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be93c29493
working on more compilers. The biggest change is that the exception tests have been changed to use a very simple exception testing mechanism on top of lightweight_test. This was because Boost.Test exception testing isn't working on several platforms. I'm trying to set this up so that I can use Boost.Test on compilers which it completely supports, and lightweight test on others. Boost.Test tests more than my simple exception testing code ever will so it's worth using where I can. [SVN r42698]
211 lines
6.4 KiB
C++
211 lines
6.4 KiB
C++
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// Copyright 2006-2007 Daniel James.
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// Distributed under the Boost Software License, Version 1.0. (See accompanying
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// file LICENSE_1_0.txt or copy at http://www.boost.org/LICENSE_1_0.txt)
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#include "./containers.hpp"
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#include <string>
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#include "../helpers/random_values.hpp"
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#include "../helpers/invariants.hpp"
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#include "../helpers/strong.hpp"
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#include "../helpers/input_iterator.hpp"
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#include <boost/utility.hpp>
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#include <cmath>
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test::seed_t seed(747373);
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template <class T>
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struct insert_test_base : public test::exception_base
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{
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test::random_values<T> values;
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insert_test_base(unsigned int count = 5) : values(count) {}
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typedef T data_type;
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typedef test::strong<T> strong_type;
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data_type init() const {
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return T();
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}
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void check(T const& x, strong_type const& strong) const {
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std::string scope(test::scope);
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if(scope.find("hash::operator()") == std::string::npos)
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strong.test(x);
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test::check_equivalent_keys(x);
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}
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};
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template <class T>
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struct insert_test1 : public insert_test_base<T>
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{
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typedef BOOST_DEDUCED_TYPENAME insert_test_base<T>::strong_type strong_type;
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void run(T& x, strong_type& strong) const {
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for(BOOST_DEDUCED_TYPENAME test::random_values<T>::const_iterator
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it = this->values.begin(), end = this->values.end(); it != end; ++it)
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{
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strong.store(x);
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x.insert(*it);
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}
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}
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};
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template <class T>
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struct insert_test2 : public insert_test_base<T>
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{
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typedef BOOST_DEDUCED_TYPENAME insert_test_base<T>::strong_type strong_type;
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void run(T& x, strong_type& strong) const {
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for(BOOST_DEDUCED_TYPENAME test::random_values<T>::const_iterator
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it = this->values.begin(), end = this->values.end(); it != end; ++it)
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{
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strong.store(x);
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x.insert(x.begin(), *it);
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}
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}
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};
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template <class T>
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struct insert_test3 : public insert_test_base<T>
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{
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void run(T& x) const {
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x.insert(this->values.begin(), this->values.end());
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}
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void check(T const& x) const {
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test::check_equivalent_keys(x);
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}
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};
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template <class T>
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struct insert_test4 : public insert_test_base<T>
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{
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typedef BOOST_DEDUCED_TYPENAME insert_test_base<T>::strong_type strong_type;
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void run(T& x, strong_type& strong) const {
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for(BOOST_DEDUCED_TYPENAME test::random_values<T>::const_iterator
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it = this->values.begin(), end = this->values.end(); it != end; ++it)
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{
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strong.store(x);
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x.insert(it, boost::next(it));
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}
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}
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};
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template <class T>
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struct insert_test_rehash1 : public insert_test_base<T>
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{
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typedef BOOST_DEDUCED_TYPENAME insert_test_base<T>::strong_type strong_type;
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insert_test_rehash1() : insert_test_base<T>(1000) {}
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T init() const {
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using namespace std;
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typedef BOOST_DEDUCED_TYPENAME T::size_type size_type;
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T x;
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x.max_load_factor(0.25);
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size_type bucket_count = x.bucket_count();
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size_type initial_elements = static_cast<size_type>(
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ceil(bucket_count * (double) x.max_load_factor()) - 1);
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UNORDERED_REQUIRE(initial_elements < this->values.size());
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x.insert(this->values.begin(),
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boost::next(this->values.begin(), initial_elements));
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UNORDERED_REQUIRE(bucket_count == x.bucket_count());
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return x;
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}
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void run(T& x, strong_type& strong) const {
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BOOST_DEDUCED_TYPENAME T::size_type bucket_count = x.bucket_count();
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int count = 0;
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BOOST_DEDUCED_TYPENAME T::const_iterator pos = x.cbegin();
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for(BOOST_DEDUCED_TYPENAME test::random_values<T>::const_iterator
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it = boost::next(this->values.begin(), x.size()), end = this->values.end();
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it != end && count < 10; ++it, ++count)
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{
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strong.store(x);
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pos = x.insert(pos, *it);
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}
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// This isn't actually a failure, but it means the test isn't doing its
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// job.
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UNORDERED_REQUIRE(x.bucket_count() != bucket_count);
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}
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};
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template <class T>
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struct insert_test_rehash2 : public insert_test_rehash1<T>
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{
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typedef BOOST_DEDUCED_TYPENAME insert_test_base<T>::strong_type strong_type;
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void run(T& x, strong_type& strong) const {
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BOOST_DEDUCED_TYPENAME T::size_type bucket_count = x.bucket_count();
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int count = 0;
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for(BOOST_DEDUCED_TYPENAME test::random_values<T>::const_iterator
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it = boost::next(this->values.begin(), x.size()), end = this->values.end();
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it != end && count < 10; ++it, ++count)
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{
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strong.store(x);
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x.insert(*it);
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}
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// This isn't actually a failure, but it means the test isn't doing its
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// job.
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UNORDERED_REQUIRE(x.bucket_count() != bucket_count);
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}
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};
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template <class T>
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struct insert_test_rehash3 : public insert_test_base<T>
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{
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BOOST_DEDUCED_TYPENAME T::size_type mutable rehash_bucket_count, original_bucket_count;
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insert_test_rehash3() : insert_test_base<T>(1000) {}
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T init() const {
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using namespace std;
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typedef BOOST_DEDUCED_TYPENAME T::size_type size_type;
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T x;
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x.max_load_factor(0.25);
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original_bucket_count = x.bucket_count();
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rehash_bucket_count = static_cast<size_type>(
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ceil(original_bucket_count * (double) x.max_load_factor())) - 1;
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size_type initial_elements = rehash_bucket_count - 5;
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UNORDERED_REQUIRE(initial_elements < this->values.size());
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x.insert(this->values.begin(),
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boost::next(this->values.begin(), initial_elements));
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UNORDERED_REQUIRE(original_bucket_count == x.bucket_count());
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return x;
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}
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void run(T& x) const {
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BOOST_DEDUCED_TYPENAME T::size_type bucket_count = x.bucket_count();
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x.insert(boost::next(this->values.begin(), x.size()),
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boost::next(this->values.begin(), x.size() + 20));
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// This isn't actually a failure, but it means the test isn't doing its
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// job.
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UNORDERED_REQUIRE(x.bucket_count() != bucket_count);
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}
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void check(T const& x) const {
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if(x.size() < rehash_bucket_count) {
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//BOOST_CHECK(x.bucket_count() == original_bucket_count);
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}
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test::check_equivalent_keys(x);
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}
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};
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RUN_EXCEPTION_TESTS(
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(insert_test1)(insert_test2)(insert_test3)(insert_test4)
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(insert_test_rehash1)(insert_test_rehash2)(insert_test_rehash3),
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CONTAINER_SEQ)
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