Loki/test/flex_string/main.cpp
jfbastien 0e615e0932 Refactor.
git-svn-id: svn://svn.code.sf.net/p/loki-lib/code/trunk@991 7ec92016-0320-0410-acc4-a06ded1c099a
2009-03-02 19:43:49 +00:00

1084 lines
32 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 <iostream>
#include <cstdio>
#include <cstring>
#include <ctime>
using namespace std;
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(const String* /* model */, unsigned int maxSize)
{
String result(random(0, maxSize), '\0');
size_t i = 0;
for (; i != result.size(); ++i)
{
result[i] = random('a', 'z');
}
return result;
}
template <class String, class Integral>
void Num2String(String& str, Integral )
{
str.resize(10, '\0');
// ultoa((unsigned long)n, &str[0], 10);
sprintf(&str[0], "%ul", 10);
str.resize(strlen(str.c_str()));
}
std::list<char> RandomList(unsigned int maxSize)
{
std::list<char> lst(random(0u, maxSize));
std::list<char>::iterator i = lst.begin();
for (; i != lst.end(); ++i)
{
*i = random('a', 'z');
}
return lst;
}
int currentTest = 0;
template <class String>
String Test(bool avoidAliasing)
{
typedef typename String::size_type size_type;
const size_type maxString = 1000;
String test;
test = RandomString(&test, maxString);
static unsigned int functionSelector = 0;
++functionSelector;
currentTest = functionSelector % 95;
//std::cout << currentTest <<"\n";
switch (currentTest)
{
case 0:
// test default constructor 21.3.1
return String();
break;
case 1:
// test copy constructor 21.3.1
{
const size_type pos = random(0, test.size());
String s(test, pos, random(0, static_cast<typename String::size_type>(test.size() - pos)));
test = s;
}
break;
case 2:
// test constructor 21.3.1
{
const size_type
pos = random(0, test.size()),
n = random(0, test.size() - pos);
String s(test.c_str() + pos, n);
test = s;
}
break;
case 3:
// test constructor 21.3.1
{
const size_type pos = random(0, test.size());
String s(test.c_str() + pos);
test = s;
}
break;
case 4:
// test assignment 21.3.1
{
String s(random(0, 1000), '\0');
size_type i = 0;
for (; i != s.size(); ++i)
{
s[i] = random('a', 'z');
}
test = s;
}
break;
case 5:
// test assignment 21.3.1
{
String s(random(0, 1000), '\0');
size_type i = 0;
for (; i != s.size(); ++i)
{
s[i] = random('a', 'z');
}
test = s.c_str();
}
break;
case 6:
// test aliased assignment 21.3.1
{
const size_t pos = random(0, test.size());
if (avoidAliasing)
{
test = String(test.c_str() + pos);
}
else
{
test = test.c_str() + pos;
}
}
break;
case 7:
// test assignment 21.3.1
test = random('a', 'z');
break;
case 8:
// exercise iterators 21.3.2
test.begin();
test.end();
test.rbegin();
test.rend();
break;
case 9:
// exercise capacity 21.3.3
test.size();
test.length();
test.max_size();
test.capacity();
break;
case 10:
// test resize
test.resize(random(0, test.size()), random('a', 'z'));
break;
case 11:
// test resize with 1 arg
test.resize(random(0, test.size()));
break;
case 12:
// test reserve
test.reserve(random(0, 1000));
break;
case 13:
// test clear
test.clear(); // skip because std::string doesn't support it
break;
case 14:
// exercise empty
{
const char* kEmptyString = "empty";
const char* kNonEmptyString = "not empty";
if (test.empty()) test = "empty";
else test = "not empty";
// the above assignments don't work yet; use iterator assign
if (test.empty()) test = String(kEmptyString, kEmptyString + strlen(kEmptyString));
else test = String(kNonEmptyString, kNonEmptyString + strlen(kNonEmptyString));
}
break;
case 15:
// exercise element access 21.3.4
if(!test.empty())
{
test[random(0, test.size() - 1)];
test.at(random(0, test.size() - 1));
}
break;
case 16:
// 21.3.5 modifiers
test += RandomString(&test, maxString);
break;
case 17:
// aliasing modifiers
test += test;
break;
case 18:
// 21.3.5 modifiers
test += RandomString(&test, maxString).c_str();
break;
case 19:
// aliasing modifiers
if (avoidAliasing)
{
test += String(test.c_str() + random(0, test.size()));
}
else
{
test += test.c_str() + random(0, test.size());
}
break;
case 20:
// 21.3.5 modifiers
test += random('a', 'z');
break;
case 21:
// 21.3.5 modifiers
