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/*! @file cgstrf.c
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 * \brief Computes an LU factorization of a general sparse matrix
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 *
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 * 
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 * -- SuperLU routine (version 3.0) --
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 * Univ. of California Berkeley, Xerox Palo Alto Research Center,
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 * and Lawrence Berkeley National Lab.
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 * October 15, 2003
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 * 
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 * Copyright (c) 1994 by Xerox Corporation.  All rights reserved.
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 *
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 * THIS MATERIAL IS PROVIDED AS IS, WITH ABSOLUTELY NO WARRANTY
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 * EXPRESSED OR IMPLIED.  ANY USE IS AT YOUR OWN RISK.
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 * 
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 * Permission is hereby granted to use or copy this program for any
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 * purpose, provided the above notices are retained on all copies.
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 * Permission to modify the code and to distribute modified code is
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 * granted, provided the above notices are retained, and a notice that
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 * the code was modified is included with the above copyright notice.
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 * 
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 */
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#include "slu_cdefs.h"
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/*! \brief
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 *
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 * 
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 * Purpose
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 * =======
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 *
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 * CGSTRF computes an LU factorization of a general sparse m-by-n
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 * matrix A using partial pivoting with row interchanges.
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 * The factorization has the form
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 *     Pr * A = L * U
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 * where Pr is a row permutation matrix, L is lower triangular with unit
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 * diagonal elements (lower trapezoidal if A->nrow > A->ncol), and U is upper 
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 * triangular (upper trapezoidal if A->nrow < A->ncol).
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 *
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 * See supermatrix.h for the definition of 'SuperMatrix' structure.
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 *
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 * Arguments
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 * =========
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 *
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 * options (input) superlu_options_t*
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 *         The structure defines the input parameters to control
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 *         how the LU decomposition will be performed.
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 *
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 * A        (input) SuperMatrix*
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 *	    Original matrix A, permuted by columns, of dimension
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 *          (A->nrow, A->ncol). The type of A can be:
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 *          Stype = SLU_NCP; Dtype = SLU_C; Mtype = SLU_GE.
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 *
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 * relax    (input) int
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 *          To control degree of relaxing supernodes. If the number
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 *          of nodes (columns) in a subtree of the elimination tree is less
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 *          than relax, this subtree is considered as one supernode,
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 *          regardless of the row structures of those columns.
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 *
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 * panel_size (input) int
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 *          A panel consists of at most panel_size consecutive columns.
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 *
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 * etree    (input) int*, dimension (A->ncol)
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 *          Elimination tree of A'*A.
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 *          Note: etree is a vector of parent pointers for a forest whose
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 *          vertices are the integers 0 to A->ncol-1; etree[root]==A->ncol.
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 *          On input, the columns of A should be permuted so that the
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 *          etree is in a certain postorder.
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 *
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 * work     (input/output) void*, size (lwork) (in bytes)
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 *          User-supplied work space and space for the output data structures.
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 *          Not referenced if lwork = 0;
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 *
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 * lwork   (input) int
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 *         Specifies the size of work array in bytes.
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 *         = 0:  allocate space internally by system malloc;
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 *         > 0:  use user-supplied work array of length lwork in bytes,
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 *               returns error if space runs out.
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 *         = -1: the routine guesses the amount of space needed without
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 *               performing the factorization, and returns it in
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 *               *info; no other side effects.
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 *
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 * perm_c   (input) int*, dimension (A->ncol)
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 *	    Column permutation vector, which defines the 
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 *          permutation matrix Pc; perm_c[i] = j means column i of A is 
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 *          in position j in A*Pc.
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 *          When searching for diagonal, perm_c[*] is applied to the
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 *          row subscripts of A, so that diagonal threshold pivoting
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 *          can find the diagonal of A, rather than that of A*Pc.
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 *
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 * perm_r   (input/output) int*, dimension (A->nrow)
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 *          Row permutation vector which defines the permutation matrix Pr,
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 *          perm_r[i] = j means row i of A is in position j in Pr*A.
