Actual source code: daview.c
petsc-3.5.4 2015-05-23
2: /*
3: Code for manipulating distributed regular arrays in parallel.
4: */
6: #include <petsc-private/dmdaimpl.h> /*I "petscdmda.h" I*/
8: #if defined(PETSC_HAVE_MATLAB_ENGINE)
9: #include <mat.h> /* MATLAB include file */
13: PetscErrorCode DMView_DA_Matlab(DM da,PetscViewer viewer)
14: {
15: PetscErrorCode ierr;
16: PetscMPIInt rank;
17: PetscInt dim,m,n,p,dof,swidth;
18: DMDAStencilType stencil;
19: DMBoundaryType bx,by,bz;
20: mxArray *mx;
21: const char *fnames[] = {"dimension","m","n","p","dof","stencil_width","bx","by","bz","stencil_type"};
24: MPI_Comm_rank(PetscObjectComm((PetscObject)da),&rank);
25: if (!rank) {
26: DMDAGetInfo(da,&dim,&m,&n,&p,0,0,0,&dof,&swidth,&bx,&by,&bz,&stencil);
27: mx = mxCreateStructMatrix(1,1,8,(const char**)fnames);
28: if (!mx) SETERRQ(PETSC_COMM_SELF,PETSC_ERR_LIB,"Unable to generate MATLAB struct array to hold DMDA informations");
29: mxSetFieldByNumber(mx,0,0,mxCreateDoubleScalar((double)dim));
30: mxSetFieldByNumber(mx,0,1,mxCreateDoubleScalar((double)m));
31: mxSetFieldByNumber(mx,0,2,mxCreateDoubleScalar((double)n));
32: mxSetFieldByNumber(mx,0,3,mxCreateDoubleScalar((double)p));
33: mxSetFieldByNumber(mx,0,4,mxCreateDoubleScalar((double)dof));
34: mxSetFieldByNumber(mx,0,5,mxCreateDoubleScalar((double)swidth));
35: mxSetFieldByNumber(mx,0,6,mxCreateDoubleScalar((double)bx));
36: mxSetFieldByNumber(mx,0,7,mxCreateDoubleScalar((double)by));
37: mxSetFieldByNumber(mx,0,8,mxCreateDoubleScalar((double)bz));
38: mxSetFieldByNumber(mx,0,9,mxCreateDoubleScalar((double)stencil));
39: PetscObjectName((PetscObject)da);
40: PetscViewerMatlabPutVariable(viewer,((PetscObject)da)->name,mx);
41: }
42: return(0);
43: }
44: #endif
48: PetscErrorCode DMView_DA_Binary(DM da,PetscViewer viewer)
49: {
50: PetscErrorCode ierr;
51: PetscMPIInt rank;
52: PetscInt dim,m,n,p,dof,swidth,M,N,P;
53: DMDAStencilType stencil;
54: DMBoundaryType bx,by,bz;
55: MPI_Comm comm;
56: PetscBool coors = PETSC_FALSE;
59: PetscObjectGetComm((PetscObject)da,&comm);
61: DMDAGetInfo(da,&dim,&m,&n,&p,&M,&N,&P,&dof,&swidth,&bx,&by,&bz,&stencil);
62: MPI_Comm_rank(comm,&rank);
63: if (!rank) {
64: PetscViewerBinaryWrite(viewer,&dim,1,PETSC_INT,PETSC_FALSE);
65: PetscViewerBinaryWrite(viewer,&m,1,PETSC_INT,PETSC_FALSE);
66: PetscViewerBinaryWrite(viewer,&n,1,PETSC_INT,PETSC_FALSE);
67: PetscViewerBinaryWrite(viewer,&p,1,PETSC_INT,PETSC_FALSE);
68: PetscViewerBinaryWrite(viewer,&dof,1,PETSC_INT,PETSC_FALSE);
69: PetscViewerBinaryWrite(viewer,&swidth,1,PETSC_INT,PETSC_FALSE);
70: PetscViewerBinaryWrite(viewer,&bx,1,PETSC_ENUM,PETSC_FALSE);
71: PetscViewerBinaryWrite(viewer,&by,1,PETSC_ENUM,PETSC_FALSE);
72: PetscViewerBinaryWrite(viewer,&bz,1,PETSC_ENUM,PETSC_FALSE);
73: PetscViewerBinaryWrite(viewer,&stencil,1,PETSC_ENUM,PETSC_FALSE);
74: if (da->coordinates) coors = PETSC_TRUE;
75: PetscViewerBinaryWrite(viewer,&coors,1,PETSC_BOOL,PETSC_FALSE);
76: }
78: /* save the coordinates if they exist to disk (in the natural ordering) */
79: if (da->coordinates) {
80: VecView(da->coordinates,viewer);
81: }
82: return(0);
83: }
87: PetscErrorCode DMView_DA_VTK(DM da, PetscViewer viewer)
88: {
89: PetscInt dim, dof, M = 0, N = 0, P = 0;
93: DMDAGetInfo(da, &dim, &M, &N, &P, NULL, NULL, NULL, &dof, NULL, NULL, NULL, NULL, NULL);
94: if (!da->coordinates) SETERRQ(PetscObjectComm((PetscObject)da),PETSC_ERR_SUP, "VTK output requires DMDA coordinates.");
95: /* Write Header */
96: PetscViewerASCIIPrintf(viewer,"# vtk DataFile Version 2.0\n");
97: PetscViewerASCIIPrintf(viewer,"Structured Mesh Example\n");
98: PetscViewerASCIIPrintf(viewer,"ASCII\n");
99: PetscViewerASCIIPrintf(viewer,"DATASET STRUCTURED_GRID\n");
100: PetscViewerASCIIPrintf(viewer,"DIMENSIONS %d %d %d\n", M, N, P);
101: PetscViewerASCIIPrintf(viewer,"POINTS %d double\n", M*N*P);
102: if (da->coordinates) {
103: DM dac;
104: Vec natural;
106: DMGetCoordinateDM(da, &dac);
107: DMDACreateNaturalVector(dac, &natural);
108: PetscObjectSetOptionsPrefix((PetscObject) natural, "coor_");
109: DMDAGlobalToNaturalBegin(dac, da->coordinates, INSERT_VALUES, natural);
110: DMDAGlobalToNaturalEnd(dac, da->coordinates, INSERT_VALUES, natural);
111: PetscViewerPushFormat(viewer, PETSC_VIEWER_ASCII_VTK_COORDS);
112: VecView(natural, viewer);
113: PetscViewerPopFormat(viewer);
114: VecDestroy(&natural);
115: }
116: return(0);
117: }
121: /*@C
122: DMDAGetInfo - Gets information about a given distributed array.
