bumped version number of HEAD to 1.3

[ginac.git] / check / exam_pseries.cpp

/** @File exam_pseries.cpp
 *
 *  Series expansion test (Laurent and Taylor series). */

/*
 *  GiNaC Copyright (C) 1999-2004 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., 59 Temple Place, Suite 330, Boston, MA  02111-1307  USA
 */

#include "exams.h"

static symbol x("x");

static unsigned check_series(const ex &e, const ex &point, const ex &d, int order = 8)
{
        ex es = e.series(x==point, order);
        ex ep = ex_to<pseries>(es).convert_to_poly();
        if (!(ep - d).expand().is_zero()) {
                clog << "series expansion of " << e << " at " << point
                     << " erroneously returned " << ep << " (instead of " << d
                     << ")" << endl;
                clog << tree << (ep-d) << dflt;
                return 1;
        }
        return 0;
}

// Series expansion
static unsigned exam_series1()
{
        using GiNaC::log;

        unsigned result = 0;
        ex e, d;
        
        e = sin(x);
        d = x - pow(x, 3) / 6 + pow(x, 5) / 120 - pow(x, 7) / 5040 + Order(pow(x, 8));
        result += check_series(e, 0, d);
        
        e = cos(x);
        d = 1 - pow(x, 2) / 2 + pow(x, 4) / 24 - pow(x, 6) / 720 + Order(pow(x, 8));
        result += check_series(e, 0, d);
        
        e = exp(x);
        d = 1 + x + pow(x, 2) / 2 + pow(x, 3) / 6 + pow(x, 4) / 24 + pow(x, 5) / 120 + pow(x, 6) / 720 + pow(x, 7) / 5040 + Order(pow(x, 8));
        result += check_series(e, 0, d);
        
        e = pow(1 - x, -1);
        d = 1 + x + pow(x, 2) + pow(x, 3) + pow(x, 4) + pow(x, 5) + pow(x, 6) + pow(x, 7) + Order(pow(x, 8));
        result += check_series(e, 0, d);
        
        e = x + pow(x, -1);
        d = x + pow(x, -1);
        result += check_series(e, 0, d);
        
        e = x + pow(x, -1);
        d = 2 + pow(x-1, 2) - pow(x-1, 3) + pow(x-1, 4) - pow(x-1, 5) + pow(x-1, 6) - pow(x-1, 7) + Order(pow(x-1, 8));
        result += check_series(e, 1, d);
        
        e = pow(x + pow(x, 3), -1);
        d = pow(x, -1) - x + pow(x, 3) - pow(x, 5) + pow(x, 7) + Order(pow(x, 8));
        result += check_series(e, 0, d);
        
        e = pow(pow(x, 2) + pow(x, 4), -1);
        d = pow(x, -2) - 1 + pow(x, 2) - pow(x, 4) + pow(x, 6) + Order(pow(x, 8));
        result += check_series(e, 0, d);
        
        e = pow(sin(x), -2);
        d = pow(x, -2) + numeric(1,3) + pow(x, 2) / 15 + pow(x, 4) * 2/189 + pow(x, 6) / 675  + Order(pow(x, 8));
        result += check_series(e, 0, d);
        
        e = sin(x) / cos(x);
        d = x + pow(x, 3) / 3 + pow(x, 5) * 2/15 + pow(x, 7) * 17/315 + Order(pow(x, 8));
        result += check_series(e, 0, d);
        
        e = cos(x) / sin(x);
        d = pow(x, -1) - x / 3 - pow(x, 3) / 45 - pow(x, 5) * 2/945 - pow(x, 7) / 4725 + Order(pow(x, 8));
        result += check_series(e, 0, d);
        
        e = pow(numeric(2), x);
        ex t = log(2) * x;
        d = 1 + t + pow(t, 2) / 2 + pow(t, 3) / 6 + pow(t, 4) / 24 + pow(t, 5) / 120 + pow(t, 6) / 720 + pow(t, 7) / 5040 + Order(pow(x, 8));
        result += check_series(e, 0, d.expand());
        
        e = pow(Pi, x);
        t = log(Pi) * x;
        d = 1 + t + pow(t, 2) / 2 + pow(t, 3) / 6 + pow(t, 4) / 24 + pow(t, 5) / 120 + pow(t, 6) / 720 + pow(t, 7) / 5040 + Order(pow(x, 8));
        result += check_series(e, 0, d.expand());
        
        e = log(x);
        d = e;
        result += check_series(e, 0, d, 1);
        result += check_series(e, 0, d, 2);
        
        e = pow(x, 8) * pow(pow(x,3)+ pow(x + pow(x,3), 2), -2);
        d = pow(x, 4) - 2*pow(x, 5) + Order(pow(x, 6));
        result += check_series(e, 0, d, 6);
        
