1d5b485abSSatish Balay #ifndef lint 2*a2feddc5SSatish Balay static char vcid[] = "$Id: baijov.c,v 1.3 1996/07/04 13:01:01 bsmith Exp balay $"; 3d5b485abSSatish Balay #endif 4d5b485abSSatish Balay /* 5d5b485abSSatish Balay Routines to compute overlapping regions of a parallel MPI matrix 6d5b485abSSatish Balay and to find submatrices that were shared across processors. 7d5b485abSSatish Balay */ 8df36731bSBarry Smith #include "mpibaij.h" 9d5b485abSSatish Balay #include "src/inline/bitarray.h" 10d5b485abSSatish Balay 11df36731bSBarry Smith static int MatIncreaseOverlap_MPIBAIJ_Once(Mat, int, IS *); 12df36731bSBarry Smith static int MatIncreaseOverlap_MPIBAIJ_Local(Mat , int , char **,int*, int**); 13df36731bSBarry Smith static int MatIncreaseOverlap_MPIBAIJ_Receive(Mat , int, int **, int**, int* ); 14df36731bSBarry Smith extern int MatGetRow_MPIBAIJ(Mat,int,int*,int**,Scalar**); 15df36731bSBarry Smith extern int MatRestoreRow_MPIBAIJ(Mat,int,int*,int**,Scalar**); 16d5b485abSSatish Balay 17df36731bSBarry Smith static int MatCompressIndices_MPIBAIJ(Mat C, int imax, IS *is) 18df36731bSBarry Smith { 19df36731bSBarry Smith Mat_MPIBAIJ *baij = (Mat_MPIBAIJ *) C->data; 20df36731bSBarry Smith int ierr,isz,bs = baij->bs,Nbs,n,i,j,*idx,*nidx,ival; 21df36731bSBarry Smith char *table; 22df36731bSBarry Smith 23df36731bSBarry Smith Nbs = baij->Nbs; 24df36731bSBarry Smith table = (char *) PetscMalloc((Nbs/BITSPERBYTE +1)*sizeof(char)); CHKPTRQ(table); 25df36731bSBarry Smith nidx = (int *) PetscMalloc((Nbs+1)*sizeof(int)); CHKPTRQ(nidx); 26df36731bSBarry Smith 27df36731bSBarry Smith for ( i=0; i<imax; i++ ) { 28df36731bSBarry Smith isz = 0; 29df36731bSBarry Smith PetscMemzero(table,(Nbs/BITSPERBYTE +1)*sizeof(char)); 30df36731bSBarry Smith ierr = ISGetIndices(is[i],&idx); CHKERRQ(ierr); 31df36731bSBarry Smith ierr = ISGetSize(is[i],&n); CHKERRQ(ierr); 32df36731bSBarry Smith for ( j=0; j<n ; ++j){ 33df36731bSBarry Smith ival = idx[j]/bs; /* convert the indices into block indices */ 34df36731bSBarry Smith if (ival>Nbs) SETERRQ(1,"MatIncreaseOverlap_SeqBAIJ: index greater than mat-dim"); 35df36731bSBarry Smith if(!BT_LOOKUP(table, ival)) { nidx[isz++] = ival;} 36df36731bSBarry Smith } 37df36731bSBarry Smith ierr = ISRestoreIndices(is[i],&idx); CHKERRQ(ierr); 38df36731bSBarry Smith ierr = ISDestroy(is[i]); CHKERRQ(ierr); 39df36731bSBarry Smith ierr = ISCreateSeq(MPI_COMM_SELF, isz, nidx, (is+i)); CHKERRQ(ierr); 40df36731bSBarry Smith } 41df36731bSBarry Smith PetscFree(table); 42df36731bSBarry Smith PetscFree(nidx); 43df36731bSBarry Smith return 0; 44df36731bSBarry Smith } 45df36731bSBarry Smith 46df36731bSBarry Smith static int MatExpandIndices_MPIBAIJ(Mat C, int imax, IS *is) 47df36731bSBarry Smith { 48df36731bSBarry Smith Mat_MPIBAIJ *baij = (Mat_MPIBAIJ *) C->data; 49df36731bSBarry Smith int ierr,bs = baij->bs,Nbs,n,i,j,k,*idx,*nidx; 50df36731bSBarry Smith 51df36731bSBarry Smith Nbs = baij->Nbs; 52df36731bSBarry Smith 53df36731bSBarry Smith nidx = (int *) PetscMalloc((Nbs*bs+1)*sizeof(int)); CHKPTRQ(nidx); 54df36731bSBarry Smith 55df36731bSBarry Smith for ( i=0; i<imax; i++ ) { 56df36731bSBarry Smith ierr = ISGetIndices(is[i],&idx); CHKERRQ(ierr); 57df36731bSBarry Smith ierr = ISGetSize(is[i],&n); CHKERRQ(ierr); 58df36731bSBarry Smith for ( j=0; j<n ; ++j){ 59df36731bSBarry Smith for ( k=0; k<bs; k++ ) 60df36731bSBarry Smith nidx[j*bs+k] = idx[j]*bs+k; 61df36731bSBarry Smith } 62df36731bSBarry Smith ierr = ISRestoreIndices(is[i],&idx); CHKERRQ(ierr); 63df36731bSBarry Smith ierr = ISDestroy(is[i]); CHKERRQ(ierr); 64df36731bSBarry Smith ierr = ISCreateSeq(MPI_COMM_SELF, n*bs, nidx, (is+i)); CHKERRQ(ierr); 65df36731bSBarry Smith } 66df36731bSBarry Smith PetscFree(nidx); 67df36731bSBarry Smith return 0; 68df36731bSBarry Smith } 69df36731bSBarry Smith 70df36731bSBarry Smith 71df36731bSBarry Smith int MatIncreaseOverlap_MPIBAIJ(Mat C, int imax, IS *is, int ov) 72d5b485abSSatish Balay { 73d5b485abSSatish Balay int i, ierr; 74df36731bSBarry Smith /* Convert the indices into block format */ 75df36731bSBarry Smith ierr = MatCompressIndices_MPIBAIJ(C, imax, is); CHKERRQ(ierr); 76df36731bSBarry Smith if (ov < 0){ SETERRQ(1," MatIncreaseOverlap_MPIBAIJ:Negative overlap specified\n");} 77d5b485abSSatish Balay for ( i=0; i<ov; ++i ) { 78df36731bSBarry Smith ierr = MatIncreaseOverlap_MPIBAIJ_Once(C, imax, is); CHKERRQ(ierr); 79d5b485abSSatish Balay } 80df36731bSBarry Smith ierr = MatExpandIndices_MPIBAIJ(C, imax, is); CHKERRQ(ierr); 81d5b485abSSatish Balay return 0; 82d5b485abSSatish Balay } 83d5b485abSSatish Balay 84d5b485abSSatish Balay /* 85d5b485abSSatish Balay Sample message format: 86d5b485abSSatish Balay If a processor A wants processor B to process some elements corresponding 87d5b485abSSatish Balay to index sets 1s[1], is[5] 88d5b485abSSatish Balay mesg [0] = 2 ( no of index sets in the mesg) 89d5b485abSSatish Balay ----------- 90d5b485abSSatish Balay mesg [1] = 1 => is[1] 91d5b485abSSatish Balay mesg [2] = sizeof(is[1]); 92d5b485abSSatish Balay ----------- 93d5b485abSSatish Balay mesg [5] = 5 => is[5] 94d5b485abSSatish Balay mesg [6] = sizeof(is[5]); 95d5b485abSSatish Balay ----------- 96d5b485abSSatish Balay mesg [7] 97d5b485abSSatish Balay mesg [n] datas[1] 98d5b485abSSatish Balay ----------- 99d5b485abSSatish Balay mesg[n+1] 100d5b485abSSatish Balay mesg[m] data(is[5]) 101d5b485abSSatish Balay ----------- 102d5b485abSSatish Balay 103d5b485abSSatish Balay Notes: 104d5b485abSSatish Balay nrqs - no of requests sent (or to be sent out) 105d5b485abSSatish Balay nrqr - no of requests recieved (which have to be or which have been processed 106d5b485abSSatish Balay */ 107df36731bSBarry Smith static int MatIncreaseOverlap_MPIBAIJ_Once(Mat C, int imax, IS *is) 108d5b485abSSatish Balay { 109df36731bSBarry Smith Mat_MPIBAIJ *c = (Mat_MPIBAIJ *) C->data; 110d5b485abSSatish Balay int **idx, *n, *w1, *w2, *w3, *w4, *rtable,**data,len,*idx_i; 111df36731bSBarry Smith int size,rank,Mbs,i,j,k,ierr,**rbuf,row,proc,nrqs,msz,**outdat,**ptr; 112d5b485abSSatish Balay int *ctr,*pa,tag,*tmp,bsz,nrqr,*isz,*isz1,**xdata,bsz1,**rbuf2; 113d5b485abSSatish Balay char **table; 114d5b485abSSatish Balay MPI_Comm comm; 115d5b485abSSatish Balay MPI_Request *s_waits1,*r_waits1,*s_waits2,*r_waits2; 116d5b485abSSatish Balay MPI_Status *s_status,*recv_status; 117d5b485abSSatish Balay 118d5b485abSSatish Balay comm = C->comm; 119d5b485abSSatish Balay tag = C->tag; 120d5b485abSSatish Balay size = c->size; 121d5b485abSSatish Balay rank = c->rank; 122df36731bSBarry Smith Mbs = c->Mbs; 123d5b485abSSatish Balay 124df36731bSBarry Smith len = (imax+1)*sizeof(int *) + (imax + Mbs)*sizeof(int); 125d5b485abSSatish Balay idx = (int **) PetscMalloc(len); CHKPTRQ(idx); 126d5b485abSSatish Balay n = (int *) (idx + imax); 127d5b485abSSatish Balay rtable = n + imax; 128d5b485abSSatish Balay 129d5b485abSSatish Balay for ( i=0; i<imax; i++ ) { 130d5b485abSSatish Balay ierr = ISGetIndices(is[i],&idx[i]); CHKERRQ(ierr); 131d5b485abSSatish Balay ierr = ISGetSize(is[i],&n[i]); CHKERRQ(ierr); 132d5b485abSSatish Balay } 133d5b485abSSatish Balay 134d5b485abSSatish Balay /* Create hash table for the mapping :row -> proc*/ 135d5b485abSSatish Balay for ( i=0,j=0; i<size; i++ ) { 136d5b485abSSatish Balay len = c->rowners[i+1]; 137d5b485abSSatish Balay for ( ; j<len; j++ ) { 138d5b485abSSatish Balay rtable[j] = i; 139d5b485abSSatish Balay } 140d5b485abSSatish Balay } 141d5b485abSSatish Balay 142d5b485abSSatish Balay /* evaluate communication - mesg to who, length of mesg, and buffer space 143d5b485abSSatish Balay required. Based on this, buffers are allocated, and data copied into them*/ 144d5b485abSSatish Balay w1 = (int *)PetscMalloc(size*4*sizeof(int));CHKPTRQ(w1);/* mesg size */ 145d5b485abSSatish Balay w2 = w1 + size; /* if w2[i] marked, then a message to proc i*/ 146d5b485abSSatish Balay w3 = w2 + size; /* no of IS that needs to be sent to proc i */ 147d5b485abSSatish Balay w4 = w3 + size; /* temp work space used in determining w1, w2, w3 */ 148d5b485abSSatish Balay PetscMemzero(w1,size*3*sizeof(int)); /* initialise work vector*/ 149d5b485abSSatish Balay for ( i=0; i<imax; i++ ) { 150d5b485abSSatish Balay PetscMemzero(w4,size*sizeof(int)); /* initialise work vector*/ 151d5b485abSSatish Balay idx_i = idx[i]; 152d5b485abSSatish Balay len = n[i]; 153d5b485abSSatish Balay for ( j=0; j<len; j++ ) { 154d5b485abSSatish Balay row = idx_i[j]; 155d5b485abSSatish Balay proc = rtable[row]; 156d5b485abSSatish Balay w4[proc]++; 157d5b485abSSatish Balay } 158d5b485abSSatish Balay for ( j=0; j<size; j++ ){ 159d5b485abSSatish Balay if (w4[j]) { w1[j] += w4[j]; w3[j]++;} 160d5b485abSSatish Balay } 161d5b485abSSatish Balay } 162d5b485abSSatish Balay 163d5b485abSSatish Balay nrqs = 0; /* no of outgoing messages */ 164d5b485abSSatish Balay msz = 0; /* total mesg length (for all proc */ 165d5b485abSSatish Balay w1[rank] = 0; /* no mesg sent to intself */ 166d5b485abSSatish Balay w3[rank] = 0; 167d5b485abSSatish Balay for ( i=0; i<size; i++ ) { 168d5b485abSSatish Balay if (w1[i]) {w2[i] = 1; nrqs++;} /* there exists a message to proc i */ 169d5b485abSSatish Balay } 170d5b485abSSatish Balay /* pa - is list of processors to communicate with */ 171d5b485abSSatish Balay pa = (int *)PetscMalloc((nrqs+1)*sizeof(int));CHKPTRQ(pa); 172d5b485abSSatish Balay for ( i=0,j=0; i<size; i++ ) { 173d5b485abSSatish Balay if (w1[i]) {pa[j] = i; j++;} 174d5b485abSSatish Balay } 175d5b485abSSatish Balay 176d5b485abSSatish Balay /* Each message would have a header = 1 + 2*(no of IS) + data */ 177d5b485abSSatish Balay for ( i=0; i<nrqs; i++ ) { 178d5b485abSSatish Balay j = pa[i]; 179d5b485abSSatish Balay w1[j] += w2[j] + 2*w3[j]; 180d5b485abSSatish Balay msz += w1[j]; 181d5b485abSSatish Balay } 182d5b485abSSatish Balay 183d5b485abSSatish Balay 184d5b485abSSatish Balay /* Do a global reduction to determine how many messages to expect*/ 185d5b485abSSatish Balay { 186d5b485abSSatish Balay int *rw1, *rw2; 187d5b485abSSatish Balay rw1 = (int *) PetscMalloc(2*size*sizeof(int)); CHKPTRQ(rw1); 188d5b485abSSatish Balay rw2 = rw1+size; 189d5b485abSSatish Balay MPI_Allreduce(w1, rw1, size, MPI_INT, MPI_MAX, comm); 190d5b485abSSatish Balay bsz = rw1[rank]; 191d5b485abSSatish Balay MPI_Allreduce(w2, rw2, size, MPI_INT, MPI_SUM, comm); 192d5b485abSSatish Balay nrqr = rw2[rank]; 193d5b485abSSatish Balay PetscFree(rw1); 194d5b485abSSatish Balay } 195d5b485abSSatish Balay 196d5b485abSSatish Balay /* Allocate memory for recv buffers . Prob none if nrqr = 0 ???? */ 197d5b485abSSatish Balay len = (nrqr+1)*sizeof(int*) + nrqr*bsz*sizeof(int); 198d5b485abSSatish Balay rbuf = (int**) PetscMalloc(len); CHKPTRQ(rbuf); 199d5b485abSSatish Balay rbuf[0] = (int *) (rbuf + nrqr); 200d5b485abSSatish Balay for ( i=1; i<nrqr; ++i ) rbuf[i] = rbuf[i-1] + bsz; 201d5b485abSSatish Balay 202d5b485abSSatish Balay /* Post the receives */ 203d5b485abSSatish Balay r_waits1 = (MPI_Request *) PetscMalloc((nrqr+1)*sizeof(MPI_Request)); 204d5b485abSSatish Balay CHKPTRQ(r_waits1); 205d5b485abSSatish Balay for ( i=0; i<nrqr; ++i ){ 206d5b485abSSatish Balay MPI_Irecv(rbuf[i],bsz,MPI_INT,MPI_ANY_SOURCE,tag,comm,r_waits1+i); 207d5b485abSSatish Balay } 208d5b485abSSatish Balay 209d5b485abSSatish Balay /* Allocate Memory for outgoing messages */ 210d5b485abSSatish Balay len = 2*size*sizeof(int*) + (size+msz)*sizeof(int); 211d5b485abSSatish Balay outdat = (int **)PetscMalloc(len); CHKPTRQ(outdat); 212d5b485abSSatish Balay ptr = outdat + size; /* Pointers to the data in outgoing buffers */ 213d5b485abSSatish Balay PetscMemzero(outdat,2*size*sizeof(int*)); 214d5b485abSSatish Balay tmp = (int *) (outdat + 2*size); 215d5b485abSSatish Balay ctr = tmp + msz; 216d5b485abSSatish Balay 217d5b485abSSatish Balay { 218d5b485abSSatish Balay int *iptr = tmp,ict = 0; 219d5b485abSSatish Balay for ( i=0; i<nrqs; i++ ) { 220d5b485abSSatish Balay j = pa[i]; 221d5b485abSSatish Balay iptr += ict; 222d5b485abSSatish Balay outdat[j] = iptr; 223d5b485abSSatish Balay ict = w1[j]; 224d5b485abSSatish Balay } 225d5b485abSSatish Balay } 226d5b485abSSatish Balay 227d5b485abSSatish Balay /* Form the outgoing messages */ 228d5b485abSSatish Balay /*plug in the headers*/ 229d5b485abSSatish Balay for ( i=0; i<nrqs; i++ ) { 230d5b485abSSatish Balay j = pa[i]; 231d5b485abSSatish Balay outdat[j][0] = 0; 232d5b485abSSatish Balay PetscMemzero(outdat[j]+1,2*w3[j]*sizeof(int)); 233d5b485abSSatish Balay ptr[j] = outdat[j] + 2*w3[j] + 1; 234d5b485abSSatish Balay } 235d5b485abSSatish Balay 236d5b485abSSatish Balay /* Memory for doing local proc's work*/ 237d5b485abSSatish Balay { 238d5b485abSSatish Balay int *d_p; 239d5b485abSSatish Balay char *t_p; 240d5b485abSSatish Balay 241d5b485abSSatish Balay len = (imax+1)*(sizeof(char *) + sizeof(int *) + sizeof(int)) + 242df36731bSBarry Smith (Mbs+1)*imax*sizeof(int) + (Mbs/BITSPERBYTE+1)*imax*sizeof(char); 243d5b485abSSatish Balay table = (char **)PetscMalloc(len); CHKPTRQ(table); 244d5b485abSSatish Balay data = (int **)(table + imax); 245d5b485abSSatish Balay data[0] = (int *)(data + imax); 246df36731bSBarry Smith isz = data[0] + (Mbs+1)*imax; 247d5b485abSSatish Balay table[0] = (char *)(isz + imax); 248d5b485abSSatish Balay d_p = data[0]; t_p = table[0]; 249d5b485abSSatish Balay for ( i=1; i<imax; i++ ) { 250df36731bSBarry Smith table[i] = t_p + (Mbs/BITSPERBYTE+1)*i; 251df36731bSBarry Smith data[i] = d_p + (Mbs+1)*i; 252d5b485abSSatish Balay } 253d5b485abSSatish Balay } 254df36731bSBarry Smith PetscMemzero(*table,(Mbs/BITSPERBYTE+1)*imax); 255d5b485abSSatish Balay PetscMemzero(isz,imax*sizeof(int)); 256d5b485abSSatish Balay 257d5b485abSSatish Balay /* Parse the IS and update local tables and the outgoing buf with the data*/ 258d5b485abSSatish Balay { 259d5b485abSSatish Balay int n_i,*data_i,isz_i,*outdat_j,ctr_j; 260d5b485abSSatish Balay char *table_i; 261d5b485abSSatish Balay 262d5b485abSSatish Balay for ( i=0; i<imax; i++ ) { 263d5b485abSSatish Balay PetscMemzero(ctr,size*sizeof(int)); 264d5b485abSSatish Balay n_i = n[i]; 265d5b485abSSatish Balay table_i = table[i]; 266d5b485abSSatish Balay idx_i = idx[i]; 267d5b485abSSatish Balay data_i = data[i]; 268d5b485abSSatish Balay isz_i = isz[i]; 269d5b485abSSatish Balay for ( j=0; j<n_i; j++ ) { /* parse the indices of each IS */ 270d5b485abSSatish Balay row = idx_i[j]; 271d5b485abSSatish Balay proc = rtable[row]; 272d5b485abSSatish Balay if (proc != rank) { /* copy to the outgoing buffer */ 273d5b485abSSatish Balay ctr[proc]++; 274d5b485abSSatish Balay *ptr[proc] = row; 275d5b485abSSatish Balay ptr[proc]++; 276d5b485abSSatish Balay } 277d5b485abSSatish Balay else { /* Update the local table */ 278d5b485abSSatish Balay if (!BT_LOOKUP(table_i,row)) { data_i[isz_i++] = row;} 279d5b485abSSatish Balay } 280d5b485abSSatish Balay } 281d5b485abSSatish Balay /* Update the headers for the current IS */ 282d5b485abSSatish Balay for ( j=0; j<size; j++ ) { /* Can Optimise this loop by using pa[] */ 283d5b485abSSatish Balay if ((ctr_j = ctr[j])) { 284d5b485abSSatish Balay outdat_j = outdat[j]; 285d5b485abSSatish Balay k = ++outdat_j[0]; 286d5b485abSSatish Balay outdat_j[2*k] = ctr_j; 287d5b485abSSatish Balay outdat_j[2*k-1] = i; 288d5b485abSSatish Balay } 289d5b485abSSatish Balay } 290d5b485abSSatish Balay isz[i] = isz_i; 291d5b485abSSatish Balay } 292d5b485abSSatish Balay } 293d5b485abSSatish Balay 294d5b485abSSatish Balay 295d5b485abSSatish Balay 296d5b485abSSatish Balay /* Now post the sends */ 297d5b485abSSatish Balay s_waits1 = (MPI_Request *) PetscMalloc((nrqs+1)*sizeof(MPI_Request)); 298d5b485abSSatish Balay CHKPTRQ(s_waits1); 299d5b485abSSatish Balay for ( i=0; i<nrqs; ++i ) { 300d5b485abSSatish Balay j = pa[i]; 301d5b485abSSatish Balay MPI_Isend(outdat[j], w1[j], MPI_INT, j, tag, comm, s_waits1+i); 302d5b485abSSatish Balay } 303d5b485abSSatish Balay 304d5b485abSSatish Balay /* No longer need the original indices*/ 305d5b485abSSatish Balay for ( i=0; i<imax; ++i ) { 306d5b485abSSatish Balay ierr = ISRestoreIndices(is[i], idx+i); CHKERRQ(ierr); 307d5b485abSSatish Balay } 308d5b485abSSatish Balay PetscFree(idx); 309d5b485abSSatish Balay 310d5b485abSSatish Balay for ( i=0; i<imax; ++i ) { 311d5b485abSSatish Balay ierr = ISDestroy(is[i]); CHKERRQ(ierr); 312d5b485abSSatish Balay } 313d5b485abSSatish Balay 314d5b485abSSatish Balay /* Do Local work*/ 315df36731bSBarry Smith ierr = MatIncreaseOverlap_MPIBAIJ_Local(C,imax,table,isz,data);CHKERRQ(ierr); 316d5b485abSSatish Balay 317d5b485abSSatish Balay /* Receive messages*/ 318d5b485abSSatish Balay { 319d5b485abSSatish Balay int index; 320d5b485abSSatish Balay 321d5b485abSSatish Balay recv_status = (MPI_Status *) PetscMalloc( (nrqr+1)*sizeof(MPI_Status) ); 322d5b485abSSatish