aij/seq/aijfact.c

cb512458SBarry Smith#ifndef lint
*eef2e97bSBarry Smithstatic char vcid[] = "$Id: aijfact.c,v 1.15 1995/04/25 18:03:03 bsmith Exp bsmith $";
cb512458SBarry Smith#endif
289bc588SBarry Smith
289bc588SBarry Smith
289bc588SBarry Smith#include "aij.h"
8c37ef55SBarry Smith#include "inline/spops.h"
289bc588SBarry Smith/*
289bc588SBarry Smith    Factorization code for AIJ format.
289bc588SBarry Smith*/
289bc588SBarry Smith
1fb19edaSLois Curfman McInnesint MatLUFactorSymbolic_AIJ(Mat mat,IS isrow,IS iscol,Mat *fact)
289bc588SBarry Smith{
1fb19edaSLois Curfman McInnes  Mat_AIJ *aij = (Mat_AIJ *) mat->data, *aijnew;
289bc588SBarry Smith  IS      isicol;
6abc6512SBarry Smith  int     *r,*ic, ierr, i, n = aij->m, *ai = aij->i, *aj = aij->j;
6abc6512SBarry Smith  int     *ainew,*ajnew, jmax,*fill, *ajtmp, nz;
6abc6512SBarry Smith  int     *idnew, idx, row,m,fm, nnz, nzi,len;
289bc588SBarry Smith
289bc588SBarry Smith  if (n != aij->n) SETERR(1,"Mat must be square");
289bc588SBarry Smith  if (!isrow) {SETERR(1,"Must have row permutation");}
289bc588SBarry Smith  if (!iscol) {SETERR(1,"Must have column permutation");}
289bc588SBarry Smith
*eef2e97bSBarry Smith  ierr = ISInvertPermutation(iscol,&isicol); CHKERR(ierr);
289bc588SBarry Smith  ISGetIndices(isrow,&r); ISGetIndices(isicol,&ic);
289bc588SBarry Smith
289bc588SBarry Smith  /* get new row pointers */
289bc588SBarry Smith  ainew = (int *) MALLOC( (n+1)*sizeof(int) ); CHKPTR(ainew);
289bc588SBarry Smith  ainew[0] = 1;
289bc588SBarry Smith  /* don't know how many column pointers are needed so estimate */
289bc588SBarry Smith  jmax = 2*ai[n];
289bc588SBarry Smith  ajnew = (int *) MALLOC( (jmax)*sizeof(int) ); CHKPTR(ajnew);
289bc588SBarry Smith  /* fill is a linked list of nonzeros in active row */
289bc588SBarry Smith  fill = (int *) MALLOC( (n+1)*sizeof(int)); CHKPTR(fill);
289bc588SBarry Smith  /* idnew is location of diagonal in factor */
289bc588SBarry Smith  idnew = (int *) MALLOC( (n+1)*sizeof(int)); CHKPTR(idnew);
289bc588SBarry Smith  idnew[0] = 1;
289bc588SBarry Smith
289bc588SBarry Smith  for ( i=0; i<n; i++ ) {
289bc588SBarry Smith    /* first copy previous fill into linked list */
289bc588SBarry Smith    nnz = nz    = ai[r[i]+1] - ai[r[i]];
289bc588SBarry Smith    ajtmp = aj + ai[r[i]] - 1;
289bc588SBarry Smith    fill[n] = n;
289bc588SBarry Smith    while (nz--) {
289bc588SBarry Smith      fm = n;
289bc588SBarry Smith      idx = ic[*ajtmp++ - 1];
289bc588SBarry Smith      do {
289bc588SBarry Smith        m = fm;
289bc588SBarry Smith        fm = fill[m];
289bc588SBarry Smith      } while (fm < idx);
289bc588SBarry Smith      fill[m] = idx;
289bc588SBarry Smith      fill[idx] = fm;
289bc588SBarry Smith    }
289bc588SBarry Smith    row = fill[n];
289bc588SBarry Smith    while ( row < i ) {
289bc588SBarry Smith      ajtmp = ajnew + idnew[row] - 1;
289bc588SBarry Smith      nz = ainew[row+1] - idnew[row];
289bc588SBarry Smith      fm = row;
289bc588SBarry Smith      while (nz--) {
289bc588SBarry Smith        fm = n;
289bc588SBarry Smith        idx = *ajtmp++ - 1;
289bc588SBarry Smith        do {
289bc588SBarry Smith          m = fm;
289bc588SBarry Smith          fm = fill[m];
289bc588SBarry Smith        } while (fm < idx);
289bc588SBarry Smith        if (fm != idx) {
