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Revert "Remove the 'basic_string_ref template; use 'basic_string_view' instead. Keep the string_ref, etc typedefs around, though"

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This reverts commit 8ab8e36dcfaa88837e3cf0bccaf01c458d3c1fb2.
This commit is contained in:
Marshall Clow 2016-03-07 08:45:25 -08:00
parent 1dfacff7ec
commit 4313bfc323
7 changed files with 1129 additions and 10 deletions
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516
include/boost/utility/string_ref.hpp
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@ -18,9 +18,519 @@
#include <boost/config.hpp> #include <boost/config.hpp>
#include <boost/detail/workaround.hpp> #include <boost/detail/workaround.hpp>
#include <boost/utility/string_ref_fwd.hpp> #include <boost/utility/string_ref_fwd.hpp>
#include <boost/utility/string_view.hpp> #include <boost/throw_exception.hpp>
// The primary template has been changed to basic_string_view #include <cstddef>
// The convenience typedefs string_ref still exist. #include <stdexcept>
#include <algorithm>
#include <iterator>
#include <string>
#include <iosfwd>
namespace boost {
namespace detail {
// A helper functor because sometimes we don't have lambdas
template <typename charT, typename traits>
class string_ref_traits_eq {
public:
string_ref_traits_eq ( charT ch ) : ch_(ch) {}
bool operator () ( charT val ) const { return traits::eq ( ch_, val ); }
charT ch_;
};
}
template<typename charT, typename traits>
class basic_string_ref {
public:
// types
typedef charT value_type;
typedef const charT* pointer;
typedef const charT& reference;
typedef const charT& const_reference;
typedef pointer const_iterator; // impl-defined
typedef const_iterator iterator;
typedef std::reverse_iterator<const_iterator> const_reverse_iterator;
typedef const_reverse_iterator reverse_iterator;
typedef std::size_t size_type;
typedef std::ptrdiff_t difference_type;
static BOOST_CONSTEXPR_OR_CONST size_type npos = size_type(-1);
// construct/copy
BOOST_CONSTEXPR basic_string_ref ()
: ptr_(NULL), len_(0) {}
BOOST_CONSTEXPR basic_string_ref (const basic_string_ref &rhs)
: ptr_(rhs.ptr_), len_(rhs.len_) {}
basic_string_ref& operator=(const basic_string_ref &rhs) {
ptr_ = rhs.ptr_;
len_ = rhs.len_;
return *this;
}
basic_string_ref(const charT* str)
: ptr_(str), len_(traits::length(str)) {}
template<typename Allocator>
basic_string_ref(const std::basic_string<charT, traits, Allocator>& str)
: ptr_(str.data()), len_(str.length()) {}
BOOST_CONSTEXPR basic_string_ref(const charT* str, size_type len)
: ptr_(str), len_(len) {}
#ifndef BOOST_NO_CXX11_EXPLICIT_CONVERSION_OPERATORS
template<typename Allocator>
explicit operator std::basic_string<charT, traits, Allocator>() const {
return std::basic_string<charT, traits, Allocator> ( begin(), end());
}
#endif
std::basic_string<charT, traits> to_string () const {
return std::basic_string<charT, traits> ( begin(), end());
}
// iterators
BOOST_CONSTEXPR const_iterator begin() const { return ptr_; }
BOOST_CONSTEXPR const_iterator cbegin() const { return ptr_; }
BOOST_CONSTEXPR const_iterator end() const { return ptr_ + len_; }
BOOST_CONSTEXPR const_iterator cend() const { return ptr_ + len_; }
const_reverse_iterator rbegin() const { return const_reverse_iterator (end()); }
const_reverse_iterator crbegin() const { return const_reverse_iterator (end()); }
const_reverse_iterator rend() const { return const_reverse_iterator (begin()); }
const_reverse_iterator crend() const { return const_reverse_iterator (begin()); }
// capacity
BOOST_CONSTEXPR size_type size() const { return len_; }
BOOST_CONSTEXPR size_type length() const { return len_; }
BOOST_CONSTEXPR size_type max_size() const { return len_; }
BOOST_CONSTEXPR bool empty() const { return len_ == 0; }
// element access
BOOST_CONSTEXPR const charT& operator[](size_type pos) const { return ptr_[pos]; }
const charT& at(size_t pos) const {
if ( pos >= len_ )
BOOST_THROW_EXCEPTION( std::out_of_range ( "boost::string_ref::at" ) );
return ptr_[pos];
}
BOOST_CONSTEXPR const charT& front() const { return ptr_[0]; }
BOOST_CONSTEXPR const charT& back() const { return ptr_[len_-1]; }
BOOST_CONSTEXPR const charT* data() const { return ptr_; }
// modifiers
void clear() { len_ = 0; }
void remove_prefix(size_type n) {
if ( n > len_ )
n = len_;
ptr_ += n;
len_ -= n;
}
void remove_suffix(size_type n) {
if ( n > len_ )
n = len_;
len_ -= n;
}
// basic_string_ref string operations
basic_string_ref substr(size_type pos, size_type n=npos) const {
if ( pos > size())
BOOST_THROW_EXCEPTION( std::out_of_range ( "string_ref::substr" ) );
if ( n == npos || pos + n > size())
n = size () - pos;
return basic_string_ref ( data() + pos, n );
}
int compare(basic_string_ref x) const {
const int cmp = traits::compare ( ptr_, x.ptr_, (std::min)(len_, x.len_));
return cmp != 0 ? cmp : ( len_ == x.len_ ? 0 : len_ < x.len_ ? -1 : 1 );
}
bool starts_with(charT c) const { return !empty() && traits::eq ( c, front()); }
bool starts_with(basic_string_ref x) const {
return len_ >= x.len_ && traits::compare ( ptr_, x.ptr_, x.len_ ) == 0;
}
bool ends_with(charT c) const { return !empty() && traits::eq ( c, back()); }
bool ends_with(basic_string_ref x) const {
