source: tests/concurrent/channels/pub_sub.cfa @ 75bd041

#include <locks.hfa>
#include <fstream.hfa>
#include <stdio.h>
#include <channel.hfa>
#include <thread.hfa>
#include <time.hfa>
#include <string.h>
#include <mutex_stmt.hfa>

size_t total_operations = 0;
size_t Processors = 1, Tasks = 4;

typedef channel( size_t ) Channel;

channel( int ) * barWait;
channel( int ) * entryWait;
int BarrierSize = 4;
static inline void closeBarrier() {
    close(*entryWait);
    close(*barWait);
}

static inline void initBarrier() {
    barWait = malloc();
    entryWait = malloc();
    (*barWait){ BarrierSize };
    (*entryWait){ BarrierSize };
    for ( j; BarrierSize )
        insert( *entryWait, j );
}

static inline void deleteBarrier() {
    delete(barWait);
    delete(entryWait);
}

static inline void barrier() {
    int ticket = remove( *entryWait );
    if ( ticket == BarrierSize - 1 ) {
                for ( j; BarrierSize - 1 )
            insert( *barWait, j );
        return;
        }
    ticket = remove( *barWait );

        // last one out
        if ( BarrierSize == 1 || ticket == BarrierSize - 2 ) {
                for ( j; BarrierSize )
            insert( *entryWait, j );
        }
}

Channel * chans;
owner_lock o;

thread Task { size_t id; };
static inline void ?{}( Task & p, size_t i, cluster & clu ) {
    ((thread &)p){ clu };
    p.id = i;
}
void main(Task & this) with(this) {
    size_t runs = 0;
    try {
        for ( ;; ) {
            // publish
            for ( i; Tasks ) {
                insert(chans[id], i);
            }

            // subscribe
            for ( i; Tasks ) {
                remove( chans[i] );
            }
            barrier();
            runs++;
        }
    } catch ( channel_closed * e ) { }
    lock(o);
    total_operations += runs;
    // sout | runs;
    unlock(o);
}


int main( int argc, char * argv[] ) {
    switch ( argc ) {
          case 3:
                if ( strcmp( argv[2], "d" ) != 0 ) {                    // default ?
                        Tasks = atoi( argv[2] );
            if ( Tasks < 1 ) goto Usage;
                } // if
          case 2:
                if ( strcmp( argv[1], "d" ) != 0 ) {                    // default ?
                        Processors = atoi( argv[1] );
                        if ( Processors < 1 ) goto Usage;
                } // if
          case 1:                                                                                       // use defaults
                break;
          default:
          Usage:
                sout | "Usage: " | argv[0]
             | " [ processors (> 0) | 'd' (default " | Processors
                         | ") ] [ Tasks (> 0) | 'd' (default " | Tasks
                         | ") ]" ;
                exit( EXIT_FAILURE );
        } // switch
    BarrierSize = Tasks;

    size_t Clusters = 1;
    // create a cluster
    cluster clus[Clusters];
    processor * proc[Processors];

    // setup processors
    for ( i; Processors )
        (*(proc[i] = malloc())){clus[i % Clusters]};

    // setup pub/sub chans
    chans = aalloc( Tasks );
    for ( i; Tasks )
        chans[i]{ Tasks };

    // setup barrier
    initBarrier();

    // sout | "Processors: " | Processors | " ProdsPerChan: " | Producers | " ConsPerChan: " | Consumers | "Channels: " | Channels | " Channel Size: " | ChannelSize;

    sout | "start";
    Task * t[Tasks];

    // create tasks
    for ( i; Tasks )
        (*(t[i] = malloc())){ i, clus[i % Clusters] };

    sleep(10`s);

    closeBarrier();
    for ( i; Tasks )
        close( chans[i] );

    for ( i; Tasks ) {
        delete(t[i]);
    }

    deleteBarrier();
    
    // sout | total_operations;

    for ( i; Processors ) {
        delete(proc[i]);
    }
    adelete( chans );
    sout | "done";
    return 0;
}