Loki/test/flex_string/main.cpp

1729 lines
51 KiB
C++

////////////////////////////////////////////////////////////////////////////////
// flex_string
// Copyright (c) 2001 by Andrei Alexandrescu
// Permission to use, copy, modify, distribute and sell this software for any
// purpose is hereby granted without fee, provided that the above copyright
// notice appear in all copies and that both that copyright notice and this
// permission notice appear in supporting documentation.
// The author makes no representations about the
// suitability of this software for any purpose. It is provided "as is"
// without express or implied warranty.
////////////////////////////////////////////////////////////////////////////////
// $Id$
#ifdef _MSC_VER
#pragma warning (disable : 4786) // Get rid of browser information too long names
#ifdef _DEBUG
#pragma warning (disable : 4786)
#endif
#endif
#include <stdio.h>
#include <list>
#ifndef __MWERKS__
//#define NO_ALLOCATOR_REBIND
//#define NO_ITERATOR_TRAITS
#endif
#include <loki/flex/flex_string.h>
#include <cstdio>
#include <cstring>
#include <ctime>
#include <iostream>
#include <typeinfo>
#include <sstream>
#include <utility>
#include <vector>
namespace StringsToTest
{
typedef flex_string<
char,
std::char_traits<char>,
std::allocator<char>,
SimpleStringStorage<char, std::allocator<char> >
> my_string_SimpleStorage;
typedef flex_string<
char,
std::char_traits<char>,
std::allocator<char>,
AllocatorStringStorage<char, std::allocator<char> >
> my_string_AllocatorStorage;
typedef flex_string<
char,
std::char_traits<char>,
mallocator<char>,
AllocatorStringStorage<char, mallocator<char> >
> my_string_MallocatorStorage;
typedef flex_string<
char,
std::char_traits<char>,
std::allocator<char>,
VectorStringStorage<char, std::allocator<char> >
> my_string_VectorStorage;
typedef flex_string<
char,
std::char_traits<char>,
std::allocator<char>,
SmallStringOpt<SimpleStringStorage<char, std::allocator<char> >, 31>
> my_string_SmallStringSimple;
typedef flex_string<
char,
std::char_traits<char>,
std::allocator<char>,
SmallStringOpt<VectorStringStorage<char, std::allocator<char> >, 23>
> my_string_SmallStringVector;
typedef flex_string<
char,
std::char_traits<char>,
std::allocator<char>,
CowStringOpt<SimpleStringStorage<char, std::allocator<char> > >
> my_string_CowSimple;
typedef flex_string<
char,
std::char_traits<char>,
std::allocator<char>,
CowStringOpt<AllocatorStringStorage<char, std::allocator<char> > >
> my_string_CowAllocator;
}
template<class Integral1, class Integral2>
Integral2 random(Integral1 low, Integral2 up)
{
Integral2 low2(low);
assert(up >= low2);
if (low2 == up) return low;
Integral2 x = Integral2(low2 + (rand() * (up - low2)) / RAND_MAX);
assert(x >= low2 && x <= up);
return x;
}
template<class String>
String RandomString(size_t maxSize)
{
const typename String::size_type size = random(0, maxSize);
String result(size, '\0');
size_t i = 0;
for (; i != result.size(); ++i)
{
result[i] = random('a', 'z');
}
return result;
}
template<class String, class Integral>
String Num2String(Integral value)
{
typedef typename String::value_type CharType;
std::basic_ostringstream<CharType, std::char_traits<CharType>, std::allocator<CharType> > stream;
stream << value;
return stream.str().c_str();
}
template<class String>
std::list<typename String::value_type> RandomList(typename String::size_type maxSize)
{
const typename String::size_type size = random(0, maxSize);
std::list<typename String::value_type> lst(size);
std::list<typename String::value_type>::iterator i = lst.begin();
for (; i != lst.end(); ++i)
{
*i = random('a', 'z');
}
return lst;
}
namespace Tests
{
template<class String>
struct MaxString
{
static const typename String::size_type value = 1050;
};
template<class String>
String default_constructor(String &)
{
// 21.3.1
return String();
}
template<class String>
String copy_constructor(String & test)
{
// 21.3.1
String s(test);
return s;
}
template<class String>
String copy_constructor_with_size_and_range(String & test)
{
// 21.3.1
const typename String::size_type pos = random(0, test.size());
const typename String::size_type length = random(0, test.size() - pos);
String s(test, pos, length);
return s;
}
template<class String>
String constructor_with_cstr_and_size(String & test)
{
// 21.3.1
const typename String::size_type pos = random(0, test.size());
const typename String::size_type n = random(0, test.size() - pos);
String s(test.c_str() + pos, n);
return s;
}
template<class String>
String constructor_with_cstr(String & test)
{
// 21.3.1
const typename String::size_type pos = random(0, test.size());
String s(test.c_str() + pos);
return s;
}
template<class String>
String assignment(String & test)
{
// 21.3.1
const typename String::size_type size = random(0, 1000);
String s(size, '\0');
typename String::size_type i = 0;
for (; i != s.size(); ++i)
{
s[i] = random('a', 'z');
}
test = s;
return test;
}
template<class String>
String assignment_with_cstr(String & test)
{
// 21.3.1
const typename String::size_type size = random(0, 1000);
String s(size, '\0');
typename String::size_type i = 0;
for (; i != s.size(); ++i)
{
s[i] = random('a', 'z');
}
test = s.c_str();
return test;
}
template<class String>
String assignment_aliased(String & test)
{
// 21.3.1
const size_t pos = random(0, test.size());
test = test.c_str() + pos;
return test;
}
template<class String>
String assignment_non_aliased(String & test)
{
// 21.3.1
const size_t pos = random(0, test.size());
test = String(test.c_str() + pos);
return test;
}
template<class String>
String assignment_from_char(String & test)
{
// 21.3.1
test = random('a', 'z');
return test;
}
template<class String>
String iterators_call(String & test)
{
// 21.3.2
String result;
result += Num2String<String>(test.end() - test.begin()) + " -- ";
result += Num2String<String>(test.rend() - test.rbegin()) + " -- ";
return result;
}
template<class String>
String iterators_equality(String & test)
{
// 21.3.2
String result;
result += Num2String<String>(test.size()) + " -- ";
if(0 != test.size())
{
result += Num2String<String>(test.begin() != test.end()) + " -- ";
result += Num2String<String>(test.rbegin() != test.rend()) + " -- ";
}
else
{
result += Num2String<String>(test.begin() == test.end()) + " -- ";