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 *          If options->Fact = SamePattern_SameRowPerm, the pivoting routine
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 *             will try to use the input perm_r, unless a certain threshold
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 *             criterion is violated. In that case, perm_r is overwritten by
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 *             a new permutation determined by partial pivoting or diagonal
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 *             threshold pivoting.
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 *          Otherwise, perm_r is output argument;
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 *
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 * L        (output) SuperMatrix*
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 *          The factor L from the factorization Pr*A=L*U; use compressed row 
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 *          subscripts storage for supernodes, i.e., L has type: 
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 *          Stype = SLU_SC, Dtype = SLU_C, Mtype = SLU_TRLU.
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 *
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 * U        (output) SuperMatrix*
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 *	    The factor U from the factorization Pr*A*Pc=L*U. Use column-wise
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 *          storage scheme, i.e., U has types: Stype = SLU_NC, 
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 *          Dtype = SLU_C, Mtype = SLU_TRU.
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 *
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 * stat     (output) SuperLUStat_t*
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 *          Record the statistics on runtime and floating-point operation count.
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 *          See slu_util.h for the definition of 'SuperLUStat_t'.
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 *
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 * info     (output) int*
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 *          = 0: successful exit
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 *          < 0: if info = -i, the i-th argument had an illegal value
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 *          > 0: if info = i, and i is
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 *             <= A->ncol: U(i,i) is exactly zero. The factorization has
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 *                been completed, but the factor U is exactly singular,
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 *                and division by zero will occur if it is used to solve a
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 *                system of equations.
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 *             > A->ncol: number of bytes allocated when memory allocation
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 *                failure occurred, plus A->ncol. If lwork = -1, it is
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 *                the estimated amount of space needed, plus A->ncol.
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 *
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 * ======================================================================
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 *
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 * Local Working Arrays: 
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 * ======================
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 *   m = number of rows in the matrix
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 *   n = number of columns in the matrix
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 *
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 *   xprune[0:n-1]: xprune[*] points to locations in subscript 
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 *	vector lsub[*]. For column i, xprune[i] denotes the point where 
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 *	structural pruning begins. I.e. only xlsub[i],..,xprune[i]-1 need 
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 *	to be traversed for symbolic factorization.
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 *
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 *   marker[0:3*m-1]: marker[i] = j means that node i has been 
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 *	reached when working on column j.
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 *	Storage: relative to original row subscripts
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 *	NOTE: There are 3 of them: marker/marker1 are used for panel dfs, 
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 *	      see cpanel_dfs.c; marker2 is used for inner-factorization,
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 *            see ccolumn_dfs.c.
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 *
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 *   parent[0:m-1]: parent vector used during dfs
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 *      Storage: relative to new row subscripts
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 *
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 *   xplore[0:m-1]: xplore[i] gives the location of the next (dfs) 
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 *	unexplored neighbor of i in lsub[*]
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 *
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 *   segrep[0:nseg-1]: contains the list of supernodal representatives
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 *	in topological order of the dfs. A supernode representative is the 
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 *	last column of a supernode.
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 *      The maximum size of segrep[] is n.
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 *
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 *   repfnz[0:W*m-1]: for a nonzero segment U[*,j] that ends at a 
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 *	supernodal representative r, repfnz[r] is the location of the first 
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 *	nonzero in this segment.  It is also used during the dfs: repfnz[r]>0
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 *	indicates the supernode r has been explored.
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 *	NOTE: There are W of them, each used for one column of a panel. 
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 *
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 *   panel_lsub[0:W*m-1]: temporary for the nonzeros row indices below 
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 *      the panel diagonal. These are filled in during cpanel_dfs(), and are
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 *      used later in the inner LU factorization within the panel.
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 *	panel_lsub[]/dense[] pair forms the SPA data structure.
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 *	NOTE: There are W of them.
