1cb512458SBarry Smith #ifndef lint 2*86d7a8ceSBarry Smith static char vcid[] = "$Id: aijfact.c,v 1.14 1995/04/15 03:28:04 bsmith Exp bsmith $"; 3cb512458SBarry Smith #endif 4289bc588SBarry Smith 5289bc588SBarry Smith 6289bc588SBarry Smith #include "aij.h" 78c37ef55SBarry Smith #include "inline/spops.h" 8289bc588SBarry Smith /* 9289bc588SBarry Smith Factorization code for AIJ format. 10289bc588SBarry Smith */ 11289bc588SBarry Smith 121fb19edaSLois Curfman McInnes int MatLUFactorSymbolic_AIJ(Mat mat,IS isrow,IS iscol,Mat *fact) 13289bc588SBarry Smith { 141fb19edaSLois Curfman McInnes Mat_AIJ *aij = (Mat_AIJ *) mat->data, *aijnew; 15289bc588SBarry Smith IS isicol; 166abc6512SBarry Smith int *r,*ic, ierr, i, n = aij->m, *ai = aij->i, *aj = aij->j; 176abc6512SBarry Smith int *ainew,*ajnew, jmax,*fill, *ajtmp, nz; 186abc6512SBarry Smith int *idnew, idx, row,m,fm, nnz, nzi,len; 19289bc588SBarry Smith 20289bc588SBarry Smith if (n != aij->n) SETERR(1,"Mat must be square"); 21289bc588SBarry Smith if (!isrow) {SETERR(1,"Must have row permutation");} 22289bc588SBarry Smith if (!iscol) {SETERR(1,"Must have column permutation");} 23289bc588SBarry Smith 246abc6512SBarry Smith if ((ierr = ISInvertPermutation(iscol,&isicol))) SETERR(ierr,0); 25289bc588SBarry Smith ISGetIndices(isrow,&r); ISGetIndices(isicol,&ic); 26289bc588SBarry Smith 27289bc588SBarry Smith /* get new row pointers */ 28289bc588SBarry Smith ainew = (int *) MALLOC( (n+1)*sizeof(int) ); CHKPTR(ainew); 29289bc588SBarry Smith ainew[0] = 1; 30289bc588SBarry Smith /* don't know how many column pointers are needed so estimate */ 31289bc588SBarry Smith jmax = 2*ai[n]; 32289bc588SBarry Smith ajnew = (int *) MALLOC( (jmax)*sizeof(int) ); CHKPTR(ajnew); 33289bc588SBarry Smith /* fill is a linked list of nonzeros in active row */ 34289bc588SBarry Smith fill = (int *) MALLOC( (n+1)*sizeof(int)); CHKPTR(fill); 35289bc588SBarry Smith /* idnew is location of diagonal in factor */ 36289bc588SBarry Smith idnew = (int *) MALLOC( (n+1)*sizeof(int)); CHKPTR(idnew); 37289bc588SBarry Smith idnew[0] = 1; 38289bc588SBarry Smith 39289bc588SBarry Smith for ( i=0; i<n; i++ ) { 40289bc588SBarry Smith /* first copy previous fill into linked list */ 41289bc588SBarry Smith nnz = nz = ai[r[i]+1] - ai[r[i]]; 42289bc588SBarry Smith ajtmp = aj + ai[r[i]] - 1; 43289bc588SBarry Smith fill[n] = n; 44289bc588SBarry Smith while (nz--) { 45289bc588SBarry Smith fm = n; 46289bc588SBarry Smith idx = ic[*ajtmp++ - 1]; 47289bc588SBarry Smith do { 48289bc588SBarry Smith m = fm; 49289bc588SBarry Smith fm = fill[m]; 50289bc588SBarry Smith } while (fm < idx); 51289bc588SBarry Smith fill[m] = idx; 52289bc588SBarry Smith fill[idx] = fm; 53289bc588SBarry Smith } 54289bc588SBarry Smith row = fill[n]; 55289bc588SBarry Smith while ( row < i ) { 56289bc588SBarry Smith ajtmp = ajnew + idnew[row] - 1; 57289bc588SBarry Smith nz = ainew[row+1] - idnew[row]; 58289bc588SBarry Smith fm = row; 59289bc588SBarry Smith while (nz--) { 60289bc588SBarry Smith fm = n; 61289bc588SBarry Smith idx = *ajtmp++ - 1; 62289bc588SBarry Smith do { 63289bc588SBarry Smith m = fm; 64289bc588SBarry Smith fm = fill[m]; 65289bc588SBarry Smith } while (fm < idx); 66289bc588SBarry Smith if (fm != idx) { 67289bc588SBarry Smith fill[m] = idx; 