/** @file exam_inifcns_nstdsums.cpp
*
* This test routine applies assorted tests on initially known higher level
* functions. */
/*
* GiNaC Copyright (C) 1999-2007 Johannes Gutenberg University Mainz, Germany
*
* This program is free software; you can redistribute it and/or modify
* it under the terms of the GNU General Public License as published by
* the Free Software Foundation; either version 2 of the License, or
* (at your option) any later version.
*
* This program 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 General Public License for more details.
*
* You should have received a copy of the GNU General Public License
* along with this program; if not, write to the Free Software
* Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA
*/
#include "exams.h"
#include <fstream>
////////////////////////////////////////////////////////////////////////////////
////////////////////////////////////////////////////////////////////////////////
// S exam
////////////////////////////////////////////////////////////////////////////////
////////////////////////////////////////////////////////////////////////////////
/*
* The data in the following include file has been produced by the following
* Mathematica (V4.1) script:
*
*
* x={2/10,1,14/10,30/10}
* y={0,3/10,-14/10}
* st = OpenAppend["exam_inifcns_nstdsums_data.raw"]
* $NumberMarks = False
* Do[
* Do[
* Do[Write[st, i]; Write[st,j]; Write[st,x[[k]]+I*y[[l]]];
* Write[st,Chop[N[PolyLog[i,j,x[[k]]+I*y[[l]]],25]]],{i,3},{j,3}], {k,4}],{l,3}]
* Do[
* Do[
* Do[Write[st, i]; Write[st,j]; Write[st,-x[[k]]+I*y[[l]]];
* Write[st,Chop[N[PolyLog[i,j,-x[[k]]+I*y[[l]]],25]]],{i,3},{j,3}], {k,4}], {l,3}]
* Close[st]
*
*
* and postprocessed by the following shell script
*
*
* #/bin/sh
* IFS=$'\n'
* cat exam_inifcns_nstdsums_data.raw | sed -e 's/\*\^/E/g' > exam_inifcns_nstdsums_data.raw2
* echo 'const char *data[] = {' > exam_inifcns_nstdsums_data.raw3
* for i in `cat exam_inifcns_nstdsums_data.raw2`; do echo \"$i\",; done >> exam_inifcns_nstdsums_data.raw3
* echo '"-999"};' >> exam_inifcns_nstdsums.h
*
*
*/
#include "exam_inifcns_nstdsums.h"
// signals end of data
const int ENDMARK = -999;
static unsigned inifcns_test_S()
{
int digitsbuf = Digits;
// precision of data
Digits = 22;
ex prec = 5 * pow(10, -(int)Digits);
unsigned result = 0;
int i = 0;
while (true) {
ex n(data[i++],symbol());
if (n == ENDMARK) {
break;
}
ex p(data[i++],symbol());
ex x(data[i++],symbol());
ex res(data[i++],symbol());
ex res2 = S(n, p, x).evalf();
if (abs(res-res2) > prec) {
clog << "S(" << n << "," << p << "," << x << ") seems to be wrong:" << endl;
clog << "GiNaC : " << res2 << endl;
clog << "Reference : " << res << endl;
clog << "Abs. Difference : " << res2-res << endl;
if (res2 != 0) {
ex reldiff = abs((res2-res)/res2);
clog << "Rel. Difference : " << reldiff << endl;
}
result++;
}
if (i % 80) {
cout << "." << flush;
}
}
Digits = digitsbuf;
return result;
}
////////////////////////////////////////////////////////////////////////////////
////////////////////////////////////////////////////////////////////////////////
// H/Li exam
////////////////////////////////////////////////////////////////////////////////
////////////////////////////////////////////////////////////////////////////////
static unsigned inifcns_test_HLi()
{
int digitsbuf = Digits;
Digits = 17;
ex prec = 5 * pow(10, -(int)Digits);
numeric almostone("0.999999999999999999");
unsigned result = 0;
lst res;
res.append(H(lst(2,1),numeric(1)/2).hold() - (zeta(3)/8 - pow(log(2),3)/6));
res.append(H(lst(2,1,3),numeric(1)/3).hold() - Li(lst(2,1,3),lst(numeric(1)/3,1,1)).hold());
res.append(H(lst(2,1,3),numeric(98)/100).hold() - Li(lst(2,1,3),lst(numeric(98)/100,1,1)).hold());
res.append(H(lst(2,1,3),numeric(245)/100).hold() - Li(lst(2,1,3),lst(numeric(245)/100,1,1)).hold());