289bc588SBarry Smith          fill[m] = idx;
289bc588SBarry Smith          fill[idx] = fm;
289bc588SBarry Smith          fm = idx;
289bc588SBarry Smith          nnz++;
289bc588SBarry Smith        }
289bc588SBarry Smith      }
289bc588SBarry Smith      row = fill[row];
289bc588SBarry Smith    }
289bc588SBarry Smith    /* copy new filled row into permanent storage */
289bc588SBarry Smith    ainew[i+1] = ainew[i] + nnz;
289bc588SBarry Smith    if (ainew[i+1] > jmax+1) {
289bc588SBarry Smith      /* allocate a longer ajnew */
289bc588SBarry Smith      jmax += nnz*(n-i);
289bc588SBarry Smith      ajtmp = (int *) MALLOC( jmax*sizeof(int) );CHKPTR(ajtmp);
289bc588SBarry Smith      MEMCPY(ajtmp,ajnew,(ainew[i]-1)*sizeof(int));
289bc588SBarry Smith      FREE(ajnew);
289bc588SBarry Smith      ajnew = ajtmp;
289bc588SBarry Smith    }
289bc588SBarry Smith    ajtmp = ajnew + ainew[i] - 1;
289bc588SBarry Smith    fm = fill[n];
289bc588SBarry Smith    nzi = 0;
289bc588SBarry Smith    while (nnz--) {
289bc588SBarry Smith      if (fm < i) nzi++;
289bc588SBarry Smith      *ajtmp++ = fm + 1;
289bc588SBarry Smith      fm = fill[fm];
289bc588SBarry Smith    }
289bc588SBarry Smith    idnew[i] = ainew[i] + nzi;
289bc588SBarry Smith  }
289bc588SBarry Smith
289bc588SBarry Smith  ISDestroy(isicol); FREE(fill);
289bc588SBarry Smith
289bc588SBarry Smith  /* put together the new matrix */
6b5873e3SBarry Smith  ierr = MatCreateSequentialAIJ(mat->comm,n, n, 0, 0, fact); CHKERR(ierr);
1fb19edaSLois Curfman McInnes  aijnew = (Mat_AIJ *) (*fact)->data;
289bc588SBarry Smith  FREE(aijnew->imax);
289bc588SBarry Smith  aijnew->singlemalloc = 0;
f0479e8cSBarry Smith  len = (ainew[n] - 1)*sizeof(Scalar);
e8d4e0b9SBarry Smith  /* the next line frees the default space generated by the Create() */
e8d4e0b9SBarry Smith  FREE(aijnew->a); FREE(aijnew->ilen);
289bc588SBarry Smith  aijnew->a         = (Scalar *) MALLOC( len ); CHKPTR(aijnew->a);
289bc588SBarry Smith  aijnew->j         = ajnew;
289bc588SBarry Smith  aijnew->i         = ainew;
8c37ef55SBarry Smith  aijnew->diag      = idnew;
e8d4e0b9SBarry Smith  aijnew->ilen      = 0;
20563c6bSBarry Smith  aijnew->imax      = 0;
86d7a8ceSBarry Smith  aijnew->row       = isrow;
86d7a8ceSBarry Smith  aijnew->col       = iscol;
289bc588SBarry Smith  (*fact)->factor   = FACTOR_LU;
*eef2e97bSBarry Smith  aijnew->solve_work = (Scalar *) MALLOC( n*sizeof(Scalar));
*eef2e97bSBarry Smith  CHKPTR(aijnew->solve_work);
5e42470aSBarry Smith  /* Cannot do this here because child is destroyed before parent created
5e42470aSBarry Smith     PLogObjectParent(*fact,isicol); */
289bc588SBarry Smith  return 0;
289bc588SBarry Smith}
289bc588SBarry Smith
1fb19edaSLois Curfman McInnesint MatLUFactorNumeric_AIJ(Mat mat,Mat *infact)
289bc588SBarry Smith{
20563c6bSBarry Smith  Mat     fact = *infact;
1fb19edaSLois Curfman McInnes  Mat_AIJ *aij = (Mat_AIJ *) mat->data, *aijnew = (Mat_AIJ *)fact->data;
86d7a8ceSBarry Smith  IS      iscol = aijnew->col, isrow = aijnew->row, isicol;
289bc588SBarry Smith  int     *r,*ic, ierr, i, j, n = aij->m, *ai = aijnew->i, *aj = aijnew->j;
6abc6512SBarry Smith  int     *ajtmpold, *ajtmp, nz, row,*pj;
6abc6512SBarry Smith  Scalar  *rtmp,*v, *pv, *pc, multiplier;
289bc588SBarry Smith
