Actual source code: baijsolvtrannat6.c
petsc-3.12.5 2020-03-29
1: #include <../src/mat/impls/baij/seq/baij.h>
3: PetscErrorCode MatSolveTranspose_SeqBAIJ_6_NaturalOrdering_inplace(Mat A,Vec bb,Vec xx)
4: {
5: Mat_SeqBAIJ *a=(Mat_SeqBAIJ*)A->data;
6: PetscErrorCode ierr;
7: const PetscInt *diag=a->diag,n=a->mbs,*vi,*ai=a->i,*aj=a->j;
8: PetscInt i,nz,idx,idt,oidx;
9: const MatScalar *aa=a->a,*v;
10: PetscScalar s1,s2,s3,s4,s5,s6,x1,x2,x3,x4,x5,x6,*x;
13: VecCopy(bb,xx);
14: VecGetArray(xx,&x);
16: /* forward solve the U^T */
17: idx = 0;
18: for (i=0; i<n; i++) {
20: v = aa + 36*diag[i];
21: /* multiply by the inverse of the block diagonal */
22: x1 = x[idx]; x2 = x[1+idx]; x3 = x[2+idx]; x4 = x[3+idx]; x5 = x[4+idx];
23: x6 = x[5+idx];
24: s1 = v[0]*x1 + v[1]*x2 + v[2]*x3 + v[3]*x4 + v[4]*x5 + v[5]*x6;
25: s2 = v[6]*x1 + v[7]*x2 + v[8]*x3 + v[9]*x4 + v[10]*x5 + v[11]*x6;
26: s3 = v[12]*x1 + v[13]*x2 + v[14]*x3 + v[15]*x4 + v[16]*x5 + v[17]*x6;
27: s4 = v[18]*x1 + v[19]*x2 + v[20]*x3 + v[21]*x4 + v[22]*x5 + v[23]*x6;
28: s5 = v[24]*x1 + v[25]*x2 + v[26]*x3 + v[27]*x4 + v[28]*x5 + v[29]*x6;
29: s6 = v[30]*x1 + v[31]*x2 + v[32]*x3 + v[33]*x4 + v[34]*x5 + v[35]*x6;
30: v += 36;
32: vi = aj + diag[i] + 1;
33: nz = ai[i+1] - diag[i] - 1;
34: while (nz--) {
35: oidx = 6*(*vi++);
36: x[oidx] -= v[0]*s1 + v[1]*s2 + v[2]*s3 + v[3]*s4 + v[4]*s5 + v[5]*s6;
37: x[oidx+1] -= v[6]*s1 + v[7]*s2 + v[8]*s3 + v[9]*s4 + v[10]*s5 + v[11]*s6;
38: x[oidx+2] -= v[12]*s1 + v[13]*s2 + v[14]*s3 + v[15]*s4 + v[16]*s5 + v[17]*s6;
39: x[oidx+3] -= v[18]*s1 + v[19]*s2 + v[20]*s3 + v[21]*s4 + v[22]*s5 + v[23]*s6;
40: x[oidx+4] -= v[24]*s1 + v[25]*s2 + v[26]*s3 + v[27]*s4 + v[28]*s5 + v[29]*s6;
41: x[oidx+5] -= v[30]*s1 + v[31]*s2 + v[32]*s3 + v[33]*s4 + v[34]*s5 + v[35]*s6;
42: v += 36;
43: }
44: x[idx] = s1;x[1+idx] = s2; x[2+idx] = s3;x[3+idx] = s4; x[4+idx] = s5;
45: x[5+idx] = s6;
46: idx += 6;
47: }
48: /* backward solve the L^T */
49: for (i=n-1; i>=0; i--) {
50: v = aa + 36*diag[i] - 36;
51: vi = aj + diag[i] - 1;
52: nz = diag[i] - ai[i];
53: idt = 6*i;
54: s1 = x[idt]; s2 = x[1+idt]; s3 = x[2+idt];s4 = x[3+idt]; s5 = x[4+idt];
55: s6 = x[5+idt];
56: while (nz--) {
57: idx = 6*(*vi--);
58: x[idx] -= v[0]*s1 + v[1]*s2 + v[2]*s3 + v[3]*s4 + v[4]*s5 + v[5]*s6;
59: x[idx+1] -= v[6]*s1 + v[7]*s2 + v[8]*s3 + v[9]*s4 + v[10]*s5 + v[11]*s6;
60: x[idx+2] -= v[12]*s1 + v[13]*s2 + v[14]*s3 + v[15]*s4 + v[16]*s5 + v[17]*s6;
61: x[idx+3] -= v[18]*s1 + v[19]*s2 + v[20]*s3 + v[21]*s4 + v[22]*s5 + v[23]*s6;
62: x[idx+4] -= v[24]*s1 + v[25]*s2 + v[26]*s3 + v[27]*s4 + v[28]*s5 + v[29]*s6;
63: x[idx+5] -= v[30]*s1 + v[31]*s2 + v[32]*s3 + v[33]*s4 + v[34]*s5 + v[35]*s6;
64: v -= 36;
65: }
66: }
67: VecRestoreArray(xx,&x);
68: PetscLogFlops(2.0*36*(a->nz) - 6.0*A->cmap->n);
69: return(0);
