1*b9617806SBarry Smith /*$Id: mpiaij.c,v 1.333 2001/03/23 23:21:56 balay Exp bsmith $*/ 28a729477SBarry Smith 370f55243SBarry Smith #include "src/mat/impls/aij/mpi/mpiaij.h" 4f5eb4b81SSatish Balay #include "src/vec/vecimpl.h" 5d9942c19SSatish Balay #include "src/inline/spops.h" 68a729477SBarry Smith 7ca44d042SBarry Smith EXTERN int MatSetUpMultiply_MPIAIJ(Mat); 8ca44d042SBarry Smith EXTERN int DisAssemble_MPIAIJ(Mat); 9ca44d042SBarry Smith EXTERN int MatSetValues_SeqAIJ(Mat,int,int*,int,int*,Scalar*,InsertMode); 10ca44d042SBarry Smith EXTERN int MatGetRow_SeqAIJ(Mat,int,int*,int**,Scalar**); 11ca44d042SBarry Smith EXTERN int MatRestoreRow_SeqAIJ(Mat,int,int*,int**,Scalar**); 12ca44d042SBarry Smith EXTERN int MatPrintHelp_SeqAIJ(Mat); 13bc5ccf88SSatish Balay 140f5bd95cSBarry Smith /* 150f5bd95cSBarry Smith Local utility routine that creates a mapping from the global column 169e25ed09SBarry Smith number to the local number in the off-diagonal part of the local 170f5bd95cSBarry Smith storage of the matrix. When PETSC_USE_CTABLE is used this is scalable at 180f5bd95cSBarry Smith a slightly higher hash table cost; without it it is not scalable (each processor 190f5bd95cSBarry Smith has an order N integer array but is fast to acess. 209e25ed09SBarry Smith */ 214a2ae208SSatish Balay #undef __FUNCT__ 224a2ae208SSatish Balay #define __FUNCT__ "CreateColmap_MPIAIJ_Private" 230a198c4cSBarry Smith int CreateColmap_MPIAIJ_Private(Mat mat) 249e25ed09SBarry Smith { 2544a69424SLois Curfman McInnes Mat_MPIAIJ *aij = (Mat_MPIAIJ*)mat->data; 26273d9f13SBarry Smith int n = aij->B->n,i,ierr; 27dbb450caSBarry Smith 283a40ed3dSBarry Smith PetscFunctionBegin; 29aa482453SBarry Smith #if defined (PETSC_USE_CTABLE) 30273d9f13SBarry Smith ierr = PetscTableCreate(n,&aij->colmap);CHKERRQ(ierr); 31b1fc9764SSatish Balay for (i=0; i<n; i++){ 320f5bd95cSBarry Smith ierr = PetscTableAdd(aij->colmap,aij->garray[i]+1,i+1);CHKERRQ(ierr); 33b1fc9764SSatish Balay } 34b1fc9764SSatish Balay #else 35b0a32e0cSBarry Smith ierr = PetscMalloc((mat->N+1)*sizeof(int),&aij->colmap);CHKERRQ(ierr); 36b0a32e0cSBarry Smith PetscLogObjectMemory(mat,mat->N*sizeof(int)); 37273d9f13SBarry Smith ierr = PetscMemzero(aij->colmap,mat->N*sizeof(int));CHKERRQ(ierr); 38905e6a2fSBarry Smith for (i=0; i<n; i++) aij->colmap[aij->garray[i]] = i+1; 39b1fc9764SSatish Balay #endif 403a40ed3dSBarry Smith PetscFunctionReturn(0); 419e25ed09SBarry Smith } 429e25ed09SBarry Smith 430520107fSSatish Balay #define CHUNKSIZE 15 4430770e4dSSatish Balay #define MatSetValues_SeqAIJ_A_Private(row,col,value,addv) \ 450520107fSSatish Balay { \ 460520107fSSatish Balay \ 470520107fSSatish Balay rp = aj + ai[row] + shift; ap = aa + ai[row] + shift; \ 4830770e4dSSatish Balay rmax = aimax[row]; nrow = ailen[row]; \ 49f5e9677aSSatish Balay col1 = col - shift; \ 50f5e9677aSSatish Balay \ 51ba4e3ef2SSatish Balay low = 0; high = nrow; \ 52ba4e3ef2SSatish Balay while (high-low > 5) { \ 53ba4e3ef2SSatish Balay t = (low+high)/2; \ 54ba4e3ef2SSatish Balay if (rp[t] > col) high = t; \ 55ba4e3ef2SSatish Balay else low = t; \ 56ba4e3ef2SSatish Balay } \ 572335bdd2SSatish Balay for (_i=low; _i<high; _i++) { \ 58f5e9677aSSatish Balay if (rp[_i] > col1) break; \ 59f5e9677aSSatish Balay if (rp[_i] == col1) { \ 600520107fSSatish Balay if (addv == ADD_VALUES) ap[_i] += value; \ 610520107fSSatish Balay else ap[_i] = value; \ 6230770e4dSSatish Balay goto a_noinsert; \ 630520107fSSatish Balay } \ 640520107fSSatish Balay } \ 6589280ab3SLois Curfman McInnes if (nonew == 1) goto a_noinsert; \ 6629bbc08cSBarry Smith else if (nonew == -1) SETERRQ(PETSC_ERR_ARG_OUTOFRANGE,"Inserting a new nonzero into matrix"); \ 670520107fSSatish Balay if (nrow >= rmax) { \ 680520107fSSatish Balay /* there is no extra room in row, therefore enlarge */ \ 69273d9f13SBarry Smith int new_nz = ai[am] + CHUNKSIZE,len,*new_i,*new_j; \ 700520107fSSatish Balay Scalar *new_a; \ 710520107fSSatish Balay \ 7229bbc08cSBarry Smith if (nonew == -2) SETERRQ(PETSC_ERR_ARG_OUTOFRANGE,"Inserting a new nonzero in the matrix"); \ 7389280ab3SLois Curfman McInnes \ 740520107fSSatish Balay /* malloc new storage space */ \ 75273d9f13SBarry Smith len = new_nz*(sizeof(int)+sizeof(Scalar))+(am+1)*sizeof(int); \ 76b0a32e0cSBarry Smith ierr = PetscMalloc(len,&new_a);CHKERRQ(ierr); \ 770520107fSSatish Balay new_j = (int*)(new_a + new_nz); \ 780520107fSSatish Balay new_i = new_j + new_nz; \ 790520107fSSatish Balay \ 800520107fSSatish Balay /* copy over old data into new slots */ \ 810520107fSSatish Balay for (ii=0; ii<row+1; ii++) {new_i[ii] = ai[ii];} \ 82273d9f13SBarry Smith for (ii=row+1; ii<am+1; ii++) {new_i[ii] = ai[ii]+CHUNKSIZE;} \ 83549d3d68SSatish Balay ierr = PetscMemcpy(new_j,aj,(ai[row]+nrow+shift)*sizeof(int));CHKERRQ(ierr); \ 840520107fSSatish Balay len = (new_nz - CHUNKSIZE - ai[row] - nrow - shift); \ 85549d3d68SSatish Balay ierr = PetscMemcpy(new_j+ai[row]+shift+nrow+CHUNKSIZE,aj+ai[row]+shift+nrow, \ 86549d3d68SSatish Balay len*sizeof(int));CHKERRQ(ierr); \ 87549d3d68SSatish Balay ierr = PetscMemcpy(new_a,aa,(ai[row]+nrow+shift)*sizeof(Scalar));CHKERRQ(ierr); \ 88549d3d68SSatish Balay ierr = PetscMemcpy(new_a+ai[row]+shift+nrow+CHUNKSIZE,aa+ai[row]+shift+nrow, \ 89549d3d68SSatish Balay len*sizeof(Scalar));CHKERRQ(ierr); \ 900520107fSSatish Balay /* free up old matrix storage */ \ 91f5e9677aSSatish Balay \ 92606d414cSSatish Balay ierr = PetscFree(a->a);CHKERRQ(ierr); \ 93606d414cSSatish Balay if (!a->singlemalloc) { \ 94606d414cSSatish Balay ierr = PetscFree(a->i);CHKERRQ(ierr); \ 95606d414cSSatish Balay ierr = PetscFree(a->j);CHKERRQ(ierr); \ 96606d414cSSatish Balay } \ 970520107fSSatish Balay aa = a->a = new_a; ai = a->i = new_i; aj = a->j = new_j; \ 987c922b88SBarry Smith a->singlemalloc = PETSC_TRUE; \ 990520107fSSatish Balay \ 1000520107fSSatish Balay rp = aj + ai[row] + shift; ap = aa + ai[row] + shift; \ 10130770e4dSSatish Balay rmax = aimax[row] = aimax[row] + CHUNKSIZE; \ 102b0a32e0cSBarry Smith PetscLogObjectMemory(A,CHUNKSIZE*(sizeof(int) + sizeof(Scalar))); \ 1030520107fSSatish Balay a->maxnz += CHUNKSIZE; \ 1040520107fSSatish Balay a->reallocs++; \ 1050520107fSSatish Balay } \ 1060520107fSSatish Balay N = nrow++ - 1; a->nz++; \ 1070520107fSSatish Balay /* shift up all the later entries in this row */ \ 1080520107fSSatish Balay for (ii=N; ii>=_i; ii--) { \ 1090520107fSSatish Balay rp[ii+1] = rp[ii]; \ 1100520107fSSatish Balay ap[ii+1] = ap[ii]; \ 1110520107fSSatish Balay } \ 112f5e9677aSSatish Balay rp[_i] = col1; \ 1130520107fSSatish Balay ap[_i] = value; \ 11430770e4dSSatish Balay a_noinsert: ; \ 1150520107fSSatish Balay ailen[row] = nrow; \ 1160520107fSSatish Balay } 1170a198c4cSBarry Smith 11830770e4dSSatish Balay #define MatSetValues_SeqAIJ_B_Private(row,col,value,addv) \ 11930770e4dSSatish Balay { \ 12030770e4dSSatish Balay \ 12130770e4dSSatish Balay rp = bj + bi[row] + shift; ap = ba + bi[row] + shift; \ 12230770e4dSSatish Balay rmax = bimax[row]; nrow = bilen[row]; \ 12330770e4dSSatish Balay col1 = col - shift; \ 12430770e4dSSatish Balay \ 125ba4e3ef2SSatish Balay low = 0; high = nrow; \ 126ba4e3ef2SSatish Balay while (high-low > 5) { \ 127ba4e3ef2SSatish Balay t = (low+high)/2; \ 128ba4e3ef2SSatish Balay if (rp[t] > col) high = t; \ 129ba4e3ef2SSatish Balay else low = t; \ 130ba4e3ef2SSatish Balay } \ 1312335bdd2SSatish Balay for (_i=low; _i<high; _i++) { \ 13230770e4dSSatish Balay if (rp[_i] > col1) break; \ 13330770e4dSSatish Balay if (rp[_i] == col1) { \ 13430770e4dSSatish Balay if (addv == ADD_VALUES) ap[_i] += value; \ 13530770e4dSSatish Balay else ap[_i] = value; \ 13630770e4dSSatish Balay goto b_noinsert; \ 13730770e4dSSatish Balay } \ 13830770e4dSSatish Balay } \ 13989280ab3SLois Curfman McInnes if (nonew == 1) goto b_noinsert; \ 14029bbc08cSBarry Smith else if (nonew == -1) SETERRQ(PETSC_ERR_ARG_OUTOFRANGE,"Inserting a new nonzero into matrix"); \ 14130770e4dSSatish Balay if (nrow >= rmax) { \ 14230770e4dSSatish Balay /* there is no extra room in row, therefore enlarge */ \ 143273d9f13SBarry Smith int new_nz = bi[bm] + CHUNKSIZE,len,*new_i,*new_j; \ 14430770e4dSSatish Balay Scalar *new_a; \ 14530770e4dSSatish Balay \ 14629bbc08cSBarry Smith if (nonew == -2) SETERRQ(PETSC_ERR_ARG_OUTOFRANGE,"Inserting a new nonzero in the matrix"); \ 14789280ab3SLois Curfman McInnes \ 14830770e4dSSatish Balay /* malloc new storage space */ \ 149273d9f13SBarry Smith len = new_nz*(sizeof(int)+sizeof(Scalar))+(bm+1)*sizeof(int); \ 150b0a32e0cSBarry Smith ierr = PetscMalloc(len,&new_a);CHKERRQ(ierr); \ 15130770e4dSSatish Balay new_j = (int*)(new_a + new_nz); \ 15230770e4dSSatish Balay new_i = new_j + new_nz; \ 15330770e4dSSatish Balay \ 15430770e4dSSatish Balay /* copy over old data into new slots */ \ 15530770e4dSSatish Balay for (ii=0; ii<row+1; ii++) {new_i[ii] = bi[ii];} \ 156273d9f13SBarry Smith for (ii=row+1; ii<bm+1; ii++) {new_i[ii] = bi[ii]+CHUNKSIZE;} \ 157549d3d68SSatish Balay ierr = PetscMemcpy(new_j,bj,(bi[row]+nrow+shift)*sizeof(int));CHKERRQ(ierr); \ 15830770e4dSSatish Balay len = (new_nz - CHUNKSIZE - bi[row] - nrow - shift); \ 159549d3d68SSatish Balay ierr = PetscMemcpy(new_j+bi[row]+shift+nrow+CHUNKSIZE,bj+bi[row]+shift+nrow, \ 160549d3d68SSatish Balay len*sizeof(int));CHKERRQ(ierr); \ 161549d3d68SSatish Balay ierr = PetscMemcpy(new_a,ba,(bi[row]+nrow+shift)*sizeof(Scalar));CHKERRQ(ierr); \ 162549d3d68SSatish Balay ierr = PetscMemcpy(new_a+bi[row]+shift+nrow+CHUNKSIZE,ba+bi[row]+shift+nrow, \ 163549d3d68SSatish Balay len*sizeof(Scalar));CHKERRQ(ierr); \ 16430770e4dSSatish Balay /* free up old matrix storage */ \ 16530770e4dSSatish Balay \ 166606d414cSSatish Balay ierr = PetscFree(b->a);CHKERRQ(ierr); \ 167606d414cSSatish Balay if (!b->singlemalloc) { \ 168606d414cSSatish Balay ierr = PetscFree(b->i);CHKERRQ(ierr); \ 169606d414cSSatish Balay ierr = PetscFree(b->j);CHKERRQ(ierr); \ 170606d414cSSatish Balay } \ 17174c639caSSatish Balay ba = b->a = new_a; bi = b->i = new_i; bj = b->j = new_j; \ 1727c922b88SBarry Smith b->singlemalloc = PETSC_TRUE; \ 17330770e4dSSatish Balay \ 17430770e4dSSatish Balay rp = bj + bi[row] + shift; ap = ba + bi[row] + shift; \ 17530770e4dSSatish Balay rmax = bimax[row] = bimax[row] + CHUNKSIZE; \ 176b0a32e0cSBarry Smith PetscLogObjectMemory(B,CHUNKSIZE*(sizeof(int) + sizeof(Scalar))); \ 17774c639caSSatish Balay b->maxnz += CHUNKSIZE; \ 17874c639caSSatish Balay b->reallocs++; \ 17930770e4dSSatish Balay } \ 18074c639caSSatish Balay N = nrow++ - 1; b->nz++; \ 18130770e4dSSatish Balay /* shift up all the later entries in this row */ \ 18230770e4dSSatish Balay for (ii=N; ii>=_i; ii--) { \ 18330770e4dSSatish Balay rp[ii+1] = rp[ii]; \ 18430770e4dSSatish Balay ap[ii+1] = ap[ii]; \ 18530770e4dSSatish Balay } \ 18630770e4dSSatish Balay rp[_i] = col1; \ 18730770e4dSSatish Balay ap[_i] = value; \ 18830770e4dSSatish Balay b_noinsert: ; \ 18930770e4dSSatish Balay bilen[row] = nrow; \ 19030770e4dSSatish Balay } 19130770e4dSSatish Balay 1924a2ae208SSatish Balay #undef __FUNCT__ 1934a2ae208SSatish Balay #define __FUNCT__ "MatSetValues_MPIAIJ" 1948f6be9afSLois Curfman McInnes int MatSetValues_MPIAIJ(Mat mat,int m,int *im,int n,int *in,Scalar *v,InsertMode addv) 1958a729477SBarry Smith { 19644a69424SLois Curfman McInnes Mat_MPIAIJ *aij = (Mat_MPIAIJ*)mat->data; 1974b0e389bSBarry Smith Scalar value; 1981eb62cbbSBarry Smith int ierr,i,j,rstart = aij->rstart,rend = aij->rend; 1991eb62cbbSBarry Smith int cstart = aij->cstart,cend = aij->cend,row,col; 200273d9f13SBarry Smith PetscTruth roworiented = aij->roworiented; 2018a729477SBarry Smith 2020520107fSSatish Balay /* Some Variables required in the macro */ 2034ee7247eSSatish Balay Mat A = aij->A; 2044ee7247eSSatish Balay Mat_SeqAIJ *a = (Mat_SeqAIJ*)A->data; 20530770e4dSSatish Balay int *aimax = a->imax,*ai = a->i,*ailen = a->ilen,*aj = a->j; 20630770e4dSSatish Balay Scalar *aa = a->a; 207329f5518SBarry Smith PetscTruth ignorezeroentries = (((a->ignorezeroentries)&&(addv==ADD_VALUES))?PETSC_TRUE:PETSC_FALSE); 20830770e4dSSatish Balay Mat B = aij->B; 20930770e4dSSatish Balay Mat_SeqAIJ *b = (Mat_SeqAIJ*)B->data; 210273d9f13SBarry Smith int *bimax = b->imax,*bi = b->i,*bilen = b->ilen,*bj = b->j,bm = aij->B->m,am = aij->A->m; 21130770e4dSSatish Balay Scalar *ba = b->a; 21230770e4dSSatish Balay 213ba4e3ef2SSatish Balay int *rp,ii,nrow,_i,rmax,N,col1,low,high,t; 21430770e4dSSatish Balay int nonew = a->nonew,shift = a->indexshift; 21530770e4dSSatish Balay Scalar *ap; 2164ee7247eSSatish Balay 2173a40ed3dSBarry Smith PetscFunctionBegin; 2188a729477SBarry Smith for (i=0; i<m; i++) { 2195ef9f2a5SBarry Smith if (im[i] < 0) continue; 220aa482453SBarry Smith #if defined(PETSC_USE_BOPT_g) 221273d9f13SBarry Smith if (im[i] >= mat->M) SETERRQ(PETSC_ERR_ARG_OUTOFRANGE,"Row too large"); 2220a198c4cSBarry Smith #endif 2234b0e389bSBarry Smith if (im[i] >= rstart && im[i] < rend) { 2244b0e389bSBarry Smith row = im[i] - rstart; 2251eb62cbbSBarry Smith for (j=0; j<n; j++) { 2264b0e389bSBarry Smith if (in[j] >= cstart && in[j] < cend){ 2274b0e389bSBarry Smith col = in[j] - cstart; 2284b0e389bSBarry Smith if (roworiented) value = v[i*n+j]; else value = v[i+j*m]; 229329f5518SBarry Smith if (ignorezeroentries && value == 0.0) continue; 23030770e4dSSatish Balay MatSetValues_SeqAIJ_A_Private(row,col,value,addv); 2310520107fSSatish Balay /* ierr = MatSetValues_SeqAIJ(aij->A,1,&row,1,&col,&value,addv);CHKERRQ(ierr); */ 232273d9f13SBarry Smith } else if (in[j] < 0) continue; 233aa482453SBarry Smith #if defined(PETSC_USE_BOPT_g) 234273d9f13SBarry Smith else if (in[j] >= mat->N) {SETERRQ(PETSC_ERR_ARG_OUTOFRANGE,"Column too large");} 2350a198c4cSBarry Smith #endif 2361eb62cbbSBarry Smith else { 237227d817aSBarry Smith if (mat->was_assembled) { 238905e6a2fSBarry Smith if (!aij->colmap) { 239905e6a2fSBarry Smith ierr = CreateColmap_MPIAIJ_Private(mat);CHKERRQ(ierr); 240905e6a2fSBarry Smith } 241aa482453SBarry Smith #if defined (PETSC_USE_CTABLE) 2420f5bd95cSBarry Smith ierr = PetscTableFind(aij->colmap,in[j]+1,&col);CHKERRQ(ierr); 243fa46199cSSatish Balay col--; 244b1fc9764SSatish Balay #else 245905e6a2fSBarry Smith col = aij->colmap[in[j]] - 1; 246b1fc9764SSatish Balay #endif 247ec8511deSBarry Smith if (col < 0 && !((Mat_SeqAIJ*)(aij->A->data))->nonew) { 2482493cbb0SBarry Smith ierr = DisAssemble_MPIAIJ(mat);CHKERRQ(ierr); 2494b0e389bSBarry Smith col = in[j]; 2509bf004c3SSatish Balay /* Reinitialize the variables required by MatSetValues_SeqAIJ_B_Private() */ 251f9508a3cSSatish Balay B = aij->B; 252f9508a3cSSatish Balay b = (Mat_SeqAIJ*)B->data; 253f9508a3cSSatish Balay bimax = b->imax; bi = b->i; bilen = b->ilen; bj = b->j; 254f9508a3cSSatish Balay ba = b->a; 255d6dfbf8fSBarry Smith } 256c48de900SBarry Smith } else col = in[j]; 2574b0e389bSBarry Smith if (roworiented) value = v[i*n+j]; else value = v[i+j*m]; 258329f5518SBarry Smith if (ignorezeroentries && value == 0.0) continue; 25930770e4dSSatish Balay MatSetValues_SeqAIJ_B_Private(row,col,value,addv); 26030770e4dSSatish Balay /* ierr = MatSetValues_SeqAIJ(aij->B,1,&row,1,&col,&value,addv);CHKERRQ(ierr); */ 2611eb62cbbSBarry Smith } 2621eb62cbbSBarry Smith } 2635ef9f2a5SBarry Smith } else { 26490f02eecSBarry Smith if (!aij->donotstash) { 265d36fbae8SSatish Balay if (roworiented) { 266329f5518SBarry Smith if (ignorezeroentries && v[i*n] == 0.0) continue; 2678798bf22SSatish Balay ierr = MatStashValuesRow_Private(&mat->stash,im[i],n,in,v+i*n);CHKERRQ(ierr); 268d36fbae8SSatish Balay } else { 269329f5518SBarry Smith if (ignorezeroentries && v[i] == 0.0) continue; 2708798bf22SSatish Balay ierr = MatStashValuesCol_Private(&mat->stash,im[i],n,in,v+i,m);CHKERRQ(ierr); 2714b0e389bSBarry Smith } 2721eb62cbbSBarry Smith } 2738a729477SBarry Smith } 27490f02eecSBarry Smith } 2753a40ed3dSBarry Smith PetscFunctionReturn(0); 2768a729477SBarry Smith } 2778a729477SBarry Smith 2784a2ae208SSatish Balay #undef __FUNCT__ 2794a2ae208SSatish Balay #define __FUNCT__ "MatGetValues_MPIAIJ" 2808f6be9afSLois Curfman McInnes int MatGetValues_MPIAIJ(Mat mat,int m,int *idxm,int n,int *idxn,Scalar *v) 281b49de8d1SLois Curfman McInnes { 282b49de8d1SLois Curfman McInnes Mat_MPIAIJ *aij = (Mat_MPIAIJ*)mat->data; 283b49de8d1SLois Curfman McInnes int ierr,i,j,rstart = aij->rstart,rend = aij->rend; 284b49de8d1SLois Curfman McInnes int cstart = aij->cstart,cend = aij->cend,row,col; 285b49de8d1SLois Curfman McInnes 2863a40ed3dSBarry Smith PetscFunctionBegin; 287b49de8d1SLois Curfman McInnes for (i=0; i<m; i++) { 28829bbc08cSBarry Smith if (idxm[i] < 0) SETERRQ(PETSC_ERR_ARG_OUTOFRANGE,"Negative row"); 289273d9f13SBarry Smith if (idxm[i] >= mat->M) SETERRQ(PETSC_ERR_ARG_OUTOFRANGE,"Row too large"); 290b49de8d1SLois Curfman McInnes if (idxm[i] >= rstart && idxm[i] < rend) { 291b49de8d1SLois Curfman McInnes row = idxm[i] - rstart; 292b49de8d1SLois Curfman McInnes for (j=0; j<n; j++) { 29329bbc08cSBarry Smith if (idxn[j] < 0) SETERRQ(PETSC_ERR_ARG_OUTOFRANGE,"Negative column"); 294273d9f13SBarry Smith if (idxn[j] >= mat->N) SETERRQ(PETSC_ERR_ARG_OUTOFRANGE,"Column