result += Num2String<String>(test.rbegin() == test.rend()) + " -- ";
}
return result;
}
template<class String>
String capacity(String & test)
{
// 21.3.2
String result;
result += Num2String<String>(test.size()) + " -- ";
result += Num2String<String>(test.length()) + " -- ";
test.max_size();
test.capacity();
result += test;
return result;
}
template<class String>
String capacity_values(String & test)
{
// 21.3.2
String result;
result += Num2String<String>(test.size() == test.length()) + " -- ";
result += Num2String<String>(test.capacity() >= test.size()) + " -- ";
result += Num2String<String>(test.max_size() >= test.size()) + " -- ";
result += Num2String<String>(test.max_size() >= test.capacity()) + " -- ";
return result;
}
template<class String>
String resize(String & test)
{
const typename String::size_type newSize = random(0, test.size());
const typename String::value_type value = random('a', 'z');
test.resize(newSize, value);
return test;
}
template<class String>
String resize_with_1_argument(String & test)
{
const typename String::size_type newSize = random(0, test.size());
test.resize(newSize);
return test;
}
template<class String>
String reserve(String & test)
{
const typename String::size_type reserveSize = random(0, 1000);
test.reserve(reserveSize);
return test;
}
template<class String>
String clear(String & test)
{
test.clear();
return test;
}
template<class String>
String empty1(String & test)
{
if (test.empty()) test = "empty";
else test = "not empty";
return test;
}
template<class String>
String empty2(String & test)
{
const char* kEmptyString = "empty";
const char* kNonEmptyString = "not empty";
if (test.empty()) test = String(kEmptyString, kEmptyString + strlen(kEmptyString));
else test = String(kNonEmptyString, kNonEmptyString + strlen(kNonEmptyString));
return test;
}
template<class String>
String element_access(String & test)
{
// 21.3.4
if(!test.empty())
{
const typename String::size_type index1 = random(0, test.size() - 1);
test += test[index1];
const typename String::size_type index2 = random(0, test.size() - 1);
test += test.at(index2);
}
return test;
}
template<class String>
String operator_plus_equal(String & test)
{
String str(RandomString<String>(MaxString<String>::value));
test += str;
return test;
}
template<class String>
String operator_plus_equal_aliasing(String & test)
{
test += test;
return test;
}
template<class String>
String operator_plus_equal_with_cstr(String & test)
{
// 21.3.5
String str(RandomString<String>(MaxString<String>::value));
test += str.c_str();
return test;
}
template<class String>
String operator_plus_equal_no_aliasing(String & test)
{
// 21.3.5
const typename String::size_type offset = random(0, test.size());
test += String(test.c_str() + offset);
return test;
}
template<class String>
String operator_plus_equal_aliasing_cstr(String & test)
{
// 21.3.5
const typename String::size_type offset = random(0, test.size());
test += test.c_str() + offset;
return test;
}
template<class String>
String operator_plus_equal_char(String & test)
{
// 21.3.5
test += random('a', 'z');
return test;
}
template<class String>
String append_string(String & test)
{
// 21.3.5
String str(RandomString<String>(MaxString<String>::value));
test.append(str);
return test;
}
template<class String>
String append_string_start_range(String & test)
{
// 21.3.5
String s(RandomString<String>(MaxString<String>::value));
const typename String::size_type start = random(0, s.size());
const typename String::size_type range = random(0, MaxString<String>::value);
test.append(s, start, range);
return test;
}
template<class String>
String append_cstr_size(String & test)
{
// 21.3.5
String s(RandomString<String>(MaxString<String>::value));
const typename String::size_type size = random(0, s.size());
test.append(s.c_str(), size);
return test;
}
template<class String>
String append_cstr(String & test)
{
// 21.3.5
String str(RandomString<String>(MaxString<String>::value));
test.append(str.c_str());
return test;
}
template<class String>
String append_count_char(String & test)
{
// 21.3.5
const typename String::size_type count = random(0, MaxString<String>::value);
const typename String::value_type value = random('a', 'z');
test.append(count, value);
return test;
}
template<class String>
String append_iterators(String & test)
{
// 21.3.5
std::list<typename String::value_type> lst(RandomList<String>(MaxString<String>::value));
test.append(lst.begin(), lst.end());
return test;
}
template<class String>
String push_back_char(String & test)
{
// 21.3.5
const typename String::value_type value = random('a', 'z');
test.push_back(value);
return test;
}
template<class String>
String assign_string(String & test)
{
// 21.3.5
String str(RandomString<String>(MaxString<String>::value));
test.assign(str);
return test;
}
template<class String>
String assign_string_start_size(String & test)
{
// 21.3.5
String str(RandomString<String>(MaxString<String>::value));
const typename String::size_type start = random(0, str.size());
const typename String::size_type size = random(0, MaxString<String>::value);
test.assign(str, start, size);
return test;
}
template<class String>
String assign_cstr_size(String & test)
{
// 21.3.5
String str(RandomString<String>(MaxString<String>::value));
const typename String::size_type size = random(0, str.size());
test.assign(str.c_str(), size);
return test;
}
template<class String>
String assign_cstr(String & test)
{
// 21.3.5
String str(RandomString<String>(MaxString<String>::value));
test.assign(str.c_str());
return test;
}
template<class String>
String assign_number_char(String & test)
{
// 21.3.5
const typename String::size_type number = random(0, MaxString<String>::value);
const typename String::value_type value = random('a', 'z');
test.assign(number, value);
return test;
}
template<class String>
String assign_iterators(String & test)
{
// 21.3.5
std::list<typename String::value_type> lst(RandomList<String>(MaxString<String>::value));
test.assign(lst.begin(), lst.end());
return test;
}
template<class String>
String insert_position_string(String & test)
{
// 21.3.5
const typename String::size_type position = random(0, test.size());
String str(RandomString<String>(MaxString<String>::value));
test.insert(position, str);
return test;
}
template<class String>
String insert_position_string_start_end(String & test)