68289bc588SBarry Smith fill[idx] = fm; 69289bc588SBarry Smith fm = idx; 70289bc588SBarry Smith nnz++; 71289bc588SBarry Smith } 72289bc588SBarry Smith } 73289bc588SBarry Smith row = fill[row]; 74289bc588SBarry Smith } 75289bc588SBarry Smith /* copy new filled row into permanent storage */ 76289bc588SBarry Smith ainew[i+1] = ainew[i] + nnz; 77289bc588SBarry Smith if (ainew[i+1] > jmax+1) { 78289bc588SBarry Smith /* allocate a longer ajnew */ 79289bc588SBarry Smith jmax += nnz*(n-i); 80289bc588SBarry Smith ajtmp = (int *) MALLOC( jmax*sizeof(int) );CHKPTR(ajtmp); 81289bc588SBarry Smith MEMCPY(ajtmp,ajnew,(ainew[i]-1)*sizeof(int)); 82289bc588SBarry Smith FREE(ajnew); 83289bc588SBarry Smith ajnew = ajtmp; 84289bc588SBarry Smith } 85289bc588SBarry Smith ajtmp = ajnew + ainew[i] - 1; 86289bc588SBarry Smith fm = fill[n]; 87289bc588SBarry Smith nzi = 0; 88289bc588SBarry Smith while (nnz--) { 89289bc588SBarry Smith if (fm < i) nzi++; 90289bc588SBarry Smith *ajtmp++ = fm + 1; 91289bc588SBarry Smith fm = fill[fm]; 92289bc588SBarry Smith } 93289bc588SBarry Smith idnew[i] = ainew[i] + nzi; 94289bc588SBarry Smith } 95289bc588SBarry Smith 96289bc588SBarry Smith ISDestroy(isicol); FREE(fill); 97289bc588SBarry Smith 98289bc588SBarry Smith /* put together the new matrix */ 996b5873e3SBarry Smith ierr = MatCreateSequentialAIJ(mat->comm,n, n, 0, 0, fact); CHKERR(ierr); 1001fb19edaSLois Curfman McInnes aijnew = (Mat_AIJ *) (*fact)->data; 101289bc588SBarry Smith FREE(aijnew->imax); 102289bc588SBarry Smith aijnew->singlemalloc = 0; 103f0479e8cSBarry Smith len = (ainew[n] - 1)*sizeof(Scalar); 104e8d4e0b9SBarry Smith /* the next line frees the default space generated by the Create() */ 105e8d4e0b9SBarry Smith FREE(aijnew->a); FREE(aijnew->ilen); 106289bc588SBarry Smith aijnew->a = (Scalar *) MALLOC( len ); CHKPTR(aijnew->a); 107289bc588SBarry Smith aijnew->j = ajnew; 108289bc588SBarry Smith aijnew->i = ainew; 1098c37ef55SBarry Smith aijnew->diag = idnew; 110e8d4e0b9SBarry Smith aijnew->ilen = 0; 11120563c6bSBarry Smith aijnew->imax = 0; 112*86d7a8ceSBarry Smith aijnew->row = isrow; 113*86d7a8ceSBarry Smith aijnew->col = iscol; 114289bc588SBarry Smith (*fact)->factor = FACTOR_LU; 1155e42470aSBarry Smith /* Cannot do this here because child is destroyed before parent created 1165e42470aSBarry Smith PLogObjectParent(*fact,isicol); */ 117289bc588SBarry Smith return 0; 118289bc588SBarry Smith } 119289bc588SBarry Smith 1201fb19edaSLois Curfman McInnes int MatLUFactorNumeric_AIJ(Mat mat,Mat *infact) 121289bc588SBarry Smith { 12220563c6bSBarry Smith Mat fact = *infact; 1231fb19edaSLois Curfman McInnes Mat_AIJ *aij = (Mat_AIJ *) mat->data, *aijnew = (Mat_AIJ *)fact->data; 124*86d7a8ceSBarry Smith IS iscol = aijnew->col, isrow = aijnew->row, isicol; 125289bc588SBarry Smith int *r,*ic, ierr, i, j, n = aij->m, *ai = aijnew->i, *aj = aijnew->j; 1266abc6512SBarry Smith int *ajtmpold, *ajtmp, nz, row,*pj; 1276abc6512SBarry Smith Scalar *rtmp,*v, *pv, *pc, multiplier; 128289bc588SBarry Smith 1296abc6512SBarry Smith if ((ierr = ISInvertPermutation(iscol,&isicol))) SETERR(ierr,0); 1305e42470aSBarry Smith PLogObjectParent(*infact,isicol); 1318c37ef55SBarry Smith ierr = ISGetIndices(isrow,&r); CHKERR(ierr); 1328c37ef55SBarry Smith ierr = ISGetIndices(isicol,&ic); CHKERR(ierr); 133289bc588SBarry Smith rtmp = (Scalar *) MALLOC( (n+1)*sizeof(Scalar) ); CHKPTR(rtmp); 134289bc588SBarry Smith 135289bc588SBarry Smith for ( i=0; i<n; i++ ) { 136289bc588SBarry Smith nz = ai[i+1] - ai[i]; 137289bc588SBarry Smith ajtmp = aj + ai[i] - 1; 138289bc588SBarry Smith for ( j=0; j<nz; j++ ) rtmp[ajtmp[j]-1] = 0.0; 139289bc588SBarry Smith 140289bc588SBarry Smith /* load in initial (unfactored row) */ 1418c37ef55SBarry Smith nz = aij->i[r[i]+1] - aij->i[r[i]]; 1428c37ef55SBarry Smith ajtmpold = aij->j + aij->i[r[i]] - 1; 1438c37ef55SBarry Smith v = aij->a + aij->i[r[i]] - 1; 1448c37ef55SBarry Smith for ( j=0; j<nz; j++ ) rtmp[ic[ajtmpold[j]-1]] = v[j]; 145289bc588SBarry Smith 1468c37ef55SBarry Smith row = *ajtmp++ - 1; 147289bc588SBarry Smith while (row < i) { 1488c37ef55SBarry Smith pc = rtmp + row; 1498c37ef55SBarry Smith if (*pc != 0.0) { 1508c37ef55SBarry Smith nz = aijnew->diag[row] - ai[row]; 1518c37ef55SBarry Smith pv = aijnew->a + aijnew->diag[row] - 1; 1528c37ef55SBarry Smith pj = aijnew->j + aijnew->diag[row]; 1538c37ef55SBarry Smith multiplier = *pc * *pv++; 1548c37ef55SBarry Smith *pc = multiplier; 1558c37ef55SBarry Smith nz = ai[row+1] - ai[row] - 1 - nz; 1568c37ef55SBarry Smith while (nz-->0) rtmp[*pj++ - 1] -= multiplier* *pv++; 157289bc588SBarry Smith } 1588c37ef55SBarry Smith row = *ajtmp++ - 1; 159289bc588SBarry Smith } 1608c37ef55SBarry Smith /* finished row so stick it into aijnew->a */ 1618c37ef55SBarry Smith pv = aijnew->a + ai[i] - 1; 1628c37ef55SBarry Smith pj = aijnew->j + ai[i] - 1; 1638c37ef55SBarry Smith nz = ai[i+1] - ai[i]; 1648c37ef55SBarry Smith rtmp[i] = 1.0/rtmp[i]; 1658c37ef55SBarry Smith for ( j=0; j<nz; j++ ) {pv[j] = rtmp[pj[j]-1];} 1668c37ef55SBarry Smith } 1678c37ef55SBarry Smith FREE(rtmp); 168f0479e8cSBarry Smith ierr = ISRestoreIndices(isicol,&ic); CHKERR(ierr); 169f0479e8cSBarry Smith ierr = ISRestoreIndices(isrow,&r); CHKERR(ierr); 1708c37ef55SBarry Smith ierr = ISDestroy(isicol); CHKERR(ierr); 1718c37ef55SBarry Smith fact->factor = FACTOR_LU; 1729e25ed09SBarry Smith aijnew->assembled = 1; 173289bc588SBarry Smith return 0; 174289bc588SBarry Smith } 1751fb19edaSLois Curfman McInnes int MatLUFactor_AIJ(Mat matin,IS row,IS col) 176da3a660dSBarry Smith { 1771fb19edaSLois Curfman McInnes Mat_AIJ *mat = (Mat_AIJ *) matin->data; 1786abc6512SBarry Smith int ierr; 179da3a660dSBarry Smith Mat fact; 1801fb19edaSLois Curfman McInnes ierr = MatLUFactorSymbolic_AIJ(matin,row,col,&fact); CHKERR(ierr); 1811fb19edaSLois Curfman McInnes ierr = MatLUFactorNumeric_AIJ(matin,&fact); CHKERR(ierr); 182da3a660dSBarry Smith 183da3a660dSBarry Smith /* free all the data structures from mat */ 184da3a660dSBarry Smith FREE(mat->a); 185da3a660dSBarry Smith if (!mat->singlemalloc) {FREE(mat->i); FREE(mat->j);} 186da3a660dSBarry Smith if (mat->diag) FREE(mat->diag); 187da3a660dSBarry Smith if (mat->ilen) FREE(mat->ilen); 188da3a660dSBarry Smith if (mat->imax) FREE(mat->imax); 189*86d7a8ceSBarry Smith if (mat->row && mat->col && mat->row != mat->col) { 190*86d7a8ceSBarry Smith ISDestroy(mat->row); 191da3a660dSBarry Smith } 192*86d7a8ceSBarry Smith if (mat->col) ISDestroy(mat->col); 193da3a660dSBarry Smith FREE(mat); 194da3a660dSBarry Smith 195da3a660dSBarry