return len_ >= x.len_ && traits::compare ( ptr_ + len_ - x.len_, x.ptr_, x.len_ ) == 0;
}
size_type find(basic_string_ref s) const {
const_iterator iter = std::search ( this->cbegin (), this->cend (),
s.cbegin (), s.cend (), traits::eq );
return iter == this->cend () ? npos : std::distance ( this->cbegin (), iter );
}
size_type find(charT c) const {
const_iterator iter = std::find_if ( this->cbegin (), this->cend (),
detail::string_ref_traits_eq<charT, traits> ( c ));
return iter == this->cend () ? npos : std::distance ( this->cbegin (), iter );
}
size_type rfind(basic_string_ref s) const {
const_reverse_iterator iter = std::search ( this->crbegin (), this->crend (),
s.crbegin (), s.crend (), traits::eq );
return iter == this->crend () ? npos : reverse_distance ( this->crbegin (), iter );
}
size_type rfind(charT c) const {
const_reverse_iterator iter = std::find_if ( this->crbegin (), this->crend (),
detail::string_ref_traits_eq<charT, traits> ( c ));
return iter == this->crend () ? npos : reverse_distance ( this->crbegin (), iter );
}
size_type find_first_of(charT c) const { return find (c); }
size_type find_last_of (charT c) const { return rfind (c); }
size_type find_first_of(basic_string_ref s) const {
const_iterator iter = std::find_first_of
( this->cbegin (), this->cend (), s.cbegin (), s.cend (), traits::eq );
return iter == this->cend () ? npos : std::distance ( this->cbegin (), iter );
}
size_type find_last_of(basic_string_ref s) const {
const_reverse_iterator iter = std::find_first_of
( this->crbegin (), this->crend (), s.cbegin (), s.cend (), traits::eq );
return iter == this->crend () ? npos : reverse_distance ( this->crbegin (), iter);
}
size_type find_first_not_of(basic_string_ref s) const {
const_iterator iter = find_not_of ( this->cbegin (), this->cend (), s );
return iter == this->cend () ? npos : std::distance ( this->cbegin (), iter );
}
size_type find_first_not_of(charT c) const {
for ( const_iterator iter = this->cbegin (); iter != this->cend (); ++iter )
if ( !traits::eq ( c, *iter ))
return std::distance ( this->cbegin (), iter );
return npos;
}
size_type find_last_not_of(basic_string_ref s) const {
const_reverse_iterator iter = find_not_of ( this->crbegin (), this->crend (), s );
return iter == this->crend () ? npos : reverse_distance ( this->crbegin (), iter );
}
size_type find_last_not_of(charT c) const {
for ( const_reverse_iterator iter = this->crbegin (); iter != this->crend (); ++iter )
if ( !traits::eq ( c, *iter ))
return reverse_distance ( this->crbegin (), iter );
return npos;
}
private:
template <typename r_iter>
size_type reverse_distance ( r_iter first, r_iter last ) const {
return len_ - 1 - std::distance ( first, last );
}
template <typename Iterator>
Iterator find_not_of ( Iterator first, Iterator last, basic_string_ref s ) const {
for ( ; first != last ; ++first )
if ( 0 == traits::find ( s.ptr_, s.len_, *first ))
return first;
return last;
}
const charT *ptr_;
std::size_t len_;
};
// Comparison operators
// Equality
template<typename charT, typename traits>
inline bool operator==(basic_string_ref<charT, traits> x, basic_string_ref<charT, traits> y) {
if ( x.size () != y.size ()) return false;
return x.compare(y) == 0;
}
template<typename charT, typename traits, typename Allocator>
inline bool operator==(basic_string_ref<charT, traits> x, const std::basic_string<charT, traits, Allocator> & y) {
return x == basic_string_ref<charT, traits>(y);
}
template<typename charT, typename traits, typename Allocator>
inline bool operator==(const std::basic_string<charT, traits, Allocator> & x, basic_string_ref<charT, traits> y) {
return basic_string_ref<charT, traits>(x) == y;
}
template<typename charT, typename traits>
inline bool operator==(basic_string_ref<charT, traits> x, const charT * y) {
return x == basic_string_ref<charT, traits>(y);
}
template<typename charT, typename traits>
inline bool operator==(const charT * x, basic_string_ref<charT, traits> y) {
return basic_string_ref<charT, traits>(x) == y;
}
// Inequality
template<typename charT, typename traits>
inline bool operator!=(basic_string_ref<charT, traits> x, basic_string_ref<charT, traits> y) {
if ( x.size () != y.size ()) return true;
return x.compare(y) != 0;
}
template<typename charT, typename traits, typename Allocator>
inline bool operator!=(basic_string_ref<charT, traits> x, const std::basic_string<charT, traits, Allocator> & y) {
return x != basic_string_ref<charT, traits>(y);
}
template<typename charT, typename traits, typename Allocator>
inline bool operator!=(const std::basic_string<charT, traits, Allocator> & x, basic_string_ref<charT, traits> y) {
return basic_string_ref<charT, traits>(x) != y;
}
template<typename charT, typename traits>
inline bool operator!=(basic_string_ref<charT, traits> x, const charT * y) {
return x != basic_string_ref<charT, traits>(y);
}
template<typename charT, typename traits>
inline bool operator!=(const charT * x, basic_string_ref<charT, traits> y) {
return basic_string_ref<charT, traits>(x) != y;
}
// Less than
template<typename charT, typename traits>
inline bool operator<(basic_string_ref<charT, traits> x, basic_string_ref<charT, traits> y) {
return x.compare(y) < 0;
}