Balay CHKPTRQ(recv_status); 323d5b485abSSatish Balay for ( i=0; i<nrqr; ++i ) { 324d5b485abSSatish Balay MPI_Waitany(nrqr, r_waits1, &index, recv_status+i); 325d5b485abSSatish Balay } 326d5b485abSSatish Balay 327d5b485abSSatish Balay s_status = (MPI_Status *) PetscMalloc( (nrqs+1)*sizeof(MPI_Status) ); 328d5b485abSSatish Balay CHKPTRQ(s_status); 329d5b485abSSatish Balay MPI_Waitall(nrqs,s_waits1,s_status); 330d5b485abSSatish Balay } 331d5b485abSSatish Balay 332d5b485abSSatish Balay /* Phase 1 sends are complete - deallocate buffers */ 333d5b485abSSatish Balay PetscFree(outdat); 334d5b485abSSatish Balay PetscFree(w1); 335d5b485abSSatish Balay 336d5b485abSSatish Balay xdata = (int **)PetscMalloc((nrqr+1)*sizeof(int *)); CHKPTRQ(xdata); 337d5b485abSSatish Balay isz1 = (int *)PetscMalloc((nrqr+1)*sizeof(int)); CHKPTRQ(isz1); 338df36731bSBarry Smith ierr = MatIncreaseOverlap_MPIBAIJ_Receive(C,nrqr,rbuf,xdata,isz1);CHKERRQ(ierr); 339d5b485abSSatish Balay PetscFree(rbuf); 340d5b485abSSatish Balay 341d5b485abSSatish Balay /* Send the data back*/ 342d5b485abSSatish Balay /* Do a global reduction to know the buffer space req for incoming messages*/ 343d5b485abSSatish Balay { 344d5b485abSSatish Balay int *rw1, *rw2; 345d5b485abSSatish Balay 346d5b485abSSatish Balay rw1 = (int *)PetscMalloc(2*size*sizeof(int)); CHKPTRQ(rw1); 347d5b485abSSatish Balay PetscMemzero(rw1,2*size*sizeof(int)); 348d5b485abSSatish Balay rw2 = rw1+size; 349d5b485abSSatish Balay for ( i=0; i<nrqr; ++i ) { 350d5b485abSSatish Balay proc = recv_status[i].MPI_SOURCE; 351d5b485abSSatish Balay rw1[proc] = isz1[i]; 352d5b485abSSatish Balay } 353d5b485abSSatish Balay 354d5b485abSSatish Balay MPI_Allreduce(rw1, rw2, size, MPI_INT, MPI_MAX, comm); 355d5b485abSSatish Balay bsz1 = rw2[rank]; 356d5b485abSSatish Balay PetscFree(rw1); 357d5b485abSSatish Balay } 358d5b485abSSatish Balay 359d5b485abSSatish Balay /* Allocate buffers*/ 360d5b485abSSatish Balay 361d5b485abSSatish Balay /* Allocate memory for recv buffers. Prob none if nrqr = 0 ???? */ 362d5b485abSSatish Balay len = (nrqs+1)*sizeof(int*) + nrqs*bsz1*sizeof(int); 363d5b485abSSatish Balay rbuf2 = (int**) PetscMalloc(len); CHKPTRQ(rbuf2); 364d5b485abSSatish Balay rbuf2[0] = (int *) (rbuf2 + nrqs); 365d5b485abSSatish Balay for ( i=1; i<nrqs; ++i ) rbuf2[i] = rbuf2[i-1] + bsz1; 366d5b485abSSatish Balay 367d5b485abSSatish Balay /* Post the receives */ 368d5b485abSSatish Balay r_waits2 = (MPI_Request *)PetscMalloc((nrqs+1)*sizeof(MPI_Request)); 369d5b485abSSatish Balay CHKPTRQ(r_waits2); 370d5b485abSSatish Balay for ( i=0; i<nrqs; ++i ) { 371d5b485abSSatish Balay MPI_Irecv(rbuf2[i], bsz1, MPI_INT, MPI_ANY_SOURCE, tag, comm, r_waits2+i); 372d5b485abSSatish Balay } 373d5b485abSSatish Balay 374d5b485abSSatish Balay /* Now post the sends */ 375d5b485abSSatish Balay s_waits2 = (MPI_Request *) PetscMalloc((nrqr+1)*sizeof(MPI_Request)); 376d5b485abSSatish Balay CHKPTRQ(s_waits2); 377d5b485abSSatish Balay for ( i=0; i<nrqr; ++i ) { 378d5b485abSSatish Balay j = recv_status[i].MPI_SOURCE; 379d5b485abSSatish Balay MPI_Isend( xdata[i], isz1[i], MPI_INT, j, tag, comm, s_waits2+i); 380d5b485abSSatish Balay } 381d5b485abSSatish Balay 382d5b485abSSatish Balay /* receive work done on other processors*/ 383d5b485abSSatish Balay { 384d5b485abSSatish Balay int index, is_no, ct1, max,*rbuf2_i,isz_i,*data_i,jmax; 385d5b485abSSatish Balay char *table_i; 386d5b485abSSatish Balay MPI_Status *status2; 387d5b485abSSatish Balay 388d5b485abSSatish Balay status2 = (MPI_Status *) PetscMalloc((nrqs+1)*sizeof(MPI_Status));CHKPTRQ(status2); 389d5b485abSSatish Balay 390d5b485abSSatish Balay for ( i=0; i<nrqs; ++i ) { 391d5b485abSSatish Balay MPI_Waitany(nrqs, r_waits2, &index, status2+i); 392d5b485abSSatish Balay /* Process the message*/ 393d5b485abSSatish Balay rbuf2_i = rbuf2[index]; 394d5b485abSSatish Balay ct1 = 2*rbuf2_i[0]+1; 395d5b485abSSatish Balay jmax = rbuf2[index][0]; 396d5b485abSSatish Balay for ( j=1; j<=jmax; j++ ) { 397d5b485abSSatish Balay max = rbuf2_i[2*j]; 398d5b485abSSatish Balay is_no = rbuf2_i[2*j-1]; 399d5b485abSSatish Balay isz_i = isz[is_no]; 400d5b485abSSatish Balay data_i = data[is_no]; 401d5b485abSSatish Balay table_i = table[is_no]; 402d5b485abSSatish Balay for ( k=0; k<max; k++,ct1++ ) { 403d5b485abSSatish Balay row = rbuf2_i[ct1]; 404d5b485abSSatish Balay if (!BT_LOOKUP(table_i,row)) { data_i[isz_i++] = row;} 405d5b485abSSatish Balay } 406d5b485abSSatish Balay isz[is_no] = isz_i; 407d5b485abSSatish Balay } 408d5b485abSSatish Balay } 409d5b485abSSatish Balay MPI_Waitall(nrqr,s_waits2,status2); 410d5b485abSSatish Balay PetscFree(status2); 411d5b485abSSatish Balay } 412d5b485abSSatish Balay 413d5b485abSSatish Balay for ( i=0; i<imax; ++i ) { 414d5b485abSSatish Balay ierr = ISCreateSeq(MPI_COMM_SELF, isz[i], data[i], is+i); CHKERRQ(ierr); 415d5b485abSSatish Balay } 416d5b485abSSatish Balay 417d5b485abSSatish Balay PetscFree(pa); 418d5b485abSSatish Balay PetscFree(rbuf2); 419d5b485abSSatish Balay PetscFree(s_waits1); 420d5b485abSSatish Balay PetscFree(r_waits1); 421d5b485abSSatish Balay PetscFree(s_waits2); 422d5b485abSSatish Balay PetscFree(r_waits2); 423d5b485abSSatish Balay PetscFree(table); 424d5b485abSSatish Balay PetscFree(s_status); 425d5b485abSSatish Balay PetscFree(recv_status); 426d5b485abSSatish Balay PetscFree(xdata[0]); 427d5b485abSSatish Balay PetscFree(xdata); 428d5b485abSSatish Balay PetscFree(isz1); 429d5b485abSSatish Balay return 0; 430d5b485abSSatish Balay } 431d5b485abSSatish Balay 432d5b485abSSatish Balay /* 433df36731bSBarry Smith MatIncreaseOverlap_MPIBAIJ_Local - Called by MatincreaseOverlap, to do 434d5b485abSSatish Balay the work on the local processor. 435d5b485abSSatish Balay 436d5b485abSSatish Balay Inputs: 437df36731bSBarry Smith C - MAT_MPIBAIJ; 438d5b485abSSatish Balay imax - total no of index sets processed at a time; 439df36731bSBarry Smith table - an array of char - size = Mbs bits. 440d5b485abSSatish Balay 441d5b485abSSatish Balay Output: 442d5b485abSSatish Balay isz - array containing the count of the solution elements correspondign 443d5b485abSSatish Balay to each index set; 444d5b485abSSatish Balay data - pointer to the solutions 445d5b485abSSatish Balay */ 446df36731bSBarry Smith static int MatIncreaseOverlap_MPIBAIJ_Local(Mat C,int imax,char **table,int *isz, 447d5b485abSSatish Balay int **data) 448d5b485abSSatish Balay { 449df36731bSBarry Smith Mat_MPIBAIJ *c = (Mat_MPIBAIJ *) C->data; 450d5b485abSSatish Balay Mat A = c->A, B = c->B; 451df36731bSBarry Smith Mat_SeqBAIJ *a = (Mat_SeqBAIJ*)A->data,*b = (Mat_SeqBAIJ*)B->data; 452df36731bSBarry Smith int start, end, val, max, rstart,cstart,*ai, *aj; 453d5b485abSSatish Balay int *bi, *bj, *garray, i, j, k, row,*data_i,isz_i; 454d5b485abSSatish Balay char *table_i; 455d5b485abSSatish Balay 456d5b485abSSatish Balay rstart = c->rstart; 457d5b485abSSatish Balay cstart = c->cstart; 458d5b485abSSatish Balay ai = a->i; 459df36731bSBarry Smith aj = a->j; 460d5b485abSSatish Balay bi = b->i; 461df36731bSBarry Smith bj = b->j; 462d5b485abSSatish Balay garray = c->garray; 463d5b485abSSatish Balay 464d5b485abSSatish Balay 465d5b485abSSatish Balay for ( i=0; i<imax; i++ ) { 466d5b485abSSatish Balay data_i = data[i]; 467d5b485abSSatish Balay table_i = table[i]; 468d5b485abSSatish Balay isz_i = isz[i]; 469d5b485abSSatish Balay for ( j=0, max=isz[i]; j<max; j++ ) { 470d5b485abSSatish Balay row = data_i[j] - rstart; 471d5b485abSSatish Balay start = ai[row]; 472d5b485abSSatish Balay end = ai[row+1]; 473d5b485abSSatish Balay for ( k=start; k<end; k++ ) { /* Amat */ 474df36731bSBarry Smith val = aj[k] + cstart; 475d5b485abSSatish Balay if (!BT_LOOKUP(table_i,val)) { data_i[isz_i++] = val;} 476d5b485abSSatish Balay } 477d5b485abSSatish Balay start = bi[row]; 478d5b485abSSatish Balay end = bi[row+1]; 479d5b485abSSatish Balay for ( k=start; k<end; k++ ) { /* Bmat */ 480df36731bSBarry Smith val = garray[bj[k]]; 481d5b485abSSatish Balay if (!BT_LOOKUP(table_i,val)) { data_i[isz_i++] = val;} 482d5b485abSSatish Balay } 483d5b485abSSatish Balay } 484d5b485abSSatish Balay isz[i] = isz_i; 485d5b485abSSatish Balay } 486d5b485abSSatish Balay return 0; 487d5b485abSSatish Balay } 488d5b485abSSatish Balay /* 489df36731bSBarry Smith MatIncreaseOverlap_MPIBAIJ_Receive - Process the recieved messages, 490d5b485abSSatish Balay and return the output 491d5b485abSSatish Balay 492d5b485abSSatish Balay Input: 493d5b485abSSatish Balay C - the matrix 494d5b485abSSatish Balay nrqr - no of messages being processed. 