boost_1_45_0/libs/numeric/interval/test/mul.cpp - nest-learning-thermostat/5.0/boost - Git at Google

 /* Boost test/mul.cpp
  * test multiplication, division, square and square root on some intervals
  *
  * Copyright 2002-2003 Guillaume Melquiond
  *
  * Distributed under the Boost Software License, Version 1.0.
  * (See accompanying file LICENSE_1_0.txt or
  * copy at http://www.boost.org/LICENSE_1_0.txt)
  */

 #include <boost/numeric/interval.hpp>
 #include <boost/test/minimal.hpp>
 #include "bugs.hpp"

 typedef boost::numeric::interval<double> I;

 static double min BOOST_PREVENT_MACRO_SUBSTITUTION (double a, double b, double c, double d) {
   return (std::min)((std::min)(a, b), (std::min)(c, d));
 }

 static double max BOOST_PREVENT_MACRO_SUBSTITUTION (double a, double b, double c, double d) {
   return (std::max)((std::max)(a, b), (std::max)(c, d));
 }

 static bool test_mul(double al, double au, double bl, double bu) {
   I a(al, au), b(bl, bu);
   I c = a * b;
   return c.lower() == (min)(al*bl, al*bu, au*bl, au*bu)
       && c.upper() == (max)(al*bl, al*bu, au*bl, au*bu);
 }

 static bool test_mul1(double ac, double bl, double bu) {
   I a(ac), b(bl, bu);
   I c = ac * b;
   I d = b * ac;
   I e = a * b;
   return equal(c, d) && equal(d, e);
 }

 static bool test_div(double al, double au, double bl, double bu) {
   I a(al, au), b(bl, bu);
   I c = a / b;
   return c.lower() == (min)(al/bl, al/bu, au/bl, au/bu)
       && c.upper() == (max)(al/bl, al/bu, au/bl, au/bu);
 }

 static bool test_div1(double al, double au, double bc) {
   I a(al, au), b(bc);
   I c = a / bc;
   I d = a / b;
   return equal(c, d);
 }

 static bool test_div2(double ac, double bl, double bu) {
   I a(ac), b(bl, bu);
   I c = ac / b;
   I d = a / b;
   return equal(c, d);
 }

 static bool test_square(double al, double au) {
   I a(al, au);
   I b = square(a);
   I c = a * a;
   return b.upper() == c.upper() &&
          (b.lower() == c.lower() || (c.lower() <= 0 && b.lower() == 0));
 }

 static bool test_sqrt(double al, double au) {
   I a(al, au);
   I b = square(sqrt(a));
   return subset(abs(a), b);
 }

 int test_main(int, char*[]) {
   BOOST_CHECK(test_mul(2, 3, 5, 7));
   BOOST_CHECK(test_mul(2, 3, -5, 7));
   BOOST_CHECK(test_mul(2, 3, -7, -5));
   BOOST_CHECK(test_mul(-2, 3, 5, 7));
   BOOST_CHECK(test_mul(-2, 3, -5, 7));
   BOOST_CHECK(test_mul(-2, 3, -7, -5));
   BOOST_CHECK(test_mul(-3, -2, 5, 7));
   BOOST_CHECK(test_mul(-3, -2, -5, 7));
   BOOST_CHECK(test_mul(-3, -2, -7, -5));

   BOOST_CHECK(test_mul1(3, 5, 7));
   BOOST_CHECK(test_mul1(3, -5, 7));
   BOOST_CHECK(test_mul1(3, -7, -5));
   BOOST_CHECK(test_mul1(-3, 5, 7));
   BOOST_CHECK(test_mul1(-3, -5, 7));
   BOOST_CHECK(test_mul1(-3, -7, -5));

   BOOST_CHECK(test_div(30, 42, 2, 3));
   BOOST_CHECK(test_div(30, 42, -3, -2));
   BOOST_CHECK(test_div(-30, 42, 2, 3));
   BOOST_CHECK(test_div(-30, 42, -3, -2));
   BOOST_CHECK(test_div(-42, -30, 2, 3));
   BOOST_CHECK(test_div(-42, -30, -3, -2));

   BOOST_CHECK(test_div1(30, 42, 3));
   BOOST_CHECK(test_div1(30, 42, -3));
   BOOST_CHECK(test_div1(-30, 42, 3));
   BOOST_CHECK(test_div1(-30, 42, -3));
   BOOST_CHECK(test_div1(-42, -30, 3));
   BOOST_CHECK(test_div1(-42, -30, -3));

   BOOST_CHECK(test_div2(30, 2, 3));
   BOOST_CHECK(test_div2(30, -3, -2));
   BOOST_CHECK(test_div2(-30, 2, 3));
   BOOST_CHECK(test_div2(-30, -3, -2));

   BOOST_CHECK(test_square(2, 3));
   BOOST_CHECK(test_square(-2, 3));
   BOOST_CHECK(test_square(-3, 2));

   BOOST_CHECK(test_sqrt(2, 3));
   BOOST_CHECK(test_sqrt(5, 7));
   BOOST_CHECK(test_sqrt(-1, 2));