Smith MEMCPY(matin,fact,sizeof(struct _Mat)); 196da3a660dSBarry Smith FREE(fact); 197da3a660dSBarry Smith return 0; 198da3a660dSBarry Smith } 199da3a660dSBarry Smith 2001fb19edaSLois Curfman McInnes int MatSolve_AIJ(Mat mat,Vec bb, Vec xx) 2018c37ef55SBarry Smith { 2021fb19edaSLois Curfman McInnes Mat_AIJ *aij = (Mat_AIJ *) mat->data; 203*86d7a8ceSBarry Smith IS iscol = aij->col, isrow = aij->row; 2046abc6512SBarry Smith int *r,*c, ierr, i, n = aij->m, *vi, *ai = aij->i, *aj = aij->j; 2058c37ef55SBarry Smith int nz; 2068c37ef55SBarry Smith Scalar *x,*b,*tmp, *aa = aij->a, sum, *v; 2078c37ef55SBarry Smith 2089e25ed09SBarry Smith if (mat->factor != FACTOR_LU) SETERR(1,"Cannot solve with factor"); 2099e25ed09SBarry Smith 2106abc6512SBarry Smith if ((ierr = VecGetArray(bb,&b))) SETERR(ierr,0); 2116abc6512SBarry Smith if ((ierr = VecGetArray(xx,&x))) SETERR(ierr,0); 2128c37ef55SBarry Smith tmp = (Scalar *) MALLOC(n*sizeof(Scalar)); CHKPTR(tmp); 2138c37ef55SBarry Smith 2146abc6512SBarry Smith if ((ierr = ISGetIndices(isrow,&r))) SETERR(ierr,0); 2156abc6512SBarry Smith if ((ierr = ISGetIndices(iscol,&c))) SETERR(ierr,0); c = c + (n-1); 2168c37ef55SBarry Smith 2178c37ef55SBarry Smith /* forward solve the lower triangular */ 2188c37ef55SBarry Smith tmp[0] = b[*r++]; 2198c37ef55SBarry Smith for ( i=1; i<n; i++ ) { 2208c37ef55SBarry Smith v = aa + ai[i] - 1; 2218c37ef55SBarry Smith vi = aj + ai[i] - 1; 2228c37ef55SBarry Smith nz = aij->diag[i] - ai[i]; 2238c37ef55SBarry Smith sum = b[*r++]; 2248c37ef55SBarry Smith while (nz--) sum -= *v++ * tmp[*vi++ - 1]; 2258c37ef55SBarry Smith tmp[i] = sum; 2268c37ef55SBarry Smith } 2278c37ef55SBarry Smith 2288c37ef55SBarry Smith /* backward solve the upper triangular */ 2298c37ef55SBarry Smith for ( i=n-1; i>=0; i-- ){ 2308c37ef55SBarry Smith v = aa + aij->diag[i]; 2318c37ef55SBarry Smith vi = aj + aij->diag[i]; 2328c37ef55SBarry Smith nz = ai[i+1] - aij->diag[i] - 1; 2338c37ef55SBarry Smith sum = tmp[i]; 2348c37ef55SBarry Smith while (nz--) sum -= *v++ * tmp[*vi++ - 1]; 2358c37ef55SBarry Smith x[*c--] = tmp[i] = sum*aa[aij->diag[i]-1]; 2368c37ef55SBarry Smith } 2378c37ef55SBarry Smith 2388c37ef55SBarry Smith FREE(tmp); 2398c37ef55SBarry Smith return 0; 2408c37ef55SBarry Smith } 2411fb19edaSLois Curfman McInnes int MatSolveAdd_AIJ(Mat mat,Vec bb, Vec yy, Vec xx) 242da3a660dSBarry Smith { 2431fb19edaSLois Curfman McInnes Mat_AIJ *aij = (Mat_AIJ *) mat->data; 244*86d7a8ceSBarry Smith IS iscol = aij->col, isrow = aij->row; 2456abc6512SBarry Smith int *r,*c, ierr, i, n = aij->m, *vi, *ai = aij->i, *aj = aij->j; 246da3a660dSBarry Smith int nz; 247da3a660dSBarry Smith Scalar *x,*b,*tmp, *aa = aij->a, sum, *v; 248da3a660dSBarry Smith 2499e25ed09SBarry Smith if (mat->factor != FACTOR_LU) SETERR(1,"Cannot solve with factor"); 250da3a660dSBarry Smith if (yy != xx) {ierr = VecCopy(yy,xx); CHKERR(ierr);} 251da3a660dSBarry Smith 2526abc6512SBarry Smith if ((ierr = VecGetArray(bb,&b))) SETERR(ierr,0); 2536abc6512SBarry Smith if ((ierr = VecGetArray(xx,&x))) SETERR(ierr,0); 254da3a660dSBarry Smith tmp = (Scalar *) MALLOC(n*sizeof(Scalar)); CHKPTR(tmp); 255da3a660dSBarry Smith 2566abc6512SBarry Smith if ((ierr = ISGetIndices(isrow,&r))) SETERR(ierr,0); 2576abc6512SBarry Smith if ((ierr = ISGetIndices(iscol,&c))) SETERR(ierr,0); c = c + (n-1); 258da3a660dSBarry Smith 259da3a660dSBarry Smith /* forward solve the lower triangular */ 260da3a660dSBarry Smith tmp[0] = b[*r++]; 261da3a660dSBarry Smith for ( i=1; i<n; i++ ) { 262da3a660dSBarry Smith v = aa + ai[i] - 1; 263da3a660dSBarry Smith vi = aj + ai[i] - 1; 264da3a660dSBarry Smith nz = aij->diag[i] - ai[i]; 265da3a660dSBarry Smith sum = b[*r++]; 266da3a660dSBarry Smith while (nz--) sum -= *v++ * tmp[*vi++ - 1]; 267da3a660dSBarry Smith tmp[i] = sum; 268da3a660dSBarry Smith } 269da3a660dSBarry Smith 270da3a660dSBarry Smith /* backward solve the upper triangular */ 271da3a660dSBarry Smith for ( i=n-1; i>=0; i-- ){ 272da3a660dSBarry Smith v = aa + aij->diag[i]; 273da3a660dSBarry Smith vi = aj + aij->diag[i]; 274da3a660dSBarry Smith nz = ai[i+1] - aij->diag[i] - 1; 275da3a660dSBarry Smith sum = tmp[i]; 276da3a660dSBarry Smith while (nz--) sum -= *v++ * tmp[*vi++ - 1]; 277da3a660dSBarry Smith tmp[i] = sum*aa[aij->diag[i]-1]; 278da3a660dSBarry Smith x[*c--] += tmp[i]; 279da3a660dSBarry Smith } 280da3a660dSBarry Smith 281da3a660dSBarry Smith FREE(tmp); 282da3a660dSBarry Smith return 0; 283da3a660dSBarry Smith } 284da3a660dSBarry Smith /* -------------------------------------------------------------------*/ 2851fb19edaSLois Curfman McInnes int MatSolveTrans_AIJ(Mat mat,Vec bb, Vec xx) 286da3a660dSBarry Smith { 2871fb19edaSLois Curfman McInnes Mat_AIJ *aij = (Mat_AIJ *) mat->data; 288*86d7a8ceSBarry Smith IS iscol = aij->col, isrow = aij->row, invisrow,inviscol; 2896abc6512SBarry Smith int *r,*c, ierr, i, n = aij->m, *vi, *ai = aij->i, *aj = aij->j; 290da3a660dSBarry Smith int nz; 2916abc6512SBarry Smith Scalar *x,*b,*tmp, *aa = aij->a, *v; 292da3a660dSBarry Smith 2939e25ed09SBarry Smith if (mat->factor != FACTOR_LU) SETERR(1,"Cannot solve with factor"); 2946abc6512SBarry Smith if ((ierr = VecGetArray(bb,&b))) SETERR(ierr,0); 2956abc6512SBarry Smith if ((ierr = VecGetArray(xx,&x))) SETERR(ierr,0); 296da3a660dSBarry Smith tmp = (Scalar *) MALLOC(n*sizeof(Scalar)); CHKPTR(tmp); 297da3a660dSBarry Smith 298da3a660dSBarry Smith /* invert the permutations */ 299da3a660dSBarry Smith ierr = ISInvertPermutation(isrow,&invisrow); CHKERR(ierr); 300da3a660dSBarry Smith ierr = ISInvertPermutation(iscol,&inviscol); CHKERR(ierr); 301da3a660dSBarry Smith 302da3a660dSBarry Smith 3036abc6512SBarry Smith if ((ierr = ISGetIndices(invisrow,&r))) SETERR(ierr,0); 3046abc6512SBarry Smith if ((ierr = ISGetIndices(inviscol,&c))) SETERR(ierr,0); 305da3a660dSBarry Smith 306da3a660dSBarry Smith /* copy the b into temp work space according to permutation */ 307da3a660dSBarry Smith for ( i=0; i<n; i++ ) tmp[c[i]] = b[i]; 308da3a660dSBarry Smith 309da3a660dSBarry Smith /* forward solve the U^T */ 310da3a660dSBarry Smith for ( i=0; i<n; i++ ) { 311da3a660dSBarry Smith v = aa + aij->diag[i] - 1; 312da3a660dSBarry Smith vi = aj + aij->diag[i]; 313da3a660dSBarry Smith nz = ai[i+1] - aij->diag[i] - 1; 314da3a660dSBarry Smith tmp[i] *= *v++; 315da3a660dSBarry Smith while (nz--) { 316da3a660dSBarry Smith tmp[*vi++ - 1] -= (*v++)*tmp[i]; 317da3a660dSBarry Smith } 318da3a660dSBarry Smith } 319da3a660dSBarry Smith 320da3a660dSBarry Smith /* backward solve the L^T */ 321da3a660dSBarry