// CXSparse/Source/cs_transpose: transpose a sparse matrix // CXSparse, Copyright (c) 2006-2022, Timothy A. Davis. All Rights Reserved. // SPDX-License-Identifier: LGPL-2.1+ #include "cs.h" /* C = A' */ cs *cs_transpose (const cs *A, CS_INT values) { CS_INT p, q, j, *Cp, *Ci, n, m, *Ap, *Ai, *w ; CS_ENTRY *Cx, *Ax ; cs *C ; if (!CS_CSC (A)) return (NULL) ; /* check inputs */ m = A->m ; n = A->n ; Ap = A->p ; Ai = A->i ; Ax = A->x ; C = cs_spalloc (n, m, Ap [n], values && Ax, 0) ; /* allocate result */ w = cs_calloc (m, sizeof (CS_INT)) ; /* get workspace */ if (!C || !w) return (cs_done (C, w, NULL, 0)) ; /* out of memory */ Cp = C->p ; Ci = C->i ; Cx = C->x ; for (p = 0 ; p < Ap [n] ; p++) w [Ai [p]]++ ; /* row counts */ cs_cumsum (Cp, w, m) ; /* row pointers */ for (j = 0 ; j < n ; j++) { for (p = Ap [j] ; p < Ap [j+1] ; p++) { Ci [q = w [Ai [p]]++] = j ; /* place A(i,j) as entry C(j,i) */ if (Cx) Cx [q] = (values > 0) ? CS_CONJ (Ax [p]) : Ax [p] ; } } return (cs_done (C, w, NULL, 1)) ; /* success; free w and return C */ }