Actual source code: sbaijfact3.c


  2: #include <../src/mat/impls/sbaij/seq/sbaij.h>
  3: #include <petsc/private/kernels/blockinvert.h>

  5: /* Version for when blocks are 3 by 3  */
  6: PetscErrorCode MatCholeskyFactorNumeric_SeqSBAIJ_3(Mat C,Mat A,const MatFactorInfo *info)
  7: {
  8:   Mat_SeqSBAIJ   *a   = (Mat_SeqSBAIJ*)A->data,*b = (Mat_SeqSBAIJ*)C->data;
  9:   IS             perm = b->row;
 10:   const PetscInt *ai,*aj,*perm_ptr,mbs=a->mbs,*bi=b->i,*bj=b->j;
 11:   PetscInt       *a2anew,i,j,k,k1,jmin,jmax,*jl,*il,vj,nexti,ili;
 12:   MatScalar      *ba = b->a,*aa,*ap,*dk,*uik;
 13:   MatScalar      *u,*diag,*rtmp,*rtmp_ptr;
 14:   PetscReal      shift = info->shiftamount;
 15:   PetscBool      allowzeropivot,zeropivotdetected;

 17:   /* initialization */
 18:   allowzeropivot = PetscNot(A->erroriffailure);
 19:   PetscCalloc1(9*mbs,&rtmp);
 20:   PetscMalloc2(mbs,&il,mbs,&jl);
 21:   il[0] = 0;
 22:   for (i=0; i<mbs; i++) jl[i] = mbs;

 24:   PetscMalloc2(9,&dk,9,&uik);
 25:   ISGetIndices(perm,&perm_ptr);

 27:   /* check permutation */
 28:   if (!a->permute) {
 29:     ai = a->i; aj = a->j; aa = a->a;
 30:   } else {
 31:     ai   = a->inew; aj = a->jnew;
 32:     PetscMalloc1(9*ai[mbs],&aa);
 33:     PetscArraycpy(aa,a->a,9*ai[mbs]);
 34:     PetscMalloc1(ai[mbs],&a2anew);
 35:     PetscArraycpy(a2anew,a->a2anew,ai[mbs]);

 37:     for (i=0; i<mbs; i++) {
 38:       jmin = ai[i]; jmax = ai[i+1];
 39:       for (j=jmin; j<jmax; j++) {
 40:         while (a2anew[j] != j) {
 41:           k = a2anew[j]; a2anew[j] = a2anew[k]; a2anew[k] = k;
 42:           for (k1=0; k1<9; k1++) {
 43:             dk[k1]     = aa[k*9+k1];
 44:             aa[k*9+k1] = aa[j*9+k1];
 45:             aa[j*9+k1] = dk[k1];
 46:           }
 47:         }
 48:         /* transform columnoriented blocks that lie in the lower triangle to roworiented blocks */
 49:         if (i > aj[j]) {
 50:           /* printf("change orientation, row: %d, col: %d\n",i,aj[j]); */
 51:           ap = aa + j*9;                     /* ptr to the beginning of j-th block of aa */
 52:           for (k=0; k<9; k++) dk[k] = ap[k]; /* dk <- j-th block of aa */
 53:           for (k=0; k<3; k++) {               /* j-th block of aa <- dk^T */
 54:             for (k1=0; k1<3; k1++) *ap++ = dk[k + 3*k1];
 55:           }
 56:         }
 57:       }
 58:     }
 59:     PetscFree(a2anew);
 60:   }

 62:   /* for each row k */
 63:   for (k = 0; k<mbs; k++) {

 65:     /*initialize k-th row with elements nonzero in row perm(k) of A */
 66:     jmin = ai[perm_ptr[k]]; jmax = ai[perm_ptr[k]+1];
 67:     if (jmin < jmax) {
 68:       ap = aa + jmin*9;
 69:       for (j = jmin; j < jmax; j++) {
 70:         vj       = perm_ptr[aj[j]];   /* block col. index */
 71:         rtmp_ptr = rtmp + vj*9;
 72:         for (i=0; i<9; i++) *rtmp_ptr++ = *ap++;
 73:       }
 74:     }

 76:     /* modify k-th row by adding in those rows i with U(i,k) != 0 */
 77:     PetscArraycpy(dk,rtmp+k*9,9);
 78:     i    = jl[k]; /* first row to be added to k_th row  */

 80:     while (i < mbs) {
 81:       nexti = jl[i]; /* next row to be added to k_th row */

 83:       /* compute multiplier */
 84:       ili = il[i];  /* index of first nonzero element in U(i,k:bms-1) */

 86:       /* uik = -inv(Di)*U_bar(i,k) */
 87:       diag = ba + i*9;
 88:       u    = ba + ili*9;

 90:       uik[0] = -(diag[0]*u[0] + diag[3]*u[1] + diag[6]*u[2]);
 91:       uik[1] = -(diag[1]*u[0] + diag[4]*u[1] + diag[7]*u[2]);
 92:       uik[2] = -(diag[2]*u[0] + diag[5]*u[1] + diag[8]*u[2]);

 94:       uik[3] = -(diag[0]*u[3] + diag[3]*u[4] + diag[6]*u[5]);
 95:       uik[4] = -(diag[1]*u[3] + diag[4]*u[4] + diag[7]*u[5]);
 96:       uik[5] = -(diag[2]*u[3] + diag[5]*u[4] + diag[8]*u[5]);

