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.