1 #ifdef PETSC_RCS_HEADER 2 static char vcid[] = "$Id: mmbaij.c,v 1.17 1998/01/10 05:12:13 balay Exp balay $"; 3 #endif 4 5 6 /* 7 Support for the parallel BAIJ matrix vector multiply 8 */ 9 #include "src/mat/impls/baij/mpi/mpibaij.h" 10 #include "src/vec/vecimpl.h" 11 12 #undef __FUNC__ 13 #define __FUNC__ "MatSetUpMultiply_MPIBAIJ" 14 int MatSetUpMultiply_MPIBAIJ(Mat mat) 15 { 16 Mat_MPIBAIJ *baij = (Mat_MPIBAIJ *) mat->data; 17 Mat_SeqBAIJ *B = (Mat_SeqBAIJ *) (baij->B->data); 18 int Nbs = baij->Nbs,i,j,*indices,*aj = B->j,ierr,ec = 0,*garray; 19 int col,bs = baij->bs,*tmp,*stmp; 20 IS from,to; 21 Vec gvec; 22 23 PetscFunctionBegin; 24 /* For the first stab we make an array as long as the number of columns */ 25 /* mark those columns that are in baij->B */ 26 indices = (int *) PetscMalloc( (Nbs+1)*sizeof(int) ); CHKPTRQ(indices); 27 PetscMemzero(indices,Nbs*sizeof(int)); 28 for ( i=0; i<B->mbs; i++ ) { 29 for ( j=0; j<B->ilen[i]; j++ ) { 30 if (!indices[aj[B->i[i] + j]]) ec++; 31 indices[aj[B->i[i] + j] ] = 1; 32 } 33 } 34 35 /* form array of columns we need */ 36 garray = (int *) PetscMalloc( (ec+1)*sizeof(int) ); CHKPTRQ(garray); 37 tmp = (int *) PetscMalloc( (ec*bs+1)*sizeof(int) ); CHKPTRQ(tmp) 38 ec = 0; 39 for ( i=0; i<Nbs; i++ ) { 40 if (indices[i]) { 41 garray[ec++] = i; 42 } 43 } 44 45 /* make indices now point into garray */ 46 for ( i=0; i<ec; i++ ) { 47 indices[garray[i]] = i; 48 } 49 50 /* compact out the extra columns in B */ 51 for ( i=0; i<B->mbs; i++ ) { 52 for ( j=0; j<B->ilen[i]; j++ ) { 53 aj[B->i[i] + j] = indices[aj[B->i[i] + j]]; 54 } 55 } 56 B->nbs = ec; 57 B->n = ec*B->bs; 58 PetscFree(indices); 59 60 for ( i=0,col=0; i<ec; i++ ) { 61 for ( j=0; j<bs; j++,col++) tmp[col] = garray[i]*bs+j; 62 } 63 /* create local vector that is used to scatter into */ 64 ierr = VecCreateSeq(PETSC_COMM_SELF,ec*bs,&baij->lvec); CHKERRQ(ierr); 65 66 /* create two temporary index sets for building scatter-gather */ 67 68 /* ierr = ISCreateGeneral(PETSC_COMM_SELF,ec*bs,tmp,&from); CHKERRQ(ierr); */ 69 for ( i=0,col=0; i<ec; i++ ) { 70 garray[i] = bs*garray[i]; 71 } 72 ierr = ISCreateBlock(PETSC_COMM_SELF,bs,ec,garray,&from);CHKERRQ(ierr); 73 for ( i=0,col=0; i<ec; i++ ) { 74 garray[i] = garray[i]/bs; 75 } 76 77 stmp = (int *) PetscMalloc( (ec+1)*sizeof(int) ); CHKPTRQ(stmp); 78 for ( i=0; i<ec; i++ ) { stmp[i] = bs*i; } 79 ierr = ISCreateBlock(PETSC_COMM_SELF,bs,ec,stmp,&to);CHKERRQ(ierr); 80 PetscFree(stmp); 81 82 /* create temporary global vector to generate scatter context */ 83 /* this is inefficient, but otherwise we must do either 84 1) save garray until the first actual scatter when the vector is known or 85 2) have another way of generating a scatter context without a vector.*/ 86 ierr = VecCreateMPI(mat->comm,baij->n,baij->N,&gvec); CHKERRQ(ierr); 87 88 /* gnerate the scatter context */ 89 ierr = VecScatterCreate(gvec,from,baij->lvec,to,&baij->Mvctx);CHKERRQ(ierr); 90 91 /* 92 Post the receives for the first matrix vector product. We sync-chronize after 93 this on the chance that the user immediately calls MatMult() after assemblying 94 the matrix. 