Actual source code: ex54.c

petsc-3.5.4 2015-05-23
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  1: static char help[] = "Cahn-Hilliard-2d problem for constant mobility and triangular elements.\n\
  2: Runtime options include:\n\
  3: -xmin <xmin>\n\
  4: -xmax <xmax>\n\
  5: -ymin <ymin>\n\
  6: -T <T>, where <T> is the end time for the time domain simulation\n\
  7: -dt <dt>,where <dt> is the step size for the numerical integration\n\
  8: -gamma <gamma>\n\
  9: -theta_c <theta_c>\n\n";

 11: /*
 12:     Run with for example: -pc_type mg -pc_mg_galerkin -T .01 -da_grid_x 65 -da_grid_y 65 -pc_mg_levels 4 -ksp_type fgmres -snes_atol 1.e-14 -mat_no_inode
 13:  */

 15: #include <petscsnes.h>
 16: #include <petscdmda.h>

 18: typedef struct {
 19:   PetscReal   dt,T; /* Time step and end time */
 20:   DM          da;
 21:   Mat         M;    /* Jacobian matrix */
 22:   Mat         M_0;
 23:   Vec         q,u,work1;
 24:   PetscScalar gamma,theta_c; /* physics parameters */
 25:   PetscReal   xmin,xmax,ymin,ymax;
 26:   PetscBool   tsmonitor;
 27: } AppCtx;

 29: PetscErrorCode GetParams(AppCtx*);
 30: PetscErrorCode SetVariableBounds(DM,Vec,Vec);
 31: PetscErrorCode SetUpMatrices(AppCtx*);
 32: PetscErrorCode FormFunction(SNES,Vec,Vec,void*);
 33: PetscErrorCode FormJacobian(SNES,Vec,Mat,Mat,void*);
 34: PetscErrorCode SetInitialGuess(Vec,AppCtx*);
 35: PetscErrorCode Update_q(Vec,Vec,Mat,AppCtx*);
 36: PetscLogEvent event_update_q;

 40: int main(int argc, char **argv)
 41: {
 42:   PetscErrorCode             ierr;
 43:   Vec                        x,r; /* Solution and residual vectors */
 44:   SNES                       snes; /* Nonlinear solver context */
 45:   AppCtx                     user; /* Application context */
 46:   Vec                        xl,xu; /* Upper and lower bounds on variables */
 47:   Mat                        J;
 48:   PetscReal                  t=0.0;
 49:   PETSC_UNUSED PetscLogStage stage_timestep;
 50:   PetscInt                   its;

 52:   PetscInitialize(&argc,&argv, (char*)0, help);

 54:   /* Get physics and time parameters */
 55:   GetParams(&user);
 56:   /* Create a 2D DA with dof = 2 */
 57:   DMDACreate2d(PETSC_COMM_WORLD,DM_BOUNDARY_NONE,DM_BOUNDARY_NONE,DMDA_STENCIL_BOX,-4,-4,PETSC_DECIDE,PETSC_DECIDE,2,1,NULL,NULL,&user.da);
 58:   /* Set Element type (triangular) */
 59:   DMDASetElementType(user.da,DMDA_ELEMENT_P1);

 61:   /* Set x and y coordinates */
 62:   DMDASetUniformCoordinates(user.da,user.xmin,user.xmax,user.ymin,user.ymax,0.0,1.0);

 64:   /* Get global vector x from DM and duplicate vectors r,xl,xu */
 65:   DMCreateGlobalVector(user.da,&x);
 66:   VecDuplicate(x,&r);
 67:   VecDuplicate(x,&xl);
 68:   VecDuplicate(x,&xu);
 69:   VecDuplicate(x,&user.q);

 71:   /* Get Jacobian matrix structure from the da */
 72:   DMSetMatType(user.da,MATAIJ);
 73:   DMCreateMatrix(user.da,&user.M);
 74:   /* Form the jacobian matrix and M_0 */
 75:   SetUpMatrices(&user);
 76:   MatDuplicate(user.M,MAT_DO_NOT_COPY_VALUES,&J);

