#ifndef _C4_STD_VECTOR_HPP_
#define _C4_STD_VECTOR_HPP_
/** @file vector.hpp provides conversion and comparison facilities
* from/between std::vector<char> to c4::substr and c4::csubstr.
* @todo add to_span() and friends
*/
#ifndef C4CORE_SINGLE_HEADER
#include "c4/substr.hpp"
#endif
#include <vector>
namespace c4 {
//-----------------------------------------------------------------------------
/** get a substr (writeable string view) of an existing std::vector<char> */
template<class Alloc>
c4::substr to_substr(std::vector<char, Alloc> &vec)
{
char *data = vec.empty() ? nullptr : vec.data(); // data() may or may not return a null pointer.
return c4::substr(data, vec.size());
}
/** get a csubstr (read-only string) view of an existing std::vector<char> */
template<class Alloc>
c4::csubstr to_csubstr(std::vector<char, Alloc> const& vec)
{
const char *data = vec.empty() ? nullptr : vec.data(); // data() may or may not return a null pointer.
return c4::csubstr(data, vec.size());
}
//-----------------------------------------------------------------------------
// comparisons between substrings and std::vector<char>
template<class Alloc> C4_ALWAYS_INLINE bool operator!= (c4::csubstr ss, std::vector<char, Alloc> const& s) { return ss != to_csubstr(s); }
template<class Alloc> C4_ALWAYS_INLINE bool operator== (c4::csubstr ss, std::vector<char, Alloc> const& s) { return ss == to_csubstr(s); }
template<class Alloc> C4_ALWAYS_INLINE bool operator>= (c4::csubstr ss, std::vector<char, Alloc> const& s) { return ss >= to_csubstr(s); }
template<class Alloc> C4_ALWAYS_INLINE bool operator> (c4::csubstr ss, std::vector<char, Alloc> const& s) { return ss > to_csubstr(s); }
template<class Alloc> C4_ALWAYS_INLINE bool operator<= (c4::csubstr ss, std::vector<char, Alloc> const& s) { return ss <= to_csubstr(s); }
template<class Alloc> C4_ALWAYS_INLINE bool operator< (c4::csubstr ss, std::vector<char, Alloc> const& s) { return ss < to_csubstr(s); }
template<class Alloc> C4_ALWAYS_INLINE bool operator!= (std::vector<char, Alloc> const& s, c4::csubstr ss) { return ss != to_csubstr(s); }
template<class Alloc> C4_ALWAYS_INLINE bool operator== (std::vector<char, Alloc> const& s, c4::csubstr ss) { return ss == to_csubstr(s); }
template<class Alloc> C4_ALWAYS_INLINE bool operator>= (std::vector<char, Alloc> const& s, c4::csubstr ss) { return ss <= to_csubstr(s); }
template<class Alloc> C4_ALWAYS_INLINE bool operator> (std::vector<char, Alloc> const& s, c4::csubstr ss) { return ss < to_csubstr(s); }
template<class Alloc> C4_ALWAYS_INLINE bool operator<= (std::vector<char, Alloc> const& s, c4::csubstr ss) { return ss >= to_csubstr(s); }
template<class Alloc> C4_ALWAYS_INLINE bool operator< (std::vector<char, Alloc> const& s, c4::csubstr ss) { return ss > to_csubstr(s); }
//-----------------------------------------------------------------------------
/** copy a std::vector<char> to a writeable string view */
template<class Alloc>
inline size_t to_chars(c4::substr buf, std::vector<char, Alloc> const& s)
{
C4_ASSERT(!buf.overlaps(to_csubstr(s)));
size_t len = buf.len < s.size() ? buf.len : s.size();
// calling memcpy with null strings is undefined behavior
// and will wreak havoc in calling code's branches.
// see https://github.com/biojppm/rapidyaml/pull/264#issuecomment-1262133637
if(len > 0)
{
memcpy(buf.str, s.data(), len);
}
return s.size(); // return the number of needed chars
}
/** copy a string view to an existing std::vector<char> */
template<class Alloc>
inline bool from_chars(c4::csubstr buf, std::vector<char, Alloc> * s)
{
s->resize(buf.len);
C4_ASSERT(!buf.overlaps(to_csubstr(*s)));
// calling memcpy with null strings is undefined behavior
// and will wreak havoc in calling code's branches.
// see https://github.com/biojppm/rapidyaml/pull/264#issuecomment-1262133637
if(buf.len > 0)
{
memcpy(&(*s)[0], buf.str, buf.len);
}
return true;
}
} // namespace c4
#endif // _C4_STD_VECTOR_HPP_