too large"); 295b49de8d1SLois Curfman McInnes if (idxn[j] >= cstart && idxn[j] < cend){ 296b49de8d1SLois Curfman McInnes col = idxn[j] - cstart; 297b49de8d1SLois Curfman McInnes ierr = MatGetValues(aij->A,1,&row,1,&col,v+i*n+j);CHKERRQ(ierr); 298fa852ad4SSatish Balay } else { 299905e6a2fSBarry Smith if (!aij->colmap) { 300905e6a2fSBarry Smith ierr = CreateColmap_MPIAIJ_Private(mat);CHKERRQ(ierr); 301905e6a2fSBarry Smith } 302aa482453SBarry Smith #if defined (PETSC_USE_CTABLE) 3030f5bd95cSBarry Smith ierr = PetscTableFind(aij->colmap,idxn[j]+1,&col);CHKERRQ(ierr); 304fa46199cSSatish Balay col --; 305b1fc9764SSatish Balay #else 306905e6a2fSBarry Smith col = aij->colmap[idxn[j]] - 1; 307b1fc9764SSatish Balay #endif 308e60e1c95SSatish Balay if ((col < 0) || (aij->garray[col] != idxn[j])) *(v+i*n+j) = 0.0; 309d9d09a02SSatish Balay else { 310b49de8d1SLois Curfman McInnes ierr = MatGetValues(aij->B,1,&row,1,&col,v+i*n+j);CHKERRQ(ierr); 311b49de8d1SLois Curfman McInnes } 312b49de8d1SLois Curfman McInnes } 313b49de8d1SLois Curfman McInnes } 314a8c6a408SBarry Smith } else { 31529bbc08cSBarry Smith SETERRQ(PETSC_ERR_SUP,"Only local values currently supported"); 316b49de8d1SLois Curfman McInnes } 317b49de8d1SLois Curfman McInnes } 3183a40ed3dSBarry Smith PetscFunctionReturn(0); 319b49de8d1SLois Curfman McInnes } 320bc5ccf88SSatish Balay 3214a2ae208SSatish Balay #undef __FUNCT__ 3224a2ae208SSatish Balay #define __FUNCT__ "MatAssemblyBegin_MPIAIJ" 323bc5ccf88SSatish Balay int MatAssemblyBegin_MPIAIJ(Mat mat,MatAssemblyType mode) 324bc5ccf88SSatish Balay { 325bc5ccf88SSatish Balay Mat_MPIAIJ *aij = (Mat_MPIAIJ*)mat->data; 326d36fbae8SSatish Balay int ierr,nstash,reallocs; 327bc5ccf88SSatish Balay InsertMode addv; 328bc5ccf88SSatish Balay 329bc5ccf88SSatish Balay PetscFunctionBegin; 330bc5ccf88SSatish Balay if (aij->donotstash) { 331bc5ccf88SSatish Balay PetscFunctionReturn(0); 332bc5ccf88SSatish Balay } 333bc5ccf88SSatish Balay 334bc5ccf88SSatish Balay /* make sure all processors are either in INSERTMODE or ADDMODE */ 335bc5ccf88SSatish Balay ierr = MPI_Allreduce(&mat->insertmode,&addv,1,MPI_INT,MPI_BOR,mat->comm);CHKERRQ(ierr); 336bc5ccf88SSatish Balay if (addv == (ADD_VALUES|INSERT_VALUES)) { 33729bbc08cSBarry Smith SETERRQ(PETSC_ERR_ARG_WRONGSTATE,"Some processors inserted others added"); 338bc5ccf88SSatish Balay } 339bc5ccf88SSatish Balay mat->insertmode = addv; /* in case this processor had no cache */ 340bc5ccf88SSatish Balay 3418798bf22SSatish Balay ierr = MatStashScatterBegin_Private(&mat->stash,aij->rowners);CHKERRQ(ierr); 3428798bf22SSatish Balay ierr = MatStashGetInfo_Private(&mat->stash,&nstash,&reallocs);CHKERRQ(ierr); 343b0a32e0cSBarry Smith PetscLogInfo(aij->A,"MatAssemblyBegin_MPIAIJ:Stash has %d entries, uses %d mallocs.\n",nstash,reallocs); 344bc5ccf88SSatish Balay PetscFunctionReturn(0); 345bc5ccf88SSatish Balay } 346bc5ccf88SSatish Balay 347bc5ccf88SSatish Balay 3484a2ae208SSatish Balay #undef __FUNCT__ 3494a2ae208SSatish Balay #define __FUNCT__ "MatAssemblyEnd_MPIAIJ" 350bc5ccf88SSatish Balay int MatAssemblyEnd_MPIAIJ(Mat mat,MatAssemblyType mode) 351bc5ccf88SSatish Balay { 352bc5ccf88SSatish Balay Mat_MPIAIJ *aij = (Mat_MPIAIJ*)mat->data; 353a2d1c673SSatish Balay int i,j,rstart,ncols,n,ierr,flg; 354bc5ccf88SSatish Balay int *row,*col,other_disassembled; 355bc5ccf88SSatish Balay Scalar *val; 356bc5ccf88SSatish Balay InsertMode addv = mat->insertmode; 357bc5ccf88SSatish Balay 358bc5ccf88SSatish Balay PetscFunctionBegin; 359bc5ccf88SSatish Balay if (!aij->donotstash) { 360a2d1c673SSatish Balay while (1) { 3618798bf22SSatish Balay ierr = MatStashScatterGetMesg_Private(&mat->stash,&n,&row,&col,&val,&flg);CHKERRQ(ierr); 362a2d1c673SSatish Balay if (!flg) break; 363a2d1c673SSatish Balay 364bc5ccf88SSatish Balay for (i=0; i<n;) { 365bc5ccf88SSatish Balay /* Now identify the consecutive vals belonging to the same row */ 366bc5ccf88SSatish Balay for (j=i,rstart=row[j]; j<n; j++) { if (row[j] != rstart) break; } 367bc5ccf88SSatish Balay if (j < n) ncols = j-i; 368bc5ccf88SSatish Balay else ncols = n-i; 369bc5ccf88SSatish Balay /* Now assemble all these values with a single function call */ 370bc5ccf88SSatish Balay ierr = MatSetValues_MPIAIJ(mat,1,row+i,ncols,col+i,val+i,addv);CHKERRQ(ierr); 371bc5ccf88SSatish Balay i = j; 372bc5ccf88SSatish Balay } 373bc5ccf88SSatish Balay } 3748798bf22SSatish Balay ierr = MatStashScatterEnd_Private(&mat->stash);CHKERRQ(ierr); 375bc5ccf88SSatish Balay } 376bc5ccf88SSatish Balay 377bc5ccf88SSatish Balay ierr = MatAssemblyBegin(aij->A,mode);CHKERRQ(ierr); 378bc5ccf88SSatish Balay ierr = MatAssemblyEnd(aij->A,mode);CHKERRQ(ierr); 379bc5ccf88SSatish Balay 380bc5ccf88SSatish Balay /* determine if any processor has disassembled, if so we must 381bc5ccf88SSatish Balay also disassemble ourselfs, in order that we may reassemble. */ 382bc5ccf88SSatish Balay /* 383bc5ccf88SSatish Balay if nonzero structure of submatrix B cannot change then we know that 384bc5ccf88SSatish Balay no processor disassembled thus we can skip this stuff 385bc5ccf88SSatish Balay */ 386bc5ccf88SSatish Balay if (!((Mat_SeqAIJ*)aij->B->data)->nonew) { 387bc5ccf88SSatish Balay ierr = MPI_Allreduce(&mat->was_assembled,&other_disassembled,1,MPI_INT,MPI_PROD,mat->comm);CHKERRQ(ierr); 388bc5ccf88SSatish Balay if (mat->was_assembled && !other_disassembled) { 389bc5ccf88SSatish Balay ierr = DisAssemble_MPIAIJ(mat);CHKERRQ(ierr); 390bc5ccf88SSatish Balay } 391bc5ccf88SSatish Balay } 392bc5ccf88SSatish Balay 393bc5ccf88SSatish Balay if (!mat->was_assembled && mode == MAT_FINAL_ASSEMBLY) { 394bc5ccf88SSatish Balay ierr = MatSetUpMultiply_MPIAIJ(mat);CHKERRQ(ierr); 395bc5ccf88SSatish Balay } 396bc5ccf88SSatish Balay ierr = MatAssemblyBegin(aij->B,mode);CHKERRQ(ierr); 397bc5ccf88SSatish Balay ierr = MatAssemblyEnd(aij->B,mode);CHKERRQ(ierr); 398bc5ccf88SSatish Balay 399606d414cSSatish Balay if (aij->rowvalues) { 400606d414cSSatish Balay ierr = PetscFree(aij->rowvalues);CHKERRQ(ierr); 401606d414cSSatish Balay aij->rowvalues = 0; 402606d414cSSatish Balay } 403bc5ccf88SSatish Balay PetscFunctionReturn(0); 404bc5ccf88SSatish Balay } 405bc5ccf88SSatish Balay 4064a2ae208SSatish Balay #undef __FUNCT__ 4074a2ae208SSatish Balay #define __FUNCT__ "MatZeroEntries_MPIAIJ" 4088f6be9afSLois Curfman McInnes int MatZeroEntries_MPIAIJ(Mat A) 4091eb62cbbSBarry Smith { 41044a69424SLois Curfman McInnes Mat_MPIAIJ *l = (Mat_MPIAIJ*)A->data; 411dbd7a890SLois Curfman McInnes int ierr; 4123a40ed3dSBarry Smith 4133a40ed3dSBarry Smith PetscFunctionBegin; 41478b31e54SBarry Smith ierr = MatZeroEntries(l->A);CHKERRQ(ierr); 41578b31e54SBarry Smith ierr = MatZeroEntries(l->B);CHKERRQ(ierr); 4163a40ed3dSBarry Smith PetscFunctionReturn(0); 4171eb62cbbSBarry Smith } 4181eb62cbbSBarry Smith 4194a2ae208SSatish Balay #undef __FUNCT__ 4204a2ae208SSatish Balay #define __FUNCT__ "MatZeroRows_MPIAIJ" 4218f6be9afSLois Curfman McInnes int MatZeroRows_MPIAIJ(Mat A,IS is,Scalar *diag) 4221eb62cbbSBarry Smith { 42344a69424SLois Curfman McInnes Mat_MPIAIJ *l = (Mat_MPIAIJ*)A->data; 42417699dbbSLois Curfman McInnes int i,ierr,N,*rows,*owners = l->rowners,size = l->size; 42535d8aa7fSBarry Smith int *procs,*nprocs,j,idx,nsends,*work,row; 42617699dbbSLois Curfman McInnes int nmax,*svalues,*starts,*owner,nrecvs,rank = l->rank; 4275392566eSBarry Smith int *rvalues,tag = A->tag,count,base,slen,n,*source; 4286a5c57faSSatish Balay int *lens,imdex,*lrows,*values,rstart=l->rstart; 429d6dfbf8fSBarry Smith MPI_Comm comm = A->comm; 4301eb62cbbSBarry Smith MPI_Request *send_waits,*recv_waits; 4311eb62cbbSBarry Smith MPI_Status recv_status,*send_status; 4321eb62cbbSBarry Smith IS istmp; 43335d8aa7fSBarry Smith PetscTruth found; 4341eb62cbbSBarry Smith 4353a40ed3dSBarry Smith PetscFunctionBegin; 436e03a110bSBarry Smith ierr = ISGetLocalSize(is,&N);CHKERRQ(ierr); 43778b31e54SBarry Smith ierr = ISGetIndices(is,&rows);CHKERRQ(ierr); 4381eb62cbbSBarry Smith 4391eb62cbbSBarry Smith /* first count number of contributors to each processor */ 440b0a32e0cSBarry Smith ierr = PetscMalloc(2*size*sizeof(int),&nprocs);CHKERRQ(ierr); 441549d3d68SSatish Balay ierr = PetscMemzero(nprocs,2*size*sizeof(int));CHKERRQ(ierr); 442549d3d68SSatish Balay procs = nprocs + size; 443b0a32e0cSBarry Smith ierr = PetscMalloc((N+1)*sizeof(int),&owner);CHKERRQ(ierr); /* see note*/ 4441eb62cbbSBarry Smith for (i=0; i<N; i++) { 4451eb62cbbSBarry Smith idx = rows[i]; 44635d8aa7fSBarry Smith found = PETSC_FALSE; 44717699dbbSLois Curfman McInnes for (j=0; j<size; j++) { 4481eb62cbbSBarry Smith if (idx >= owners[j] && idx < owners[j+1]) { 44935d8aa7fSBarry Smith nprocs[j]++; procs[j] = 1; owner[i] = j; found = PETSC_TRUE; break; 4501eb62cbbSBarry Smith } 4511eb62cbbSBarry Smith } 45229bbc08cSBarry Smith if (!found) SETERRQ(PETSC_ERR_ARG_OUTOFRANGE,"Index out of range"); 4531eb62cbbSBarry Smith } 45417699dbbSLois Curfman McInnes nsends = 0; for (i=0; i<size; i++) { nsends += procs[i];} 4551eb62cbbSBarry Smith 4561eb62cbbSBarry Smith /* inform other processors of number of messages and max length*/ 457b0a32e0cSBarry Smith ierr = PetscMalloc(2*size*sizeof(int),&work);CHKERRQ(ierr); 4586831982aSBarry Smith ierr = MPI_Allreduce(nprocs,work,2*size,MPI_INT,PetscMaxSum_Op,comm);CHKERRQ(ierr); 4596831982aSBarry Smith nrecvs = work[size+rank]; 46017699dbbSLois Curfman McInnes nmax = work[rank]; 461606d414cSSatish Balay ierr = PetscFree(work);CHKERRQ(ierr); 4621eb62cbbSBarry Smith 4631eb62cbbSBarry Smith /* post receives: */ 464b0a32e0cSBarry Smith ierr = PetscMalloc((nrecvs+1)*(nmax+1)*sizeof(int),&rvalues);CHKERRQ(ierr); 465b0a32e0cSBarry Smith ierr = PetscMalloc((nrecvs+1)*sizeof(MPI_Request),&recv_waits);CHKERRQ(ierr); 4661eb62cbbSBarry Smith for (i=0; i<nrecvs; i++) { 467ca161407SBarry Smith ierr = MPI_Irecv(rvalues+nmax*i,nmax,MPI_INT,MPI_ANY_SOURCE,tag,comm,recv_waits+i);CHKERRQ(ierr); 4681eb62cbbSBarry Smith } 4691eb62cbbSBarry Smith 4701eb62cbbSBarry Smith /* do sends: 4711eb62cbbSBarry Smith 1) starts[i] gives the starting index in svalues for stuff going to 4721eb62cbbSBarry Smith the ith processor 4731eb62cbbSBarry Smith */ 474b0a32e0cSBarry Smith ierr = PetscMalloc((N+1)*sizeof(int),&svalues);CHKERRQ(ierr); 475b0a32e0cSBarry Smith ierr = PetscMalloc((nsends+1)*sizeof(MPI_Request),&send_waits);CHKERRQ(ierr); 476b0a32e0cSBarry Smith ierr = PetscMalloc((size+1)*sizeof(int),&starts);CHKERRQ(ierr); 4771eb62cbbSBarry Smith starts[0] = 0; 47817699dbbSLois Curfman McInnes for (i=1; i<size; i++) { starts[i] = starts[i-1] + nprocs[i-1];} 4791eb62cbbSBarry Smith for (i=0; i<N; i++) { 4801eb62cbbSBarry Smith svalues[starts[owner[i]]++] = rows[i]; 4811eb62cbbSBarry Smith } 4826831982aSBarry Smith ierr = ISRestoreIndices(is,&rows);CHKERRQ(ierr); 4831eb62cbbSBarry Smith 4841eb62cbbSBarry Smith starts[0] = 0; 48517699dbbSLois Curfman McInnes for (i=1; i<size+1; i++) { starts[i] = starts[i-1] + nprocs[i-1];} 4861eb62cbbSBarry Smith count = 0; 48717699dbbSLois Curfman McInnes for (i=0; i<size; i++) { 4881eb62cbbSBarry Smith if (procs[i]) { 489ca161407SBarry Smith ierr = MPI_Isend(svalues+starts[i],nprocs[i],MPI_INT,i,tag,comm,send_waits+count++);CHKERRQ(ierr); 4901eb62cbbSBarry Smith } 4911eb62cbbSBarry Smith } 492606d414cSSatish Balay ierr = PetscFree(starts);CHKERRQ(ierr); 4931eb62cbbSBarry Smith 49417699dbbSLois Curfman McInnes base = owners[rank]; 4951eb62cbbSBarry Smith 4961eb62cbbSBarry Smith /* wait on receives */ 497b0a32e0cSBarry Smith ierr = PetscMalloc(2*(nrecvs+1)*sizeof(int),&lens);CHKERRQ(ierr); 4981eb62cbbSBarry Smith source = lens + nrecvs; 4991eb62cbbSBarry Smith count = nrecvs; slen = 0; 5001eb62cbbSBarry Smith while (count) { 501ca161407SBarry Smith ierr = MPI_Waitany(nrecvs,recv_waits,&imdex,&recv_status);CHKERRQ(ierr); 5021eb62cbbSBarry Smith /* unpack receives into our local space */ 503ca161407SBarry Smith ierr = MPI_Get_count(&recv_status,MPI_INT,&n);CHKERRQ(ierr); 504d6dfbf8fSBarry Smith source[imdex] = recv_status.MPI_SOURCE; 505d6dfbf8fSBarry Smith lens[imdex] = n; 5061eb62cbbSBarry Smith slen += n; 5071eb62cbbSBarry Smith count--; 5081eb62cbbSBarry Smith } 509606d414cSSatish Balay ierr = PetscFree(recv_waits);CHKERRQ(ierr); 5101eb62cbbSBarry Smith 5111eb62cbbSBarry Smith /* move the data into the send scatter */ 512b0a32e0cSBarry Smith ierr = PetscMalloc((slen+1)*sizeof(int),&lrows);CHKERRQ(ierr); 5131eb62cbbSBarry Smith count = 0; 5141eb62cbbSBarry Smith for (i=0; i<nrecvs; i++) { 5151eb62cbbSBarry Smith values = rvalues + i*nmax; 5161eb62cbbSBarry Smith for (j=0; j<lens[i]; j++) { 5171eb62cbbSBarry Smith lrows[count++] = values[j] - base; 5181eb62cbbSBarry Smith } 5191eb62cbbSBarry Smith } 520606d414cSSatish Balay ierr = PetscFree(rvalues);CHKERRQ(ierr); 521606d414cSSatish Balay ierr = PetscFree(lens);CHKERRQ(ierr); 522606d414cSSatish Balay ierr = PetscFree(owner);CHKERRQ(ierr); 523606d414cSSatish Balay ierr = PetscFree(nprocs);CHKERRQ(ierr); 5241eb62cbbSBarry Smith 5251eb62cbbSBarry Smith /* actually zap the local rows */ 526029af93fSBarry Smith ierr = ISCreateGeneral(PETSC_COMM_SELF,slen,lrows,&istmp);CHKERRQ(ierr); 527b0a32e0cSBarry Smith PetscLogObjectParent(A,istmp); 5286a5c57faSSatish Balay 5296eb55b6aSBarry Smith /* 5306eb55b6aSBarry Smith Zero the required rows. If the "diagonal block" of the matrix 5316eb55b6aSBarry Smith is square and the user wishes to set the diagonal we use seperate 5326eb55b6aSBarry Smith code so that MatSetValues() is not called for each diagonal allocating 5336eb55b6aSBarry Smith new memory, thus calling lots of mallocs and slowing things down. 5346eb55b6aSBarry Smith 5356eb55b6aSBarry Smith Contributed by: Mathew Knepley 5366eb55b6aSBarry Smith */ 537e2d53e46SBarry Smith /* must zero l->B before l->A because the (diag) case below may put values into l->B*/ 538e2d53e46SBarry Smith ierr = MatZeroRows(l->B,istmp,0);CHKERRQ(ierr); 5396eb55b6aSBarry Smith if (diag && (l->A->M == l->A->N)) { 5406eb55b6aSBarry Smith ierr = MatZeroRows(l->A,istmp,diag);CHKERRQ(ierr); 541e2d53e46SBarry Smith } else if (diag) { 542e2d53e46SBarry Smith ierr = MatZeroRows(l->A,istmp,0);CHKERRQ(ierr); 543fa46199cSSatish Balay if (((Mat_SeqAIJ*)l->A->data)->nonew) { 54429bbc08cSBarry Smith SETERRQ(PETSC_ERR_SUP,"MatZeroRows() on rectangular matrices cannot be used with the Mat options\n\ 545fa46199cSSatish Balay MAT_NO_NEW_NONZERO_LOCATIONS,MAT_NEW_NONZERO_LOCATION_ERR,MAT_NEW_NONZERO_ALLOCATION_ERR"); 5466525c446SSatish Balay } 547e2d53e46SBarry Smith for (i = 0; i < slen; i++) { 548e2d53e46SBarry Smith row = lrows[i] + rstart; 549e2d53e46SBarry Smith ierr = MatSetValues(A,1,&row,1,&row,diag,INSERT_VALUES);CHKERRQ(ierr); 550e2d53e46SBarry Smith } 551e2d53e46SBarry Smith ierr = MatAssemblyBegin(A,MAT_FINAL_ASSEMBLY);CHKERRQ(ierr); 552e2d53e46SBarry Smith ierr = MatAssemblyEnd(A,MAT_FINAL_ASSEMBLY);CHKERRQ(ierr); 5536eb55b6aSBarry Smith } else { 5546a5c57faSSatish Balay ierr = MatZeroRows(l->A,istmp,0);CHKERRQ(ierr); 5556eb55b6aSBarry Smith } 55678b31e54SBarry Smith ierr = ISDestroy(istmp);CHKERRQ(ierr); 557606d414cSSatish Balay ierr = PetscFree(lrows);CHKERRQ(ierr); 55872dacd9aSBarry Smith 5591eb62cbbSBarry Smith /* wait on sends */ 5601eb62cbbSBarry Smith if (nsends) { 561b0a32e0cSBarry Smith ierr = PetscMalloc(nsends*sizeof(MPI_Status),&send_status);CHKERRQ(ierr); 562ca161407SBarry Smith ierr = MPI_Waitall(nsends,send_waits,send_status);CHKERRQ(ierr); 563606d414cSSatish Balay ierr = PetscFree(send_status);CHKERRQ(ierr); 5641eb62cbbSBarry Smith } 565606d414cSSatish Balay ierr = PetscFree(send_waits);CHKERRQ(ierr); 566606d414cSSatish Balay ierr = PetscFree(svalues);CHKERRQ(ierr); 5671eb62cbbSBarry Smith 5683a40ed3dSBarry Smith PetscFunctionReturn(0); 5691eb62cbbSBarry Smith } 5701eb62cbbSBarry Smith 5714a2ae208SSatish Balay #undef __FUNCT__ 5724a2ae208SSatish Balay #define __FUNCT__ "MatMult_MPIAIJ" 5738f6be9afSLois Curfman McInnes int MatMult_MPIAIJ(Mat A,Vec xx,Vec yy) 5741eb62cbbSBarry Smith { 575416022c9SBarry Smith Mat_MPIAIJ *a = (Mat_MPIAIJ*)A->data; 576fbd6ef76SBarry Smith int ierr,nt; 577416022c9SBarry Smith 5783a40ed3dSBarry Smith PetscFunctionBegin; 579a2ce50c7SBarry Smith ierr = VecGetLocalSize(xx,&nt);CHKERRQ(ierr); 580273d9f13SBarry Smith if (nt != A->n) { 581273d9f13SBarry Smith SETERRQ2(PETSC_ERR_ARG_SIZ,"Incompatible partition of A (%d) and xx (%d)",A->n,nt); 582fbd6ef76SBarry Smith } 58343a90d84SBarry Smith ierr = VecScatterBegin(xx,a->lvec,INSERT_VALUES,SCATTER_FORWARD,a->Mvctx);CHKERRQ(ierr); 584f830108cSBarry Smith ierr = (*a->A->ops->mult)(a->A,xx,yy);CHKERRQ(ierr); 58543a90d84SBarry Smith ierr = VecScatterEnd(xx,a->lvec,INSERT_VALUES,SCATTER_FORWARD,a->Mvctx);CHKERRQ(ierr); 586f830108cSBarry Smith ierr = (*a->B->ops->multadd)(a->B,a->lvec,yy,yy);CHKERRQ(ierr); 5873a40ed3dSBarry Smith PetscFunctionReturn(0); 5881eb62cbbSBarry Smith } 5891eb62cbbSBarry Smith 5904a2ae208SSatish Balay #undef __FUNCT__ 5914a2ae208SSatish Balay #define __FUNCT__ "MatMultAdd_MPIAIJ" 5928f6be9afSLois Curfman McInnes int MatMultAdd_MPIAIJ(Mat A,Vec xx,Vec yy,Vec zz) 