1 2 /* 3 Code for manipulating distributed regular 1d arrays in parallel. 4 This file was created by Peter Mell 6/30/95 5 */ 6 7 #include <petsc-private/dmdaimpl.h> /*I "petscdmda.h" I*/ 8 9 #include <petscdraw.h> 10 #undef __FUNCT__ 11 #define __FUNCT__ "DMView_DA_1d" 12 PetscErrorCode DMView_DA_1d(DM da,PetscViewer viewer) 13 { 14 PetscErrorCode ierr; 15 PetscMPIInt rank; 16 PetscBool iascii,isdraw,isbinary; 17 DM_DA *dd = (DM_DA*)da->data; 18 #if defined(PETSC_HAVE_MATLAB_ENGINE) 19 PetscBool ismatlab; 20 #endif 21 22 PetscFunctionBegin; 23 ierr = MPI_Comm_rank(PetscObjectComm((PetscObject)da),&rank);CHKERRQ(ierr); 24 25 ierr = PetscObjectTypeCompare((PetscObject)viewer,PETSCVIEWERASCII,&iascii);CHKERRQ(ierr); 26 ierr = PetscObjectTypeCompare((PetscObject)viewer,PETSCVIEWERDRAW,&isdraw);CHKERRQ(ierr); 27 ierr = PetscObjectTypeCompare((PetscObject)viewer,PETSCVIEWERBINARY,&isbinary);CHKERRQ(ierr); 28 #if defined(PETSC_HAVE_MATLAB_ENGINE) 29 ierr = PetscObjectTypeCompare((PetscObject)viewer,PETSCVIEWERMATLAB,&ismatlab);CHKERRQ(ierr); 30 #endif 31 if (iascii) { 32 PetscViewerFormat format; 33 34 ierr = PetscViewerGetFormat(viewer, &format);CHKERRQ(ierr); 35 if (format != PETSC_VIEWER_ASCII_VTK && format != PETSC_VIEWER_ASCII_VTK_CELL) { 36 DMDALocalInfo info; 37 ierr = DMDAGetLocalInfo(da,&info);CHKERRQ(ierr); 38 ierr = PetscViewerASCIISynchronizedAllow(viewer,PETSC_TRUE);CHKERRQ(ierr); 39 ierr = PetscViewerASCIISynchronizedPrintf(viewer,"Processor [%d] M %D m %D w %D s %D\n",rank,dd->M,dd->m,dd->w,dd->s);CHKERRQ(ierr); 40 ierr = PetscViewerASCIISynchronizedPrintf(viewer,"X range of indices: %D %D\n",info.xs,info.xs+info.xm);CHKERRQ(ierr); 41 ierr = PetscViewerFlush(viewer);CHKERRQ(ierr); 42 ierr = PetscViewerASCIISynchronizedAllow(viewer,PETSC_FALSE);CHKERRQ(ierr); 43 } else { 44 ierr = DMView_DA_VTK(da, viewer);CHKERRQ(ierr); 45 } 46 } else if (isdraw) { 47 PetscDraw draw; 48 double ymin = -1,ymax = 1,xmin = -1,xmax = dd->M,x; 49 PetscInt base; 50 char node[10]; 51 PetscBool isnull; 52 53 ierr = PetscViewerDrawGetDraw(viewer,0,&draw);CHKERRQ(ierr); 54 ierr = PetscDrawIsNull(draw,&isnull);CHKERRQ(ierr); if (isnull) PetscFunctionReturn(0); 55 56 ierr = PetscDrawSetCoordinates(draw,xmin,ymin,xmax,ymax);CHKERRQ(ierr); 57 ierr = PetscDrawSynchronizedClear(draw);CHKERRQ(ierr); 58 59 /* first processor draws all node lines */ 60 if (!rank) { 61 PetscInt xmin_tmp; 62 ymin = 0.0; ymax = 0.3; 63 64 for (xmin_tmp=0; xmin_tmp < dd->M; xmin_tmp++) { 65 ierr = PetscDrawLine(draw,(double)xmin_tmp,ymin,(double)xmin_tmp,ymax,PETSC_DRAW_BLACK);CHKERRQ(ierr); 66 } 67 68 xmin = 0.0; xmax = dd->M - 1; 69 ierr = PetscDrawLine(draw,xmin,ymin,xmax,ymin,PETSC_DRAW_BLACK);CHKERRQ(ierr); 70 ierr = PetscDrawLine(draw,xmin,ymax,xmax,ymax,PETSC_DRAW_BLACK);CHKERRQ(ierr); 71 } 72 73 ierr = PetscDrawSynchronizedFlush(draw);CHKERRQ(ierr); 