res.append(H(lst(4,1,1,1),numeric(1)/3).hold() - S(3,4,numeric(1)/3).hold());
res.append(H(lst(4,1,1,1),numeric(98)/100).hold() - S(3,4,numeric(98)/100).hold());
res.append(H(lst(4,1,1,1),numeric(245)/100).hold() - S(3,4,numeric(245)/100).hold());
res.append(H(lst(2,2,3),almostone).hold() - zeta(lst(2,2,3)));
res.append(H(lst(-3,-1,2,1),almostone).hold() - zeta(lst(3,1,2,1),lst(-1,1,-1,1)));
res.append(H(lst(-2,1,3),numeric(1)/3).hold() - -Li(lst(2,1,3),lst(-numeric(1)/3,-1,1)).hold());
res.append(H(lst(-2,1,3),numeric(98)/100).hold() - -Li(lst(2,1,3),lst(-numeric(98)/100,-1,1)).hold());
res.append(H(lst(-2,1,3),numeric(245)/100).hold() - -Li(lst(2,1,3),lst(-numeric(245)/100,-1,1)).hold());
res.append(H(lst(-3,1,-2,0,0),numeric(3)/10).hold() - convert_H_to_Li(lst(-3,1,-2,0,0),numeric(3)/10).eval());
for (lst::const_iterator it = res.begin(); it != res.end(); it++) {
ex diff = abs((*it).evalf());
if (diff > prec) {
clog << *it << " seems to be wrong: " << diff << endl;
result++;
}
cout << "." << flush;
}
Digits = digitsbuf;
// conjugate test
numeric cdif = ex_to<numeric>(H(lst(2,2,1),5.0-5.0*I) - H(lst(2,2,1),5.0+5.0*I));
numeric cadd = ex_to<numeric>(H(lst(2,2,1),5.0-5.0*I) + H(lst(2,2,1),5.0+5.0*I));
if ((cdif.real() > prec) || (cadd.imag() > prec)) {
clog << "complex conjugation test of H({2,2,1},5.0-5.0*I) seems to be wrong: " << cdif << " " << cadd << endl;
result++;
}
return result;
}
////////////////////////////////////////////////////////////////////////////////
////////////////////////////////////////////////////////////////////////////////
// zeta exam
////////////////////////////////////////////////////////////////////////////////
////////////////////////////////////////////////////////////////////////////////
static unsigned inifcns_test_zeta()
{
int digitsbuf = Digits;
unsigned result = 0;
lst res;
res.append(zeta(lst(2,1)) - zeta(3));
res.append(zeta(lst(2,1,1,1,1)) - zeta(6));
res.append(zeta(lst(6,3)) - (zeta(9)*83/2 - zeta(2)*zeta(7)*21 - zeta(2)*zeta(2)*zeta(5)*12/5));
res.append(zeta(lst(4,2,3)) - (-zeta(9)*59 + zeta(2)*zeta(7)*28 + pow(zeta(2),2)*zeta(5)*4 -
pow(zeta(3),3)/3 + pow(zeta(2),3)*zeta(3)*8/21));
res.append(zeta(lst(3,1,3,1,3,1,3,1)) - (2*pow(Pi,16)/factorial(18)));
res.append(zeta(lst(2),lst(-1)) - -zeta(2)/2);
res.append(zeta(lst(1,2),lst(-1,1)) - (-zeta(3)/4 - zeta(lst(1),lst(-1))*zeta(2)/2));
res.append(zeta(lst(2,1,1),lst(-1,-1,1)) - (-pow(zeta(2),2)*23/40 - pow(zeta(lst(1),lst(-1)),2)*zeta(2)*3/4
- zeta(lst(3,1),lst(-1,1))*3/2 - zeta(lst(1),lst(-1))*zeta(3)*21/8));
for (lst::const_iterator it = res.begin(); it != res.end(); it++) {
Digits = 17;
ex prec = 5 * pow(10, -(int)Digits);
ex diff = abs((*it).evalf());
if (diff > prec) {
clog << *it << " seems to be wrong: " << diff << endl;
clog << "Digits: " << Digits << endl;
result++;
}
cout << "." << flush;
Digits = 40;
prec = 5 * pow(10, -(int)Digits);
diff = abs((*it).evalf());
if (diff > prec) {
clog << *it << " seems to be wrong: " << diff << endl;
clog << "Digits: " << Digits << endl;
result++;
}
cout << "." << flush;
}
Digits = digitsbuf;
return result;
}
////////////////////////////////////////////////////////////////////////////////
////////////////////////////////////////////////////////////////////////////////
// H/Li exam
////////////////////////////////////////////////////////////////////////////////
////////////////////////////////////////////////////////////////////////////////
static unsigned inifcns_test_LiG()
{
int digitsbuf = Digits;
Digits = 17;
ex prec = 5 * pow(10, -(int)Digits);
numeric almostone("0.99999999999999999999");
unsigned result = 0;
lst res;
res.append(Li(lst(4), lst(6)).hold() - Li(4, 6.0));
res.append(G(lst(0,0,5.0,0,2.0,0,0,0,3.0),0.5).hold()
