#include /*I "petscdmda.h" I*/ #include #include extern PetscErrorCode DMCreateColoring_DA_1d_MPIAIJ(DM,ISColoringType,ISColoring*); extern PetscErrorCode DMCreateColoring_DA_2d_MPIAIJ(DM,ISColoringType,ISColoring*); extern PetscErrorCode DMCreateColoring_DA_2d_5pt_MPIAIJ(DM,ISColoringType,ISColoring*); extern PetscErrorCode DMCreateColoring_DA_3d_MPIAIJ(DM,ISColoringType,ISColoring*); /* For ghost i that may be negative or greater than the upper bound this maps it into the 0:m-1 range using periodicity */ #define SetInRange(i,m) ((i < 0) ? m+i : ((i >= m) ? i-m : i)) #undef __FUNCT__ #define __FUNCT__ "DMDASetBlockFills_Private" static PetscErrorCode DMDASetBlockFills_Private(const PetscInt *dfill,PetscInt w,PetscInt **rfill) { PetscErrorCode ierr; PetscInt i,j,nz,*fill; PetscFunctionBegin; if (!dfill) PetscFunctionReturn(0); /* count number nonzeros */ nz = 0; for (i=0; idata; PetscErrorCode ierr; PetscInt i,k,cnt = 1; PetscFunctionBegin; ierr = DMDASetBlockFills_Private(dfill,dd->w,&dd->dfill);CHKERRQ(ierr); ierr = DMDASetBlockFills_Private(ofill,dd->w,&dd->ofill);CHKERRQ(ierr); /* ofillcount tracks the columns of ofill that have any nonzero in thems; the value in each location is the number of columns to the left with any nonzeros in them plus 1 */ ierr = PetscMalloc(dd->w*sizeof(PetscBool),&dd->ofillcols);CHKERRQ(ierr); ierr = PetscMemzero(dd->ofillcols,dd->w*sizeof(PetscBool));CHKERRQ(ierr); for (i=0; iw; i++) { for (k=dd->ofill[i]; kofill[i+1]; k++) dd->ofillcols[dd->ofill[k]] = 1; } for (i=0; iw; i++) { if (dd->ofillcols[i]) { dd->ofillcols[i] = cnt++; } } PetscFunctionReturn(0); } #undef __FUNCT__ #define __FUNCT__ "DMCreateColoring_DA" PetscErrorCode DMCreateColoring_DA(DM da,ISColoringType ctype,MatType mtype,ISColoring *coloring) { PetscErrorCode ierr; PetscInt dim,m,n,p,nc; DMDABoundaryType bx,by,bz; MPI_Comm comm; PetscMPIInt size; PetscBool isBAIJ; DM_DA *dd = (DM_DA*)da->data; PetscFunctionBegin; /* m ------------------------------------------------------ | | | | | ---------------------- | | | | | n | yn | | | | | | | | .--------------------- | | (xs,ys) xn | | . | | (gxs,gys) | | | ----------------------------------------------------- */ /* nc - number of components per grid point col - number of colors needed in one direction for single component problem */ ierr = DMDAGetInfo(da,&dim,0,0,0,&m,&n,&p,&nc,0,&bx,&by,&bz,0);CHKERRQ(ierr); ierr = PetscObjectGetComm((PetscObject)da,&comm);CHKERRQ(ierr); ierr = MPI_Comm_size(comm,&size);CHKERRQ(ierr); if (ctype == IS_COLORING_GHOSTED) { if (size == 1) { ctype = IS_COLORING_GLOBAL; } else if (dim > 1) { if ((m==1 && bx == DMDA_BOUNDARY_PERIODIC) || (n==1 && by == DMDA_BOUNDARY_PERIODIC) || (p==1 && bz == DMDA_BOUNDARY_PERIODIC)) { SETERRQ(((PetscObject)da)->comm,PETSC_ERR_SUP,"IS_COLORING_GHOSTED cannot be used for periodic boundary condition having both ends of the domain on the same process"); } } } /* Tell the DMDA it has 1 degree of freedom per grid point so that the coloring for BAIJ matrices is for the blocks, not the individual matrix elements */ ierr = PetscStrcmp(mtype,MATBAIJ,&isBAIJ);CHKERRQ(ierr); if (!isBAIJ) {ierr = PetscStrcmp(mtype,MATMPIBAIJ,&isBAIJ);CHKERRQ(ierr);} if (!isBAIJ) {ierr = PetscStrcmp(mtype,MATSEQBAIJ,&isBAIJ);CHKERRQ(ierr);} if (isBAIJ) { dd->w = 1; dd->xs = dd->xs/nc; dd->xe = dd->xe/nc; dd->Xs = dd->Xs/nc; dd->Xe = dd->Xe/nc; } /* We do not provide a getcoloring function in the DMDA operations because the basic DMDA does not know about matrices. We think of DMDA as being more more low-level then matrices. */ if (dim == 1) { ierr = DMCreateColoring_DA_1d_MPIAIJ(da,ctype,coloring);CHKERRQ(ierr); } else if (dim == 2) { ierr = DMCreateColoring_DA_2d_MPIAIJ(da,ctype,coloring);CHKERRQ(ierr); } else if (dim == 3) { ierr = DMCreateColoring_DA_3d_MPIAIJ(da,ctype,coloring);CHKERRQ(ierr); } else SETERRQ1(((PetscObject)da)->comm,PETSC_ERR_SUP,"Not done for %D