trunk/test/numerics/rand/rand.dis/rand.dist.samp/rand.dist.samp.discrete/param_ctor_iterator.pass.cpp - libcxx - Git at Google

 //===----------------------------------------------------------------------===//
 //
 //                     The LLVM Compiler Infrastructure
 //
 // This file is dual licensed under the MIT and the University of Illinois Open
 // Source Licenses. See LICENSE.TXT for details.
 //
 //===----------------------------------------------------------------------===//

 // <random>

 // template<class IntType = int>
 // class discrete_distribution

 // template<class InputIterator>
 //     param_type(InputIterator firstW, InputIterator lastW);

 #include <random>
 #include <cassert>

 int main()
 {
     {
         typedef std::discrete_distribution<> D;
         typedef D::param_type P;
         double p0[] = {1};
         P pa(p0, p0);
         std::vector<double> p = pa.probabilities();
         assert(p.size() == 1);
         assert(p[0] == 1);
     }
     {
         typedef std::discrete_distribution<> D;
         typedef D::param_type P;
         double p0[] = {10};
         P pa(p0, p0+1);
         std::vector<double> p = pa.probabilities();
         assert(p.size() == 1);
         assert(p[0] == 1);
     }
     {
         typedef std::discrete_distribution<> D;
         typedef D::param_type P;
         double p0[] = {10, 30};
         P pa(p0, p0+2);
         std::vector<double> p = pa.probabilities();
         assert(p.size() == 2);
         assert(p[0] == 0.25);
         assert(p[1] == 0.75);
     }
     {
         typedef std::discrete_distribution<> D;
         typedef D::param_type P;
         double p0[] = {30, 10};
         P pa(p0, p0+2);
         std::vector<double> p = pa.probabilities();
         assert(p.size() == 2);
         assert(p[0] == 0.75);
         assert(p[1] == 0.25);
     }
     {
         typedef std::discrete_distribution<> D;
         typedef D::param_type P;
         double p0[] = {30, 0, 10};
         P pa(p0, p0+3);
         std::vector<double> p = pa.probabilities();
         assert(p.size() == 3);
         assert(p[0] == 0.75);
         assert(p[1] == 0);
         assert(p[2] == 0.25);
     }
     {
         typedef std::discrete_distribution<> D;
         typedef D::param_type P;
         double p0[] = {0, 30, 10};
         P pa(p0, p0+3);
         std::vector<double> p = pa.probabilities();
         assert(p.size() == 3);
         assert(p[0] == 0);
         assert(p[1] == 0.75);
         assert(p[2] == 0.25);
     }
     {
         typedef std::discrete_distribution<> D;
         typedef D::param_type P;
         double p0[] = {0, 0, 10};
         P pa(p0, p0+3);
         std::vector<double> p = pa.probabilities();
         assert(p.size() == 3);
         assert(p[0] == 0);
         assert(p[1] == 0);
         assert(p[2] == 1);
     }
 }
	//===----------------------------------------------------------------------===//
	//
	// The LLVM Compiler Infrastructure
	//
	// This file is dual licensed under the MIT and the University of Illinois Open
	// Source Licenses. See LICENSE.TXT for details.
	//
	//===----------------------------------------------------------------------===//

	// <random>

	// template<class IntType = int>
	// class discrete_distribution

	// template<class InputIterator>
	// param_type(InputIterator firstW, InputIterator lastW);

	#include <random>
	#include <cassert>

	int main()
	{
	{
	typedef std::discrete_distribution<> D;
	typedef D::param_type P;
	double p0[] = {1};
	P pa(p0, p0);
	std::vector<double> p = pa.probabilities();
	assert(p.size() == 1);
	assert(p[0] == 1);
	}
	{
	typedef std::discrete_distribution<> D;
	typedef D::param_type P;
	double p0[] = {10};
	P pa(p0, p0+1);
	std::vector<double> p = pa.probabilities();
	assert(p.size() == 1);
	assert(p[0] == 1);
	}
	{
	typedef std::discrete_distribution<> D;
	typedef D::param_type P;
	double p0[] = {10, 30};
	P pa(p0, p0+2);
	std::vector<double> p = pa.probabilities();
	assert(p.size() == 2);
	assert(p[0] == 0.25);
	assert(p[1] == 0.75);
	}
	{
	typedef std::discrete_distribution<> D;
	typedef D::param_type P;
	double p0[] = {30, 10};
	P pa(p0, p0+2);
	std::vector<double> p = pa.probabilities();
	assert(p.size() == 2);
	assert(p[0] == 0.75);
	assert(p[1] == 0.25);
	}
	{
	typedef std::discrete_distribution<> D;
	typedef D::param_type P;
	double p0[] = {30, 0, 10};
	P pa(p0, p0+3);
	std::vector<double> p = pa.probabilities();
	assert(p.size() == 3);
	assert(p[0] == 0.75);
	assert(p[1] == 0);
	assert(p[2] == 0.25);
	}
	{
	typedef std::discrete_distribution<> D;
	typedef D::param_type P;
	double p0[] = {0, 30, 10};
	P pa(p0, p0+3);
	std::vector<double> p = pa.probabilities();
	assert(p.size() == 3);
	assert(p[0] == 0);
	assert(p[1] == 0.75);
	assert(p[2] == 0.25);
	}
	{
	typedef std::discrete_distribution<> D;
	typedef D::param_type P;
	double p0[] = {0, 0, 10};
	P pa(p0, p0+3);
	std::vector<double> p = pa.probabilities();
	assert(p.size() == 3);
	assert(p[0] == 0);
	assert(p[1] == 0);
	assert(p[2] == 1);
	}
	}