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 *
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 *   dense[0:W*m-1]: sparse accumulating (SPA) vector for intermediate values;
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 *	    	   NOTE: there are W of them.
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 *
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 *   tempv[0:*]: real temporary used for dense numeric kernels;
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 *	The size of this array is defined by NUM_TEMPV() in slu_cdefs.h.
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 * 
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 */
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void
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cgstrf (superlu_options_t *options, SuperMatrix *A,
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        int relax, int panel_size, int *etree, void *work, int lwork,
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        int *perm_c, int *perm_r, SuperMatrix *L, SuperMatrix *U,
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        SuperLUStat_t *stat, int *info)
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{
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    /* Local working arrays */
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    NCPformat *Astore;
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    int       *iperm_r = NULL; /* inverse of perm_r; used when 
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                                  options->Fact == SamePattern_SameRowPerm */
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    int       *iperm_c; /* inverse of perm_c */
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    int       *iwork;
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    complex    *cwork;
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    int	      *segrep, *repfnz, *parent, *xplore;
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    int	      *panel_lsub; /* dense[]/panel_lsub[] pair forms a w-wide SPA */
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    int	      *xprune;
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    int	      *marker;
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    complex    *dense, *tempv;
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    int       *relax_end;
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    complex    *a;
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    int       *asub;
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    int       *xa_begin, *xa_end;
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    int       *xsup, *supno;
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    int       *xlsub, *xlusup, *xusub;
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    int       nzlumax;
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    float fill_ratio = sp_ienv(6);  /* estimated fill ratio */
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    static    GlobalLU_t Glu; /* persistent to facilitate multiple factors. */
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    /* Local scalars */
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    fact_t    fact = options->Fact;
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    double    diag_pivot_thresh = options->DiagPivotThresh;
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    int       pivrow;   /* pivotal row number in the original matrix A */
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    int       nseg1;	/* no of segments in U-column above panel row jcol */
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    int       nseg;	/* no of segments in each U-column */
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    register int jcol;	
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    register int kcol;	/* end column of a relaxed snode */
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    register int icol;
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    register int i, k, jj, new_next, iinfo;
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    int       m, n, min_mn, jsupno, fsupc, nextlu, nextu;
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    int       w_def;	/* upper bound on panel width */
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    int       usepr, iperm_r_allocated = 0;
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    int       nnzL, nnzU;
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    int       *panel_histo = stat->panel_histo;
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    flops_t   *ops = stat->ops;
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    iinfo    = 0;
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    m        = A->nrow;
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    n        = A->ncol;
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    min_mn   = SUPERLU_MIN(m, n);
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    Astore   = A->Store;
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    a        = Astore->nzval;
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    asub     = Astore->rowind;
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    xa_begin = Astore->colbeg;
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    xa_end   = Astore->colend;
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    /* Allocate storage common to the factor routines */
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    *info = cLUMemInit(fact, work, lwork, m, n, Astore->nnz,
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                       panel_size, fill_ratio, L, U, &Glu, &iwork, &cwork);
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    if ( *info ) return;
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    xsup    = Glu.xsup;
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    supno   = Glu.supno;
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    xlsub   = Glu.xlsub;
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    xlusup  = Glu.xlusup;
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    xusub   = Glu.xusub;