 78:   /* Create nonlinear solver context */
 79:   SNESCreate(PETSC_COMM_WORLD,&snes);
 80:   SNESSetDM(snes,user.da);

 82:   /* Set Function evaluation and jacobian evaluation routines */
 83:   SNESSetFunction(snes,r,FormFunction,(void*)&user);
 84:   SNESSetJacobian(snes,J,J,FormJacobian,(void*)&user);

 86:   /* Set the boundary conditions */
 87:   SetVariableBounds(user.da,xl,xu);
 88:   SNESVISetVariableBounds(snes,xl,xu);
 89:   SNESSetFromOptions(snes);

 91:   SetInitialGuess(x,&user);
 92:   PetscLogStageRegister("Time stepping",&stage_timestep);
 93:   PetscLogEventRegister("Update q",MAT_CLASSID,&event_update_q);
 94:   PetscLogStagePush(stage_timestep);
 95:   /* Begin time loop */
 96:   while (t < user.T) {
 97:     Update_q(user.q,user.u,user.M_0,&user);
 98:     SNESSolve(snes,NULL,x);
 99:     SNESGetIterationNumber(snes,&its);
100:     if (user.tsmonitor) {
101:       PetscPrintf(PETSC_COMM_WORLD,"SNESVI solver converged at t = %5.4f in %d iterations\n",t,its);
102:     }
103:     VecStrideGather(x,1,user.u,INSERT_VALUES);
104:     t    = t + user.dt;
105:   }
106:   PetscLogStagePop();

108:   VecDestroy(&x);
109:   VecDestroy(&r);
110:   VecDestroy(&xl);
111:   VecDestroy(&xu);
112:   VecDestroy(&user.q);
113:   VecDestroy(&user.u);
114:   VecDestroy(&user.work1);
115:   MatDestroy(&user.M);
116:   MatDestroy(&user.M_0);
117:   MatDestroy(&J);
118:   DMDestroy(&user.da);
119:   SNESDestroy(&snes);
120:   PetscFinalize();
121:   return 0;
122: }

126: PetscErrorCode Update_q(Vec q,Vec u,Mat M_0,AppCtx *user)
127: {
129:   PetscScalar    *q_arr,*w_arr;
130:   PetscInt       i,n;

133:   PetscLogEventBegin(event_update_q,0,0,0,0);
134:   MatMult(M_0,u,user->work1);
135:   VecScale(user->work1,-1.0);
136:   VecGetLocalSize(u,&n);
137:   VecGetArray(q,&q_arr);
138:   VecGetArray(user->work1,&w_arr);
139:   for (i=0; i<n; i++) q_arr[2*i]=q_arr[2*i+1] = w_arr[i];
140:   VecRestoreArray(q,&q_arr);
141:   VecRestoreArray(user->work1,&w_arr);
142:   PetscLogEventEnd(event_update_q,0,0,0,0);
143:   return(0);
144: }

148: PetscErrorCode SetInitialGuess(Vec X,AppCtx *user)
149: {
151:   PetscScalar    *x,*u;
152:   PetscInt       n,i;
153:   Vec            rand;

156:   /* u = -0.4 + 0.05*rand(N,1)*(rand(N,1) - 0.5) */
157:   VecDuplicate(user->u,&rand);
158:   VecSetRandom(rand,NULL);
159:   VecCopy(rand,user->u);
160:   VecShift(rand,-0.5);
161:   VecPointwiseMult(user->u,user->u,rand);
162:   VecDestroy(&rand);
163:   VecScale(user->u,0.05);
164:   VecShift(user->u,-0.4);

166:   VecGetLocalSize(X,&n);
167:   VecGetArray(X,&x);
168:   VecGetArray(user->u,&u);
169:   /* Set initial guess, only set value for 2nd dof */
170:   for (i=0; i<n/2; i++) x[2*i+1] = u[i];
171:   VecRestoreArray(X,&x);
172:   VecRestoreArray(user->u,&u);
173:   return(0);
174: }