{
// 21.3.5
String str(RandomString<String>(MaxString<String>::value));
const typename String::size_type position = random(0, test.size());
const typename String::size_type start = random(0, str.size());
const typename String::size_type end = random(0, MaxString<String>::value);
test.insert(position, str, start, end);
return test;
}
template<class String>
String insert_position_cstr_size(String & test)
{
// 21.3.5
String str(RandomString<String>(MaxString<String>::value));
const typename String::size_type position = random(0, test.size());
const typename String::size_type size = random(0, str.size());
test.insert(position, str.c_str(), size);
return test;
}
template<class String>
String insert_position_cstr(String & test)
{
// 21.3.5
const typename String::size_type position = random(0, test.size());
String str(RandomString<String>(MaxString<String>::value));
test.insert(position, str.c_str());
return test;
}
template<class String>
String insert_position_number_char(String & test)
{
// 21.3.5
const typename String::size_type position = random(0, test.size());
const typename String::size_type number = random(0, MaxString<String>::value);
const typename String::value_type value = random('a', 'z');
test.insert(position, number, value);
return test;
}
template<class String>
String insert_iterator_char(String & test)
{
// 21.3.5
const typename String::size_type offset = random(0, test.size());
const typename String::value_type value = random('a', 'z');
test.insert(test.begin() + offset, value);
return test;
}
template<class String>
String insert_iterator_iterator_range(String & test)
{
// 21.3.5
std::list<typename String::value_type> lst(RandomList<String>(MaxString<String>::value));
const typename String::size_type offset = random(0, test.size());
test.insert(test.begin() + offset, lst.begin(), lst.end());
return test;
}
template<class String>
String erase_position_position(String & test)
{
// 21.3.5
const typename String::size_type start = random(0, test.size());
const typename String::size_type end = random(0, MaxString<String>::value);
test.erase(start, end);
return test;
}
template<class String>
String erase_iterator(String & test)
{
// 21.3.5
if(!test.empty())
{
const typename String::size_type offset = random(0, test.size());
test.erase(test.begin() + offset);
}
return test;
}
template<class String>
String erase_iterator_iterator(String & test)
{
// 21.3.5
const typename String::size_type offset = random(0, test.size());
const typename String::iterator i = test.begin() + offset;
const typename String::size_type endOffset = random(0, test.end() - i);
test.erase(i, i + endOffset);
return test;
}
template<class String>
String replace_start_end_copyself(String & test)
{
// 21.3.5
const typename String::size_type pos = random(0, test.size());
const typename String::size_type end = random(0, test.size() - pos);
test.replace(pos, end, String(test));
return test;
}
template<class String>
String replace_start_end_self(String & test)
{
// 21.3.5
const typename String::size_type pos = random(0, test.size());
const typename String::size_type end = random(0, test.size() - pos);
test.replace(pos, end, test);
return test;
}
template<class String>
String replace_start_end_string(String & test)
{
// 21.3.5
const typename String::size_type pos = random(0, test.size());
const typename String::size_type end = random(0, test.size() - pos);
String str(RandomString<String>(MaxString<String>::value));
test.replace(pos, pos + end, str);
return test;
}
template<class String>
String replace_start_end_selfcopy_start_end(String & test)
{
// 21.3.5
const typename String::size_type pos1 = random(0, test.size());
const typename String::size_type pos2 = random(0, test.size());
const typename String::size_type offset1 = random(0, test.size() - pos1);
const typename String::size_type offset2 = random(0, test.size() - pos2);
test.replace(pos1, pos1 + offset1, String(test), pos2, pos2 + offset2);
return test;
}
template<class String>
String replace_start_end_self_start_end(String & test)
{
// 21.3.5
const typename String::size_type pos1 = random(0, test.size());
const typename String::size_type pos2 = random(0, test.size());
const typename String::size_type offset1 = random(0, test.size() - pos1);
const typename String::size_type offset2 = random(0, test.size() - pos2);
test.replace(pos1, pos1 + offset1, test, pos2, pos2 + offset2);
return test;
}
template<class String>
String replace_start_end_string_start_end(String & test)
{
// 21.3.5
String str(RandomString<String>(MaxString<String>::value));
const typename String::size_type pos1 = random(0, test.size());
const typename String::size_type pos2 = random(0, str.size());
const typename String::size_type offset1 = random(0, test.size() - pos1);
const typename String::size_type offset2 = random(0, str.size() - pos2);
test.replace(pos1, pos1 + offset1, str, pos2, pos2 + offset2);
return test;
}
template<class String>
String replace_start_end_selfcopycstr_size(String & test)
{
// 21.3.5
const typename String::size_type pos = random(0, test.size());
const typename String::size_type pos2 = random(0, test.size() - pos);
test.replace(pos, pos2, String(test).c_str(), test.size());
return test;
}
template<class String>
String replace_start_end_selfcstr_size(String & test)
{
// 21.3.5
const typename String::size_type pos = random(0, test.size());
const typename String::size_type pos2 = random(0, test.size() - pos);
test.replace(pos, pos2, test.c_str(), test.size());
return test;
}
template<class String>
String replace_start_end_stringcstr_size(String & test)
{
// 21.3.5
String str(RandomString<String>(MaxString<String>::value));
const typename String::size_type pos = random(0, test.size());
const typename String::size_type offset = random(0, test.size() - pos);
test.replace(pos, pos + offset, str.c_str(), str.size());
return test;
}
template<class String>
String replace_start_end_stringcstr(String & test)
{
// 21.3.5
String str(RandomString<String>(MaxString<String>::value));
const typename String::size_type pos = random(0, test.size());
const typename String::size_type offset = random(0, test.size() - pos);
test.replace(pos, pos + offset, str.c_str());
return test;
}
template<class String>
String replace_start_end_number_char(String & test)