*eef2e97bSBarry Smith  ierr = ISInvertPermutation(iscol,&isicol); CHKERR(ierr);
5e42470aSBarry Smith  PLogObjectParent(*infact,isicol);
8c37ef55SBarry Smith  ierr = ISGetIndices(isrow,&r); CHKERR(ierr);
8c37ef55SBarry Smith  ierr = ISGetIndices(isicol,&ic); CHKERR(ierr);
289bc588SBarry Smith  rtmp = (Scalar *) MALLOC( (n+1)*sizeof(Scalar) ); CHKPTR(rtmp);
289bc588SBarry Smith
289bc588SBarry Smith  for ( i=0; i<n; i++ ) {
289bc588SBarry Smith    nz = ai[i+1] - ai[i];
289bc588SBarry Smith    ajtmp = aj + ai[i] - 1;
289bc588SBarry Smith    for  ( j=0; j<nz; j++ ) rtmp[ajtmp[j]-1] = 0.0;
289bc588SBarry Smith
289bc588SBarry Smith    /* load in initial (unfactored row) */
8c37ef55SBarry Smith    nz = aij->i[r[i]+1] - aij->i[r[i]];
8c37ef55SBarry Smith    ajtmpold = aij->j + aij->i[r[i]] - 1;
8c37ef55SBarry Smith    v  = aij->a + aij->i[r[i]] - 1;
8c37ef55SBarry Smith    for ( j=0; j<nz; j++ ) rtmp[ic[ajtmpold[j]-1]] =  v[j];
289bc588SBarry Smith
8c37ef55SBarry Smith    row = *ajtmp++ - 1;
289bc588SBarry Smith    while (row < i) {
8c37ef55SBarry Smith      pc = rtmp + row;
8c37ef55SBarry Smith      if (*pc != 0.0) {
8c37ef55SBarry Smith        nz = aijnew->diag[row] - ai[row];
8c37ef55SBarry Smith        pv = aijnew->a + aijnew->diag[row] - 1;
8c37ef55SBarry Smith        pj = aijnew->j + aijnew->diag[row];
8c37ef55SBarry Smith        multiplier = *pc * *pv++;
8c37ef55SBarry Smith        *pc = multiplier;
8c37ef55SBarry Smith        nz = ai[row+1] - ai[row] - 1 - nz;
*eef2e97bSBarry Smith        PLogFlops(2*nz);
8c37ef55SBarry Smith        while (nz-->0) rtmp[*pj++ - 1] -= multiplier* *pv++;
289bc588SBarry Smith      }
8c37ef55SBarry Smith      row = *ajtmp++ - 1;
289bc588SBarry Smith    }
8c37ef55SBarry Smith    /* finished row so stick it into aijnew->a */
8c37ef55SBarry Smith    pv = aijnew->a + ai[i] - 1;
8c37ef55SBarry Smith    pj = aijnew->j + ai[i] - 1;
8c37ef55SBarry Smith    nz = ai[i+1] - ai[i];
8c37ef55SBarry Smith    rtmp[i] = 1.0/rtmp[i];
8c37ef55SBarry Smith    for ( j=0; j<nz; j++ ) {pv[j] = rtmp[pj[j]-1];}
8c37ef55SBarry Smith  }
8c37ef55SBarry Smith  FREE(rtmp);
f0479e8cSBarry Smith  ierr = ISRestoreIndices(isicol,&ic); CHKERR(ierr);
f0479e8cSBarry Smith  ierr = ISRestoreIndices(isrow,&r); CHKERR(ierr);
8c37ef55SBarry Smith  ierr = ISDestroy(isicol); CHKERR(ierr);
8c37ef55SBarry Smith  fact->factor      = FACTOR_LU;
9e25ed09SBarry Smith  aijnew->assembled = 1;
*eef2e97bSBarry Smith  aijnew->nz           = ai[aijnew->n];
*eef2e97bSBarry Smith  PLogFlops(aijnew->n);
289bc588SBarry Smith  return 0;
289bc588SBarry Smith}
1fb19edaSLois Curfman McInnesint MatLUFactor_AIJ(Mat matin,IS row,IS col)
da3a660dSBarry Smith{
1fb19edaSLois Curfman McInnes  Mat_AIJ *mat = (Mat_AIJ *) matin->data;
6abc6512SBarry Smith  int     ierr;
da3a660dSBarry Smith  Mat     fact;
1fb19edaSLois Curfman McInnes  ierr = MatLUFactorSymbolic_AIJ(matin,row,col,&fact); CHKERR(ierr);
1fb19edaSLois Curfman McInnes  ierr = MatLUFactorNumeric_AIJ(matin,&fact); CHKERR(ierr);
da3a660dSBarry Smith
da3a660dSBarry Smith  /* free all the data structures from mat */
da3a660dSBarry Smith  FREE(mat->a);
da3a660dSBarry Smith  if (!mat->singlemalloc) {FREE(mat->i); FREE(mat->j);}
da3a660dSBarry Smith  if (mat->diag) FREE(mat->diag);
da3a660dSBarry Smith  if (mat->ilen) FREE(mat->ilen);