Smith for ( i=n-1; i>=0; i-- ){ 322da3a660dSBarry Smith v = aa + aij->diag[i] - 2; 323da3a660dSBarry Smith vi = aj + aij->diag[i] - 2; 324da3a660dSBarry Smith nz = aij->diag[i] - ai[i]; 325da3a660dSBarry Smith while (nz--) { 326da3a660dSBarry Smith tmp[*vi-- - 1] -= (*v--)*tmp[i]; 327da3a660dSBarry Smith } 328da3a660dSBarry Smith } 329da3a660dSBarry Smith 330da3a660dSBarry Smith /* copy tmp into x according to permutation */ 331da3a660dSBarry Smith for ( i=0; i<n; i++ ) x[r[i]] = tmp[i]; 332da3a660dSBarry Smith 333da3a660dSBarry Smith ISDestroy(invisrow); ISDestroy(inviscol); 334da3a660dSBarry Smith 335da3a660dSBarry Smith FREE(tmp); 336da3a660dSBarry Smith return 0; 337da3a660dSBarry Smith } 338da3a660dSBarry Smith 3391fb19edaSLois Curfman McInnes int MatSolveTransAdd_AIJ(Mat mat,Vec bb, Vec zz,Vec xx) 340da3a660dSBarry Smith { 3411fb19edaSLois Curfman McInnes Mat_AIJ *aij = (Mat_AIJ *) mat->data; 342*86d7a8ceSBarry Smith IS iscol = aij->col, isrow = aij->row, invisrow,inviscol; 3436abc6512SBarry Smith int *r,*c, ierr, i, n = aij->m, *vi, *ai = aij->i, *aj = aij->j; 3446abc6512SBarry Smith int nz; 3456abc6512SBarry Smith Scalar *x,*b,*tmp, *aa = aij->a, *v; 3466abc6512SBarry Smith 3479e25ed09SBarry Smith if (mat->factor != FACTOR_LU) SETERR(1,"Cannot solve with factor"); 3486abc6512SBarry Smith if (zz != xx) VecCopy(zz,xx); 3496abc6512SBarry Smith 3506abc6512SBarry Smith if ((ierr = VecGetArray(bb,&b))) SETERR(ierr,0); 3516abc6512SBarry Smith if ((ierr = VecGetArray(xx,&x))) SETERR(ierr,0); 3526abc6512SBarry Smith tmp = (Scalar *) MALLOC(n*sizeof(Scalar)); CHKPTR(tmp); 3536abc6512SBarry Smith 3546abc6512SBarry Smith /* invert the permutations */ 3556abc6512SBarry Smith ierr = ISInvertPermutation(isrow,&invisrow); CHKERR(ierr); 3566abc6512SBarry Smith ierr = ISInvertPermutation(iscol,&inviscol); CHKERR(ierr); 3576abc6512SBarry Smith 3586abc6512SBarry Smith 3596abc6512SBarry Smith if ((ierr = ISGetIndices(invisrow,&r))) SETERR(ierr,0); 3606abc6512SBarry Smith if ((ierr = ISGetIndices(inviscol,&c))) SETERR(ierr,0); 3616abc6512SBarry Smith 3626abc6512SBarry Smith /* copy the b into temp work space according to permutation */ 3636abc6512SBarry Smith for ( i=0; i<n; i++ ) tmp[c[i]] = b[i]; 3646abc6512SBarry Smith 3656abc6512SBarry Smith /* forward solve the U^T */ 3666abc6512SBarry Smith for ( i=0; i<n; i++ ) { 3676abc6512SBarry Smith v = aa + aij->diag[i] - 1; 3686abc6512SBarry Smith vi = aj + aij->diag[i]; 3696abc6512SBarry Smith nz = ai[i+1] - aij->diag[i] - 1; 3706abc6512SBarry Smith tmp[i] *= *v++; 3716abc6512SBarry Smith while (nz--) { 3726abc6512SBarry Smith tmp[*vi++ - 1] -= (*v++)*tmp[i]; 3736abc6512SBarry Smith } 3746abc6512SBarry Smith } 3756abc6512SBarry Smith 3766abc6512SBarry Smith /* backward solve the L^T */ 3776abc6512SBarry Smith for ( i=n-1; i>=0; i-- ){ 3786abc6512SBarry Smith v = aa + aij->diag[i] - 2; 3796abc6512SBarry Smith vi = aj + aij->diag[i] - 2; 3806abc6512SBarry Smith nz = aij->diag[i] - ai[i]; 3816abc6512SBarry Smith while (nz--) { 3826abc6512SBarry Smith tmp[*vi-- - 1] -= (*v--)*tmp[i]; 3836abc6512SBarry Smith } 3846abc6512SBarry Smith } 3856abc6512SBarry Smith 3866abc6512SBarry Smith /* copy tmp into x according to permutation */ 3876abc6512SBarry Smith for ( i=0; i<n; i++ ) x[r[i]] += tmp[i]; 3886abc6512SBarry Smith 3896abc6512SBarry Smith ISDestroy(invisrow); ISDestroy(inviscol); 3906abc6512SBarry Smith 3916abc6512SBarry Smith FREE(tmp); 3926abc6512SBarry Smith return 0; 3936abc6512SBarry Smith 394da3a660dSBarry Smith } 3959e25ed09SBarry Smith /* ----------------------------------------------------------------*/ 3961fb19edaSLois Curfman McInnes int MatILU_AIJ(Mat mat,IS isrow,IS iscol,int levels,Mat *fact) 3979e25ed09SBarry Smith { 3981fb19edaSLois Curfman McInnes Mat_AIJ *aij = (Mat_AIJ *) mat->data, *aijnew; 3999e25ed09SBarry Smith IS isicol; 4009e25ed09SBarry Smith int *r,*ic, ierr, i, n = aij->m, *ai = aij->i, *aj = aij->j; 4019e25ed09SBarry Smith int *ainew,*ajnew, jmax,*fill, *ajtmp, nz, *lfill,*ajfill,*ajtmpf; 4029e25ed09SBarry Smith int *idnew, idx, row,m,fm, nnz, nzi,len; 4039e25ed09SBarry Smith 4049e25ed09SBarry Smith if (n != aij->n) SETERR(1,"Mat must be square"); 4059e25ed09SBarry Smith if (!isrow) {SETERR(1,"Must have row permutation");} 4069e25ed09SBarry Smith if (!iscol) {SETERR(1,"Must have column permutation");} 4079e25ed09SBarry Smith 4089e25ed09SBarry Smith if ((ierr = ISInvertPermutation(iscol,&isicol))) SETERR(ierr,0); 4099e25ed09SBarry Smith ISGetIndices(isrow,&r); ISGetIndices(isicol,&ic); 4109e25ed09SBarry Smith 4119e25ed09SBarry Smith /* get new row pointers */ 4129e25ed09SBarry Smith ainew = (int *) MALLOC( (n+1)*sizeof(int) ); CHKPTR(ainew); 4139e25ed09SBarry Smith ainew[0] = 1; 4149e25ed09SBarry Smith /* don't know how many column pointers are needed so estimate */ 4159e25ed09SBarry Smith jmax = 2*ai[n]; 4169e25ed09SBarry Smith ajnew = (int *) MALLOC( (jmax)*sizeof(int) ); CHKPTR(ajnew); 4179e25ed09SBarry Smith /* ajfill is level of fill for each fill entry */ 4189e25ed09SBarry Smith ajfill = (int *) MALLOC( (jmax)*sizeof(int) ); CHKPTR(ajfill); 4199e25ed09SBarry Smith /* fill is a linked list of nonzeros in active row */ 4209e25ed09SBarry Smith fill = (int *) MALLOC( (n+1)*sizeof(int)); CHKPTR(fill); 4219e25ed09SBarry Smith /* lfill is level for each filled value */ 4229e25ed09SBarry Smith lfill = (int *) MALLOC( (n+1)*sizeof(int)); CHKPTR(lfill); 4239e25ed09SBarry Smith /* idnew is location of diagonal in factor */ 4249e25ed09SBarry Smith idnew = (int *) MALLOC( (n+1)*sizeof(int)); CHKPTR(idnew); 4259e25ed09SBarry Smith idnew[0] = 1; 4269e25ed09SBarry Smith 4279e25ed09SBarry Smith for ( i=0; i<n; i++ ) { 4289e25ed09SBarry Smith /* first copy previous fill into linked list */ 4299e25ed09SBarry Smith nnz = nz = ai[r[i]+1] - ai[r[i]]; 4309e25ed09SBarry Smith ajtmp = aj + ai[r[i]] - 1; 4319e25ed09SBarry Smith fill[n] = n; 4329e25ed09SBarry Smith while (nz--) { 4339e25ed09SBarry Smith fm = n; 4349e25ed09SBarry Smith idx = ic[*ajtmp++ - 1]; 4359e25ed09SBarry Smith do { 4369e25ed09SBarry Smith m = fm; 4379e25ed09SBarry Smith fm = fill[m]; 4389e25ed09SBarry Smith } while (fm < idx); 4399e25ed09SBarry Smith fill[m] = idx; 4409e25ed09SBarry Smith fill[idx] = fm; 4419e25ed09SBarry Smith lfill[idx] = -1; 4429e25ed09SBarry Smith } 4439e25ed09SBarry Smith row = fill[n]; 4449e25ed09SBarry Smith while ( row < i ) { 4459e25ed09SBarry Smith ajtmp = ajnew + idnew[row] - 1; 4469e25ed09SBarry Smith ajtmpf = ajfill + idnew[row] - 1; 4479e25ed09SBarry Smith nz = ainew[row+1] - idnew[row]; 4489e25ed09SBarry Smith fm = row; 4499e25ed09SBarry Smith while (nz--) { 4509e25ed09SBarry Smith fm = n; 4519e25ed09SBarry Smith idx = *ajtmp++ - 1; 4529e25ed09SBarry Smith do { 4539e25ed09SBarry Smith m = fm; 4549e25ed09SBarry Smith fm = fill[m]; 4559e25ed09SBarry Smith } while (fm < idx); 4569e25ed09SBarry Smith if (fm != idx) { 4579e25ed09SBarry Smith lfill[idx] = *ajtmpf + 1; 4589e25ed09SBarry Smith if (lfill[idx] < levels) { 4599e25ed09SBarry Smith fill[m] = idx; 4609e25ed09SBarry Smith fill[idx] = fm; 4619e25ed09SBarry Smith fm = idx; 4629e25ed09SBarry Smith nnz++; 4639e25ed09SBarry Smith } 4649e25ed09SBarry Smith } 4659e25ed09SBarry Smith ajtmpf++; 4669e25ed09SBarry Smith } 4679e25ed09SBarry Smith row = fill[row]; 4689e25ed09SBarry Smith } 4699e25ed09SBarry Smith /* copy new filled row into permanent storage */ 4709e25ed09SBarry Smith ainew[i+1] = ainew[i] + nnz; 4719e25ed09SBarry Smith if (ainew[i+1] > jmax+1) { 4729e25ed09SBarry Smith /* allocate a longer ajnew */ 4739e25ed09SBarry Smith jmax += nnz*(n-i); 4749e25ed09SBarry Smith ajtmp = (int *) MALLOC( jmax*sizeof(int) );CHKPTR(ajtmp); 4759e25ed09SBarry Smith MEMCPY(ajtmp,ajnew,(ainew[i]-1)*sizeof(int)); 4769e25ed09SBarry Smith FREE(ajnew); 4779e25ed09SBarry Smith ajnew = ajtmp; 4789e25ed09SBarry Smith /* allocate a longer ajfill */ 4799e25ed09SBarry Smith ajtmp = (int *) MALLOC( jmax*sizeof(int) );CHKPTR(ajtmp); 4809e25ed09SBarry Smith MEMCPY(ajtmp,ajfill,(ainew[i]-1)*sizeof(int)); 4819e25ed09SBarry Smith FREE(ajfill); 4829e25ed09SBarry Smith ajfill = ajtmp; 4839e25ed09SBarry Smith } 4849e25ed09SBarry Smith ajtmp = ajnew + ainew[i] - 1; 4859e25ed09SBarry Smith ajtmpf = ajfill + ainew[i] - 1; 4869e25ed09SBarry Smith fm = fill[n]; 4879e25ed09SBarry Smith nzi = 0; 4889e25ed09SBarry Smith while (nnz--) { 4899e25ed09SBarry Smith if (fm < i) nzi++; 4909e25ed09SBarry Smith *ajtmp++ = fm + 1; 4919e25ed09SBarry Smith *ajtmpf++ = lfill[fm]; 4929e25ed09SBarry Smith fm = fill[fm]; 4939e25ed09SBarry Smith } 4949e25ed09SBarry Smith idnew[i] = ainew[i] + nzi; 4959e25ed09SBarry Smith } 4969e25ed09SBarry Smith FREE(ajfill); 4979e25ed09SBarry Smith ISDestroy(isicol); FREE(fill); FREE(lfill); 4989e25ed09SBarry Smith 4999e25ed09SBarry Smith /* put together the new matrix */ 5006b5873e3SBarry Smith ierr = MatCreateSequentialAIJ(mat->comm,n, n, 0, 0, fact); CHKERR(ierr); 5011fb19edaSLois Curfman McInnes aijnew = (Mat_AIJ *) (*fact)->data; 5029e25ed09SBarry Smith FREE(aijnew->imax); 5039e25ed09SBarry Smith aijnew->singlemalloc = 0; 5049e25ed09SBarry Smith len = (ainew[n] - 1)*sizeof(Scalar); 5059e25ed09SBarry Smith /* the next line frees the default space generated by the Create() */ 5069e25ed09SBarry Smith FREE(aijnew->a); FREE(aijnew->ilen); 5079e25ed09SBarry Smith aijnew->a = (Scalar *) MALLOC( len ); CHKPTR(aijnew->a); 5089e25ed09SBarry Smith aijnew->j = ajnew; 5099e25ed09SBarry Smith aijnew->i = ainew; 5109e25ed09SBarry Smith aijnew->diag = idnew; 5119e25ed09SBarry Smith aijnew->ilen = 0; 5129e25ed09SBarry Smith aijnew->imax = 0; 513*86d7a8ceSBarry Smith aijnew->row = isrow; 514*86d7a8ceSBarry Smith aijnew->col = iscol; 5159e25ed09SBarry Smith (*fact)->factor = FACTOR_LU; 5169e25ed09SBarry Smith return 0; 5179e25ed09SBarry Smith } 518