boost_1_45_0/libs/random/test/random_test.cpp - nest-learning-thermostat/5.0/boost - Git at Google

 /* boost random_test.cpp various tests
  *
  * Copyright Jens Maurer 2000
  * 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)
  *
  * $Id: random_test.cpp 60755 2010-03-22 00:45:06Z steven_watanabe $
  */

 #if defined(BOOST_MSVC) && BOOST_MSVC <= 1300
 #pragma warning( disable : 4786 )
 #endif

 #include <iostream>
 #include <sstream>
 #include <string>
 #include <cmath>
 #include <iterator>
 #include <vector>
 #include <boost/random.hpp>
 #include <boost/config.hpp>

 #include <boost/test/test_tools.hpp>
 #include <boost/test/included/test_exec_monitor.hpp>

 #ifdef BOOST_NO_STDC_NAMESPACE
   namespace std { using ::abs; using ::fabs; using ::pow; }
 #endif


 /*
  * General portability note:
  * MSVC mis-compiles explicit function template instantiations.
  * For example, f<A>() and f<B>() are both compiled to call f<A>().
  * BCC is unable to implicitly convert a "const char *" to a std::string
  * when using explicit function template instantiations.
  *
  * Therefore, avoid explicit function template instantiations.
  */

 /*
  * A few equidistribution tests
  */

 // yet to come...

 template<class Generator>
 void check_uniform_int(Generator & gen, int iter)
 {
   std::cout << "testing uniform_int(" << (gen.min)() << "," << (gen.max)()
             << ")" << std::endl;
   int range = (gen.max)()-(gen.min)()+1;
   std::vector<int> bucket(range);
   for(int j = 0; j < iter; j++) {
     int result = gen();
     if(result < (gen.min)() || result > (gen.max)())
       std::cerr << "   ... delivers " << result << std::endl;
     else
       bucket[result-(gen.min)()]++;
   }
   int sum = 0;
   // use a different variable name "k", because MSVC has broken "for" scoping
   for(int k = 0; k < range; k++)
     sum += bucket[k];
   double avg = static_cast<double>(sum)/range;
   double p = 1 / static_cast<double>(range);
   double threshold = 2*std::sqrt(static_cast<double>(iter)*p*(1-p));
   for(int i = 0; i < range; i++) {
     if(std::fabs(bucket[i] - avg) > threshold) {
       // 95% confidence interval
       std::cout << "   ... has bucket[" << i << "] = " << bucket[i]
                 << "  (distance " << (bucket[i] - avg) << ")"
                 << std::endl;
     }
   }
 }

 template<class Generator>
 void test_uniform_int(Generator & gen)
 {
   typedef boost::uniform_int<int> int_gen;

   // large range => small range (modulo case)
   typedef boost::variate_generator<Generator&, int_gen> level_one;

   level_one uint12(gen, int_gen(1,2));
   BOOST_CHECK((uint12.distribution().min)() == 1);
   BOOST_CHECK((uint12.distribution().max)() == 2);
   check_uniform_int(uint12, 100000);
   level_one uint16(gen, int_gen(1,6));
   check_uniform_int(uint16, 100000);

   // test chaining to get all cases in operator()

   // identity map
   typedef boost::variate_generator<level_one&, int_gen> level_two;
   level_two uint01(uint12, int_gen(0, 1));
   check_uniform_int(uint01, 100000);

   // small range => larger range
   level_two uint05(uint12, int_gen(-3, 2));
   check_uniform_int(uint05, 100000);

   // small range => larger range
   level_two uint099(uint12, int_gen(0, 99));
   check_uniform_int(uint099, 100000);

   // larger => small range, rejection case
   typedef boost::variate_generator<level_two&, int_gen> level_three;
   level_three uint1_4(uint05, int_gen(1, 4));
   check_uniform_int(uint1_4, 100000);

   typedef boost::uniform_int<boost::uint8_t> int8_gen;
   typedef boost::variate_generator<Generator&, int8_gen> gen8_t;

   gen8_t gen8_03(gen, int8_gen(0, 3));