da3a660dSBarry Smith  if (mat->imax) FREE(mat->imax);
86d7a8ceSBarry Smith  if (mat->row && mat->col && mat->row != mat->col) {
86d7a8ceSBarry Smith    ISDestroy(mat->row);
da3a660dSBarry Smith  }
86d7a8ceSBarry Smith  if (mat->col) ISDestroy(mat->col);
da3a660dSBarry Smith  FREE(mat);
da3a660dSBarry Smith
da3a660dSBarry Smith  MEMCPY(matin,fact,sizeof(struct _Mat));
da3a660dSBarry Smith  FREE(fact);
da3a660dSBarry Smith  return 0;
da3a660dSBarry Smith}
da3a660dSBarry Smith
1fb19edaSLois Curfman McInnesint MatSolve_AIJ(Mat mat,Vec bb, Vec xx)
8c37ef55SBarry Smith{
1fb19edaSLois Curfman McInnes  Mat_AIJ *aij = (Mat_AIJ *) mat->data;
86d7a8ceSBarry Smith  IS      iscol = aij->col, isrow = aij->row;
6abc6512SBarry Smith  int     *r,*c, ierr, i,  n = aij->m, *vi, *ai = aij->i, *aj = aij->j;
8c37ef55SBarry Smith  int     nz;
8c37ef55SBarry Smith  Scalar  *x,*b,*tmp, *aa = aij->a, sum, *v;
8c37ef55SBarry Smith
9e25ed09SBarry Smith  if (mat->factor != FACTOR_LU) SETERR(1,"Cannot solve with factor");
9e25ed09SBarry Smith
*eef2e97bSBarry Smith  ierr = VecGetArray(bb,&b); CHKERR(ierr);
*eef2e97bSBarry Smith  ierr = VecGetArray(xx,&x); CHKERR(ierr);
*eef2e97bSBarry Smith  tmp = aij->solve_work;
8c37ef55SBarry Smith
*eef2e97bSBarry Smith  ierr = ISGetIndices(isrow,&r);CHKERR(ierr);
*eef2e97bSBarry Smith  ierr = ISGetIndices(iscol,&c);CHKERR(ierr); c = c + (n-1);
8c37ef55SBarry Smith
8c37ef55SBarry Smith  /* forward solve the lower triangular */
8c37ef55SBarry Smith  tmp[0] = b[*r++];
8c37ef55SBarry Smith  for ( i=1; i<n; i++ ) {
8c37ef55SBarry Smith    v   = aa + ai[i] - 1;
8c37ef55SBarry Smith    vi  = aj + ai[i] - 1;
8c37ef55SBarry Smith    nz  = aij->diag[i] - ai[i];
8c37ef55SBarry Smith    sum = b[*r++];
8c37ef55SBarry Smith    while (nz--) sum -= *v++ * tmp[*vi++ - 1];
8c37ef55SBarry Smith    tmp[i] = sum;
8c37ef55SBarry Smith  }
8c37ef55SBarry Smith
8c37ef55SBarry Smith  /* backward solve the upper triangular */
8c37ef55SBarry Smith  for ( i=n-1; i>=0; i-- ){
8c37ef55SBarry Smith    v   = aa + aij->diag[i];
8c37ef55SBarry Smith    vi  = aj + aij->diag[i];
8c37ef55SBarry Smith    nz  = ai[i+1] - aij->diag[i] - 1;
8c37ef55SBarry Smith    sum = tmp[i];
8c37ef55SBarry Smith    while (nz--) sum -= *v++ * tmp[*vi++ - 1];
8c37ef55SBarry Smith    x[*c--] = tmp[i] = sum*aa[aij->diag[i]-1];
8c37ef55SBarry Smith  }
8c37ef55SBarry Smith
*eef2e97bSBarry Smith  PLogFlops(2*aij->nz - aij->n);
8c37ef55SBarry Smith  return 0;
8c37ef55SBarry Smith}
1fb19edaSLois Curfman McInnesint MatSolveAdd_AIJ(Mat mat,Vec bb, Vec yy, Vec xx)
da3a660dSBarry Smith{
1fb19edaSLois Curfman McInnes  Mat_AIJ *aij = (Mat_AIJ *) mat->data;
86d7a8ceSBarry Smith  IS      iscol = aij->col, isrow = aij->row;
6abc6512SBarry Smith  int     *r,*c, ierr, i,  n = aij->m, *vi, *ai = aij->i, *aj = aij->j;
da3a660dSBarry Smith  int     nz;
da3a660dSBarry Smith  Scalar  *x,*b,*tmp, *aa = aij->a, sum, *v;
da3a660dSBarry Smith
9e25ed09SBarry Smith  if (mat->factor != FACTOR_LU) SETERR(1,"Cannot solve with factor");
da3a660dSBarry Smith  if (yy != xx) {ierr = VecCopy(yy,xx); CHKERR(ierr);}
da3a660dSBarry Smith
*eef2e97bSBarry Smith  ierr = VecGetArray(bb,&b); CHKERR(ierr);
*eef2e97bSBarry Smith  ierr = VecGetArray(xx,&x); CHKERR(ierr);
*eef2e97bSBarry Smith  tmp = aij->solve_work;
