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/*
 * sumtimes - runtimes evaluating sums & squares of large lists and mats
 *
 * Copyright (C) 2006  Ernest Bowen
 *
 * Calc is open software; you can redistribute it and/or modify it under
 * the terms of the version 2.1 of the GNU Lesser General Public License
 * as published by the Free Software Foundation.
 *
 * Calc is distributed in the hope that it will be useful, but WITHOUT
 * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY
 * or FITNESS FOR A PARTICULAR PURPOSE.	 See the GNU Lesser General
 * Public License for more details.
 *
 * A copy of version 2.1 of the GNU Lesser General Public License is
 * distributed with calc under the filename COPYING-LGPL.  You should have
 * received a copy with calc; if not, write to Free Software Foundation, Inc.
 * 51 Franklin Street, Fifth Floor, Boston, MA  02110-1301, USA.
 *
 * @(#) $Revision: 30.1 $
 * @(#) $Id: sumtimes.cal,v 30.1 2007/03/16 11:09:54 chongo Exp $
 * @(#) $Source: /usr/local/src/bin/calc/cal/RCS/sumtimes.cal,v $
 *
 * Under source code control:	2006/06/22 17:29
 * File existed as early as:	2006
 *
 * Share and enjoy!  :-)	http://www.isthe.com/chongo/tech/comp/calc/
 */


global sumtimes_t0, sumtimes_t1, sumtimes_t2, sumtimes_t3;
global sumtimes_A, sumtimes_B;
config("tilde", 0),;

define timematsum(N) {
    local n, s, p, ptop;

    sumtimes_A = mat[N];

    for (n = 0; n < N; n++) sumtimes_A[n] = rand(N);

    ptop = &sumtimes_A[n-1];
    sumtimes_t0 = usertime();
    for (s = n = 0; n < N; n++) s += sumtimes_A[n];
    sumtimes_t1 = usertime();
    for (s = 0, p = &sumtimes_A[0]; p <= ptop; p++) s += *p;
    sumtimes_t2 = usertime();
    s = matsum(sumtimes_A);
    sumtimes_t3 = usertime();

    print "Matrix sum runtimes";
    printf('\tStandard "for" loop:\t\t%.4f\n', sumtimes_t1 - sumtimes_t0);
    printf('\t"For" loop using pointers:\t\t%.4f\n', sumtimes_t2 - sumtimes_t1);
    printf('\tUsing builtin "matsum":\t\t%.4f\n', sumtimes_t3 - sumtimes_t2);
}

define timelistsum(N) {
    local n, s;

    sumtimes_A = makelist(N);
    for (n = 0; n < N; n++) sumtimes_A[n] = rand(N);

    sumtimes_t0 = usertime();
    for (s = n = 0; n < N; n++) s += sumtimes_A[n];
    sumtimes_t1 = usertime();
    s = sum(sumtimes_A);
    sumtimes_t2 = usertime();
    print "List sum runtimes";
    printf('\tStandard "for" loop:\t\t%.4f\n', sumtimes_t1 - sumtimes_t0);
    printf('\tUsing builtin "sum":\t\t%.4f\n', sumtimes_t2 - sumtimes_t1);
}


define timematsort(N) {
    local n;

    sumtimes_A = mat[N];
    for (n = 0; n < N; n++) sumtimes_A[n] = rand(N);
    sumtimes_t0 = usertime();
    sort(sumtimes_A);
    sumtimes_t1 = usertime();
    printf('\tMatrix sort runtime:\t\t%.4f\n', sumtimes_t1 - sumtimes_t0);
}


define timelistsort(N) {
    local n;

    sumtimes_A = makelist(N);
    for (n = 0; n < N; n++) sumtimes_A[n] = rand(N);
    sumtimes_t0 = usertime();
    sort(sumtimes_A);
    sumtimes_t1 = usertime();
    printf('\tList sort runtime:\t\t%.4f\n', sumtimes_t1 - sumtimes_t0);
}

define timematreverse(N) {
    local n;

    sumtimes_A = mat[N];
    for (n = 0; n < N; n++) sumtimes_A[n] = rand(N);
    sumtimes_t0 = usertime();
    reverse(sumtimes_A);
    sumtimes_t1 = usertime();
    printf('\tMatrix reverse runtime        %.4f\n', sumtimes_t1 - sumtimes_t0);
}

define timelistreverse(N) {
    local n;

    sumtimes_A = makelist(N);
    for (n = 0; n < N; n++) sumtimes_A[n] = rand(N);
    sumtimes_t0 = usertime();
    reverse(sumtimes_A);
    sumtimes_t1 = usertime();
    printf('\tList reverse runtime:\t\t%.4f\n', sumtimes_t1 - sumtimes_t0);
}

define timematssq(N) {
    local n, s, p, ptop;

    sumtimes_A = mat[N];

    for (n = 0; n < N; n++) sumtimes_A[n] = rand(N);

    ptop = &sumtimes_A[n-1];
    sumtimes_t0 = usertime();
    for (s = n = 0; n < N; n++) s += sumtimes_A[n]^2;
    sumtimes_t1 = usertime();
    for (s = 0, p = &sumtimes_A[0]; p <= ptop; p++) s += (*p)^2;
    sumtimes_t2 = usertime();

    print "Matrix sum of squares runtimes";
    printf('\tStandard "for" loop:\t\t%.4f\n', sumtimes_t1 - sumtimes_t0);
    printf('\t"For" loop using pointers:\t\t%.4f\n', sumtimes_t2 - sumtimes_t1);
}

define timelistssq(N) {
    local n, s;

    sumtimes_A = makelist(N);
    for (n = 0; n < N; n++) sumtimes_A[n] = rand(N);

    sumtimes_t0 = usertime();
    for (s = n = 0; n < N; n++) s += sumtimes_A[n]^2;
    sumtimes_t1 = usertime();
    s = ssq(sumtimes_A);
    sumtimes_t2 = usertime();
    print "List sum of squares runtimes";
    printf('\tStandard "for" loop:\t\t%.4f\n', sumtimes_t1 - sumtimes_t0);
    printf('\tUsing builtin "ssq":\t\t%.4f\n', sumtimes_t2 - sumtimes_t1);
}

define timehmean(N, M = 10) {
    local n, s, v1, v2;

    sumtimes_A = makelist(N);
    for (n = 0; n < N; n++) sumtimes_A[n] = rand(1, M);

    sumtimes_t0 = usertime();
    for (s = n = 0; n < N; n++) s += 1/sumtimes_A[n];
    v1 = N/s;
    sumtimes_t1 = usertime();
    v2 = hmean(sumtimes_A);
    sumtimes_t2 = usertime();
    print v1, v2;
    print "List harmonic meanruntimes";
    printf('\tStandard "for" loop:\t\t%.4f\n', sumtimes_t1 - sumtimes_t0);
    printf('\tUsing builtin "hmean":\t\t%.4f\n', sumtimes_t2 - sumtimes_t1);
}

define doalltimes(N) {
    timematsum(N);
    print;
    timelistsum(N);
    print;
    timematssq(N);
    print;
    timelistssq(N);
    print;
    timematsort(N);
    timelistsort(N);
    timematreverse(N);
    timelistreverse(N);
    print;
}