vn-verdnaturachat/ios/Pods/boost-for-react-native/boost/utility/string_ref.hpp

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/*
Copyright (c) Marshall Clow 2012-2015.
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
Based on the StringRef implementation in LLVM (http://llvm.org) and
N3422 by Jeffrey Yasskin
http://www.open-std.org/jtc1/sc22/wg21/docs/papers/2012/n3442.html
*/
#ifndef BOOST_STRING_REF_HPP
#define BOOST_STRING_REF_HPP
#include <boost/config.hpp>
#include <boost/detail/workaround.hpp>
#include <boost/utility/string_ref_fwd.hpp>
#include <boost/throw_exception.hpp>
#include <cstddef>
#include <stdexcept>
#include <algorithm>
#include <iterator>
#include <string>
#include <iosfwd>
#if defined(BOOST_NO_CXX11_DEFAULTED_FUNCTIONS) || (defined(BOOST_GCC) && ((BOOST_GCC+0) / 100) <= 406)
// GCC 4.6 cannot handle a defaulted function with noexcept specifier
#define BOOST_STRING_REF_NO_CXX11_DEFAULTED_NOEXCEPT_FUNCTIONS
#endif
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 () BOOST_NOEXCEPT
: ptr_(NULL), len_(0) {}
// by defaulting these functions, basic_string_ref becomes
// trivially copy/move constructible.
BOOST_CONSTEXPR basic_string_ref (const basic_string_ref &rhs) BOOST_NOEXCEPT
#ifndef BOOST_STRING_REF_NO_CXX11_DEFAULTED_NOEXCEPT_FUNCTIONS
= default;
#else
: ptr_(rhs.ptr_), len_(rhs.len_) {}
#endif
basic_string_ref& operator=(const basic_string_ref &rhs) BOOST_NOEXCEPT
#ifndef BOOST_STRING_REF_NO_CXX11_DEFAULTED_NOEXCEPT_FUNCTIONS
= default;
#else
{
ptr_ = rhs.ptr_;
len_ = rhs.len_;
return *this;
}
#endif
basic_string_ref(const charT* str) BOOST_NOEXCEPT
: 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) BOOST_NOEXCEPT
: 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 : (std::distance(iter, this->crend()) - s.size());
}
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 : (this->size() - 1 - std::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 : (this->size() - 1 - std::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 : (this->size() - 1 - std::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 this->size() - 1 - std::distance(this->crbegin(), iter);
return npos;
}
private:
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 sr_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 sr_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::sr_insert_fill_chars(os, alignment_size);
if (os.good())
os.write(str.data(), size);
}
else {
os.write(str.data(), size);
if (os.good())
detail::sr_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::sr_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