74 ierr = PetscDrawPause(draw);CHKERRQ(ierr); 75 76 /* draw my box */ 77 ymin = 0; ymax = 0.3; xmin = dd->xs / dd->w; xmax = (dd->xe / dd->w) - 1; 78 ierr = PetscDrawLine(draw,xmin,ymin,xmax,ymin,PETSC_DRAW_RED);CHKERRQ(ierr); 79 ierr = PetscDrawLine(draw,xmin,ymin,xmin,ymax,PETSC_DRAW_RED);CHKERRQ(ierr); 80 ierr = PetscDrawLine(draw,xmin,ymax,xmax,ymax,PETSC_DRAW_RED);CHKERRQ(ierr); 81 ierr = PetscDrawLine(draw,xmax,ymin,xmax,ymax,PETSC_DRAW_RED);CHKERRQ(ierr); 82 83 /* Put in index numbers */ 84 base = dd->base / dd->w; 85 for (x=xmin; x<=xmax; x++) { 86 sprintf(node,"%d",(int)base++); 87 ierr = PetscDrawString(draw,x,ymin,PETSC_DRAW_RED,node);CHKERRQ(ierr); 88 } 89 90 ierr = PetscDrawSynchronizedFlush(draw);CHKERRQ(ierr); 91 ierr = PetscDrawPause(draw);CHKERRQ(ierr); 92 } else if (isbinary) { 93 ierr = DMView_DA_Binary(da,viewer);CHKERRQ(ierr); 94 #if defined(PETSC_HAVE_MATLAB_ENGINE) 95 } else if (ismatlab) { 96 ierr = DMView_DA_Matlab(da,viewer);CHKERRQ(ierr); 97 #endif 98 } 99 PetscFunctionReturn(0); 100 } 101 102 103 #undef __FUNCT__ 104 #define __FUNCT__ "DMSetUp_DA_1D" 105 PetscErrorCode DMSetUp_DA_1D(DM da) 106 { 107 DM_DA *dd = (DM_DA*)da->data; 108 const PetscInt M = dd->M; 109 const PetscInt dof = dd->w; 110 const PetscInt s = dd->s; 111 const PetscInt sDist = s; /* stencil distance in points */ 112 const PetscInt *lx = dd->lx; 113 DMBoundaryType bx = dd->bx; 114 MPI_Comm comm; 115 Vec local, global; 116 VecScatter ltog, gtol; 117 IS to, from; 118 PetscBool flg1 = PETSC_FALSE, flg2 = PETSC_FALSE; 119 PetscMPIInt rank, size; 120 PetscInt i,*idx,nn,left,xs,xe,x,Xs,Xe,start,end,m,IXs,IXe; 121 PetscErrorCode ierr; 122 123 PetscFunctionBegin; 124 ierr = PetscObjectGetComm((PetscObject) da, &comm);CHKERRQ(ierr); 125 ierr = MPI_Comm_size(comm,&size);CHKERRQ(ierr); 126 ierr = MPI_Comm_rank(comm,&rank);CHKERRQ(ierr); 127 128 dd->m = size; 129 m = dd->m; 130 131 if (s > 0) { 132 /* if not communicating data then should be ok to have nothing on some processes */ 133 if (M < m) SETERRQ2(PETSC_COMM_SELF,PETSC_ERR_ARG_OUTOFRANGE,"More processes than data points! %D %D",m,M); 134 if ((M-1) < s) SETERRQ2(PETSC_COMM_SELF,PETSC_ERR_ARG_OUTOFRANGE,"Array is too small for stencil! %D %D",M-1,s); 135 } 136 137 /* 138 Determine locally owned region 139 xs is the first local node number, x is the number of local nodes 140 */ 141 if (!lx) { 142 ierr = PetscMalloc1(m, &dd->lx);CHKERRQ(ierr); 143 ierr = PetscOptionsGetBool(NULL,"-da_partition_blockcomm",&flg1,NULL);CHKERRQ(ierr); 144 ierr = PetscOptionsGetBool(NULL,"-da_partition_nodes_at_end",&flg2,NULL);CHKERRQ(ierr); 145 if (flg1) { /* Block Comm type Distribution */ 146 xs = rank*M/m; 147 x = (rank + 1)*M/m - xs; 148 } else if (flg2) { /* The odd nodes are evenly distributed across last nodes */ 149 x = (M + rank)/m; 150 if (M/m == x) xs = rank*x; 151 else xs = rank*(x-1) + (M+rank)%(x*m); 152 } else { /* The odd nodes are evenly distributed across the first k nodes */ 153 /* Regular PETSc Distribution */ 154 x = M/m + ((M % m) > rank); 155 if (rank >= (M % m)) xs = (rank * (PetscInt)(M/m) + M % m); 156 else xs = rank * (PetscInt)(M/m) + rank; 157 } 158 ierr = MPI_Allgather(&xs,1,MPIU_INT,dd->lx,1,MPIU_INT,comm);CHKERRQ(ierr); 159 for (i=0; i<m-1; i++) dd->lx[i] = dd->lx[i+1] - dd->lx[i]; 160 dd->lx[m-1] = M - dd->lx[m-1]; 161 } else { 162 x = lx[rank]; 163 xs = 0; 164 for (i=0; i<rank; i++) xs += lx[i]; 165 /* verify that data user provided is consistent */ 166 left = xs; 167 for (i=rank; i<size; i++) left += lx[i]; 168 if (left != M) SETERRQ2(PETSC_COMM_SELF,PETSC_ERR_ARG_OUTOFRANGE,"Sum of lx across processors not equal to M %D %D",left,M); 169 } 170 171 /* 172 check if the scatter requires more than one process neighbor or wraps around 173 the domain more than once 174 */ 175 if ((x < s) & ((M > 1) | (bx == DM_BOUNDARY_PERIODIC))) SETERRQ2(PETSC_COMM_SELF,PETSC_ERR_ARG_OUTOFRANGE,"Local x-width of domain x %D is smaller than stencil width s %D",x,s); 176 177 xe = xs + x; 178 179 /* determine ghost region (Xs) and region scattered into (IXs) */ 180 if (xs-sDist > 0) { 181 Xs = xs - sDist; 182 IXs = xs - sDist; 183 } else { 184 if (bx) Xs = xs - sDist; 185 else Xs = 0; 186 IXs = 0; 187 } 188 if (xe+sDist <= M) { 189 Xe = xe + sDist; 190 IXe = xe + sDist; 191 } else { 192 if (bx) Xe = xe + sDist; 193 else Xe = M; 194 IXe = M; 195 } 196 197 if (bx == DM_BOUNDARY_PERIODIC || bx == DM_BOUNDARY_MIRROR) { 198 Xs = xs - sDist; 199 Xe = xe + sDist; 200 IXs = xs - sDist; 201 IXe = xe + sDist; 202 } 203 204 /* allocate the base parallel and sequential vectors */ 205 dd->Nlocal = dof*x; 206 ierr = VecCreateMPIWithArray(comm,dof,dd->Nlocal,PETSC_DECIDE,0,&global);CHKERRQ(ierr); 207 dd->nlocal = dof*(Xe-Xs); 208 ierr = VecCreateSeqWithArray(PETSC_COMM_SELF,dof,dd->nlocal,0,&local);CHKERRQ(ierr); 209 210 /* Create Local to Global Vector Scatter Context */ 211 /* local to global inserts non-ghost point region into global */ 212 ierr = VecGetOwnershipRange(global,&start,&end);CHKERRQ(ierr); 213 ierr = ISCreateStride(comm,dof*x,start,1,&to);CHKERRQ(ierr); 214 ierr = ISCreateStride(comm,dof*x,dof*(xs-Xs),1,&from);CHKERRQ(ierr); 215 ierr = VecScatterCreate(local,from,global,to,<og);CHKERRQ(ierr); 216 ierr = PetscLogObjectParent((PetscObject)da,(PetscObject)ltog);CHKERRQ(ierr); 217 ierr = ISDestroy(&from);CHKERRQ(ierr); 218 ierr = ISDestroy(&to);CHKERRQ(ierr); 219 220 /* Create Global to Local Vector Scatter Context */ 221 /* global to local must retrieve ghost points */ 222 ierr = ISCreateStride(comm,dof*(IXe-IXs),dof*(IXs-Xs),1,&to);CHKERRQ(ierr); 223 224 ierr = PetscMalloc1((x+2*(sDist)),&idx);CHKERRQ(ierr); 225 ierr = PetscLogObjectMemory((PetscObject)da,(x+2*(sDist))*sizeof(PetscInt));CHKERRQ(ierr); 226 227 for (i=0; i<IXs-Xs; i++) idx[i] = -1; /* prepend with -1s if needed for ghosted case*/ 228 229 nn = IXs-Xs; 230 if (bx == DM_BOUNDARY_PERIODIC) { /* Handle all cases with periodic first */ 231 for (i=0; i<sDist; i++) { /* Left ghost points */ 232 if ((xs-sDist+i)>=0) idx[nn++] = xs-sDist+i; 233 else idx[nn++] = M+(xs-sDist+i); 234 } 235 236 for (i=0; i<x; i++) idx [nn++] = xs + i; /* Non-ghost points */ 237 238 for (i=0; i<sDist; i++) { /* Right ghost points */ 239 if ((xe+i)<M) idx [nn++] = xe+i; 240 else idx [nn++] = (xe+i) - M; 241 } 242 } else if (bx == DM_BOUNDARY_MIRROR) { /* Handle all cases with periodic first */ 243 for (i=0; i<(sDist); i++) { /* Left ghost points */ 244 if ((xs-sDist+i)>=0) idx[nn++] = xs-sDist+i; 245 else idx[nn++] = sDist - i; 246 } 247 248 for (i=0; i<x; i++) idx [nn++] = xs + i; /* Non-ghost points */ 249 250 for (i=0; i<(sDist); i++) { /* Right ghost points */ 251 if ((xe+i)<dof) idx[nn++] = xe+i; 252 else idx[nn++] = M - (i + 2); 253 } 254 } else { /* Now do all cases with no periodicity */ 255 if (0 <= xs-sDist) { 256 for (i=0; i<sDist; i++) idx[nn++] = xs - sDist + i; 257 } else { 258 for (i=0; i<xs; i++) idx[nn++] = i; 259 } 260 261 for (i=0; i<x; i++) idx [nn++] = xs + i; 262 263 if ((xe+sDist)<=M) { 264 for (i=0; i<sDist; i++) idx[nn++]=xe+i; 265 } else { 266 for (i=xe; i<M; i++) idx[nn++]=i; 267 } 268 } 269 270 ierr = ISCreateBlock(comm,dof,nn-IXs+Xs,&idx[IXs-Xs],PETSC_COPY_VALUES,&from);CHKERRQ(ierr); 271 ierr = VecScatterCreate(global,from,local,to,>ol);CHKERRQ(ierr); 272 ierr = PetscLogObjectParent((PetscObject)da,(PetscObject)to);CHKERRQ(ierr); 273 ierr = PetscLogObjectParent((PetscObject)da,(PetscObject)from);CHKERRQ(ierr); 274 ierr = PetscLogObjectParent((PetscObject)da,(PetscObject)gtol);CHKERRQ(ierr); 275 ierr = ISDestroy(&to);CHKERRQ(ierr); 276 ierr = ISDestroy(&from);CHKERRQ(ierr); 277 ierr = VecDestroy(&local);CHKERRQ(ierr); 278 ierr = VecDestroy(&global);CHKERRQ(ierr); 279 280 dd->xs = xs; dd->xe = xe; dd->ys = 0; dd->ye = 1; dd->zs = 0; dd->ze = 1; 281 dd->Xs = Xs; dd->Xe = Xe; dd->Ys = 0; dd->Ye = 1; dd->Zs = 0; dd->Ze = 1; 282 283 dd->gtol = gtol; 284 dd->ltog = ltog; 285 dd->base = xs; 286 da->ops->view = DMView_DA_1d; 287 288 /* 289 Set the local to global ordering in the global vector, this allows use 290 of VecSetValuesLocal(). 291 */ 292 for (i=0; i<Xe-IXe; i++) idx[nn++] = -1; /* pad with -1s if needed for ghosted case*/ 293 294 ierr = ISLocalToGlobalMappingCreate(comm,dof,nn,idx,PETSC_OWN_POINTER,&da->ltogmap);CHKERRQ(ierr); 295 ierr = PetscLogObjectParent((PetscObject)da,(PetscObject)da->ltogmap);CHKERRQ(ierr); 296 297 PetscFunctionReturn(0); 298 } 299 300 301 #undef __FUNCT__ 302 #define __FUNCT__ "DMDACreate1d" 303 /*@C 304 DMDACreate1d - Creates an object that will manage the communication of one-dimensional 305 regular array data that is distributed across some processors. 