Another approach entirely would be to use MPI one-sided communications (eg, http://www.linux-mag.com/id/1793 ). Note however that doing the passive communications, which is what you really want here, is fairly tricky (although pairwise, with mpi_win_post and mpi_win_start is easier) and that the one-sided stuff will hopefully all change in MPI-3, so I don't know how far down that road I'd advise you to go.

More directly related to what you're first attempt here, rather than cancelling messages (which, as suggested above, is pretty drastic), it's probably much easier just to go through all queued messages (MPI guarantees that messages will not overtake each other - the only caveat is if you are using MPI_THREAD_MULTIPLE and having multiple threads sending within one MPI task in which case order is porly defined):

```
#include <stdio.h>
#include <mpi.h>
#include <stdlib.h>
#include <unistd.h>
#include <math.h>
void compute() {
const int maxusecs=500;
unsigned long sleepytime=(unsigned long)round(((float)rand()/RAND_MAX)*maxusecs);
usleep(sleepytime);
}
int main(int argc, char** argv)
{
int rank, size, i;
int otherrank;
const int niters=10;
const int tag=5;
double newval;
double sentvals[niters+1];
double othernewval;
MPI_Request reqs[niters+1];
MPI_Status stat;
int ready;
MPI_Init(&argc, &argv);
MPI_Comm_rank(MPI_COMM_WORLD, &rank);
MPI_Comm_size(MPI_COMM_WORLD, &size);
if (size != 2) {
fprintf(stderr,"This assumes 2 processes\n");
MPI_Finalize();
exit(-1);
}
otherrank = (rank == 0 ? 1 : 0);
srand(rank);
compute();
newval = rank * 100. + 0;
sentvals[0] = newval;
MPI_Isend(&(sentvals[0]), 1, MPI_DOUBLE, otherrank, tag, MPI_COMM_WORLD, &(reqs[0]));
MPI_Recv (&othernewval, 1, MPI_DOUBLE, otherrank, tag, MPI_COMM_WORLD, &stat);
for (i=0; i<niters; i++) {
MPI_Iprobe(otherrank, tag, MPI_COMM_WORLD, &ready, &stat);
while (ready) {
MPI_Recv(&othernewval, 1, MPI_DOUBLE, otherrank, tag, MPI_COMM_WORLD, &stat);
printf("%s[%d]: Reading queued data %lf:\n",
(rank == 0 ? "" : "\t\t\t\t"), rank, othernewval);
MPI_Iprobe(otherrank, tag, MPI_COMM_WORLD, &ready, &stat);
}
printf("%s[%d]: Got data %lf, computing:\n",
(rank == 0 ? "" : "\t\t\t\t"), rank, othernewval);
compute();
/* update my data */
newval = rank * 100. + i + 1;
printf("%s[%d]: computed %lf, sending:\n",
(rank == 0 ? "" : "\t\t\t\t"), rank, newval);
sentvals[i+1] = newval;
MPI_Isend(&(sentvals[i+1]), 1, MPI_DOUBLE, otherrank, tag, MPI_COMM_WORLD, &(reqs[0]));
}
MPI_Finalize();
return 0;
}
```

Running this gives you (notice that just because data is sent doesn't mean its received at time of printing):

```
[0]: Got data 100.000000, computing:
[1]: Got data 0.000000, computing:
[0]: computed 1.000000, sending:
[0]: Got data 100.000000, computing:
[1]: computed 101.000000, sending:
[1]: Got data 0.000000, computing:
[0]: computed 2.000000, sending:
[0]: Got data 100.000000, computing:
[1]: computed 102.000000, sending:
[1]: Reading queued data 1.000000:
[1]: Got data 1.000000, computing:
[0]: computed 3.000000, sending:
[0]: Reading queued data 101.000000:
[0]: Got data 101.000000, computing:
[1]: computed 103.000000, sending:
[1]: Reading queued data 2.000000:
[1]: Got data 2.000000, computing:
[0]: computed 4.000000, sending:
[1]: computed 104.000000, sending:
[0]: Reading queued data 102.000000:
[1]: Reading queued data 3.000000:
[1]: Got data 3.000000, computing:
[0]: Got data 102.000000, computing:
[0]: computed 5.000000, sending:
[0]: Reading queued data 103.000000:
[0]: Got data 103.000000, computing:
[1]: computed 105.000000, sending:
[1]: Reading queued data 4.000000:
[1]: Got data 4.000000, computing:
[0]: computed 6.000000, sending:
[0]: Reading queued data 104.000000:
[0]: Got data 104.000000, computing:
[1]: computed 106.000000, sending:
[1]: Reading queued data 5.000000:
[1]: Got data 5.000000, computing:
[0]: computed 7.000000, sending:
[0]: Reading queued data 105.000000:
[0]: Got data 105.000000, computing:
[1]: computed 107.000000, sending:
[1]: Reading queued data 6.000000:
[1]: Got data 6.000000, computing:
[0]: computed 8.000000, sending:
[0]: Reading queued data 106.000000:
[0]: Got data 106.000000, computing:
[1]: computed 108.000000, sending:
[1]: Reading queued data 7.000000:
[1]: Got data 7.000000, computing:
[0]: computed 9.000000, sending:
[0]: Reading queued data 107.000000:
[0]: Got data 107.000000, computing:
[1]: computed 109.000000, sending:
[1]: Reading queued data 8.000000:
[1]: Got data 8.000000, computing:
[0]: computed 10.000000, sending:
[1]: computed 110.000000, sending:
```

Note that this is just demonstration code, a final version **really** needs to do waitalls and more iprobes at the end there to free any pending requests and flush any waiting messages.