        e = cos(x) * pow(sin(x)*(pow(x, 5) + 4 * pow(x, 2)), -3);
        d = pow(x, -9) / 64 - 3 * pow(x, -6) / 256 - pow(x, -5) / 960 + 535 * pow(x, -3) / 96768
            + pow(x, -2) / 1280 - pow(x, -1) / 14400 - numeric(283, 129024) - 2143 * x / 5322240
            + Order(pow(x, 2));
        result += check_series(e, 0, d, 2);
        
        symbol a("a");
        e = pow(x, 4) * sin(a) + pow(x, 2);
        d = pow(x, 2) + Order(pow(x, 3));
        result += check_series(e, 0, d, 3);

        return result;
}

// Series addition
static unsigned exam_series2()
{
        unsigned result = 0;
        ex e, d;
        
        e = pow(sin(x), -1).series(x==0, 8) + pow(sin(-x), -1).series(x==0, 12);
        d = Order(pow(x, 8));
        result += check_series(e, 0, d);
        
        return result;
}

// Series multiplication
static unsigned exam_series3()
{
        unsigned result = 0;
        ex e, d;
        
        e = sin(x).series(x==0, 8) * pow(sin(x), -1).series(x==0, 12);
        d = 1 + Order(pow(x, 7));
        result += check_series(e, 0, d);
        
        return result;
}

// Series exponentiation
static unsigned exam_series4()
{
        unsigned result = 0;
        ex e, d;
        
        e = pow((2*cos(x)).series(x==0, 5), 2).series(x==0, 5);
        d = 4 - 4*pow(x, 2) + 4*pow(x, 4)/3 + Order(pow(x, 5));
        result += check_series(e, 0, d);
        
        e = pow(tgamma(x), 2).series(x==0, 2);
        d = pow(x,-2) - 2*Euler/x + (pow(Pi,2)/6+2*pow(Euler,2)) 
                + x*(-4*pow(Euler, 3)/3 -pow(Pi,2)*Euler/3 - 2*zeta(3)/3) + Order(pow(x, 2));
        result += check_series(e, 0, d);
        
        return result;
}

// Order term handling
static unsigned exam_series5()
{
        unsigned result = 0;
        ex e, d;

        e = 1 + x + pow(x, 2) + pow(x, 3);
        d = Order(1);
        result += check_series(e, 0, d, 0);
        d = 1 + Order(x);
        result += check_series(e, 0, d, 1);
        d = 1 + x + Order(pow(x, 2));
        result += check_series(e, 0, d, 2);
        d = 1 + x + pow(x, 2) + Order(pow(x, 3));
        result += check_series(e, 0, d, 3);
        d = 1 + x + pow(x, 2) + pow(x, 3);
        result += check_series(e, 0, d, 4);
        return result;
}

// Series expansion of tgamma(-1)
static unsigned exam_series6()
{
        ex e = tgamma(2*x);
        ex d = pow(x+1,-1)*numeric(1,4) +
               pow(x+1,0)*(numeric(3,4) -
                           numeric(1,2)*Euler) +
               pow(x+1,1)*(numeric(7,4) -
                           numeric(3,2)*Euler +
                           numeric(1,2)*pow(Euler,2) +
                           numeric(1,12)*pow(Pi,2)) +
               pow(x+1,2)*(numeric(15,4) -
                           numeric(7,2)*Euler -
                           numeric(1,3)*pow(Euler,3) +
                           numeric(1,4)*pow(Pi,2) +
                           numeric(3,2)*pow(Euler,2) -
                           numeric(1,6)*pow(Pi,2)*Euler -
                           numeric(2,3)*zeta(3)) +
               pow(x+1,3)*(numeric(31,4) - pow(Euler,3) -
                           numeric(15,2)*Euler +
                           numeric(1,6)*pow(Euler,4) +
                           numeric(7,2)*pow(Euler,2) +
                           numeric(7,12)*pow(Pi,2) -
                           numeric(1,2)*pow(Pi,2)*Euler -
                           numeric(2)*zeta(3) +
                           numeric(1,6)*pow(Euler,2)*pow(Pi,2) +
                           numeric(1,40)*pow(Pi,4) +
                           numeric(4,3)*zeta(3)*Euler) +
               Order(pow(x+1,4));
        return check_series(e, -1, d, 4);
}
        
// Series expansion of tan(x==Pi/2)
static unsigned exam_series7()
{
        ex e = tan(x*Pi/2);
        ex d = pow(x-1,-1)/Pi*(-2) + pow(x-1,1)*Pi/6 + pow(x-1,3)*pow(Pi,3)/360
              +pow(x-1,5)*pow(Pi,5)/15120 + pow(x-1,7)*pow(Pi,7)/604800
              +Order(pow(x-1,9));
        return check_series(e,1,d,9);
}