template<typename charT, typename traits, typename Allocator>
inline bool operator<(basic_string_ref<charT, traits> x, const std::basic_string<charT, traits, Allocator> & y) {
return x < basic_string_ref<charT, traits>(y);
}
template<typename charT, typename traits, typename Allocator>
inline bool operator<(const std::basic_string<charT, traits, Allocator> & x, basic_string_ref<charT, traits> y) {
return basic_string_ref<charT, traits>(x) < y;
}
template<typename charT, typename traits>
inline bool operator<(basic_string_ref<charT, traits> x, const charT * y) {
return x < basic_string_ref<charT, traits>(y);
}
template<typename charT, typename traits>
inline bool operator<(const charT * x, basic_string_ref<charT, traits> y) {
return basic_string_ref<charT, traits>(x) < y;
}
// Greater than
template<typename charT, typename traits>
inline bool operator>(basic_string_ref<charT, traits> x, basic_string_ref<charT, traits> y) {
return x.compare(y) > 0;
}
template<typename charT, typename traits, typename Allocator>
inline bool operator>(basic_string_ref<charT, traits> x, const std::basic_string<charT, traits, Allocator> & y) {
return x > basic_string_ref<charT, traits>(y);
}
template<typename charT, typename traits, typename Allocator>
inline bool operator>(const std::basic_string<charT, traits, Allocator> & x, basic_string_ref<charT, traits> y) {
return basic_string_ref<charT, traits>(x) > y;
}
template<typename charT, typename traits>
inline bool operator>(basic_string_ref<charT, traits> x, const charT * y) {
return x > basic_string_ref<charT, traits>(y);
}
template<typename charT, typename traits>
inline bool operator>(const charT * x, basic_string_ref<charT, traits> y) {
return basic_string_ref<charT, traits>(x) > y;
}
// Less than or equal to
template<typename charT, typename traits>
inline bool operator<=(basic_string_ref<charT, traits> x, basic_string_ref<charT, traits> y) {
return x.compare(y) <= 0;
}
template<typename charT, typename traits, typename Allocator>
inline bool operator<=(basic_string_ref<charT, traits> x, const std::basic_string<charT, traits, Allocator> & y) {
return x <= basic_string_ref<charT, traits>(y);
}
template<typename charT, typename traits, typename Allocator>
inline bool operator<=(const std::basic_string<charT, traits, Allocator> & x, basic_string_ref<charT, traits> y) {
return basic_string_ref<charT, traits>(x) <= y;
}
template<typename charT, typename traits>
inline bool operator<=(basic_string_ref<charT, traits> x, const charT * y) {
return x <= basic_string_ref<charT, traits>(y);
}
template<typename charT, typename traits>
inline bool operator<=(const charT * x, basic_string_ref<charT, traits> y) {
return basic_string_ref<charT, traits>(x) <= y;
}
// Greater than or equal to
template<typename charT, typename traits>
inline bool operator>=(basic_string_ref<charT, traits> x, basic_string_ref<charT, traits> y) {
return x.compare(y) >= 0;
}
template<typename charT, typename traits, typename Allocator>
inline bool operator>=(basic_string_ref<charT, traits> x, const std::basic_string<charT, traits, Allocator> & y) {
return x >= basic_string_ref<charT, traits>(y);
}
template<typename charT, typename traits, typename Allocator>
inline bool operator>=(const std::basic_string<charT, traits, Allocator> & x, basic_string_ref<charT, traits> y) {
return basic_string_ref<charT, traits>(x) >= y;
}
template<typename charT, typename traits>
inline bool operator>=(basic_string_ref<charT, traits> x, const charT * y) {
return x >= basic_string_ref<charT, traits>(y);
}
template<typename charT, typename traits>
inline bool operator>=(const charT * x, basic_string_ref<charT, traits> y) {
return basic_string_ref<charT, traits>(x) >= y;
}
namespace detail {
template<class charT, class traits>
inline void insert_fill_chars(std::basic_ostream<charT, traits>& os, std::size_t n) {
enum { chunk_size = 8 };
charT fill_chars[chunk_size];
std::fill_n(fill_chars, static_cast< std::size_t >(chunk_size), os.fill());
for (; n >= chunk_size && os.good(); n -= chunk_size)
os.write(fill_chars, static_cast< std::size_t >(chunk_size));
if (n > 0 && os.good())
os.write(fill_chars, n);
}
template<class charT, class traits>
void insert_aligned(std::basic_ostream<charT, traits>& os, const basic_string_ref<charT,traits>& str) {
const std::size_t size = str.size();
const std::size_t alignment_size = static_cast< std::size_t >(os.width()) - size;
const bool align_left = (os.flags() & std::basic_ostream<charT, traits>::adjustfield) == std::basic_ostream<charT, traits>::left;
if (!align_left) {
detail::insert_fill_chars(os, alignment_size);
if (os.good())
os.write(str.data(), size);
}
else {
os.write(str.data(), size);
if (os.good())
detail::insert_fill_chars(os, alignment_size);
}
}
} // namespace detail
// Inserter
template<class charT, class traits>
inline std::basic_ostream<charT, traits>&
operator<<(std::basic_ostream<charT, traits>& os, const basic_string_ref<charT,traits>& str) {
if (os.good()) {
const std::size_t size = str.size();
const std::size_t w = static_cast< std::size_t >(os.width());
if (w <= size)
os.write(str.data(), size);
else
detail::insert_aligned(os, str);
os.width(0);
}
return os;
}
#if 0
// numeric conversions
//
// These are short-term implementations.