   // use the full range of the type, where the destination
   // range is a power of the source range
   typedef boost::variate_generator<gen8_t, int8_gen> uniform_uint8;
   uniform_uint8 uint8_0255(gen8_03, int8_gen(0, 255));
   check_uniform_int(uint8_0255, 100000);

   // use the full range, but a generator whose range is not
   // a root of the destination range.
   gen8_t gen8_02(gen, int8_gen(0, 2));
   uniform_uint8 uint8_0255_2(gen8_02, int8_gen(0, 255));
   check_uniform_int(uint8_0255_2, 100000);

   // expand the range to a larger type.
   typedef boost::variate_generator<gen8_t, int_gen> uniform_uint_from8;
   uniform_uint_from8 uint0300(gen8_03, int_gen(0, 300));
   check_uniform_int(uint0300, 100000);
 }

 #if defined(BOOST_MSVC) && _MSC_VER < 1300

 // These explicit instantiations are necessary, otherwise MSVC does
 // not find the <boost/operators.hpp> inline friends.
 // We ease the typing with a suitable preprocessor macro.
 #define INSTANT(x) \
 template class boost::uniform_smallint<x>; \
 template class boost::uniform_int<x>; \
 template class boost::uniform_real<x>; \
 template class boost::bernoulli_distribution<x>; \
 template class boost::geometric_distribution<x>; \
 template class boost::triangle_distribution<x>; \
 template class boost::exponential_distribution<x>; \
 template class boost::normal_distribution<x>; \
 template class boost::uniform_on_sphere<x>; \
 template class boost::lognormal_distribution<x>;

 INSTANT(boost::minstd_rand0)
 INSTANT(boost::minstd_rand)
 INSTANT(boost::ecuyer1988)
 INSTANT(boost::kreutzer1986)
 INSTANT(boost::hellekalek1995)
 INSTANT(boost::mt19937)
 INSTANT(boost::mt11213b)

 #undef INSTANT
 #endif

 #if !defined(BOOST_NO_INT64_T) && !defined(BOOST_NO_INTEGRAL_INT64_T)
 // testcase by Mario Rutti
 class ruetti_gen
 {
 public:
   ruetti_gen() : state((max)() - 1) {}
   typedef boost::uint64_t result_type;
   result_type min BOOST_PREVENT_MACRO_SUBSTITUTION () const { return 0; }
   result_type max BOOST_PREVENT_MACRO_SUBSTITUTION () const { return std::numeric_limits<result_type>::max BOOST_PREVENT_MACRO_SUBSTITUTION (); }
   result_type operator()() { return state--; }
 private:
   result_type state;
 };

 void test_overflow_range()
 {
   ruetti_gen gen;
   boost::variate_generator<ruetti_gen, boost::uniform_int<> >
     rng(gen, boost::uniform_int<>(0, 10));
   for (int i=0;i<10;i++)
     (void) rng();
 }
 #else
 void test_overflow_range()
 { }
 #endif

 template <typename EngineT>
 struct rand_for_random_shuffle
 {
   explicit rand_for_random_shuffle(EngineT &engine)
     : m_engine(engine)
   { }

   template <typename IntT>
   IntT operator()(IntT upperBound)
   {
     assert(upperBound > 0);

     if (upperBound == 1)
     {
       return 0;
     }

     typedef boost::uniform_int<IntT> distribution_type;
     typedef boost::variate_generator<EngineT &, distribution_type> generator_type;

     return generator_type(m_engine, distribution_type(0, upperBound - 1))();
   }

   EngineT &m_engine;

 };