test.append(RandomString(&test, maxString));
break;
case 22:
// 21.3.5 modifiers
{
String s(RandomString(&test, maxString));
test.append(s, random(0, s.size()), random(0, maxString));
}
break;
case 23:
// 21.3.5 modifiers
{
String s = RandomString(&test, maxString);
test.append(s.c_str(), random(0, s.size()));
}
break;
case 24:
// 21.3.5 modifiers
test.append(RandomString(&test, maxString).c_str());
break;
case 25:
// 21.3.5 modifiers
test.append(random(0, maxString), random('a', 'z'));
break;
case 26:
{
std::list<char> lst(RandomList(maxString));
test.append(lst.begin(), lst.end());
}
break;
case 27:
// 21.3.5 modifiers
// skip push_back, Dinkumware doesn't support it
test.push_back(random('a', 'z'));
break;
case 28:
// 21.3.5 modifiers
test.assign(RandomString(&test, maxString));
break;
case 29:
// 21.3.5 modifiers
{
String str = RandomString(&test, maxString);
test.assign(str, random(0, str.size()), random(0, maxString));
}
break;
case 30:
// 21.3.5 modifiers
{
String str = RandomString(&test, maxString);
test.assign(str.c_str(), random(0, str.size()));
}
break;
case 31:
// 21.3.5 modifiers
test.assign(RandomString(&test, maxString).c_str());
break;
case 32:
// 21.3.5 modifiers
test.assign(random(0, maxString), random('a', 'z'));
break;
case 33:
// 21.3.5 modifiers
{
// skip, Dinkumware doesn't support it
std::list<char> lst(RandomList(maxString));
test.assign(lst.begin(), lst.end());
}
break;
case 34:
// 21.3.5 modifiers
test.insert(random(0, test.size()), RandomString(&test, maxString));
break;
case 35:
// 21.3.5 modifiers
{
String str = RandomString(&test, maxString);
test.insert(random(0, test.size()),
str, random(0, str.size()),
random(0, maxString));
}
break;
case 36:
// 21.3.5 modifiers
{
String str = RandomString(&test, maxString);
test.insert(random(0, test.size()),
str.c_str(), random(0, str.size()));
}
break;
case 37:
// 21.3.5 modifiers
test.insert(random(0, test.size()),
RandomString(&test, maxString).c_str());
break;
case 38:
// 21.3.5 modifiers
test.insert(random(0, test.size()),
random(0, maxString), random('a', 'z'));
break;
case 39:
// 21.3.5 modifiers
test.insert(test.begin() + random(0, test.size()),
random('a', 'z'));
break;
case 40:
// 21.3.5 modifiers
{
std::list<char> lst(RandomList(maxString));
test.insert(test.begin() + random(0, test.size()),
lst.begin(), lst.end());
}
break;
case 41:
// 21.3.5 modifiers
test.erase(random(0, test.size()), random(0, maxString));
break;
case 42:
// 21.3.5 modifiers
if(!test.empty())
test.erase(test.begin() + random(0, test.size()));
break;
case 43:
// 21.3.5 modifiers
{
const typename String::iterator i = test.begin() + random(0, test.size());
test.erase(i, i + random(0, size_t(test.end() - i)));
}
break;
case 44:
// 21.3.5 modifiers
{
const typename String::size_type pos = random(0, test.size());
if (avoidAliasing)
{
test.replace(pos, random(0, test.size() - pos),
String(test));
}
else
{
test.replace(pos, random(0, test.size() - pos), test);
}
}
break;
case 45:
// 21.3.5 modifiers
{
const typename String::size_type pos = random(0, test.size());
test.replace(pos, pos + random(0, test.size() - pos),
RandomString(&test, maxString));
}
break;
case 46:
// 21.3.5 modifiers
{
const size_type
pos1 = random(0, test.size()),
pos2 = random(0, test.size());
if (avoidAliasing)
{
test.replace(pos1, pos1 + random(0, test.size() - pos1),
String(test),
pos2, pos2 + random(0, test.size() - pos2));
}
else
{
test.replace(pos1, pos1 + random(0, test.size() - pos1),
test, pos2, pos2 + random(0, test.size() - pos2));
}
}
break;
case 47:
// 21.3.5 modifiers
{
const size_type pos1 = random(0, test.size());
String str = RandomString(&test, maxString);
const size_type pos2 = random(0, str.size());
test.replace(pos1, pos1 + random(0, test.size() - pos1),
str, pos2, pos2 + random(0, str.size() - pos2));
}
break;
case 48:
// 21.3.5 modifiers
{
const size_type pos = random(0, test.size());
if (avoidAliasing)
{
test.replace(pos, random(0, test.size() - pos),
String(test).c_str(), test.size());
}
else
{
test.replace(pos, random(0, test.size() - pos),
test.c_str(), test.size());