// In a production environment, I would rather avoid the copying.
//
inline int stoi (string_ref str, size_t* idx=0, int base=10) {
return std::stoi ( std::string(str), idx, base );
}
inline long stol (string_ref str, size_t* idx=0, int base=10) {
return std::stol ( std::string(str), idx, base );
}
inline unsigned long stoul (string_ref str, size_t* idx=0, int base=10) {
return std::stoul ( std::string(str), idx, base );
}
inline long long stoll (string_ref str, size_t* idx=0, int base=10) {
return std::stoll ( std::string(str), idx, base );
}
inline unsigned long long stoull (string_ref str, size_t* idx=0, int base=10) {
return std::stoull ( std::string(str), idx, base );
}
inline float stof (string_ref str, size_t* idx=0) {
return std::stof ( std::string(str), idx );
}
inline double stod (string_ref str, size_t* idx=0) {
return std::stod ( std::string(str), idx );
}
inline long double stold (string_ref str, size_t* idx=0) {
return std::stold ( std::string(str), idx );
}
inline int stoi (wstring_ref str, size_t* idx=0, int base=10) {
return std::stoi ( std::wstring(str), idx, base );
}
inline long stol (wstring_ref str, size_t* idx=0, int base=10) {
return std::stol ( std::wstring(str), idx, base );
}
inline unsigned long stoul (wstring_ref str, size_t* idx=0, int base=10) {
return std::stoul ( std::wstring(str), idx, base );
}
inline long long stoll (wstring_ref str, size_t* idx=0, int base=10) {
return std::stoll ( std::wstring(str), idx, base );
}
inline unsigned long long stoull (wstring_ref str, size_t* idx=0, int base=10) {
return std::stoull ( std::wstring(str), idx, base );
}
inline float stof (wstring_ref str, size_t* idx=0) {
return std::stof ( std::wstring(str), idx );
}
inline double stod (wstring_ref str, size_t* idx=0) {
return std::stod ( std::wstring(str), idx );
}
inline long double stold (wstring_ref str, size_t* idx=0) {
return std::stold ( std::wstring(str), idx );
}
#endif
}
#if 0
namespace std {
// Hashing
template<> struct hash<boost::string_ref>;
template<> struct hash<boost::u16string_ref>;
template<> struct hash<boost::u32string_ref>;
template<> struct hash<boost::wstring_ref>;
}
#endif
#endif #endif

12
include/boost/utility/string_ref_fwd.hpp
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@ -16,20 +16,20 @@
#define BOOST_STRING_REF_FWD_HPP #define BOOST_STRING_REF_FWD_HPP
#include <boost/config.hpp> #include <boost/config.hpp>
#include <boost/utility/string_view_fwd.hpp> #include <string>
#include <string> // for std::char_traits
namespace boost { namespace boost {
typedef basic_string_view<char, std::char_traits<char> > string_ref; template<typename charT, typename traits = std::char_traits<charT> > class basic_string_ref;
typedef basic_string_view<wchar_t, std::char_traits<wchar_t> > wstring_ref; typedef basic_string_ref<char, std::char_traits<char> > string_ref;
typedef basic_string_ref<wchar_t, std::char_traits<wchar_t> > wstring_ref;
#ifndef BOOST_NO_CXX11_CHAR16_T #ifndef BOOST_NO_CXX11_CHAR16_T
typedef basic_string_view<char16_t, std::char_traits<char16_t> > u16string_ref; typedef basic_string_ref<char16_t, std::char_traits<char16_t> > u16string_ref;
#endif #endif
#ifndef BOOST_NO_CXX11_CHAR32_T #ifndef BOOST_NO_CXX11_CHAR32_T
typedef basic_string_view<char32_t, std::char_traits<char32_t> > u32string_ref; typedef basic_string_ref<char32_t, std::char_traits<char32_t> > u32string_ref;
#endif #endif
} }

2
include/boost/utility/string_view_fwd.hpp
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@ -18,7 +18,7 @@
