X-Git-Url: https://www.ginac.de/ginac.git//ginac.git?a=blobdiff_plain;ds=sidebyside;f=check%2Fexam_paranoia.cpp;h=52d261c8b46712962084e373de2de19ae28603c2;hb=a2c08961530e08935a372913c9bc9bb5c3d89d27;hp=7e79ab86dc314f1721be9746df26e3b74fa05cee;hpb=383d5eb3b0f0506810d9105a268f939125bfc347;p=ginac.git diff --git a/check/exam_paranoia.cpp b/check/exam_paranoia.cpp index 7e79ab86..52d261c8 100644 --- a/check/exam_paranoia.cpp +++ b/check/exam_paranoia.cpp @@ -6,7 +6,7 @@ * these oopses for good, so we run those stupid tests... */ /* - * GiNaC Copyright (C) 1999-2001 Johannes Gutenberg University Mainz, Germany + * GiNaC Copyright (C) 1999-2011 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 @@ -20,15 +20,19 @@ * * 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., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA + * Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA */ -#include "exams.h" +#include "ginac.h" +using namespace GiNaC; + +#include +using namespace std; // The very first pair of historic problems had its roots in power.cpp and was // finally resolved on April 27th 1999. (Fixing the first on April 23rd // actually introduced the second.) -static unsigned exam_paranoia1(void) +static unsigned exam_paranoia1() { unsigned result = 0; symbol x("x"), y("y"), z("z"); @@ -59,7 +63,7 @@ static unsigned exam_paranoia1(void) // And here the second oops which showed up until May 17th 1999. It had to do // with lexicographic canonicalization and thus showed up only if the variables // had the names as given here: -static unsigned exam_paranoia2(void) +static unsigned exam_paranoia2() { unsigned result = 0; symbol x("x"), y("y"), z("z"); @@ -95,7 +99,7 @@ static unsigned exam_paranoia2(void) // The third bug was introduced on May 18th 1999, discovered on May 19 and // fixed that same day. It worked when x was substituted by 1 but not with // other numbers: -static unsigned exam_paranoia3(void) +static unsigned exam_paranoia3() { unsigned result = 0; symbol x("x"), y("y"); @@ -124,7 +128,7 @@ static unsigned exam_paranoia3(void) } // The fourth bug was also discovered on May 19th 1999 and fixed immediately: -static unsigned exam_paranoia4(void) +static unsigned exam_paranoia4() { unsigned result = 0; symbol x("x"); @@ -149,7 +153,7 @@ static unsigned exam_paranoia4(void) } // The fifth oops was discovered on May 20th 1999 and fixed a day later: -static unsigned exam_paranoia5(void) +static unsigned exam_paranoia5() { unsigned result = 0; symbol x("x"), y("y"); @@ -168,7 +172,7 @@ static unsigned exam_paranoia5(void) } // This one was discovered on Jun 1st 1999 and fixed the same day: -static unsigned exam_paranoia6(void) +static unsigned exam_paranoia6() { unsigned result = 0; symbol x("x"); @@ -186,7 +190,7 @@ static unsigned exam_paranoia6(void) // This one was introduced on June 1st 1999 by some aggressive manual // optimization. Discovered and fixed on June 2nd. -static unsigned exam_paranoia7(void) +static unsigned exam_paranoia7() { unsigned result = 0; symbol x("x"), y("y"); @@ -206,7 +210,7 @@ static unsigned exam_paranoia7(void) // This one was a result of the rewrite of mul::max_coefficient when we // introduced the overall_coefficient field in expairseq objects on Oct 1st // 1999. Fixed on Oct 4th. -static unsigned exam_paranoia8(void) +static unsigned exam_paranoia8() { unsigned result = 0; symbol x("x"); @@ -232,7 +236,7 @@ static unsigned exam_paranoia8(void) // Z[X]. multiply_lcm() forgot to multiply the x-linear term with the LCM of // the coefficient's denominators (2 in this case). Introduced on Jan 25th // 2000 and fixed on Jan 31th. -static unsigned exam_paranoia9(void) +static unsigned