}
}
break;
case 49:
// 21.3.5 modifiers
{
const size_type pos = random(0, test.size());
String str = RandomString(&test, maxString);
test.replace(pos, pos + random(0, test.size() - pos),
str.c_str(), str.size());
}
break;
case 50:
// 21.3.5 modifiers
{
const size_type pos = random(0, test.size());
String str = RandomString(&test, maxString);
test.replace(pos, pos + random(0, test.size() - pos),
str.c_str());
}
break;
case 51:
// 21.3.5 modifiers
{
const size_type pos = random(0, test.size());
test.replace(pos, random(0, test.size() - pos),
random(0, maxString), random('a', 'z'));
}
break;
case 52:
// 21.3.5 modifiers
{
const size_type pos = random(0, test.size());
if (avoidAliasing)
{
test.replace(
test.begin() + pos,
test.begin() + pos + random(0, test.size() - pos),
String(test));
}
else
{
test.replace(
test.begin() + pos,
test.begin() + pos + random(0, test.size() - pos),
test);
}
}
break;
case 53:
// 21.3.5 modifiers
{
const size_type pos = random(0, test.size());
if (avoidAliasing)
{
test.replace(
test.begin() + pos,
test.begin() + pos + random(0, test.size() - pos),
String(test).c_str(),
test.size() - random(0, test.size()));
}
else
{
test.replace(
test.begin() + pos,
test.begin() + pos + random(0, test.size() - pos),
test.c_str(),
test.size() - random(0, test.size()));
}
}
break;
case 54:
// 21.3.5 modifiers
{
const size_type
pos = random(0, test.size()),
n = random(0, test.size() - pos);
typename String::iterator b = test.begin();
const String str = RandomString(&test, maxString);
const typename String::value_type* s = str.c_str();
test.replace(
b + pos,
b + pos + n,
s);
}
break;
case 55:
// 21.3.5 modifiers
{
const size_type pos = random(0, test.size());
test.replace(
test.begin() + pos,
test.begin() + pos + random(0, test.size() - pos),
random(0, maxString), random('a', 'z'));
}
break;
case 56:
// 21.3.5 modifiers
{
std::vector<typename String::value_type>
vec(random(0, maxString));
test.copy(
&vec[0],
vec.size(),
random(0, test.size()));
}
break;
case 57:
// 21.3.5 modifiers
RandomString(&test, maxString).swap(test);
break;
case 58:
// 21.3.6 string operations
// exercise c_str() and data()
assert(test.c_str() == test.data());
// exercise get_allocator()
assert(test.get_allocator() ==
RandomString(&test, maxString).get_allocator());
break;
case 59:
// 21.3.6 string operations
{
String str = test.substr(
random(0, test.size()),
random(0, test.size()));
Num2String(test, test.find(str, random(0, test.size())));
}
break;
case 60:
// 21.3.6 string operations
{
String str = test.substr(
random(0, test.size()),
random(0, test.size()));
Num2String(test, test.find(str.c_str(),
random(0, test.size()),
random(0, str.size())));
}
break;
case 61:
// 21.3.6 string operations
{
String str = test.substr(
random(0, test.size()),
random(0, test.size()));
Num2String(test, test.find(str.c_str(),
random(0, test.size())));
}
break;
case 62:
// 21.3.6 string operations
Num2String(test, test.find(
random('a', 'z'),
random(0, test.size())));
break;
case 63:
// 21.3.6 string operations
{
String str = test.substr(
random(0, test.size()),
random(0, test.size()));
Num2String(test, test.rfind(str, random(0, test.size())));
}
break;
case 64:
// 21.3.6 string operations
{
String str = test.substr(
random(0, test.size()),
random(0, test.size()));
Num2String(test, test.rfind(str.c_str(),
random(0, test.size()),
random(0, str.size())));
}
break;
case 65:
// 21.3.6 string operations
{
String str = test.substr(
random(0, test.size()),
random(0, test.size()));
Num2String(test, test.rfind(str.c_str(),
random(0, test.size())));
}
break;
case 66:
// 21.3.6 string operations
Num2String(test, test.rfind(
random('a', 'z'),
random(0, test.size())));
break;
case 67:
// 21.3.6 string operations
{
String str = RandomString(&test, maxString);
Num2String(test, test.find_first_of(str,
random(0, test.size())));
}
break;
case 68:
// 21.3.6 string operations
{
String str = RandomString(&test, maxString);
Num2String(test, test.find_first_of(str.c_str(),
random(0, test.size()),
random(0, str.size())));
}
break;
case 69:
// 21.3.6 string operations
{
String str = RandomString(&test, maxString);
Num2String(test, test.find_first_of(str.c_str(),
random(0, test.size())));
}
break;
case 70:
// 21.3.6 string operations
Num2String(test, test.find_first_of(
random('a', 'z'),
random(0, test.size())));
break;
case 71:
// 21.3.6 string operations
{
String str = RandomString(&test, maxString);
Num2String(test, test.find_last_of(str,
random(0, test.size())));
}
break;
case 72:
// 21.3.6 string operations
{
String str = RandomString(&test, maxString);
Num2String(test, test.find_last_of(str.c_str(),
random(0, test.size()),
random(0, str.size())));
}
break;
case 73:
// 21.3.6 string operations
{
String str = RandomString(&test, maxString);
Num2String(test, test.find_last_of(str.c_str(),
random(0, test.size())));
}
break;
case 74:
// 21.3.6 string operations
Num2String(test, test.find_last_of(
random('a', 'z'),
random(0, test.size())));
break;
case 75:
// 21.3.6 string operations
{
String str = RandomString(&test, maxString);
Num2String(test, test.find_first_not_of(str,
random(0, test.size())));
}
break;
case 76:
// 21.3.6 string operations
{
String str = RandomString(&test, maxString);
Num2String(test, test.find_first_not_of(str.c_str(),
random(0, test.size()),
random(0, str.size())));
}
break;
case 77:
// 21.3.6 string operations
{
String str = RandomString(&test, maxString);
Num2String(test, test.find_first_not_of(str.c_str(),
random(0, test.size())));
}
break;
case 78:
// 21.3.6 string operations
Num2String(test, test.find_first_not_of(
random('a', 'z'),
random(0, test.size())));
break;
case 79:
// 21.3.6 string operations
{
String str = RandomString(&test, maxString);
Num2String(test, test.find_last_not_of(str,
random(0, test.size())));
}
break;
case 80:
// 21.3.6 string operations
{
String str = RandomString(&test, maxString);
Num2String(test, test.find_last_not_of(str.c_str(),
random(0, test.size()),
random(0, str.size())));
}
break;
case 81:
// 21.3.6 string operations
{
String str = RandomString(&test, maxString);
Num2String(test, test.find_last_not_of(str.c_str(),
random(0, test.size())));
}
break;
case 82:
// 21.3.6 string operations
Num2String(test, test.find_last_not_of(
random('a', 'z'),
random(0, test.size())));
break;
case 83:
// 21.3.6 string operations
test = test.substr(random(0, test.size()), random(0, test.size()));
break;
case 84:
{
int tristate = test.compare(RandomString(&test, maxString));
if (tristate > 0) tristate = 1;
else if (tristate < 0) tristate = 2;
Num2String(test, tristate);
}
break;
case 85:
{
int tristate = test.compare(
random(0, test.size()),
random(0, test.size()),
RandomString(&test, maxString));
if (tristate > 0) tristate = 1;
else if (tristate < 0) tristate = 2;
Num2String(test, tristate);
}
break;
case 86:
{
String str = RandomString(&test, maxString);
int tristate = test.compare(
random(0, test.size()),
random(0, test.size()),
str,
random(0, str.size()),
random(0, str.size()));
if (tristate > 0) tristate = 1;
else if (tristate < 0) tristate = 2;
Num2String(test, tristate);
}
break;
case 87:
{
int tristate = test.compare(
RandomString(&test, maxString).c_str());
if (tristate > 0) tristate = 1;
else if (tristate < 0) tristate = 2;
Num2String(test, tristate);
}
break;
case 88:
{
String str = RandomString(&test, maxString);
int tristate = test.compare(
random(0, test.size()),
random(0, test.size()),
str.c_str(),
random(0, str.size()));
if (tristate > 0) tristate = 1;
else if (tristate < 0) tristate = 2;
Num2String(test, tristate);
}
break;
case 89:
test = RandomString(&test, maxString) +
RandomString(&test, maxString);
break;
case 90:
test = RandomString(&test, maxString).c_str() +
RandomString(&test, maxString);
break;
case 91:
test = typename String::value_type(random('a', 'z')) +
RandomString(&test, maxString);
break;
case 92:
test = RandomString(&test, maxString) +
RandomString(&test, maxString).c_str();
break;
case 93:
test = RandomString(&test, maxString) +
RandomString(&test, maxString).c_str();
break;
case 94:
test = RandomString(&test, maxString) +
typename String::value_type(random('a', 'z'));
