- curr_cnt = recvcounts[rank];
-
- mask = 0x1;
- i = 0;
- while (mask < comm_size) {
- dst = rank ^ mask;
-
- /* find offset into send and recv buffers. zero out
- the least significant "i" bits of rank and dst to
- find root of src and dst subtrees. Use ranks of
- roots as index to send from and recv into buffer */
-
- dst_tree_root = dst >> i;
- dst_tree_root <<= i;
-
- my_tree_root = rank >> i;
- my_tree_root <<= i;
-
- if (dst < comm_size) {
- send_offset = 0;
- for (j=0; j<my_tree_root; j++)
- send_offset += recvcounts[j];
-
- recv_offset = 0;
- for (j=0; j<dst_tree_root; j++)
- recv_offset += recvcounts[j];
-
- smpi_mpi_sendrecv(((char *)tmp_buf + send_offset * recvtype_extent),
- curr_cnt, recvtype, dst,
- MPIR_ALLGATHERV_TAG,
- ((char *)tmp_buf + recv_offset * recvtype_extent),
- total_count - recv_offset, recvtype, dst,
- MPIR_ALLGATHERV_TAG,
- comm, &status);
- /* for convenience, recv is posted for a bigger amount
- than will be sent */
- last_recv_cnt=smpi_mpi_get_count(&status, recvtype);
- curr_cnt += last_recv_cnt;
- }
-
- /* if some processes in this process's subtree in this step
- did not have any destination process to communicate with
- because of non-power-of-two, we need to send them the
- data that they would normally have received from those
- processes. That is, the haves in this subtree must send to
- the havenots. We use a logarithmic
- recursive-halfing algorithm for this. */
-
- /* This part of the code will not currently be
- executed because we are not using recursive
- doubling for non power of two. Mark it as experimental
- so that it doesn't show up as red in the coverage
- tests. */
-
- /* --BEGIN EXPERIMENTAL-- */
- if (dst_tree_root + mask > comm_size) {
- nprocs_completed = comm_size - my_tree_root - mask;
- /* nprocs_completed is the number of processes in this
- subtree that have all the data. Send data to others
- in a tree fashion. First find root of current tree
- that is being divided into two. k is the number of
- least-significant bits in this process's rank that
- must be zeroed out to find the rank of the root */
- j = mask;
- k = 0;
- while (j) {
- j >>= 1;
- k++;
- }
- k--;
-
- tmp_mask = mask >> 1;
-
- while (tmp_mask) {
- dst = rank ^ tmp_mask;
-
- tree_root = rank >> k;
- tree_root <<= k;
-
- /* send only if this proc has data and destination
- doesn't have data. at any step, multiple processes
- can send if they have the data */
- if ((dst > rank) &&
- (rank < tree_root + nprocs_completed)
- && (dst >= tree_root + nprocs_completed)) {
-
- offset = 0;
- for (j=0; j<(my_tree_root+mask); j++)
- offset += recvcounts[j];
- offset *= recvtype_extent;
-
- smpi_mpi_send(((char *)tmp_buf + offset),
- last_recv_cnt,
- recvtype, dst,
- MPIR_ALLGATHERV_TAG, comm);
- /* last_recv_cnt was set in the previous
- receive. that's the amount of data to be
- sent now. */
- }
- /* recv only if this proc. doesn't have data and sender
- has data */
- else if ((dst < rank) &&
- (dst < tree_root + nprocs_completed) &&
- (rank >= tree_root + nprocs_completed)) {
-
- offset = 0;
- for (j=0; j<(my_tree_root+mask); j++)
- offset += recvcounts[j];
-
- smpi_mpi_recv(((char *)tmp_buf + offset * recvtype_extent),
- total_count - offset, recvtype,
- dst, MPIR_ALLGATHERV_TAG,
- comm, &status);
- /* for convenience, recv is posted for a
- bigger amount than will be sent */
- last_recv_cnt=smpi_mpi_get_count(&status, recvtype);
- curr_cnt += last_recv_cnt;
- }
- tmp_mask >>= 1;
- k--;
- }
- }
- /* --END EXPERIMENTAL-- */
-
- mask <<= 1;
- i++;
- }
-
- /* copy data from tmp_buf to recvbuf */
- position = 0;
- for (j=0; j<comm_size; j++) {
- if ((sendbuf != MPI_IN_PLACE) || (j != rank)) {
- /* not necessary to copy if in_place and
- j==rank. otherwise copy. */
- smpi_datatype_copy(((char *)tmp_buf + position*recvtype_extent),
- recvcounts[j], recvtype,
- ((char *)recvbuf + displs[j]*recvtype_extent),
- recvcounts[j], recvtype);
- }
- position += recvcounts[j];
- }
+
+ /* if some processes in this process's subtree in this step
+ did not have any destination process to communicate with
+ because of non-power-of-two, we need to send them the
+ data that they would normally have received from those
+ processes. That is, the haves in this subtree must send to
+ the havenots. We use a logarithmic
+ recursive-halfing algorithm for this. */
+
+ /* This part of the code will not currently be
+ executed because we are not using recursive
+ doubling for non power of two. Mark it as experimental
+ so that it doesn't show up as red in the coverage
+ tests. */
+
+ /* --BEGIN EXPERIMENTAL-- */
+ if (dst_tree_root + mask > comm_size) {
+ nprocs_completed = comm_size - my_tree_root - mask;
+ /* nprocs_completed is the number of processes in this
+ subtree that have all the data. Send data to others
+ in a tree fashion. First find root of current tree
+ that is being divided into two. k is the number of
+ least-significant bits in this process's rank that
+ must be zeroed out to find the rank of the root */
+ j = mask;
+ k = 0;
+ while (j) {
+ j >>= 1;
+ k++;
+ }
+ k--;
+
+ tmp_mask = mask >> 1;
+
+ while (tmp_mask) {
+ dst = rank ^ tmp_mask;
+
+ tree_root = rank >> k;
+ tree_root <<= k;
+
+ /* send only if this proc has data and destination
+ doesn't have data. at any step, multiple processes
+ can send if they have the data */
+ if ((dst > rank) &&
+ (rank < tree_root + nprocs_completed)
+ && (dst >= tree_root + nprocs_completed)) {
+
+ offset = 0;
+ for (j=0; j<(my_tree_root+mask); j++)
+ offset += recvcounts[j];
+ offset *= recvtype_extent;
+
+ smpi_mpi_send(((char *)tmp_buf + offset),
+ last_recv_cnt,
+ recvtype, dst,
+ COLL_TAG_ALLGATHERV, comm);
+ /* last_recv_cnt was set in the previous
+ receive. that's the amount of data to be
+ sent now. */