593da3a660dSBarry Smith { 594416022c9SBarry Smith Mat_MPIAIJ *a = (Mat_MPIAIJ*)A->data; 595da3a660dSBarry Smith int ierr; 5963a40ed3dSBarry Smith 5973a40ed3dSBarry Smith PetscFunctionBegin; 59843a90d84SBarry Smith ierr = VecScatterBegin(xx,a->lvec,INSERT_VALUES,SCATTER_FORWARD,a->Mvctx);CHKERRQ(ierr); 599f830108cSBarry Smith ierr = (*a->A->ops->multadd)(a->A,xx,yy,zz);CHKERRQ(ierr); 60043a90d84SBarry Smith ierr = VecScatterEnd(xx,a->lvec,INSERT_VALUES,SCATTER_FORWARD,a->Mvctx);CHKERRQ(ierr); 601f830108cSBarry Smith ierr = (*a->B->ops->multadd)(a->B,a->lvec,zz,zz);CHKERRQ(ierr); 6023a40ed3dSBarry Smith PetscFunctionReturn(0); 603da3a660dSBarry Smith } 604da3a660dSBarry Smith 6054a2ae208SSatish Balay #undef __FUNCT__ 6064a2ae208SSatish Balay #define __FUNCT__ "MatMultTranspose_MPIAIJ" 6077c922b88SBarry Smith int MatMultTranspose_MPIAIJ(Mat A,Vec xx,Vec yy) 608da3a660dSBarry Smith { 609416022c9SBarry Smith Mat_MPIAIJ *a = (Mat_MPIAIJ*)A->data; 610da3a660dSBarry Smith int ierr; 611da3a660dSBarry Smith 6123a40ed3dSBarry Smith PetscFunctionBegin; 613da3a660dSBarry Smith /* do nondiagonal part */ 6147c922b88SBarry Smith ierr = (*a->B->ops->multtranspose)(a->B,xx,a->lvec);CHKERRQ(ierr); 615da3a660dSBarry Smith /* send it on its way */ 616537820f0SBarry Smith ierr = VecScatterBegin(a->lvec,yy,ADD_VALUES,SCATTER_REVERSE,a->Mvctx);CHKERRQ(ierr); 617da3a660dSBarry Smith /* do local part */ 6187c922b88SBarry Smith ierr = (*a->A->ops->multtranspose)(a->A,xx,yy);CHKERRQ(ierr); 619da3a660dSBarry Smith /* receive remote parts: note this assumes the values are not actually */ 620da3a660dSBarry Smith /* inserted in yy until the next line, which is true for my implementation*/ 621da3a660dSBarry Smith /* but is not perhaps always true. */ 622537820f0SBarry Smith ierr = VecScatterEnd(a->lvec,yy,ADD_VALUES,SCATTER_REVERSE,a->Mvctx);CHKERRQ(ierr); 6233a40ed3dSBarry Smith PetscFunctionReturn(0); 624da3a660dSBarry Smith } 625da3a660dSBarry Smith 6264a2ae208SSatish Balay #undef __FUNCT__ 6274a2ae208SSatish Balay #define __FUNCT__ "MatMultTransposeAdd_MPIAIJ" 6287c922b88SBarry Smith int MatMultTransposeAdd_MPIAIJ(Mat A,Vec xx,Vec yy,Vec zz) 629da3a660dSBarry Smith { 630416022c9SBarry Smith Mat_MPIAIJ *a = (Mat_MPIAIJ*)A->data; 631da3a660dSBarry Smith int ierr; 632da3a660dSBarry Smith 6333a40ed3dSBarry Smith PetscFunctionBegin; 634da3a660dSBarry Smith /* do nondiagonal part */ 6357c922b88SBarry Smith ierr = (*a->B->ops->multtranspose)(a->B,xx,a->lvec);CHKERRQ(ierr); 636da3a660dSBarry Smith /* send it on its way */ 637537820f0SBarry Smith ierr = VecScatterBegin(a->lvec,zz,ADD_VALUES,SCATTER_REVERSE,a->Mvctx);CHKERRQ(ierr); 638da3a660dSBarry Smith /* do local part */ 6397c922b88SBarry Smith ierr = (*a->A->ops->multtransposeadd)(a->A,xx,yy,zz);CHKERRQ(ierr); 640da3a660dSBarry Smith /* receive remote parts: note this assumes the values are not actually */ 641da3a660dSBarry Smith /* inserted in yy until the next line, which is true for my implementation*/ 642da3a660dSBarry Smith /* but is not perhaps always true. */ 6430a198c4cSBarry Smith ierr = VecScatterEnd(a->lvec,zz,ADD_VALUES,SCATTER_REVERSE,a->Mvctx);CHKERRQ(ierr); 6443a40ed3dSBarry Smith PetscFunctionReturn(0); 645da3a660dSBarry Smith } 646da3a660dSBarry Smith 6471eb62cbbSBarry Smith /* 6481eb62cbbSBarry Smith This only works correctly for square matrices where the subblock A->A is the 6491eb62cbbSBarry Smith diagonal block 6501eb62cbbSBarry Smith */ 6514a2ae208SSatish Balay #undef __FUNCT__ 6524a2ae208SSatish Balay #define __FUNCT__ "MatGetDiagonal_MPIAIJ" 6538f6be9afSLois Curfman McInnes int MatGetDiagonal_MPIAIJ(Mat A,Vec v) 6541eb62cbbSBarry Smith { 6553a40ed3dSBarry Smith int ierr; 656416022c9SBarry Smith Mat_MPIAIJ *a = (Mat_MPIAIJ*)A->data; 6573a40ed3dSBarry Smith 6583a40ed3dSBarry Smith PetscFunctionBegin; 659273d9f13SBarry Smith if (A->M != A->N) SETERRQ(PETSC_ERR_SUP,"Supports only square matrix where A->A is diag block"); 6605baf8537SBarry Smith if (a->rstart != a->cstart || a->rend != a->cend) { 66129bbc08cSBarry Smith SETERRQ(PETSC_ERR_ARG_SIZ,"row partition must equal col partition"); 6623a40ed3dSBarry Smith } 6633a40ed3dSBarry Smith ierr = MatGetDiagonal(a->A,v);CHKERRQ(ierr); 6643a40ed3dSBarry Smith PetscFunctionReturn(0); 6651eb62cbbSBarry Smith } 6661eb62cbbSBarry Smith 6674a2ae208SSatish Balay #undef __FUNCT__ 6684a2ae208SSatish Balay #define __FUNCT__ "MatScale_MPIAIJ" 6698f6be9afSLois Curfman McInnes int MatScale_MPIAIJ(Scalar *aa,Mat A) 670052efed2SBarry Smith { 671052efed2SBarry Smith Mat_MPIAIJ *a = (Mat_MPIAIJ*)A->data; 672052efed2SBarry Smith int ierr; 6733a40ed3dSBarry Smith 6743a40ed3dSBarry Smith PetscFunctionBegin; 675052efed2SBarry Smith ierr = MatScale(aa,a->A);CHKERRQ(ierr); 676052efed2SBarry Smith ierr = MatScale(aa,a->B);CHKERRQ(ierr); 6773a40ed3dSBarry Smith PetscFunctionReturn(0); 678052efed2SBarry Smith } 679052efed2SBarry Smith 6804a2ae208SSatish Balay #undef __FUNCT__ 6814a2ae208SSatish Balay #define __FUNCT__ "MatDestroy_MPIAIJ" 682e1311b90SBarry Smith int MatDestroy_MPIAIJ(Mat mat) 6831eb62cbbSBarry Smith { 68444a69424SLois Curfman McInnes Mat_MPIAIJ *aij = (Mat_MPIAIJ*)mat->data; 6851eb62cbbSBarry Smith int ierr; 68683e2fdc7SBarry Smith 6873a40ed3dSBarry Smith PetscFunctionBegin; 688aa482453SBarry Smith #if defined(PETSC_USE_LOG) 689b0a32e0cSBarry Smith PetscLogObjectState((PetscObject)mat,"Rows=%d, Cols=%d",mat->M,mat->N); 690a5a9c739SBarry Smith #endif 6918798bf22SSatish Balay ierr = MatStashDestroy_Private(&mat->stash);CHKERRQ(ierr); 692606d414cSSatish Balay ierr = PetscFree(aij->rowners);CHKERRQ(ierr); 69378b31e54SBarry Smith ierr = MatDestroy(aij->A);CHKERRQ(ierr); 69478b31e54SBarry Smith ierr = MatDestroy(aij->B);CHKERRQ(ierr); 695aa482453SBarry Smith #if defined (PETSC_USE_CTABLE) 6960f5bd95cSBarry Smith if (aij->colmap) {ierr = PetscTableDelete(aij->colmap);CHKERRQ(ierr);} 697b1fc9764SSatish Balay #else 698606d414cSSatish Balay if (aij->colmap) {ierr = PetscFree(aij->colmap);CHKERRQ(ierr);} 699b1fc9764SSatish Balay #endif 700606d414cSSatish Balay if (aij->garray) {ierr = PetscFree(aij->garray);CHKERRQ(ierr);} 7017c922b88SBarry Smith if (aij->lvec) {ierr = VecDestroy(aij->lvec);CHKERRQ(ierr);} 7027c922b88SBarry Smith if (aij->Mvctx) {ierr = VecScatterDestroy(aij->Mvctx);CHKERRQ(ierr);} 703606d414cSSatish Balay if (aij->rowvalues) {ierr = PetscFree(aij->rowvalues);CHKERRQ(ierr);} 704606d414cSSatish Balay ierr = PetscFree(aij);CHKERRQ(ierr); 7053a40ed3dSBarry Smith PetscFunctionReturn(0); 7061eb62cbbSBarry Smith } 707ee50ffe9SBarry Smith 7084a2ae208SSatish Balay #undef __FUNCT__ 7094a2ae208SSatish Balay #define __FUNCT__ "MatView_MPIAIJ_ASCIIorDraworSocket" 710b0a32e0cSBarry Smith int MatView_MPIAIJ_ASCIIorDraworSocket(Mat mat,PetscViewer viewer) 711416022c9SBarry Smith { 71244a69424SLois Curfman McInnes Mat_MPIAIJ *aij = (Mat_MPIAIJ*)mat->data; 713dbb450caSBarry Smith Mat_SeqAIJ* C = (Mat_SeqAIJ*)aij->A->data; 714fb9695e5SSatish Balay int ierr,shift = C->indexshift,rank = aij->rank,size = aij->size; 715f1af5d2fSBarry Smith PetscTruth isdraw,isascii,flg; 716b0a32e0cSBarry Smith PetscViewer sviewer; 717f3ef73ceSBarry Smith PetscViewerFormat format; 718416022c9SBarry Smith 7193a40ed3dSBarry Smith PetscFunctionBegin; 720fb9695e5SSatish Balay ierr = PetscTypeCompare((PetscObject)viewer,PETSC_VIEWER_DRAW,&isdraw);CHKERRQ(ierr); 721b0a32e0cSBarry Smith ierr = PetscTypeCompare((PetscObject)viewer,PETSC_VIEWER_ASCII,&isascii);CHKERRQ(ierr); 7220f5bd95cSBarry Smith if (isascii) { 723b0a32e0cSBarry Smith ierr = PetscViewerGetFormat(viewer,&format);CHKERRQ(ierr); 724fb9695e5SSatish Balay if (format == PETSC_VIEWER_ASCII_INFO_LONG) { 7254e220ebcSLois Curfman McInnes MatInfo info; 7261dab6e02SBarry Smith ierr = MPI_Comm_rank(mat->comm,&rank);CHKERRQ(ierr); 727888f2ed8SSatish Balay ierr = MatGetInfo(mat,MAT_LOCAL,&info);CHKERRQ(ierr); 728b0a32e0cSBarry Smith ierr = PetscOptionsHasName(PETSC_NULL,"-mat_aij_no_inode",&flg);CHKERRQ(ierr); 7296831982aSBarry Smith if (flg) { 730b0a32e0cSBarry Smith ierr = PetscViewerASCIISynchronizedPrintf(viewer,"[%d] Local rows %d nz %d nz alloced %d mem %d, not using I-node routines\n", 731273d9f13SBarry Smith rank,mat->m,(int)info.nz_used,(int)info.nz_allocated,(int)info.memory);CHKERRQ(ierr); 7326831982aSBarry Smith } else { 733b0a32e0cSBarry Smith ierr = PetscViewerASCIISynchronizedPrintf(viewer,"[%d] Local rows %d nz %d nz alloced %d mem %d, using I-node routines\n", 734273d9f13SBarry Smith rank,mat->m,(int)info.nz_used,(int)info.nz_allocated,(int)info.memory);CHKERRQ(ierr); 7356831982aSBarry Smith } 736888f2ed8SSatish Balay ierr = MatGetInfo(aij->A,MAT_LOCAL,&info);CHKERRQ(ierr); 737b0a32e0cSBarry Smith ierr = PetscViewerASCIISynchronizedPrintf(viewer,"[%d] on-diagonal part: nz %d \n",rank,(int)info.nz_used);CHKERRQ(ierr); 738888f2ed8SSatish Balay ierr = MatGetInfo(aij->B,MAT_LOCAL,&info);CHKERRQ(ierr); 739b0a32e0cSBarry Smith ierr = PetscViewerASCIISynchronizedPrintf(viewer,"[%d] off-diagonal part: nz %d \n",rank,(int)info.nz_used);CHKERRQ(ierr); 740b0a32e0cSBarry Smith ierr = PetscViewerFlush(viewer);CHKERRQ(ierr); 741a40aa06bSLois Curfman McInnes ierr = VecScatterView(aij->Mvctx,viewer);CHKERRQ(ierr); 7423a40ed3dSBarry Smith PetscFunctionReturn(0); 743fb9695e5SSatish Balay } else if (format == PETSC_VIEWER_ASCII_INFO) { 7443a40ed3dSBarry Smith PetscFunctionReturn(0); 74508480c60SBarry Smith } 7460f5bd95cSBarry Smith } else if (isdraw) { 747b0a32e0cSBarry Smith PetscDraw draw; 74819bcc07fSBarry Smith PetscTruth isnull; 749b0a32e0cSBarry Smith ierr = PetscViewerDrawGetDraw(viewer,0,&draw);CHKERRQ(ierr); 750b0a32e0cSBarry Smith ierr = PetscDrawIsNull(draw,&isnull);CHKERRQ(ierr); if (isnull) PetscFunctionReturn(0); 75119bcc07fSBarry Smith } 75219bcc07fSBarry Smith 75317699dbbSLois Curfman McInnes if (size == 1) { 75478b31e54SBarry Smith ierr = MatView(aij->A,viewer);CHKERRQ(ierr); 7553a40ed3dSBarry Smith } else { 75695373324SBarry Smith /* assemble the entire matrix onto first processor. */ 75795373324SBarry Smith Mat A; 758ec8511deSBarry Smith Mat_SeqAIJ *Aloc; 759273d9f13SBarry Smith int M = mat->M,N = mat->N,m,*ai,*aj,row,*cols,i,*ct; 76095373324SBarry Smith Scalar *a; 7612ee70a88SLois Curfman McInnes 76217699dbbSLois Curfman McInnes if (!rank) { 76355843e3eSBarry Smith ierr = MatCreateMPIAIJ(mat->comm,M,N,M,N,0,PETSC_NULL,0,PETSC_NULL,&A);CHKERRQ(ierr); 7643a40ed3dSBarry Smith } else { 76555843e3eSBarry Smith ierr = MatCreateMPIAIJ(mat->comm,0,0,M,N,0,PETSC_NULL,0,PETSC_NULL,&A);CHKERRQ(ierr); 76695373324SBarry Smith } 767b0a32e0cSBarry Smith PetscLogObjectParent(mat,A); 768416022c9SBarry Smith 76995373324SBarry Smith /* copy over the A part */ 770ec8511deSBarry Smith Aloc = (Mat_SeqAIJ*)aij->A->data; 771273d9f13SBarry Smith m = aij->A->m; ai = Aloc->i; aj = Aloc->j; a = Aloc->a; 77295373324SBarry Smith row = aij->rstart; 773dbb450caSBarry Smith for (i=0; i<ai[m]+shift; i++) {aj[i] += aij->cstart + shift;} 77495373324SBarry Smith for (i=0; i<m; i++) { 775416022c9SBarry Smith ierr = MatSetValues(A,1,&row,ai[i+1]-ai[i],aj,a,INSERT_VALUES);CHKERRQ(ierr); 77695373324SBarry Smith row++; a += ai[i+1]-ai[i]; aj += ai[i+1]-ai[i]; 77795373324SBarry Smith } 7782ee70a88SLois Curfman McInnes aj = Aloc->j; 779dbb450caSBarry Smith for (i=0; i<ai[m]+shift; i++) {aj[i] -= aij->cstart + shift;} 78095373324SBarry Smith 78195373324SBarry Smith /* copy over the B part */ 782ec8511deSBarry Smith Aloc = (Mat_SeqAIJ*)aij->B->data; 783273d9f13SBarry Smith m = aij->B->m; ai = Aloc->i; aj = Aloc->j; a = Aloc->a; 78495373324SBarry Smith row = aij->rstart; 785b0a32e0cSBarry Smith ierr = PetscMalloc((ai[m]+1)*sizeof(int),&cols);CHKERRQ(ierr); 786b0a32e0cSBarry Smith ct = cols; 787dbb450caSBarry Smith for (i=0; i<ai[m]+shift; i++) {cols[i] = aij->garray[aj[i]+shift];} 78895373324SBarry Smith for (i=0; i<m; i++) { 789416022c9SBarry Smith ierr = MatSetValues(A,1,&row,ai[i+1]-ai[i],cols,a,INSERT_VALUES);CHKERRQ(ierr); 79095373324SBarry Smith row++; a += ai[i+1]-ai[i]; cols += ai[i+1]-ai[i]; 79195373324SBarry Smith } 792606d414cSSatish Balay ierr = PetscFree(ct);CHKERRQ(ierr); 7936d4a8577SBarry Smith ierr = MatAssemblyBegin(A,MAT_FINAL_ASSEMBLY);CHKERRQ(ierr); 7946d4a8577SBarry Smith ierr = MatAssemblyEnd(A,MAT_FINAL_ASSEMBLY);CHKERRQ(ierr); 79555843e3eSBarry Smith /* 79655843e3eSBarry Smith Everyone has to call to draw the matrix since the graphics waits are 797b0a32e0cSBarry Smith synchronized across all processors that share the PetscDraw object 79855843e3eSBarry Smith */ 799b0a32e0cSBarry Smith ierr = PetscViewerGetSingleton(viewer,&sviewer);CHKERRQ(ierr); 800e03a110bSBarry Smith if (!rank) { 8016831982aSBarry Smith ierr = MatView(((Mat_MPIAIJ*)(A->data))->A,sviewer);CHKERRQ(ierr); 80295373324SBarry Smith } 803b0a32e0cSBarry Smith ierr = PetscViewerRestoreSingleton(viewer,&sviewer);CHKERRQ(ierr); 80478b31e54SBarry Smith ierr = MatDestroy(A);CHKERRQ(ierr); 80595373324SBarry Smith } 8063a40ed3dSBarry Smith PetscFunctionReturn(0); 8071eb62cbbSBarry Smith } 8081eb62cbbSBarry Smith 8094a2ae208SSatish Balay #undef __FUNCT__ 8104a2ae208SSatish Balay #define __FUNCT__ "MatView_MPIAIJ" 811b0a32e0cSBarry Smith int MatView_MPIAIJ(Mat mat,PetscViewer viewer) 812416022c9SBarry Smith { 813416022c9SBarry Smith int ierr; 8146831982aSBarry Smith PetscTruth isascii,isdraw,issocket,isbinary; 815416022c9SBarry Smith 8163a40ed3dSBarry Smith PetscFunctionBegin; 817b0a32e0cSBarry Smith ierr = PetscTypeCompare((PetscObject)viewer,PETSC_VIEWER_ASCII,&isascii);CHKERRQ(ierr); 818fb9695e5SSatish Balay ierr = PetscTypeCompare((PetscObject)viewer,PETSC_VIEWER_DRAW,&isdraw);CHKERRQ(ierr); 819fb9695e5SSatish Balay ierr = PetscTypeCompare((PetscObject)viewer,PETSC_VIEWER_BINARY,&isbinary);CHKERRQ(ierr); 820b0a32e0cSBarry Smith ierr = PetscTypeCompare((PetscObject)viewer,PETSC_VIEWER_SOCKET,&issocket);CHKERRQ(ierr); 8210f5bd95cSBarry Smith if (isascii || isdraw || isbinary || issocket) { 8227b2a1423SBarry Smith ierr = MatView_MPIAIJ_ASCIIorDraworSocket(mat,viewer);CHKERRQ(ierr); 8235cd90555SBarry Smith } else { 82429bbc08cSBarry Smith SETERRQ1(1,"Viewer type %s not supported by MPIAIJ matrices",((PetscObject)viewer)->type_name); 825416022c9SBarry Smith } 8263a40ed3dSBarry Smith PetscFunctionReturn(0); 827416022c9SBarry Smith } 828416022c9SBarry Smith 8291eb62cbbSBarry Smith /* 8301eb62cbbSBarry Smith This has to provide several versions. 8311eb62cbbSBarry Smith 8321eb62cbbSBarry Smith 2) a) use only local smoothing updating outer values only once. 8331eb62cbbSBarry Smith b) local smoothing updating outer values each inner iteration 834d6dfbf8fSBarry Smith 3) color updating out values betwen colors. 