Actual source code: baijfact13.c

  1: /*$Id: baijfact13.c,v 1.4 2001/03/23 23:22:07 balay Exp $*/
  2: /*
  3:     Factorization code for BAIJ format. 
  4: */
 5:  #include src/mat/impls/baij/seq/baij.h
 6:  #include src/inline/ilu.h

  8: /* ------------------------------------------------------------*/
  9: /*
 10:       Version for when blocks are 3 by 3
 11: */
 14: int MatLUFactorNumeric_SeqBAIJ_3(Mat A,Mat *B)
 15: {
 16:   Mat         C = *B;
 17:   Mat_SeqBAIJ *a = (Mat_SeqBAIJ*)A->data,*b = (Mat_SeqBAIJ *)C->data;
 18:   IS          isrow = b->row,isicol = b->icol;
 19:   int         *r,*ic,ierr,i,j,n = a->mbs,*bi = b->i,*bj = b->j;
 20:   int         *ajtmpold,*ajtmp,nz,row,*ai=a->i,*aj=a->j;
 21:   int         *diag_offset = b->diag,idx,*pj;
 22:   MatScalar   *pv,*v,*rtmp,*pc,*w,*x;
 23:   MatScalar   p1,p2,p3,p4,m1,m2,m3,m4,m5,m6,m7,m8,m9,x1,x2,x3,x4;
 24:   MatScalar   p5,p6,p7,p8,p9,x5,x6,x7,x8,x9;
 25:   MatScalar   *ba = b->a,*aa = a->a;

 28:   ISGetIndices(isrow,&r);
 29:   ISGetIndices(isicol,&ic);
 30:   PetscMalloc(9*(n+1)*sizeof(MatScalar),&rtmp);

 32:   for (i=0; i<n; i++) {
 33:     nz    = bi[i+1] - bi[i];
 34:     ajtmp = bj + bi[i];
 35:     for  (j=0; j<nz; j++) {
 36:       x = rtmp + 9*ajtmp[j];
 37:       x[0] = x[1] = x[2] = x[3] = x[4] = x[5] = x[6] = x[7] = x[8] = 0.0;
 38:     }
 39:     /* load in initial (unfactored row) */
 40:     idx      = r[i];
 41:     nz       = ai[idx+1] - ai[idx];
 42:     ajtmpold = aj + ai[idx];
 43:     v        = aa + 9*ai[idx];
 44:     for (j=0; j<nz; j++) {
 45:       x    = rtmp + 9*ic[ajtmpold[j]];
 46:       x[0] = v[0]; x[1] = v[1]; x[2] = v[2]; x[3] = v[3];
 47:       x[4] = v[4]; x[5] = v[5]; x[6] = v[6]; x[7] = v[7]; x[8] = v[8];
 48:       v    += 9;
 49:     }
 50:     row = *ajtmp++;
 51:     while (row < i) {
 52:       pc = rtmp + 9*row;
 53:       p1 = pc[0]; p2 = pc[1]; p3 = pc[2]; p4 = pc[3];
 54:       p5 = pc[4]; p6 = pc[5]; p7 = pc[6]; p8 = pc[7]; p9 = pc[8];
 55:       if (p1 != 0.0 || p2 != 0.0 || p3 != 0.0 || p4 != 0.0 || p5 != 0.0 ||
 56:           p6 != 0.0 || p7 != 0.0 || p8 != 0.0 || p9 != 0.0) {
 57:         pv = ba + 9*diag_offset[row];
 58:         pj = bj + diag_offset[row] + 1;
 59:         x1 = pv[0]; x2 = pv[1]; x3 = pv[2]; x4 = pv[3];
 60:         x5 = pv[4]; x6 = pv[5]; x7 = pv[6]; x8 = pv[7]; x9 = pv[8];
 61:         pc[0] = m1 = p1*x1 + p4*x2 + p7*x3;
 62:         pc[1] = m2 = p2*x1 + p5*x2 + p8*x3;
 63:         pc[2] = m3 = p3*x1 + p6*x2 + p9*x3;

 65:         pc[3] = m4 = p1*x4 + p4*x5 + p7*x6;
 66:         pc[4] = m5 = p2*x4 + p5*x5 + p8*x6;
 67:         pc[5] = m6 = p3*x4 + p6*x5 + p9*x6;

 69:         pc[6] = m7 = p1*x7 + p4*x8 + p7*x9;
 70:         pc[7] = m8 = p2*x7 + p5*x8 + p8*x9;
 71:         pc[8] = m9 = p3*x7 + p6*x8 + p9*x9;
 72:         nz = bi[row+1] - diag_offset[row] - 1;
 73:         pv += 9;
 74:         for (j=0; j<nz; j++) {
 75:           x1   = pv[0]; x2 = pv[1]; x3 = pv[2]; x4 = pv[3];
 76:           x5   = pv[4]; x6 = pv[5]; x7 = pv[6]; x8 = pv[7]; x9 = pv[8];
 77:           x    = rtmp + 9*pj[j];
 78:           x[0] -= m1*x1 + m4*x2 + m7*x3;
 79:           x[1] -= m2*x1 + m5*x2 + m8*x3;
 80:           x[2] -= m3*x1 + m6*x2 + m9*x3;
 81: 
 82:           x[3] -= m1*x4 + m4*x5 + m7*x6;
 83:           x[4] -= m2*x4 + m5*x5 + m8*x6;
 84:           x[5] -= m3*x4 + m6*x5 + m9*x6;

 86:           x[6] -= m1*x7 + m4*x8 + m7*x9;
 87:           x[7] -= m2*x7 + m5*x8 + m8*x9;
 88:           x[8] -= m3*x7 + m6*x8 + m9*x9;
 89:           pv   += 9;
 90:         }
 91:         PetscLogFlops(54*nz+36);
 92:       }
 93:       row = *ajtmp++;
 94:     }
 95:     /* finished row so stick it into b->a */
 96:     pv = ba + 9*bi[i];
 97:     pj = bj + bi[i];
 98:     nz = bi[i+1] - bi[i];
 99:     for (j=0; j<nz; j++) {
100:       x     = rtmp + 9*pj[j];
101:       pv[0] = x[0]; pv[1] = x[1]; pv[2] = x[2]; pv[3] = x[3];
102:       pv[4] = x[4]; pv[5] = x[5]; pv[6] = x[6]; pv[7] = x[7]; pv[8] = x[8];
103:       pv   += 9;
104:     }
105:     /* invert diagonal block */
106:     w = ba + 9*diag_offset[i];
107:     Kernel_A_gets_inverse_A_3(w);
108:   }

110:   PetscFree(rtmp);
111:   ISRestoreIndices(isicol,&ic);
112:   ISRestoreIndices(isrow,&r);
113:   C->factor = FACTOR_LU;
114:   C->assembled = PETSC_TRUE;
115:   PetscLogFlops(1.3333*27*b->mbs); /* from inverting diagonal blocks */
116:   return(0);
117: }