{
// 21.3.5
const typename String::size_type pos1 = random(0, test.size());
const typename String::size_type pos2 = random(0, test.size() - pos1);
const typename String::size_type number = random(0, MaxString<String>::value);
const typename String::value_type value = random('a', 'z');
test.replace(pos1, pos2, number, value);
return test;
}
template<class String>
String replace_iterator_iterator_selfcopy(String & test)
{
// 21.3.5
const typename String::size_type pos = random(0, test.size());
const typename String::size_type offset = random(0, test.size() - pos);
test.replace(test.begin() + pos, test.begin() + pos + offset, String(test));
return test;
}
template<class String>
String replace_iterator_iterator_self(String & test)
{
// 21.3.5
const typename String::size_type pos = random(0, test.size());
const typename String::size_type offset = random(0, test.size() - pos);
test.replace(test.begin() + pos, test.begin() + pos + offset, test);
return test;
}
template<class String>
String replace_iterator_iterator_selfcopycstr_size(String & test)
{
// 21.3.5
const typename String::size_type pos = random(0, test.size());
const typename String::size_type offset = random(0, test.size() - pos);
const typename String::size_type size = random(0, test.size());
test.replace(test.begin() + pos, test.begin() + pos + offset, String(test).c_str(), test.size() - size);
return test;
}
template<class String>
String replace_iterator_iterator_selfcstr_size(String & test)
{
// 21.3.5
const typename String::size_type pos = random(0, test.size());
const typename String::size_type offset = random(0, test.size() - pos);
const typename String::size_type size = random(0, test.size());
test.replace(test.begin() + pos, test.begin() + pos + offset, test.c_str(), test.size() - size);
return test;
}
template<class String>
String replace_iterator_iterator_stringcstr(String & test)
{
// 21.3.5
const typename String::size_type pos = random(0, test.size());
const typename String::size_type n = random(0, test.size() - pos);
typename String::iterator b = test.begin();
const String str(RandomString<String>(MaxString<String>::value));
const typename String::value_type* s = str.c_str();
test.replace(b + pos, b + pos + n, s);
return test;
}
template<class String>
String replace_iterator_iterator_number_char(String & test)
{
// 21.3.5
const typename String::size_type pos = random(0, test.size());
const typename String::size_type pos2 = random(0, test.size() - pos);
const typename String::size_type number = random(0, MaxString<String>::value);
const typename String::value_type value = random('a', 'z');
test.replace(test.begin() + pos, test.begin() + pos + pos2, number, value);
return test;
}
template<class String>
String copy_pointer_size_position(String & test)
{
// 21.3.5
std::vector<typename String::value_type> vec(random(1, MaxString<String>::value));
const typename String::size_type pos = random(0, test.size());
test.copy(&vec[0], vec.size(), pos);
return test;
}
template<class String>
String member_swap(String & test)
{
// 21.3.5
String s(RandomString<String>(MaxString<String>::value));
s.swap(test);
return test + " -- " + s;
}
template<class String>
String member_swap2(String & test)
{
// 21.3.5
String s(RandomString<String>(MaxString<String>::value));
test.swap(s);
return test + " -- " + s;
}
template<class String>
String member_self_swap(String & test)
{
// 21.3.5
test.swap(test);
return test;
}
template<class String>
String member_selfcopy_swap(String & test)
{
// 21.3.5
String(test).swap(test);
return test;
}
template<class String>
String member_selfcopy_swap2(String & test)
{
// 21.3.5
String s(test);
test.swap(s);
return test + " -- " + s;
}
template<class String>
String swap(String & test)
{
using std::swap;
String s(RandomString<String>(MaxString<String>::value));
swap(test, s);
return test + " -- " + s;
}
template<class String>
String swap2(String & test)
{
using std::swap;
String s(RandomString<String>(MaxString<String>::value));
swap(s, test);
return test + " -- " + s;
}
template<class String>
String swap_self(String & test)
{
using std::swap;
swap(test, test);
return test;
}
template<class String>
String swap_selfcopy(String & test)
{
using std::swap;
String s(test);
swap(test, s);
return test + " -- " + s;
}
template<class String>
String swap_selfcopy2(String & test)
{
using std::swap;
String s(test);
swap(s, test);
return test + " -- " + s;
}
template<class String>
String cstr_data_getallocator(String & test)
{
// 21.3.6
String result;
String str(RandomString<String>(MaxString<String>::value));
result += Num2String<String>(test.c_str() == test.data()) + " -- ";
result += Num2String<String>(test.get_allocator() == str.get_allocator()) + " -- ";
return result;
}
template<class String>
String find_string_index(String & test)
{
// 21.3.6
const typename String::size_type pos1 = random(0, test.size());
const typename String::size_type pos2 = random(0, test.size());
String str = test.substr(pos1, pos2);
const typename String::size_type index = random(0, test.size());
test = Num2String<String>(test.find(str, index));
return test;
}
template<class String>
String find_stringcstr_index_length(String & test)
{
// 21.3.6
const typename String::size_type pos1 = random(0, test.size());
const typename String::size_type pos2 = random(0, test.size());
String str = test.substr(pos1, pos2);
const typename String::size_type index = random(0, test.size());
const typename String::size_type length = random(0, str.size());
test = Num2String<String>(test.find(str.c_str(), index, length));
return test;
}
template<class String>
String find_stringcstr_index(String & test)
{
// 21.3.6
const typename String::size_type pos1 = random(0, test.size());
const typename String::size_type pos2 = random(0, test.size());
String str = test.substr(pos1, pos2);
const typename String::size_type index = random(0, test.size());
test = Num2String<String>(test.find(str.c_str(), index));
return test;
}
template<class String>
String find_char_index(String & test)
{
// 21.3.6
const typename String::value_type value = random('a', 'z');
const typename String::size_type index = random(0, test.size());
test = Num2String<String>(test.find(value, index));
return test;
}
template<class String>
String find_overflow(String & test)
{
// This tests bug 2536490.