dimension, send us mail petsc-maint@mcs.anl.gov for code",dim); if (isBAIJ) { dd->w = nc; dd->xs = dd->xs*nc; dd->xe = dd->xe*nc; dd->Xs = dd->Xs*nc; dd->Xe = dd->Xe*nc; } PetscFunctionReturn(0); } /* ---------------------------------------------------------------------------------*/ #undef __FUNCT__ #define __FUNCT__ "DMCreateColoring_DA_2d_MPIAIJ" PetscErrorCode DMCreateColoring_DA_2d_MPIAIJ(DM da,ISColoringType ctype,ISColoring *coloring) { PetscErrorCode ierr; PetscInt xs,ys,nx,ny,i,j,ii,gxs,gys,gnx,gny,m,n,M,N,dim,s,k,nc,col; PetscInt ncolors; MPI_Comm comm; DMDABoundaryType bx,by; DMDAStencilType st; ISColoringValue *colors; DM_DA *dd = (DM_DA*)da->data; PetscFunctionBegin; /* nc - number of components per grid point col - number of colors needed in one direction for single component problem */ ierr = DMDAGetInfo(da,&dim,&m,&n,0,&M,&N,0,&nc,&s,&bx,&by,0,&st);CHKERRQ(ierr); col = 2*s + 1; ierr = DMDAGetCorners(da,&xs,&ys,0,&nx,&ny,0);CHKERRQ(ierr); ierr = DMDAGetGhostCorners(da,&gxs,&gys,0,&gnx,&gny,0);CHKERRQ(ierr); ierr = PetscObjectGetComm((PetscObject)da,&comm);CHKERRQ(ierr); /* special case as taught to us by Paul Hovland */ if (st == DMDA_STENCIL_STAR && s == 1) { ierr = DMCreateColoring_DA_2d_5pt_MPIAIJ(da,ctype,coloring);CHKERRQ(ierr); } else { if (bx == DMDA_BOUNDARY_PERIODIC && (m % col)) SETERRQ2(((PetscObject)da)->comm,PETSC_ERR_SUP,"For coloring efficiency ensure number of grid points in X (%d) is divisible\n\ by 2*stencil_width + 1 (%d)\n", m, col); if (by == DMDA_BOUNDARY_PERIODIC && (n % col)) SETERRQ2(((PetscObject)da)->comm,PETSC_ERR_SUP,"For coloring efficiency ensure number of grid points in Y (%d) is divisible\n\ by 2*stencil_width + 1 (%d)\n", n, col); if (ctype == IS_COLORING_GLOBAL) { if (!dd->localcoloring) { ierr = PetscMalloc(nc*nx*ny*sizeof(ISColoringValue),&colors);CHKERRQ(ierr); ii = 0; for (j=ys; jlocalcoloring);CHKERRQ(ierr); } *coloring = dd->localcoloring; } else if (ctype == IS_COLORING_GHOSTED) { if (!dd->ghostedcoloring) { ierr = PetscMalloc(nc*gnx*gny*sizeof(ISColoringValue),&colors);CHKERRQ(ierr); ii = 0; for (j=gys; jghostedcoloring);CHKERRQ(ierr); /* PetscIntView(ncolors,(PetscInt *)colors,0); */ ierr = ISColoringSetType(dd->ghostedcoloring,IS_COLORING_GHOSTED);CHKERRQ(ierr); } *coloring = dd->ghostedcoloring; } else SETERRQ1(((PetscObject)da)->comm,PETSC_ERR_ARG_WRONG,"Unknown ISColoringType %d",(int)ctype); } ierr = ISColoringReference(*coloring);CHKERRQ(ierr); PetscFunctionReturn(0); } /* ---------------------------------------------------------------------------------*/ #undef __FUNCT__ #define __FUNCT__ "DMCreateColoring_DA_3d_MPIAIJ" PetscErrorCode DMCreateColoring_DA_3d_MPIAIJ(DM da,ISColoringType ctype,ISColoring *coloring) { PetscErrorCode ierr; PetscInt xs,ys,nx,ny,i,j,gxs,gys,gnx,gny,m,n,p,dim,s,k,nc,col,zs,gzs,ii,l,nz,gnz,M,N,P; PetscInt ncolors; MPI_Comm comm; DMDABoundaryType bx,by,bz; DMDAStencilType st; ISColoringValue *colors; DM_DA *dd = (DM_DA*)da->data; PetscFunctionBegin; /* nc - number of components per grid point col - number of colors needed in one direction for single component problem */ ierr = DMDAGetInfo(da,&dim,&m,&n,&p,&M,&N,&P,&nc,&s,&bx,&by,&bz,&st);CHKERRQ(ierr); col = 2*s + 1; if (bx == DMDA_BOUNDARY_PERIODIC && (m % col)) SETERRQ(((PetscObject)da)->comm,PETSC_ERR_SUP,"For coloring efficiency ensure number of grid points in X is divisible\n\ by 2*stencil_width + 1\n"); if (by == DMDA_BOUNDARY_PERIODIC && (n % col)) SETERRQ(((PetscObject)da)->comm,PETSC_ERR_SUP,"For coloring efficiency ensure number of grid points in Y is divisible\n\ by 2*stencil_width + 1\n"); if (bz == DMDA_BOUNDARY_PERIODIC && (p % col)) SETERRQ(((PetscObject)da)->comm,PETSC_ERR_SUP,"For coloring efficiency ensure number of grid points in Z is divisible\n\ by 2*stencil_width + 1\n"); ierr = DMDAGetCorners(da,&xs,&ys,&zs,&nx,&ny,&nz);CHKERRQ(ierr); ierr = DMDAGetGhostCorners(da,&gxs,&gys,&gzs,&gnx,&gny,&gnz);CHKERRQ(ierr); ierr = PetscObjectGetComm((PetscObject)da,&comm);CHKERRQ(ierr); /* create the coloring */ if (ctype == IS_COLORING_GLOBAL) { if (!dd->localcoloring) { ierr = PetscMalloc(nc*nx*ny*nz*sizeof(ISColoringValue),&colors);CHKERRQ(ierr); ii = 0; for (k=zs; klocalcoloring);CHKERRQ(ierr); } *coloring = dd->localcoloring; } else if (ctype == IS_COLORING_GHOSTED) { if (!dd->ghostedcoloring) { ierr = PetscMalloc(nc*gnx*gny*gnz*sizeof(ISColoringValue),&colors);CHKERRQ(ierr); ii = 0; for (k=gzs; kghostedcoloring);CHKERRQ(ierr); ierr = ISColoringSetType(dd->ghostedcoloring,IS_COLORING_GHOSTED);CHKERRQ(ierr); } *coloring = dd->ghostedcoloring; } else SETERRQ1(((PetscObject)da)->comm,PETSC_ERR_ARG_WRONG,"Unknown ISColoringType %d",(int)ctype); ierr = ISColoringReference(*coloring);CHKERRQ(ierr); PetscFunctionReturn(0); } /* ---------------------------------------------------------------------------------*/ #undef __FUNCT__ #define __FUNCT__ "DMCreateColoring_DA_1d_MPIAIJ" PetscErrorCode DMCreateColoring_DA_1d_MPIAIJ(DM da,ISColoringType ctype,ISColoring *coloring) { PetscErrorCode ierr; PetscInt xs,nx,i,i1,gxs,gnx,l,m,M,dim,s,nc,col; PetscInt ncolors; MPI_Comm comm; DMDABoundaryType bx; ISColoringValue *colors; DM_DA *dd = (DM_DA*)da->data; PetscFunctionBegin; /* nc - number of components per grid point col - number of colors needed in one direction for single component problem */ ierr = DMDAGetInfo(da,&dim,&m,0,0,&M,0,0,&nc,&s,&bx,0,0,0);CHKERRQ(ierr); col = 2*s + 1; if (bx == DMDA_BOUNDARY_PERIODIC && (m % col)) SETERRQ2(((PetscObject)da)->comm,PETSC_ERR_SUP,"For coloring efficiency ensure number of grid points %d is divisible\n\ by 2*stencil_width + 1 %d\n",(int)m,(int)col); ierr = DMDAGetCorners(da,&xs,0,0,&nx,0,0);CHKERRQ(ierr); ierr = DMDAGetGhostCorners(da,&gxs,0,0,&gnx,0,0);CHKERRQ(ierr); ierr = PetscObjectGetComm((PetscObject)da,&comm);CHKERRQ(ierr); /* create the coloring */ if (ctype == IS_COLORING_GLOBAL) { if (!dd->localcoloring) { ierr = PetscMalloc(nc*nx*sizeof(ISColoringValue),&colors);CHKERRQ(ierr); if (dd->ofillcols) { PetscInt tc = 0; for (i=0; iofillcols[i] > 0); i1 = 0; for (i=xs; iofillcols[l] && (i % col)) { colors[i1++] = nc - 1 + tc*((i % col) - 1) + dd->ofillcols[l]; } else { colors[i1++] = l; } } } ncolors = nc + 2*s*tc; } else { i1 = 0; for (i=xs; ilocalcoloring);CHKERRQ(ierr); } *coloring = dd->localcoloring; } else if (ctype == IS_COLORING_GHOSTED) { if (!dd->ghostedcoloring) { ierr = PetscMalloc(nc*gnx*sizeof(ISColoringValue),&colors);CHKERRQ(ierr); i1 = 0; for (i=gxs; ighostedcoloring);CHKERRQ(ierr); ierr = ISColoringSetType(dd->ghostedcoloring,IS_COLORING_GHOSTED);CHKERRQ(ierr); } *coloring = dd->ghostedcoloring; } else SETERRQ1(((PetscObject)da)->comm,PETSC_ERR_ARG_WRONG,"Unknown ISColoringType %d",(int)ctype); ierr = ISColoringReference(*coloring);CHKERRQ(ierr); PetscFunctionReturn(0); } #undef __FUNCT__ #define __FUNCT__ "DMCreateColoring_DA_2d_5pt_MPIAIJ" PetscErrorCode DMCreateColoring_DA_2d_5pt_MPIAIJ(DM da,ISColoringType ctype,ISColoring *coloring) { PetscErrorCode ierr; PetscInt xs,ys,nx,ny,i,j,ii,gxs,gys,gnx,gny,m,n,dim,s,k,nc; PetscInt ncolors; MPI_Comm comm; DMDABoundaryType bx,by; ISColoringValue *colors; DM_DA *dd = (DM_DA*)da->data; PetscFunctionBegin; /* nc - number of components per grid point col - number of colors needed in one direction for single component problem */ ierr = DMDAGetInfo(da,&dim,&m,&n,0,0,0,0,&nc,&s,&bx,&by,0,0);CHKERRQ(ierr); ierr = DMDAGetCorners(da,&xs,&ys,0,&nx,&ny,0);CHKERRQ(ierr); ierr = DMDAGetGhostCorners(da,&gxs,&gys,0,&gnx,&gny,0);CHKERRQ(ierr); ierr = PetscObjectGetComm((PetscObject)da,&comm);CHKERRQ(ierr); if (bx == DMDA_BOUNDARY_PERIODIC && (m % 5)) SETERRQ(((PetscObject)da)->comm,PETSC_ERR_SUP,"For coloring efficiency ensure number of grid points in X is divisible by 5\n"); if (by == DMDA_BOUNDARY_PERIODIC && (n % 5)) SETERRQ(((PetscObject)da)->comm,PETSC_ERR_SUP,"For