// CXSparse/Source/cs_chol: sparse Cholesky factorization // CXSparse, Copyright (c) 2006-2022, Timothy A. Davis. All Rights Reserved. // SPDX-License-Identifier: LGPL-2.1+ #include "cs.h" /* L = chol (A, [pinv parent cp]), pinv is optional */ csn *cs_chol (const cs *A, const css *S) { CS_ENTRY d, lki, *Lx, *x, *Cx ; CS_INT top, i, p, k, n, *Li, *Lp, *cp, *pinv, *s, *c, *parent, *Cp, *Ci ; cs *L, *C, *E ; csn *N ; if (!CS_CSC (A) || !S || !S->cp || !S->parent) return (NULL) ; n = A->n ; N = cs_calloc (1, sizeof (csn)) ; /* allocate result */ c = cs_malloc (2*n, sizeof (CS_INT)) ; /* get CS_INT workspace */ x = cs_malloc (n, sizeof (CS_ENTRY)) ; /* get CS_ENTRY workspace */ cp = S->cp ; pinv = S->pinv ; parent = S->parent ; C = pinv ? cs_symperm (A, pinv, 1) : ((cs *) A) ; E = pinv ? C : NULL ; /* E is alias for A, or a copy E=A(p,p) */ if (!N || !c || !x || !C) return (cs_ndone (N, E, c, x, 0)) ; s = c + n ; Cp = C->p ; Ci = C->i ; Cx = C->x ; N->L = L = cs_spalloc (n, n, cp [n], 1, 0) ; /* allocate result */ if (!L) return (cs_ndone (N, E, c, x, 0)) ; Lp = L->p ; Li = L->i ; Lx = L->x ; for (k = 0 ; k < n ; k++) Lp [k] = c [k] = cp [k] ; for (k = 0 ; k < n ; k++) /* compute L(k,:) for L*L' = C */ { /* --- Nonzero pattern of L(k,:) ------------------------------------ */ top = cs_ereach (C, k, parent, s, c) ; /* find pattern of L(k,:) */ x [k] = 0 ; /* x (0:k) is now zero */ for (p = Cp [k] ; p < Cp [k+1] ; p++) /* x = full(triu(C(:,k))) */ { if (Ci [p] <= k) x [Ci [p]] = Cx [p] ; } d = x [k] ; /* d = C(k,k) */ x [k] = 0 ; /* clear x for k+1st iteration */ /* --- Triangular solve --------------------------------------------- */ for ( ; top < n ; top++) /* solve L(0:k-1,0:k-1) * x = C(:,k) */ { i = s [top] ; /* s [top..n-1] is pattern of L(k,:) */ lki = x [i] / Lx [Lp [i]] ; /* L(k,i) = x (i) / L(i,i) */ x [i] = 0 ; /* clear x for k+1st iteration */ for (p = Lp [i] + 1 ; p < c [i] ; p++) { x [Li [p]] -= Lx [p] * lki ; } d -= lki * CS_CONJ (lki) ; /* d = d - L(k,i)*L(k,i) */ p = c [i]++ ; Li [p] = k ; /* store L(k,i) in column i */ Lx [p] = CS_CONJ (lki) ; } /* --- Compute L(k,k) ----------------------------------------------- */ if (CS_REAL (d) <= 0 || CS_IMAG (d) != 0) return (cs_ndone (N, E, c, x, 0)) ; /* not pos def */ p = c [k]++ ; Li [p] = k ; /* store L(k,k) = sqrt (d) in column k */ Lx [p] = sqrt (d) ; } Lp [n] = cp [n] ; /* finalize L */ return (cs_ndone (N, E, c, x, 1)) ; /* success: free E,s,x; return N */ }