test = String();
String result;
// Validate that find with a single character doesn't overflow.
result += Num2String<String>(test.find('6'));
result += " -- ";
test = "12345";
result += Num2String<String>(test.find('6'));
result += " -- ";
test = "123456";
result += Num2String<String>(test.find('6'));
result += " -- ";
test = "12345";
result += Num2String<String>(test.find('6'));
result += " -- ";
// Validate that find with multiple characters doesn't overflow.
test = "12345";
result += Num2String<String>(test.find("123"));
result += " -- ";
test = "12345";
result += Num2String<String>(test.find("12345"));
result += " -- ";
test = "12345";
result += Num2String<String>(test.find("345"));
result += " -- ";
test = "123456";
result += Num2String<String>(test.find("456"));
result += " -- ";
test = "12345";
result += Num2String<String>(test.find("456"));
result += " -- ";
return result;
}
template<class String>
String rfind_overflow(String & test)
{
test = String();
String result;
// Validate that rfind with a single character doesn't overflow.
result += Num2String<String>(test.rfind('6'));
result += " -- ";
test = "12345";
result += Num2String<String>(test.rfind('6'));
result += " -- ";
test = "123456";
result += Num2String<String>(test.rfind('6'));
result += " -- ";
test = "12345";
result += Num2String<String>(test.rfind('6'));
result += " -- ";
// Validate that rfind with multiple characters doesn't overflow.
test = "12345";
result += Num2String<String>(test.rfind("123"));
result += " -- ";
test = "12345";
result += Num2String<String>(test.rfind("12345"));
result += " -- ";
test = "12345";
result += Num2String<String>(test.rfind("345"));
result += " -- ";
test = "123456";
result += Num2String<String>(test.rfind("456"));
result += " -- ";
test = "12345";
result += Num2String<String>(test.rfind("456"));
result += " -- ";
return result;
}
template<class String>
String rfind_string_index(String & test)
{
// 21.3.6
const typename String::size_type pos1 = random(0, test.size());
const typename String::size_type pos2 = random(0, test.size());
String str = test.substr(pos1, pos2);
const typename String::size_type index = random(0, test.size());
test = Num2String<String>(test.rfind(str, index));
return test;
}
template<class String>
String rfind_stringcstr_index_length(String & test)
{
// 21.3.6
const typename String::size_type pos1 = random(0, test.size());
const typename String::size_type pos2 = random(0, test.size());
String str = test.substr(pos1, pos2);
const typename String::size_type index = random(0, test.size());
const typename String::size_type length = random(0, str.size());
test = Num2String<String>(test.rfind(str.c_str(), index, length));
return test;
}
template<class String>
String rfind_stringcstr_index(String & test)
{
// 21.3.6
const typename String::size_type pos1 = random(0, test.size());
const typename String::size_type pos2 = random(0, test.size());
String str = test.substr(pos1, pos2);
const typename String::size_type index = random(0, test.size());
test = Num2String<String>(test.rfind(str.c_str(), index));
return test;
}
template<class String>
String rfind_char_index(String & test)
{
// 21.3.6
const typename String::value_type value = random('a', 'z');
const typename String::size_type index = random(0, test.size());
test = Num2String<String>(test.rfind(value, index));
return test;
}
template<class String>
String find_first_of_string_index(String & test)
{
// 21.3.6
String str(RandomString<String>(MaxString<String>::value));
const typename String::size_type index = random(0, test.size());
test = Num2String<String>(test.find_first_of(str, index));
return test;
}
template<class String>
String find_first_of_stringcstr_index_length(String & test)
{
// 21.3.6
String str(RandomString<String>(MaxString<String>::value));
const typename String::size_type index = random(0, test.size());
const typename String::size_type length = random(0, str.size());
test = Num2String<String>(test.find_first_of(str.c_str(), index, length));
return test;
}
template<class String>
String find_first_of_stringcstr_index(String & test)
{
// 21.3.6
String str(RandomString<String>(MaxString<String>::value));
const typename String::size_type index = random(0, test.size());
test = Num2String<String>(test.find_first_of(str.c_str(), index));
return test;
}
template<class String>
String find_first_of_char_index(String & test)
{
// 21.3.6
const typename String::value_type value = random('a', 'z');
const typename String::size_type index = random(0, test.size());
test = Num2String<String>(test.find_first_of(value, index));
return test;
}
template<class String>
String find_last_of_string_index(String & test)
{
// 21.3.6
String str(RandomString<String>(MaxString<String>::value));
const typename String::size_type index = random(0, test.size());
test = Num2String<String>(test.find_last_of(str, index));
return test;
}
template<class String>
String find_last_of_stringcstr_index_length(String & test)
{
// 21.3.6
String str(RandomString<String>(MaxString<String>::value));
const typename String::size_type index = random(0, test.size());
const typename String::size_type length = random(0, str.size());
test = Num2String<String>(test.find_last_of(str.c_str(), index, length));
return test;
}
template<class String>
String find_last_of_stringcstr_index(String & test)
{
// 21.3.6
String str(RandomString<String>(MaxString<String>::value));
const typename String::size_type index = random(0, test.size());