495d5b485abSSatish Balay rbuf - an array of pointers to the recieved requests 496d5b485abSSatish Balay 497d5b485abSSatish Balay Output: 498d5b485abSSatish Balay xdata - array of messages to be sent back 499d5b485abSSatish Balay isz1 - size of each message 500d5b485abSSatish Balay 501d5b485abSSatish Balay For better efficiency perhaps we should malloc seperately each xdata[i], 502d5b485abSSatish Balay then if a remalloc is required we need only copy the data for that one row 503d5b485abSSatish Balay rather then all previous rows as it is now where a single large chunck of 504d5b485abSSatish Balay memory is used. 505d5b485abSSatish Balay 506d5b485abSSatish Balay */ 507df36731bSBarry Smith static int MatIncreaseOverlap_MPIBAIJ_Receive(Mat C,int nrqr,int **rbuf, 508d5b485abSSatish Balay int **xdata, int * isz1) 509d5b485abSSatish Balay { 510df36731bSBarry Smith Mat_MPIBAIJ *c = (Mat_MPIBAIJ *) C->data; 511d5b485abSSatish Balay Mat A = c->A, B = c->B; 512df36731bSBarry Smith Mat_SeqBAIJ *a = (Mat_SeqBAIJ*)A->data,*b = (Mat_SeqBAIJ*)B->data; 513df36731bSBarry Smith int rstart,cstart,*ai, *aj, *bi, *bj, *garray, i, j, k; 514d5b485abSSatish Balay int row,total_sz,ct, ct1, ct2, ct3,mem_estimate, oct2, l, start, end; 515df36731bSBarry Smith int val, max1, max2, rank, Mbs, no_malloc =0, *tmp, new_estimate, ctr; 516d5b485abSSatish Balay int *rbuf_i,kmax,rbuf_0; 517d5b485abSSatish Balay char *xtable; 518d5b485abSSatish Balay 519d5b485abSSatish Balay rank = c->rank; 520df36731bSBarry Smith Mbs = c->Mbs; 521d5b485abSSatish Balay rstart = c->rstart; 522d5b485abSSatish Balay cstart = c->cstart; 523d5b485abSSatish Balay ai = a->i; 524df36731bSBarry Smith aj = a->j; 525d5b485abSSatish Balay bi = b->i; 526df36731bSBarry Smith bj = b->j; 527d5b485abSSatish Balay garray = c->garray; 528d5b485abSSatish Balay 529d5b485abSSatish Balay 530d5b485abSSatish Balay for ( i=0,ct=0,total_sz=0; i<nrqr; ++i ) { 531d5b485abSSatish Balay rbuf_i = rbuf[i]; 532d5b485abSSatish Balay rbuf_0 = rbuf_i[0]; 533d5b485abSSatish Balay ct += rbuf_0; 534d5b485abSSatish Balay for ( j=1; j<=rbuf_0; j++ ) { total_sz += rbuf_i[2*j]; } 535d5b485abSSatish Balay } 536d5b485abSSatish Balay 537df36731bSBarry Smith max1 = ct*(a->nz +b->nz)/c->Mbs; 538d5b485abSSatish Balay mem_estimate = 3*((total_sz > max1 ? total_sz : max1)+1); 539d5b485abSSatish Balay xdata[0] = (int *)PetscMalloc(mem_estimate*sizeof(int)); CHKPTRQ(xdata[0]); 540d5b485abSSatish Balay ++no_malloc; 541df36731bSBarry Smith xtable = (char *)PetscMalloc((Mbs/BITSPERBYTE+1)*sizeof(char)); CHKPTRQ(xtable); 542d5b485abSSatish Balay PetscMemzero(isz1,nrqr*sizeof(int)); 543d5b485abSSatish Balay 544d5b485abSSatish Balay ct3 = 0; 545d5b485abSSatish Balay for ( i=0; i<nrqr; i++ ) { /* for easch mesg from proc i */ 546d5b485abSSatish Balay rbuf_i = rbuf[i]; 547d5b485abSSatish Balay rbuf_0 = rbuf_i[0]; 548d5b485abSSatish Balay ct1 = 2*rbuf_0+1; 549d5b485abSSatish Balay ct2 = ct1; 550d5b485abSSatish Balay ct3 += ct1; 551d5b485abSSatish Balay for ( j=1; j<=rbuf_0; j++ ) { /* for each IS from proc i*/ 552df36731bSBarry Smith PetscMemzero(xtable,(Mbs/BITSPERBYTE+1)*sizeof(char)); 553d5b485abSSatish Balay oct2 = ct2; 554d5b485abSSatish Balay kmax = rbuf_i[2*j]; 555d5b485abSSatish Balay for ( k=0; k<kmax; k++, ct1++ ) { 556d5b485abSSatish Balay row = rbuf_i[ct1]; 557d5b485abSSatish Balay if (!BT_LOOKUP(xtable,row)) { 558d5b485abSSatish Balay if (!(ct3 < mem_estimate)) { 559d5b485abSSatish Balay new_estimate = (int)(1.5*mem_estimate)+1; 560d5b485abSSatish Balay tmp = (int*) PetscMalloc(new_estimate * sizeof(int));CHKPTRQ(tmp); 561d5b485abSSatish Balay PetscMemcpy(tmp,xdata[0],mem_estimate*sizeof(int)); 562d5b485abSSatish Balay PetscFree(xdata[0]); 563d5b485abSSatish Balay xdata[0] = tmp; 564d5b485abSSatish Balay mem_estimate = new_estimate; ++no_malloc; 565d5b485abSSatish Balay for ( ctr=1; ctr<=i; ctr++ ) { xdata[ctr] = xdata[ctr-1] + isz1[ctr-1];} 566d5b485abSSatish Balay } 567d5b485abSSatish Balay xdata[i][ct2++] = row; 568d5b485abSSatish Balay ct3++; 569d5b485abSSatish Balay } 570d5b485abSSatish Balay } 571d5b485abSSatish Balay for ( k=oct2,max2=ct2; k<max2; k++ ) { 572d5b485abSSatish Balay row = xdata[i][k] - rstart; 573d5b485abSSatish Balay start = ai[row]; 574d5b485abSSatish Balay end = ai[row+1]; 575d5b485abSSatish Balay for ( l=start; l<end; l++ ) { 576df36731bSBarry Smith val = aj[l] + cstart; 577d5b485abSSatish Balay if (!BT_LOOKUP(xtable,val)) { 578d5b485abSSatish Balay if (!(ct3 < mem_estimate)) { 579d5b485abSSatish Balay new_estimate = (int)(1.5*mem_estimate)+1; 580d5b485abSSatish Balay tmp = (int*) PetscMalloc(new_estimate * sizeof(int));CHKPTRQ(tmp); 581d5b485abSSatish Balay PetscMemcpy(tmp,xdata[0],mem_estimate*sizeof(int)); 582d5b485abSSatish Balay PetscFree(xdata[0]); 583d5b485abSSatish Balay xdata[0] = tmp; 584d5b485abSSatish Balay mem_estimate = new_estimate; ++no_malloc; 585d5b485abSSatish Balay for ( ctr=1; ctr<=i; ctr++ ) { xdata[ctr] = xdata[ctr-1] + isz1[ctr-1];} 586d5b485abSSatish Balay } 587d5b485abSSatish Balay xdata[i][ct2++] = val; 588d5b485abSSatish Balay ct3++; 589d5b485abSSatish Balay } 590d5b485abSSatish Balay } 591d5b485abSSatish Balay start = bi[row]; 592d5b485abSSatish Balay end = bi[row+1]; 593d5b485abSSatish Balay for ( l=start; l<end; l++ ) { 594df36731bSBarry Smith val = garray[bj[l]]; 595d5b485abSSatish Balay if (!BT_LOOKUP(xtable,val)) { 596d5b485abSSatish Balay if (!(ct3 < mem_estimate)) { 597d5b485abSSatish Balay new_estimate = (int)(1.5*mem_estimate)+1; 598d5b485abSSatish Balay tmp = (int*) PetscMalloc(new_estimate * sizeof(int));CHKPTRQ(tmp); 599d5b485abSSatish Balay PetscMemcpy(tmp,xdata[0],mem_estimate*sizeof(int)); 600d5b485abSSatish Balay PetscFree(xdata[0]); 601d5b485abSSatish Balay xdata[0] = tmp; 602d5b485abSSatish Balay mem_estimate = new_estimate; ++no_malloc; 603d5b485abSSatish Balay for ( ctr =1; ctr <=i; ctr++ ) { xdata[ctr] = xdata[ctr-1] + isz1[ctr-1];} 604d5b485abSSatish Balay } 605d5b485abSSatish Balay xdata[i][ct2++] = val; 606d5b485abSSatish Balay ct3++; 607d5b485abSSatish Balay } 608d5b485abSSatish Balay } 609d5b485abSSatish Balay } 610d5b485abSSatish Balay /* Update the header*/ 611d5b485abSSatish Balay xdata[i][2*j] = ct2 - oct2; /* Undo the vector isz1 and use only a var*/ 612d5b485abSSatish Balay xdata[i][2*j-1] = rbuf_i[2*j-1]; 613d5b485abSSatish Balay } 614d5b485abSSatish Balay xdata[i][0] = rbuf_0; 615d5b485abSSatish Balay xdata[i+1] = xdata[i] + ct2; 616d5b485abSSatish Balay isz1[i] = ct2; /* size of each message */ 617d5b485abSSatish Balay } 618d5b485abSSatish Balay PetscFree(xtable); 619df36731bSBarry Smith PLogInfo(0,"MatIncreaseOverlap_MPIBAIJ:[%d] Allocated %d bytes, required %d bytes, no of mallocs = %d\n",rank,mem_estimate, ct3,no_malloc); 620d5b485abSSatish Balay return 0; 621d5b485abSSatish Balay } 622d5b485abSSatish Balay 623*a2feddc5SSatish Balay static int MatGetSubMatrices_MPIBAIJ_local(Mat,int,IS *,IS *,MatGetSubMatrixCall,Mat **); 624*a2feddc5SSatish Balay 625df36731bSBarry Smith int MatGetSubMatrices_MPIBAIJ(Mat C,int ismax,IS *isrow,IS *iscol, 626d5b485abSSatish Balay MatGetSubMatrixCall scall,Mat **submat) 627d5b485abSSatish Balay { 628*a2feddc5SSatish Balay int ierr; 629*a2feddc5SSatish Balay 630*a2feddc5SSatish Balay /* The compression and expansion should be avoided. Dos'nt point 631*a2feddc5SSatish Balay out errors might change the indices hence buggey */ 632*a2feddc5SSatish Balay 633*a2feddc5SSatish Balay ierr = MatCompressIndices_MPIBAIJ(C, ismax, isrow); CHKERRQ(ierr); 634*a2feddc5SSatish Balay ierr = MatCompressIndices_MPIBAIJ(C, ismax, iscol); CHKERRQ(ierr); 635*a2feddc5SSatish Balay ierr = MatGetSubMatrices_MPIBAIJ_local(C,ismax,isrow,iscol,scall,submat); CHKERRQ(ierr); 636*a2feddc5SSatish Balay ierr = MatExpandIndices_MPIBAIJ(C, ismax, isrow); CHKERRQ(ierr); 637*a2feddc5SSatish Balay ierr = MatExpandIndices_MPIBAIJ(C, ismax, isrow); CHKERRQ(ierr); 638*a2feddc5SSatish Balay return 0; 639*a2feddc5SSatish Balay } 640*a2feddc5SSatish Balay 641*a2feddc5SSatish Balay /* -------------------------------------------------------------------------*/ 642*a2feddc5SSatish Balay static int MatGetSubMatrices_MPIBAIJ_local(Mat C,int ismax,IS *isrow,IS *iscol, 643*a2feddc5SSatish Balay MatGetSubMatrixCall scall,Mat **submat) 644*a2feddc5SSatish Balay { 645df36731bSBarry Smith Mat_MPIBAIJ *c = (Mat_MPIBAIJ *) C->data; 646d5b485abSSatish Balay Mat A = c->A,*submats = *submat; 647df36731bSBarry Smith Mat_SeqBAIJ *a = (Mat_SeqBAIJ*)A->data, *b = (Mat_SeqBAIJ*)c->B->data, *mat; 648d5b485abSSatish Balay int **irow,**icol,*nrow,*ncol,*w1,*w2,*w3,*w4,*rtable,start,end,size; 649*a2feddc5SSatish Balay int **sbuf1,**sbuf2, rank, Mbs,i,j,k,l,ct1,ct2,ierr, **rbuf1,row,proc; 650d5b485abSSatish Balay int nrqs, msz, **ptr,index,*req_size,*ctr,*pa,tag,*tmp,tcol,bsz,nrqr; 651df36731bSBarry Smith int **rbuf3,*req_source,**sbuf_aj, **rbuf2, max1,max2,**rmap; 652d5b485abSSatish Balay int **cmap,**lens,is_no,ncols,*cols,mat_i,*mat_j,tmp2,jmax,*irow_i; 653d5b485abSSatish Balay int len,ctr_j,*sbuf1_j,*sbuf_aj_i,*rbuf1_i,kmax,*cmap_i,*lens_i; 654*a2feddc5SSatish Balay int *rmap_i,bs=c->bs,bs2=c->bs2; 655d5b485abSSatish Balay MPI_Request *s_waits1,*r_waits1,*s_waits2,*r_waits2,*r_waits3; 656d5b485abSSatish Balay MPI_Request *r_waits4,*s_waits3,*s_waits4; 657d5b485abSSatish Balay MPI_Status *r_status1,*r_status2,*s_status1,*s_status3,*s_status2; 658d5b485abSSatish Balay MPI_Status *r_status3,*r_status4,*s_status4; 659d5b485abSSatish Balay MPI_Comm comm; 660d5b485abSSatish Balay Scalar **rbuf4, **sbuf_aa, *vals, *mat_a, *sbuf_aa_i; 661d5b485abSSatish Balay 662d5b485abSSatish Balay comm = C->comm; 663d5b485abSSatish Balay tag = C->tag; 664d5b485abSSatish Balay size = c->size; 665d5b485abSSatish Balay rank = c->rank; 666*a2feddc5SSatish Balay Mbs = c->Mbs; 667d5b485abSSatish Balay 668d5b485abSSatish Balay /* Check if the col indices are sorted */ 669d5b485abSSatish Balay for ( i=0; i<ismax; i++ ) { 670d5b485abSSatish Balay ierr = ISSorted(iscol[i],(PetscTruth*)&j); 671df36731bSBarry Smith if (!j) SETERRQ(1,"MatGetSubmatrices_MPIBAIJ:IS is not sorted"); 672d5b485abSSatish Balay } 673d5b485abSSatish Balay 674*a2feddc5SSatish Balay len = (2*ismax+1)*(sizeof(int *) + sizeof(int)) + (Mbs+1)*sizeof(int); 675d5b485abSSatish Balay irow = (int **)PetscMalloc(len); CHKPTRQ(irow); 676d5b485abSSatish Balay icol = irow + ismax; 677d5b485abSSatish Balay nrow = (int *) (icol + ismax); 678d5b485abSSatish Balay ncol = nrow + ismax; 679d5b485abSSatish Balay rtable = ncol + ismax; 680d5b485abSSatish Balay 681d5b485abSSatish Balay for ( i=0; i<ismax; i++ ) { 682d5b485abSSatish Balay ierr = ISGetIndices(isrow[i],&irow[i]); CHKERRQ(ierr); 683d5b485abSSatish Balay ierr = ISGetIndices(iscol[i],&icol[i]); CHKERRQ(ierr); 684d5b485abSSatish Balay ierr = ISGetSize(isrow[i],&nrow[i]); CHKERRQ(ierr); 685d5b485abSSatish Balay ierr = ISGetSize(iscol[i],&ncol[i]); CHKERRQ(ierr); 686d5b485abSSatish Balay } 687d5b485abSSatish Balay 688d5b485abSSatish Balay /* Create hash table for the mapping :row -> proc*/ 689d5b485abSSatish Balay for ( i=0,j=0; i<size; i++ ) { 690d5b485abSSatish Balay jmax = c->rowners[i+1]; 691d5b485abSSatish Balay for ( ; j<jmax; j++ ) { 692d5b485abSSatish Balay rtable[j] = i; 693d5b485abSSatish Balay } 694d5b485abSSatish Balay } 695d5b485abSSatish Balay 696d5b485abSSatish Balay /* evaluate communication - mesg to who, length of mesg, and buffer space 697d5b485abSSatish Balay required. Based on this, buffers are allocated, and data copied into them*/ 698d5b485abSSatish Balay w1 = (int *)PetscMalloc(size*4*sizeof(int));CHKPTRQ(w1); /* mesg size */ 699d5b485abSSatish Balay w2 = w1 + size; /* if w2[i] marked, then a message to proc i*/ 700d5b485abSSatish Balay w3 = w2 + size; /* no of IS that needs to be sent to proc i */ 701d5b485abSSatish Balay w4 = w3 + size; /* temp work space used in determining w1, w2, w3 */ 702d5b485abSSatish Balay PetscMemzero(w1,size*3*sizeof(int)); /* initialise work vector*/ 703d5b485abSSatish Balay for ( i=0; i<ismax; i++ ) { 704d5b485abSSatish Balay PetscMemzero(w4,size*sizeof(int)); /* initialise work vector*/ 705d5b485abSSatish Balay jmax = nrow[i]; 706d5b485abSSatish Balay irow_i = irow[i]; 707d5b485abSSatish Balay for ( j=0; j<jmax; j++ ) { 708d5b485abSSatish Balay row = irow_i[j]; 709d5b485abSSatish Balay proc = rtable[row]; 710d5b485abSSatish Balay w4[proc]++; 711d5b485abSSatish Balay } 712d5b485abSSatish Balay for ( j=0; j<size; j++ ) { 713d5b485abSSatish Balay if (w4[j]) { w1[j] += w4[j]; w3[j]++;} 714d5b485abSSatish Balay } 715d5b485abSSatish Balay } 716d5b485abSSatish Balay 717d5b485abSSatish Balay nrqs = 0; /* no of outgoing messages */ 718d5b485abSSatish Balay msz = 0; /* total mesg length (for all proc */ 719d5b485abSSatish Balay w1[rank] = 0; /* no mesg sent to intself */ 720d5b485abSSatish Balay w3[rank] = 0; 721d5b485abSSatish Balay for ( i=0; i<size; i++ ) { 722d5b485abSSatish Balay if (w1[i]) { w2[i] = 1; nrqs++;} /* there exists a message to proc i */ 723d5b485abSSatish Balay } 724d5b485abSSatish Balay pa = (int *)PetscMalloc((nrqs+1)*sizeof(int));CHKPTRQ(pa); /*(proc -array)*/ 725d5b485abSSatish Balay for ( i=0, j=0; i<size; i++ ) { 726d5b485abSSatish Balay if (w1[i]) { pa[j] = i; j++; } 727d5b485abSSatish Balay } 728d5b485abSSatish Balay 729d5b485abSSatish Balay /* Each message would have a header = 1 + 2*(no of IS) + data */ 730d5b485abSSatish Balay for ( i=0; i<nrqs; i++ ) { 731d5b485abSSatish Balay j = pa[i]; 732d5b485abSSatish Balay w1[j] += w2[j] + 2* w3[j]; 733d5b485abSSatish Balay msz += w1[j]; 734d5b485abSSatish Balay } 735d5b485abSSatish Balay /* Do a global reduction to determine how many messages to expect*/ 736d5b485abSSatish Balay { 737d5b485abSSatish Balay int *rw1, *rw2; 738d5b485abSSatish Balay rw1 = (int *)PetscMalloc(2*size*sizeof(int)); CHKPTRQ(rw1); 739d5b485abSSatish Balay rw2 = rw1+size; 740d5b485abSSatish Balay MPI_Allreduce(w1, rw1, size, MPI_INT, MPI_MAX, comm); 741d5b485abSSatish Balay bsz = rw1[rank]; 742d5b485abSSatish Balay MPI_Allreduce(w2, rw2, size, MPI_INT, MPI_SUM, comm); 743d5b485abSSatish Balay nrqr = rw2[rank]; 744d5b485abSSatish Balay PetscFree(rw1); 745d5b485abSSatish Balay } 746d5b485abSSatish Balay 747d5b485abSSatish Balay /* Allocate memory for recv buffers . Prob none if nrqr = 0 ???? */ 748d5b485abSSatish Balay len = (nrqr+1)*sizeof(int*) + nrqr*bsz*sizeof(int); 749d5b485abSSatish Balay rbuf1 = (int**) PetscMalloc(len); CHKPTRQ(rbuf1); 750d5b485abSSatish Balay rbuf1[0] = (int *) (rbuf1 + nrqr); 751d5b485abSSatish Balay for ( i=1; i<nrqr; ++i ) rbuf1[i] = rbuf1[i-1] + bsz; 752d5b485abSSatish Balay 753d5b485abSSatish Balay /* Post the receives */ 754d5b485abSSatish Balay r_waits1 = (MPI_Request *) PetscMalloc((nrqr+1)*sizeof(MPI_Request)); 755d5b485abSSatish Balay CHKPTRQ(r_waits1); 756d5b485abSSatish Balay for ( i=0; i<nrqr; ++i ) { 757d5b485abSSatish Balay MPI_Irecv(rbuf1[i],bsz,MPI_INT,MPI_ANY_SOURCE,tag,comm,r_waits1+i); 758d5b485abSSatish Balay } 759d5b485abSSatish Balay 760d5b485abSSatish Balay /* Allocate Memory for outgoing messages */ 761d5b485abSSatish Balay len = 2*size*sizeof(int*) + 2*msz*sizeof(int) + size*sizeof(int); 762d5b485abSSatish Balay sbuf1 = (int **)PetscMalloc(len); CHKPTRQ(sbuf1); 763d5b485abSSatish Balay ptr = sbuf1 + size; /* Pointers to the data in outgoing buffers */ 764d5b485abSSatish Balay PetscMemzero(sbuf1,2*size*sizeof(int*)); 765d5b485abSSatish Balay /* allocate memory for outgoing data + buf to receive the first reply */ 766d5b485abSSatish Balay tmp = (int *) (ptr + size); 767d5b485abSSatish Balay ctr = tmp + 2*msz; 768d5b485abSSatish Balay 769d5b485abSSatish Balay { 770d5b485abSSatish Balay int *iptr = tmp,ict = 0; 771d5b485abSSatish Balay for ( i=0; i<nrqs; i++ ) { 772d5b485abSSatish Balay j = pa[i]; 773d5b485abSSatish Balay iptr += ict; 774d5b485abSSatish Balay sbuf1[j] = iptr; 775d5b485abSSatish Balay ict = w1[j]; 776d5b485abSSatish Balay } 777d5b485abSSatish Balay } 778d5b485abSSatish Balay 779d5b485abSSatish Balay /* Form the outgoing messages */ 780d5b485abSSatish Balay /* Initialise the header space */ 781d5b485abSSatish Balay for ( i=0; i<nrqs; i++ ) { 782d5b485abSSatish Balay j = pa[i]; 783d5b485abSSatish Balay sbuf1[j][0] = 0; 784d5b485abSSatish Balay PetscMemzero(sbuf1[j]+1, 2*w3[j]*sizeof(int)); 785d5b485abSSatish Balay ptr[j] = sbuf1[j] + 2*w3[j] + 1; 786d5b485abSSatish Balay } 787d5b485abSSatish Balay 788d5b485abSSatish Balay /* Parse the isrow and copy data into outbuf */ 789d5b485abSSatish Balay for ( i=0; i<ismax; i++ ) { 790d5b485abSSatish