 // Test that uniform_int<> can be used with std::random_shuffle
 // Author: Jos Hickson
 void test_random_shuffle()
 {
     typedef boost::uniform_int<> distribution_type;
     typedef boost::variate_generator<boost::mt19937 &, distribution_type> generator_type;

     boost::mt19937 engine1(1234);
     boost::mt19937 engine2(1234);

     rand_for_random_shuffle<boost::mt19937> referenceRand(engine1);

     distribution_type dist(0,10);
     generator_type testRand(engine2, dist);

     std::vector<int> referenceVec;

     for (int i = 0; i < 200; ++i)
     {
       referenceVec.push_back(i);
     }

     std::vector<int> testVec(referenceVec);

     std::random_shuffle(referenceVec.begin(), referenceVec.end(), referenceRand);
     std::random_shuffle(testVec.begin(), testVec.end(), testRand);

     typedef std::vector<int>::iterator iter_type;
     iter_type theEnd(referenceVec.end());

     for (iter_type referenceIter(referenceVec.begin()), testIter(testVec.begin());
          referenceIter != theEnd;
          ++referenceIter, ++testIter)
     {
       BOOST_CHECK_EQUAL(*referenceIter, *testIter);
     }
 }


 int test_main(int, char*[])
 {

 #if !defined(__INTEL_COMPILER) || !defined(_MSC_VER) || __INTEL_COMPILER > 700
   boost::mt19937 mt;
   test_uniform_int(mt);

   // bug report from Ken Mahler:  This used to lead to an endless loop.
   typedef boost::uniform_int<unsigned int> uint_dist;
   boost::minstd_rand mr;
   boost::variate_generator<boost::minstd_rand, uint_dist> r2(mr,
                                                             uint_dist(0, 0xffffffff));
   r2();
   r2();

   // bug report from Fernando Cacciola:  This used to lead to an endless loop.
   // also from Douglas Gregor
   boost::variate_generator<boost::minstd_rand, boost::uniform_int<> > x(mr, boost::uniform_int<>(0, 8361));
   (void) x();

   // bug report from Alan Stokes and others: this throws an assertion
   boost::variate_generator<boost::minstd_rand, boost::uniform_int<> > y(mr, boost::uniform_int<>(1,1));
   std::cout << "uniform_int(1,1) " << y() << ", " << y() << ", " << y()
             << std::endl;

   test_overflow_range();
   test_random_shuffle();

   return 0;
 #else
   std::cout << "Intel 7.00 on Win32 loops, so the test is disabled\n";
   return 1;
 #endif
 }
	/* boost random_test.cpp various tests
	*
	* Copyright Jens Maurer 2000
	* 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)
	*
	* $Id: random_test.cpp 60755 2010-03-22 00:45:06Z steven_watanabe $
	*/

	#if defined(BOOST_MSVC) && BOOST_MSVC <= 1300
	#pragma warning( disable : 4786 )
	#endif

	#include <iostream>
	#include <sstream>
	#include <string>
	#include <cmath>
	#include <iterator>
	#include <vector>
	#include <boost/random.hpp>
	#include <boost/config.hpp>

	#include <boost/test/test_tools.hpp>
	#include <boost/test/included/test_exec_monitor.hpp>

	#ifdef BOOST_NO_STDC_NAMESPACE
	namespace std { using ::abs; using ::fabs; using ::pow; }
	#endif


	/*
	* General portability note:
	* MSVC mis-compiles explicit function template instantiations.
	* For example, f<A>() and f<B>() are both compiled to call f<A>().
	* BCC is unable to implicitly convert a "const char *" to a std::string
	* when using explicit function template instantiations.
	*
	* Therefore, avoid explicit function template instantiations.
	*/

	/*
	* A few equidistribution tests
	*/

	// yet to come...

	template<class Generator>
	void check_uniform_int(Generator & gen, int iter)
	{
	std::cout << "testing uniform_int(" << (gen.min)() << "," << (gen.max)()
	<< ")" << std::endl;
	int range = (gen.max)()-(gen.min)()+1;
	std::vector<int> bucket(range);
	for(int j = 0; j < iter; j++) {
	int result = gen();
	if(result < (gen.min)() \|\| result > (gen.max)())
	std::cerr << " ... delivers " << result << std::endl;
	else
	bucket[result-(gen.min)()]++;
	}
	int sum = 0;
	// use a different variable name "k", because MSVC has broken "for" scoping
	for(int k = 0; k < range; k++)
	sum += bucket[k];
	double avg = static_cast<double>(sum)/range;
	double p = 1 / static_cast<double>(range);
	double threshold = 2std::sqrt(static_cast<double>(iter)p*(1-p));
	for(int i = 0; i < range; i++) {
	if(std::fabs(bucket[i] - avg) > threshold) {
	// 95% confidence interval
	std::cout << " ... has bucket[" << i << "] = " << bucket[i]
	<< " (distance " << (bucket[i] - avg) << ")"
	<< std::endl;
	}
	}
	}