test = Num2String<String>(test.find_last_of(str.c_str(), index));
return test;
}
template<class String>
String find_last_of_char_index(String & test)
{
// 21.3.6
const typename String::value_type value = random('a', 'z');
const typename String::size_type index = random(0, test.size());
test = Num2String<String>(test.find_last_of(value, index));
return test;
}
template<class String>
String find_first_not_of_string_index(String & test)
{
// 21.3.6
String str(RandomString<String>(MaxString<String>::value));
const typename String::size_type index = random(0, test.size());
test = Num2String<String>(test.find_first_not_of(str, index));
return test;
}
template<class String>
String find_first_not_of_stringcstr_index_length(String & test)
{
// 21.3.6
String str(RandomString<String>(MaxString<String>::value));
const typename String::size_type index = random(0, test.size());
const typename String::size_type length = random(0, str.size());
test = Num2String<String>(test.find_first_not_of(str.c_str(), index, length));
return test;
}
template<class String>
String find_first_not_of_stringcstr_index(String & test)
{
// 21.3.6
String str(RandomString<String>(MaxString<String>::value));
const typename String::size_type index = random(0, test.size());
test = Num2String<String>(test.find_first_not_of(str.c_str(), index));
return test;
}
template<class String>
String find_first_not_of_char_index(String & test)
{
// 21.3.6
const typename String::value_type value = random('a', 'z');
const typename String::size_type index = random(0, test.size());
test = Num2String<String>(test.find_first_not_of(value, index));
return test;
}
template<class String>
String find_last_not_of_string_index(String & test)
{
// 21.3.6
String str(RandomString<String>(MaxString<String>::value));
const typename String::size_type index = random(0, test.size());
test = Num2String<String>(test.find_last_not_of(str, index));
return test;
}
template<class String>
String find_last_not_of_stringcstr_index_length(String & test)
{
// 21.3.6
String str(RandomString<String>(MaxString<String>::value));
const typename String::size_type index = random(0, test.size());
const typename String::size_type length = random(0, str.size());
test = Num2String<String>(test.find_last_not_of(str.c_str(), index, length));
return test;
}
template<class String>
String find_last_not_of_stringcstr_index(String & test)
{
// 21.3.6
String str(RandomString<String>(MaxString<String>::value));
const typename String::size_type index = random(0, test.size());
test = Num2String<String>(test.find_last_not_of(str.c_str(), index));
return test;
}
template<class String>
String find_last_not_of_char_index(String & test)
{
// 21.3.6
const typename String::value_type value = random('a', 'z');
const typename String::size_type index = random(0, test.size());
test = Num2String<String>(test.find_last_not_of(value, index));
return test;
}
template<class String>
String substr_index_length(String & test)
{
// 21.3.6
const typename String::size_type pos1 = random(0, test.size());
const typename String::size_type pos2 = random(0, test.size());
test = test.substr(pos1, pos2);
return test;
}
template<class String>
String compare_selfcopy(String & test)
{
int tristate = test.compare(String(test));
if (tristate > 0) tristate = 1;
else if (tristate < 0) tristate = 2;
test = Num2String<String>(tristate);
return test;
}
template<class String>
String compare_string(String & test)
{
String str(RandomString<String>(MaxString<String>::value));
int tristate = test.compare(str);
if (tristate > 0) tristate = 1;
else if (tristate < 0) tristate = 2;
test = Num2String<String>(tristate);
return test;
}
template<class String>
String compare_index_length_selfcopy(String & test)
{
const typename String::size_type index = random(0, test.size());
const typename String::size_type length = random(0, test.size());
int tristate = test.compare(index, length, String(test));
if (tristate > 0) tristate = 1;
else if (tristate < 0) tristate = 2;
test = Num2String<String>(tristate);
return test;
}
template<class String>
String compare_index_length_string(String & test)
{
const typename String::size_type index = random(0, test.size());
const typename String::size_type length = random(0, test.size());
String str(RandomString<String>(MaxString<String>::value));
int tristate = test.compare(index, length, str);
if (tristate > 0) tristate = 1;
else if (tristate < 0) tristate = 2;
test = Num2String<String>(tristate);
return test;
}
template<class String>
String compare_index_length_selfcopy_index_length(String & test)
{
String str = test;
const typename String::size_type index = random(0, test.size());
const typename String::size_type length = random(0, test.size());
const typename String::size_type index2 = random(0, str.size());
const typename String::size_type length2 = random(0, str.size());
int tristate = test.compare(index, length, str, index2, length2);
if (tristate > 0) tristate = 1;
else if (tristate < 0) tristate = 2;
test = Num2String<String>(tristate);
return test;
}
template<class String>
String compare_index_length_string_index_length(String & test)
{
String str(RandomString<String>(MaxString<String>::value));
const typename String::size_type index = random(0, test.size());
const typename String::size_type length = random(0, test.size());
const typename String::size_type index2 = random(0, str.size());
const typename String::size_type length2 = random(0, str.size());