#define BOOST_STRING_VIEW_FWD_HPP #define BOOST_STRING_VIEW_FWD_HPP
#include <boost/config.hpp> #include <boost/config.hpp>
#include <string> // for std::char_traits #include <string>
namespace boost { namespace boost {

3
test/Jamfile.v2
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@ -27,6 +27,9 @@ test-suite utility
[ run ../operators_test.cpp ../../test/build//boost_test_exec_monitor/<link>static ] [ run ../operators_test.cpp ../../test/build//boost_test_exec_monitor/<link>static ]
[ compile result_of_test.cpp ] [ compile result_of_test.cpp ]
[ run ../shared_iterator_test.cpp ] [ run ../shared_iterator_test.cpp ]
[ run string_ref_test1.cpp unit_test_framework ]
[ run string_ref_test2.cpp unit_test_framework ]
[ run string_ref_test_io.cpp unit_test_framework ]
[ run string_view_test1.cpp unit_test_framework ] [ run string_view_test1.cpp unit_test_framework ]
[ run string_view_test2.cpp unit_test_framework ] [ run string_view_test2.cpp unit_test_framework ]
[ run string_view_test_io.cpp unit_test_framework ] [ run string_view_test_io.cpp unit_test_framework ]

109
test/string_ref_test1.cpp Normal file
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@ -0,0 +1,109 @@
/*
Copyright (c) Marshall Clow 2012-2012.
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)
For more information, see http://www.boost.org
*/
#include <iostream>
#include <algorithm>
#include <string>
#include <boost/utility/string_ref.hpp>
#define BOOST_TEST_MAIN
#include <boost/test/unit_test.hpp>
typedef boost::string_ref string_ref;
// Should be equal
void interop ( const std::string &str, string_ref ref ) {
// BOOST_CHECK ( str == ref );
BOOST_CHECK ( str.size () == ref.size ());
BOOST_CHECK ( std::equal ( str.begin (), str.end (), ref.begin ()));
BOOST_CHECK ( std::equal ( str.rbegin (), str.rend (), ref.rbegin ()));
}
void null_tests ( const char *p ) {
// All zero-length string-refs should be equal
string_ref sr1; // NULL, 0
string_ref sr2 ( NULL, 0 );
string_ref sr3 ( p, 0 );
string_ref sr4 ( p );
sr4.clear ();
BOOST_CHECK ( sr1 == sr2 );
BOOST_CHECK ( sr1 == sr3 );
BOOST_CHECK ( sr2 == sr3 );
BOOST_CHECK ( sr1 == sr4 );
}
// make sure that substrings work just like strings
void test_substr ( const std::string &str ) {
const size_t sz = str.size ();
string_ref ref ( str );
// Substrings at the end
for ( size_t i = 0; i <= sz; ++ i )
interop ( str.substr ( i ), ref.substr ( i ));
// Substrings at the beginning
for ( size_t i = 0; i <= sz; ++ i )
interop ( str.substr ( 0, i ), ref.substr ( 0, i ));
// All possible substrings
for ( size_t i = 0; i < sz; ++i )
for ( size_t j = i; j < sz; ++j )
interop ( str.substr ( i, j ), ref.substr ( i, j ));
}
// make sure that removing prefixes and suffixes work just like strings
void test_remove ( const std::string &str ) {
const size_t sz = str.size ();
std::string work;
string_ref ref;
for ( size_t i = 1; i <= sz; ++i ) {
work = str;
ref = str;
while ( ref.size () >= i ) {
interop ( work, ref );
work.erase ( 0, i );
ref.remove_prefix (i);
}
}
for ( size_t i = 1; i < sz; ++ i ) {
work = str;
ref = str;
while ( ref.size () >= i ) {
interop ( work, ref );
work.erase ( work.size () - i, i );
ref.remove_suffix (i);
}
}
}
const char *test_strings [] = {
"",
"1",
"ABCDEFGHIJKLMNOPQRSTUVWXYZ",
"0123456789",
NULL
};
BOOST_AUTO_TEST_CASE( test_main )
{
const char **p = &test_strings[0];
while ( *p != NULL ) {
interop ( *p, *p );
test_substr ( *p );
test_remove ( *p );
null_tests ( *p );
p++;
}
}

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/*
Copyright (c) Marshall Clow 2012-2012.