8351eb62cbbSBarry Smith */ 8364a2ae208SSatish Balay #undef __FUNCT__ 8374a2ae208SSatish Balay #define __FUNCT__ "MatRelax_MPIAIJ" 838273d9f13SBarry Smith int MatRelax_MPIAIJ(Mat matin,Vec bb,PetscReal omega,MatSORType flag,PetscReal fshift,int its,Vec xx) 8398a729477SBarry Smith { 84044a69424SLois Curfman McInnes Mat_MPIAIJ *mat = (Mat_MPIAIJ*)matin->data; 841d6dfbf8fSBarry Smith Mat AA = mat->A,BB = mat->B; 842ec8511deSBarry Smith Mat_SeqAIJ *A = (Mat_SeqAIJ*)AA->data,*B = (Mat_SeqAIJ *)BB->data; 843c16cb8f2SBarry Smith Scalar *b,*x,*xs,*ls,d,*v,sum; 8446abc6512SBarry Smith int ierr,*idx,*diag; 845273d9f13SBarry Smith int n = matin->n,m = matin->m,i,shift = A->indexshift; 8468a729477SBarry Smith 8473a40ed3dSBarry Smith PetscFunctionBegin; 8487c922b88SBarry Smith if (!A->diag) {ierr = MatMarkDiagonal_SeqAIJ(AA);CHKERRQ(ierr);} 849d6dfbf8fSBarry Smith diag = A->diag; 850c16cb8f2SBarry Smith if ((flag & SOR_LOCAL_SYMMETRIC_SWEEP) == SOR_LOCAL_SYMMETRIC_SWEEP){ 851da3a660dSBarry Smith if (flag & SOR_ZERO_INITIAL_GUESS) { 852f830108cSBarry Smith ierr = (*mat->A->ops->relax)(mat->A,bb,omega,flag,fshift,its,xx);CHKERRQ(ierr); 8533a40ed3dSBarry Smith PetscFunctionReturn(0); 854da3a660dSBarry Smith } 8553a40ed3dSBarry Smith ierr = VecScatterBegin(xx,mat->lvec,INSERT_VALUES,SCATTER_FORWARD,mat->Mvctx);CHKERRQ(ierr); 8563a40ed3dSBarry Smith ierr = VecScatterEnd(xx,mat->lvec,INSERT_VALUES,SCATTER_FORWARD,mat->Mvctx);CHKERRQ(ierr); 857184914b5SBarry Smith ierr = VecGetArray(xx,&x);CHKERRQ(ierr); 858184914b5SBarry Smith if (xx != bb) { 859184914b5SBarry Smith ierr = VecGetArray(bb,&b);CHKERRQ(ierr); 860184914b5SBarry Smith } else { 861184914b5SBarry Smith b = x; 862184914b5SBarry Smith } 863184914b5SBarry Smith ierr = VecGetArray(mat->lvec,&ls);CHKERRQ(ierr); 864184914b5SBarry Smith xs = x + shift; /* shift by one for index start of 1 */ 865184914b5SBarry Smith ls = ls + shift; 866d6dfbf8fSBarry Smith while (its--) { 867d6dfbf8fSBarry Smith /* go down through the rows */ 868d6dfbf8fSBarry Smith for (i=0; i<m; i++) { 869d6dfbf8fSBarry Smith n = A->i[i+1] - A->i[i]; 870b0a32e0cSBarry Smith PetscLogFlops(4*n+3); 871dbb450caSBarry Smith idx = A->j + A->i[i] + shift; 872dbb450caSBarry Smith v = A->a + A->i[i] + shift; 873d6dfbf8fSBarry Smith sum = b[i]; 874d6dfbf8fSBarry Smith SPARSEDENSEMDOT(sum,xs,v,idx,n); 875dbb450caSBarry Smith d = fshift + A->a[diag[i]+shift]; 876d6dfbf8fSBarry Smith n = B->i[i+1] - B->i[i]; 877dbb450caSBarry Smith idx = B->j + B->i[i] + shift; 878dbb450caSBarry Smith v = B->a + B->i[i] + shift; 879d6dfbf8fSBarry Smith SPARSEDENSEMDOT(sum,ls,v,idx,n); 88055a1b374SBarry Smith x[i] = (1. - omega)*x[i] + omega*(sum + A->a[diag[i]+shift]*x[i])/d; 881d6dfbf8fSBarry Smith } 882d6dfbf8fSBarry Smith /* come up through the rows */ 883d6dfbf8fSBarry Smith for (i=m-1; i>-1; i--) { 884d6dfbf8fSBarry Smith n = A->i[i+1] - A->i[i]; 885b0a32e0cSBarry Smith PetscLogFlops(4*n+3); 886dbb450caSBarry Smith idx = A->j + A->i[i] + shift; 887dbb450caSBarry Smith v = A->a + A->i[i] + shift; 888d6dfbf8fSBarry Smith sum = b[i]; 889d6dfbf8fSBarry Smith SPARSEDENSEMDOT(sum,xs,v,idx,n); 890dbb450caSBarry Smith d = fshift + A->a[diag[i]+shift]; 891d6dfbf8fSBarry Smith n = B->i[i+1] - B->i[i]; 892dbb450caSBarry Smith idx = B->j + B->i[i] + shift; 893dbb450caSBarry Smith v = B->a + B->i[i] + shift; 894d6dfbf8fSBarry Smith SPARSEDENSEMDOT(sum,ls,v,idx,n); 89555a1b374SBarry Smith x[i] = (1. - omega)*x[i] + omega*(sum + A->a[diag[i]+shift]*x[i])/d; 896d6dfbf8fSBarry Smith } 897d6dfbf8fSBarry Smith } 898184914b5SBarry Smith ierr = VecRestoreArray(xx,&x);CHKERRQ(ierr); 899184914b5SBarry Smith if (bb != xx) {ierr = VecRestoreArray(bb,&b);CHKERRQ(ierr); } 900184914b5SBarry Smith ierr = VecRestoreArray(mat->lvec,&ls);CHKERRQ(ierr); 9013a40ed3dSBarry Smith } else if (flag & SOR_LOCAL_FORWARD_SWEEP){ 902da3a660dSBarry Smith if (flag & SOR_ZERO_INITIAL_GUESS) { 903f830108cSBarry Smith ierr = (*mat->A->ops->relax)(mat->A,bb,omega,flag,fshift,its,xx);CHKERRQ(ierr); 9043a40ed3dSBarry Smith PetscFunctionReturn(0); 905da3a660dSBarry Smith } 9063a40ed3dSBarry Smith ierr = VecScatterBegin(xx,mat->lvec,INSERT_VALUES,SCATTER_FORWARD,mat->Mvctx);CHKERRQ(ierr); 9073a40ed3dSBarry Smith ierr = VecScatterEnd(xx,mat->lvec,INSERT_VALUES,SCATTER_FORWARD,mat->Mvctx);CHKERRQ(ierr); 908184914b5SBarry Smith ierr = VecGetArray(xx,&x);CHKERRQ(ierr); 909184914b5SBarry Smith if (xx != bb) { 910184914b5SBarry Smith ierr = VecGetArray(bb,&b);CHKERRQ(ierr); 911184914b5SBarry Smith } else { 912184914b5SBarry Smith b = x; 913184914b5SBarry Smith } 914184914b5SBarry Smith ierr = VecGetArray(mat->lvec,&ls);CHKERRQ(ierr); 915184914b5SBarry Smith xs = x + shift; /* shift by one for index start of 1 */ 916184914b5SBarry Smith ls = ls + shift; 917d6dfbf8fSBarry Smith while (its--) { 918d6dfbf8fSBarry Smith for (i=0; i<m; i++) { 919d6dfbf8fSBarry Smith n = A->i[i+1] - A->i[i]; 920b0a32e0cSBarry Smith PetscLogFlops(4*n+3); 921dbb450caSBarry Smith idx = A->j + A->i[i] + shift; 922dbb450caSBarry Smith v = A->a + A->i[i] + shift; 923d6dfbf8fSBarry Smith sum = b[i]; 924d6dfbf8fSBarry Smith SPARSEDENSEMDOT(sum,xs,v,idx,n); 925dbb450caSBarry Smith d = fshift + A->a[diag[i]+shift]; 926d6dfbf8fSBarry Smith n = B->i[i+1] - B->i[i]; 927dbb450caSBarry Smith idx = B->j + B->i[i] + shift; 928dbb450caSBarry Smith v = B->a + B->i[i] + shift; 929d6dfbf8fSBarry Smith SPARSEDENSEMDOT(sum,ls,v,idx,n); 93055a1b374SBarry Smith x[i] = (1. - omega)*x[i] + omega*(sum + A->a[diag[i]+shift]*x[i])/d; 931d6dfbf8fSBarry Smith } 932d6dfbf8fSBarry Smith } 933184914b5SBarry Smith ierr = VecRestoreArray(xx,&x);CHKERRQ(ierr); 934184914b5SBarry Smith if (bb != xx) {ierr = VecRestoreArray(bb,&b);CHKERRQ(ierr); } 935184914b5SBarry Smith ierr = VecRestoreArray(mat->lvec,&ls);CHKERRQ(ierr); 9363a40ed3dSBarry Smith } else if (flag & SOR_LOCAL_BACKWARD_SWEEP){ 937da3a660dSBarry Smith if (flag & SOR_ZERO_INITIAL_GUESS) { 938f830108cSBarry Smith ierr = (*mat->A->ops->relax)(mat->A,bb,omega,flag,fshift,its,xx);CHKERRQ(ierr); 9393a40ed3dSBarry Smith PetscFunctionReturn(0); 940da3a660dSBarry Smith } 9412e8a6d31SBarry Smith ierr = VecScatterBegin(xx,mat->lvec,INSERT_VALUES,SCATTER_FORWARD,mat->Mvctx);CHKERRQ(ierr); 9422e8a6d31SBarry Smith ierr = VecScatterEnd(xx,mat->lvec,INSERT_VALUES,SCATTER_FORWARD,mat->Mvctx);CHKERRQ(ierr); 943184914b5SBarry Smith ierr = VecGetArray(xx,&x);CHKERRQ(ierr); 944184914b5SBarry Smith if (xx != bb) { 945184914b5SBarry Smith ierr = VecGetArray(bb,&b);CHKERRQ(ierr); 946184914b5SBarry Smith } else { 947184914b5SBarry Smith b = x; 948184914b5SBarry Smith } 949184914b5SBarry Smith ierr = VecGetArray(mat->lvec,&ls);CHKERRQ(ierr); 950184914b5SBarry Smith xs = x + shift; /* shift by one for index start of 1 */ 951184914b5SBarry Smith ls = ls + shift; 952d6dfbf8fSBarry Smith while (its--) { 953d6dfbf8fSBarry Smith for (i=m-1; i>-1; i--) { 954d6dfbf8fSBarry Smith n = A->i[i+1] - A->i[i]; 955b0a32e0cSBarry Smith PetscLogFlops(4*n+3); 956dbb450caSBarry Smith idx = A->j + A->i[i] + shift; 957dbb450caSBarry Smith v = A->a + A->i[i] + shift; 958d6dfbf8fSBarry Smith sum = b[i]; 959d6dfbf8fSBarry Smith SPARSEDENSEMDOT(sum,xs,v,idx,n); 960dbb450caSBarry Smith d = fshift + A->a[diag[i]+shift]; 961d6dfbf8fSBarry Smith n = B->i[i+1] - B->i[i]; 962dbb450caSBarry Smith idx = B->j + B->i[i] + shift; 963dbb450caSBarry Smith v = B->a + B->i[i] + shift; 964d6dfbf8fSBarry Smith SPARSEDENSEMDOT(sum,ls,v,idx,n); 96555a1b374SBarry Smith x[i] = (1. - omega)*x[i] + omega*(sum + A->a[diag[i]+shift]*x[i])/d; 966d6dfbf8fSBarry Smith } 967d6dfbf8fSBarry Smith } 968184914b5SBarry Smith ierr = VecRestoreArray(xx,&x);CHKERRQ(ierr); 969184914b5SBarry Smith if (bb != xx) {ierr = VecRestoreArray(bb,&b);CHKERRQ(ierr); } 970184914b5SBarry Smith ierr = VecRestoreArray(mat->lvec,&ls);CHKERRQ(ierr); 9713a40ed3dSBarry Smith } else { 97229bbc08cSBarry Smith SETERRQ(PETSC_ERR_SUP,"Parallel SOR not supported"); 973c16cb8f2SBarry Smith } 9743a40ed3dSBarry Smith PetscFunctionReturn(0); 9758a729477SBarry Smith } 976a66be287SLois Curfman McInnes 9774a2ae208SSatish Balay #undef __FUNCT__ 9784a2ae208SSatish Balay #define __FUNCT__ "MatGetInfo_MPIAIJ" 9798f6be9afSLois Curfman McInnes int MatGetInfo_MPIAIJ(Mat matin,MatInfoType flag,MatInfo *info) 980a66be287SLois Curfman McInnes { 981a66be287SLois Curfman McInnes Mat_MPIAIJ *mat = (Mat_MPIAIJ*)matin->data; 982a66be287SLois Curfman McInnes Mat A = mat->A,B = mat->B; 9834e220ebcSLois Curfman McInnes int ierr; 984329f5518SBarry Smith PetscReal isend[5],irecv[5]; 985a66be287SLois Curfman McInnes 9863a40ed3dSBarry Smith PetscFunctionBegin; 9874e220ebcSLois Curfman McInnes info->block_size = 1.0; 9884e220ebcSLois Curfman McInnes ierr = MatGetInfo(A,MAT_LOCAL,info);CHKERRQ(ierr); 9894e220ebcSLois Curfman McInnes isend[0] = info->nz_used; isend[1] = info->nz_allocated; isend[2] = info->nz_unneeded; 9904e220ebcSLois Curfman McInnes isend[3] = info->memory; isend[4] = info->mallocs; 9914e220ebcSLois Curfman McInnes ierr = MatGetInfo(B,MAT_LOCAL,info);CHKERRQ(ierr); 9924e220ebcSLois Curfman McInnes isend[0] += info->nz_used; isend[1] += info->nz_allocated; isend[2] += info->nz_unneeded; 9934e220ebcSLois Curfman McInnes isend[3] += info->memory; isend[4] += info->mallocs; 994a66be287SLois Curfman McInnes if (flag == MAT_LOCAL) { 9954e220ebcSLois Curfman McInnes info->nz_used = isend[0]; 9964e220ebcSLois Curfman McInnes info->nz_allocated = isend[1]; 9974e220ebcSLois Curfman McInnes info->nz_unneeded = isend[2]; 9984e220ebcSLois Curfman McInnes info->memory = isend[3]; 9994e220ebcSLois Curfman McInnes info->mallocs = isend[4]; 1000a66be287SLois Curfman McInnes } else if (flag == MAT_GLOBAL_MAX) { 1001ca161407SBarry Smith ierr = MPI_Allreduce(isend,irecv,5,MPI_DOUBLE,MPI_MAX,matin->comm);CHKERRQ(ierr); 10024e220ebcSLois Curfman McInnes info->nz_used = irecv[0]; 10034e220ebcSLois Curfman McInnes info->nz_allocated = irecv[1]; 10044e220ebcSLois Curfman McInnes info->nz_unneeded = irecv[2]; 10054e220ebcSLois Curfman McInnes info->memory = irecv[3]; 10064e220ebcSLois Curfman McInnes info->mallocs = irecv[4]; 1007a66be287SLois Curfman McInnes } else if (flag == MAT_GLOBAL_SUM) { 1008ca161407SBarry Smith ierr = MPI_Allreduce(isend,irecv,5,MPI_DOUBLE,MPI_SUM,matin->comm);CHKERRQ(ierr); 10094e220ebcSLois Curfman McInnes info->nz_used = irecv[0]; 10104e220ebcSLois Curfman McInnes info->nz_allocated = irecv[1]; 10114e220ebcSLois Curfman McInnes info->nz_unneeded = irecv[2]; 10124e220ebcSLois Curfman McInnes info->memory = irecv[3]; 10134e220ebcSLois Curfman McInnes info->mallocs = irecv[4]; 1014a66be287SLois Curfman McInnes } 10154e220ebcSLois Curfman McInnes info->fill_ratio_given = 0; /* no parallel LU/ILU/Cholesky */ 10164e220ebcSLois Curfman McInnes info->fill_ratio_needed = 0; 10174e220ebcSLois Curfman McInnes info->factor_mallocs = 0; 1018273d9f13SBarry Smith info->rows_global = (double)matin->M; 1019273d9f13SBarry Smith info->columns_global = (double)matin->N; 1020273d9f13SBarry Smith info->rows_local = (double)matin->m; 1021273d9f13SBarry Smith info->columns_local = (double)matin->N; 10224e220ebcSLois Curfman McInnes 10233a40ed3dSBarry Smith PetscFunctionReturn(0); 1024a66be287SLois Curfman McInnes } 1025a66be287SLois Curfman McInnes 10264a2ae208SSatish Balay #undef __FUNCT__ 10274a2ae208SSatish Balay #define __FUNCT__ "MatSetOption_MPIAIJ" 10288f6be9afSLois Curfman McInnes int MatSetOption_MPIAIJ(Mat A,MatOption op) 1029c74985f6SBarry Smith { 1030c0bbcb79SLois Curfman McInnes Mat_MPIAIJ *a = (Mat_MPIAIJ*)A->data; 10311dee9f54SBarry Smith int ierr; 1032c74985f6SBarry Smith 10333a40ed3dSBarry Smith PetscFunctionBegin; 10346d4a8577SBarry Smith if (op == MAT_NO_NEW_NONZERO_LOCATIONS || 10356d4a8577SBarry Smith op == MAT_YES_NEW_NONZERO_LOCATIONS || 10366da5968aSLois Curfman McInnes op == MAT_COLUMNS_UNSORTED || 1037c2653b3dSLois Curfman McInnes op == MAT_COLUMNS_SORTED || 10384787f768SSatish Balay op == MAT_NEW_NONZERO_ALLOCATION_ERR || 10397c922b88SBarry Smith op == MAT_KEEP_ZEROED_ROWS || 1040329f5518SBarry Smith op == MAT_NEW_NONZERO_LOCATION_ERR || 10414c49b128SBarry Smith op == MAT_USE_INODES || 10424c49b128SBarry Smith op == MAT_DO_NOT_USE_INODES || 1043329f5518SBarry Smith op == MAT_IGNORE_ZERO_ENTRIES) { 10441dee9f54SBarry Smith ierr = MatSetOption(a->A,op);CHKERRQ(ierr); 10451dee9f54SBarry Smith ierr = MatSetOption(a->B,op);CHKERRQ(ierr); 1046b1fbbac0SLois Curfman McInnes } else if (op == MAT_ROW_ORIENTED) { 10477c922b88SBarry Smith a->roworiented = PETSC_TRUE; 10481dee9f54SBarry Smith ierr = MatSetOption(a->A,op);CHKERRQ(ierr); 10491dee9f54SBarry Smith ierr = MatSetOption(a->B,op);CHKERRQ(ierr); 1050b1fbbac0SLois Curfman McInnes } else if (op == MAT_ROWS_SORTED || 10516da5968aSLois Curfman McInnes op == MAT_ROWS_UNSORTED || 1052329f5518SBarry Smith op == MAT_YES_NEW_DIAGONALS) { 1053b0a32e0cSBarry Smith PetscLogInfo(A,"MatSetOption_MPIAIJ:Option ignored\n"); 1054329f5518SBarry Smith } else if (op == MAT_COLUMN_ORIENTED) { 10557c922b88SBarry Smith a->roworiented = PETSC_FALSE; 10561dee9f54SBarry Smith ierr = MatSetOption(a->A,op);CHKERRQ(ierr); 10571dee9f54SBarry Smith ierr = MatSetOption(a->B,op);CHKERRQ(ierr); 10582b362799SSatish Balay } else if (op == MAT_IGNORE_OFF_PROC_ENTRIES) { 10597c922b88SBarry Smith a->donotstash = PETSC_TRUE; 10603a40ed3dSBarry Smith } else if (op == MAT_NO_NEW_DIAGONALS){ 106129bbc08cSBarry Smith SETERRQ(PETSC_ERR_SUP,"MAT_NO_NEW_DIAGONALS"); 10623a40ed3dSBarry Smith } else { 106329bbc08cSBarry Smith SETERRQ(PETSC_ERR_SUP,"unknown option"); 10643a40ed3dSBarry Smith } 10653a40ed3dSBarry Smith PetscFunctionReturn(0); 1066c74985f6SBarry Smith } 1067c74985f6SBarry Smith 10684a2ae208SSatish Balay #undef __FUNCT__ 10694a2ae208SSatish Balay #define __FUNCT__ "MatGetOwnershipRange_MPIAIJ" 10708f6be9afSLois Curfman McInnes int MatGetOwnershipRange_MPIAIJ(Mat matin,int *m,int *n) 1071c74985f6SBarry Smith { 107244a69424SLois Curfman McInnes Mat_MPIAIJ *mat = (Mat_MPIAIJ*)matin->data; 10733a40ed3dSBarry Smith 10743a40ed3dSBarry Smith PetscFunctionBegin; 10754c49b128SBarry Smith if (m) *m = mat->rstart; 10764c49b128SBarry Smith if (n) *n = mat->rend; 10773a40ed3dSBarry Smith PetscFunctionReturn(0); 1078c74985f6SBarry Smith } 1079c74985f6SBarry Smith 10804a2ae208SSatish Balay #undef __FUNCT__ 10814a2ae208SSatish Balay #define __FUNCT__ "MatGetRow_MPIAIJ" 10826d84be18SBarry Smith int MatGetRow_MPIAIJ(Mat matin,int row,int *nz,int **idx,Scalar **v) 108339e00950SLois Curfman McInnes { 1084154123eaSLois Curfman McInnes Mat_MPIAIJ *mat = (Mat_MPIAIJ*)matin->data; 108570f0671dSBarry Smith Scalar *vworkA,*vworkB,**pvA,**pvB,*v_p; 1086154123eaSLois Curfman McInnes int i,ierr,*cworkA,*cworkB,**pcA,**pcB,cstart = mat->cstart; 1087154123eaSLois Curfman McInnes int nztot,nzA,nzB,lrow,rstart = mat->rstart,rend = mat->rend; 108870f0671dSBarry Smith int *cmap,*idx_p; 108939e00950SLois Curfman McInnes 10903a40ed3dSBarry Smith PetscFunctionBegin; 109129bbc08cSBarry Smith if (mat->getrowactive == PETSC_TRUE) SETERRQ(PETSC_ERR_ARG_WRONGSTATE,"Already active"); 10927a0afa10SBarry Smith mat->getrowactive = PETSC_TRUE; 10937a0afa10SBarry Smith 109470f0671dSBarry Smith if (!mat->rowvalues && (idx || v)) { 10957a0afa10SBarry Smith /* 10967a0afa10SBarry Smith allocate enough space to hold information from the longest row. 10977a0afa10SBarry Smith */ 10987a0afa10SBarry Smith Mat_SeqAIJ *Aa = (Mat_SeqAIJ*)mat->A->data,*Ba = (Mat_SeqAIJ*)mat->B->data; 1099273d9f13SBarry Smith int max = 1,tmp; 1100273d9f13SBarry Smith for (i=0; i<matin->m; i++) { 11017a0afa10SBarry Smith tmp = Aa->i[i+1] - Aa->i[i] + Ba->i[i+1] - Ba->i[i]; 11027a0afa10SBarry Smith if (max < tmp) { max = tmp; } 11037a0afa10SBarry Smith } 1104a0e26f09SSatish Balay ierr = PetscMalloc(max*(sizeof(int)+sizeof(Scalar)),&mat->rowvalues);CHKERRQ(ierr); 11057a0afa10SBarry Smith mat->rowindices = (int*)(mat->rowvalues + max); 11067a0afa10SBarry Smith } 11077a0afa10SBarry Smith 110829bbc08cSBarry Smith if (row < rstart || row >= rend) SETERRQ(PETSC_ERR_ARG_OUTOFRANGE,"Only local rows") 1109abc0e9e4SLois Curfman McInnes lrow = row - rstart; 111039e00950SLois Curfman McInnes 1111154123eaSLois Curfman McInnes pvA = &vworkA; pcA = &cworkA; pvB = &vworkB; pcB = &cworkB; 1112154123eaSLois Curfman McInnes if (!v) {pvA = 0; pvB = 0;} 1113154123eaSLois Curfman McInnes if (!idx) {pcA = 0; if (!v) pcB = 0;} 1114f830108cSBarry Smith ierr = (*mat->A->ops->getrow)(mat->A,lrow,&nzA,pcA,pvA);CHKERRQ(ierr); 1115f830108cSBarry Smith ierr = (*mat->B->ops->getrow)(mat->B,lrow,&nzB,pcB,pvB);CHKERRQ(ierr); 1116154123eaSLois Curfman McInnes nztot = nzA + nzB; 1117154123eaSLois Curfman McInnes 111870f0671dSBarry Smith cmap = mat->garray; 1119154123eaSLois Curfman McInnes if (v || idx) { 1120154123eaSLois Curfman McInnes if (nztot) { 1121154123eaSLois Curfman McInnes /* Sort by increasing column numbers, assuming A and B already sorted */ 112270f0671dSBarry Smith int imark = -1; 1123154123eaSLois Curfman McInnes if (v) { 112470f0671dSBarry Smith *v = v_p = mat->rowvalues; 112539e00950SLois Curfman McInnes for (i=0; i<nzB; i++) { 112670f0671dSBarry Smith if (cmap[cworkB[i]] < cstart) v_p[i] = vworkB[i]; 1127154123eaSLois Curfman McInnes else break; 1128154123eaSLois Curfman McInnes } 1129154123eaSLois Curfman McInnes imark = i; 113070f0671dSBarry Smith for (i=0; i<nzA; i++) v_p[imark+i] = vworkA[i]; 113170f0671dSBarry Smith for (i=imark; i<nzB; i++) v_p[nzA+i] = vworkB[i]; 1132154123eaSLois Curfman McInnes } 1133154123eaSLois Curfman McInnes if (idx) { 113470f0671dSBarry Smith *idx = idx_p = mat->rowindices; 113570f0671dSBarry Smith if (imark > -1) { 113670f0671dSBarry Smith for (i=0; i<imark; i++) { 113770f0671dSBarry Smith idx_p[i] = cmap[cworkB[i]]; 113870f0671dSBarry Smith } 113970f0671dSBarry Smith } else { 1140154123eaSLois Curfman McInnes for (i=0; i<nzB; i++) { 114170f0671dSBarry Smith if (cmap[cworkB[i]] < cstart) idx_p[i] = cmap[cworkB[i]]; 1142154123eaSLois Curfman McInnes else break; 1143154123eaSLois Curfman McInnes } 1144154123eaSLois Curfman McInnes imark = i; 114570f0671dSBarry Smith } 114670f0671dSBarry Smith for (i=0; i<nzA; i++) idx_p[imark+i] = cstart + cworkA[i]; 114770f0671dSBarry Smith for (i=imark; i<nzB; i++) idx_p[nzA+i] = cmap[cworkB[i]]; 114839e00950SLois Curfman McInnes } 11493f97c4b0SBarry Smith } else { 11501ca473b0SSatish Balay if (idx) *idx = 0; 11511ca473b0SSatish Balay if (v) *v = 0; 11521ca473b0SSatish Balay } 1153154123eaSLois Curfman McInnes } 115439e00950SLois Curfman McInnes *nz = nztot; 1155f830108cSBarry Smith ierr = (*mat->A->ops->restorerow)(mat->A,lrow,&nzA,pcA,pvA);CHKERRQ(ierr); 1156f830108cSBarry Smith ierr = (*mat->B->ops->restorerow)(mat->B,lrow,&nzB,pcB,pvB);CHKERRQ(ierr); 11573a40ed3dSBarry Smith PetscFunctionReturn(0); 115839e00950SLois Curfman McInnes } 115939e00950SLois Curfman McInnes 11604a2ae208SSatish Balay #undef __FUNCT__ 11614a2ae208SSatish Balay #define __FUNCT__ "MatRestoreRow_MPIAIJ" 11626d84be18SBarry Smith int MatRestoreRow_MPIAIJ(Mat mat,int row,int *nz,int **idx,Scalar **v) 116339e00950SLois Curfman McInnes { 11647a0afa10SBarry Smith Mat_MPIAIJ *aij = (Mat_MPIAIJ*)mat->data; 11653a40ed3dSBarry Smith 11663a40ed3dSBarry Smith PetscFunctionBegin; 11677a0afa10SBarry Smith if (aij->getrowactive == PETSC_FALSE) { 116829bbc08cSBarry Smith SETERRQ(PETSC_ERR_ARG_WRONGSTATE,"MatGetRow not called"); 11697a0afa10SBarry Smith } 11707a0afa10SBarry