diff -r d59bea55db9b -r c445c931472f src/amd/amd_info.c --- /dev/null Thu Jan 01 00:00:00 1970 +0000 +++ b/src/amd/amd_info.c Mon Dec 06 13:09:21 2010 +0100 @@ -0,0 +1,120 @@ +/* ========================================================================= */ +/* === AMD_info ============================================================ */ +/* ========================================================================= */ + +/* ------------------------------------------------------------------------- */ +/* AMD, Copyright (c) Timothy A. Davis, */ +/* Patrick R. Amestoy, and Iain S. Duff. See ../README.txt for License. */ +/* email: davis at cise.ufl.edu CISE Department, Univ. of Florida. */ +/* web: http://www.cise.ufl.edu/research/sparse/amd */ +/* ------------------------------------------------------------------------- */ + +/* User-callable. Prints the output statistics for AMD. See amd.h + * for details. If the Info array is not present, nothing is printed. + */ + +#include "amd_internal.h" + +#define PRI(format,x) { if (x >= 0) { PRINTF ((format, x)) ; }} + +GLOBAL void AMD_info +( + double Info [ ] +) +{ + double n, ndiv, nmultsubs_ldl, nmultsubs_lu, lnz, lnzd ; + + PRINTF (("\nAMD version %d.%d.%d, %s, results:\n", + AMD_MAIN_VERSION, AMD_SUB_VERSION, AMD_SUBSUB_VERSION, AMD_DATE)) ; + + if (!Info) + { + return ; + } + + n = Info [AMD_N] ; + ndiv = Info [AMD_NDIV] ; + nmultsubs_ldl = Info [AMD_NMULTSUBS_LDL] ; + nmultsubs_lu = Info [AMD_NMULTSUBS_LU] ; + lnz = Info [AMD_LNZ] ; + lnzd = (n >= 0 && lnz >= 0) ? (n + lnz) : (-1) ; + + /* AMD return status */ + PRINTF ((" status: ")) ; + if (Info [AMD_STATUS] == AMD_OK) + { + PRINTF (("OK\n")) ; + } + else if (Info [AMD_STATUS] == AMD_OUT_OF_MEMORY) + { + PRINTF (("out of memory\n")) ; + } + else if (Info [AMD_STATUS] == AMD_INVALID) + { + PRINTF (("invalid matrix\n")) ; + } + else if (Info [AMD_STATUS] == AMD_OK_BUT_JUMBLED) + { + PRINTF (("OK, but jumbled\n")) ; + } + else + { + PRINTF (("unknown\n")) ; + } + + /* statistics about the input matrix */ + PRI (" n, dimension of A: %.20g\n", n); + PRI (" nz, number of nonzeros in A: %.20g\n", + Info [AMD_NZ]) ; + PRI (" symmetry of A: %.4f\n", + Info [AMD_SYMMETRY]) ; + PRI (" number of nonzeros on diagonal: %.20g\n", + Info [AMD_NZDIAG]) ; + PRI (" nonzeros in pattern of A+A' (excl. diagonal): %.20g\n", + Info [AMD_NZ_A_PLUS_AT]) ; + PRI (" # dense rows/columns of A+A': %.20g\n", + Info [AMD_NDENSE]) ; + + /* statistics about AMD's behavior */ + PRI (" memory used, in bytes: %.20g\n", + Info [AMD_MEMORY]) ; + PRI (" # of memory compactions: %.20g\n", + Info [AMD_NCMPA]) ; + + /* statistics about the ordering quality */ + PRINTF (("\n" + " The following approximate statistics are for a subsequent\n" + " factorization of A(P,P) + A(P,P)'. They are slight upper\n" + " bounds if there are no dense rows/columns in A+A', and become\n" + " looser if dense rows/columns exist.\n\n")) ; + + PRI (" nonzeros in L (excluding diagonal): %.20g\n", + lnz) ; + PRI (" nonzeros in L (including diagonal): %.20g\n", + lnzd) ; + PRI (" # divide operations for LDL' or LU: %.20g\n", + ndiv) ; + PRI (" # multiply-subtract operations for LDL': %.20g\n", + nmultsubs_ldl) ; + PRI (" # multiply-subtract operations for LU: %.20g\n", + nmultsubs_lu) ; + PRI (" max nz. in any column of L (incl. diagonal): %.20g\n", + Info [AMD_DMAX]) ; + + /* total flop counts for various factorizations */ + + if (n >= 0 && ndiv >= 0 && nmultsubs_ldl >= 0 && nmultsubs_lu >= 0) + { + PRINTF (("\n" + " chol flop count for real A, sqrt counted as 1 flop: %.20g\n" + " LDL' flop count for real A: %.20g\n" + " LDL' flop count for complex A: %.20g\n" + " LU flop count for real A (with no pivoting): %.20g\n" + " LU flop count for complex A (with no pivoting): %.20g\n\n", + n + ndiv + 2*nmultsubs_ldl, + ndiv + 2*nmultsubs_ldl, + 9*ndiv + 8*nmultsubs_ldl, + ndiv + 2*nmultsubs_lu, + 9*ndiv + 8*nmultsubs_lu)) ; + } +}