+ Li(lst(3,2,4), lst(numeric(1,10), numeric(5,2), numeric(2,3))));
res.append(Li(lst(2,1,1), lst(almostone, almostone, almostone)) - zeta(lst(2,1,1)));
// check Li_{1,1} against known expression
symbol x("x"), y("y");
ex eps = 1e-30*I;
ex s1 = Li(lst(1,1),lst(x,y));
ex s2 = log(1-1/x/y-eps)*log((1-1/x-eps)/(1/x/y-1/x)) + Li(2,(1-1/x/y-eps)/(1/x-1/x/y))
- log(-1/x/y-eps)*log((-1/x-eps)/(1/x/y-1/x)) - Li(2,(-1/x/y-eps)/(1/x-1/x/y))
- log(-1/x/y-eps)*log(1-1/x-eps) + log(-1/x/y-eps)*log(-1/x-eps);
res.append(s1.subs(lst(x==numeric(1)/2, y==3)) - s2.subs(lst(x==numeric(1)/2, y==3)));
res.append(s1.subs(lst(x==numeric(3)/2, y==numeric(1)/2)) - s2.subs(lst(x==numeric(3)/2, y==numeric(1)/2)));
res.append(s1.subs(lst(x==2, y==numeric(4)/5)) - s2.subs(lst(x==2, y==numeric(4)/5)));
// shuffle and quasi-shuffle identities
res.append(G(lst(0,0.2),1).hold() * G(lst(0.5),1).hold() - G(lst(0.5,0,0.2),1).hold()
- G(lst(0,0.5,0.2),1).hold() - G(lst(0,0.2,0.5),1).hold());
res.append(G(lst(0,0.5),1).hold() * G(lst(0.6),1).hold() - G(lst(0,0.5,0.5*0.6),1).hold()
- G(lst(0.6,0,0.5*0.6),1).hold() + G(lst(0,0,0.5*0.6),1).hold());
res.append(Li(lst(2),lst(numeric(1,5))).hold() * Li(lst(3),lst(7)).hold() - Li(lst(2,3),lst(numeric(1,5),7)).hold()
- Li(lst(3,2),lst(7,numeric(1,5))).hold() - Li(lst(5),lst(numeric(7,5))).hold());
symbol a1, a2, a3, a4;
res.append((G(lst(a1,a2),1) * G(lst(a3,a4),1) - G(lst(a1,a2,a3,a4),1)
- G(lst(a1,a3,a2,a4),1) - G(lst(a3,a1,a2,a4),1)
- G(lst(a1,a3,a4,a2),1) - G(lst(a3,a1,a4,a2),1) - G(lst(a3,a4,a1,a2),1))
.subs(lst(a1==numeric(1)/10, a2==numeric(3)/10, a3==numeric(7)/10, a4==5)));
res.append(G(lst(-0.009),1).hold() * G(lst(-8,1.4999),1).hold() - G(lst(-0.009,-8,1.4999),1).hold()
- G(lst(-8,-0.009,1.4999),1).hold() - G(lst(-8,1.4999,-0.009),1).hold());
res.append(G(lst(sqrt(numeric(1)/2)+I*sqrt(numeric(1)/2)),1).hold() * G(lst(1.51,-0.999),1).hold()
- G(lst(sqrt(numeric(1)/2)+I*sqrt(numeric(1)/2),1.51,-0.999),1).hold()
- G(lst(1.51,sqrt(numeric(1)/2)+I*sqrt(numeric(1)/2),-0.999),1).hold()
- G(lst(1.51,-0.999,sqrt(numeric(1)/2)+I*sqrt(numeric(1)/2)),1).hold());
// checks for hoelder convolution which is used if one argument has a distance to one smaller than 0.01
res.append(G(lst(0, 1.2, 1, 1.01), 1).hold() - G(lst(0, 1.2, 1, numeric("1.009999999999999999")), 1).hold());
for (lst::const_iterator it = res.begin(); it != res.end(); it++) {
ex diff = abs((*it).evalf());
if (diff > prec) {
clog << *it << " seems to be wrong: " << diff << endl;
result++;
}
cout << "." << flush;
}
return result;
}
////////////////////////////////////////////////////////////////////////////////
////////////////////////////////////////////////////////////////////////////////
// legacy exam - checking for historical bugs
////////////////////////////////////////////////////////////////////////////////
////////////////////////////////////////////////////////////////////////////////
static unsigned inifcns_test_legacy()
{
Digits = 17;
ex prec = 5 * pow(10, -(int)Digits);
unsigned result = 0;
ex r1 = zeta(lst(1,1,1,1,1,1),lst(-1,-1,-1,1,1,1));
if ((r1.evalf() - numeric("-0.0012588769028204890704")) > prec) {
clog << "zeta({1,1,1,1,1,1},{-1,-1,-1,1,1,1}) seems to be wrong." << endl;
result++;
}
return result;
}
unsigned exam_inifcns_nstdsums(void)
{
unsigned result = 0;
cout << "examining consistency of nestedsums functions" << flush;
clog << "----------consistency of nestedsums functions:" << endl;
result += inifcns_test_zeta();
result += inifcns_test_S();
result += inifcns_test_HLi();
result += inifcns_test_LiG();
result += inifcns_test_legacy();
if (!result) {
cout << " passed " << endl;
clog << "(no output)" << endl;
} else {
cout << " failed " << endl;
}
return result;
}
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