int tristate = test.compare(index, length, str, index2, length2);
if (tristate > 0) tristate = 1;
else if (tristate < 0) tristate = 2;
test = Num2String<String>(tristate);
return test;
}
template<class String>
String compare_stringcstr(String & test)
{
String str(RandomString<String>(MaxString<String>::value));
int tristate = test.compare(str.c_str());
if (tristate > 0) tristate = 1;
else if (tristate < 0) tristate = 2;
test = Num2String<String>(tristate);
return test;
}
template<class String>
String compare_index_length_stringcstr_length(String & test)
{
String str(RandomString<String>(MaxString<String>::value));
const typename String::size_type index = random(0, test.size());
const typename String::size_type length = random(0, test.size());
const typename String::size_type index2 = random(0, str.size());
int tristate = test.compare(index, length, str.c_str(), index2);
if (tristate > 0) tristate = 1;
else if (tristate < 0) tristate = 2;
test = Num2String<String>(tristate);
return test;
}
template<class String>
String operator_plus(String & test)
{
String random1(RandomString<String>(MaxString<String>::value));
String random2(RandomString<String>(MaxString<String>::value));
test = random1 + random2;
return test;
}
template<class String>
String operator_plus_lhs_cstr(String & test)
{
String random1(RandomString<String>(MaxString<String>::value));
String random2(RandomString<String>(MaxString<String>::value));
test = random1.c_str() + random2;
return test;
}
template<class String>
String operator_plus_lhs_char(String & test)
{
const typename String::value_type value = random('a', 'z');
String random1(RandomString<String>(MaxString<String>::value));
test = value + random1;
return test;
}
template<class String>
String operator_plus_rhs_cstr(String & test)
{
String random1(RandomString<String>(MaxString<String>::value));
String random2(RandomString<String>(MaxString<String>::value));
test = random1 + random2.c_str();
return test;
}
template<class String>
String operator_plus_rhs_char(String & test)
{
const typename String::value_type value = random('a', 'z');
String random1(RandomString<String>(MaxString<String>::value));
test = random1 + value;
return test;
}
}
template<class String>
class TestFunctions
{
public:
typedef String (*TestFunction)(String &);
TestFunctions()
{
using namespace Tests;
#define ADD_TEST(test) (testFunctions.push_back(std::make_pair((#test), (test<String>))))
ADD_TEST(default_constructor);
ADD_TEST(copy_constructor);
ADD_TEST(copy_constructor_with_size_and_range);
ADD_TEST(constructor_with_cstr_and_size);
ADD_TEST(constructor_with_cstr);
ADD_TEST(assignment);
ADD_TEST(assignment_with_cstr);
ADD_TEST(assignment_aliased);
ADD_TEST(assignment_non_aliased);
ADD_TEST(assignment_from_char);
ADD_TEST(iterators_call);
ADD_TEST(iterators_equality);
ADD_TEST(capacity);
ADD_TEST(capacity_values);
ADD_TEST(resize);
ADD_TEST(resize_with_1_argument);
ADD_TEST(reserve);
ADD_TEST(clear);
ADD_TEST(empty1);
ADD_TEST(empty2);
ADD_TEST(element_access);
ADD_TEST(operator_plus_equal);
ADD_TEST(operator_plus_equal_aliasing);
ADD_TEST(operator_plus_equal_with_cstr);
ADD_TEST(operator_plus_equal_no_aliasing);
ADD_TEST(operator_plus_equal_aliasing_cstr);
ADD_TEST(operator_plus_equal_char);
ADD_TEST(append_string);
ADD_TEST(append_string_start_range);
ADD_TEST(append_cstr_size);
ADD_TEST(append_cstr);
ADD_TEST(append_count_char);
ADD_TEST(append_iterators);
ADD_TEST(push_back_char);
ADD_TEST(assign_string);
ADD_TEST(assign_string_start_size);
ADD_TEST(assign_cstr_size);
ADD_TEST(assign_cstr);
ADD_TEST(assign_number_char);
ADD_TEST(assign_iterators);
ADD_TEST(insert_position_string);
ADD_TEST(insert_position_string_start_end);
ADD_TEST(insert_position_cstr_size);
ADD_TEST(insert_position_cstr);
ADD_TEST(insert_position_number_char);
ADD_TEST(insert_iterator_char);
ADD_TEST(insert_iterator_iterator_range);
ADD_TEST(erase_position_position);
ADD_TEST(erase_iterator);
ADD_TEST(erase_iterator_iterator);
ADD_TEST(replace_start_end_copyself);
ADD_TEST(replace_start_end_self);
ADD_TEST(replace_start_end_string);
ADD_TEST(replace_start_end_selfcopy_start_end);
ADD_TEST(replace_start_end_self_start_end);
ADD_TEST(replace_start_end_string_start_end);
ADD_TEST(replace_start_end_selfcopycstr_size);
ADD_TEST(replace_start_end_selfcstr_size);
ADD_TEST(replace_start_end_stringcstr_size);
ADD_TEST(replace_start_end_stringcstr);
ADD_TEST(replace_start_end_number_char);
ADD_TEST(replace_iterator_iterator_selfcopy);
ADD_TEST(replace_iterator_iterator_self);
ADD_TEST(replace_iterator_iterator_selfcopycstr_size);
ADD_TEST(replace_iterator_iterator_selfcstr_size);
ADD_TEST(replace_iterator_iterator_stringcstr);
ADD_TEST(replace_iterator_iterator_number_char);
ADD_TEST(copy_pointer_size_position);
ADD_TEST(member_swap);
ADD_TEST(member_swap2);
ADD_TEST(member_self_swap);
ADD_TEST(member_selfcopy_swap);
ADD_TEST(member_selfcopy_swap2);
ADD_TEST(swap);
ADD_TEST(swap2);
ADD_TEST(swap_self);
ADD_TEST(swap_selfcopy);
ADD_TEST(swap_selfcopy2);
ADD_TEST(cstr_data_getallocator);
ADD_TEST(find_string_index);
ADD_TEST(find_stringcstr_index_length);
ADD_TEST(find_stringcstr_index);
ADD_TEST(find_char_index);
ADD_TEST(find_overflow);
ADD_TEST(rfind_overflow);
ADD_TEST(rfind_string_index);
ADD_TEST(rfind_stringcstr_index_length);
ADD_TEST(rfind_stringcstr_index);
ADD_TEST(rfind_char_index);
ADD_TEST(find_first_of_string_index);
ADD_TEST(find_first_of_stringcstr_index_length);
ADD_TEST(find_first_of_stringcstr_index);