Smith aij->getrowactive = PETSC_FALSE; 11713a40ed3dSBarry Smith PetscFunctionReturn(0); 117239e00950SLois Curfman McInnes } 117339e00950SLois Curfman McInnes 11744a2ae208SSatish Balay #undef __FUNCT__ 11754a2ae208SSatish Balay #define __FUNCT__ "MatNorm_MPIAIJ" 1176329f5518SBarry Smith int MatNorm_MPIAIJ(Mat mat,NormType type,PetscReal *norm) 1177855ac2c5SLois Curfman McInnes { 1178855ac2c5SLois Curfman McInnes Mat_MPIAIJ *aij = (Mat_MPIAIJ*)mat->data; 1179ec8511deSBarry Smith Mat_SeqAIJ *amat = (Mat_SeqAIJ*)aij->A->data,*bmat = (Mat_SeqAIJ*)aij->B->data; 1180416022c9SBarry Smith int ierr,i,j,cstart = aij->cstart,shift = amat->indexshift; 1181329f5518SBarry Smith PetscReal sum = 0.0; 118204ca555eSLois Curfman McInnes Scalar *v; 118304ca555eSLois Curfman McInnes 11843a40ed3dSBarry Smith PetscFunctionBegin; 118517699dbbSLois Curfman McInnes if (aij->size == 1) { 118614183eadSLois Curfman McInnes ierr = MatNorm(aij->A,type,norm);CHKERRQ(ierr); 118737fa93a5SLois Curfman McInnes } else { 118804ca555eSLois Curfman McInnes if (type == NORM_FROBENIUS) { 118904ca555eSLois Curfman McInnes v = amat->a; 119004ca555eSLois Curfman McInnes for (i=0; i<amat->nz; i++) { 1191aa482453SBarry Smith #if defined(PETSC_USE_COMPLEX) 1192329f5518SBarry Smith sum += PetscRealPart(PetscConj(*v)*(*v)); v++; 119304ca555eSLois Curfman McInnes #else 119404ca555eSLois Curfman McInnes sum += (*v)*(*v); v++; 119504ca555eSLois Curfman McInnes #endif 119604ca555eSLois Curfman McInnes } 119704ca555eSLois Curfman McInnes v = bmat->a; 119804ca555eSLois Curfman McInnes for (i=0; i<bmat->nz; i++) { 1199aa482453SBarry Smith #if defined(PETSC_USE_COMPLEX) 1200329f5518SBarry Smith sum += PetscRealPart(PetscConj(*v)*(*v)); v++; 120104ca555eSLois Curfman McInnes #else 120204ca555eSLois Curfman McInnes sum += (*v)*(*v); v++; 120304ca555eSLois Curfman McInnes #endif 120404ca555eSLois Curfman McInnes } 1205ca161407SBarry Smith ierr = MPI_Allreduce(&sum,norm,1,MPI_DOUBLE,MPI_SUM,mat->comm);CHKERRQ(ierr); 120604ca555eSLois Curfman McInnes *norm = sqrt(*norm); 12073a40ed3dSBarry Smith } else if (type == NORM_1) { /* max column norm */ 1208329f5518SBarry Smith PetscReal *tmp,*tmp2; 120904ca555eSLois Curfman McInnes int *jj,*garray = aij->garray; 1210b0a32e0cSBarry Smith ierr = PetscMalloc((mat->N+1)*sizeof(PetscReal),&tmp);CHKERRQ(ierr); 1211b0a32e0cSBarry Smith ierr = PetscMalloc((mat->N+1)*sizeof(PetscReal),&tmp2);CHKERRQ(ierr); 1212273d9f13SBarry Smith ierr = PetscMemzero(tmp,mat->N*sizeof(PetscReal));CHKERRQ(ierr); 121304ca555eSLois Curfman McInnes *norm = 0.0; 121404ca555eSLois Curfman McInnes v = amat->a; jj = amat->j; 121504ca555eSLois Curfman McInnes for (j=0; j<amat->nz; j++) { 1216579c6b6fSBarry Smith tmp[cstart + *jj++ + shift] += PetscAbsScalar(*v); v++; 121704ca555eSLois Curfman McInnes } 121804ca555eSLois Curfman McInnes v = bmat->a; jj = bmat->j; 121904ca555eSLois Curfman McInnes for (j=0; j<bmat->nz; j++) { 1220579c6b6fSBarry Smith tmp[garray[*jj++ + shift]] += PetscAbsScalar(*v); v++; 122104ca555eSLois Curfman McInnes } 1222273d9f13SBarry Smith ierr = MPI_Allreduce(tmp,tmp2,mat->N,MPI_DOUBLE,MPI_SUM,mat->comm);CHKERRQ(ierr); 1223273d9f13SBarry Smith for (j=0; j<mat->N; j++) { 122404ca555eSLois Curfman McInnes if (tmp2[j] > *norm) *norm = tmp2[j]; 122504ca555eSLois Curfman McInnes } 1226606d414cSSatish Balay ierr = PetscFree(tmp);CHKERRQ(ierr); 1227606d414cSSatish Balay ierr = PetscFree(tmp2);CHKERRQ(ierr); 12283a40ed3dSBarry Smith } else if (type == NORM_INFINITY) { /* max row norm */ 1229329f5518SBarry Smith PetscReal ntemp = 0.0; 1230273d9f13SBarry Smith for (j=0; j<aij->A->m; j++) { 1231dbb450caSBarry Smith v = amat->a + amat->i[j] + shift; 123204ca555eSLois Curfman McInnes sum = 0.0; 123304ca555eSLois Curfman McInnes for (i=0; i<amat->i[j+1]-amat->i[j]; i++) { 1234cddf8d76SBarry Smith sum += PetscAbsScalar(*v); v++; 123504ca555eSLois Curfman McInnes } 1236dbb450caSBarry Smith v = bmat->a + bmat->i[j] + shift; 123704ca555eSLois Curfman McInnes for (i=0; i<bmat->i[j+1]-bmat->i[j]; i++) { 1238cddf8d76SBarry Smith sum += PetscAbsScalar(*v); v++; 123904ca555eSLois Curfman McInnes } 1240515d9167SLois Curfman McInnes if (sum > ntemp) ntemp = sum; 124104ca555eSLois Curfman McInnes } 1242ca161407SBarry Smith ierr = MPI_Allreduce(&ntemp,norm,1,MPI_DOUBLE,MPI_MAX,mat->comm);CHKERRQ(ierr); 1243ca161407SBarry Smith } else { 124429bbc08cSBarry Smith SETERRQ(PETSC_ERR_SUP,"No support for two norm"); 124504ca555eSLois Curfman McInnes } 124637fa93a5SLois Curfman McInnes } 12473a40ed3dSBarry Smith PetscFunctionReturn(0); 1248855ac2c5SLois Curfman McInnes } 1249855ac2c5SLois Curfman McInnes 12504a2ae208SSatish Balay #undef __FUNCT__ 12514a2ae208SSatish Balay #define __FUNCT__ "MatTranspose_MPIAIJ" 12528f6be9afSLois Curfman McInnes int MatTranspose_MPIAIJ(Mat A,Mat *matout) 1253b7c46309SBarry Smith { 1254b7c46309SBarry Smith Mat_MPIAIJ *a = (Mat_MPIAIJ*)A->data; 1255dbb450caSBarry Smith Mat_SeqAIJ *Aloc = (Mat_SeqAIJ*)a->A->data; 1256416022c9SBarry Smith int ierr,shift = Aloc->indexshift; 1257273d9f13SBarry Smith int M = A->M,N = A->N,m,*ai,*aj,row,*cols,i,*ct; 12583a40ed3dSBarry Smith Mat B; 1259b7c46309SBarry Smith Scalar *array; 1260b7c46309SBarry Smith 12613a40ed3dSBarry Smith PetscFunctionBegin; 12627c922b88SBarry Smith if (!matout && M != N) { 126329bbc08cSBarry Smith SETERRQ(PETSC_ERR_ARG_SIZ,"Square matrix only for in-place"); 1264d4bb536fSBarry Smith } 1265d4bb536fSBarry Smith 1266273d9f13SBarry Smith ierr = MatCreateMPIAIJ(A->comm,A->n,A->m,N,M,0,PETSC_NULL,0,PETSC_NULL,&B);CHKERRQ(ierr); 1267b7c46309SBarry Smith 1268b7c46309SBarry Smith /* copy over the A part */ 1269ec8511deSBarry Smith Aloc = (Mat_SeqAIJ*)a->A->data; 1270273d9f13SBarry Smith m = a->A->m; ai = Aloc->i; aj = Aloc->j; array = Aloc->a; 1271b7c46309SBarry Smith row = a->rstart; 1272dbb450caSBarry Smith for (i=0; i<ai[m]+shift; i++) {aj[i] += a->cstart + shift;} 1273b7c46309SBarry Smith for (i=0; i<m; i++) { 1274416022c9SBarry Smith ierr = MatSetValues(B,ai[i+1]-ai[i],aj,1,&row,array,INSERT_VALUES);CHKERRQ(ierr); 1275b7c46309SBarry Smith row++; array += ai[i+1]-ai[i]; aj += ai[i+1]-ai[i]; 1276b7c46309SBarry Smith } 1277b7c46309SBarry Smith aj = Aloc->j; 12784af08d9eSBarry Smith for (i=0; i<ai[m]+shift; i++) {aj[i] -= a->cstart + shift;} 1279b7c46309SBarry Smith 1280b7c46309SBarry Smith /* copy over the B part */ 1281ec8511deSBarry Smith Aloc = (Mat_SeqAIJ*)a->B->data; 1282273d9f13SBarry Smith m = a->B->m; ai = Aloc->i; aj = Aloc->j; array = Aloc->a; 1283b7c46309SBarry Smith row = a->rstart; 1284b0a32e0cSBarry Smith ierr = PetscMalloc((1+ai[m]-shift)*sizeof(int),&cols);CHKERRQ(ierr); 1285b0a32e0cSBarry Smith ct = cols; 1286dbb450caSBarry Smith for (i=0; i<ai[m]+shift; i++) {cols[i] = a->garray[aj[i]+shift];} 1287b7c46309SBarry Smith for (i=0; i<m; i++) { 1288416022c9SBarry Smith ierr = MatSetValues(B,ai[i+1]-ai[i],cols,1,&row,array,INSERT_VALUES);CHKERRQ(ierr); 1289b7c46309SBarry Smith row++; array += ai[i+1]-ai[i]; cols += ai[i+1]-ai[i]; 1290b7c46309SBarry Smith } 1291606d414cSSatish Balay ierr = PetscFree(ct);CHKERRQ(ierr); 12926d4a8577SBarry Smith ierr = MatAssemblyBegin(B,MAT_FINAL_ASSEMBLY);CHKERRQ(ierr); 12936d4a8577SBarry Smith ierr = MatAssemblyEnd(B,MAT_FINAL_ASSEMBLY);CHKERRQ(ierr); 12947c922b88SBarry Smith if (matout) { 12950de55854SLois Curfman McInnes *matout = B; 12960de55854SLois Curfman McInnes } else { 1297273d9f13SBarry Smith ierr = MatHeaderCopy(A,B);CHKERRQ(ierr); 12980de55854SLois Curfman McInnes } 12993a40ed3dSBarry Smith PetscFunctionReturn(0); 1300b7c46309SBarry Smith } 1301b7c46309SBarry Smith 13024a2ae208SSatish Balay #undef __FUNCT__ 13034a2ae208SSatish Balay #define __FUNCT__ "MatDiagonalScale_MPIAIJ" 13044b967eb1SSatish Balay int MatDiagonalScale_MPIAIJ(Mat mat,Vec ll,Vec rr) 1305a008b906SSatish Balay { 13064b967eb1SSatish Balay Mat_MPIAIJ *aij = (Mat_MPIAIJ*)mat->data; 13074b967eb1SSatish Balay Mat a = aij->A,b = aij->B; 1308a008b906SSatish Balay int ierr,s1,s2,s3; 1309a008b906SSatish Balay 13103a40ed3dSBarry Smith PetscFunctionBegin; 13114b967eb1SSatish Balay ierr = MatGetLocalSize(mat,&s2,&s3);CHKERRQ(ierr); 13124b967eb1SSatish Balay if (rr) { 1313e1311b90SBarry Smith ierr = VecGetLocalSize(rr,&s1);CHKERRQ(ierr); 131429bbc08cSBarry Smith if (s1!=s3) SETERRQ(PETSC_ERR_ARG_SIZ,"right vector non-conforming local size"); 13154b967eb1SSatish Balay /* Overlap communication with computation. */ 131643a90d84SBarry Smith ierr = VecScatterBegin(rr,aij->lvec,INSERT_VALUES,SCATTER_FORWARD,aij->Mvctx);CHKERRQ(ierr); 1317a008b906SSatish Balay } 13184b967eb1SSatish Balay if (ll) { 1319e1311b90SBarry Smith ierr = VecGetLocalSize(ll,&s1);CHKERRQ(ierr); 132029bbc08cSBarry Smith if (s1!=s2) SETERRQ(PETSC_ERR_ARG_SIZ,"left vector non-conforming local size"); 1321f830108cSBarry Smith ierr = (*b->ops->diagonalscale)(b,ll,0);CHKERRQ(ierr); 13224b967eb1SSatish Balay } 13234b967eb1SSatish Balay /* scale the diagonal block */ 1324f830108cSBarry Smith ierr = (*a->ops->diagonalscale)(a,ll,rr);CHKERRQ(ierr); 13254b967eb1SSatish Balay 13264b967eb1SSatish Balay if (rr) { 13274b967eb1SSatish Balay /* Do a scatter end and then right scale the off-diagonal block */ 132843a90d84SBarry Smith ierr = VecScatterEnd(rr,aij->lvec,INSERT_VALUES,SCATTER_FORWARD,aij->Mvctx);CHKERRQ(ierr); 1329f830108cSBarry Smith ierr = (*b->ops->diagonalscale)(b,0,aij->lvec);CHKERRQ(ierr); 13304b967eb1SSatish Balay } 13314b967eb1SSatish Balay 13323a40ed3dSBarry Smith PetscFunctionReturn(0); 1333a008b906SSatish Balay } 1334a008b906SSatish Balay 1335a008b906SSatish Balay 13364a2ae208SSatish Balay #undef __FUNCT__ 13374a2ae208SSatish Balay #define __FUNCT__ "MatPrintHelp_MPIAIJ" 13388f6be9afSLois Curfman McInnes int MatPrintHelp_MPIAIJ(Mat A) 1339682d7d0cSBarry Smith { 1340682d7d0cSBarry Smith Mat_MPIAIJ *a = (Mat_MPIAIJ*)A->data; 13413a40ed3dSBarry Smith int ierr; 1342682d7d0cSBarry Smith 13433a40ed3dSBarry Smith PetscFunctionBegin; 13443a40ed3dSBarry Smith if (!a->rank) { 13453a40ed3dSBarry Smith ierr = MatPrintHelp_SeqAIJ(a->A);CHKERRQ(ierr); 13463a40ed3dSBarry Smith } 13473a40ed3dSBarry Smith PetscFunctionReturn(0); 1348682d7d0cSBarry Smith } 1349682d7d0cSBarry Smith 13504a2ae208SSatish Balay #undef __FUNCT__ 13514a2ae208SSatish Balay #define __FUNCT__ "MatGetBlockSize_MPIAIJ" 13528f6be9afSLois Curfman McInnes int MatGetBlockSize_MPIAIJ(Mat A,int *bs) 13535a838052SSatish Balay { 13543a40ed3dSBarry Smith PetscFunctionBegin; 13555a838052SSatish Balay *bs = 1; 13563a40ed3dSBarry Smith PetscFunctionReturn(0); 13575a838052SSatish Balay } 13584a2ae208SSatish Balay #undef __FUNCT__ 13594a2ae208SSatish Balay #define __FUNCT__ "MatSetUnfactored_MPIAIJ" 13608f6be9afSLois Curfman McInnes int MatSetUnfactored_MPIAIJ(Mat A) 1361bb5a7306SBarry Smith { 1362bb5a7306SBarry Smith Mat_MPIAIJ *a = (Mat_MPIAIJ*)A->data; 1363bb5a7306SBarry Smith int ierr; 13643a40ed3dSBarry Smith 13653a40ed3dSBarry Smith PetscFunctionBegin; 1366bb5a7306SBarry Smith ierr = MatSetUnfactored(a->A);CHKERRQ(ierr); 13673a40ed3dSBarry Smith PetscFunctionReturn(0); 1368bb5a7306SBarry Smith } 1369bb5a7306SBarry Smith 13704a2ae208SSatish Balay #undef __FUNCT__ 13714a2ae208SSatish Balay #define __FUNCT__ "MatEqual_MPIAIJ" 1372d4bb536fSBarry Smith int MatEqual_MPIAIJ(Mat A,Mat B,PetscTruth *flag) 1373d4bb536fSBarry Smith { 1374d4bb536fSBarry Smith Mat_MPIAIJ *matB = (Mat_MPIAIJ*)B->data,*matA = (Mat_MPIAIJ*)A->data; 1375d4bb536fSBarry Smith Mat a,b,c,d; 1376d4bb536fSBarry Smith PetscTruth flg; 1377d4bb536fSBarry Smith int ierr; 1378d4bb536fSBarry Smith 13793a40ed3dSBarry Smith PetscFunctionBegin; 1380273d9f13SBarry Smith ierr = PetscTypeCompare((PetscObject)B,MATMPIAIJ,&flg);CHKERRQ(ierr); 1381273d9f13SBarry Smith if (!flg) SETERRQ(PETSC_ERR_ARG_INCOMP,"Matrices must be same type"); 1382d4bb536fSBarry Smith a = matA->A; b = matA->B; 1383d4bb536fSBarry Smith c = matB->A; d = matB->B; 1384d4bb536fSBarry Smith 1385d4bb536fSBarry Smith ierr = MatEqual(a,c,&flg);CHKERRQ(ierr); 1386d4bb536fSBarry Smith if (flg == PETSC_TRUE) { 1387d4bb536fSBarry Smith ierr = MatEqual(b,d,&flg);CHKERRQ(ierr); 1388d4bb536fSBarry Smith } 1389ca161407SBarry Smith ierr = MPI_Allreduce(&flg,flag,1,MPI_INT,MPI_LAND,A->comm);CHKERRQ(ierr); 13903a40ed3dSBarry Smith PetscFunctionReturn(0); 1391d4bb536fSBarry Smith } 1392d4bb536fSBarry Smith 13934a2ae208SSatish Balay #undef __FUNCT__ 13944a2ae208SSatish Balay #define __FUNCT__ "MatCopy_MPIAIJ" 1395cb5b572fSBarry Smith int MatCopy_MPIAIJ(Mat A,Mat B,MatStructure str) 1396cb5b572fSBarry Smith { 1397cb5b572fSBarry Smith int ierr; 1398cb5b572fSBarry Smith Mat_MPIAIJ *a = (Mat_MPIAIJ *)A->data; 1399cb5b572fSBarry Smith Mat_MPIAIJ *b = (Mat_MPIAIJ *)B->data; 1400273d9f13SBarry Smith PetscTruth flg; 1401cb5b572fSBarry Smith 1402cb5b572fSBarry Smith PetscFunctionBegin; 1403273d9f13SBarry Smith ierr = PetscTypeCompare((PetscObject)B,MATMPIAIJ,&flg);CHKERRQ(ierr); 1404273d9f13SBarry Smith if (str != SAME_NONZERO_PATTERN || !flg) { 1405cb5b572fSBarry Smith /* because of the column compression in the off-processor part of the matrix a->B, 1406cb5b572fSBarry Smith the number of columns in a->B and b->B may be different, hence we cannot call 1407cb5b572fSBarry Smith the MatCopy() directly on the two parts. If need be, we can provide a more 1408cb5b572fSBarry Smith efficient copy than the MatCopy_Basic() by first uncompressing the a->B matrices 1409cb5b572fSBarry Smith then copying the submatrices */ 1410cb5b572fSBarry Smith ierr = MatCopy_Basic(A,B,str);CHKERRQ(ierr); 1411cb5b572fSBarry Smith } else { 1412cb5b572fSBarry Smith ierr = MatCopy(a->A,b->A,str);CHKERRQ(ierr); 1413cb5b572fSBarry Smith ierr = MatCopy(a->B,b->B,str);CHKERRQ(ierr); 1414cb5b572fSBarry Smith } 1415cb5b572fSBarry Smith PetscFunctionReturn(0); 1416cb5b572fSBarry Smith } 1417cb5b572fSBarry Smith 14184a2ae208SSatish Balay #undef __FUNCT__ 14194a2ae208SSatish Balay #define __FUNCT__ "MatSetUpPreallocation_MPIAIJ" 1420273d9f13SBarry Smith int MatSetUpPreallocation_MPIAIJ(Mat A) 1421273d9f13SBarry Smith { 1422273d9f13SBarry Smith int ierr; 1423273d9f13SBarry Smith 1424273d9f13SBarry Smith PetscFunctionBegin; 1425273d9f13SBarry Smith ierr = MatMPIAIJSetPreallocation(A,PETSC_DEFAULT,0,PETSC_DEFAULT,0);CHKERRQ(ierr); 1426273d9f13SBarry Smith PetscFunctionReturn(0); 1427273d9f13SBarry Smith } 1428273d9f13SBarry Smith 1429ca44d042SBarry Smith EXTERN int MatDuplicate_MPIAIJ(Mat,MatDuplicateOption,Mat *); 1430ca44d042SBarry Smith EXTERN int MatIncreaseOverlap_MPIAIJ(Mat,int,IS *,int); 1431ca44d042SBarry Smith EXTERN int MatFDColoringCreate_MPIAIJ(Mat,ISColoring,MatFDColoring); 1432ca44d042SBarry Smith EXTERN int MatGetSubMatrices_MPIAIJ (Mat,int,IS *,IS *,MatReuse,Mat **); 1433ca44d042SBarry Smith EXTERN int MatGetSubMatrix_MPIAIJ (Mat,IS,IS,int,MatReuse,Mat *); 1434*b9617806SBarry Smith #if !defined(PETSC_USE_COMPLEX) 1435*b9617806SBarry Smith EXTERN int MatLUFactorSymbolic_MPIAIJ_TFS(Mat,IS,IS,MatLUInfo*,Mat*); 1436*b9617806SBarry Smith #endif 143700e6dbe6SBarry Smith 14388a729477SBarry Smith /* -------------------------------------------------------------------*/ 1439cda55fadSBarry Smith static struct _MatOps MatOps_Values = {MatSetValues_MPIAIJ, 1440cda55fadSBarry Smith MatGetRow_MPIAIJ, 1441cda55fadSBarry Smith MatRestoreRow_MPIAIJ, 1442cda55fadSBarry Smith MatMult_MPIAIJ, 1443cda55fadSBarry Smith MatMultAdd_MPIAIJ, 14447c922b88SBarry Smith MatMultTranspose_MPIAIJ, 14457c922b88SBarry Smith MatMultTransposeAdd_MPIAIJ, 1446cda55fadSBarry Smith 0, 1447cda55fadSBarry Smith 0, 1448cda55fadSBarry Smith 0, 1449cda55fadSBarry Smith 0, 1450cda55fadSBarry Smith 0, 1451cda55fadSBarry Smith 0, 145244a69424SLois Curfman McInnes MatRelax_MPIAIJ, 1453b7c46309SBarry Smith MatTranspose_MPIAIJ, 1454cda55fadSBarry Smith MatGetInfo_MPIAIJ, 1455cda55fadSBarry Smith MatEqual_MPIAIJ, 1456cda55fadSBarry Smith MatGetDiagonal_MPIAIJ, 1457cda55fadSBarry Smith MatDiagonalScale_MPIAIJ, 1458cda55fadSBarry Smith MatNorm_MPIAIJ, 1459cda55fadSBarry Smith MatAssemblyBegin_MPIAIJ, 1460cda55fadSBarry Smith MatAssemblyEnd_MPIAIJ, 14611eb62cbbSBarry Smith 0, 1462cda55fadSBarry Smith MatSetOption_MPIAIJ, 1463cda55fadSBarry Smith MatZeroEntries_MPIAIJ, 1464cda55fadSBarry Smith MatZeroRows_MPIAIJ, 1465*b9617806SBarry Smith #if !defined(PETSC_USE_COMPLEX) 1466*b9617806SBarry Smith MatLUFactorSymbolic_MPIAIJ_TFS, 1467*b9617806SBarry Smith #else 1468cda55fadSBarry Smith 0, 1469*b9617806SBarry Smith #endif 1470cda55fadSBarry Smith 0, 1471cda55fadSBarry Smith 0, 1472cda55fadSBarry Smith 0, 1473273d9f13SBarry Smith MatSetUpPreallocation_MPIAIJ, 1474273d9f13SBarry Smith 0, 1475cda55fadSBarry Smith MatGetOwnershipRange_MPIAIJ, 1476cda55fadSBarry Smith 0, 1477cda55fadSBarry Smith 0, 1478cda55fadSBarry Smith 0, 1479cda55fadSBarry Smith 0, 14802e8a6d31SBarry Smith MatDuplicate_MPIAIJ, 1481cda55fadSBarry Smith 0, 1482cda55fadSBarry Smith 0, 1483cda55fadSBarry Smith 0, 1484cda55fadSBarry Smith 0, 1485cda55fadSBarry Smith 0, 1486cda55fadSBarry Smith MatGetSubMatrices_MPIAIJ, 1487cda55fadSBarry Smith