124: Not Collective
126: Input Parameter:
127: . da - the distributed array
129: Output Parameters:
130: + dim - dimension of the distributed array (1, 2, or 3)
131: . M, N, P - global dimension in each direction of the array
132: . m, n, p - corresponding number of procs in each dimension
133: . dof - number of degrees of freedom per node
134: . s - stencil width
135: . bx,by,bz - type of ghost nodes at boundary, one of DM_BOUNDARY_NONE, DM_BOUNDARY_GHOSTED,
136: DM_BOUNDARY_MIRROR, DM_BOUNDARY_PERIODIC
137: - st - stencil type, either DMDA_STENCIL_STAR or DMDA_STENCIL_BOX
139: Level: beginner
141: Note:
142: Use NULL (NULL_INTEGER in Fortran) in place of any output parameter that is not of interest.
144: .keywords: distributed array, get, information
146: .seealso: DMView(), DMDAGetCorners(), DMDAGetLocalInfo()
147: @*/
148: PetscErrorCode DMDAGetInfo(DM da,PetscInt *dim,PetscInt *M,PetscInt *N,PetscInt *P,PetscInt *m,PetscInt *n,PetscInt *p,PetscInt *dof,PetscInt *s,DMBoundaryType *bx,DMBoundaryType *by,DMBoundaryType *bz,DMDAStencilType *st)
149: {
150: DM_DA *dd = (DM_DA*)da->data;
154: if (dim) *dim = dd->dim;
155: if (M) {
156: if (dd->Mo < 0) *M = dd->M;
157: else *M = dd->Mo;
158: }
159: if (N) {
160: if (dd->No < 0) *N = dd->N;
161: else *N = dd->No;
162: }
163: if (P) {
164: if (dd->Po < 0) *P = dd->P;
165: else *P = dd->Po;
166: }
167: if (m) *m = dd->m;
168: if (n) *n = dd->n;
169: if (p) *p = dd->p;
170: if (dof) *dof = dd->w;
171: if (s) *s = dd->s;
172: if (bx) *bx = dd->bx;
173: if (by) *by = dd->by;
174: if (bz) *bz = dd->bz;
175: if (st) *st = dd->stencil_type;
176: return(0);
177: }
181: /*@C
182: DMDAGetLocalInfo - Gets information about a given distributed array and this processors location in it
184: Not Collective
186: Input Parameter:
187: . da - the distributed array
189: Output Parameters:
190: . dainfo - structure containing the information
192: Level: beginner
194: .keywords: distributed array, get, information
196: .seealso: DMDAGetInfo(), DMDAGetCorners()
197: @*/
198: PetscErrorCode DMDAGetLocalInfo(DM da,DMDALocalInfo *info)
199: {
200: PetscInt w;
201: DM_DA *dd = (DM_DA*)da->data;
206: info->da = da;
207: info->dim = dd->dim;
208: if (dd->Mo < 0) info->mx = dd->M;
209: else info->mx = dd->Mo;
210: if (dd->No < 0) info->my = dd->N;
211: else info->my = dd->No;
212: if (dd->Po < 0) info->mz = dd->P;
213: else info->mz = dd->Po;
214: info->dof = dd->w;
215: info->sw = dd->s;
216: info->bx = dd->bx;
217: info->by = dd->by;
218: info->bz = dd->bz;
219: info->st = dd->stencil_type;
221: /* since the xs, xe ... have all been multiplied by the number of degrees
222: of freedom per cell, w = dd->w, we divide that out before returning.*/
223: w = dd->w;
224: info->xs = dd->xs/w + dd->xo;
225: info->xm = (dd->xe - dd->xs)/w;
226: /* the y and z have NOT been multiplied by w */
227: info->ys = dd->ys + dd->yo;
228: info->ym = (dd->ye - dd->ys);
229: info->zs = dd->zs + dd->zo;
230: info->zm = (dd->ze - dd->zs);
232: info->gxs = dd->Xs/w + dd->xo;
233: info->gxm = (dd->Xe - dd->Xs)/w;
234: /* the y and z have NOT been multiplied by w */
235: info->gys = dd->Ys + dd->yo;
236: info->gym = (dd->Ye - dd->Ys);
237: info->gzs = dd->Zs + dd->zo;
238: info->gzm = (dd->Ze - dd->Zs);
239: return(0);
240: }