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)
For more information, see http://www.boost.org
*/
#include <iostream>
#include <cstring> // for std::strchr
#include <boost/utility/string_ref.hpp>
#define BOOST_TEST_MAIN
#include <boost/test/unit_test.hpp>
typedef boost::string_ref string_ref;
void ends_with ( const char *arg ) {
const size_t sz = std::strlen ( arg );
string_ref sr ( arg );
string_ref sr2 ( arg );
const char *p = arg;
while ( *p ) {
BOOST_CHECK ( sr.ends_with ( p ));
++p;
}
while ( !sr2.empty ()) {
BOOST_CHECK ( sr.ends_with ( sr2 ));
sr2.remove_prefix (1);
}
sr2 = arg;
while ( !sr2.empty ()) {
BOOST_CHECK ( sr.ends_with ( sr2 ));
sr2.remove_prefix (1);
}
char ch = sz == 0 ? '\0' : arg [ sz - 1 ];
sr2 = arg;
if ( sz > 0 )
BOOST_CHECK ( sr2.ends_with ( ch ));
BOOST_CHECK ( !sr2.ends_with ( ++ch ));
BOOST_CHECK ( sr2.ends_with ( string_ref ()));
}
void starts_with ( const char *arg ) {
const size_t sz = std::strlen ( arg );
string_ref sr ( arg );
string_ref sr2 ( arg );
const char *p = arg + std::strlen ( arg ) - 1;
while ( p >= arg ) {
std::string foo ( arg, p + 1 );
BOOST_CHECK ( sr.starts_with ( foo ));
--p;
}
while ( !sr2.empty ()) {
BOOST_CHECK ( sr.starts_with ( sr2 ));
sr2.remove_suffix (1);
}
char ch = *arg;
sr2 = arg;
if ( sz > 0 )
BOOST_CHECK ( sr2.starts_with ( ch ));
BOOST_CHECK ( !sr2.starts_with ( ++ch ));
BOOST_CHECK ( sr2.starts_with ( string_ref ()));
}
void reverse ( const char *arg ) {
// Round trip
string_ref sr1 ( arg );
std::string string1 ( sr1.rbegin (), sr1.rend ());
string_ref sr2 ( string1 );
std::string string2 ( sr2.rbegin (), sr2.rend ());
BOOST_CHECK ( std::equal ( sr2.rbegin (), sr2.rend (), arg ));
BOOST_CHECK ( string2 == arg );
BOOST_CHECK ( std::equal ( sr1.begin (), sr1.end (), string2.begin ()));
}
// This helper function eliminates signed vs. unsigned warnings
string_ref::size_type ptr_diff ( const char *res, const char *base ) {
BOOST_CHECK ( res >= base );
return static_cast<string_ref::size_type> ( res - base );
}
void find ( const char *arg ) {
string_ref sr1;
string_ref sr2;
const char *p;
// Look for each character in the string(searching from the start)
p = arg;
sr1 = arg;
while ( *p ) {
string_ref::size_type pos = sr1.find(*p);
BOOST_CHECK ( pos != string_ref::npos && ( pos <= ptr_diff ( p, arg )));
++p;
}
// Look for each character in the string (searching from the end)
p = arg;
sr1 = arg;
while ( *p ) {
string_ref::size_type pos = sr1.rfind(*p);
BOOST_CHECK ( pos != string_ref::npos && pos < sr1.size () && ( pos >= ptr_diff ( p, arg )));
++p;
}
// Look for pairs on characters (searching from the start)
sr1 = arg;
p = arg;
while ( *p && *(p+1)) {
string_ref sr3 ( p, 2 );
string_ref::size_type pos = sr1.find ( sr3 );
BOOST_CHECK ( pos != string_ref::npos && pos <= static_cast<string_ref::size_type>( p - arg ));
p++;
}
sr1 = arg;
p = arg;
// for all possible chars, see if we find them in the right place.
// Note that strchr will/might do the _wrong_ thing if we search for NULL
for ( int ch = 1; ch < 256; ++ch ) {
string_ref::size_type pos = sr1.find(ch);
const char *strp = std::strchr ( arg, ch );
BOOST_CHECK (( strp == NULL ) == ( pos == string_ref::npos ));
if ( strp != NULL )
BOOST_CHECK ( ptr_diff ( strp, arg ) == pos );
}
sr1 = arg;
p = arg;
// for all possible chars, see if we find them in the right place.