 98:       uik[6] = -(diag[0]*u[6] + diag[3]*u[7] + diag[6]*u[8]);
 99:       uik[7] = -(diag[1]*u[6] + diag[4]*u[7] + diag[7]*u[8]);
100:       uik[8] = -(diag[2]*u[6] + diag[5]*u[7] + diag[8]*u[8]);

102:       /* update D(k) += -U(i,k)^T * U_bar(i,k) */
103:       dk[0] += uik[0]*u[0] + uik[1]*u[1] + uik[2]*u[2];
104:       dk[1] += uik[3]*u[0] + uik[4]*u[1] + uik[5]*u[2];
105:       dk[2] += uik[6]*u[0] + uik[7]*u[1] + uik[8]*u[2];

107:       dk[3] += uik[0]*u[3] + uik[1]*u[4] + uik[2]*u[5];
108:       dk[4] += uik[3]*u[3] + uik[4]*u[4] + uik[5]*u[5];
109:       dk[5] += uik[6]*u[3] + uik[7]*u[4] + uik[8]*u[5];

111:       dk[6] += uik[0]*u[6] + uik[1]*u[7] + uik[2]*u[8];
112:       dk[7] += uik[3]*u[6] + uik[4]*u[7] + uik[5]*u[8];
113:       dk[8] += uik[6]*u[6] + uik[7]*u[7] + uik[8]*u[8];

115:       PetscLogFlops(27.0*4.0);

117:       /* update -U(i,k) */
118:       PetscArraycpy(ba+ili*9,uik,9);

120:       /* add multiple of row i to k-th row ... */
121:       jmin = ili + 1; jmax = bi[i+1];
122:       if (jmin < jmax) {
123:         for (j=jmin; j<jmax; j++) {
124:           /* rtmp += -U(i,k)^T * U_bar(i,j) */
125:           rtmp_ptr     = rtmp + bj[j]*9;
126:           u            = ba + j*9;
127:           rtmp_ptr[0] += uik[0]*u[0] + uik[1]*u[1] + uik[2]*u[2];
128:           rtmp_ptr[1] += uik[3]*u[0] + uik[4]*u[1] + uik[5]*u[2];
129:           rtmp_ptr[2] += uik[6]*u[0] + uik[7]*u[1] + uik[8]*u[2];

131:           rtmp_ptr[3] += uik[0]*u[3] + uik[1]*u[4] + uik[2]*u[5];
132:           rtmp_ptr[4] += uik[3]*u[3] + uik[4]*u[4] + uik[5]*u[5];
133:           rtmp_ptr[5] += uik[6]*u[3] + uik[7]*u[4] + uik[8]*u[5];

135:           rtmp_ptr[6] += uik[0]*u[6] + uik[1]*u[7] + uik[2]*u[8];
136:           rtmp_ptr[7] += uik[3]*u[6] + uik[4]*u[7] + uik[5]*u[8];
137:           rtmp_ptr[8] += uik[6]*u[6] + uik[7]*u[7] + uik[8]*u[8];
138:         }
139:         PetscLogFlops(2.0*27.0*(jmax-jmin));

141:         /* ... add i to row list for next nonzero entry */
142:         il[i] = jmin;             /* update il(i) in column k+1, ... mbs-1 */
143:         j     = bj[jmin];
144:         jl[i] = jl[j]; jl[j] = i; /* update jl */
145:       }
146:       i = nexti;
147:     }

149:     /* save nonzero entries in k-th row of U ... */

151:     /* invert diagonal block */
152:     diag = ba+k*9;
153:     PetscArraycpy(diag,dk,9);
154:     PetscKernel_A_gets_inverse_A_3(diag,shift,allowzeropivot,&zeropivotdetected);
155:     if (zeropivotdetected) C->factorerrortype = MAT_FACTOR_NUMERIC_ZEROPIVOT;

157:     jmin = bi[k]; jmax = bi[k+1];
158:     if (jmin < jmax) {
159:       for (j=jmin; j<jmax; j++) {
160:         vj       = bj[j];      /* block col. index of U */
161:         u        = ba + j*9;
162:         rtmp_ptr = rtmp + vj*9;
163:         for (k1=0; k1<9; k1++) {
164:           *u++        = *rtmp_ptr;
165:           *rtmp_ptr++ = 0.0;
166:         }
167:       }

169:       /* ... add k to row list for first nonzero entry in k-th row */
170:       il[k] = jmin;
171:       i     = bj[jmin];
172:       jl[k] = jl[i]; jl[i] = k;
173:     }
174:   }

176:   PetscFree(rtmp);
177:   PetscFree2(il,jl);
178:   PetscFree2(dk,uik);
179:   if (a->permute) {
180:     PetscFree(aa);
181:   }

183:   ISRestoreIndices(perm,&perm_ptr);

185:   C->ops->solve          = MatSolve_SeqSBAIJ_3_inplace;
186:   C->ops->solvetranspose = MatSolve_SeqSBAIJ_3_inplace;
187:   C->assembled           = PETSC_TRUE;
188:   C->preallocated        = PETSC_TRUE;

190:   PetscLogFlops(1.3333*27*b->mbs); /* from inverting diagonal blocks */
191:   return 0;
192: }