da3a660dSBarry Smith
*eef2e97bSBarry Smith  ierr = ISGetIndices(isrow,&r); CHKERR(ierr);
*eef2e97bSBarry Smith  ierr = ISGetIndices(iscol,&c); CHKERR(ierr); c = c + (n-1);
da3a660dSBarry Smith
da3a660dSBarry Smith  /* forward solve the lower triangular */
da3a660dSBarry Smith  tmp[0] = b[*r++];
da3a660dSBarry Smith  for ( i=1; i<n; i++ ) {
da3a660dSBarry Smith    v   = aa + ai[i] - 1;
da3a660dSBarry Smith    vi  = aj + ai[i] - 1;
da3a660dSBarry Smith    nz  = aij->diag[i] - ai[i];
da3a660dSBarry Smith    sum = b[*r++];
da3a660dSBarry Smith    while (nz--) sum -= *v++ * tmp[*vi++ - 1];
da3a660dSBarry Smith    tmp[i] = sum;
da3a660dSBarry Smith  }
da3a660dSBarry Smith
da3a660dSBarry Smith  /* backward solve the upper triangular */
da3a660dSBarry Smith  for ( i=n-1; i>=0; i-- ){
da3a660dSBarry Smith    v   = aa + aij->diag[i];
da3a660dSBarry Smith    vi  = aj + aij->diag[i];
da3a660dSBarry Smith    nz  = ai[i+1] - aij->diag[i] - 1;
da3a660dSBarry Smith    sum = tmp[i];
da3a660dSBarry Smith    while (nz--) sum -= *v++ * tmp[*vi++ - 1];
da3a660dSBarry Smith    tmp[i] = sum*aa[aij->diag[i]-1];
da3a660dSBarry Smith    x[*c--] += tmp[i];
da3a660dSBarry Smith  }
da3a660dSBarry Smith
*eef2e97bSBarry Smith  PLogFlops(2*aij->nz);
da3a660dSBarry Smith  return 0;
da3a660dSBarry Smith}
da3a660dSBarry Smith/* -------------------------------------------------------------------*/
1fb19edaSLois Curfman McInnesint MatSolveTrans_AIJ(Mat mat,Vec bb, Vec xx)
da3a660dSBarry Smith{
1fb19edaSLois Curfman McInnes  Mat_AIJ *aij = (Mat_AIJ *) mat->data;
86d7a8ceSBarry Smith  IS      iscol = aij->col, isrow = aij->row, invisrow,inviscol;
6abc6512SBarry Smith  int     *r,*c, ierr, i, n = aij->m, *vi, *ai = aij->i, *aj = aij->j;
da3a660dSBarry Smith  int     nz;
6abc6512SBarry Smith  Scalar  *x,*b,*tmp, *aa = aij->a, *v;
da3a660dSBarry Smith
9e25ed09SBarry Smith  if (mat->factor != FACTOR_LU) SETERR(1,"Cannot solve with factor");
*eef2e97bSBarry Smith  ierr = VecGetArray(bb,&b); CHKERR(ierr);
*eef2e97bSBarry Smith  ierr = VecGetArray(xx,&x); CHKERR(ierr);
*eef2e97bSBarry Smith  tmp = aij->solve_work;
da3a660dSBarry Smith
da3a660dSBarry Smith  /* invert the permutations */
da3a660dSBarry Smith  ierr = ISInvertPermutation(isrow,&invisrow); CHKERR(ierr);
da3a660dSBarry Smith  ierr = ISInvertPermutation(iscol,&inviscol); CHKERR(ierr);
da3a660dSBarry Smith
da3a660dSBarry Smith
*eef2e97bSBarry Smith  ierr = ISGetIndices(invisrow,&r); CHKERR(ierr);
*eef2e97bSBarry Smith  ierr = ISGetIndices(inviscol,&c); CHKERR(ierr);
da3a660dSBarry Smith
da3a660dSBarry Smith  /* copy the b into temp work space according to permutation */
da3a660dSBarry Smith  for ( i=0; i<n; i++ ) tmp[c[i]] = b[i];
da3a660dSBarry Smith
da3a660dSBarry Smith  /* forward solve the U^T */
da3a660dSBarry Smith  for ( i=0; i<n; i++ ) {
da3a660dSBarry Smith    v   = aa + aij->diag[i] - 1;
da3a660dSBarry Smith    vi  = aj + aij->diag[i];
da3a660dSBarry Smith    nz  = ai[i+1] - aij->diag[i] - 1;
da3a660dSBarry Smith    tmp[i] *= *v++;
da3a660dSBarry Smith    while (nz--) {
da3a660dSBarry Smith      tmp[*vi++ - 1] -= (*v++)*tmp[i];
da3a660dSBarry Smith    }
da3a660dSBarry Smith  }
da3a660dSBarry Smith
da3a660dSBarry Smith  /* backward solve the L^T */
da3a660dSBarry Smith  for ( i=n-1; i>=0; i-- ){