// Note that strchr will/might do the _wrong_ thing if we search for NULL
for ( int ch = 1; ch < 256; ++ch ) {
string_ref::size_type pos = sr1.rfind(ch);
const char *strp = std::strrchr ( arg, ch );
BOOST_CHECK (( strp == NULL ) == ( pos == string_ref::npos ));
if ( strp != NULL )
BOOST_CHECK ( ptr_diff ( strp, arg ) == pos );
}
// Find everything at the start
p = arg;
sr1 = arg;
while ( !sr1.empty ()) {
string_ref::size_type pos = sr1.find(*p);
BOOST_CHECK ( pos == 0 );
sr1.remove_prefix (1);
++p;
}
// Find everything at the end
sr1 = arg;
p = arg + std::strlen ( arg ) - 1;
while ( !sr1.empty ()) {
string_ref::size_type pos = sr1.rfind(*p);
BOOST_CHECK ( pos == sr1.size () - 1 );
sr1.remove_suffix (1);
--p;
}
// Find everything at the start
sr1 = arg;
p = arg;
while ( !sr1.empty ()) {
string_ref::size_type pos = sr1.find_first_of(*p);
BOOST_CHECK ( pos == 0 );
sr1.remove_prefix (1);
++p;
}
// Find everything at the end
sr1 = arg;
p = arg + std::strlen ( arg ) - 1;
while ( !sr1.empty ()) {
string_ref::size_type pos = sr1.find_last_of(*p);
BOOST_CHECK ( pos == sr1.size () - 1 );
sr1.remove_suffix (1);
--p;
}
// Basic sanity checking for "find_first_of / find_first_not_of"
sr1 = arg;
sr2 = arg;
while ( !sr1.empty() ) {
BOOST_CHECK ( sr1.find_first_of ( sr2 ) == 0 );
BOOST_CHECK ( sr1.find_first_not_of ( sr2 ) == string_ref::npos );
sr1.remove_prefix ( 1 );
}
p = arg;
sr1 = arg;
while ( *p ) {
string_ref::size_type pos1 = sr1.find_first_of(*p);
string_ref::size_type pos2 = sr1.find_first_not_of(*p);
BOOST_CHECK ( pos1 != string_ref::npos && pos1 < sr1.size () && pos1 <= ptr_diff ( p, arg ));
if ( pos2 != string_ref::npos ) {
for ( size_t i = 0 ; i < pos2; ++i )
BOOST_CHECK ( sr1[i] == *p );
BOOST_CHECK ( sr1 [ pos2 ] != *p );
}
BOOST_CHECK ( pos2 != pos1 );
++p;
}
// Basic sanity checking for "find_last_of / find_last_not_of"
sr1 = arg;
sr2 = arg;
while ( !sr1.empty() ) {
BOOST_CHECK ( sr1.find_last_of ( sr2 ) == ( sr1.size () - 1 ));
BOOST_CHECK ( sr1.find_last_not_of ( sr2 ) == string_ref::npos );
sr1.remove_suffix ( 1 );
}
p = arg;
sr1 = arg;
while ( *p ) {
string_ref::size_type pos1 = sr1.find_last_of(*p);
string_ref::size_type pos2 = sr1.find_last_not_of(*p);
BOOST_CHECK ( pos1 != string_ref::npos && pos1 < sr1.size () && pos1 >= ptr_diff ( p, arg ));
BOOST_CHECK ( pos2 == string_ref::npos || pos1 < sr1.size ());
if ( pos2 != string_ref::npos ) {
for ( size_t i = sr1.size () -1 ; i > pos2; --i )
BOOST_CHECK ( sr1[i] == *p );
BOOST_CHECK ( sr1 [ pos2 ] != *p );
}
BOOST_CHECK ( pos2 != pos1 );
++p;
}
}
void to_string ( const char *arg ) {
string_ref sr1;
std::string str1;
std::string str2;
str1.assign ( arg );
sr1 = arg;
// str2 = sr1.to_string<std::allocator<char> > ();
str2 = sr1.to_string ();
BOOST_CHECK ( str1 == str2 );
#ifndef BOOST_NO_CXX11_EXPLICIT_CONVERSION_OPERATORS
std::string str3 = static_cast<std::string> ( sr1 );
BOOST_CHECK ( str1 == str3 );
#endif
}
void compare ( const char *arg ) {
string_ref sr1;
std::string str1;
std::string str2 = str1;
str1.assign ( arg );
sr1 = arg;
BOOST_CHECK ( sr1 == sr1); // compare string_ref and string_ref
BOOST_CHECK ( sr1 == str1); // compare string and string_ref
BOOST_CHECK ( str1 == sr1 ); // compare string_ref and string
BOOST_CHECK ( sr1 == arg ); // compare string_ref and pointer
BOOST_CHECK ( arg == sr1 ); // compare pointer and string_ref
if ( sr1.size () > 0 ) {
(*str1.rbegin())++;
BOOST_CHECK ( sr1 != str1 );
BOOST_CHECK ( str1 != sr1 );
BOOST_CHECK ( sr1 < str1 );
BOOST_CHECK ( sr1 <= str1 );
BOOST_CHECK ( str1 > sr1 );
BOOST_CHECK ( str1 >= sr1 );
(*str1.rbegin()) -= 2;
BOOST_CHECK ( sr1 != str1 );
BOOST_CHECK ( str1 != sr1 );
BOOST_CHECK ( sr1 > str1 );
BOOST_CHECK ( sr1 >= str1 );
BOOST_CHECK ( str1 < sr1 );
BOOST_CHECK ( str1 <= sr1 );
}
}
const char *test_strings [] = {
"",
"0",
"abc",
"AAA", // all the same
"adsfadadiaef;alkdg;aljt;j agl;sjrl;tjs;lga;lretj;srg[w349u5209dsfadfasdfasdfadsf",
"abc\0asdfadsfasf",
NULL
};
BOOST_AUTO_TEST_CASE( test_main )
{
const char **p = &test_strings[0];
while ( *p != NULL ) {
starts_with ( *p );
ends_with ( *p );
reverse ( *p );
find ( *p );
to_string ( *p );
compare ( *p );
p++;
}
}

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/*
* Copyright Andrey Semashev 2013.
* 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)
*/
/*!
* \file string_ref_test_io.cpp
* \author Andrey Semashev
* \date 26.05.2013
*
* \brief This header contains tests for stream operations of \c basic_string_ref.