Balay PetscMemzero(ctr,size*sizeof(int)); 791d5b485abSSatish Balay irow_i = irow[i]; 792d5b485abSSatish Balay jmax = nrow[i]; 793d5b485abSSatish Balay for ( j=0; j<jmax; j++ ) { /* parse the indices of each IS */ 794d5b485abSSatish Balay row = irow_i[j]; 795d5b485abSSatish Balay proc = rtable[row]; 796d5b485abSSatish Balay if (proc != rank) { /* copy to the outgoing buf*/ 797d5b485abSSatish Balay ctr[proc]++; 798d5b485abSSatish Balay *ptr[proc] = row; 799d5b485abSSatish Balay ptr[proc]++; 800d5b485abSSatish Balay } 801d5b485abSSatish Balay } 802d5b485abSSatish Balay /* Update the headers for the current IS */ 803d5b485abSSatish Balay for ( j=0; j<size; j++ ) { /* Can Optimise this loop too */ 804d5b485abSSatish Balay if ((ctr_j = ctr[j])) { 805d5b485abSSatish Balay sbuf1_j = sbuf1[j]; 806d5b485abSSatish Balay k = ++sbuf1_j[0]; 807d5b485abSSatish Balay sbuf1_j[2*k] = ctr_j; 808d5b485abSSatish Balay sbuf1_j[2*k-1] = i; 809d5b485abSSatish Balay } 810d5b485abSSatish Balay } 811d5b485abSSatish Balay } 812d5b485abSSatish Balay 813d5b485abSSatish Balay /* Now post the sends */ 814d5b485abSSatish Balay s_waits1 = (MPI_Request *) PetscMalloc((nrqs+1)*sizeof(MPI_Request)); 815d5b485abSSatish Balay CHKPTRQ(s_waits1); 816d5b485abSSatish Balay for ( i=0; i<nrqs; ++i ) { 817d5b485abSSatish Balay j = pa[i]; 818d5b485abSSatish Balay /* printf("[%d] Send Req to %d: size %d \n", rank,j, w1[j]); */ 819d5b485abSSatish Balay MPI_Isend( sbuf1[j], w1[j], MPI_INT, j, tag, comm, s_waits1+i); 820d5b485abSSatish Balay } 821d5b485abSSatish Balay 822d5b485abSSatish Balay /* Post Recieves to capture the buffer size */ 823d5b485abSSatish Balay r_waits2 = (MPI_Request *) PetscMalloc((nrqs+1)*sizeof(MPI_Request)); 824d5b485abSSatish Balay CHKPTRQ(r_waits2); 825d5b485abSSatish Balay rbuf2 = (int**)PetscMalloc((nrqs+1)*sizeof(int *));CHKPTRQ(rbuf2); 826d5b485abSSatish Balay rbuf2[0] = tmp + msz; 827d5b485abSSatish Balay for ( i=1; i<nrqs; ++i ) { 828d5b485abSSatish Balay j = pa[i]; 829d5b485abSSatish Balay rbuf2[i] = rbuf2[i-1]+w1[pa[i-1]]; 830d5b485abSSatish Balay } 831d5b485abSSatish Balay for ( i=0; i<nrqs; ++i ) { 832d5b485abSSatish Balay j = pa[i]; 833d5b485abSSatish Balay MPI_Irecv( rbuf2[i], w1[j], MPI_INT, j, tag+1, comm, r_waits2+i); 834d5b485abSSatish Balay } 835d5b485abSSatish Balay 836d5b485abSSatish Balay /* Send to other procs the buf size they should allocate */ 837d5b485abSSatish Balay 838d5b485abSSatish Balay 839d5b485abSSatish Balay /* Receive messages*/ 840d5b485abSSatish Balay s_waits2 = (MPI_Request *) PetscMalloc((nrqr+1)*sizeof(MPI_Request)); 841d5b485abSSatish Balay CHKPTRQ(s_waits2); 842d5b485abSSatish Balay r_status1 = (MPI_Status *) PetscMalloc((nrqr+1)*sizeof(MPI_Status)); 843d5b485abSSatish Balay CHKPTRQ(r_status1); 844d5b485abSSatish Balay len = 2*nrqr*sizeof(int) + (nrqr+1)*sizeof(int*); 845d5b485abSSatish Balay sbuf2 = (int**) PetscMalloc(len);CHKPTRQ(sbuf2); 846d5b485abSSatish Balay req_size = (int *) (sbuf2 + nrqr); 847d5b485abSSatish Balay req_source = req_size + nrqr; 848d5b485abSSatish Balay 849d5b485abSSatish Balay { 850df36731bSBarry Smith Mat_SeqBAIJ *sA = (Mat_SeqBAIJ*) c->A->data, *sB = (Mat_SeqBAIJ*) c->B->data; 851d5b485abSSatish Balay int *sAi = sA->i, *sBi = sB->i, id, rstart = c->rstart; 852d5b485abSSatish Balay int *sbuf2_i; 853d5b485abSSatish Balay 854d5b485abSSatish Balay for ( i=0; i<nrqr; ++i ) { 855d5b485abSSatish Balay MPI_Waitany(nrqr, r_waits1, &index, r_status1+i); 856d5b485abSSatish Balay req_size[index] = 0; 857d5b485abSSatish Balay rbuf1_i = rbuf1[index]; 858d5b485abSSatish Balay start = 2*rbuf1_i[0] + 1; 859d5b485abSSatish Balay MPI_Get_count(r_status1+i,MPI_INT, &end); 860d5b485abSSatish Balay sbuf2[index] = (int *)PetscMalloc(end*sizeof(int));CHKPTRQ(sbuf2[index]); 861d5b485abSSatish Balay sbuf2_i = sbuf2[index]; 862d5b485abSSatish Balay for ( j=start; j<end; j++ ) { 863d5b485abSSatish Balay id = rbuf1_i[j] - rstart; 864d5b485abSSatish Balay ncols = sAi[id+1] - sAi[id] + sBi[id+1] - sBi[id]; 865d5b485abSSatish Balay sbuf2_i[j] = ncols; 866d5b485abSSatish Balay req_size[index] += ncols; 867d5b485abSSatish Balay } 868d5b485abSSatish Balay req_source[index] = r_status1[i].MPI_SOURCE; 869d5b485abSSatish Balay /* form the header */ 870d5b485abSSatish Balay sbuf2_i[0] = req_size[index]; 871d5b485abSSatish Balay for ( j=1; j<start; j++ ) { sbuf2_i[j] = rbuf1_i[j]; } 872d5b485abSSatish Balay MPI_Isend(sbuf2_i,end,MPI_INT,req_source[index],tag+1,comm,s_waits2+i); 873d5b485abSSatish Balay } 874d5b485abSSatish Balay } 875d5b485abSSatish Balay PetscFree(r_status1); PetscFree(r_waits1); 876d5b485abSSatish Balay 877d5b485abSSatish Balay /* recv buffer sizes */ 878d5b485abSSatish Balay /* Receive messages*/ 879d5b485abSSatish Balay 880d5b485abSSatish Balay rbuf3 = (int**)PetscMalloc((nrqs+1)*sizeof(int*)); CHKPTRQ(rbuf3); 881d5b485abSSatish Balay rbuf4 = (Scalar**)PetscMalloc((nrqs+1)*sizeof(Scalar*));CHKPTRQ(rbuf4); 882d5b485abSSatish Balay r_waits3 = (MPI_Request *) PetscMalloc((nrqs+1)*sizeof(MPI_Request)); 883d5b485abSSatish Balay CHKPTRQ(r_waits3); 884d5b485abSSatish Balay r_waits4 = (MPI_Request *) PetscMalloc((nrqs+1)*sizeof(MPI_Request)); 885d5b485abSSatish Balay CHKPTRQ(r_waits4); 886d5b485abSSatish Balay r_status2 = (MPI_Status *) PetscMalloc( (nrqs+1)*sizeof(MPI_Status) ); 887d5b485abSSatish Balay CHKPTRQ(r_status2); 888d5b485abSSatish Balay 889d5b485abSSatish Balay for ( i=0; i<nrqs; ++i ) { 890d5b485abSSatish Balay MPI_Waitany(nrqs, r_waits2, &index, r_status2+i); 891d5b485abSSatish Balay rbuf3[index] = (int *)PetscMalloc(rbuf2[index][0]*sizeof(int)); 892d5b485abSSatish Balay CHKPTRQ(rbuf3[index]); 893*a2feddc5SSatish Balay rbuf4[index] = (Scalar *)PetscMalloc(rbuf2[index][0]*bs2*sizeof(Scalar)); 894d5b485abSSatish Balay CHKPTRQ(rbuf4[index]); 895d5b485abSSatish Balay MPI_Irecv(rbuf3[index],rbuf2[index][0], MPI_INT, 896d5b485abSSatish Balay r_status2[i].MPI_SOURCE, tag+2, comm, r_waits3+index); 897*a2feddc5SSatish Balay MPI_Irecv(rbuf4[index],rbuf2[index][0]*bs2, MPIU_SCALAR, 898d5b485abSSatish Balay r_status2[i].MPI_SOURCE, tag+3, comm, r_waits4+index); 899d5b485abSSatish Balay } 900d5b485abSSatish Balay PetscFree(r_status2); PetscFree(r_waits2); 901d5b485abSSatish Balay 902d5b485abSSatish Balay /* Wait on sends1 and sends2 */ 903d5b485abSSatish Balay s_status1 = (MPI_Status *) PetscMalloc((nrqs+1)*sizeof(MPI_Status)); 904d5b485abSSatish Balay CHKPTRQ(s_status1); 905d5b485abSSatish Balay s_status2 = (MPI_Status *) PetscMalloc((nrqr+1)*sizeof(MPI_Status)); 906d5b485abSSatish Balay CHKPTRQ(s_status2); 907d5b485abSSatish Balay 908d5b485abSSatish Balay MPI_Waitall(nrqs,s_waits1,s_status1); 909d5b485abSSatish Balay MPI_Waitall(nrqr,s_waits2,s_status2); 910d5b485abSSatish Balay PetscFree(s_status1); PetscFree(s_status2); 911d5b485abSSatish Balay PetscFree(s_waits1); PetscFree(s_waits2); 912d5b485abSSatish Balay 913d5b485abSSatish Balay /* Now allocate buffers for a->j, and send them off */ 914d5b485abSSatish Balay sbuf_aj = (int **)PetscMalloc((nrqr+1)*sizeof(int *));CHKPTRQ(sbuf_aj); 915d5b485abSSatish Balay for ( i=0,j=0; i<nrqr; i++ ) j += req_size[i]; 916d5b485abSSatish Balay sbuf_aj[0] = (int*) PetscMalloc((j+1)*sizeof(int)); CHKPTRQ(sbuf_aj[0]); 917d5b485abSSatish Balay for ( i=1; i<nrqr; i++ ) sbuf_aj[i] = sbuf_aj[i-1] + req_size[i-1]; 918d5b485abSSatish Balay 919d5b485abSSatish Balay s_waits3 = (MPI_Request *) PetscMalloc((nrqr+1)*sizeof(MPI_Request)); 920d5b485abSSatish Balay CHKPTRQ(s_waits3); 921d5b485abSSatish Balay { 922d5b485abSSatish Balay int nzA, nzB, *a_i = a->i, *b_i = b->i, imark; 923d5b485abSSatish Balay int *cworkA, *cworkB, cstart = c->cstart, *bmap = c->garray; 924df36731bSBarry Smith int *a_j = a->j, *b_j = b->j,ctmp; 925d5b485abSSatish Balay 926d5b485abSSatish Balay for ( i=0; i<nrqr; i++ ) { 927d5b485abSSatish Balay rbuf1_i = rbuf1[i]; 928d5b485abSSatish Balay sbuf_aj_i = sbuf_aj[i]; 929d5b485abSSatish Balay ct1 = 2*rbuf1_i[0] + 1; 930d5b485abSSatish Balay ct2 = 0; 931d5b485abSSatish Balay for ( j=1,max1=rbuf1_i[0]; j<=max1; j++ ) { 932d5b485abSSatish Balay kmax = rbuf1[i][2*j]; 933d5b485abSSatish Balay for ( k=0; k<kmax; k++,ct1++ ) { 934d5b485abSSatish Balay row = rbuf1_i[ct1] - cstart; 935d5b485abSSatish Balay nzA = a_i[row+1] - a_i[row]; nzB = b_i[row+1] - b_i[row]; 936d5b485abSSatish Balay ncols = nzA + nzB; 937d5b485abSSatish Balay