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

 /* Boost test/test_float.cpp
  * test arithmetic operations on a range of intervals
  *
  * Copyright 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/test_tools.hpp>
 #include <boost/config.hpp>
 #include "bugs.hpp"

 /* All the following tests should be BOOST_CHECK; however, if a test fails,
    the probability is high that hundreds of other tests will fail, so it is
    replaced by BOOST_REQUIRE to avoid flooding the logs. */

 template<class T, class F>
 void test_unary() {
   typedef typename F::I I;
   for(I a(-10., -9.91); a.lower() <= 10.; a += 0.3) {
     if (!F::validate(a)) continue;
     I rI = F::f_I(a);
     T rT1 = F::f_T(a.lower()), rT2 = F::f_T(a.upper()),
       rT3 = F::f_T(median(a));
     BOOST_REQUIRE(in(rT1, rI));
     BOOST_REQUIRE(in(rT2, rI));
     BOOST_REQUIRE(in(rT3, rI));
   }
 }

 template<class T, class F>
 void test_binary() {
   typedef typename F::I I;
   for(I a(-10., -9.91); a.lower() <= 10.; a += 0.3) {
     for(I b(-10., -9.91); b.lower() <= 10.; b += 0.3) {
       if (!F::validate(a, b)) continue;
       T al = a.lower(), au = a.upper(), bl = b.lower(), bu = b.upper();
       I rII = F::f_II(a, b);
       I rIT1 = F::f_IT(a, bl), rIT2 = F::f_IT(a, bu);
       I rTI1 = F::f_TI(al, b), rTI2 = F::f_TI(au, b);
       I rTT1 = F::f_TT(al, bl), rTT2 = F::f_TT(al, bu);
       I rTT3 = F::f_TT(au, bl), rTT4 = F::f_TT(au, bu);
       BOOST_REQUIRE(subset(rTT1, rIT1));
       BOOST_REQUIRE(subset(rTT3, rIT1));
       BOOST_REQUIRE(subset(rTT2, rIT2));
       BOOST_REQUIRE(subset(rTT4, rIT2));
       BOOST_REQUIRE(subset(rTT1, rTI1));
       BOOST_REQUIRE(subset(rTT2, rTI1));
       BOOST_REQUIRE(subset(rTT3, rTI2));
       BOOST_REQUIRE(subset(rTT4, rTI2));
       BOOST_REQUIRE(subset(rIT1, rII));
       BOOST_REQUIRE(subset(rIT2, rII));
       BOOST_REQUIRE(subset(rTI1, rII));
       BOOST_REQUIRE(subset(rTI2, rII));
     }
   }
 }

 #define new_unary_bunch(name, op, val) \
   template<class T> \
   struct name { \
     typedef boost::numeric::interval<T> I; \
     static I f_I(const I& a) { return op(a); } \
     static T f_T(const T& a) { return op(a); } \
     static bool validate(const I& a) { return val; } \
   }

 //#ifndef BOOST_NO_STDC_NAMESPACE
 using std::abs;
 using std::sqrt;
 //#endif

 new_unary_bunch(bunch_pos, +, true);
 new_unary_bunch(bunch_neg, -, true);
 new_unary_bunch(bunch_sqrt, sqrt, a.lower() >= 0.);
 new_unary_bunch(bunch_abs, abs, true);

 template<class T>
 void test_all_unaries() {
   BOOST_CHECKPOINT("pos");  test_unary<T, bunch_pos<T> >();
   BOOST_CHECKPOINT("neg");  test_unary<T, bunch_neg<T> >();
   BOOST_CHECKPOINT("sqrt"); test_unary<T, bunch_sqrt<T> >();
   BOOST_CHECKPOINT("abs");  test_unary<T, bunch_abs<T> >();
 }

 #define new_binary_bunch(name, op, val) \
   template<class T> \
   struct bunch_##name { \
     typedef boost::numeric::interval<T> I; \
     static I f_II(const I& a, const I& b) { return a op b; } \
     static I f_IT(const I& a, const T& b) { return a op b; } \
     static I f_TI(const T& a, const I& b) { return a op b; } \
     static I f_TT(const T& a, const T& b) \
     { return boost::numeric::interval_lib::name<I>(a,b); } \
     static bool validate(const I& a, const I& b) { return val; } \
   }

 new_binary_bunch(add, +, true);
 new_binary_bunch(sub, -, true);
 new_binary_bunch(mul, *, true);
 new_binary_bunch(div, /, !zero_in(b));

 template<class T>
 void test_all_binaries() {
   BOOST_CHECKPOINT("add"); test_binary<T, bunch_add<T> >();
   BOOST_CHECKPOINT("sub"); test_binary<T, bunch_sub<T> >();
   BOOST_CHECKPOINT("mul"); test_binary<T, bunch_mul<T> >();
   BOOST_CHECKPOINT("div"); test_binary<T, bunch_div<T> >();
 }

 int test_main(int, char *[]) {
   BOOST_CHECKPOINT("float tests");
   test_all_unaries<float> ();
   test_all_binaries<float> ();
   BOOST_CHECKPOINT("double tests");
   test_all_unaries<double>();
   test_all_binaries<double>();
   //BOOST_CHECKPOINT("long double tests");
   //test_all_unaries<long double>();
   //test_all_binaries<long double>();
 # ifdef __BORLANDC__
   ::detail::ignore_warnings();
 # endif
   return 0;
 }
	/* Boost test/test_float.cpp
	* test arithmetic operations on a range of intervals
	*
	* Copyright 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/test_tools.hpp>
	#include <boost/config.hpp>
	#include "bugs.hpp"