 # ifdef __BORLANDC__
   ::detail::ignore_warnings();
 # endif
   return 0;
 }
	/* Boost test/mul.cpp
	* test multiplication, division, square and square root on some intervals
	*
	* Copyright 2002-2003 Guillaume Melquiond
	*
	* Distributed under the Boost Software License, Version 1.0.
	* (See accompanying file LICENSE_1_0.txt or
	* copy at http://www.boost.org/LICENSE_1_0.txt)
	*/

	#include <boost/numeric/interval.hpp>
	#include <boost/test/minimal.hpp>
	#include "bugs.hpp"

	typedef boost::numeric::interval<double> I;

	static double min BOOST_PREVENT_MACRO_SUBSTITUTION (double a, double b, double c, double d) {
	return (std::min)((std::min)(a, b), (std::min)(c, d));
	}

	static double max BOOST_PREVENT_MACRO_SUBSTITUTION (double a, double b, double c, double d) {
	return (std::max)((std::max)(a, b), (std::max)(c, d));
	}

	static bool test_mul(double al, double au, double bl, double bu) {
	I a(al, au), b(bl, bu);
	I c = a * b;
	return c.lower() == (min)(albl, albu, aubl, aubu)
	&& c.upper() == (max)(albl, albu, aubl, aubu);
	}

	static bool test_mul1(double ac, double bl, double bu) {
	I a(ac), b(bl, bu);
	I c = ac * b;
	I d = b * ac;
	I e = a * b;
	return equal(c, d) && equal(d, e);
	}

	static bool test_div(double al, double au, double bl, double bu) {
	I a(al, au), b(bl, bu);
	I c = a / b;
	return c.lower() == (min)(al/bl, al/bu, au/bl, au/bu)
	&& c.upper() == (max)(al/bl, al/bu, au/bl, au/bu);
	}

	static bool test_div1(double al, double au, double bc) {
	I a(al, au), b(bc);
	I c = a / bc;
	I d = a / b;
	return equal(c, d);
	}

	static bool test_div2(double ac, double bl, double bu) {
	I a(ac), b(bl, bu);
	I c = ac / b;
	I d = a / b;
	return equal(c, d);
	}

	static bool test_square(double al, double au) {
	I a(al, au);
	I b = square(a);
	I c = a * a;
	return b.upper() == c.upper() &&
	(b.lower() == c.lower() \|\| (c.lower() <= 0 && b.lower() == 0));
	}

	static bool test_sqrt(double al, double au) {
	I a(al, au);
	I b = square(sqrt(a));
	return subset(abs(a), b);
	}

	int test_main(int, char*[]) {
	BOOST_CHECK(test_mul(2, 3, 5, 7));
	BOOST_CHECK(test_mul(2, 3, -5, 7));
	BOOST_CHECK(test_mul(2, 3, -7, -5));
	BOOST_CHECK(test_mul(-2, 3, 5, 7));
	BOOST_CHECK(test_mul(-2, 3, -5, 7));
	BOOST_CHECK(test_mul(-2, 3, -7, -5));
	BOOST_CHECK(test_mul(-3, -2, 5, 7));
	BOOST_CHECK(test_mul(-3, -2, -5, 7));
	BOOST_CHECK(test_mul(-3, -2, -7, -5));

	BOOST_CHECK(test_mul1(3, 5, 7));
	BOOST_CHECK(test_mul1(3, -5, 7));
	BOOST_CHECK(test_mul1(3, -7, -5));
	BOOST_CHECK(test_mul1(-3, 5, 7));
	BOOST_CHECK(test_mul1(-3, -5, 7));
	BOOST_CHECK(test_mul1(-3, -7, -5));

	BOOST_CHECK(test_div(30, 42, 2, 3));
	BOOST_CHECK(test_div(30, 42, -3, -2));
	BOOST_CHECK(test_div(-30, 42, 2, 3));
	BOOST_CHECK(test_div(-30, 42, -3, -2));
	BOOST_CHECK(test_div(-42, -30, 2, 3));
	BOOST_CHECK(test_div(-42, -30, -3, -2));

	BOOST_CHECK(test_div1(30, 42, 3));
	BOOST_CHECK(test_div1(30, 42, -3));
	BOOST_CHECK(test_div1(-30, 42, 3));
	BOOST_CHECK(test_div1(-30, 42, -3));
	BOOST_CHECK(test_div1(-42, -30, 3));
	BOOST_CHECK(test_div1(-42, -30, -3));

	BOOST_CHECK(test_div2(30, 2, 3));
	BOOST_CHECK(test_div2(30, -3, -2));
	BOOST_CHECK(test_div2(-30, 2, 3));
	BOOST_CHECK(test_div2(-30, -3, -2));

	BOOST_CHECK(test_square(2, 3));
	BOOST_CHECK(test_square(-2, 3));
	BOOST_CHECK(test_square(-3, 2));

	BOOST_CHECK(test_sqrt(2, 3));
	BOOST_CHECK(test_sqrt(5, 7));
	BOOST_CHECK(test_sqrt(-1, 2));

	# ifdef __BORLANDC__
	::detail::ignore_warnings();
	# endif
	return 0;
	}