178: PetscErrorCode FormFunction(SNES snes,Vec X,Vec F,void *ctx)
179: {
181:   AppCtx         *user=(AppCtx*)ctx;

184:   MatMultAdd(user->M,X,user->q,F);
185:   return(0);
186: }

190: PetscErrorCode FormJacobian(SNES snes,Vec X,Mat J,Mat B,void *ctx)
191: {
192:   PetscErrorCode   ierr;
193:   AppCtx           *user  =(AppCtx*)ctx;
194:   static PetscBool copied = PETSC_FALSE;

197:   /* for active set method the matrix does not get changed, so do not need to copy each time,
198:      if the active set remains the same for several solves the preconditioner does not need to be rebuilt*/
199:   if (!copied) {
200:     MatCopy(user->M,J,SAME_NONZERO_PATTERN);
201:     copied = PETSC_TRUE;
202:   }
203:   MatAssemblyBegin(J,MAT_FINAL_ASSEMBLY);
204:   MatAssemblyEnd(J,MAT_FINAL_ASSEMBLY);
205:   return(0);
206: }
209: PetscErrorCode SetVariableBounds(DM da,Vec xl,Vec xu)
210: {
212:   PetscScalar    ***l,***u;
213:   PetscInt       xs,xm,ys,ym;
214:   PetscInt       j,i;

217:   DMDAVecGetArrayDOF(da,xl,&l);
218:   DMDAVecGetArrayDOF(da,xu,&u);

220:   DMDAGetCorners(da,&xs,&ys,NULL,&xm,&ym,NULL);

222:   for (j=ys; j < ys+ym; j++) {
223:     for (i=xs; i < xs+xm;i++) {
224:       l[j][i][0] = -PETSC_INFINITY;
225:       l[j][i][1] = -1.0;
226:       u[j][i][0] = PETSC_INFINITY;
227:       u[j][i][1] = 1.0;
228:     }
229:   }

231:   DMDAVecRestoreArrayDOF(da,xl,&l);
232:   DMDAVecRestoreArrayDOF(da,xu,&u);
233:   return(0);
234: }

238: PetscErrorCode GetParams(AppCtx *user)
239: {
241:   PetscBool      flg;

244:   /* Set default parameters */
245:   user->tsmonitor = PETSC_FALSE;
246:   user->xmin      = 0.0;    user->xmax    = 1.0;
247:   user->ymin      = 0.0;    user->ymax    = 1.0;
248:   user->T         = 0.0002; user->dt      = 0.0001;
249:   user->gamma     = 3.2E-4; user->theta_c = 0;

251:   PetscOptionsGetBool(NULL,"-ts_monitor",&user->tsmonitor,NULL);
252:   PetscOptionsGetReal(NULL,"-xmin",&user->xmin,&flg);
253:   PetscOptionsGetReal(NULL,"-xmax",&user->xmax,&flg);
254:   PetscOptionsGetReal(NULL,"-ymin",&user->ymin,&flg);
255:   PetscOptionsGetReal(NULL,"-ymax",&user->ymax,&flg);
256:   PetscOptionsGetReal(NULL,"-T",&user->T,&flg);
257:   PetscOptionsGetReal(NULL,"-dt",&user->dt,&flg);
258:   PetscOptionsGetScalar(NULL,"-gamma",&user->gamma,&flg);
259:   PetscOptionsGetScalar(NULL,"-theta_c",&user->theta_c,&flg);
260:   return(0);
261: }

263: static void Gausspoints(PetscScalar *xx,PetscScalar *yy,PetscScalar *w,PetscScalar *x,PetscScalar *y)
264: {

266:   xx[0] = 2.0/3.0*x[0] + 1.0/6.0*x[1] + 1.0/6.0*x[2];
267:   xx[1] = 1.0/6.0*x[0] + 2.0/3.0*x[1] + 1.0/6.0*x[2];
268:   xx[2] = 1.0/6.0*x[0] + 1.0/6.0*x[1] + 2.0/3.0*x[2];