da3a660dSBarry Smith    v   = aa + aij->diag[i] - 2;
da3a660dSBarry Smith    vi  = aj + aij->diag[i] - 2;
da3a660dSBarry Smith    nz  = aij->diag[i] - ai[i];
da3a660dSBarry Smith    while (nz--) {
da3a660dSBarry Smith      tmp[*vi-- - 1] -= (*v--)*tmp[i];
da3a660dSBarry Smith    }
da3a660dSBarry Smith  }
da3a660dSBarry Smith
da3a660dSBarry Smith  /* copy tmp into x according to permutation */
da3a660dSBarry Smith  for ( i=0; i<n; i++ ) x[r[i]] = tmp[i];
da3a660dSBarry Smith
da3a660dSBarry Smith  ISDestroy(invisrow); ISDestroy(inviscol);
da3a660dSBarry Smith
*eef2e97bSBarry Smith  PLogFlops(2*aij->nz-aij->n);
da3a660dSBarry Smith  return 0;
da3a660dSBarry Smith}
da3a660dSBarry Smith
1fb19edaSLois Curfman McInnesint MatSolveTransAdd_AIJ(Mat mat,Vec bb, Vec zz,Vec xx)
da3a660dSBarry Smith{
1fb19edaSLois Curfman McInnes  Mat_AIJ *aij = (Mat_AIJ *) mat->data;
86d7a8ceSBarry Smith  IS      iscol = aij->col, isrow = aij->row, invisrow,inviscol;
6abc6512SBarry Smith  int     *r,*c, ierr, i, n = aij->m, *vi, *ai = aij->i, *aj = aij->j;
6abc6512SBarry Smith  int     nz;
6abc6512SBarry Smith  Scalar  *x,*b,*tmp, *aa = aij->a, *v;
6abc6512SBarry Smith
9e25ed09SBarry Smith  if (mat->factor != FACTOR_LU) SETERR(1,"Cannot solve with factor");
6abc6512SBarry Smith  if (zz != xx) VecCopy(zz,xx);
6abc6512SBarry Smith
*eef2e97bSBarry Smith  ierr = VecGetArray(bb,&b); CHKERR(ierr);
*eef2e97bSBarry Smith  ierr = VecGetArray(xx,&x); CHKERR(ierr);
*eef2e97bSBarry Smith  tmp = aij->solve_work;
6abc6512SBarry Smith
6abc6512SBarry Smith  /* invert the permutations */
6abc6512SBarry Smith  ierr = ISInvertPermutation(isrow,&invisrow); CHKERR(ierr);
6abc6512SBarry Smith  ierr = ISInvertPermutation(iscol,&inviscol); CHKERR(ierr);
6abc6512SBarry Smith
6abc6512SBarry Smith
*eef2e97bSBarry Smith  ierr = ISGetIndices(invisrow,&r); CHKERR(ierr);
*eef2e97bSBarry Smith  ierr = ISGetIndices(inviscol,&c); CHKERR(ierr);
6abc6512SBarry Smith
6abc6512SBarry Smith  /* copy the b into temp work space according to permutation */
6abc6512SBarry Smith  for ( i=0; i<n; i++ ) tmp[c[i]] = b[i];
6abc6512SBarry Smith
6abc6512SBarry Smith  /* forward solve the U^T */
6abc6512SBarry Smith  for ( i=0; i<n; i++ ) {
6abc6512SBarry Smith    v   = aa + aij->diag[i] - 1;
6abc6512SBarry Smith    vi  = aj + aij->diag[i];
6abc6512SBarry Smith    nz  = ai[i+1] - aij->diag[i] - 1;
6abc6512SBarry Smith    tmp[i] *= *v++;
6abc6512SBarry Smith    while (nz--) {
6abc6512SBarry Smith      tmp[*vi++ - 1] -= (*v++)*tmp[i];
6abc6512SBarry Smith    }
6abc6512SBarry Smith  }
6abc6512SBarry Smith
6abc6512SBarry Smith  /* backward solve the L^T */
6abc6512SBarry Smith  for ( i=n-1; i>=0; i-- ){
6abc6512SBarry Smith    v   = aa + aij->diag[i] - 2;
6abc6512SBarry Smith    vi  = aj + aij->diag[i] - 2;
6abc6512SBarry Smith    nz  = aij->diag[i] - ai[i];
6abc6512SBarry Smith    while (nz--) {
6abc6512SBarry Smith      tmp[*vi-- - 1] -= (*v--)*tmp[i];
6abc6512SBarry Smith    }
6abc6512SBarry Smith  }
6abc6512SBarry Smith
6abc6512SBarry Smith  /* copy tmp into x according to permutation */
6abc6512SBarry Smith  for ( i=0; i<n; i++ ) x[r[i]] += tmp[i];
6abc6512SBarry Smith
6abc6512SBarry Smith  ISDestroy(invisrow); ISDestroy(inviscol);
6abc6512SBarry Smith
*eef2e97bSBarry Smith  PLogFlops(2*aij->nz);