306 307 Collective on MPI_Comm 308 309 Input Parameters: 310 + comm - MPI communicator 311 . bx - type of ghost cells at the boundary the array should have, if any. Use 312 DM_BOUNDARY_NONE, DM_BOUNDARY_GHOSTED, or DM_BOUNDARY_PERIODIC. 313 . M - global dimension of the array (use -M to indicate that it may be set to a different value 314 from the command line with -da_grid_x <M>) 315 . dof - number of degrees of freedom per node 316 . s - stencil width 317 - lx - array containing number of nodes in the X direction on each processor, 318 or NULL. If non-null, must be of length as the number of processes in the MPI_Comm. 319 320 Output Parameter: 321 . da - the resulting distributed array object 322 323 Options Database Key: 324 + -dm_view - Calls DMView() at the conclusion of DMDACreate1d() 325 . -da_grid_x <nx> - number of grid points in x direction; can set if M < 0 326 . -da_refine_x <rx> - refinement factor 327 - -da_refine <n> - refine the DMDA n times before creating it, if M < 0 328 329 Level: beginner 330 331 Notes: 332 The array data itself is NOT stored in the DMDA, it is stored in Vec objects; 333 The appropriate vector objects can be obtained with calls to DMCreateGlobalVector() 334 and DMCreateLocalVector() and calls to VecDuplicate() if more are needed. 335 336 .keywords: distributed array, create, one-dimensional 337 338 .seealso: DMDestroy(), DMView(), DMDACreate2d(), DMDACreate3d(), DMGlobalToLocalBegin(), DMDASetRefinementFactor(), 339 DMGlobalToLocalEnd(), DMLocalToGlobalBegin(), DMLocalToLocalBegin(), DMLocalToLocalEnd(), DMDAGetRefinementFactor(), 340 DMDAGetInfo(), DMCreateGlobalVector(), DMCreateLocalVector(), DMDACreateNaturalVector(), DMLoad(), DMDAGetOwnershipRanges() 341 342 @*/ 343 PetscErrorCode DMDACreate1d(MPI_Comm comm, DMBoundaryType bx, PetscInt M, PetscInt dof, PetscInt s, const PetscInt lx[], DM *da) 344 { 345 PetscErrorCode ierr; 346 PetscMPIInt size; 347 348 PetscFunctionBegin; 349 ierr = DMDACreate(comm, da);CHKERRQ(ierr); 350 ierr = DMDASetDim(*da, 1);CHKERRQ(ierr); 351 ierr = DMDASetSizes(*da, M, 1, 1);CHKERRQ(ierr); 352 ierr = MPI_Comm_size(comm, &size);CHKERRQ(ierr); 353 ierr = DMDASetNumProcs(*da, size, PETSC_DECIDE, PETSC_DECIDE);CHKERRQ(ierr); 354 ierr = DMDASetBoundaryType(*da, bx, DM_BOUNDARY_NONE, DM_BOUNDARY_NONE);CHKERRQ(ierr); 355 ierr = DMDASetDof(*da, dof);CHKERRQ(ierr); 356 ierr = DMDASetStencilWidth(*da, s);CHKERRQ(ierr); 357 ierr = DMDASetOwnershipRanges(*da, lx, NULL, NULL);CHKERRQ(ierr); 358 /* This violates the behavior for other classes, but right now users expect negative dimensions to be handled this way */ 359 ierr = DMSetFromOptions(*da);CHKERRQ(ierr); 360 ierr = DMSetUp(*da);CHKERRQ(ierr); 361 PetscFunctionReturn(0); 362 } 363