270:   yy[0] = 2.0/3.0*y[0] + 1.0/6.0*y[1] + 1.0/6.0*y[2];
271:   yy[1] = 1.0/6.0*y[0] + 2.0/3.0*y[1] + 1.0/6.0*y[2];
272:   yy[2] = 1.0/6.0*y[0] + 1.0/6.0*y[1] + 2.0/3.0*y[2];

274:   *w = PetscAbsScalar(x[0]*(y[2]-y[1]) + x[2]*(y[1]-y[0]) + x[1]*(y[0]-y[2]))/6.0;

276: }

278: static void ShapefunctionsT3(PetscScalar *phi,PetscScalar phider[][2],PetscScalar xx,PetscScalar yy,PetscScalar *x,PetscScalar *y)
279: {
280:   PetscScalar area,a1,a2,a3,b1,b2,b3,c1,c2,c3,pp;

282:   /* Area of the triangle */
283:   area = 1.0/2.0*PetscAbsScalar(x[0]*(y[2]-y[1]) + x[2]*(y[1]-y[0]) + x[1]*(y[0]-y[2]));

285:   a1 = x[1]*y[2]-x[2]*y[1]; a2 = x[2]*y[0]-x[0]*y[2]; a3 = x[0]*y[1]-x[1]*y[0];
286:   b1 = y[1]-y[2]; b2 = y[2]-y[0]; b3 = y[0]-y[1];
287:   c1 = x[2]-x[1]; c2 = x[0]-x[2]; c3 = x[1]-x[0];
288:   pp = 1.0/(2.0*area);

290:   /* shape functions */
291:   phi[0] = pp*(a1 + b1*xx + c1*yy);
292:   phi[1] = pp*(a2 + b2*xx + c2*yy);
293:   phi[2] = pp*(a3 + b3*xx + c3*yy);

295:   /* shape functions derivatives */
296:   phider[0][0] = pp*b1; phider[0][1] = pp*c1;
297:   phider[1][0] = pp*b2; phider[1][1] = pp*c2;
298:   phider[2][0] = pp*b3; phider[2][1] = pp*c3;

300: }

304: PetscErrorCode SetUpMatrices(AppCtx *user)
305: {
306:   PetscErrorCode    ierr;
307:   PetscInt          nele,nen,i;
308:   const PetscInt    *ele;
309:   PetscScalar       dt=user->dt;
310:   Vec               coords;
311:   const PetscScalar *_coords;
312:   PetscScalar       x[3],y[3],xx[3],yy[3],w;
313:   PetscInt          idx[3];
314:   PetscScalar       phi[3],phider[3][2];
315:   PetscScalar       eM_0[3][3],eM_2[3][3];
316:   Mat               M    =user->M;
317:   PetscScalar       gamma=user->gamma,theta_c=user->theta_c;
318:   PetscInt          m;
319:   PetscInt          j,k;
320:   PetscInt          row,cols[6],r;
321:   PetscScalar       vals[6];
322:   PetscInt          n,rstart;
323:   IS                isrow,iscol;

326:   /* Get ghosted coordinates */
327:   DMGetCoordinatesLocal(user->da,&coords);
328:   VecGetArrayRead(coords,&_coords);

330:   /* Get local element info */
331:   DMDAGetElements(user->da,&nele,&nen,&ele);
332:   for (i=0; i < nele; i++) {
333:     idx[0] = ele[3*i]; idx[1] = ele[3*i+1]; idx[2] = ele[3*i+2];
334:     x[0]   = _coords[2*idx[0]]; y[0] = _coords[2*idx[0]+1];
335:     x[1]   = _coords[2*idx[1]]; y[1] = _coords[2*idx[1]+1];
336:     x[2]   = _coords[2*idx[2]]; y[2] = _coords[2*idx[2]+1];

338:     PetscMemzero(xx,3*sizeof(PetscScalar));
339:     PetscMemzero(yy,3*sizeof(PetscScalar));
340:     Gausspoints(xx,yy,&w,x,y);