coloring efficiency ensure number of grid points in Y is divisible by 5\n"); /* create the coloring */ if (ctype == IS_COLORING_GLOBAL) { if (!dd->localcoloring) { ierr = PetscMalloc(nc*nx*ny*sizeof(ISColoringValue),&colors);CHKERRQ(ierr); ii = 0; for (j=ys; jlocalcoloring);CHKERRQ(ierr); } *coloring = dd->localcoloring; } else if (ctype == IS_COLORING_GHOSTED) { if (!dd->ghostedcoloring) { ierr = PetscMalloc(nc*gnx*gny*sizeof(ISColoringValue),&colors);CHKERRQ(ierr); ii = 0; for (j=gys; jghostedcoloring);CHKERRQ(ierr); ierr = ISColoringSetType(dd->ghostedcoloring,IS_COLORING_GHOSTED);CHKERRQ(ierr); } *coloring = dd->ghostedcoloring; } else SETERRQ1(((PetscObject)da)->comm,PETSC_ERR_ARG_WRONG,"Unknown ISColoringType %d",(int)ctype); PetscFunctionReturn(0); } /* =========================================================================== */ extern PetscErrorCode DMCreateMatrix_DA_1d_MPIAIJ(DM,Mat); extern PetscErrorCode DMCreateMatrix_DA_1d_MPIAIJ_Fill(DM,Mat); extern PetscErrorCode DMCreateMatrix_DA_2d_MPIAIJ(DM,Mat); extern PetscErrorCode DMCreateMatrix_DA_2d_MPIAIJ_Fill(DM,Mat); extern PetscErrorCode DMCreateMatrix_DA_3d_MPIAIJ(DM,Mat); extern PetscErrorCode DMCreateMatrix_DA_3d_MPIAIJ_Fill(DM,Mat); extern PetscErrorCode DMCreateMatrix_DA_2d_MPIBAIJ(DM,Mat); extern PetscErrorCode DMCreateMatrix_DA_3d_MPIBAIJ(DM,Mat); extern PetscErrorCode DMCreateMatrix_DA_2d_MPISBAIJ(DM,Mat); extern PetscErrorCode DMCreateMatrix_DA_3d_MPISBAIJ(DM,Mat); #undef __FUNCT__ #define __FUNCT__ "MatSetupDM" /*@C MatSetupDM - Sets the DMDA that is to be used by the HYPRE_StructMatrix PETSc matrix Logically Collective on Mat Input Parameters: + mat - the matrix - da - the da Level: intermediate @*/ PetscErrorCode MatSetupDM(Mat mat,DM da) { PetscErrorCode ierr; PetscFunctionBegin; PetscValidHeaderSpecific(mat,MAT_CLASSID,1); PetscValidHeaderSpecific(da,DM_CLASSID,1); ierr = PetscTryMethod(mat,"MatSetupDM_C",(Mat,DM),(mat,da));CHKERRQ(ierr); PetscFunctionReturn(0); } EXTERN_C_BEGIN #undef __FUNCT__ #define __FUNCT__ "MatView_MPI_DA" PetscErrorCode MatView_MPI_DA(Mat A,PetscViewer viewer) { DM da; PetscErrorCode ierr; const char *prefix; Mat Anatural; AO ao; PetscInt rstart,rend,*petsc,i; IS is; MPI_Comm comm; PetscViewerFormat format; PetscFunctionBegin; /* Check whether we are just printing info, in which case MatView() already viewed everything we wanted to view */ ierr = PetscViewerGetFormat(viewer,&format);CHKERRQ(ierr); if (format == PETSC_VIEWER_ASCII_INFO || format == PETSC_VIEWER_ASCII_INFO_DETAIL) PetscFunctionReturn(0); ierr = PetscObjectGetComm((PetscObject)A,&comm);CHKERRQ(ierr); ierr = MatGetDM(A, &da);CHKERRQ(ierr); if (!da) SETERRQ(((PetscObject)A)->comm,PETSC_ERR_ARG_WRONG,"Matrix not generated from a DMDA"); ierr = DMDAGetAO(da,&ao);CHKERRQ(ierr); ierr = MatGetOwnershipRange(A,&rstart,&rend);CHKERRQ(ierr); ierr = PetscMalloc((rend-rstart)*sizeof(PetscInt),&petsc);CHKERRQ(ierr); for (i=rstart; iname);CHKERRQ(ierr); ierr = MatView(Anatural,viewer);CHKERRQ(ierr); ierr = MatDestroy(&Anatural);CHKERRQ(ierr); PetscFunctionReturn(0); } EXTERN_C_END EXTERN_C_BEGIN #undef __FUNCT__ #define __FUNCT__ "MatLoad_MPI_DA" PetscErrorCode MatLoad_MPI_DA(Mat A,PetscViewer viewer) { DM da; PetscErrorCode ierr; Mat Anatural,Aapp; AO ao; PetscInt rstart,rend,*app,i; IS is; MPI_Comm comm; PetscFunctionBegin; ierr = PetscObjectGetComm((PetscObject)A,&comm);CHKERRQ(ierr); ierr = MatGetDM(A, &da);CHKERRQ(ierr); if (!da) SETERRQ(((PetscObject)A)->comm,PETSC_ERR_ARG_WRONG,"Matrix not generated from a DMDA"); /* Load the matrix in natural ordering */ ierr = MatCreate(((PetscObject)A)->comm,&Anatural);CHKERRQ(ierr); ierr = MatSetType(Anatural,((PetscObject)A)->type_name);CHKERRQ(ierr); ierr = MatSetSizes(Anatural,A->rmap->n,A->cmap->n,A->rmap->N,A->cmap->N);CHKERRQ(ierr); ierr = MatLoad(Anatural,viewer);CHKERRQ(ierr); /* Map natural ordering to application ordering and create IS */ ierr = DMDAGetAO(da,&ao);CHKERRQ(ierr); ierr = MatGetOwnershipRange(Anatural,&rstart,&rend);CHKERRQ(ierr); ierr = PetscMalloc((rend-rstart)*sizeof(PetscInt),&app);CHKERRQ(ierr); for (i=rstart; idata; PetscFunctionBegin; #if !defined(PETSC_USE_DYNAMIC_LIBRARIES) ierr = MatInitializePackage(PETSC_NULL);CHKERRQ(ierr); #endif if (!mtype) mtype = MATAIJ; ierr = PetscStrcpy((char*)ttype,mtype);CHKERRQ(ierr); ierr = PetscOptionsBegin(((PetscObject)da)->comm,((PetscObject)da)->prefix,"DMDA options","Mat");CHKERRQ(ierr); ierr = PetscOptionsList("-dm_mat_type","Matrix type","MatSetType",MatList,mtype,(char*)ttype,256,&flg);CHKERRQ(ierr); ierr = PetscOptionsEnd(); ierr = DMGetDefaultSection(da, §ion);CHKERRQ(ierr); if (section) { PetscInt bs = -1; PetscInt localSize; PetscBool isShell, isBlock, isSeqBlock, isMPIBlock, isSymBlock, isSymSeqBlock, isSymMPIBlock, isSymmetric; ierr = DMGetDefaultGlobalSection(da, §ionGlobal);CHKERRQ(ierr); ierr = PetscSectionGetConstrainedStorageSize(sectionGlobal, &localSize);CHKERRQ(ierr); ierr = MatCreate(((PetscObject) da)->comm, J);CHKERRQ(ierr); ierr = MatSetSizes(*J, localSize, localSize, PETSC_DETERMINE, PETSC_DETERMINE);CHKERRQ(ierr); ierr = MatSetType(*J, mtype);CHKERRQ(ierr); ierr = MatSetFromOptions(*J);CHKERRQ(ierr); ierr = PetscStrcmp(mtype, MATSHELL, &isShell);CHKERRQ(ierr); ierr = PetscStrcmp(mtype, MATBAIJ, &isBlock);CHKERRQ(ierr); ierr = PetscStrcmp(mtype, MATSEQBAIJ, &isSeqBlock);CHKERRQ(ierr); ierr = PetscStrcmp(mtype, MATMPIBAIJ, &isMPIBlock);CHKERRQ(ierr); ierr = PetscStrcmp(mtype, MATSBAIJ, &isSymBlock);CHKERRQ(ierr); ierr = PetscStrcmp(mtype, MATSEQSBAIJ, &isSymSeqBlock);CHKERRQ(ierr); ierr = PetscStrcmp(mtype, MATMPISBAIJ, &isSymMPIBlock);CHKERRQ(ierr); /* Check for symmetric storage */ isSymmetric = (PetscBool) (isSymBlock || isSymSeqBlock || isSymMPIBlock); if (isSymmetric) { ierr = MatSetOption(*J, MAT_IGNORE_LOWER_TRIANGULAR, PETSC_TRUE);CHKERRQ(ierr); } if (!isShell) { PetscInt *dnz, *onz, *dnzu, *onzu, bsLocal; if (bs < 0) { if (isBlock || isSeqBlock || isMPIBlock || isSymBlock || isSymSeqBlock || isSymMPIBlock) { PetscInt pStart, pEnd, p, dof; ierr = PetscSectionGetChart(sectionGlobal, &pStart, &pEnd);CHKERRQ(ierr); for (p = pStart; p < pEnd; ++p) { ierr = PetscSectionGetDof(sectionGlobal, p, &dof);CHKERRQ(ierr); if (dof) { bs = dof; break; } } } else { bs = 1; } /* Must have same blocksize on all procs (some might have no points) */ bsLocal = bs; ierr = MPI_Allreduce(&bsLocal, &bs, 1, MPIU_INT, MPI_MAX, ((PetscObject) da)->comm);CHKERRQ(ierr); } ierr = PetscMalloc4(localSize/bs, PetscInt, &dnz, localSize/bs, PetscInt, &onz, localSize/bs, PetscInt, &dnzu, localSize/bs, PetscInt, &onzu);CHKERRQ(ierr); ierr = PetscMemzero(dnz, localSize/bs * sizeof(PetscInt));CHKERRQ(ierr); ierr = PetscMemzero(onz, localSize/bs * sizeof(PetscInt));CHKERRQ(ierr); ierr = PetscMemzero(dnzu, localSize/bs * sizeof(PetscInt));CHKERRQ(ierr); ierr = PetscMemzero(onzu, localSize/bs * sizeof(PetscInt));CHKERRQ(ierr); /* ierr = DMPlexPreallocateOperator(dm, bs, section, sectionGlobal, dnz, onz, dnzu, onzu, *J, fillMatrix);CHKERRQ(ierr); */ ierr = PetscFree4(dnz, onz, dnzu, onzu);CHKERRQ(ierr); } } /* m ------------------------------------------------------ | | | | | ---------------------- | | | | | n | ny | | | | | | | | .--------------------- | | (xs,ys) nx | | . | | (gxs,gys) | | | ----------------------------------------------------- */ /* nc - number of components per grid point col - number of colors needed in one direction for single component problem */ M = dd->M; N = dd->N; P = dd->P; dim = dd->dim; dof = dd->w; /* ierr = DMDAGetInfo(da,&dim,&M,&N,&P,0,0,0,&dof,0,0,0,0,0);CHKERRQ(ierr); */ ierr = DMDAGetCorners(da,0,0,0,&nx,&ny,&nz);CHKERRQ(ierr); ierr = PetscObjectGetComm((PetscObject)da,&comm);CHKERRQ(ierr); ierr = MatCreate(comm,&A);CHKERRQ(ierr); ierr = MatSetSizes(A,dof*nx*ny*nz,dof*nx*ny*nz,dof*M*N*P,dof*M*N*P);CHKERRQ(ierr); ierr = MatSetType(A,(MatType)ttype);CHKERRQ(ierr); ierr = MatSetDM(A,da);CHKERRQ(ierr); ierr = MatSetFromOptions(A);CHKERRQ(ierr); ierr = MatGetType(A,&Atype);CHKERRQ(ierr); /* We do not provide a getmatrix function in the DMDA operations because the basic DMDA does not know about matrices. We think of DMDA as being more more low-level than matrices. This is kind of cheating but, cause sometimes we think of DMDA has higher level than matrices. We could switch based on Atype (or mtype), but we do not since the specialized setting routines depend only the particular preallocation details of the matrix, not the type itself. */ ierr = PetscObjectQueryFunction((PetscObject)A,"MatMPIAIJSetPreallocation_C",&aij);CHKERRQ(ierr); if (!aij) { ierr = PetscObjectQueryFunction((PetscObject)A,"MatSeqAIJSetPreallocation_C",&aij);CHKERRQ(ierr); } if (!aij) { ierr = PetscObjectQueryFunction((PetscObject)A,"MatMPIBAIJSetPreallocation_C",&baij);CHKERRQ(ierr); if (!baij) { ierr = PetscObjectQueryFunction((PetscObject)A,"MatSeqBAIJSetPreallocation_C",&baij);CHKERRQ(ierr); } if (!baij) { ierr = PetscObjectQueryFunction((PetscObject)A,"MatMPISBAIJSetPreallocation_C",&sbaij);CHKERRQ(ierr); if (!sbaij) { ierr = PetscObjectQueryFunction((PetscObject)A,"MatSeqSBAIJSetPreallocation_C",&sbaij);CHKERRQ(ierr); } } } if (aij) { if (dim == 1) { if (dd->ofill) { ierr = DMCreateMatrix_DA_1d_MPIAIJ_Fill(da,A);CHKERRQ(ierr); } else { ierr = DMCreateMatrix_DA_1d_MPIAIJ(da,A);CHKERRQ(ierr); } } else if (dim == 2) { if (dd->ofill) { ierr = DMCreateMatrix_DA_2d_MPIAIJ_Fill(da,A);CHKERRQ(ierr); } else { ierr = DMCreateMatrix_DA_2d_MPIAIJ(da,A);CHKERRQ(ierr); } } else if (dim == 3) { if (dd->ofill) { ierr = DMCreateMatrix_DA_3d_MPIAIJ_Fill(da,A);CHKERRQ(ierr); } else { ierr = DMCreateMatrix_DA_3d_MPIAIJ(da,A);CHKERRQ(ierr); } } } else if (baij) { if (dim == 2) { ierr = DMCreateMatrix_DA_2d_MPIBAIJ(da,A);CHKERRQ(ierr); } else if (dim == 3) { ierr = DMCreateMatrix_DA_3d_MPIBAIJ(da,A);CHKERRQ(ierr); } else SETERRQ3(((PetscObject)da)->comm,PETSC_ERR_SUP,"Not implemented for %D dimension and Matrix Type: %s in %D dimension! Send mail to petsc-maint@mcs.anl.gov for code",dim,Atype,dim); } else if (sbaij) { if (dim == 2) { ierr = DMCreateMatrix_DA_2d_MPISBAIJ(da,A);CHKERRQ(ierr); } else if (dim == 3) { ierr = DMCreateMatrix_DA_3d_MPISBAIJ(da,A);CHKERRQ(ierr); } else SETERRQ3(((PetscObject)da)->comm,PETSC_ERR_SUP,"Not implemented for %D dimension and Matrix Type: %s in %D dimension! Send mail to petsc-maint@mcs.anl.gov for code",dim,Atype,dim); } else { ISLocalToGlobalMapping ltog,ltogb; ierr = DMGetLocalToGlobalMapping(da,<og);CHKERRQ(ierr); ierr = DMGetLocalToGlobalMappingBlock(da,<ogb);CHKERRQ(ierr); ierr = MatSetUp(A);CHKERRQ(ierr); ierr = MatSetLocalToGlobalMapping(A,ltog,ltog);CHKERRQ(ierr); ierr = MatSetLocalToGlobalMappingBlock(A,ltogb,ltogb);CHKERRQ(ierr); } ierr = DMDAGetGhostCorners(da,&starts[0],&starts[1],&starts[2],&dims[0],&dims[1],&dims[2]);CHKERRQ(ierr); ierr = MatSetStencil(A,dim,dims,starts,dof);CHKERRQ(ierr); ierr = MatSetDM(A,da);CHKERRQ(ierr); ierr = MPI_Comm_size(comm,&size);CHKERRQ(ierr); if (size > 1) { /* change viewer to display matrix in natural ordering */ ierr = MatShellSetOperation(A, MATOP_VIEW, (void (*)(void))MatView_MPI_DA);CHKERRQ(ierr); ierr = MatShellSetOperation(A, MATOP_LOAD, (void (*)(void))MatLoad_MPI_DA);CHKERRQ(ierr); } *J = A; PetscFunctionReturn(0); } /* ---------------------------------------------------------------------------------*/ #undef __FUNCT__ #define __FUNCT__ "DMCreateMatrix_DA_2d_MPIAIJ" PetscErrorCode DMCreateMatrix_DA_2d_MPIAIJ(DM da,Mat J) { PetscErrorCode ierr; PetscInt xs,ys,nx,ny,i,j,slot,gxs,gys,gnx,gny,m,n,dim,s,*cols = PETSC_NULL,k,nc,*rows = PETSC_NULL,col,cnt,l,p; PetscInt lstart,lend,pstart,pend,*dnz,*onz; MPI_Comm comm; PetscScalar *values; DMDABoundaryType bx,by; ISLocalToGlobalMapping ltog,ltogb; DMDAStencilType