95 */ 96 ierr = VecScatterPostRecvs(gvec,baij->lvec,INSERT_VALUES,SCATTER_FORWARD,baij->Mvctx);CHKERRQ(ierr); 97 ierr = MPI_Barrier(mat->comm);CHKERRQ(ierr); 98 99 PLogObjectParent(mat,baij->Mvctx); 100 PLogObjectParent(mat,baij->lvec); 101 PLogObjectParent(mat,from); 102 PLogObjectParent(mat,to); 103 baij->garray = garray; 104 PLogObjectMemory(mat,(ec+1)*sizeof(int)); 105 ierr = ISDestroy(from); CHKERRQ(ierr); 106 ierr = ISDestroy(to); CHKERRQ(ierr); 107 ierr = VecDestroy(gvec); 108 PetscFree(tmp); 109 PetscFunctionReturn(0); 110 } 111 112 113 /* 114 Takes the local part of an already assembled MPIBAIJ matrix 115 and disassembles it. This is to allow new nonzeros into the matrix 116 that require more communication in the matrix vector multiply. 117 Thus certain data-structures must be rebuilt. 118 119 Kind of slow! But that's what application programmers get when 120 they are sloppy. 121 */ 122 #undef __FUNC__ 123 #define __FUNC__ "DisAssemble_MPIBAIJ" 124 int DisAssemble_MPIBAIJ(Mat A) 125 { 126 Mat_MPIBAIJ *baij = (Mat_MPIBAIJ *) A->data; 127 Mat B = baij->B,Bnew; 128 Mat_SeqBAIJ *Bbaij = (Mat_SeqBAIJ*)B->data; 129 int ierr,i,j,mbs=Bbaij->mbs,n = baij->N,col,*garray=baij->garray; 130 int k,bs=baij->bs,bs2=baij->bs2,*rvals,*nz,ec,m=Bbaij->m; 131 Scalar *a=Bbaij->a; 132 133 PetscFunctionBegin; 134 /* free stuff related to matrix-vec multiply */ 135 ierr = VecGetSize(baij->lvec,&ec); /* needed for PLogObjectMemory below */ 136 ierr = VecDestroy(baij->lvec); CHKERRQ(ierr); baij->lvec = 0; 137 ierr = VecScatterDestroy(baij->Mvctx); CHKERRQ(ierr); baij->Mvctx = 0; 138 if (baij->colmap) { 139 #if defined (USE_CTABLE) 140 TableDelete(baij->colmap); baij->colmap = 0; 141 #else 142 PetscFree(baij->colmap); baij->colmap = 0; 143 PLogObjectMemory(A,-Bbaij->nbs*sizeof(int)); 144 #endif 145 } 146 147 /* make sure that B is assembled so we can access its values */ 148 ierr = MatAssemblyBegin(B,MAT_FINAL_ASSEMBLY); CHKERRQ(ierr); 149 MatAssemblyEnd(B,MAT_FINAL_ASSEMBLY); CHKERRQ(ierr); 150 151 /* invent new B and copy stuff over */ 152 nz = (int *) PetscMalloc( mbs*sizeof(int) ); CHKPTRQ(nz); 153 for ( i=0; i<mbs; i++ ) { 154 nz[i] = Bbaij->i[i+1]-Bbaij->i[i]; 155 } 156 ierr = MatCreateSeqBAIJ(PETSC_COMM_SELF,baij->bs,m,n,0,nz,&Bnew); CHKERRQ(ierr); 157 PetscFree(nz); 158 159 rvals = (int *) PetscMalloc(bs*sizeof(int)); CHKPTRQ(rvals); 160 for ( i=0; i<mbs; i++ ) { 161 rvals[0] = bs*i; 162 for ( j=1; j<bs; j++ ) { rvals[j] = rvals[j-1] + 1; } 163 for ( j=Bbaij->i[i]; j<Bbaij->i[i+1]; j++ ) { 164 col = garray[Bbaij->j[j]]*bs; 165 for (k=0; k<bs; k++ ) { 166 ierr = MatSetValues(Bnew,bs,rvals,1,&col,a+j*bs2,INSERT_VALUES);CHKERRQ(ierr); 167 col++; 168 } 169 } 170 } 171 PetscFree(baij->garray); baij->garray = 0; 172 PetscFree(rvals); 173 PLogObjectMemory(A,-ec*sizeof(int)); 174 ierr = MatDestroy(B); CHKERRQ(ierr); 175 PLogObjectParent(A,Bnew); 176 baij->B = Bnew; 177 A->was_assembled = PETSC_FALSE; 178 PetscFunctionReturn(0); 179 } 180 181 182