342:     eM_0[0][0]=eM_0[0][1]=eM_0[0][2]=0.0;
343:     eM_0[1][0]=eM_0[1][1]=eM_0[1][2]=0.0;
344:     eM_0[2][0]=eM_0[2][1]=eM_0[2][2]=0.0;
345:     eM_2[0][0]=eM_2[0][1]=eM_2[0][2]=0.0;
346:     eM_2[1][0]=eM_2[1][1]=eM_2[1][2]=0.0;
347:     eM_2[2][0]=eM_2[2][1]=eM_2[2][2]=0.0;


350:     for (m=0; m<3; m++) {
351:       PetscMemzero(phi,3*sizeof(PetscScalar));
352:       phider[0][0]=phider[0][1]=0.0;
353:       phider[1][0]=phider[1][1]=0.0;
354:       phider[2][0]=phider[2][1]=0.0;

356:       ShapefunctionsT3(phi,phider,xx[m],yy[m],x,y);

358:       for (j=0; j<3; j++) {
359:         for (k=0; k<3; k++) {
360:           eM_0[k][j] += phi[j]*phi[k]*w;
361:           eM_2[k][j] += phider[j][0]*phider[k][0]*w + phider[j][1]*phider[k][1]*w;
362:         }
363:       }
364:     }

366:     for (r=0; r<3; r++) {
367:       row     = 2*idx[r];
368:       cols[0] = 2*idx[0];     vals[0] = dt*eM_2[r][0];
369:       cols[1] = 2*idx[0]+1;   vals[1] = eM_0[r][0];
370:       cols[2] = 2*idx[1];     vals[2] = dt*eM_2[r][1];
371:       cols[3] = 2*idx[1]+1;   vals[3] = eM_0[r][1];
372:       cols[4] = 2*idx[2];     vals[4] = dt*eM_2[r][2];
373:       cols[5] = 2*idx[2]+1;   vals[5] = eM_0[r][2];

375:       /* Insert values in matrix M for 1st dof */
376:       MatSetValuesLocal(M,1,&row,6,cols,vals,ADD_VALUES);
377:       row     = 2*idx[r]+1;
378:       cols[0] = 2*idx[0];     vals[0] = -eM_0[r][0];
379:       cols[1] = 2*idx[0]+1;   vals[1] = gamma*eM_2[r][0]-theta_c*eM_0[r][0];
380:       cols[2] = 2*idx[1];     vals[2] = -eM_0[r][1];
381:       cols[3] = 2*idx[1]+1;   vals[3] = gamma*eM_2[r][1]-theta_c*eM_0[r][1];
382:       cols[4] = 2*idx[2];     vals[4] = -eM_0[r][2];
383:       cols[5] = 2*idx[2]+1;   vals[5] = gamma*eM_2[r][2]-theta_c*eM_2[r][2];

385:       /* Insert values in matrix M for 2nd dof */
386:       MatSetValuesLocal(M,1,&row,6,cols,vals,ADD_VALUES);
387:     }
388:   }

390:   DMDARestoreElements(user->da,&nele,&nen,&ele);
391:   VecRestoreArrayRead(coords,&_coords);

393:   MatAssemblyBegin(M,MAT_FINAL_ASSEMBLY);
394:   MatAssemblyEnd(M,MAT_FINAL_ASSEMBLY);

396:   /* Create ISs to extract matrix M_0 from M */

398:   MatGetLocalSize(M,&n,NULL);
399:   MatGetOwnershipRange(M,&rstart,NULL);
400:   ISCreateStride(PETSC_COMM_WORLD,n/2,rstart,2,&isrow);
401:   ISCreateStride(PETSC_COMM_WORLD,n/2,rstart+1,2,&iscol);

403:   /* Extract M_0 from M */
404:   MatGetSubMatrix(M,isrow,iscol,MAT_INITIAL_MATRIX,&user->M_0);
405:   VecCreate(PETSC_COMM_WORLD,&user->u);
406:   VecSetSizes(user->u,n/2,PETSC_DECIDE);
407:   VecSetFromOptions(user->u);
408:   VecDuplicate(user->u,&user->work1);
409:   ISDestroy(&isrow);
410:   ISDestroy(&iscol);
411:   return(0);
412: }