6abc6512SBarry Smith  return 0;
da3a660dSBarry Smith}
9e25ed09SBarry Smith/* ----------------------------------------------------------------*/
1fb19edaSLois Curfman McInnesint MatILU_AIJ(Mat mat,IS isrow,IS iscol,int levels,Mat *fact)
9e25ed09SBarry Smith{
1fb19edaSLois Curfman McInnes  Mat_AIJ *aij = (Mat_AIJ *) mat->data, *aijnew;
9e25ed09SBarry Smith  IS      isicol;
9e25ed09SBarry Smith  int     *r,*ic, ierr, i, n = aij->m, *ai = aij->i, *aj = aij->j;
9e25ed09SBarry Smith  int     *ainew,*ajnew, jmax,*fill, *ajtmp, nz, *lfill,*ajfill,*ajtmpf;
9e25ed09SBarry Smith  int     *idnew, idx, row,m,fm, nnz, nzi,len;
9e25ed09SBarry Smith
9e25ed09SBarry Smith  if (n != aij->n) SETERR(1,"Mat must be square");
9e25ed09SBarry Smith  if (!isrow) {SETERR(1,"Must have row permutation");}
9e25ed09SBarry Smith  if (!iscol) {SETERR(1,"Must have column permutation");}
9e25ed09SBarry Smith
*eef2e97bSBarry Smith  ierr = ISInvertPermutation(iscol,&isicol); CHKERR(ierr);
9e25ed09SBarry Smith  ISGetIndices(isrow,&r); ISGetIndices(isicol,&ic);
9e25ed09SBarry Smith
9e25ed09SBarry Smith  /* get new row pointers */
9e25ed09SBarry Smith  ainew = (int *) MALLOC( (n+1)*sizeof(int) ); CHKPTR(ainew);
9e25ed09SBarry Smith  ainew[0] = 1;
9e25ed09SBarry Smith  /* don't know how many column pointers are needed so estimate */
9e25ed09SBarry Smith  jmax = 2*ai[n];
9e25ed09SBarry Smith  ajnew = (int *) MALLOC( (jmax)*sizeof(int) ); CHKPTR(ajnew);
9e25ed09SBarry Smith  /* ajfill is level of fill for each fill entry */
9e25ed09SBarry Smith  ajfill = (int *) MALLOC( (jmax)*sizeof(int) ); CHKPTR(ajfill);
9e25ed09SBarry Smith  /* fill is a linked list of nonzeros in active row */
9e25ed09SBarry Smith  fill = (int *) MALLOC( (n+1)*sizeof(int)); CHKPTR(fill);
9e25ed09SBarry Smith  /* lfill is level for each filled value */
9e25ed09SBarry Smith  lfill = (int *) MALLOC( (n+1)*sizeof(int)); CHKPTR(lfill);
9e25ed09SBarry Smith  /* idnew is location of diagonal in factor */
9e25ed09SBarry Smith  idnew = (int *) MALLOC( (n+1)*sizeof(int)); CHKPTR(idnew);
9e25ed09SBarry Smith  idnew[0] = 1;
9e25ed09SBarry Smith
9e25ed09SBarry Smith  for ( i=0; i<n; i++ ) {
9e25ed09SBarry Smith    /* first copy previous fill into linked list */
9e25ed09SBarry Smith    nnz = nz    = ai[r[i]+1] - ai[r[i]];
9e25ed09SBarry Smith    ajtmp = aj + ai[r[i]] - 1;
9e25ed09SBarry Smith    fill[n] = n;
9e25ed09SBarry Smith    while (nz--) {
9e25ed09SBarry Smith      fm = n;
9e25ed09SBarry Smith      idx = ic[*ajtmp++ - 1];
9e25ed09SBarry Smith      do {
9e25ed09SBarry Smith        m = fm;
9e25ed09SBarry Smith        fm = fill[m];
9e25ed09SBarry Smith      } while (fm < idx);
9e25ed09SBarry Smith      fill[m] = idx;
9e25ed09SBarry Smith      fill[idx] = fm;
9e25ed09SBarry Smith      lfill[idx] = -1;
9e25ed09SBarry Smith    }
9e25ed09SBarry Smith    row = fill[n];
9e25ed09SBarry Smith    while ( row < i ) {
9e25ed09SBarry Smith      ajtmp  = ajnew + idnew[row] - 1;
9e25ed09SBarry Smith      ajtmpf = ajfill + idnew[row] - 1;
9e25ed09SBarry Smith      nz = ainew[row+1] - idnew[row];
9e25ed09SBarry Smith      fm = row;
9e25ed09SBarry Smith      while (nz--) {
9e25ed09SBarry Smith        fm = n;
9e25ed09SBarry Smith        idx = *ajtmp++ - 1;
9e25ed09SBarry Smith        do {
9e25ed09SBarry Smith          m = fm;