cworkA = a_j + a_i[row]; cworkB = b_j + b_i[row]; 938d5b485abSSatish Balay 939d5b485abSSatish Balay /* load the column indices for this row into cols*/ 940d5b485abSSatish Balay cols = sbuf_aj_i + ct2; 941d5b485abSSatish Balay for ( l=0; l<nzB; l++ ) { 942d5b485abSSatish Balay if ((ctmp = bmap[cworkB[l]]) < cstart) cols[l] = ctmp; 943d5b485abSSatish Balay else break; 944d5b485abSSatish Balay } 945d5b485abSSatish Balay imark = l; 946d5b485abSSatish Balay for ( l=0; l<nzA; l++ ) cols[imark+l] = cstart + cworkA[l]; 947d5b485abSSatish Balay for ( l=imark; l<nzB; l++ ) cols[nzA+l] = bmap[cworkB[l]]; 948d5b485abSSatish Balay ct2 += ncols; 949d5b485abSSatish Balay } 950d5b485abSSatish Balay } 951d5b485abSSatish Balay MPI_Isend(sbuf_aj_i,req_size[i],MPI_INT,req_source[i],tag+2,comm,s_waits3+i); 952d5b485abSSatish Balay } 953d5b485abSSatish Balay } 954d5b485abSSatish Balay r_status3 = (MPI_Status *) PetscMalloc((nrqs+1)*sizeof(MPI_Status)); 955d5b485abSSatish Balay CHKPTRQ(r_status3); 956d5b485abSSatish Balay s_status3 = (MPI_Status *) PetscMalloc((nrqr+1)*sizeof(MPI_Status)); 957d5b485abSSatish Balay CHKPTRQ(s_status3); 958d5b485abSSatish Balay 959d5b485abSSatish Balay /* Allocate buffers for a->a, and send them off */ 960d5b485abSSatish Balay sbuf_aa = (Scalar **)PetscMalloc((nrqr+1)*sizeof(Scalar *));CHKPTRQ(sbuf_aa); 961d5b485abSSatish Balay for ( i=0,j=0; i<nrqr; i++ ) j += req_size[i]; 962*a2feddc5SSatish Balay sbuf_aa[0] = (Scalar*) PetscMalloc((j+1)*bs2*sizeof(Scalar));CHKPTRQ(sbuf_aa[0]); 963*a2feddc5SSatish Balay for ( i=1; i<nrqr; i++ ) sbuf_aa[i] = sbuf_aa[i-1] + req_size[i-1]*bs2; 964d5b485abSSatish Balay 965d5b485abSSatish Balay s_waits4 = (MPI_Request *) PetscMalloc((nrqr+1)*sizeof(MPI_Request)); 966d5b485abSSatish Balay CHKPTRQ(s_waits4); 967d5b485abSSatish Balay { 968d5b485abSSatish Balay int nzA, nzB, *a_i = a->i, *b_i = b->i, imark; 969d5b485abSSatish Balay int *cworkA, *cworkB, cstart = c->cstart, *bmap = c->garray; 970df36731bSBarry Smith int *a_j = a->j, *b_j = b->j; 971df36731bSBarry Smith Scalar *vworkA, *vworkB, *a_a = a->a, *b_a = b->a; 972d5b485abSSatish Balay 973d5b485abSSatish Balay for ( i=0; i<nrqr; i++ ) { 974d5b485abSSatish Balay rbuf1_i = rbuf1[i]; 975d5b485abSSatish Balay sbuf_aa_i = sbuf_aa[i]; 976d5b485abSSatish Balay ct1 = 2*rbuf1_i[0]+1; 977d5b485abSSatish Balay ct2 = 0; 978d5b485abSSatish Balay for ( j=1,max1=rbuf1_i[0]; j<=max1; j++ ) { 979d5b485abSSatish Balay kmax = rbuf1_i[2*j]; 980d5b485abSSatish Balay for ( k=0; k<kmax; k++,ct1++ ) { 981d5b485abSSatish Balay row = rbuf1_i[ct1] - cstart; 982d5b485abSSatish Balay nzA = a_i[row+1] - a_i[row]; nzB = b_i[row+1] - b_i[row]; 983d5b485abSSatish Balay ncols = nzA + nzB; 984d5b485abSSatish Balay cworkA = a_j + a_i[row]; cworkB = b_j + b_i[row]; 985*a2feddc5SSatish Balay vworkA = a_a + a_i[row]*bs2; vworkB = b_a + b_i[row]*bs2; 986d5b485abSSatish Balay 987d5b485abSSatish Balay /* load the column values for this row into vals*/ 988d5b485abSSatish Balay vals = sbuf_aa_i+ct2; 989d5b485abSSatish Balay for ( l=0; l<nzB; l++ ) { 990*a2feddc5SSatish Balay if ((bmap[cworkB[l]]) < cstart) 991*a2feddc5SSatish Balay PetscMemcpy(vals+l*bs2,vworkB+l*bs2,bs2*sizeof(Scalar)); 992d5b485abSSatish Balay else break; 993d5b485abSSatish Balay } 994d5b485abSSatish Balay imark = l; 995*a2feddc5SSatish Balay for ( l=0; l<nzA; l++ ) 996*a2feddc5SSatish Balay PetscMemcpy(vals+(imark+l)*bs2,vworkA+l*bs2,bs2*sizeof(Scalar)); 997*a2feddc5SSatish Balay for ( l=imark; l<nzB; l++ ) 998*a2feddc5SSatish Balay PetscMemcpy(vals+(nzA+l)*bs2,vworkB+l*bs2,bs2*sizeof(Scalar)); 999d5b485abSSatish Balay ct2 += ncols; 1000d5b485abSSatish Balay } 1001d5b485abSSatish Balay } 1002*a2feddc5SSatish Balay MPI_Isend(sbuf_aa_i,req_size[i]*bs2,MPIU_SCALAR,req_source[i],tag+3,comm,s_waits4+i); 1003d5b485abSSatish Balay } 1004d5b485abSSatish Balay } 1005d5b485abSSatish Balay r_status4 = (MPI_Status *) PetscMalloc((nrqs+1)*sizeof(MPI_Status)); 1006d5b485abSSatish Balay CHKPTRQ(r_status4); 1007d5b485abSSatish Balay s_status4 = (MPI_Status *) PetscMalloc((nrqr+1)*sizeof(MPI_Status)); 1008d5b485abSSatish Balay CHKPTRQ(s_status4); 1009d5b485abSSatish Balay PetscFree(rbuf1); 1010d5b485abSSatish Balay 1011d5b485abSSatish Balay /* Form the matrix */ 1012d5b485abSSatish Balay /* create col map */ 1013d5b485abSSatish Balay { 1014d5b485abSSatish Balay int *icol_i; 1015d5b485abSSatish Balay 1016*a2feddc5SSatish Balay len = (1+ismax)*sizeof(int *) + ismax*c->Nbs*sizeof(int); 1017d5b485abSSatish Balay cmap = (int **)PetscMalloc(len); CHKPTRQ(cmap); 1018d5b485abSSatish Balay cmap[0] = (int *)(cmap + ismax); 1019*a2feddc5SSatish Balay PetscMemzero(cmap[0],(1+ismax*c->Nbs)*sizeof(int)); 1020*a2feddc5SSatish Balay for ( i=1; i<ismax; i++ ) { cmap[i] = cmap[i-1] + c->Nbs; } 1021d5b485abSSatish Balay for ( i=0; i<ismax; i++ ) { 1022d5b485abSSatish Balay jmax = ncol[i]; 1023d5b485abSSatish Balay icol_i = icol[i]; 1024d5b485abSSatish Balay cmap_i = cmap[i]; 1025d5b485abSSatish Balay for ( j=0; j<jmax; j++ ) { 1026d5b485abSSatish Balay cmap_i[icol_i[j]] = j+1; 1027d5b485abSSatish Balay } 1028d5b485abSSatish Balay } 1029d5b485abSSatish Balay } 1030d5b485abSSatish Balay 1031d5b485abSSatish Balay 1032d5b485abSSatish Balay /* Create lens which is required for MatCreate... */ 1033d5b485abSSatish Balay for ( i=0,j=0; i<ismax; i++ ) { j += nrow[i]; } 1034d5b485abSSatish Balay len = (1+ismax)*sizeof(int *) + j*sizeof(int); 1035d5b485abSSatish Balay lens = (int **)PetscMalloc(len); CHKPTRQ(lens); 1036d5b485abSSatish Balay lens[0] = (int *)(lens + ismax); 1037d5b485abSSatish Balay PetscMemzero(lens[0], j*sizeof(int)); 1038d5b485abSSatish Balay for ( i=1; i<ismax; i++ ) { lens[i] = lens[i-1] + nrow[i-1]; } 1039d5b485abSSatish Balay 1040d5b485abSSatish Balay /* Update lens from local data */ 1041d5b485abSSatish Balay for ( i=0; i<ismax; i++ ) { 1042d5b485abSSatish Balay jmax = nrow[i]; 1043d5b485abSSatish Balay cmap_i = cmap[i]; 1044d5b485abSSatish Balay irow_i = irow[i]; 1045d5b485abSSatish Balay lens_i = lens[i]; 1046d5b485abSSatish Balay for ( j=0; j<jmax; j++ ) { 1047d5b485abSSatish Balay row = irow_i[j]; 1048d5b485abSSatish Balay proc = rtable[row]; 1049d5b485abSSatish Balay if (proc == rank) { 1050*a2feddc5SSatish Balay for ( k=0; k<bs; k++ ) { 1051*a2feddc5SSatish Balay ierr = MatGetRow_MPIBAIJ(C,row*bs+k,&ncols,&cols,0); CHKERRQ(ierr); 1052*a2feddc5SSatish Balay for ( l=0; l<ncols; l++ ) { 1053*a2feddc5SSatish Balay if (cmap_i[cols[l]/bs]) { lens_i[j]++;} 1054d5b485abSSatish Balay } 1055df36731bSBarry Smith ierr = MatRestoreRow_MPIBAIJ(C,row,&ncols,&cols,0); CHKERRQ(ierr); 1056d5b485abSSatish Balay } 1057d5b485abSSatish Balay } 1058d5b485abSSatish Balay } 1059*a2feddc5SSatish Balay } 1060d5b485abSSatish Balay 1061d5b485abSSatish Balay /* Create row map*/ 1062*a2feddc5SSatish Balay len = (1+ismax)*sizeof(int *) + ismax*c->Mbs*sizeof(int); 1063d5b485abSSatish Balay rmap = (int **)PetscMalloc(len); CHKPTRQ(rmap); 1064d5b485abSSatish Balay rmap[0] = (int *)(rmap + ismax); 1065*a2feddc5SSatish Balay PetscMemzero(rmap[0],ismax*c->Mbs*sizeof(int)); 1066*a2feddc5SSatish Balay for ( i=1; i<ismax; i++ ) { rmap[i] = rmap[i-1] + c->Mbs;} 1067d5b485abSSatish Balay for ( i=0; i<ismax; i++ ) { 1068d5b485abSSatish Balay rmap_i = rmap[i]; 1069d5b485abSSatish Balay irow_i = irow[i]; 1070d5b485abSSatish Balay jmax = nrow[i]; 1071d5b485abSSatish Balay for ( j=0; j<jmax; j++ ) { 1072d5b485abSSatish Balay rmap_i[irow_i[j]] = j; 1073d5b485abSSatish Balay } 1074d5b485abSSatish Balay } 1075d5b485abSSatish Balay 1076d5b485abSSatish Balay /* Update lens from offproc data */ 1077d5b485abSSatish Balay { 1078d5b485abSSatish Balay int *rbuf2_i, *rbuf3_i, *sbuf1_i; 1079d5b485abSSatish Balay 1080d5b485abSSatish Balay for ( tmp2=0; tmp2<nrqs; tmp2++ ) { 1081d5b485abSSatish Balay MPI_Waitany(nrqs, r_waits3, &i, r_status3+tmp2); 1082d5b485abSSatish Balay index = pa[i]; 1083d5b485abSSatish Balay sbuf1_i = sbuf1[index]; 1084d5b485abSSatish Balay jmax = sbuf1_i[0]; 1085d5b485abSSatish Balay ct1 = 2*jmax+1; 1086d5b485abSSatish Balay ct2 = 0; 1087d5b485abSSatish Balay rbuf2_i = rbuf2[i]; 1088d5b485abSSatish Balay rbuf3_i = rbuf3[i]; 1089d5b485abSSatish Balay for ( j=1; j<=jmax; j++ ) { 1090d5b485abSSatish Balay is_no = sbuf1_i[2*j-1]; 1091d5b485abSSatish Balay max1 = sbuf1_i[2*j]; 1092d5b485abSSatish Balay lens_i = lens[is_no]; 