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    SetIWork(m, n, panel_size, iwork, &segrep, &parent, &xplore,
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	     &repfnz, &panel_lsub, &xprune, &marker);
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    cSetRWork(m, panel_size, cwork, &dense, &tempv);
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    usepr = (fact == SamePattern_SameRowPerm);
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    if ( usepr ) {
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	/* Compute the inverse of perm_r */
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	iperm_r = (int *) intMalloc(m);
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	for (k = 0; k < m; ++k) iperm_r[perm_r[k]] = k;
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	iperm_r_allocated = 1;
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    }
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    iperm_c = (int *) intMalloc(n);
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    for (k = 0; k < n; ++k) iperm_c[perm_c[k]] = k;
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    /* Identify relaxed snodes */
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    relax_end = (int *) intMalloc(n);
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    if ( options->SymmetricMode == YES ) {
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        heap_relax_snode(n, etree, relax, marker, relax_end); 
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    } else {
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        relax_snode(n, etree, relax, marker, relax_end); 
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    }
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    ifill (perm_r, m, EMPTY);
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    ifill (marker, m * NO_MARKER, EMPTY);
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    supno[0] = -1;
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    xsup[0]  = xlsub[0] = xusub[0] = xlusup[0] = 0;
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    w_def    = panel_size;
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    /* 
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     * Work on one "panel" at a time. A panel is one of the following: 
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     *	   (a) a relaxed supernode at the bottom of the etree, or
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     *	   (b) panel_size contiguous columns, defined by the user
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     */
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    for (jcol = 0; jcol < min_mn; ) {
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	if ( relax_end[jcol] != EMPTY ) { /* start of a relaxed snode */
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   	    kcol = relax_end[jcol];	  /* end of the relaxed snode */
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	    panel_histo[kcol-jcol+1]++;
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	    /* --------------------------------------
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	     * Factorize the relaxed supernode(jcol:kcol) 
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	     * -------------------------------------- */
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	    /* Determine the union of the row structure of the snode */
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	    if ( (*info = csnode_dfs(jcol, kcol, asub, xa_begin, xa_end,
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				    xprune, marker, &Glu)) != 0 )
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		return;
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            nextu    = xusub[jcol];
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	    nextlu   = xlusup[jcol];
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	    jsupno   = supno[jcol];
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	    fsupc    = xsup[jsupno];
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	    new_next = nextlu + (xlsub[fsupc+1]-xlsub[fsupc])*(kcol-jcol+1);
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	    nzlumax = Glu.nzlumax;
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	    while ( new_next > nzlumax ) {
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		if ( (*info = cLUMemXpand(jcol, nextlu, LUSUP, &nzlumax, &Glu)) )
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		    return;
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	    }
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	    for (icol = jcol; icol<= kcol; icol++) {
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		xusub[icol+1] = nextu;
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    		/* Scatter into SPA dense[*] */
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    		for (k = xa_begin[icol]; k < xa_end[icol]; k++)
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        	    dense[asub[k]] = a[k];
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	       	/* Numeric update within the snode */
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	        csnode_bmod(icol, jsupno, fsupc, dense, tempv, &Glu, stat);
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		if ( (*info = cpivotL(icol, diag_pivot_thresh, &usepr, perm_r,
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				      iperm_r, iperm_c, &pivrow, &Glu, stat)) )
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		    if ( iinfo == 0 ) iinfo = *info;
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#ifdef DEBUG
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		cprint_lu_col("[1]: ", icol, pivrow, xprune, &Glu);
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#endif
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	    }
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	    jcol = icol;
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	} else { /* Work on one panel of panel_size columns */
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	    /* Adjust panel_size so that a panel won't overlap with the next 
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	     * relaxed snode.