st; PetscFunctionBegin; /* nc - number of components per grid point col - number of colors needed in one direction for single component problem */ ierr = DMDAGetInfo(da,&dim,&m,&n,0,0,0,0,&nc,&s,&bx,&by,0,&st);CHKERRQ(ierr); col = 2*s + 1; ierr = DMDAGetCorners(da,&xs,&ys,0,&nx,&ny,0);CHKERRQ(ierr); ierr = DMDAGetGhostCorners(da,&gxs,&gys,0,&gnx,&gny,0);CHKERRQ(ierr); ierr = PetscObjectGetComm((PetscObject)da,&comm);CHKERRQ(ierr); ierr = PetscMalloc2(nc,PetscInt,&rows,col*col*nc*nc,PetscInt,&cols);CHKERRQ(ierr); ierr = DMGetLocalToGlobalMapping(da,<og);CHKERRQ(ierr); ierr = DMGetLocalToGlobalMappingBlock(da,<ogb);CHKERRQ(ierr); /* determine the matrix preallocation information */ ierr = MatPreallocateInitialize(comm,nc*nx*ny,nc*nx*ny,dnz,onz);CHKERRQ(ierr); for (i=xs; iprealloc_only) { ierr = PetscMalloc(col*col*nc*nc*sizeof(PetscScalar),&values);CHKERRQ(ierr); ierr = PetscMemzero(values,col*col*nc*nc*sizeof(PetscScalar));CHKERRQ(ierr); for (i=xs; idata; PetscInt ifill_col,*ofill = dd->ofill, *dfill = dd->dfill; MPI_Comm comm; PetscScalar *values; DMDABoundaryType bx,by; ISLocalToGlobalMapping ltog,ltogb; DMDAStencilType st; PetscFunctionBegin; /* nc - number of components per grid point col - number of colors needed in one direction for single component problem */ ierr = DMDAGetInfo(da,&dim,&m,&n,0,0,0,0,&nc,&s,&bx,&by,0,&st);CHKERRQ(ierr); col = 2*s + 1; ierr = DMDAGetCorners(da,&xs,&ys,0,&nx,&ny,0);CHKERRQ(ierr); ierr = DMDAGetGhostCorners(da,&gxs,&gys,0,&gnx,&gny,0);CHKERRQ(ierr); ierr = PetscObjectGetComm((PetscObject)da,&comm);CHKERRQ(ierr); ierr = PetscMalloc(col*col*nc*nc*sizeof(PetscInt),&cols);CHKERRQ(ierr); ierr = DMGetLocalToGlobalMapping(da,<og);CHKERRQ(ierr); ierr = DMGetLocalToGlobalMappingBlock(da,<ogb);CHKERRQ(ierr); /* determine the matrix preallocation information */ ierr = MatPreallocateInitialize(comm,nc*nx*ny,nc*nx*ny,dnz,onz);CHKERRQ(ierr); for (i=xs; iprealloc_only) { ierr = PetscMalloc(col*col*nc*nc*sizeof(PetscScalar),&values);CHKERRQ(ierr); ierr = PetscMemzero(values,col*col*nc*nc*sizeof(PetscScalar));CHKERRQ(ierr); for (i=xs; iprealloc_only) { ierr = PetscMalloc(col*col*col*nc*nc*nc*sizeof(PetscScalar),&values);CHKERRQ(ierr); ierr = PetscMemzero(values,col*col*col*nc*nc*nc*sizeof(PetscScalar));CHKERRQ(ierr); for (i=xs; idata; PetscInt xs,nx,i,j,gxs,gnx,row,k,l; PetscInt m,dim,s,*cols = PETSC_NULL,nc,col,cnt,*ocols; PetscInt *ofill = dd->ofill; PetscScalar *values; DMDABoundaryType bx; ISLocalToGlobalMapping ltog,ltogb; PetscMPIInt rank,size; PetscFunctionBegin; if (dd->bx == DMDA_BOUNDARY_PERIODIC) SETERRQ(((PetscObject)da)->comm,PETSC_ERR_SUP,"With fill provided not implemented with periodic boundary conditions"); ierr = MPI_Comm_rank(((PetscObject)da)->comm,&rank);CHKERRQ(ierr); ierr = MPI_Comm_size(((PetscObject)da)->comm,&size);CHKERRQ(ierr); /* nc - number of components per grid point col - number of colors needed in one direction for single component problem */ ierr = DMDAGetInfo(da,&dim,&m,0,0,0,0,0,&nc,&s,&bx,0,0,0);CHKERRQ(ierr); col = 2*s + 1; ierr = DMDAGetCorners(da,&xs,0,0,&nx,0,0);CHKERRQ(ierr); ierr = DMDAGetGhostCorners(da,&gxs,0,0,&gnx,0,0);CHKERRQ(ierr); ierr = MatSetBlockSize(J,nc);CHKERRQ(ierr); ierr = PetscMalloc2(nx*nc,PetscInt,&cols,nx*nc,PetscInt,&ocols);CHKERRQ(ierr); ierr = PetscMemzero(cols,nx*nc*sizeof(PetscInt));CHKERRQ(ierr); ierr = PetscMemzero(ocols,nx*nc*sizeof(PetscInt));CHKERRQ(ierr); /* note should be smaller for first and last process with no periodic does not handle dfill */ cnt = 0; /* coupling with process to the left */ for (i=0; iprealloc_only) { ierr = PetscMalloc(col*nc*nc*sizeof(PetscInt),&cols);CHKERRQ(ierr); ierr = PetscMalloc(col*nc*nc*sizeof(PetscScalar),&values);CHKERRQ(ierr); ierr = PetscMemzero(values,col*nc*nc*sizeof(PetscScalar));CHKERRQ(ierr); row = xs*nc; /* coupling with process to the left */ for (i=xs; iprealloc_only) { ierr = PetscMalloc2(nc,PetscInt,&rows,col*nc*nc,PetscInt,&cols);CHKERRQ(ierr); ierr = PetscMalloc(col*nc*nc*sizeof(PetscScalar),&values);CHKERRQ(ierr); ierr = PetscMemzero(values,col*nc*nc*sizeof(PetscScalar));CHKERRQ(ierr); for (i=xs; iprealloc_only) { ierr = PetscMalloc(col*col*nc*nc*sizeof(PetscScalar),&values);CHKERRQ(ierr); ierr = PetscMemzero(values,col*col*nc*nc*sizeof(PetscScalar));CHKERRQ(ierr); for (i=xs; iprealloc_only) { ierr = PetscMalloc(col*col*col*nc*nc*sizeof(PetscScalar),&values);CHKERRQ(ierr); ierr = PetscMemzero(values,col*col*col*nc*nc*sizeof(PetscScalar));CHKERRQ(ierr); for (i=xs; i= *row) col[n++] = col[i]; } *cnt = n; PetscFunctionReturn(0); } #undef __FUNCT__ #define __FUNCT__ "DMCreateMatrix_DA_2d_MPISBAIJ" PetscErrorCode DMCreateMatrix_DA_2d_MPISBAIJ(DM da,Mat J) { PetscErrorCode ierr; PetscInt xs,ys,nx,ny,i,j,slot,gxs,gys,gnx,gny; PetscInt m,n,dim,s,*cols,nc,col,cnt,*dnz,*onz; PetscInt istart,iend,jstart,jend,ii,jj; MPI_Comm comm; PetscScalar *values; DMDABoundaryType bx,by; DMDAStencilType st; ISLocalToGlobalMapping ltog,ltogb; PetscFunctionBegin; /* nc - number of components per grid point col - number of colors needed in one direction for single component problem */ ierr = DMDAGetInfo(da,&dim,&m,&n,0,0,0,0,&nc,&s,&bx,&by,0,&st);CHKERRQ(ierr); col = 2*s + 1; ierr = DMDAGetCorners(da,&xs,&ys,0,&nx,&ny,0);CHKERRQ(ierr); ierr = DMDAGetGhostCorners(da,&gxs,&gys,0,&gnx,&gny,0);CHKERRQ(ierr); ierr = PetscObjectGetComm((PetscObject)da,&comm);CHKERRQ(ierr); ierr = PetscMalloc(col*col*nc*nc*sizeof(PetscInt),&cols);CHKERRQ(ierr); ierr = DMGetLocalToGlobalMapping(da,<og);CHKERRQ(ierr); ierr = DMGetLocalToGlobalMappingBlock(da,<ogb);CHKERRQ(ierr); /* determine the matrix preallocation information */ ierr = MatPreallocateInitialize(comm,nx*ny,nx*ny,dnz,onz);CHKERRQ(ierr); for (i=xs; iprealloc_only) { ierr = PetscMalloc(col*col*nc*nc*sizeof(PetscScalar),&values);CHKERRQ(ierr); ierr = PetscMemzero(values,col*col*nc*nc*sizeof(PetscScalar));CHKERRQ(ierr); for (i=xs; iprealloc_only) { ierr = PetscMalloc(col*col*col*nc*nc*sizeof(PetscScalar),&values);CHKERRQ(ierr); ierr = PetscMemzero(values,col*col*col*nc*nc*sizeof(PetscScalar));CHKERRQ(ierr); for (i=xs; idata; PetscInt ifill_col,*dfill = dd->dfill,*ofill = dd->ofill; MPI_Comm comm; PetscScalar *values; DMDABoundaryType bx,by,bz; ISLocalToGlobalMapping ltog,ltogb; DMDAStencilType st; PetscFunctionBegin; /* nc - number of components per grid point col - number of colors needed in one direction for single component problem */ ierr = DMDAGetInfo(da,&dim,&m,&n,&p,0,0,0,&nc,&s,&bx,&by,&bz,&st);CHKERRQ(ierr); col = 2*s + 1; if (bx == DMDA_BOUNDARY_PERIODIC && (m % col)) SETERRQ(((PetscObject)da)->comm,PETSC_ERR_SUP,"For coloring efficiency ensure number of grid points in X is divisible\n\ by 2*stencil_width + 1\n"); if (by == DMDA_BOUNDARY_PERIODIC && (n % col)) SETERRQ(((PetscObject)da)->comm,PETSC_ERR_SUP,"For coloring efficiency ensure number of grid points in Y is divisible\n\ by 2*stencil_width + 1\n"); if (bz == DMDA_BOUNDARY_PERIODIC && (p % col)) SETERRQ(((PetscObject)da)->comm,PETSC_ERR_SUP,"For coloring efficiency ensure number of grid points in Z is divisible\n\ by 2*stencil_width + 1\n"); ierr = DMDAGetCorners(da,&xs,&ys,&zs,&nx,&ny,&nz);CHKERRQ(ierr); ierr = DMDAGetGhostCorners(da,&gxs,&gys,&gzs,&gnx,&gny,&gnz);CHKERRQ(ierr); ierr = PetscObjectGetComm((PetscObject)da,&comm);CHKERRQ(ierr); ierr = PetscMalloc(col*col*col*nc*sizeof(PetscInt),&cols);CHKERRQ(ierr); ierr = DMGetLocalToGlobalMapping(da,<og);CHKERRQ(ierr); ierr = DMGetLocalToGlobalMappingBlock(da,<ogb);CHKERRQ(ierr); /* determine the matrix preallocation information */ ierr = MatPreallocateInitialize(comm,nc*nx*ny*nz,nc*nx*ny*nz,dnz,onz);CHKERRQ(ierr); for (i=xs; iprealloc_only) { ierr = PetscMalloc(col*col*col*nc*nc*nc*sizeof(PetscScalar),&values);CHKERRQ(ierr); ierr = PetscMemzero(values,col*col*col*nc*nc*nc*sizeof(PetscScalar));CHKERRQ(ierr); for (i=xs; i