*/
#define BOOST_TEST_MODULE string_ref_test_io
#include <boost/utility/string_ref.hpp>
#include <iomanip>
#include <sstream>
#include <algorithm>
#include <iterator>
#include <string>
#include <boost/config.hpp>
#include <boost/mpl/vector.hpp>
#include <boost/test/unit_test.hpp>
typedef boost::mpl::vector<
char
#if !defined(BOOST_NO_STD_WSTRING) && !defined(BOOST_NO_STD_WSTREAMBUF) && !defined(BOOST_NO_INTRINSIC_WCHAR_T)
, wchar_t
#endif
/* Current implementations seem to be missing codecvt facets to convert chars to char16_t and char32_t even though the types are available.
#if !defined(BOOST_NO_CXX11_CHAR16_T)
, char16_t
#endif
#if !defined(BOOST_NO_CXX11_CHAR32_T)
, char32_t
#endif
*/
>::type char_types;
static const char* test_strings[] =
{
"begin",
"abcd",
"end"
};
//! The context with test data for particular character type
template< typename CharT >
struct context
{
typedef CharT char_type;
typedef std::basic_string< char_type > string_type;
typedef std::basic_ostringstream< char_type > ostream_type;
string_type begin, abcd, end;
context()
{
boost::string_ref str = test_strings[0];
std::copy(str.begin(), str.end(), std::back_inserter(begin));
str = test_strings[1];
std::copy(str.begin(), str.end(), std::back_inserter(abcd));
str = test_strings[2];
std::copy(str.begin(), str.end(), std::back_inserter(end));
}
};
// Test regular output
BOOST_AUTO_TEST_CASE_TEMPLATE(string_ref_output, CharT, char_types)
{
typedef CharT char_type;
typedef std::basic_ostringstream< char_type > ostream_type;
typedef boost::basic_string_ref< char_type > string_ref_type;
context< char_type > ctx;
ostream_type strm;
strm << string_ref_type(ctx.abcd);
BOOST_CHECK(strm.str() == ctx.abcd);
}
// Test support for padding
BOOST_AUTO_TEST_CASE_TEMPLATE(padding, CharT, char_types)
{
typedef CharT char_type;
typedef std::basic_ostringstream< char_type > ostream_type;
typedef boost::basic_string_ref< char_type > string_ref_type;
context< char_type > ctx;
// Test for padding
{
ostream_type strm_ref;
strm_ref << ctx.begin << std::setw(8) << string_ref_type(ctx.abcd) << ctx.end;
ostream_type strm_correct;
strm_correct << ctx.begin << std::setw(8) << ctx.abcd << ctx.end;
BOOST_CHECK(strm_ref.str() == strm_correct.str());
}
// Test for long padding
{
ostream_type strm_ref;
strm_ref << ctx.begin << std::setw(100) << string_ref_type(ctx.abcd) << ctx.end;
ostream_type strm_correct;
strm_correct << ctx.begin << std::setw(100) << ctx.abcd << ctx.end;
BOOST_CHECK(strm_ref.str() == strm_correct.str());
}
// Test that short width does not truncate the string
{
ostream_type strm_ref;
strm_ref << ctx.begin << std::setw(1) << string_ref_type(ctx.abcd) << ctx.end;
ostream_type strm_correct;
strm_correct << ctx.begin << std::setw(1) << ctx.abcd << ctx.end;
BOOST_CHECK(strm_ref.str() == strm_correct.str());
}
}
// Test support for padding fill
BOOST_AUTO_TEST_CASE_TEMPLATE(padding_fill, CharT, char_types)
{
typedef CharT char_type;
typedef std::basic_ostringstream< char_type > ostream_type;
typedef boost::basic_string_ref< char_type > string_ref_type;
context< char_type > ctx;
ostream_type strm_ref;
strm_ref << ctx.begin << std::setfill(static_cast< char_type >('x')) << std::setw(8) << string_ref_type(ctx.abcd) << ctx.end;
ostream_type strm_correct;
strm_correct << ctx.begin << std::setfill(static_cast< char_type >('x')) << std::setw(8) << ctx.abcd << ctx.end;
BOOST_CHECK(strm_ref.str() == strm_correct.str());
}
// Test support for alignment
BOOST_AUTO_TEST_CASE_TEMPLATE(alignment, CharT, char_types)
{
typedef CharT char_type;
typedef std::basic_ostringstream< char_type > ostream_type;
typedef boost::basic_string_ref< char_type > string_ref_type;
context< char_type > ctx;
// Left alignment
{
ostream_type strm_ref;
strm_ref << ctx.begin << std::left << std::setw(8) << string_ref_type(ctx.abcd) << ctx.end;
ostream_type strm_correct;
strm_correct << ctx.begin << std::left << std::setw(8) << ctx.abcd << ctx.end;
BOOST_CHECK(strm_ref.str() == strm_correct.str());
}
// Right alignment
{
ostream_type strm_ref;
strm_ref << ctx.begin << std::right << std::setw(8) << string_ref_type(ctx.abcd) << ctx.end;
ostream_type strm_correct;
strm_correct << ctx.begin << std::right << std::setw(8) << ctx.abcd << ctx.end;
BOOST_CHECK(strm_ref.str() == strm_correct.str());
}
}