9e25ed09SBarry Smith          fm = fill[m];
9e25ed09SBarry Smith        } while (fm < idx);
9e25ed09SBarry Smith        if (fm != idx) {
9e25ed09SBarry Smith          lfill[idx] = *ajtmpf + 1;
9e25ed09SBarry Smith          if (lfill[idx] < levels) {
9e25ed09SBarry Smith            fill[m] = idx;
9e25ed09SBarry Smith            fill[idx] = fm;
9e25ed09SBarry Smith            fm = idx;
9e25ed09SBarry Smith            nnz++;
9e25ed09SBarry Smith          }
9e25ed09SBarry Smith        }
9e25ed09SBarry Smith        ajtmpf++;
9e25ed09SBarry Smith      }
9e25ed09SBarry Smith      row = fill[row];
9e25ed09SBarry Smith    }
9e25ed09SBarry Smith    /* copy new filled row into permanent storage */
9e25ed09SBarry Smith    ainew[i+1] = ainew[i] + nnz;
9e25ed09SBarry Smith    if (ainew[i+1] > jmax+1) {
9e25ed09SBarry Smith      /* allocate a longer ajnew */
9e25ed09SBarry Smith      jmax += nnz*(n-i);
9e25ed09SBarry Smith      ajtmp = (int *) MALLOC( jmax*sizeof(int) );CHKPTR(ajtmp);
9e25ed09SBarry Smith      MEMCPY(ajtmp,ajnew,(ainew[i]-1)*sizeof(int));
9e25ed09SBarry Smith      FREE(ajnew);
9e25ed09SBarry Smith      ajnew = ajtmp;
9e25ed09SBarry Smith      /* allocate a longer ajfill */
9e25ed09SBarry Smith      ajtmp = (int *) MALLOC( jmax*sizeof(int) );CHKPTR(ajtmp);
9e25ed09SBarry Smith      MEMCPY(ajtmp,ajfill,(ainew[i]-1)*sizeof(int));
9e25ed09SBarry Smith      FREE(ajfill);
9e25ed09SBarry Smith      ajfill = ajtmp;
9e25ed09SBarry Smith    }
9e25ed09SBarry Smith    ajtmp  = ajnew + ainew[i] - 1;
9e25ed09SBarry Smith    ajtmpf = ajfill + ainew[i] - 1;
9e25ed09SBarry Smith    fm = fill[n];
9e25ed09SBarry Smith    nzi = 0;
9e25ed09SBarry Smith    while (nnz--) {
9e25ed09SBarry Smith      if (fm < i) nzi++;
9e25ed09SBarry Smith      *ajtmp++  = fm + 1;
9e25ed09SBarry Smith      *ajtmpf++ = lfill[fm];
9e25ed09SBarry Smith      fm = fill[fm];
9e25ed09SBarry Smith    }
9e25ed09SBarry Smith    idnew[i] = ainew[i] + nzi;
9e25ed09SBarry Smith  }
9e25ed09SBarry Smith  FREE(ajfill);
9e25ed09SBarry Smith  ISDestroy(isicol); FREE(fill); FREE(lfill);
9e25ed09SBarry Smith
9e25ed09SBarry Smith  /* put together the new matrix */
6b5873e3SBarry Smith  ierr = MatCreateSequentialAIJ(mat->comm,n, n, 0, 0, fact); CHKERR(ierr);
1fb19edaSLois Curfman McInnes  aijnew = (Mat_AIJ *) (*fact)->data;
9e25ed09SBarry Smith  FREE(aijnew->imax);
9e25ed09SBarry Smith  aijnew->singlemalloc = 0;
9e25ed09SBarry Smith  len = (ainew[n] - 1)*sizeof(Scalar);
9e25ed09SBarry Smith  /* the next line frees the default space generated by the Create() */
9e25ed09SBarry Smith  FREE(aijnew->a); FREE(aijnew->ilen);
9e25ed09SBarry Smith  aijnew->a         = (Scalar *) MALLOC( len ); CHKPTR(aijnew->a);
9e25ed09SBarry Smith  aijnew->j         = ajnew;
9e25ed09SBarry Smith  aijnew->i         = ainew;
9e25ed09SBarry Smith  aijnew->diag      = idnew;
9e25ed09SBarry Smith  aijnew->ilen      = 0;
9e25ed09SBarry Smith  aijnew->imax      = 0;
86d7a8ceSBarry Smith  aijnew->row       = isrow;
86d7a8ceSBarry Smith  aijnew->col       = iscol;
*eef2e97bSBarry Smith  aijnew->solve_work = (Scalar *) MALLOC( n*sizeof(Scalar));
*eef2e97bSBarry Smith  CHKPTR(aijnew->solve_work);
9e25ed09SBarry Smith  (*fact)->factor   = FACTOR_LU;
9e25ed09SBarry Smith  return 0;
9e25ed09SBarry Smith}