// Series expansion of log(sin(x==0))
static unsigned exam_series8()
{
        ex e = log(sin(x));
        ex d = log(x) - pow(x,2)/6 - pow(x,4)/180 - pow(x,6)/2835 - pow(x,8)/37800 + Order(pow(x,9));
        return check_series(e,0,d,9);
}

// Series expansion of Li2(sin(x==0))
static unsigned exam_series9()
{
        ex e = Li2(sin(x));
        ex d = x + pow(x,2)/4 - pow(x,3)/18 - pow(x,4)/48
               - 13*pow(x,5)/1800 - pow(x,6)/360 - 23*pow(x,7)/21168
               + Order(pow(x,8));
        return check_series(e,0,d,8);
}

// Series expansion of Li2((x==2)^2), caring about branch-cut
static unsigned exam_series10()
{
        using GiNaC::log;

        ex e = Li2(pow(x,2));
        ex d = Li2(4) + (-log(3) + I*Pi*csgn(I-I*pow(x,2))) * (x-2)
               + (numeric(-2,3) + log(3)/4 - I*Pi/4*csgn(I-I*pow(x,2))) * pow(x-2,2)
               + (numeric(11,27) - log(3)/12 + I*Pi/12*csgn(I-I*pow(x,2))) * pow(x-2,3)
               + (numeric(-155,648) + log(3)/32 - I*Pi/32*csgn(I-I*pow(x,2))) * pow(x-2,4)
               + Order(pow(x-2,5));
        return check_series(e,2,d,5);
}

// Series expansion of logarithms around branch points
static unsigned exam_series11()
{
        using GiNaC::log;

        unsigned result = 0;
        ex e, d;
        symbol a("a");
        
        e = log(x);
        d = log(x);
        result += check_series(e,0,d,5);
        
        e = log(3/x);
        d = log(3)-log(x);
        result += check_series(e,0,d,5);
        
        e = log(3*pow(x,2));
        d = log(3)+2*log(x);
        result += check_series(e,0,d,5);
        
        // These ones must not be expanded because it would result in a branch cut
        // running in the wrong direction. (Other systems tend to get this wrong.)
        e = log(-x);
        d = e;
        result += check_series(e,0,d,5);
        
        e = log(I*(x-123));
        d = e;
        result += check_series(e,123,d,5);
        
        e = log(a*x);
        d = e;  // we don't know anything about a!
        result += check_series(e,0,d,5);
        
        e = log((1-x)/x);
        d = log(1-x) - (x-1) + pow(x-1,2)/2 - pow(x-1,3)/3  + pow(x-1,4)/4 + Order(pow(x-1,5));
        result += check_series(e,1,d,5);
        
        return result;
}

// Series expansion of other functions around branch points
static unsigned exam_series12()
{
        using GiNaC::log;

        unsigned result = 0;
        ex e, d;
        
        // NB: Mma and Maple give different results, but they agree if one
        // takes into account that by assumption |x|<1.
        e = atan(x);
        d = (I*log(2)/2-I*log(1+I*x)/2) + (x-I)/4 + I*pow(x-I,2)/16 + Order(pow(x-I,3));
        result += check_series(e,I,d,3);
        
        // NB: here, at -I, Mathematica disagrees, but it is wrong -- they
        // pick up a complex phase by incorrectly expanding logarithms.
        e = atan(x);
        d = (-I*log(2)/2+I*log(1-I*x)/2) + (x+I)/4 - I*pow(x+I,2)/16 + Order(pow(x+I,3));
        result += check_series(e,-I,d,3);
        
        // This is basically the same as above, the branch point is at +/-1:
        e = atanh(x);
        d = (-log(2)/2+log(x+1)/2) + (x+1)/4 + pow(x+1,2)/16 + Order(pow(x+1,3));
        result += check_series(e,-1,d,3);
        
        return result;
}


unsigned exam_pseries()
{
        unsigned result = 0;
        
        cout << "examining series expansion" << flush;
        clog << "----------series expansion:" << endl;
        
        result += exam_series1();  cout << '.' << flush;
        result += exam_series2();  cout << '.' << flush;
        result += exam_series3();  cout << '.' << flush;
        result += exam_series4();  cout << '.' << flush;
        result += exam_series5();  cout << '.' << flush;
        result += exam_series6();  cout << '.' << flush;
        result += exam_series7();  cout << '.' << flush;
        result += exam_series8();  cout << '.' << flush;
        result += exam_series9();  cout << '.' << flush;
        result += exam_series10();  cout << '.' << flush;
        result += exam_series11();  cout << '.' << flush;
        result += exam_series12();  cout << '.' << flush;
        
        if (!result) {
                cout << " passed " << endl;
                clog << "(no output)" << endl;
        } else {
                cout << " failed " << endl;
        }
        return result;
}