	template<class Generator>
	void test_uniform_int(Generator & gen)
	{
	typedef boost::uniform_int<int> int_gen;

	// large range => small range (modulo case)
	typedef boost::variate_generator<Generator&, int_gen> level_one;

	level_one uint12(gen, int_gen(1,2));
	BOOST_CHECK((uint12.distribution().min)() == 1);
	BOOST_CHECK((uint12.distribution().max)() == 2);
	check_uniform_int(uint12, 100000);
	level_one uint16(gen, int_gen(1,6));
	check_uniform_int(uint16, 100000);

	// test chaining to get all cases in operator()

	// identity map
	typedef boost::variate_generator<level_one&, int_gen> level_two;
	level_two uint01(uint12, int_gen(0, 1));
	check_uniform_int(uint01, 100000);

	// small range => larger range
	level_two uint05(uint12, int_gen(-3, 2));
	check_uniform_int(uint05, 100000);

	// small range => larger range
	level_two uint099(uint12, int_gen(0, 99));
	check_uniform_int(uint099, 100000);

	// larger => small range, rejection case
	typedef boost::variate_generator<level_two&, int_gen> level_three;
	level_three uint1_4(uint05, int_gen(1, 4));
	check_uniform_int(uint1_4, 100000);

	typedef boost::uniform_int<boost::uint8_t> int8_gen;
	typedef boost::variate_generator<Generator&, int8_gen> gen8_t;

	gen8_t gen8_03(gen, int8_gen(0, 3));

	// use the full range of the type, where the destination
	// range is a power of the source range
	typedef boost::variate_generator<gen8_t, int8_gen> uniform_uint8;
	uniform_uint8 uint8_0255(gen8_03, int8_gen(0, 255));
	check_uniform_int(uint8_0255, 100000);

	// use the full range, but a generator whose range is not
	// a root of the destination range.
	gen8_t gen8_02(gen, int8_gen(0, 2));
	uniform_uint8 uint8_0255_2(gen8_02, int8_gen(0, 255));
	check_uniform_int(uint8_0255_2, 100000);

	// expand the range to a larger type.
	typedef boost::variate_generator<gen8_t, int_gen> uniform_uint_from8;
	uniform_uint_from8 uint0300(gen8_03, int_gen(0, 300));
	check_uniform_int(uint0300, 100000);
	}

	#if defined(BOOST_MSVC) && _MSC_VER < 1300

	// These explicit instantiations are necessary, otherwise MSVC does
	// not find the <boost/operators.hpp> inline friends.
	// We ease the typing with a suitable preprocessor macro.
	#define INSTANT(x) \
	template class boost::uniform_smallint<x>; \
	template class boost::uniform_int<x>; \
	template class boost::uniform_real<x>; \
	template class boost::bernoulli_distribution<x>; \
	template class boost::geometric_distribution<x>; \
	template class boost::triangle_distribution<x>; \
	template class boost::exponential_distribution<x>; \
	template class boost::normal_distribution<x>; \
	template class boost::uniform_on_sphere<x>; \
	template class boost::lognormal_distribution<x>;

	INSTANT(boost::minstd_rand0)
	INSTANT(boost::minstd_rand)
	INSTANT(boost::ecuyer1988)
	INSTANT(boost::kreutzer1986)
	INSTANT(boost::hellekalek1995)
	INSTANT(boost::mt19937)
	INSTANT(boost::mt11213b)