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	     */
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	    panel_size = w_def;
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	    for (k = jcol + 1; k < SUPERLU_MIN(jcol+panel_size, min_mn); k++) 
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		if ( relax_end[k] != EMPTY ) {
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		    panel_size = k - jcol;
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		    break;
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		}
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	    if ( k == min_mn ) panel_size = min_mn - jcol;
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	    panel_histo[panel_size]++;
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	    /* symbolic factor on a panel of columns */
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	    cpanel_dfs(m, panel_size, jcol, A, perm_r, &nseg1,
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		      dense, panel_lsub, segrep, repfnz, xprune,
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		      marker, parent, xplore, &Glu);
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	    /* numeric sup-panel updates in topological order */
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	    cpanel_bmod(m, panel_size, jcol, nseg1, dense,
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		        tempv, segrep, repfnz, &Glu, stat);
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	    /* Sparse LU within the panel, and below panel diagonal */
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    	    for ( jj = jcol; jj < jcol + panel_size; jj++) {
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 		k = (jj - jcol) * m; /* column index for w-wide arrays */
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		nseg = nseg1;	/* Begin after all the panel segments */
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	    	if ((*info = ccolumn_dfs(m, jj, perm_r, &nseg, &panel_lsub[k],
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					segrep, &repfnz[k], xprune, marker,
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					parent, xplore, &Glu)) != 0) return;
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	      	/* Numeric updates */
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	    	if ((*info = ccolumn_bmod(jj, (nseg - nseg1), &dense[k],
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					 tempv, &segrep[nseg1], &repfnz[k],
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					 jcol, &Glu, stat)) != 0) return;
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	        /* Copy the U-segments to ucol[*] */
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		if ((*info = ccopy_to_ucol(jj, nseg, segrep, &repfnz[k],
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					  perm_r, &dense[k], &Glu)) != 0)
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		    return;
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	    	if ( (*info = cpivotL(jj, diag_pivot_thresh, &usepr, perm_r,
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				      iperm_r, iperm_c, &pivrow, &Glu, stat)) )
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		    if ( iinfo == 0 ) iinfo = *info;
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		/* Prune columns (0:jj-1) using column jj */
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	    	cpruneL(jj, perm_r, pivrow, nseg, segrep,
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                        &repfnz[k], xprune, &Glu);
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		/* Reset repfnz[] for this column */
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	    	resetrep_col (nseg, segrep, &repfnz[k]);
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#ifdef DEBUG
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		cprint_lu_col("[2]: ", jj, pivrow, xprune, &Glu);
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#endif
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	    }
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   	    jcol += panel_size;	/* Move to the next panel */
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	} /* else */
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    } /* for */
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    *info = iinfo;
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    if ( m > n ) {
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	k = 0;
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        for (i = 0; i < m; ++i) 
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            if ( perm_r[i] == EMPTY ) {
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    		perm_r[i] = n + k;
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		++k;
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	    }
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    }
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    countnz(min_mn, xprune, &nnzL, &nnzU, &Glu);
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    fixupL(min_mn, perm_r, &Glu);
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    cLUWorkFree(iwork, cwork, &Glu); /* Free work space and compress storage */
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    if ( fact == SamePattern_SameRowPerm ) {
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        /* L and U structures may have changed due to possibly different
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	   pivoting, even though the storage is available.
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	   There could also be memory expansions, so the array locations
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           may have changed, */
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        ((SCformat *)L->Store)->nnz = nnzL;
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	((SCformat *)L->Store)->nsuper = Glu.supno[n];
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	((SCformat *)L->Store)->nzval = Glu.lusup;
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	((SCformat *)L->Store)->nzval_colptr = Glu.xlusup;
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	((SCformat *)L->Store)->rowind = Glu.lsub;
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	((SCformat *)L->Store)->rowind_colptr = Glu.xlsub;
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	((NCformat *)U->Store)->nnz = nnzU;
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	((NCformat *)U->Store)->nzval = Glu.ucol;
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	((NCformat *)U->Store)->rowind = Glu.usub;
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	((NCformat *)U->Store)->colptr = Glu.xusub;
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    } else {
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        cCreate_SuperNode_Matrix(L, A->nrow, min_mn, nnzL, Glu.lusup, 
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	                         Glu.xlusup, Glu.lsub, Glu.xlsub, Glu.supno,
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			         Glu.xsup, SLU_SC, SLU_C, SLU_TRLU);
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    	cCreate_CompCol_Matrix(U, min_mn, min_mn, nnzU, Glu.ucol, 
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			       Glu.usub, Glu.xusub, SLU_NC, SLU_C, SLU_TRU);
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    }
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    ops[FACT] += ops[TRSV] + ops[GEMV];	
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    stat->expansions = --(Glu.num_expansions);
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    if ( iperm_r_allocated ) SUPERLU_FREE (iperm_r);
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    SUPERLU_FREE (iperm_c);
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    SUPERLU_FREE (relax_end);
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}