ADD_TEST(find_first_of_char_index);
ADD_TEST(find_last_of_string_index);
ADD_TEST(find_last_of_stringcstr_index_length);
ADD_TEST(find_last_of_stringcstr_index);
ADD_TEST(find_last_of_char_index);
ADD_TEST(find_first_not_of_string_index);
ADD_TEST(find_first_not_of_stringcstr_index_length);
ADD_TEST(find_first_not_of_stringcstr_index);
ADD_TEST(find_first_not_of_char_index);
ADD_TEST(find_last_not_of_string_index);
ADD_TEST(find_last_not_of_stringcstr_index_length);
ADD_TEST(find_last_not_of_stringcstr_index);
ADD_TEST(find_last_not_of_char_index);
ADD_TEST(substr_index_length);
ADD_TEST(compare_selfcopy);
ADD_TEST(compare_string);
ADD_TEST(compare_index_length_selfcopy);
ADD_TEST(compare_index_length_string);
ADD_TEST(compare_index_length_selfcopy_index_length);
ADD_TEST(compare_index_length_string_index_length);
ADD_TEST(compare_stringcstr);
ADD_TEST(compare_index_length_stringcstr_length);
ADD_TEST(operator_plus);
ADD_TEST(operator_plus_lhs_cstr);
ADD_TEST(operator_plus_lhs_char);
ADD_TEST(operator_plus_rhs_cstr);
ADD_TEST(operator_plus_rhs_char);
}
~TestFunctions()
{
testFunctions.clear();
}
size_t getNumberInTestRange(size_t number) const
{
return number % testFunctions.size();
}
TestFunction getTest(size_t number) const
{
return testFunctions.at(getNumberInTestRange(number)).second;
}
const char * getTestName(size_t number) const
{
return testFunctions.at(getNumberInTestRange(number)).first;
}
private:
std::vector<std::pair<const char *, TestFunction> > testFunctions;
TestFunctions(const TestFunctions &);
TestFunctions & operator=(const TestFunctions &);
};
template <class String>
String Test(size_t count, const TestFunctions<String> & testFunctions)
{
String test(RandomString<String>(Tests::MaxString<String>::value));
String result(testFunctions.getTest(count)(test));
return result;
}
template<class String>
void checkResults(const std::string & reference, const String & tested,
const TestFunctions<String> & testFunctions,
unsigned int seedForThisIteration, size_t count)
{
if( (tested.size() != reference.size()) ||
(std::string(tested.data(), tested.size()) != reference) )
{
std::cout << "\n\nTest #"
<< testFunctions.getNumberInTestRange(count) << " \""
<< testFunctions.getTestName(count) << "\" failed for string type \""
<< typeid(String).name() << "\":\n"
<< "seed for this iteration = " << seedForThisIteration << "\n"
<< "reference.size() = " << reference.size() << "\n"
<< "tested.size() = " << tested.size() << "\n"
<< "reference data = {" << reference << "}\n"
<< "tested data = {" << tested << "}\n\n";
}
}
void Compare()
{
size_t count = 0;
using namespace StringsToTest;
TestFunctions<std::string> testFunctions_std;
TestFunctions<my_string_SimpleStorage> testFunctions_SimpleStorage;
TestFunctions<my_string_AllocatorStorage> testFunctions_AllocatorStorage;
TestFunctions<my_string_MallocatorStorage> testFunctions_MallocatorStorage;
TestFunctions<my_string_VectorStorage> testFunctions_VectorStorage;
TestFunctions<my_string_SmallStringSimple> testFunctions_SmallStringSimple;
TestFunctions<my_string_SmallStringVector> testFunctions_SmallStringVector;
TestFunctions<my_string_CowSimple> testFunctions_CowSimple;
TestFunctions<my_string_CowAllocator> testFunctions_CowAllocator;
for (;;)
{
std::cout << ++count << '\r';
const unsigned int seedForThisIteration = rand();
srand(seedForThisIteration);
const std::string reference(Test<std::string>(count, testFunctions_std));
{
srand(seedForThisIteration);
const my_string_SimpleStorage tested(Test<my_string_SimpleStorage>(count, testFunctions_SimpleStorage));
checkResults(reference, tested, testFunctions_SimpleStorage, seedForThisIteration, count);
}
{
srand(seedForThisIteration);
const my_string_AllocatorStorage tested(Test<my_string_AllocatorStorage>(count, testFunctions_AllocatorStorage));
checkResults(reference, tested, testFunctions_AllocatorStorage, seedForThisIteration, count);
}
{
srand(seedForThisIteration);
const my_string_MallocatorStorage tested(Test<my_string_MallocatorStorage>(count, testFunctions_MallocatorStorage));
checkResults(reference, tested, testFunctions_MallocatorStorage, seedForThisIteration, count);
}
{
srand(seedForThisIteration);
const my_string_VectorStorage tested = Test<my_string_VectorStorage>(count, testFunctions_VectorStorage);
checkResults(reference, tested, testFunctions_VectorStorage, seedForThisIteration, count);
}
{
srand(seedForThisIteration);
const my_string_SmallStringSimple tested(Test<my_string_SmallStringSimple>(count, testFunctions_SmallStringSimple));
checkResults(reference, tested, testFunctions_SmallStringSimple, seedForThisIteration, count);
}
{
srand(seedForThisIteration);
const my_string_SmallStringVector tested(Test<my_string_SmallStringVector>(count, testFunctions_SmallStringVector));
checkResults(reference, tested, testFunctions_SmallStringVector, seedForThisIteration, count);
}
{
srand(seedForThisIteration);
const my_string_CowSimple tested(Test<my_string_CowSimple>(count, testFunctions_CowSimple));
checkResults(reference, tested, testFunctions_CowSimple, seedForThisIteration, count);
}
{
srand(seedForThisIteration);
const my_string_CowAllocator tested(Test<my_string_CowAllocator>(count, testFunctions_CowAllocator));
checkResults(reference, tested, testFunctions_CowAllocator, seedForThisIteration, count);
}
}
}
int main()
{
const time_t initialSeed(1236182091 /*time(0)*/);
srand(unsigned(initialSeed));
std::cout << "initial seed = " << initialSeed << "\n\n";
Compare();
return 0;
}