break;
default:
assert(((functionSelector + 1) % 96) == 0);
break;
}
return test;
}
template<class T>
void checkResults(const std::string& reference, const T& tested)
{
if( (tested.size() != reference.size())||
(std::string(tested.data(), tested.size()) != reference) )
{
std::cout << "\nTest " << currentTest << " failed: \n";
std::cout << "reference.size() = " << reference.size() << "\n";
std::cout << "tested.size() = " << tested.size() << "\n";
std::cout << "reference data = " << reference << "\n";
std::cout << "tested data = " << tested << "\n";
}
//assert(tested.size() == reference.size());
//assert(std::string(tested.data(), tested.size()) == reference);
}
void Compare()
{
unsigned int count = 0;
srand(10);
for (;;)
{
cout << ++count << '\r';
unsigned long t = rand(); //time(0);
srand(t);
const std::string reference = Test<std::string>(true);
using namespace StringsToTest;
{
srand(t);
const my_string_SimpleStorage tested = Test<my_string_SimpleStorage>(false);
checkResults(reference, tested);
}
{
srand(t);
const my_string_AllocatorStorage tested = Test<my_string_AllocatorStorage>(false);
checkResults(reference, tested);
}
{
srand(t);
const my_string_MallocatorStorage tested = Test<my_string_MallocatorStorage>(false);
checkResults(reference, tested);
}
{
srand(t);
const my_string_VectorStorage tested = Test<my_string_VectorStorage>(false);
checkResults(reference, tested);
}
{
srand(t);
const my_string_SmallStringSimple tested(Test<my_string_SmallStringSimple>(false));
checkResults(reference, tested);
}
{
srand(t);
const my_string_SmallStringVector tested(Test<my_string_SmallStringVector>(false));
checkResults(reference, tested);
}
{
srand(t);
const my_string_CowSimple tested(Test<my_string_CowSimple>(false));
checkResults(reference, tested);
}
{
srand(t);
const my_string_CowAllocator tested(Test<my_string_CowAllocator>(false));
checkResults(reference, tested);
}
/*
{ // SimpleStringStorage with UTF16 Encoding
srand(t);
typedef SimpleStringStorage<unicode::UTF16Char>
Storage;
typedef flex_string<
unicode::UTF16Char,
std::char_traits<unicode::UTF16Char>,
std::allocator<unicode::UTF16Char>,
UTF16Encoding<Storage>
> my_string;
const my_string tested(Test<my_string>(false));
assert(tested.size() == reference.size());
//assert(std::string(tested.data(), tested.size()) == reference);
}
*/
}
}
/// This function tests out a bug found by Jean-Francois Bastien in the find function.
template<class StringType>
void TestBug2536490()
{
StringType bug;
assert(StringType::npos == bug.find('6'));
bug = "12345";
assert(StringType::npos == bug.find('6'));
bug = "123456";
assert(5 == bug.find('6'));
bug = "12345";
assert(StringType::npos == bug.find('6'));
bug = "12345";
assert(0 == bug.find("123"));
bug = "12345";
assert(0 == bug.find("12345"));
bug = "12345";
assert(2 == bug.find("345"));
bug = "123456";
assert(3 == bug.find("456"));
bug = "12345";
assert(StringType::npos == bug.find("456"));
}
/*
#include <string>
#include <limits>
#include <cassert>
//#include "flex_string.h"
int main()
{
typedef wchar_t char_type;
typedef std::basic_string<char_type> std_string_t;
typedef flex_string<
char_type,
std::char_traits<char_type>,
std::allocator<char_type>,
SimpleStringStorage<char_type, std::allocator<char_type> > > flex_string_t;
flex_string_t s1(L"A flex string");
std_string_t s2(L"A std string");
assert(std::numeric_limits<char_type>::is_specialized);
assert(std::numeric_limits<std_string_t::iterator::value_type>::is_specialized);
s1.replace<std_string_t::iterator>(s1.begin(), s1.begin(),
s2.begin(),s2.end());
return 0;
}
*/
int main()
{
using namespace StringsToTest;
TestBug2536490<std::string>();
TestBug2536490<my_string_SimpleStorage>();
TestBug2536490<my_string_AllocatorStorage>();
TestBug2536490<my_string_MallocatorStorage>();
TestBug2536490<my_string_VectorStorage>();
TestBug2536490<my_string_SmallStringSimple>();
TestBug2536490<my_string_SmallStringVector>();
TestBug2536490<my_string_CowSimple>();
TestBug2536490<my_string_CowAllocator>();
srand(unsigned(time(0)));
Compare();
return 0;
}