1093d5b485abSSatish Balay cmap_i = cmap[is_no]; 1094d5b485abSSatish Balay rmap_i = rmap[is_no]; 1095d5b485abSSatish Balay for ( k=0; k<max1; k++,ct1++ ) { 1096d5b485abSSatish Balay row = rmap_i[sbuf1_i[ct1]]; /* the val in the new matrix to be */ 1097d5b485abSSatish Balay max2 = rbuf2_i[ct1]; 1098d5b485abSSatish Balay for ( l=0; l<max2; l++,ct2++ ) { 1099d5b485abSSatish Balay if (cmap_i[rbuf3_i[ct2]]) { 1100d5b485abSSatish Balay lens_i[row]++; 1101d5b485abSSatish Balay } 1102d5b485abSSatish Balay } 1103d5b485abSSatish Balay } 1104d5b485abSSatish Balay } 1105d5b485abSSatish Balay } 1106d5b485abSSatish Balay } 1107d5b485abSSatish Balay PetscFree(r_status3); PetscFree(r_waits3); 1108d5b485abSSatish Balay MPI_Waitall(nrqr,s_waits3,s_status3); 1109d5b485abSSatish Balay PetscFree(s_status3); PetscFree(s_waits3); 1110d5b485abSSatish Balay 1111d5b485abSSatish Balay /* Create the submatrices */ 1112d5b485abSSatish Balay if (scall == MAT_REUSE_MATRIX) { 1113d5b485abSSatish Balay /* 1114d5b485abSSatish Balay Assumes new rows are same length as the old rows, hence bug! 1115d5b485abSSatish Balay */ 1116d5b485abSSatish Balay for ( i=0; i<ismax; i++ ) { 1117df36731bSBarry Smith mat = (Mat_SeqBAIJ *)(submats[i]->data); 1118d5b485abSSatish Balay if ((mat->m != nrow[i]) || (mat->n != ncol[i])) { 1119df36731bSBarry Smith SETERRQ(1,"MatGetSubmatrices_MPIBAIJ:Cannot reuse matrix. wrong size"); 1120d5b485abSSatish Balay } 1121d5b485abSSatish Balay if (PetscMemcmp(mat->ilen,lens[i], mat->m *sizeof(int))) { 1122df36731bSBarry Smith SETERRQ(1,"MatGetSubmatrices_MPIBAIJ:Cannot reuse matrix. wrong no of nonzeros"); 1123d5b485abSSatish Balay } 1124d5b485abSSatish Balay /* Initial matrix as if empty */ 1125d5b485abSSatish Balay PetscMemzero(mat->ilen,mat->m*sizeof(int)); 1126d5b485abSSatish Balay } 1127d5b485abSSatish Balay } 1128d5b485abSSatish Balay else { 1129d5b485abSSatish Balay *submat = submats = (Mat *)PetscMalloc(ismax*sizeof(Mat)); CHKPTRQ(submats); 1130d5b485abSSatish Balay for ( i=0; i<ismax; i++ ) { 1131*a2feddc5SSatish Balay ierr = MatCreateSeqBAIJ(comm,a->bs,nrow[i]*bs,ncol[i]*bs,0,lens[i],submats+i);CHKERRQ(ierr); 1132d5b485abSSatish Balay } 1133d5b485abSSatish Balay } 1134d5b485abSSatish Balay 1135d5b485abSSatish Balay /* Assemble the matrices */ 1136d5b485abSSatish Balay /* First assemble the local rows */ 1137d5b485abSSatish Balay { 1138d5b485abSSatish Balay int ilen_row,*imat_ilen, *imat_j, *imat_i,old_row; 1139d5b485abSSatish Balay Scalar *imat_a; 1140d5b485abSSatish Balay 1141d5b485abSSatish Balay for ( i=0; i<ismax; i++ ) { 1142df36731bSBarry Smith mat = (Mat_SeqBAIJ *) submats[i]->data; 1143d5b485abSSatish Balay imat_ilen = mat->ilen; 1144d5b485abSSatish Balay imat_j = mat->j; 1145d5b485abSSatish Balay imat_i = mat->i; 1146d5b485abSSatish Balay imat_a = mat->a; 1147d5b485abSSatish Balay cmap_i = cmap[i]; 1148d5b485abSSatish Balay rmap_i = rmap[i]; 1149d5b485abSSatish Balay irow_i = irow[i]; 1150d5b485abSSatish Balay jmax = nrow[i]; 1151d5b485abSSatish Balay for ( j=0; j<jmax; j++ ) { 1152d5b485abSSatish Balay row = irow_i[j]; 1153d5b485abSSatish Balay proc = rtable[row]; 1154d5b485abSSatish Balay if (proc == rank) { 1155d5b485abSSatish Balay old_row = row; 1156d5b485abSSatish Balay row = rmap_i[row]; 1157d5b485abSSatish Balay ilen_row = imat_ilen[row]; 1158df36731bSBarry Smith ierr = MatGetRow_MPIBAIJ(C,old_row,&ncols,&cols,&vals); CHKERRQ(ierr); 1159df36731bSBarry Smith mat_i = imat_i[row]; 1160d5b485abSSatish Balay mat_a = imat_a + mat_i; 1161d5b485abSSatish Balay mat_j = imat_j + mat_i; 1162d5b485abSSatish Balay for ( k=0; k<ncols; k++ ) { 1163d5b485abSSatish Balay if ((tcol = cmap_i[cols[k]])) { 1164df36731bSBarry Smith *mat_j++ = tcol - 1; 1165d5b485abSSatish Balay *mat_a++ = vals[k]; 1166d5b485abSSatish Balay ilen_row++; 1167d5b485abSSatish Balay } 1168d5b485abSSatish Balay } 1169df36731bSBarry Smith ierr = MatRestoreRow_MPIBAIJ(C,old_row,&ncols,&cols,&vals); CHKERRQ(ierr); 1170d5b485abSSatish Balay imat_ilen[row] = ilen_row; 1171d5b485abSSatish Balay } 1172d5b485abSSatish Balay 1173d5b485abSSatish Balay } 1174d5b485abSSatish Balay } 1175d5b485abSSatish Balay } 1176d5b485abSSatish Balay 1177d5b485abSSatish Balay /* Now assemble the off proc rows*/ 1178d5b485abSSatish Balay { 1179d5b485abSSatish Balay int *sbuf1_i,*rbuf2_i,*rbuf3_i,*imat_ilen,ilen; 1180d5b485abSSatish Balay int *imat_j,*imat_i; 1181d5b485abSSatish Balay Scalar *imat_a,*rbuf4_i; 1182d5b485abSSatish Balay 1183d5b485abSSatish Balay for ( tmp2=0; tmp2<nrqs; tmp2++ ) { 1184d5b485abSSatish Balay MPI_Waitany(nrqs, r_waits4, &i, r_status4+tmp2); 1185d5b485abSSatish Balay index = pa[i]; 1186d5b485abSSatish Balay sbuf1_i = sbuf1[index]; 1187d5b485abSSatish Balay jmax = sbuf1_i[0]; 1188d5b485abSSatish Balay ct1 = 2*jmax + 1; 1189d5b485abSSatish Balay ct2 = 0; 1190d5b485abSSatish Balay rbuf2_i = rbuf2[i]; 1191d5b485abSSatish Balay rbuf3_i = rbuf3[i]; 1192d5b485abSSatish Balay rbuf4_i = rbuf4[i]; 1193d5b485abSSatish Balay for ( j=1; j<=jmax; j++ ) { 1194d5b485abSSatish Balay is_no = sbuf1_i[2*j-1]; 1195d5b485abSSatish Balay rmap_i = rmap[is_no]; 1196d5b485abSSatish Balay cmap_i = cmap[is_no]; 1197df36731bSBarry Smith mat = (Mat_SeqBAIJ *) submats[is_no]->data; 1198d5b485abSSatish Balay imat_ilen = mat->ilen; 1199d5b485abSSatish Balay imat_j = mat->j; 1200d5b485abSSatish Balay imat_i = mat->i; 1201d5b485abSSatish Balay imat_a = mat->a; 1202d5b485abSSatish Balay max1 = sbuf1_i[2*j]; 1203d5b485abSSatish Balay for ( k=0; k<max1; k++, ct1++ ) { 1204d5b485abSSatish Balay row = sbuf1_i[ct1]; 1205d5b485abSSatish Balay row = rmap_i[row]; 1206d5b485abSSatish Balay ilen = imat_ilen[row]; 1207df36731bSBarry Smith mat_i = imat_i[row]; 1208d5b485abSSatish Balay mat_a = imat_a + mat_i; 1209d5b485abSSatish Balay mat_j = imat_j + mat_i; 1210d5b485abSSatish Balay max2 = rbuf2_i[ct1]; 1211d5b485abSSatish Balay for ( l=0; l<max2; l++,ct2++ ) { 1212d5b485abSSatish Balay if ((tcol = cmap_i[rbuf3_i[ct2]])) { 1213df36731bSBarry Smith *mat_j++ = tcol - 1; 1214d5b485abSSatish Balay *mat_a++ = rbuf4_i[ct2]; 1215d5b485abSSatish Balay ilen++; 1216d5b485abSSatish Balay } 1217d5b485abSSatish Balay } 1218d5b485abSSatish Balay imat_ilen[row] = ilen; 1219d5b485abSSatish Balay } 1220d5b485abSSatish Balay } 1221d5b485abSSatish Balay } 1222d5b485abSSatish Balay } 1223d5b485abSSatish Balay PetscFree(r_status4); PetscFree(r_waits4); 1224d5b485abSSatish Balay MPI_Waitall(nrqr,s_waits4,s_status4); 1225d5b485abSSatish Balay PetscFree(s_waits4); PetscFree(s_status4); 1226d5b485abSSatish Balay 1227d5b485abSSatish Balay /* Restore the indices */ 1228d5b485abSSatish Balay for ( i=0; i<ismax; i++ ) { 1229d5b485abSSatish Balay ierr = ISRestoreIndices(isrow[i], irow+i); CHKERRQ(ierr); 1230d5b485abSSatish Balay ierr = ISRestoreIndices(iscol[i], icol+i); CHKERRQ(ierr); 1231d5b485abSSatish Balay } 1232d5b485abSSatish Balay 1233d5b485abSSatish Balay /* Destroy allocated memory */ 1234d5b485abSSatish Balay PetscFree(irow); 1235d5b485abSSatish Balay PetscFree(w1); 1236d5b485abSSatish Balay PetscFree(pa); 1237d5b485abSSatish Balay 1238d5b485abSSatish Balay PetscFree(sbuf1); 1239d5b485abSSatish Balay PetscFree(rbuf2); 1240d5b485abSSatish Balay for ( i=0; i<nrqr; ++i ) { 1241d5b485abSSatish Balay PetscFree(sbuf2[i]); 1242d5b485abSSatish Balay } 1243d5b485abSSatish Balay for ( i=0; i<nrqs; ++i ) { 1244d5b485abSSatish Balay PetscFree(rbuf3[i]); 1245d5b485abSSatish Balay PetscFree(rbuf4[i]); 1246d5b485abSSatish Balay } 1247d5b485abSSatish Balay 1248d5b485abSSatish Balay PetscFree(sbuf2); 1249d5b485abSSatish Balay PetscFree(rbuf3); 1250d5b485abSSatish Balay PetscFree(rbuf4 ); 1251d5b485abSSatish Balay PetscFree(sbuf_aj[0]); 1252d5b485abSSatish Balay PetscFree(sbuf_aj); 1253d5b485abSSatish Balay PetscFree(sbuf_aa[0]); 1254d5b485abSSatish Balay PetscFree(sbuf_aa); 1255d5b485abSSatish Balay 1256d5b485abSSatish Balay PetscFree(cmap); 1257d5b485abSSatish Balay PetscFree(rmap); 1258d5b485abSSatish Balay PetscFree(lens); 1259d5b485abSSatish Balay 1260d5b485abSSatish Balay for ( i=0; i<ismax; i++ ) { 1261d5b485abSSatish Balay ierr = MatAssemblyBegin(submats[i], FINAL_ASSEMBLY); CHKERRQ(ierr); 1262d5b485abSSatish Balay ierr = MatAssemblyEnd(submats[i], FINAL_ASSEMBLY); CHKERRQ(ierr); 1263d5b485abSSatish Balay } 1264d5b485abSSatish Balay 1265d5b485abSSatish Balay return 0; 1266d5b485abSSatish Balay } 1267