(userdata *ud)
{
    //The gotos are here to jump to the code where the function returned the last time
    if(ud->rt==1)goto P1;
    if(ud->rt==2)goto P2;

    ud->len=0;

    //Code to calculate the length of 'data'
    while(ud->data[ud->len]!=0)
    {
        ud->rt=1; //Set to 1 to indicate where to resume execution the next time we will process the same data
        return 0;
        P1:
        ud->len++;
    }
    // Work
    ud->rt=2;
    return 0;
    P2:
    // Work

    return 1;
}

int main(int argc, char *argv[])
{
    userdata ud;
    memset(ud.data,1,16383);
    ud.data[16383]=0;

    std::vector<userdata> vec;
    for(int i=0;i!=200;i++)vec.push_back(ud); //Add 200 times the structure in the vector
    unsigned int Sz=vec.size(); //I'll use Sz in the for loop to avoid calling size()

    bool Loop=true;
    do
    {
        for(int i=0;i!=Sz;i++)
        {
            if( func(&vec.at(i))==1) //If the function returned 1 this means that there's no more work to do
            {
                printf("str length = %i\n",vec.at(i).len); //Display the result
                vec.erase(vec.begin() + i); //Remove element from vector because there's no more work to do
                i--, Sz--; //Decrement Sz (size of the vector) and i (vector index) to avoid out_of_range exception
                if(Sz==0)Loop=false; //If there are no elements in the vector, leave Loop
            }
        }
    }
    while(Loop);

    return 0;
}

The problem here is that this isn't concurrent execution, I must place in the structure the variables that must be restored to their last state and this can take a lot of time when the vector contains thousands of elements.

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  • 6
    Where is the concurrency here? I have literally no idea what this question is about. Your code is as clear as mud and has zero documenting comments. Why? Sep 27, 2014 at 18:41
  • Well, there's a technique to have some kind of signal interrupt/reaction manner of organizing execution called co-routines. Though I'm not convinced this really would help for what you're trying to do. Sep 27, 2014 at 18:42
  • @LightnessRacesinOrbit "Where is the concurrency here?" There's none evident, because the OP avoided it perhaps? Sep 27, 2014 at 18:43
  • @ChkLst What you have looks like a poorly flawed scheduler, please learn more about minimal OS implementation Sep 27, 2014 at 18:47
  • 4
    @ChkLst: reinventing concurrency is not a good way to avoid concurrency. Sep 27, 2014 at 20:01

2 Answers 2

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Don't try to write your own general-purpose threading library, it will be more costly than pthreads. Instead, split up the problem using knowledge from your specific problem. Find a place where it makes sense to .

I assume you already have a main loop that just calls select/poll/epoll a bunch. If you don't already have a timeout, start using one so you can store a set of additional, timed, even triggers in a heap.

Then in each computation, stop after a certain number of iterations a schedule a function+data to be called. Use the current time (at the end, as opposed to the time that the current timer event started running). Assuming that time actually passes, the timer dispatcher will finish all computations for the oldest tick first before continuing to the next step of the new one (approximately the behavior of a round-robin scheduler). Note that you do not want to make the slice size too small, or the task-switching overhead will start to dominate.

Depending on your problem set, you may or may not want to add logic to cancel any upcoming timers if the associated client dies.

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  • "Don't try to write your own general-purpose threading library" has nothing to do with being an answer to the question. Sep 27, 2014 at 22:02
  • 2
    @MichaelGazonda it has everything to do with the way the OP's code is written though.
    – o11c
    Sep 27, 2014 at 22:13
  • sounds like an issue for a comment, not an answer, and certainly not the opening paragraph. Sep 27, 2014 at 22:41
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Don't try to reinvent the wheel. A threading mechanism is difficult. Whatever you do will be buggier and slower than what your system provides.

Copying data in and out of the data structure used by the function is a strange approach. Where would you put it? The normal approach to threading is to have one stack per thread (each thread has both a call stack and a data stack). Each thread executes one instance of the function, and if memory is allocated on the heap, each instance of the problem is stored in different heap locations (so the stack and register in each thread will contain pointers to different heap regions).

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    "Don't try to reinvent the wheel. A threading mechanism is difficult. Whatever you do will be buggier and slower than what your system provides." Doesn't attempt to answer the question, and implies a specific intent on the part of the person asking the question that may not be there. Sep 27, 2014 at 22:04
  • @MichaelGazonda I suggest that you read the question. Starting with its title — “How to concurrently execute a function without using threads”, and going on with the question body, especially the last paragraph. Concurrently executing [multiple instances of] a function is a threading mechanism (whether you call it by name or not doesn't make it less of one). My second paragraph addresses the approach to context switching outlined in the last paragraph of the question. Sep 27, 2014 at 22:06
  • @Gilles But is there something lighter than threads ? On several websites I've read that the maximum number of threads isn't very high. I saw 32000 somewhere. Not enough for me.
    – Echren
    Sep 28, 2014 at 2:19
  • @ChkLst What you're asking for is a thread mechanism, whether you use the standard one and roll your own. Do you really have enough memory and CPU power to run more than 32000 threads at the same time? If you put a 1ms time slice for each thread, they'd only get to execute barely twice a minute! Sep 28, 2014 at 2:28

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