MatIncreaseOverlap_MPIAIJ, 1488cda55fadSBarry Smith MatGetValues_MPIAIJ, 1489cb5b572fSBarry Smith MatCopy_MPIAIJ, 1490052efed2SBarry Smith MatPrintHelp_MPIAIJ, 1491cda55fadSBarry Smith MatScale_MPIAIJ, 1492cda55fadSBarry Smith 0, 1493cda55fadSBarry Smith 0, 1494cda55fadSBarry Smith 0, 1495cda55fadSBarry Smith MatGetBlockSize_MPIAIJ, 1496cda55fadSBarry Smith 0, 1497cda55fadSBarry Smith 0, 1498cda55fadSBarry Smith 0, 1499cda55fadSBarry Smith 0, 1500cda55fadSBarry Smith MatFDColoringCreate_MPIAIJ, 1501cda55fadSBarry Smith 0, 1502cda55fadSBarry Smith MatSetUnfactored_MPIAIJ, 1503cda55fadSBarry Smith 0, 1504cda55fadSBarry Smith 0, 1505cda55fadSBarry Smith MatGetSubMatrix_MPIAIJ, 1506e03a110bSBarry Smith MatDestroy_MPIAIJ, 1507e03a110bSBarry Smith MatView_MPIAIJ, 1508cda55fadSBarry Smith MatGetMaps_Petsc}; 150936ce4990SBarry Smith 15102e8a6d31SBarry Smith /* ----------------------------------------------------------------------------------------*/ 15112e8a6d31SBarry Smith 1512fb2e594dSBarry Smith EXTERN_C_BEGIN 15134a2ae208SSatish Balay #undef __FUNCT__ 15144a2ae208SSatish Balay #define __FUNCT__ "MatStoreValues_MPIAIJ" 15152e8a6d31SBarry Smith int MatStoreValues_MPIAIJ(Mat mat) 15162e8a6d31SBarry Smith { 15172e8a6d31SBarry Smith Mat_MPIAIJ *aij = (Mat_MPIAIJ *)mat->data; 15182e8a6d31SBarry Smith int ierr; 15192e8a6d31SBarry Smith 15202e8a6d31SBarry Smith PetscFunctionBegin; 15212e8a6d31SBarry Smith ierr = MatStoreValues(aij->A);CHKERRQ(ierr); 15222e8a6d31SBarry Smith ierr = MatStoreValues(aij->B);CHKERRQ(ierr); 15232e8a6d31SBarry Smith PetscFunctionReturn(0); 15242e8a6d31SBarry Smith } 1525fb2e594dSBarry Smith EXTERN_C_END 15262e8a6d31SBarry Smith 1527fb2e594dSBarry Smith EXTERN_C_BEGIN 15284a2ae208SSatish Balay #undef __FUNCT__ 15294a2ae208SSatish Balay #define __FUNCT__ "MatRetrieveValues_MPIAIJ" 15302e8a6d31SBarry Smith int MatRetrieveValues_MPIAIJ(Mat mat) 15312e8a6d31SBarry Smith { 15322e8a6d31SBarry Smith Mat_MPIAIJ *aij = (Mat_MPIAIJ *)mat->data; 15332e8a6d31SBarry Smith int ierr; 15342e8a6d31SBarry Smith 15352e8a6d31SBarry Smith PetscFunctionBegin; 15362e8a6d31SBarry Smith ierr = MatRetrieveValues(aij->A);CHKERRQ(ierr); 15372e8a6d31SBarry Smith ierr = MatRetrieveValues(aij->B);CHKERRQ(ierr); 15382e8a6d31SBarry Smith PetscFunctionReturn(0); 15392e8a6d31SBarry Smith } 1540fb2e594dSBarry Smith EXTERN_C_END 15418a729477SBarry Smith 1542e090d566SSatish Balay #include "petscpc.h" 154327508adbSBarry Smith EXTERN_C_BEGIN 1544ca44d042SBarry Smith EXTERN int MatGetDiagonalBlock_MPIAIJ(Mat,PetscTruth *,MatReuse,Mat *); 154527508adbSBarry Smith EXTERN_C_END 154627508adbSBarry Smith 1547273d9f13SBarry Smith EXTERN_C_BEGIN 15484a2ae208SSatish Balay #undef __FUNCT__ 15494a2ae208SSatish Balay #define __FUNCT__ "MatCreate_MPIAIJ" 1550273d9f13SBarry Smith int MatCreate_MPIAIJ(Mat B) 15518a729477SBarry Smith { 155244cd7ae7SLois Curfman McInnes Mat_MPIAIJ *b; 1553f1af5d2fSBarry Smith int ierr,i,size; 1554416022c9SBarry Smith 15553a40ed3dSBarry Smith PetscFunctionBegin; 1556273d9f13SBarry Smith ierr = MPI_Comm_size(B->comm,&size);CHKERRQ(ierr); 15571d55c564SBarry Smith 1558b0a32e0cSBarry Smith ierr = PetscNew(Mat_MPIAIJ,&b);CHKERRQ(ierr); 1559b0a32e0cSBarry Smith B->data = (void*)b; 1560549d3d68SSatish Balay ierr = PetscMemzero(b,sizeof(Mat_MPIAIJ));CHKERRQ(ierr); 1561549d3d68SSatish Balay ierr = PetscMemcpy(B->ops,&MatOps_Values,sizeof(struct _MatOps));CHKERRQ(ierr); 156244cd7ae7SLois Curfman McInnes B->factor = 0; 156344cd7ae7SLois Curfman McInnes B->assembled = PETSC_FALSE; 156490f02eecSBarry Smith B->mapping = 0; 1565d6dfbf8fSBarry Smith 156647794344SBarry Smith B->insertmode = NOT_SET_VALUES; 15679eb4d147SSatish Balay b->size = size; 1568273d9f13SBarry Smith ierr = MPI_Comm_rank(B->comm,&b->rank);CHKERRQ(ierr); 15691eb62cbbSBarry Smith 1570273d9f13SBarry Smith ierr = PetscSplitOwnership(B->comm,&B->m,&B->M);CHKERRQ(ierr); 1571273d9f13SBarry Smith ierr = PetscSplitOwnership(B->comm,&B->n,&B->N);CHKERRQ(ierr); 15721eb62cbbSBarry Smith 1573c7fcc2eaSBarry Smith /* the information in the maps duplicates the information computed below, eventually 1574c7fcc2eaSBarry Smith we should remove the duplicate information that is not contained in the maps */ 1575273d9f13SBarry Smith ierr = MapCreateMPI(B->comm,B->m,B->M,&B->rmap);CHKERRQ(ierr); 1576273d9f13SBarry Smith ierr = MapCreateMPI(B->comm,B->n,B->N,&B->cmap);CHKERRQ(ierr); 1577c7fcc2eaSBarry Smith 15781eb62cbbSBarry Smith /* build local table of row and column ownerships */ 1579b0a32e0cSBarry Smith ierr = PetscMalloc(2*(b->size+2)*sizeof(int),&b->rowners);CHKERRQ(ierr); 1580b0a32e0cSBarry Smith PetscLogObjectMemory(B,2*(b->size+2)*sizeof(int)+sizeof(struct _p_Mat)+sizeof(Mat_MPIAIJ)); 1581603f58a4SSatish Balay b->cowners = b->rowners + b->size + 2; 1582273d9f13SBarry Smith ierr = MPI_Allgather(&B->m,1,MPI_INT,b->rowners+1,1,MPI_INT,B->comm);CHKERRQ(ierr); 158344cd7ae7SLois Curfman McInnes b->rowners[0] = 0; 158444cd7ae7SLois Curfman McInnes for (i=2; i<=b->size; i++) { 158544cd7ae7SLois Curfman McInnes b->rowners[i] += b->rowners[i-1]; 15868a729477SBarry Smith } 158744cd7ae7SLois Curfman McInnes b->rstart = b->rowners[b->rank]; 158844cd7ae7SLois Curfman McInnes b->rend = b->rowners[b->rank+1]; 1589273d9f13SBarry Smith ierr = MPI_Allgather(&B->n,1,MPI_INT,b->cowners+1,1,MPI_INT,B->comm);CHKERRQ(ierr); 159044cd7ae7SLois Curfman McInnes b->cowners[0] = 0; 159144cd7ae7SLois Curfman McInnes for (i=2; i<=b->size; i++) { 159244cd7ae7SLois Curfman McInnes b->cowners[i] += b->cowners[i-1]; 15938a729477SBarry Smith } 159444cd7ae7SLois Curfman McInnes b->cstart = b->cowners[b->rank]; 159544cd7ae7SLois Curfman McInnes b->cend = b->cowners[b->rank+1]; 15968a729477SBarry Smith 15971eb62cbbSBarry Smith /* build cache for off array entries formed */ 15987e2c5f70SBarry Smith ierr = MatStashCreate_Private(B->comm,1,&B->stash);CHKERRQ(ierr); 15997c922b88SBarry Smith b->donotstash = PETSC_FALSE; 160044cd7ae7SLois Curfman McInnes b->colmap = 0; 160144cd7ae7SLois Curfman McInnes b->garray = 0; 16027c922b88SBarry Smith b->roworiented = PETSC_TRUE; 16038a729477SBarry Smith 16041eb62cbbSBarry Smith /* stuff used for matrix vector multiply */ 16057c922b88SBarry Smith b->lvec = PETSC_NULL; 16067c922b88SBarry Smith b->Mvctx = PETSC_NULL; 16078a729477SBarry Smith 16087a0afa10SBarry Smith /* stuff for MatGetRow() */ 160944cd7ae7SLois Curfman McInnes b->rowindices = 0; 161044cd7ae7SLois Curfman McInnes b->rowvalues = 0; 161144cd7ae7SLois Curfman McInnes b->getrowactive = PETSC_FALSE; 16127a0afa10SBarry Smith 1613f1af5d2fSBarry Smith ierr = PetscObjectComposeFunctionDynamic((PetscObject)B,"MatStoreValues_C", 16142e8a6d31SBarry Smith "MatStoreValues_MPIAIJ", 16150c97f09dSSatish Balay MatStoreValues_MPIAIJ);CHKERRQ(ierr); 1616f1af5d2fSBarry Smith ierr = PetscObjectComposeFunctionDynamic((PetscObject)B,"MatRetrieveValues_C", 16172e8a6d31SBarry Smith "MatRetrieveValues_MPIAIJ", 16180c97f09dSSatish Balay MatRetrieveValues_MPIAIJ);CHKERRQ(ierr); 1619f1af5d2fSBarry Smith ierr = PetscObjectComposeFunctionDynamic((PetscObject)B,"MatGetDiagonalBlock_C", 16205ef9f2a5SBarry Smith "MatGetDiagonalBlock_MPIAIJ", 16210c97f09dSSatish Balay MatGetDiagonalBlock_MPIAIJ);CHKERRQ(ierr); 16223a40ed3dSBarry Smith PetscFunctionReturn(0); 1623d6dfbf8fSBarry Smith } 1624273d9f13SBarry Smith EXTERN_C_END 1625c74985f6SBarry Smith 16264a2ae208SSatish Balay #undef __FUNCT__ 16274a2ae208SSatish Balay #define __FUNCT__ "MatDuplicate_MPIAIJ" 16282e8a6d31SBarry Smith int MatDuplicate_MPIAIJ(Mat matin,MatDuplicateOption cpvalues,Mat *newmat) 1629d6dfbf8fSBarry Smith { 1630d6dfbf8fSBarry Smith Mat mat; 1631416022c9SBarry Smith Mat_MPIAIJ *a,*oldmat = (Mat_MPIAIJ*)matin->data; 163216d6aa21SSatish Balay int ierr; 1633d6dfbf8fSBarry Smith 16343a40ed3dSBarry Smith PetscFunctionBegin; 1635416022c9SBarry Smith *newmat = 0; 1636273d9f13SBarry Smith ierr = MatCreate(matin->comm,matin->m,matin->n,matin->M,matin->N,&mat);CHKERRQ(ierr); 1637273d9f13SBarry Smith ierr = MatSetType(mat,MATMPIAIJ);CHKERRQ(ierr); 1638273d9f13SBarry Smith a = (Mat_MPIAIJ*)mat->data; 1639549d3d68SSatish Balay ierr = PetscMemcpy(mat->ops,&MatOps_Values,sizeof(struct _MatOps));CHKERRQ(ierr); 1640d6dfbf8fSBarry Smith mat->factor = matin->factor; 1641c456f294SBarry Smith mat->assembled = PETSC_TRUE; 1642e7641de0SSatish Balay mat->insertmode = NOT_SET_VALUES; 1643273d9f13SBarry Smith mat->preallocated = PETSC_TRUE; 1644d6dfbf8fSBarry Smith 1645416022c9SBarry Smith a->rstart = oldmat->rstart; 1646416022c9SBarry Smith a->rend = oldmat->rend; 1647416022c9SBarry Smith a->cstart = oldmat->cstart; 1648416022c9SBarry Smith a->cend = oldmat->cend; 164917699dbbSLois Curfman McInnes a->size = oldmat->size; 165017699dbbSLois Curfman McInnes a->rank = oldmat->rank; 1651e7641de0SSatish Balay a->donotstash = oldmat->donotstash; 1652e7641de0SSatish Balay a->roworiented = oldmat->roworiented; 1653e7641de0SSatish Balay a->rowindices = 0; 1654bcd2baecSBarry Smith a->rowvalues = 0; 1655bcd2baecSBarry Smith a->getrowactive = PETSC_FALSE; 1656d6dfbf8fSBarry Smith 1657549d3d68SSatish Balay ierr = PetscMemcpy(a->rowners,oldmat->rowners,2*(a->size+2)*sizeof(int));CHKERRQ(ierr); 16588798bf22SSatish Balay ierr = MatStashCreate_Private(matin->comm,1,&mat->stash);CHKERRQ(ierr); 16592ee70a88SLois Curfman McInnes if (oldmat->colmap) { 1660aa482453SBarry Smith #if defined (PETSC_USE_CTABLE) 16610f5bd95cSBarry Smith ierr = PetscTableCreateCopy(oldmat->colmap,&a->colmap);CHKERRQ(ierr); 1662b1fc9764SSatish Balay #else 1663b0a32e0cSBarry Smith ierr = PetscMalloc((mat->N)*sizeof(int),&a->colmap);CHKERRQ(ierr); 1664b0a32e0cSBarry Smith PetscLogObjectMemory(mat,(mat->N)*sizeof(int)); 1665273d9f13SBarry Smith ierr = PetscMemcpy(a->colmap,oldmat->colmap,(mat->N)*sizeof(int));CHKERRQ(ierr); 1666b1fc9764SSatish Balay #endif 1667416022c9SBarry Smith } else a->colmap = 0; 16683f41c07dSBarry Smith if (oldmat->garray) { 166916d6aa21SSatish Balay int len; 1670273d9f13SBarry Smith len = oldmat->B->n; 1671b0a32e0cSBarry Smith ierr = PetscMalloc((len+1)*sizeof(int),&a->garray);CHKERRQ(ierr); 1672b0a32e0cSBarry Smith PetscLogObjectMemory(mat,len*sizeof(int)); 1673549d3d68SSatish Balay if (len) { ierr = PetscMemcpy(a->garray,oldmat->garray,len*sizeof(int));CHKERRQ(ierr); } 1674416022c9SBarry Smith } else a->garray = 0; 1675d6dfbf8fSBarry Smith 1676416022c9SBarry Smith ierr = VecDuplicate(oldmat->lvec,&a->lvec);CHKERRQ(ierr); 1677b0a32e0cSBarry Smith PetscLogObjectParent(mat,a->lvec); 1678a56f8943SBarry Smith ierr = VecScatterCopy(oldmat->Mvctx,&a->Mvctx);CHKERRQ(ierr); 1679b0a32e0cSBarry Smith PetscLogObjectParent(mat,a->Mvctx); 16802e8a6d31SBarry Smith ierr = MatDuplicate(oldmat->A,cpvalues,&a->A);CHKERRQ(ierr); 1681b0a32e0cSBarry Smith PetscLogObjectParent(mat,a->A); 16822e8a6d31SBarry Smith ierr = MatDuplicate(oldmat->B,cpvalues,&a->B);CHKERRQ(ierr); 1683b0a32e0cSBarry Smith PetscLogObjectParent(mat,a->B); 1684b0a32e0cSBarry Smith ierr = PetscFListDuplicate(matin->qlist,&mat->qlist);CHKERRQ(ierr); 16858a729477SBarry Smith *newmat = mat; 16863a40ed3dSBarry Smith PetscFunctionReturn(0); 16878a729477SBarry Smith } 1688416022c9SBarry Smith 1689e090d566SSatish Balay #include "petscsys.h" 1690416022c9SBarry Smith 1691273d9f13SBarry Smith EXTERN_C_BEGIN 16924a2ae208SSatish Balay #undef __FUNCT__ 16934a2ae208SSatish Balay #define __FUNCT__ "MatLoad_MPIAIJ" 1694b0a32e0cSBarry Smith int MatLoad_MPIAIJ(PetscViewer viewer,MatType type,Mat *newmat) 1695416022c9SBarry Smith { 1696d65a2f8fSBarry Smith Mat A; 1697d65a2f8fSBarry Smith Scalar *vals,*svals; 169819bcc07fSBarry Smith MPI_Comm comm = ((PetscObject)viewer)->comm; 1699416022c9SBarry Smith MPI_Status status; 17003a40ed3dSBarry Smith int i,nz,ierr,j,rstart,rend,fd; 170117699dbbSLois Curfman McInnes int header[4],rank,size,*rowlengths = 0,M,N,m,*rowners,maxnz,*cols; 1702d65a2f8fSBarry Smith int *ourlens,*sndcounts = 0,*procsnz = 0,*offlens,jj,*mycols,*smycols; 1703b362ba68SBarry Smith int tag = ((PetscObject)viewer)->tag,cend,cstart,n; 1704416022c9SBarry Smith 17053a40ed3dSBarry Smith PetscFunctionBegin; 17061dab6e02SBarry Smith ierr = MPI_Comm_size(comm,&size);CHKERRQ(ierr); 17071dab6e02SBarry Smith ierr = MPI_Comm_rank(comm,&rank);CHKERRQ(ierr); 170817699dbbSLois Curfman McInnes if (!rank) { 1709b0a32e0cSBarry Smith ierr = PetscViewerBinaryGetDescriptor(viewer,&fd);CHKERRQ(ierr); 17100752156aSBarry Smith ierr = PetscBinaryRead(fd,(char *)header,4,PETSC_INT);CHKERRQ(ierr); 171129bbc08cSBarry Smith if (header[0] != MAT_COOKIE) SETERRQ(PETSC_ERR_FILE_UNEXPECTED,"not matrix object"); 1712d64ed03dSBarry Smith if (header[3] < 0) { 171329bbc08cSBarry Smith SETERRQ(PETSC_ERR_FILE_UNEXPECTED,"Matrix in special format on disk, cannot load as MPIAIJ"); 1714d64ed03dSBarry Smith } 17156c5fab8fSBarry Smith } 17166c5fab8fSBarry Smith 1717ca161407SBarry Smith ierr = MPI_Bcast(header+1,3,MPI_INT,0,comm);CHKERRQ(ierr); 1718416022c9SBarry Smith M = header[1]; N = header[2]; 1719416022c9SBarry Smith /* determine ownership of all rows */ 172017699dbbSLois Curfman McInnes m = M/size + ((M % size) > rank); 1721b0a32e0cSBarry Smith ierr = PetscMalloc((size+2)*sizeof(int),&rowners);CHKERRQ(ierr); 1722ca161407SBarry Smith ierr = MPI_Allgather(&m,1,MPI_INT,rowners+1,1,MPI_INT,comm);CHKERRQ(ierr); 1723416022c9SBarry Smith rowners[0] = 0; 172417699dbbSLois Curfman McInnes for (i=2; i<=size; i++) { 1725416022c9SBarry Smith rowners[i] += rowners[i-1]; 1726416022c9SBarry Smith } 172717699dbbSLois Curfman McInnes rstart = rowners[rank]; 172817699dbbSLois Curfman McInnes rend = rowners[rank+1]; 1729416022c9SBarry Smith 1730416022c9SBarry Smith /* distribute row lengths to all processors */ 1731b0a32e0cSBarry Smith ierr = PetscMalloc(2*(rend-rstart+1)*sizeof(int),&ourlens);CHKERRQ(ierr); 1732416022c9SBarry Smith offlens = ourlens + (rend-rstart); 173317699dbbSLois Curfman McInnes if (!rank) { 1734b0a32e0cSBarry Smith ierr = PetscMalloc(M*sizeof(int),&rowlengths);CHKERRQ(ierr); 17350752156aSBarry Smith ierr = PetscBinaryRead(fd,rowlengths,M,PETSC_INT);CHKERRQ(ierr); 1736b0a32e0cSBarry Smith ierr = PetscMalloc(size*sizeof(int),&sndcounts);CHKERRQ(ierr); 173717699dbbSLois Curfman McInnes for (i=0; i<size; i++) sndcounts[i] = rowners[i+1] - rowners[i]; 1738ca161407SBarry Smith ierr = MPI_Scatterv(rowlengths,sndcounts,rowners,MPI_INT,ourlens,rend-rstart,MPI_INT,0,comm);CHKERRQ(ierr); 1739606d414cSSatish Balay ierr = PetscFree(sndcounts);CHKERRQ(ierr); 17403a40ed3dSBarry Smith } else { 1741ca161407SBarry Smith ierr = MPI_Scatterv(0,0,0,MPI_INT,ourlens,rend-rstart,MPI_INT,0,comm);CHKERRQ(ierr); 1742416022c9SBarry Smith } 1743416022c9SBarry Smith 174417699dbbSLois Curfman McInnes if (!rank) { 1745416022c9SBarry Smith /* calculate the number of nonzeros on each processor */ 1746b0a32e0cSBarry Smith ierr = PetscMalloc(size*sizeof(int),&procsnz);CHKERRQ(ierr); 1747549d3d68SSatish Balay ierr = PetscMemzero(procsnz,size*sizeof(int));CHKERRQ(ierr); 174817699dbbSLois Curfman McInnes for (i=0; i<size; i++) { 1749416022c9SBarry Smith for (j=rowners[i]; j< rowners[i+1]; j++) { 1750416022c9SBarry Smith procsnz[i] += rowlengths[j]; 1751416022c9SBarry Smith } 1752416022c9SBarry Smith } 1753606d414cSSatish Balay ierr = PetscFree(rowlengths);CHKERRQ(ierr); 1754416022c9SBarry Smith 1755416022c9SBarry Smith /* determine max buffer needed and allocate it */ 1756416022c9SBarry Smith maxnz = 0; 175717699dbbSLois Curfman McInnes for (i=0; i<size; i++) { 17580452661fSBarry Smith maxnz = PetscMax(maxnz,procsnz[i]); 1759416022c9SBarry Smith } 1760b0a32e0cSBarry Smith ierr = PetscMalloc(maxnz*sizeof(int),&cols);CHKERRQ(ierr); 1761416022c9SBarry Smith 1762416022c9SBarry Smith /* read in my part of the matrix column indices */ 1763416022c9SBarry Smith nz = procsnz[0]; 1764b0a32e0cSBarry Smith ierr = PetscMalloc(nz*sizeof(int),&mycols);CHKERRQ(ierr); 17650752156aSBarry Smith ierr = PetscBinaryRead(fd,mycols,nz,PETSC_INT);CHKERRQ(ierr); 1766d65a2f8fSBarry Smith 1767d65a2f8fSBarry Smith /* read in every one elses and ship off */ 176817699dbbSLois Curfman McInnes for (i=1; i<size; i++) { 1769d65a2f8fSBarry Smith nz = procsnz[i]; 17700752156aSBarry Smith ierr = PetscBinaryRead(fd,cols,nz,PETSC_INT);CHKERRQ(ierr); 1771ca161407SBarry Smith ierr = MPI_Send(cols,nz,MPI_INT,i,tag,comm);CHKERRQ(ierr); 1772d65a2f8fSBarry Smith } 1773606d414cSSatish Balay ierr = PetscFree(cols);CHKERRQ(ierr); 17743a40ed3dSBarry Smith } else { 1775416022c9SBarry Smith /* determine buffer space needed for message */ 1776416022c9SBarry Smith nz = 0; 1777416022c9SBarry Smith for (i=0; i<m; i++) { 1778416022c9SBarry Smith nz += ourlens[i]; 1779416022c9SBarry Smith } 1780b0a32e0cSBarry Smith ierr = PetscMalloc((nz+1)*sizeof(int),&mycols);CHKERRQ(ierr); 1781416022c9SBarry Smith 1782416022c9SBarry Smith /* receive message of column indices*/ 1783ca161407SBarry Smith ierr = MPI_Recv(mycols,nz,MPI_INT,0,tag,comm,&status);CHKERRQ(ierr); 1784ca161407SBarry Smith ierr = MPI_Get_count(&status,MPI_INT,&maxnz);CHKERRQ(ierr); 178529bbc08cSBarry Smith if (maxnz != nz) SETERRQ(PETSC_ERR_FILE_UNEXPECTED,"something is wrong with file"); 1786416022c9SBarry Smith } 1787416022c9SBarry Smith 1788b362ba68SBarry Smith /* determine column ownership if matrix is not square */ 1789b362ba68SBarry Smith if (N != M) { 1790b362ba68SBarry Smith n = N/size + ((N % size) > rank); 1791b362ba68SBarry Smith ierr = MPI_Scan(&n,&cend,1,MPI_INT,MPI_SUM,comm);CHKERRQ(ierr); 1792b362ba68SBarry Smith cstart = cend - n; 1793b362ba68SBarry Smith } else { 1794b362ba68SBarry Smith cstart = rstart; 1795b362ba68SBarry Smith cend = rend; 1796fb2e594dSBarry Smith n = cend - cstart; 1797b362ba68SBarry Smith } 1798b362ba68SBarry Smith 1799416022c9SBarry Smith /* loop over local rows, determining number of off diagonal entries */ 1800549d3d68SSatish Balay ierr = PetscMemzero(offlens,m*sizeof(int));CHKERRQ(ierr); 1801416022c9SBarry Smith jj = 0; 1802416022c9SBarry Smith for (i=0; i<m; i++) { 1803416022c9SBarry Smith for (j=0; j<ourlens[i]; j++) { 1804b362ba68SBarry Smith if (mycols[jj] < cstart || mycols[jj] >= cend) offlens[i]++; 1805416022c9SBarry Smith jj++; 1806416022c9SBarry Smith } 1807416022c9SBarry Smith } 1808d65a2f8fSBarry Smith 1809d65a2f8fSBarry Smith /* create our matrix */ 1810416022c9SBarry Smith for (i=0; i<m; i++) { 1811416022c9SBarry Smith ourlens[i] -= offlens[i]; 1812416022c9SBarry Smith } 1813b362ba68SBarry Smith ierr = MatCreateMPIAIJ(comm,m,n,M,N,0,ourlens,0,offlens,newmat);CHKERRQ(ierr); 1814d65a2f8fSBarry Smith A = *newmat; 1815fb2e594dSBarry Smith ierr = MatSetOption(A,MAT_COLUMNS_SORTED);CHKERRQ(ierr); 1816d65a2f8fSBarry Smith for (i=0; i<m; i++) { 1817d65a2f8fSBarry Smith ourlens[i] += offlens[i]; 1818d65a2f8fSBarry Smith } 1819416022c9SBarry Smith 182017699dbbSLois Curfman McInnes if (!rank) { 1821b0a32e0cSBarry Smith ierr = PetscMalloc(maxnz*sizeof(Scalar),&vals);CHKERRQ(ierr); 1822416022c9SBarry Smith 1823416022c9SBarry Smith /* read in my part of the matrix numerical values */ 1824416022c9SBarry Smith nz = procsnz[0]; 18250752156aSBarry Smith ierr = PetscBinaryRead(fd,vals,nz,PETSC_SCALAR);CHKERRQ(ierr); 1826d65a2f8fSBarry Smith 1827d65a2f8fSBarry Smith /* insert into matrix */ 1828d65a2f8fSBarry Smith jj = rstart; 1829d65a2f8fSBarry Smith smycols = mycols; 1830d65a2f8fSBarry Smith svals = vals; 1831d65a2f8fSBarry Smith for (i=0; i<m; i++) { 1832d65a2f8fSBarry Smith ierr = MatSetValues(A,1,&jj,ourlens[i],smycols,svals,INSERT_VALUES);CHKERRQ(ierr); 1833d65a2f8fSBarry Smith smycols += ourlens[i]; 1834d65a2f8fSBarry Smith svals += ourlens[i]; 1835d65a2f8fSBarry Smith jj++; 1836416022c9SBarry Smith } 1837416022c9SBarry Smith 1838d65a2f8fSBarry Smith /* read in other processors and ship out */ 183917699dbbSLois Curfman McInnes for (i=1; i<size; i++) { 1840416022c9SBarry Smith nz = procsnz[i]; 18410752156aSBarry Smith ierr = PetscBinaryRead(fd,vals,nz,PETSC_SCALAR);CHKERRQ(ierr); 1842ca161407SBarry Smith ierr = MPI_Send(vals,nz,MPIU_SCALAR,i,A->tag,comm);CHKERRQ(ierr); 1843416022c9SBarry Smith } 1844606d414cSSatish Balay ierr = PetscFree(procsnz);CHKERRQ(ierr); 18453a40ed3dSBarry Smith } else { 1846d65a2f8fSBarry Smith /* receive numeric values */ 1847b0a32e0cSBarry Smith ierr = PetscMalloc((nz+1)*sizeof(Scalar),&vals);CHKERRQ(ierr); 1848416022c9SBarry Smith 1849d65a2f8fSBarry Smith /* receive message of values*/ 1850ca161407SBarry Smith ierr = MPI_Recv(vals,nz,MPIU_SCALAR,0,A->tag,comm,&status);CHKERRQ(ierr); 1851ca161407SBarry Smith ierr = MPI_Get_count(&status,MPIU_SCALAR,&maxnz);CHKERRQ(ierr); 185229bbc08cSBarry Smith if (maxnz != nz) SETERRQ(PETSC_ERR_FILE_UNEXPECTED,"something is wrong with file"); 1853d65a2f8fSBarry Smith 1854d65a2f8fSBarry Smith /* insert into matrix */ 1855d65a2f8fSBarry Smith jj = rstart; 1856d65a2f8fSBarry Smith smycols = mycols; 1857d65a2f8fSBarry Smith svals = vals; 1858d65a2f8fSBarry Smith for (i=0; i<m; i++) { 1859d65a2f8fSBarry Smith ierr = MatSetValues(A,1,&jj,ourlens[i],smycols,svals,INSERT_VALUES);CHKERRQ(ierr); 1860d65a2f8fSBarry Smith smycols += ourlens[i]; 1861d65a2f8fSBarry Smith svals += ourlens[i]; 1862d65a2f8fSBarry Smith jj++; 1863d65a2f8fSBarry Smith } 1864d65a2f8fSBarry Smith } 1865606d414cSSatish Balay ierr = PetscFree(ourlens);CHKERRQ(ierr); 1866606d414cSSatish Balay ierr = PetscFree(vals);CHKERRQ(ierr); 1867606d414cSSatish Balay ierr = PetscFree(mycols);CHKERRQ(ierr); 1868606d414cSSatish Balay ierr = PetscFree(rowners);CHKERRQ(ierr); 1869d65a2f8fSBarry Smith 18706d4a8577SBarry Smith ierr = MatAssemblyBegin(A,MAT_FINAL_ASSEMBLY);CHKERRQ(ierr); 18716d4a8577SBarry Smith ierr = MatAssemblyEnd(A,MAT_FINAL_ASSEMBLY);CHKERRQ(ierr); 18723a40ed3dSBarry Smith PetscFunctionReturn(0); 1873416022c9SBarry Smith } 1874273d9f13SBarry Smith EXTERN_C_END 1875a0ff6018SBarry Smith 18764a2ae208SSatish Balay #undef __FUNCT__ 18774a2ae208SSatish Balay #define __FUNCT__ "MatGetSubMatrix_MPIAIJ" 1878a0ff6018SBarry Smith /* 187929da9460SBarry Smith Not great since it makes two copies of the submatrix, first an SeqAIJ 188029da9460SBarry Smith in local and then by concatenating the local matrices the end result. 188129da9460SBarry Smith Writing it directly would be much like MatGetSubMatrices_MPIAIJ() 1882a0ff6018SBarry Smith */ 18837b2a1423SBarry Smith int MatGetSubMatrix_MPIAIJ(Mat mat,IS isrow,IS iscol,int csize,MatReuse call,Mat *newmat) 1884a0ff6018SBarry Smith { 188500e6dbe6SBarry Smith int ierr,i,m,n,rstart,row,rend,nz,*cwork,size,rank,j; 18867e2c5f70SBarry Smith int *ii,*jj,nlocal,*dlens,*olens,dlen,olen,jend; 1887fee21e36SBarry Smith Mat *local,M,Mreuse; 188800e6dbe6SBarry Smith Scalar *vwork,*aa; 188900e6dbe6SBarry Smith MPI_Comm comm = mat->comm; 189000e6dbe6SBarry Smith Mat_SeqAIJ *aij; 18917e2c5f70SBarry Smith 1892a0ff6018SBarry Smith 1893a0ff6018SBarry Smith PetscFunctionBegin; 18941dab6e02SBarry Smith ierr = MPI_Comm_rank(comm,&rank);CHKERRQ(ierr); 18951dab6e02SBarry Smith ierr = MPI_Comm_size(comm,&size);CHKERRQ(ierr); 189600e6dbe6SBarry Smith 1897fee21e36SBarry Smith if (call == MAT_REUSE_MATRIX) { 1898fee21e36SBarry Smith ierr = PetscObjectQuery((PetscObject)*newmat,"SubMatrix",(PetscObject *)&Mreuse);CHKERRQ(ierr); 189929bbc08cSBarry Smith if (!Mreuse) SETERRQ(1,"Submatrix passed in was not used before, cannot reuse"); 1900fee21e36SBarry Smith local = &Mreuse; 1901fee21e36SBarry Smith ierr = MatGetSubMatrices(mat,1,&isrow,&iscol,MAT_REUSE_MATRIX,&local);CHKERRQ(ierr); 1902fee21e36SBarry Smith } else { 1903a0ff6018SBarry Smith ierr = MatGetSubMatrices(mat,1,&isrow,&iscol,MAT_INITIAL_MATRIX,&local);CHKERRQ(ierr); 1904fee21e36SBarry Smith Mreuse = *local; 1905606d414cSSatish Balay ierr = PetscFree(local);CHKERRQ(ierr); 1906fee21e36SBarry Smith } 1907a0ff6018SBarry Smith 1908a0ff6018SBarry Smith /* 1909a0ff6018SBarry Smith m - number of local rows 1910a0ff6018SBarry Smith n - number of columns (same on all processors) 1911a0ff6018SBarry Smith rstart - first row in new global matrix generated 1912a0ff6018SBarry Smith */ 1913fee21e36SBarry Smith ierr = MatGetSize(Mreuse,&m,&n);CHKERRQ(ierr); 1914a0ff6018SBarry Smith if (call == MAT_INITIAL_MATRIX) { 1915fee21e36SBarry Smith aij = (Mat_SeqAIJ*)(Mreuse)->data; 191629bbc08cSBarry Smith if (aij->indexshift) SETERRQ(PETSC_ERR_SUP,"No support for index shifted matrix"); 191700e6dbe6SBarry Smith ii = aij->i; 191800e6dbe6SBarry Smith jj = aij->j; 191900e6dbe6SBarry Smith 1920a0ff6018SBarry Smith /* 192100e6dbe6SBarry Smith Determine the number of non-zeros in the diagonal and off-diagonal 192200e6dbe6SBarry Smith portions of the matrix in order to do correct preallocation 1923a0ff6018SBarry Smith */ 192400e6dbe6SBarry Smith 192500e6dbe6SBarry Smith /* first get start and end of "diagonal" columns */ 19266a6a5d1dSBarry Smith if (csize == PETSC_DECIDE) { 192700e6dbe6SBarry Smith nlocal = n/size + ((n % size) > rank); 19286a6a5d1dSBarry Smith } else { 19296a6a5d1dSBarry Smith nlocal = csize; 19306a6a5d1dSBarry Smith } 1931ca161407SBarry Smith ierr = MPI_Scan(&nlocal,&rend,1,MPI_INT,MPI_SUM,comm);CHKERRQ(ierr); 193200e6dbe6SBarry Smith rstart = rend - nlocal; 19336a6a5d1dSBarry Smith if (rank == size - 1 && rend != n) { 193429bbc08cSBarry Smith SETERRQ(1,"Local column sizes do not add up to total number of columns"); 19356a6a5d1dSBarry Smith } 193600e6dbe6SBarry Smith 193700e6dbe6SBarry Smith /* next, compute all the lengths */ 1938b0a32e0cSBarry Smith ierr = PetscMalloc((2*m+1)*sizeof(int),&dlens);CHKERRQ(ierr); 193900e6dbe6SBarry Smith olens = dlens + m; 194000e6dbe6SBarry Smith for (i=0; i<m; i++) { 194100e6dbe6SBarry Smith jend = ii[i+1] - ii[i]; 194200e6dbe6SBarry Smith olen = 0; 194300e6dbe6SBarry Smith dlen = 0; 194400e6dbe6SBarry Smith for (j=0; j<jend; j++) { 194500e6dbe6SBarry Smith if (*jj < rstart || *jj >= rend) olen++; 194600e6dbe6SBarry Smith else dlen++; 194700e6dbe6SBarry Smith jj++; 194800e6dbe6SBarry Smith } 194900e6dbe6SBarry Smith olens[i] = olen; 195000e6dbe6SBarry Smith dlens[i] = dlen; 195100e6dbe6SBarry Smith } 19522d207970SBarry Smith ierr = MatCreateMPIAIJ(comm,m,nlocal,PETSC_DECIDE,n,0,dlens,0,olens,&M);CHKERRQ(ierr); 1953606d414cSSatish Balay ierr = PetscFree(dlens);CHKERRQ(ierr); 1954a0ff6018SBarry Smith } else { 1955a0ff6018SBarry Smith int ml,nl; 1956a0ff6018SBarry Smith 1957a0ff6018SBarry Smith M = *newmat; 1958a0ff6018SBarry Smith ierr = MatGetLocalSize(M,&ml,&nl);CHKERRQ(ierr); 195929bbc08cSBarry Smith if (ml != m) SETERRQ(PETSC_ERR_ARG_SIZ,"Previous matrix must be same size/layout as request"); 1960a0ff6018SBarry Smith ierr = MatZeroEntries(M);CHKERRQ(ierr); 1961c48de900SBarry Smith /* 1962c48de900SBarry Smith The next two lines are needed so we may call MatSetValues_MPIAIJ() below directly, 1963c48de900SBarry Smith rather than the slower MatSetValues(). 1964c48de900SBarry Smith */ 1965c48de900SBarry Smith M->was_assembled = PETSC_TRUE; 1966c48de900SBarry Smith M->assembled = PETSC_FALSE; 1967a0ff6018SBarry Smith } 1968a0ff6018SBarry Smith ierr = MatGetOwnershipRange(M,&rstart,&rend);CHKERRQ(ierr); 1969fee21e36SBarry Smith aij = (Mat_SeqAIJ*)(Mreuse)->data; 197029bbc08cSBarry Smith if (aij->indexshift) SETERRQ(PETSC_ERR_SUP,"No support for index shifted matrix"); 197100e6dbe6SBarry Smith ii = aij->i; 197200e6dbe6SBarry Smith jj = aij->j; 197300e6dbe6SBarry Smith aa = aij->a; 1974a0ff6018SBarry Smith for (i=0; i<m; i++) { 1975a0ff6018SBarry Smith row = rstart + i; 197600e6dbe6SBarry Smith nz = ii[i+1] - ii[i]; 197700e6dbe6SBarry Smith cwork = jj; jj += nz; 197800e6dbe6SBarry Smith vwork = aa; aa += nz; 19798c638d02SBarry Smith ierr = MatSetValues_MPIAIJ(M,1,&row,nz,cwork,vwork,INSERT_VALUES);CHKERRQ(ierr); 1980a0ff6018SBarry Smith } 1981a0ff6018SBarry Smith 1982a0ff6018SBarry Smith ierr = MatAssemblyBegin(M,MAT_FINAL_ASSEMBLY);CHKERRQ(ierr); 1983a0ff6018SBarry Smith ierr = MatAssemblyEnd(M,MAT_FINAL_ASSEMBLY);CHKERRQ(ierr); 1984a0ff6018SBarry Smith *newmat = M; 1985fee21e36SBarry Smith 1986fee21e36SBarry Smith /* save submatrix used in processor for next request */ 1987fee21e36SBarry Smith if (call == MAT_INITIAL_MATRIX) { 1988fee21e36SBarry Smith ierr = PetscObjectCompose((PetscObject)M,"SubMatrix",(PetscObject)Mreuse);CHKERRQ(ierr); 1989fee21e36SBarry Smith ierr = PetscObjectDereference((PetscObject)Mreuse);CHKERRQ(ierr); 1990fee21e36SBarry Smith } 1991fee21e36SBarry Smith 1992a0ff6018SBarry Smith PetscFunctionReturn(0); 1993a0ff6018SBarry Smith } 1994273d9f13SBarry Smith 19954a2ae208SSatish Balay #undef __FUNCT__ 19964a2ae208SSatish Balay #define __FUNCT__ "MatMPIAIJSetPreallocation" 1997273d9f13SBarry Smith /*@C 1998273d9f13SBarry Smith MatMPIAIJSetPreallocation - Creates a sparse parallel matrix in AIJ format 1999273d9f13SBarry Smith (the default parallel PETSc format). For good matrix assembly performance 2000273d9f13SBarry Smith the user should preallocate the matrix storage by setting the parameters 2001273d9f13SBarry Smith d_nz (or d_nnz) and o_nz (or o_nnz). By setting these parameters accurately, 2002273d9f13SBarry Smith performance can be increased by more than a factor of 50. 2003273d9f13SBarry Smith 2004273d9f13SBarry Smith Collective on MPI_Comm 2005273d9f13SBarry Smith 2006273d9f13SBarry Smith Input Parameters: 2007273d9f13SBarry Smith + A - the matrix 2008273d9f13SBarry Smith . d_nz - number of nonzeros per row in DIAGONAL portion of local submatrix 2009273d9f13SBarry Smith (same value is used for all local rows) 2010273d9f13SBarry Smith . d_nnz - array containing the number of nonzeros in the various rows of the 2011273d9f13SBarry Smith DIAGONAL portion of the local submatrix (possibly different for each row) 2012273d9f13SBarry Smith or PETSC_NULL, if d_nz is used to specify the nonzero structure. 2013273d9f13SBarry Smith The size of this array is equal to the number of local rows, i.e 'm'. 2014273d9f13SBarry Smith You must leave room for the diagonal entry even if it is zero. 2015273d9f13SBarry Smith . o_nz - number of nonzeros per row in the OFF-DIAGONAL portion of local 2016273d9f13SBarry Smith submatrix (same value is used for all local rows). 2017273d9f13SBarry Smith - o_nnz - array containing the number of nonzeros in the various rows of the 2018273d9f13SBarry Smith OFF-DIAGONAL portion of the local submatrix (possibly different for 2019273d9f13SBarry Smith each row) or PETSC_NULL, if o_nz is used to specify the nonzero 2020273d9f13SBarry Smith structure. The size of this array is equal to the number 2021273d9f13SBarry Smith of local rows, i.e 'm'. 2022273d9f13SBarry Smith 2023273d9f13SBarry Smith The AIJ format (also called the Yale sparse matrix format or 2024273d9f13SBarry Smith compressed row storage), is fully compatible with standard Fortran 77 2025273d9f13SBarry Smith storage. That is, the stored row and column indices can begin at 2026273d9f13SBarry Smith either one (as in Fortran) or zero. See the users manual for details. 2027273d9f13SBarry Smith 2028273d9f13SBarry Smith The user MUST specify either the local or global matrix dimensions 2029273d9f13SBarry Smith (possibly both). 2030273d9f13SBarry Smith 2031273d9f13SBarry Smith The parallel matrix is partitioned such that the first m0 rows belong to 2032273d9f13SBarry Smith process 0, the next m1 rows belong to process 1, the next m2 rows belong 2033273d9f13SBarry Smith to process 2 etc.. where m0,m1,m2... are the input parameter 'm'. 2034273d9f13SBarry Smith 2035273d9f13SBarry Smith The DIAGONAL portion of the local submatrix of a processor can be defined 2036273d9f13SBarry Smith as the submatrix which is obtained by extraction the part corresponding 2037273d9f13SBarry Smith to the rows r1-r2 and columns r1-r2 of the global matrix, where r1 is the 2038273d9f13SBarry Smith first row that belongs to the processor, and r2 is the last row belonging 2039273d9f13SBarry Smith to the this processor. This is a square mxm matrix. The remaining portion 2040273d9f13SBarry Smith of the local submatrix (mxN) constitute the OFF-DIAGONAL portion. 2041273d9f13SBarry Smith 2042273d9f13SBarry Smith If o_nnz, d_nnz are specified, then o_nz, and d_nz are ignored. 2043273d9f13SBarry Smith 2044273d9f13SBarry Smith By default, this format uses inodes (identical nodes) when possible. 2045273d9f13SBarry Smith We search for consecutive rows with the same nonzero structure, thereby 2046273d9f13SBarry Smith reusing matrix information to achieve increased efficiency. 2047273d9f13SBarry Smith 2048273d9f13SBarry Smith Options Database Keys: 2049273d9f13SBarry Smith + -mat_aij_no_inode - Do not use inodes 2050273d9f13SBarry Smith . -mat_aij_inode_limit <limit> - Sets inode limit (max limit=5) 2051273d9f13SBarry Smith - -mat_aij_oneindex - Internally use indexing starting at 1 2052273d9f13SBarry Smith rather than 0. Note that when calling MatSetValues(), 2053273d9f13SBarry Smith the user still MUST index entries starting at 0! 2054273d9f13SBarry Smith 2055273d9f13SBarry Smith Example usage: 2056273d9f13SBarry Smith 2057273d9f13SBarry Smith Consider the following 8x8 matrix with 34 non-zero values, that is 2058273d9f13SBarry Smith assembled across 3 processors. Lets assume that proc0 owns 3 rows, 2059273d9f13SBarry Smith proc1 owns 3 rows, proc2 owns 2 rows. This division can be shown 2060273d9f13SBarry Smith as follows: 2061273d9f13SBarry Smith 2062273d9f13SBarry Smith .vb 2063273d9f13SBarry Smith 1 2 0 | 0 3 0 | 0 4 2064273d9f13SBarry Smith Proc0 0 5 6 | 7 0 0 | 8 0 2065273d9f13SBarry Smith 9 0 10 | 11 0 0 | 12 0 2066273d9f13SBarry Smith ------------------------------------- 2067273d9f13SBarry Smith 13 0 14 | 15 16 17 | 0 0 2068273d9f13SBarry Smith Proc1 0 18 0 | 19 20 21 | 0 0 2069273d9f13SBarry Smith 0 0 0 | 22 23 0 | 24 0 2070273d9f13SBarry Smith ------------------------------------- 2071273d9f13SBarry Smith Proc2 25 26 27 | 0 0 28 | 29 0 2072273d9f13SBarry Smith 30 0 0 | 31 32 33 | 0 34 2073273d9f13SBarry Smith .ve 2074273d9f13SBarry Smith 2075273d9f13SBarry Smith This can be represented as a collection of submatrices as: 2076273d9f13SBarry Smith 2077273d9f13SBarry Smith .vb 2078273d9f13SBarry Smith A B C 2079273d9f13SBarry Smith D E F 2080273d9f13SBarry Smith G H I 2081273d9f13SBarry Smith .ve 2082273d9f13SBarry Smith 2083273d9f13SBarry Smith Where the submatrices A,B,C are owned by proc0, D,E,F are 2084273d9f13SBarry Smith owned by proc1, G,H,I are owned by proc2. 