	/* All the following tests should be BOOST_CHECK; however, if a test fails,
	the probability is high that hundreds of other tests will fail, so it is
	replaced by BOOST_REQUIRE to avoid flooding the logs. */

	template<class T, class F>
	void test_unary() {
	typedef typename F::I I;
	for(I a(-10., -9.91); a.lower() <= 10.; a += 0.3) {
	if (!F::validate(a)) continue;
	I rI = F::f_I(a);
	T rT1 = F::f_T(a.lower()), rT2 = F::f_T(a.upper()),
	rT3 = F::f_T(median(a));
	BOOST_REQUIRE(in(rT1, rI));
	BOOST_REQUIRE(in(rT2, rI));
	BOOST_REQUIRE(in(rT3, rI));
	}
	}

	template<class T, class F>
	void test_binary() {
	typedef typename F::I I;
	for(I a(-10., -9.91); a.lower() <= 10.; a += 0.3) {
	for(I b(-10., -9.91); b.lower() <= 10.; b += 0.3) {
	if (!F::validate(a, b)) continue;
	T al = a.lower(), au = a.upper(), bl = b.lower(), bu = b.upper();
	I rII = F::f_II(a, b);
	I rIT1 = F::f_IT(a, bl), rIT2 = F::f_IT(a, bu);
	I rTI1 = F::f_TI(al, b), rTI2 = F::f_TI(au, b);
	I rTT1 = F::f_TT(al, bl), rTT2 = F::f_TT(al, bu);
	I rTT3 = F::f_TT(au, bl), rTT4 = F::f_TT(au, bu);
	BOOST_REQUIRE(subset(rTT1, rIT1));
	BOOST_REQUIRE(subset(rTT3, rIT1));
	BOOST_REQUIRE(subset(rTT2, rIT2));
	BOOST_REQUIRE(subset(rTT4, rIT2));
	BOOST_REQUIRE(subset(rTT1, rTI1));
	BOOST_REQUIRE(subset(rTT2, rTI1));
	BOOST_REQUIRE(subset(rTT3, rTI2));
	BOOST_REQUIRE(subset(rTT4, rTI2));
	BOOST_REQUIRE(subset(rIT1, rII));
	BOOST_REQUIRE(subset(rIT2, rII));
	BOOST_REQUIRE(subset(rTI1, rII));
	BOOST_REQUIRE(subset(rTI2, rII));
	}
	}
	}

	#define new_unary_bunch(name, op, val) \
	template<class T> \
	struct name { \
	typedef boost::numeric::interval<T> I; \
	static I f_I(const I& a) { return op(a); } \
	static T f_T(const T& a) { return op(a); } \
	static bool validate(const I& a) { return val; } \
	}

	//#ifndef BOOST_NO_STDC_NAMESPACE
	using std::abs;
	using std::sqrt;
	//#endif

	new_unary_bunch(bunch_pos, +, true);
	new_unary_bunch(bunch_neg, -, true);
	new_unary_bunch(bunch_sqrt, sqrt, a.lower() >= 0.);
	new_unary_bunch(bunch_abs, abs, true);

	template<class T>
	void test_all_unaries() {
	BOOST_CHECKPOINT("pos"); test_unary<T, bunch_pos<T> >();
	BOOST_CHECKPOINT("neg"); test_unary<T, bunch_neg<T> >();
	BOOST_CHECKPOINT("sqrt"); test_unary<T, bunch_sqrt<T> >();
	BOOST_CHECKPOINT("abs"); test_unary<T, bunch_abs<T> >();
	}

	#define new_binary_bunch(name, op, val) \
	template<class T> \
	struct bunch_##name { \
	typedef boost::numeric::interval<T> I; \
	static I f_II(const I& a, const I& b) { return a op b; } \
	static I f_IT(const I& a, const T& b) { return a op b; } \
	static I f_TI(const T& a, const I& b) { return a op b; } \
	static I f_TT(const T& a, const T& b) \
	{ return boost::numeric::interval_lib::name<I>(a,b); } \
	static bool validate(const I& a, const I& b) { return val; } \
	}

	new_binary_bunch(add, +, true);
	new_binary_bunch(sub, -, true);
	new_binary_bunch(mul, *, true);
	new_binary_bunch(div, /, !zero_in(b));

	template<class T>
	void test_all_binaries() {
	BOOST_CHECKPOINT("add"); test_binary<T, bunch_add<T> >();
	BOOST_CHECKPOINT("sub"); test_binary<T, bunch_sub<T> >();
	BOOST_CHECKPOINT("mul"); test_binary<T, bunch_mul<T> >();
	BOOST_CHECKPOINT("div"); test_binary<T, bunch_div<T> >();
	}

	int test_main(int, char *[]) {
	BOOST_CHECKPOINT("float tests");
	test_all_unaries<float> ();
	test_all_binaries<float> ();
	BOOST_CHECKPOINT("double tests");
	test_all_unaries<double>();
	test_all_binaries<double>();
	//BOOST_CHECKPOINT("long double tests");
	//test_all_unaries<long double>();
	//test_all_binaries<long double>();
	# ifdef __BORLANDC__
	::detail::ignore_warnings();
	# endif
	return 0;
	}