-// check/normalization.cpp
-
-/* Rational function normalization test-suite. */
-
-#include <GiNaC/ginac.h>
+/** @file normalization.cpp
+ *
+ * Rational function normalization test suite. */
+
+/*
+ * GiNaC Copyright (C) 1999 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 <ginac/ginac.h>
+
+#ifndef NO_GINAC_NAMESPACE
+using namespace GiNaC;
+#endif // ndef NO_GINAC_NAMESPACE
static symbol x("x"), y("y"), z("z");
static unsigned check_normal(const ex &e, const ex &d)
{
- ex en = e.normal();
- if (en.compare(d) != 0) {
- clog << "normal form of " << e << " is " << en << " (should be " << d << ")" << endl;
- return 1;
- }
- return 0;
+ ex en = e.normal();
+ if (en.compare(d) != 0) {
+ clog << "normal form of " << e << " erroneously returned "
+ << en << " (should be " << d << ")" << endl;
+ return 1;
+ }
+ return 0;
}
static unsigned normal1(void)
{
- unsigned result = 0;
- ex e, d;
-
- // Expansion
- e = pow(x, 2) - (x+1)*(x-1) - 1;
- d = exZERO();
- result += check_normal(e, d);
-
- // Expansion inside functions
- e = sin(x*(x+1)-x) + 1;
- d = sin(pow(x, 2)) + 1;
- result += check_normal(e, d);
-
- // Fraction addition
- e = numeric(2)/x + y/3;
- d = (x*y/3 + 2) / x;
- result += check_normal(e, d);
-
- // Fraction addition
- e = pow(x, -1) + x/(x+1);
- d = (pow(x, 2)+x+1)/(x*(x+1));
- result += check_normal(e, d);
-
- // Fraction cancellation
- e = (pow(x, 2) - pow(y, 2)) / pow(x-y, 3);
- d = (x + y) / (pow(x, 2) + pow(y, 2) - x * y * 2);
- result += check_normal(e, d);
-
- // Fraction cancellation
- e = (pow(x, -1) + x) / (pow(x , 2) * 2 + 2);
- d = pow(x * 2, -1);
- result += check_normal(e, d);
-
- // Distribution of powers
- e = pow(x/y, 2);
- d = pow(x, 2) / pow(y, 2);
- result += check_normal(e, d);
-
- // Distribution of powers (integer, distribute) and fraction addition
- e = pow(pow(x, -1) + x, 2);
- d = pow(pow(x, 2) + 1, 2) / pow(x, 2);
- result += check_normal(e, d);
-
- // Distribution of powers (non-integer, don't distribute) and fraction addition
- e = pow(pow(x, -1) + x, numeric(1)/2);
- d = pow((pow(x, 2) + 1) / x, numeric(1)/2);
- result += check_normal(e, d);
-
- // Replacement of functions with temporary symbols and fraction cancellation
- e = pow(sin(x), 2) - pow(cos(x), 2);
- e /= sin(x) + cos(x);
- d = sin(x) - cos(x);
- result += check_normal(e, d);
-
- // Replacement of non-integer powers with temporary symbols
- e = (pow(numeric(2), numeric(1)/2) * x + x) / x;
- d = pow(numeric(2), numeric(1)/2) + 1;
- result += check_normal(e, d);
-
- // Replacement of complex numbers with temporary symbols
- e = (x + y + x*I + y*I) / (x + y);
- d = 1 + I;
- result += check_normal(e, d);
-
- e = (pow(x, 2) + pow(y, 2)) / (x + y*I);
- d = e;
- result += check_normal(e, d);
-
- // More complex rational function
- e = (pow(x-y*2,4)/pow(pow(x,2)-pow(y,2)*4,2)+1)*(x+y*2)*(y+z)/(pow(x,2)+pow(y,2)*4);
- d = (y*2 + z*2) / (x + y*2);
- result += check_normal(e, d);
-
- return result;
+ unsigned result = 0;
+ ex e, d;
+
+ // Expansion
+ e = pow(x, 2) - (x+1)*(x-1) - 1;
+ d = ex(0);
+ result += check_normal(e, d);
+
+ // Expansion inside functions
+ e = sin(x*(x+1)-x) + 1;
+ d = sin(pow(x, 2)) + 1;
+ result += check_normal(e, d);
+
+ // Fraction addition
+ e = numeric(2)/x + y/3;
+ d = (x*y/3 + 2) / x;
+ result += check_normal(e, d);
+
+ // Fraction addition
+ e = pow(x, -1) + x/(x+1);
+ d = (pow(x, 2)+x+1)/(x*(x+1));
+ result += check_normal(e, d);
+
+ // Fraction cancellation
+ e = (pow(x, 2) - pow(y, 2)) / pow(x-y, 3);
+ d = (x + y) / (pow(x, 2) + pow(y, 2) - x * y * 2);
+ result += check_normal(e, d);
+
+ // Fraction cancellation
+ e = (pow(x, -1) + x) / (pow(x , 2) * 2 + 2);
+ d = pow(x * 2, -1);
+ result += check_normal(e, d);
+
+ // Distribution of powers
+ e = pow(x/y, 2);
+ d = pow(x, 2) / pow(y, 2);
+ result += check_normal(e, d);
+
+ // Distribution of powers (integer, distribute) and fraction addition
+ e = pow(pow(x, -1) + x, 2);
+ d = pow(pow(x, 2) + 1, 2) / pow(x, 2);
+ result += check_normal(e, d);
+
+ // Distribution of powers (non-integer, don't distribute) and fraction addition
+ e = pow(pow(x, -1) + x, numeric(1)/2);
+ d = pow((pow(x, 2) + 1) / x, numeric(1)/2);
+ result += check_normal(e, d);
+
+ // Replacement of functions with temporary symbols and fraction cancellation
+ e = pow(sin(x), 2) - pow(cos(x), 2);
+ e /= sin(x) + cos(x);
+ d = sin(x) - cos(x);
+ result += check_normal(e, d);
+
+ // Replacement of non-integer powers with temporary symbols
+ e = (pow(numeric(2), numeric(1)/2) * x + x) / x;
+ d = pow(numeric(2), numeric(1)/2) + 1;
+ result += check_normal(e, d);
+
+ // Replacement of complex numbers with temporary symbols
+ e = (x + y + x*I + y*I) / (x + y);
+ d = 1 + I;
+ result += check_normal(e, d);
+
+ e = (pow(x, 2) + pow(y, 2)) / (x + y*I);
+ d = e;
+ result += check_normal(e, d);
+
+ // More complex rational function
+ e = (pow(x-y*2,4)/pow(pow(x,2)-pow(y,2)*4,2)+1)*(x+y*2)*(y+z)/(pow(x,2)+pow(y,2)*4);
+ d = (y*2 + z*2) / (x + y*2);
+ result += check_normal(e, d);
+
+ return result;
}
unsigned normalization(void)
{
- unsigned result = 0;
-
- cout << "checking rational function normalization..." << flush;
- clog << "---------rational function normalization:" << endl;
-
- result += normal1();
-
- if (!result) {
- cout << " passed ";
- clog << "(no output)" << endl;
- } else {
- cout << " failed ";
- }
- return result;
+ unsigned result = 0;
+
+ cout << "checking rational function normalization..." << flush;
+ clog << "---------rational function normalization:" << endl;
+
+ result += normal1();
+
+ if (!result) {
+ cout << " passed ";
+ clog << "(no output)" << endl;
+ } else {
+ cout << " failed ";
+ }
+ return result;
}