2085273d9f13SBarry Smith 2086273d9f13SBarry Smith The 'm' parameters for proc0,proc1,proc2 are 3,3,2 respectively. 2087273d9f13SBarry Smith The 'n' parameters for proc0,proc1,proc2 are 3,3,2 respectively. 2088273d9f13SBarry Smith The 'M','N' parameters are 8,8, and have the same values on all procs. 2089273d9f13SBarry Smith 2090273d9f13SBarry Smith The DIAGONAL submatrices corresponding to proc0,proc1,proc2 are 2091273d9f13SBarry Smith submatrices [A], [E], [I] respectively. The OFF-DIAGONAL submatrices 2092273d9f13SBarry Smith corresponding to proc0,proc1,proc2 are [BC], [DF], [GH] respectively. 2093273d9f13SBarry Smith Internally, each processor stores the DIAGONAL part, and the OFF-DIAGONAL 2094273d9f13SBarry Smith part as SeqAIJ matrices. for eg: proc1 will store [E] as a SeqAIJ 2095273d9f13SBarry Smith matrix, ans [DF] as another SeqAIJ matrix. 2096273d9f13SBarry Smith 2097273d9f13SBarry Smith When d_nz, o_nz parameters are specified, d_nz storage elements are 2098273d9f13SBarry Smith allocated for every row of the local diagonal submatrix, and o_nz 2099273d9f13SBarry Smith storage locations are allocated for every row of the OFF-DIAGONAL submat. 2100273d9f13SBarry Smith One way to choose d_nz and o_nz is to use the max nonzerors per local 2101273d9f13SBarry Smith rows for each of the local DIAGONAL, and the OFF-DIAGONAL submatrices. 2102273d9f13SBarry Smith In this case, the values of d_nz,o_nz are: 2103273d9f13SBarry Smith .vb 2104273d9f13SBarry Smith proc0 : dnz = 2, o_nz = 2 2105273d9f13SBarry Smith proc1 : dnz = 3, o_nz = 2 2106273d9f13SBarry Smith proc2 : dnz = 1, o_nz = 4 2107273d9f13SBarry Smith .ve 2108273d9f13SBarry Smith We are allocating m*(d_nz+o_nz) storage locations for every proc. This 2109273d9f13SBarry Smith translates to 3*(2+2)=12 for proc0, 3*(3+2)=15 for proc1, 2*(1+4)=10 2110273d9f13SBarry Smith for proc3. i.e we are using 12+15+10=37 storage locations to store 2111273d9f13SBarry Smith 34 values. 2112273d9f13SBarry Smith 2113273d9f13SBarry Smith When d_nnz, o_nnz parameters are specified, the storage is specified 2114273d9f13SBarry Smith for every row, coresponding to both DIAGONAL and OFF-DIAGONAL submatrices. 2115273d9f13SBarry Smith In the above case the values for d_nnz,o_nnz are: 2116273d9f13SBarry Smith .vb 2117273d9f13SBarry Smith proc0: d_nnz = [2,2,2] and o_nnz = [2,2,2] 2118273d9f13SBarry Smith proc1: d_nnz = [3,3,2] and o_nnz = [2,1,1] 2119273d9f13SBarry Smith proc2: d_nnz = [1,1] and o_nnz = [4,4] 2120273d9f13SBarry Smith .ve 2121273d9f13SBarry Smith Here the space allocated is sum of all the above values i.e 34, and 2122273d9f13SBarry Smith hence pre-allocation is perfect. 2123273d9f13SBarry Smith 2124273d9f13SBarry Smith Level: intermediate 2125273d9f13SBarry Smith 2126273d9f13SBarry Smith .keywords: matrix, aij, compressed row, sparse, parallel 2127273d9f13SBarry Smith 2128273d9f13SBarry Smith .seealso: MatCreate(), MatCreateSeqAIJ(), MatSetValues() 2129273d9f13SBarry Smith @*/ 2130273d9f13SBarry Smith int MatMPIAIJSetPreallocation(Mat B,int d_nz,int *d_nnz,int o_nz,int *o_nnz) 2131273d9f13SBarry Smith { 2132273d9f13SBarry Smith Mat_MPIAIJ *b; 2133273d9f13SBarry Smith int ierr,i; 2134273d9f13SBarry Smith PetscTruth flg2; 2135273d9f13SBarry Smith 2136273d9f13SBarry Smith PetscFunctionBegin; 2137273d9f13SBarry Smith ierr = PetscTypeCompare((PetscObject)B,MATMPIAIJ,&flg2);CHKERRQ(ierr); 2138273d9f13SBarry Smith if (!flg2) PetscFunctionReturn(0); 2139273d9f13SBarry Smith B->preallocated = PETSC_TRUE; 2140435da068SBarry Smith if (d_nz == PETSC_DEFAULT || d_nz == PETSC_DECIDE) d_nz = 5; 2141435da068SBarry Smith if (o_nz == PETSC_DEFAULT || o_nz == PETSC_DECIDE) o_nz = 2; 2142435da068SBarry Smith if (d_nz < 0) SETERRQ1(PETSC_ERR_ARG_OUTOFRANGE,"d_nz cannot be less than 0: value %d",d_nz); 2143435da068SBarry Smith if (o_nz < 0) SETERRQ1(PETSC_ERR_ARG_OUTOFRANGE,"o_nz cannot be less than 0: value %d",o_nz); 2144273d9f13SBarry Smith if (d_nnz) { 2145273d9f13SBarry Smith for (i=0; i<B->m; i++) { 2146273d9f13SBarry Smith if (d_nnz[i] < 0) SETERRQ2(PETSC_ERR_ARG_OUTOFRANGE,"d_nnz cannot be less than 0: local row %d value %d",i,d_nnz[i]); 2147273d9f13SBarry Smith } 2148273d9f13SBarry Smith } 2149273d9f13SBarry Smith if (o_nnz) { 2150273d9f13SBarry Smith for (i=0; i<B->m; i++) { 2151273d9f13SBarry Smith if (o_nnz[i] < 0) SETERRQ2(PETSC_ERR_ARG_OUTOFRANGE,"o_nnz cannot be less than 0: local row %d value %d",i,o_nnz[i]); 2152273d9f13SBarry Smith } 2153273d9f13SBarry Smith } 2154273d9f13SBarry Smith b = (Mat_MPIAIJ*)B->data; 2155273d9f13SBarry Smith 2156273d9f13SBarry Smith ierr = MatCreateSeqAIJ(PETSC_COMM_SELF,B->m,B->n,d_nz,d_nnz,&b->A);CHKERRQ(ierr); 2157b0a32e0cSBarry Smith PetscLogObjectParent(B,b->A); 2158273d9f13SBarry Smith ierr = MatCreateSeqAIJ(PETSC_COMM_SELF,B->m,B->N,o_nz,o_nnz,&b->B);CHKERRQ(ierr); 2159b0a32e0cSBarry Smith PetscLogObjectParent(B,b->B); 2160273d9f13SBarry Smith 2161273d9f13SBarry Smith PetscFunctionReturn(0); 2162273d9f13SBarry Smith } 2163273d9f13SBarry Smith 21644a2ae208SSatish Balay #undef __FUNCT__ 21654a2ae208SSatish Balay #define __FUNCT__ "MatCreateMPIAIJ" 2166273d9f13SBarry Smith /*@C 2167273d9f13SBarry Smith MatCreateMPIAIJ - Creates a sparse parallel matrix in AIJ format 2168273d9f13SBarry Smith (the default parallel PETSc format). For good matrix assembly performance 2169273d9f13SBarry Smith the user should preallocate the matrix storage by setting the parameters 2170273d9f13SBarry Smith d_nz (or d_nnz) and o_nz (or o_nnz). By setting these parameters accurately, 2171273d9f13SBarry Smith performance can be increased by more than a factor of 50. 2172273d9f13SBarry Smith 2173273d9f13SBarry Smith Collective on MPI_Comm 2174273d9f13SBarry Smith 2175273d9f13SBarry Smith Input Parameters: 2176273d9f13SBarry Smith + comm - MPI communicator 2177273d9f13SBarry Smith . m - number of local rows (or PETSC_DECIDE to have calculated if M is given) 2178273d9f13SBarry Smith This value should be the same as the local size used in creating the 2179273d9f13SBarry Smith y vector for the matrix-vector product y = Ax. 2180273d9f13SBarry Smith . n - This value should be the same as the local size used in creating the 2181273d9f13SBarry Smith x vector for the matrix-vector product y = Ax. (or PETSC_DECIDE to have 2182273d9f13SBarry Smith calculated if N is given) For square matrices n is almost always m. 2183273d9f13SBarry Smith . M - number of global rows (or PETSC_DETERMINE to have calculated if m is given) 2184273d9f13SBarry Smith . N - number of global columns (or PETSC_DETERMINE to have calculated if n is given) 2185273d9f13SBarry Smith . d_nz - number of nonzeros per row in DIAGONAL portion of local submatrix 2186273d9f13SBarry Smith (same value is used for all local rows) 2187273d9f13SBarry Smith . d_nnz - array containing the number of nonzeros in the various rows of the 2188273d9f13SBarry Smith DIAGONAL portion of the local submatrix (possibly different for each row) 2189273d9f13SBarry Smith or PETSC_NULL, if d_nz is used to specify the nonzero structure. 2190273d9f13SBarry Smith The size of this array is equal to the number of local rows, i.e 'm'. 2191273d9f13SBarry Smith You must leave room for the diagonal entry even if it is zero. 2192273d9f13SBarry Smith . o_nz - number of nonzeros per row in the OFF-DIAGONAL portion of local 2193273d9f13SBarry Smith submatrix (same value is used for all local rows). 2194273d9f13SBarry Smith - o_nnz - array containing the number of nonzeros in the various rows of the 2195273d9f13SBarry Smith OFF-DIAGONAL portion of the local submatrix (possibly different for 2196273d9f13SBarry Smith each row) or PETSC_NULL, if o_nz is used to specify the nonzero 2197273d9f13SBarry Smith structure. The size of this array is equal to the number 2198273d9f13SBarry Smith of local rows, i.e 'm'. 2199273d9f13SBarry Smith 2200273d9f13SBarry Smith Output Parameter: 2201273d9f13SBarry Smith . A - the matrix 2202273d9f13SBarry Smith 2203273d9f13SBarry Smith Notes: 2204273d9f13SBarry Smith m,n,M,N parameters specify the size of the matrix, and its partitioning across 2205273d9f13SBarry Smith processors, while d_nz,d_nnz,o_nz,o_nnz parameters specify the approximate 2206273d9f13SBarry Smith storage requirements for this matrix. 2207273d9f13SBarry Smith 2208273d9f13SBarry Smith If PETSC_DECIDE or PETSC_DETERMINE is used for a particular argument on one 2209273d9f13SBarry Smith processor than it must be used on all processors that share the object for 2210273d9f13SBarry Smith that argument. 2211273d9f13SBarry Smith 2212273d9f13SBarry Smith The AIJ format (also called the Yale sparse matrix format or 2213273d9f13SBarry Smith compressed row storage), is fully compatible with standard Fortran 77 2214273d9f13SBarry Smith storage. That is, the stored row and column indices can begin at 2215273d9f13SBarry Smith either one (as in Fortran) or zero. See the users manual for details. 2216273d9f13SBarry Smith 2217273d9f13SBarry Smith The user MUST specify either the local or global matrix dimensions 2218273d9f13SBarry Smith (possibly both). 2219273d9f13SBarry Smith 2220273d9f13SBarry Smith The parallel matrix is partitioned such that the first m0 rows belong to 2221273d9f13SBarry Smith process 0, the next m1 rows belong to process 1, the next m2 rows belong 2222273d9f13SBarry Smith to process 2 etc.. where m0,m1,m2... are the input parameter 'm'. 2223273d9f13SBarry Smith 2224273d9f13SBarry Smith The DIAGONAL portion of the local submatrix of a processor can be defined 2225273d9f13SBarry Smith as the submatrix which is obtained by extraction the part corresponding 2226273d9f13SBarry Smith to the rows r1-r2 and columns r1-r2 of the global matrix, where r1 is the 2227273d9f13SBarry Smith first row that belongs to the processor, and r2 is the last row belonging 2228273d9f13SBarry Smith to the this processor. This is a square mxm matrix. The remaining portion 2229273d9f13SBarry Smith of the local submatrix (mxN) constitute the OFF-DIAGONAL portion. 2230273d9f13SBarry Smith 2231273d9f13SBarry Smith If o_nnz, d_nnz are specified, then o_nz, and d_nz are ignored. 2232273d9f13SBarry Smith 2233273d9f13SBarry Smith By default, this format uses inodes (identical nodes) when possible. 2234273d9f13SBarry Smith We search for consecutive rows with the same nonzero structure, thereby 2235273d9f13SBarry Smith reusing matrix information to achieve increased efficiency. 2236273d9f13SBarry Smith 2237273d9f13SBarry Smith Options Database Keys: 2238273d9f13SBarry Smith + -mat_aij_no_inode - Do not use inodes 2239273d9f13SBarry Smith . -mat_aij_inode_limit <limit> - Sets inode limit (max limit=5) 2240273d9f13SBarry Smith - -mat_aij_oneindex - Internally use indexing starting at 1 2241273d9f13SBarry Smith rather than 0. Note that when calling MatSetValues(), 2242273d9f13SBarry Smith the user still MUST index entries starting at 0! 2243273d9f13SBarry Smith 2244273d9f13SBarry Smith 2245273d9f13SBarry Smith Example usage: 2246273d9f13SBarry Smith 2247273d9f13SBarry Smith Consider the following 8x8 matrix with 34 non-zero values, that is 2248273d9f13SBarry Smith assembled across 3 processors. Lets assume that proc0 owns 3 rows, 2249273d9f13SBarry Smith proc1 owns 3 rows, proc2 owns 2 rows. This division can be shown 2250273d9f13SBarry Smith as follows: 2251273d9f13SBarry Smith 2252273d9f13SBarry Smith .vb 2253273d9f13SBarry Smith 1 2 0 | 0 3 0 | 0 4 2254273d9f13SBarry Smith Proc0 0 5 6 | 7 0 0 | 8 0 2255273d9f13SBarry Smith 9 0 10 | 11 0 0 | 12 0 2256273d9f13SBarry Smith ------------------------------------- 2257273d9f13SBarry Smith 13 0 14 | 15 16 17 | 0 0 2258273d9f13SBarry Smith Proc1 0 18 0 | 19 20 21 | 0 0 2259273d9f13SBarry Smith 0 0 0 | 22 23 0 | 24 0 2260273d9f13SBarry Smith ------------------------------------- 2261273d9f13SBarry Smith Proc2 25 26 27 | 0 0 28 | 29 0 2262273d9f13SBarry Smith 30 0 0 | 31 32 33 | 0 34 2263273d9f13SBarry Smith .ve 2264273d9f13SBarry Smith 2265273d9f13SBarry Smith This can be represented as a collection of submatrices as: 2266273d9f13SBarry Smith 2267273d9f13SBarry Smith .vb 2268273d9f13SBarry Smith A B C 2269273d9f13SBarry Smith D E F 2270273d9f13SBarry Smith G H I 2271273d9f13SBarry Smith .ve 2272273d9f13SBarry Smith 2273273d9f13SBarry Smith Where the submatrices A,B,C are owned by proc0, D,E,F are 2274273d9f13SBarry Smith owned by proc1, G,H,I are owned by proc2. 2275273d9f13SBarry Smith 2276273d9f13SBarry Smith The 'm' parameters for proc0,proc1,proc2 are 3,3,2 respectively. 2277273d9f13SBarry Smith The 'n' parameters for proc0,proc1,proc2 are 3,3,2 respectively. 2278273d9f13SBarry Smith The 'M','N' parameters are 8,8, and have the same values on all procs. 2279273d9f13SBarry Smith 2280273d9f13SBarry Smith The DIAGONAL submatrices corresponding to proc0,proc1,proc2 are 2281273d9f13SBarry Smith submatrices [A], [E], [I] respectively. The OFF-DIAGONAL submatrices 2282273d9f13SBarry Smith corresponding to proc0,proc1,proc2 are [BC], [DF], [GH] respectively. 2283273d9f13SBarry Smith Internally, each processor stores the DIAGONAL part, and the OFF-DIAGONAL 2284273d9f13SBarry Smith part as SeqAIJ matrices. for eg: proc1 will store [E] as a SeqAIJ 2285273d9f13SBarry Smith matrix, ans [DF] as another SeqAIJ matrix. 2286273d9f13SBarry Smith 2287273d9f13SBarry Smith When d_nz, o_nz parameters are specified, d_nz storage elements are 2288273d9f13SBarry Smith allocated for every row of the local diagonal submatrix, and o_nz 2289273d9f13SBarry Smith storage locations are allocated for every row of the OFF-DIAGONAL submat. 2290273d9f13SBarry Smith One way to choose d_nz and o_nz is to use the max nonzerors per local 2291273d9f13SBarry Smith rows for each of the local DIAGONAL, and the OFF-DIAGONAL submatrices. 2292273d9f13SBarry Smith In this case, the values of d_nz,o_nz are: 2293273d9f13SBarry Smith .vb 2294273d9f13SBarry Smith proc0 : dnz = 2, o_nz = 2 2295273d9f13SBarry Smith proc1 : dnz = 3, o_nz = 2 2296273d9f13SBarry Smith proc2 : dnz = 1, o_nz = 4 2297273d9f13SBarry Smith .ve 2298273d9f13SBarry Smith We are allocating m*(d_nz+o_nz) storage locations for every proc. This 2299273d9f13SBarry Smith translates to 3*(2+2)=12 for proc0, 3*(3+2)=15 for proc1, 2*(1+4)=10 2300273d9f13SBarry Smith for proc3. i.e we are using 12+15+10=37 storage locations to store 2301273d9f13SBarry Smith 34 values. 2302273d9f13SBarry Smith 2303273d9f13SBarry Smith When d_nnz, o_nnz parameters are specified, the storage is specified 2304273d9f13SBarry Smith for every row, coresponding to both DIAGONAL and OFF-DIAGONAL submatrices. 2305273d9f13SBarry Smith In the above case the values for d_nnz,o_nnz are: 2306273d9f13SBarry Smith .vb 2307273d9f13SBarry Smith proc0: d_nnz = [2,2,2] and o_nnz = [2,2,2] 2308273d9f13SBarry Smith proc1: d_nnz = [3,3,2] and o_nnz = [2,1,1] 2309273d9f13SBarry Smith proc2: d_nnz = [1,1] and o_nnz = [4,4] 2310273d9f13SBarry Smith .ve 2311273d9f13SBarry Smith Here the space allocated is sum of all the above values i.e 34, and 2312273d9f13SBarry Smith hence pre-allocation is perfect. 2313273d9f13SBarry Smith 2314273d9f13SBarry Smith Level: intermediate 2315273d9f13SBarry Smith 2316273d9f13SBarry Smith .keywords: matrix, aij, compressed row, sparse, parallel 2317273d9f13SBarry Smith 2318273d9f13SBarry Smith .seealso: MatCreate(), MatCreateSeqAIJ(), MatSetValues() 2319273d9f13SBarry Smith @*/ 2320273d9f13SBarry Smith int MatCreateMPIAIJ(MPI_Comm comm,int m,int n,int M,int N,int d_nz,int *d_nnz,int o_nz,int *o_nnz,Mat *A) 2321273d9f13SBarry Smith { 2322273d9f13SBarry Smith int ierr,size; 2323273d9f13SBarry Smith 2324273d9f13SBarry Smith PetscFunctionBegin; 2325273d9f13SBarry Smith ierr = MatCreate(comm,m,n,M,N,A);CHKERRQ(ierr); 2326273d9f13SBarry Smith ierr = MPI_Comm_size(comm,&size);CHKERRQ(ierr); 2327273d9f13SBarry Smith if (size > 1) { 2328273d9f13SBarry Smith ierr = MatSetType(*A,MATMPIAIJ);CHKERRQ(ierr); 2329273d9f13SBarry Smith ierr = MatMPIAIJSetPreallocation(*A,d_nz,d_nnz,o_nz,o_nnz);CHKERRQ(ierr); 2330273d9f13SBarry Smith } else { 2331273d9f13SBarry Smith ierr = MatSetType(*A,MATSEQAIJ);CHKERRQ(ierr); 2332273d9f13SBarry Smith ierr = MatSeqAIJSetPreallocation(*A,d_nz,d_nnz);CHKERRQ(ierr); 2333273d9f13SBarry Smith } 2334273d9f13SBarry Smith PetscFunctionReturn(0); 2335273d9f13SBarry Smith } 2336195d93cdSBarry Smith 23374a2ae208SSatish Balay #undef __FUNCT__ 23384a2ae208SSatish Balay #define __FUNCT__ "MatMPIAIJGetSeqAIJ" 2339195d93cdSBarry Smith int MatMPIAIJGetSeqAIJ(Mat A,Mat *Ad,Mat *Ao,int **colmap) 2340195d93cdSBarry Smith { 2341195d93cdSBarry Smith Mat_MPIAIJ *a = (Mat_MPIAIJ *)A->data; 2342195d93cdSBarry Smith PetscFunctionBegin; 2343195d93cdSBarry Smith *Ad = a->A; 2344195d93cdSBarry Smith *Ao = a->B; 2345195d93cdSBarry Smith *colmap = a->garray; 2346195d93cdSBarry Smith PetscFunctionReturn(0); 2347195d93cdSBarry Smith } 2348