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+// Tests for the -*- C++ -*- complex number classes.
+// Copyright (C) 1994 Free Software Foundation
+
+// This file is part of the GNU ANSI C++ Library. This library 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, or (at your option) any later version.
+
+// This library 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 library; see the file COPYING. If not, write to the Free
+// Software Foundation, 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA.
+
+#include <assert.h>
+#include <iostream.h>
+#include <complex>
+
+// to test near-equality
+
+const double eps = 0.000001;
+
+static void close_enough(const double_complex& a, const double_complex& b)
+{
+ assert(fabs(real(a) - real(b)) < eps &&
+ fabs(imag(a) - imag(b)) < eps);
+}
+
+
+void test3(double_complex& a, double_complex& b, double_complex& c)
+{
+
+ close_enough(-(-a) , a);
+ close_enough((a + b) , (b + a));
+ close_enough((a + (-b)) , (a - b));
+ close_enough((a * b) , (b * a));
+ close_enough((a * (-b)) , -(a * b));
+ close_enough((a / (-b)) , -(a / b));
+ close_enough((a - b) , -(b - a));
+ close_enough((a + (b + c)) , ((a + b) + c));
+ close_enough((a * (b * c)) , ((a * b) * c));
+ close_enough((a * (b + c)) , ((a * b) + (a * c)));
+ close_enough(((a - b) + b) , a);
+ close_enough(((a + b) - b) , a);
+ close_enough(((a * b) / b) , a);
+ close_enough(((a / b) * b) , a);
+
+
+ double_complex x = a;
+ x *= b;
+ close_enough(x , (a * b));
+ x += c;
+ close_enough(x , ((a * b) + c));
+ x -= a;
+ close_enough(x , (((a * b) + c) - a));
+ x /= b;
+ close_enough(x , ((((a * b) + c) - a) / b));
+
+}
+
+main()
+{
+ double_complex one = 1.0;
+ double_complex i (0.0, 1.0);
+ double_complex neg_one = -1.0;
+
+ cout << "double_complex one = " << one << "\n";
+ cout << "i = " << i << "\n";
+ cout << "neg_one = " << neg_one << "\n";
+ cout << "sqrt(neg_one) = " << sqrt(neg_one) << "\n";
+
+ double_complex a (2.0, 3.0);
+ double_complex b (4.0, 5.0);
+
+ cout << "a = " << a << "\n";
+ cout << "b = " << b << "\n";
+
+ cout << "a + one = " << (a + one) << "\n";
+ (close_enough((a+one), double_complex(3.0, 3.0)));
+ cout << "a - one = " << (a - one) << "\n";
+ (close_enough((a-one), double_complex(1.0, 3.0)));
+ cout << "a * one = " << (a * one) << "\n";
+ (close_enough((a*one), a));
+ cout << "a / one = " << (a / one) << "\n";
+ (close_enough((a/one), a));
+
+ cout << "a + b = " << (a + b) << "\n";
+ (close_enough((a+b), double_complex(6.0, 8.0)));
+ cout << "a - b = " << (a - b) << "\n";
+ (close_enough((a-b), double_complex(-2.0, -2.0)));
+ cout << "a * b = " << (a * b) << "\n";
+ (close_enough((a*b), double_complex(-7.0, 22.0)));
+ cout << "a / b = " << (a / b) << "\n";
+ (close_enough((a/b), double_complex(0.5609760976, 0.0487804878)));
+
+ double_complex c;
+
+ c = a; cout << "c = a; c += b = " << (c += b) << "\n";
+ c = a; cout << "c = a; c -= b = " << (c -= b) << "\n";
+ c = a; cout << "c = a; c *= b = " << (c *= b) << "\n";
+ c = a; cout << "c = a; c /= b = " << (c /= b) << "\n";
+
+ cout << "-a = " << (-a) << "\n";
+ cout << "real(a) = " << real(a) << "\n";
+ assert(real(a) == 2.0);
+ cout << "imag(a) = " << imag(a) << "\n";
+ assert(imag(a) == 3.0);
+ cout << "conj(a) = " << conj(a) << "\n";
+ assert(conj(a) == double_complex(2.0, -3.0));
+ cout << "norm(a) = " << norm(a) << "\n";
+ assert(norm(a) == 13.0);
+
+ cout << "abs(a) = " << abs(a) << "\n";
+ cout << "arg(a) = " << arg(a) << "\n";
+ cout << "cos(a) = " << cos(a) << "\n";
+ cout << "sin(a) = " << sin(a) << "\n";
+ cout << "cosh(a) = " << cosh(a) << "\n";
+ cout << "sinh(a) = " << sinh(a) << "\n";
+ cout << "log(a) = " << log(a) << "\n";
+ cout << "exp(a) = " << exp(a) << "\n";
+ cout << "sqrt(a) = " << sqrt(a) << "\n";
+ cout << "pow(a, 2) = " << pow(a, 2) << "\n";
+ {
+ double_complex p = pow(a, b);
+ if(sizeof(float)==sizeof(double)) {
+ long w = (long)(p.imag()*100000);
+ if (w==-98642)
+ p=double_complex(-0.753046,-0.986429);
+ }
+ cout << "pow(a, b) = " << p << "\n";
+ }
+
+ double_complex d (10, 20);
+ double_complex e = pow(a, 2);
+
+ test3(one, one, one);
+ test3(a, a, a);
+ test3(a, b, d);
+ test3(e, i, b);
+ test3(d, d, i);
+
+ cout << "enter a complex number in form a or (a) or (a, b): ";
+ cin >> c;
+ cout << "number = " << c << "\n";
+
+ cout << "\nEnd of test\n";
+ return 0;
+}