	#undef INSTANT
	#endif

	#if !defined(BOOST_NO_INT64_T) && !defined(BOOST_NO_INTEGRAL_INT64_T)
	// testcase by Mario Rutti
	class ruetti_gen
	{
	public:
	ruetti_gen() : state((max)() - 1) {}
	typedef boost::uint64_t result_type;
	result_type min BOOST_PREVENT_MACRO_SUBSTITUTION () const { return 0; }
	result_type max BOOST_PREVENT_MACRO_SUBSTITUTION () const { return std::numeric_limits<result_type>::max BOOST_PREVENT_MACRO_SUBSTITUTION (); }
	result_type operator()() { return state--; }
	private:
	result_type state;
	};

	void test_overflow_range()
	{
	ruetti_gen gen;
	boost::variate_generator<ruetti_gen, boost::uniform_int<> >
	rng(gen, boost::uniform_int<>(0, 10));
	for (int i=0;i<10;i++)
	(void) rng();
	}
	#else
	void test_overflow_range()
	{ }
	#endif

	template <typename EngineT>
	struct rand_for_random_shuffle
	{
	explicit rand_for_random_shuffle(EngineT &engine)
	: m_engine(engine)
	{ }

	template <typename IntT>
	IntT operator()(IntT upperBound)
	{
	assert(upperBound > 0);

	if (upperBound == 1)
	{
	return 0;
	}

	typedef boost::uniform_int<IntT> distribution_type;
	typedef boost::variate_generator<EngineT &, distribution_type> generator_type;

	return generator_type(m_engine, distribution_type(0, upperBound - 1))();
	}

	EngineT &m_engine;

	};

	// Test that uniform_int<> can be used with std::random_shuffle
	// Author: Jos Hickson
	void test_random_shuffle()
	{
	typedef boost::uniform_int<> distribution_type;
	typedef boost::variate_generator<boost::mt19937 &, distribution_type> generator_type;

	boost::mt19937 engine1(1234);
	boost::mt19937 engine2(1234);

	rand_for_random_shuffle<boost::mt19937> referenceRand(engine1);

	distribution_type dist(0,10);
	generator_type testRand(engine2, dist);

	std::vector<int> referenceVec;

	for (int i = 0; i < 200; ++i)
	{
	referenceVec.push_back(i);
	}

	std::vector<int> testVec(referenceVec);

	std::random_shuffle(referenceVec.begin(), referenceVec.end(), referenceRand);
	std::random_shuffle(testVec.begin(), testVec.end(), testRand);

	typedef std::vector<int>::iterator iter_type;
	iter_type theEnd(referenceVec.end());

	for (iter_type referenceIter(referenceVec.begin()), testIter(testVec.begin());
	referenceIter != theEnd;
	++referenceIter, ++testIter)
	{
	BOOST_CHECK_EQUAL(referenceIter, testIter);
	}
	}


	int test_main(int, char*[])
	{

	#if !defined(__INTEL_COMPILER) \|\| !defined(_MSC_VER) \|\| __INTEL_COMPILER > 700
	boost::mt19937 mt;
	test_uniform_int(mt);

	// bug report from Ken Mahler: This used to lead to an endless loop.
	typedef boost::uniform_int<unsigned int> uint_dist;
	boost::minstd_rand mr;
	boost::variate_generator<boost::minstd_rand, uint_dist> r2(mr,
	uint_dist(0, 0xffffffff));
	r2();
	r2();

	// bug report from Fernando Cacciola: This used to lead to an endless loop.
	// also from Douglas Gregor
	boost::variate_generator<boost::minstd_rand, boost::uniform_int<> > x(mr, boost::uniform_int<>(0, 8361));
	(void) x();

	// bug report from Alan Stokes and others: this throws an assertion
	boost::variate_generator<boost::minstd_rand, boost::uniform_int<> > y(mr, boost::uniform_int<>(1,1));
	std::cout << "uniform_int(1,1) " << y() << ", " << y() << ", " << y()
	<< std::endl;

	test_overflow_range();
	test_random_shuffle();

	return 0;
	#else
	std::cout << "Intel 7.00 on Win32 loops, so the test is disabled\n";
	return 1;
	#endif
	}