70: }
72: PetscErrorCode MatSolveTranspose_SeqBAIJ_6_NaturalOrdering(Mat A,Vec bb,Vec xx)
73: {
74: Mat_SeqBAIJ *a=(Mat_SeqBAIJ*)A->data;
75: PetscErrorCode ierr;
76: const PetscInt n=a->mbs,*vi,*ai=a->i,*aj=a->j,*diag=a->diag;
77: PetscInt nz,idx,idt,j,i,oidx;
78: const PetscInt bs =A->rmap->bs,bs2=a->bs2;
79: const MatScalar *aa=a->a,*v;
80: PetscScalar s1,s2,s3,s4,s5,s6,x1,x2,x3,x4,x5,x6,*x;
83: VecCopy(bb,xx);
84: VecGetArray(xx,&x);
86: /* forward solve the U^T */
87: idx = 0;
88: for (i=0; i<n; i++) {
89: v = aa + bs2*diag[i];
90: /* multiply by the inverse of the block diagonal */
91: x1 = x[idx]; x2 = x[1+idx]; x3 = x[2+idx]; x4 = x[3+idx];
92: x5 = x[4+idx]; x6 = x[5+idx];
93: s1 = v[0]*x1 + v[1]*x2 + v[2]*x3 + v[3]*x4 + v[4]*x5 + v[5]*x6;
94: s2 = v[6]*x1 + v[7]*x2 + v[8]*x3 + v[9]*x4 + v[10]*x5 + v[11]*x6;
95: s3 = v[12]*x1 + v[13]*x2 + v[14]*x3 + v[15]*x4 + v[16]*x5 + v[17]*x6;
96: s4 = v[18]*x1 + v[19]*x2 + v[20]*x3 + v[21]*x4 + v[22]*x5 + v[23]*x6;
97: s5 = v[24]*x1 + v[25]*x2 + v[26]*x3 + v[27]*x4 + v[28]*x5 + v[29]*x6;
98: s6 = v[30]*x1 + v[31]*x2 + v[32]*x3 + v[33]*x4 + v[34]*x5 + v[35]*x6;
99: v -= bs2;
101: vi = aj + diag[i] - 1;
102: nz = diag[i] - diag[i+1] - 1;
103: for (j=0; j>-nz; j--) {
104: oidx = bs*vi[j];
105: x[oidx] -= v[0]*s1 + v[1]*s2 + v[2]*s3 + v[3]*s4 + v[4]*s5 + v[5]*s6;
106: x[oidx+1] -= v[6]*s1 + v[7]*s2 + v[8]*s3 + v[9]*s4 + v[10]*s5 + v[11]*s6;
107: x[oidx+2] -= v[12]*s1 + v[13]*s2 + v[14]*s3 + v[15]*s4 + v[16]*s5 + v[17]*s6;
108: x[oidx+3] -= v[18]*s1 + v[19]*s2 + v[20]*s3 + v[21]*s4 + v[22]*s5 + v[23]*s6;
109: x[oidx+4] -= v[24]*s1 + v[25]*s2 + v[26]*s3 + v[27]*s4 + v[28]*s5 + v[29]*s6;
110: x[oidx+5] -= v[30]*s1 + v[31]*s2 + v[32]*s3 + v[33]*s4 + v[34]*s5 + v[35]*s6;
111: v -= bs2;
112: }
113: x[idx] = s1;x[1+idx] = s2; x[2+idx] = s3; x[3+idx] = s4; x[4+idx] = s5;
114: x[5+idx] = s6;
115: idx += bs;
116: }
117: /* backward solve the L^T */
118: for (i=n-1; i>=0; i--) {
119: v = aa + bs2*ai[i];
120: vi = aj + ai[i];
121: nz = ai[i+1] - ai[i];
122: idt = bs*i;
123: s1 = x[idt]; s2 = x[1+idt]; s3 = x[2+idt]; s4 = x[3+idt]; s5 = x[4+idt];
124: s6 = x[5+idt];
125: for (j=0; j<nz; j++) {
126: idx = bs*vi[j];
127: x[idx] -= v[0]*s1 + v[1]*s2 + v[2]*s3 + v[3]*s4 + v[4]*s5 + v[5]*s6;
128: x[idx+1] -= v[6]*s1 + v[7]*s2 + v[8]*s3 + v[9]*s4 + v[10]*s5 + v[11]*s6;
129: x[idx+2] -= v[12]*s1 + v[13]*s2 + v[14]*s3 + v[15]*s4 + v[16]*s5 + v[17]*s6;
130: x[idx+3] -= v[18]*s1 + v[19]*s2 + v[20]*s3 + v[21]*s4 + v[22]*s5 + v[23]*s6;
131: x[idx+4] -= v[24]*s1 + v[25]*s2 + v[26]*s3 + v[27]*s4 + v[28]*s5 + v[29]*s6;
132: x[idx+5] -= v[30]*s1 + v[31]*s2 + v[32]*s3 + v[33]*s4 + v[34]*s5 + v[35]*s6;
133: v += bs2;
134: }
135: }
136: VecRestoreArray(xx,&x);
137: PetscLogFlops(2.0*bs2*(a->nz) - bs*A->cmap->n);
138: return(0);
139: }