exam_paranoia9() { unsigned result = 0; symbol x("x"); @@ -251,7 +255,7 @@ static unsigned exam_paranoia9(void) // and on Feb 13th 2000 I found out that things like 2^(3/2) throw an exception // "power::eval(): pow(0,0) is undefined" instead of simplifying to 2*2^(1/2). // It was fixed that same day. -static unsigned exam_paranoia10(void) +static unsigned exam_paranoia10() { unsigned result = 0; @@ -276,14 +280,14 @@ static unsigned exam_paranoia10(void) // add::normal() forgot to multiply the denominator of the overall_coeff of // its expanded and normalized children with the denominator of the expanded // child (did you get this? Well, never mind...). Fixed on Feb 21th 2000. -static unsigned exam_paranoia11(void) +static unsigned exam_paranoia11() { unsigned result = 0; symbol x("x"); ex e = ((-5-2*x)-((2-5*x)/(-2+x))*(3+2*x))/(5-4*x); ex f = e.normal(); - ex d = (4+10*x+8*pow(x,2))/(x-2)/(5-4*x); + ex d = normal((4+10*x+8*pow(x,2))/(x-2)/(5-4*x)); if (!(f - d).expand().is_zero()) { clog << "normal(" << e << ") returns " << f << " instead of " << d << endl; @@ -295,7 +299,7 @@ static unsigned exam_paranoia11(void) // This one returned 0 because add::normal() incorrectly assumed that if the // common denominator is 1, all the denominators would be 1 (they can in fact // be +/-1). Fixed on Aug 2nd 2000. -static unsigned exam_paranoia12(void) +static unsigned exam_paranoia12() { unsigned result = 0; symbol x("x"); @@ -314,7 +318,7 @@ static unsigned exam_paranoia12(void) // This one caused a division by 0 because heur_gcd() didn't check its // input polynomials against 0. Fixed on Aug 4th 2000. -static unsigned exam_paranoia13(void) +static unsigned exam_paranoia13() { unsigned result = 0; symbol a("a"), b("b"), c("c"); @@ -336,12 +340,183 @@ static unsigned exam_paranoia13(void) return result; } -unsigned exam_paranoia(void) +// A bug introduced on July 19, 2001. quo() and rem() would sometimes call +// vector::reserve() with a negative argument. Fixed on Dec 20, 2001. +static unsigned exam_paranoia14() +{ + unsigned result = 0; + symbol x("x"); + + ex q = quo(1, pow(x, 3), x); + if (!q.is_zero()) { + clog << "quo(1,x^3,x) erroneously returned " << q << " instead of 0\n"; + ++result; + } + + return result; +} + +// Under certain conditions, power::expand_add_2() could produce non-canonical +// numeric expairs. Fixed on Oct 24, 2002. +static unsigned exam_paranoia15() +{ + unsigned result = 0; + + ex q = (pow(pow(2, numeric(1, 2))*2+1, 2)).expand(); + // this used to produce "1+4*sqrt(2)+4*2" which would never evaluate + // to "9+4*sqrt(2)" + + if (!(q-9-4*pow(2, numeric(1, 2))).is_zero()) { + clog << "expand((sqrt(2)*2+1)^2) erroneously returned " << q << " instead of 9-4*sqrt(2)\n"; + ++result; + } + + return result; +} + +// Expanding products containing powers of sums could return results that +// were not fully expanded. Fixed on Dec 10, 2003. +static unsigned exam_paranoia16() +{ + unsigned result = 0; + symbol a("a"), b("b"), c("c"), d("d"), e("e"); + ex e1, e2, e3; + + e1 = pow(1+a*sqrt(b+c), 2); + e2 = e1.expand(); + + if (e2.has(pow(a, 2)*(b+c))) { + clog << "expand(" << e1 << ") didn't fully expand\n"; + ++result; + } + + e1 = (d*sqrt(a+b)+a*sqrt(c+d))*(b*sqrt(a+b)+a*sqrt(c+d)); + e2 = e1.expand(); + + if (e2.has(pow(a, 2)*(c+d))) { + clog << "expand(" << e1 << ") didn't fully expand\n"; + ++result; + } + + e1 = (a+sqrt(b+c))*sqrt(b+c)*(d+sqrt(b+c)); + e2 = e1.expand(); + + if (e2.has(a*(b+c))) { + clog << "expand(" << e1 << ") didn't fully expand\n"; + ++result; + } + + e1 = pow(sqrt(a+b)+sqrt(c+d), 3); + e2 = e1.expand(); + + if (e2.has(3*(a+b)*sqrt(c+d)) || e2.has(3*(c+d)*sqrt(a+b))) { + clog << "expand(" << e1 << ") didn't fully expand\n"; + ++result; + } + + e1 = a*(b+c*(d+e)); + e2 = e1.expand(); + + if (e2.has(c*(d+e))) { + clog << "expand(" << e1 << ") didn't fully expand\n"; + ++result; + } + + e1 = 2*pow(1+a, 2)/a; + e2 = e1.expand(); + + if (e2.has(pow(a, 2))) { + clog << "expand(" << e1 << ") didn't fully expand\n"; + ++result; + } + + e1 = a*(a+b); + e2 = pow(pow(e1, -1), -1); + + if (e2.has(a*b)) { + clog << "double reciprocal expanded where it should not\n"; + ++result; + } + + return result; +} + +// Bug in reposition_dummy_indices() could result in correct expression +// turned into one with inconsistent indices. Fixed on Aug 29, 2006 +static unsigned exam_paranoia17() +{ + varidx mu1(symbol("mu1"), 4); + varidx mu2(symbol("mu2"), 4); + varidx mu3(symbol("mu3"), 4); + varidx mu4(symbol("mu4"), 4); + varidx mu5(symbol("mu5"), 4); + varidx mu6(symbol("mu6"), 4); + + exvector ev2; + ev2.push_back(mu3.toggle_variance()); + ev2.push_back(mu6); + ev2.push_back(mu5.toggle_variance()); + ev2.push_back(mu6.toggle_variance()); + ev2.push_back(mu5); + ev2.push_back(mu3); + // notice: all indices are contracted ... + + ex test_cycl = indexed(symbol("A"), sy_cycl(), ev2); + test_cycl = test_cycl.simplify_indexed(); + // ... so there should be zero free indices in the end. + return test_cycl.get_free_indices().size(); +} + +// Bug in add::eval() could result in numeric terms not being collected into +// the overall coefficient. Fixed on Sep 22, 2010 +static unsigned exam_paranoia18() +{ + ex sqrt2 = sqrt(ex(2)); + ex e = 1+2*(sqrt2+1)*(sqrt2-1); + if ( e.real_part() != 3 ) { + clog << "real_part(1+2*(sqrt(2)+1)*(sqrt(2)-1)) failed to evaluate to 3\n"; + return 1; + } + return 0; +} + +// Bug in mul::conjugate when factors are evaluated at branch cuts, reported as +// Sage bug #10964. +static unsigned exam_paranoia19() +{ + symbol a("a"); + ex e = conjugate(a*sqrt(ex(-2))*sqrt(ex(-3))); + ex c = a*conjugate(sqrt(ex(-2)))*conjugate(sqrt(ex(-3))); + if (!subs(e-c, a==42).is_zero()) { + clog << "subs(a*conjugate(sqrt(-2))*conjugate(sqrt(-3))-conjugate(a*sqrt(-2)*sqrt(-3)),a==42) failed to evaluate to 0\n"; + return 1; + } + return 0; +} + +// Bug in expairseq::is_polynomial (fixed 2011-05-20). +static unsigned exam_paranoia20() +{ + unsigned result = 0; + symbol x("x"); + ex e1 = sqrt(x*x+1)*sqrt(x+1); + if (e1.is_polynomial(x)) { + clog << "sqrt(x*x+1)*sqrt(x+1) is wrongly reported to be a polynomial in x\n"; + ++result; + } + ex e2 = sqrt(Pi)*x; + if (!e2.is_polynomial(x)) { + clog << "sqrt(Pi)*x is wrongly reported to be no polynomial in x\n"; + ++result; + } + return result; +} + +unsigned exam_paranoia() { unsigned result = 0; cout << "examining several historic failures just out of paranoia" << flush; - clog << "----------several historic failures:" << endl; result += exam_paranoia1(); cout << '.' << flush; result += exam_paranoia2(); cout << '.' << flush; @@ -356,13 +531,18 @@ unsigned exam_paranoia(void) result += exam_paranoia11(); cout << '.' << flush; result += exam_paranoia12(); cout << '.' << flush; result += exam_paranoia13(); cout << '.' << flush; - - if (!result) { - cout << " passed " << endl; - clog << "(no output)" << endl; - } else { - cout << " failed " << endl; - } + result += exam_paranoia14(); cout << '.' << flush; + result += exam_paranoia15(); cout << '.' << flush; + result += exam_paranoia16(); cout << '.' << flush; + result += exam_paranoia17(); cout << '.' << flush; + result += exam_paranoia18(); cout << '.' << flush; + result += exam_paranoia19(); cout << '.' << flush; + result += exam_paranoia20(); cout << '.' << flush; return result; } + +int main(int argc, char** argv) +{ + return exam_paranoia(); +}