view: make equality consistent

This commit is contained in:
Danny Robson 2017-09-15 15:22:51 +10:00
parent cfa272a80a
commit 220e499681
3 changed files with 122 additions and 64 deletions

View File

@ -9,10 +9,10 @@ main (int, char**)
const std::string s = "this is a test string"; const std::string s = "this is a test string";
const std::string t = "not the same string"; const std::string t = "not the same string";
tap.expect_eq (s, util::make_view(s), "string/view equality"); tap.expect (equal (s, util::make_view(s)), "string/view equality");
tap.expect_neq (s, util::make_view(t), "string/view inequality"); tap.expect (!equal (s, util::make_view(t)), "string/view inequality");
tap.expect_eq (s.data (), util::make_view (s), "c-str/view equality"); tap.expect (equal (s.data (), util::make_view (s)), "c-str/view equality");
tap.expect_eq (s, util::view<const char*> (&*s.cbegin (), &*s.cend ()), "string/pointer-view equality"); tap.expect (equal (s, util::view<const char*> (&*s.cbegin (), &*s.cend ())), "string/pointer-view equality");
return tap.status (); return tap.status ();
} }

View File

@ -11,7 +11,7 @@
* See the License for the specific language governing permissions and * See the License for the specific language governing permissions and
* limitations under the License. * limitations under the License.
* *
* Copyright 2016 Danny Robson <danny@nerdcruft.net> * Copyright 2016-2017 Danny Robson <danny@nerdcruft.net>
*/ */
#include "./view.hpp" #include "./view.hpp"
@ -23,7 +23,7 @@
/////////////////////////////////////////////////////////////////////////////// ///////////////////////////////////////////////////////////////////////////////
#define EQUALITY(A,B) \ #define EQUALITY(A,B) \
bool \ bool \
util::operator== (A a, B b) \ util::equal (A a, B b) \
{ \ { \
return a.size () == a.size () && \ return a.size () == a.size () && \
std::equal (a.cbegin (), \ std::equal (a.cbegin (), \

174
view.hpp
View File

@ -28,18 +28,24 @@
#include <stdexcept> #include <stdexcept>
namespace util { namespace util {
template <typename T> template <typename IteratorT>
struct view { struct view {
public: public:
using value_type = typename std::iterator_traits<remove_restrict_t<T>>::value_type; //---------------------------------------------------------------------
using value_type = typename std::iterator_traits<
remove_restrict_t<IteratorT>
>::value_type;
//---------------------------------------------------------------------
constexpr constexpr
view (const T &first, const T &last) noexcept: view (const IteratorT &first, const IteratorT &last) noexcept:
m_begin (first), m_begin (first),
m_end (last) m_end (last)
{ ; } { ; }
//---------------------------------------------------------------------
constexpr constexpr
view (const view &rhs) noexcept: view (const view &rhs) noexcept:
m_begin (rhs.m_begin), m_begin (rhs.m_begin),
@ -47,34 +53,38 @@ namespace util {
{ ; } { ; }
//---------------------------------------------------------------------
// technically we could get away without explicitly defining a move // technically we could get away without explicitly defining a move
// constructor here, but by nulling rhs we can more easily use this // constructor here, but by nulling rhs we can more easily use this
// class as a base for unique owning pointers without exposing // class as a base for unique owning pointers without exposing
// begin/end to them directly. // begin/end to them directly.
constexpr view (view &&rhs) noexcept: constexpr view (view &&rhs) noexcept:
view (T{}, T{}) view (IteratorT{}, IteratorT{})
{ {
std::swap (m_begin, rhs.m_begin); std::swap (m_begin, rhs.m_begin);
std::swap (m_end, rhs.m_end); std::swap (m_end, rhs.m_end);
} }
template <typename K> //---------------------------------------------------------------------
template <typename ContainerT>
constexpr explicit constexpr explicit
view (K &klass): view (ContainerT &klass):
m_begin (std::begin (klass)), m_begin (std::begin (klass)),
m_end (std::end (klass)) m_end (std::end (klass))
{ ; } { ; }
template <typename K> //---------------------------------------------------------------------
template <typename ContainerT>
constexpr explicit constexpr explicit
view (const K &klass): view (const ContainerT &klass):
m_begin (std::begin (klass)), m_begin (std::begin (klass)),
m_end (std::end (klass)) m_end (std::end (klass))
{ ; } { ; }
//---------------------------------------------------------------------
view& view&
operator= (const view &rhs) noexcept operator= (const view &rhs) noexcept
{ {
@ -84,43 +94,51 @@ namespace util {
} }
//---------------------------------------------------------------------
view& view&
operator= (view &&rhs) noexcept operator= (view &&rhs) noexcept
{ {
m_begin = rhs.m_begin; m_begin = rhs.m_begin;
m_end = rhs.m_end; m_end = rhs.m_end;
m_begin = T{}; rhs.m_begin = IteratorT{};
m_end = T{}; rhs.m_end = IteratorT{};
return *this; return *this;
}; };
constexpr T begin (void) noexcept { return m_begin; } //---------------------------------------------------------------------
constexpr T end (void) noexcept { return m_end; } constexpr IteratorT begin (void) noexcept { return m_begin; }
constexpr IteratorT end (void) noexcept { return m_end; }
constexpr const T begin (void) const noexcept { return cbegin (); } //---------------------------------------------------------------------
constexpr const T end (void) const noexcept { return cend (); } constexpr const IteratorT begin (void) const noexcept { return cbegin (); }
constexpr const IteratorT end (void) const noexcept { return cend (); }
constexpr const T cbegin (void) const noexcept { return m_begin; } //---------------------------------------------------------------------
constexpr const T cend (void) const noexcept { return m_end; } constexpr const IteratorT cbegin (void) const noexcept { return m_begin; }
constexpr const IteratorT cend (void) const noexcept { return m_end; }
//---------------------------------------------------------------------
auto data (void) { return begin (); } auto data (void) { return begin (); }
auto data (void) const { return begin (); } auto data (void) const { return begin (); }
//---------------------------------------------------------------------
constexpr bool constexpr bool
empty (void) const noexcept empty (void) const noexcept
{ {
return m_begin == m_end; return m_begin == m_end;
} }
//---------------------------------------------------------------------
constexpr auto constexpr auto
size (void) const noexcept size (void) const noexcept
{ {
return std::distance (m_begin, m_end); return std::distance (m_begin, m_end);
} }
//---------------------------------------------------------------------
constexpr auto constexpr auto
redim (int count) const redim (int count) const
{ {
@ -130,94 +148,107 @@ namespace util {
return view { m_begin, m_begin + count }; return view { m_begin, m_begin + count };
}; };
//---------------------------------------------------------------------
constexpr value_type& constexpr value_type&
operator[] (size_t idx) noexcept operator[] (size_t idx)& noexcept
{ {
auto it = begin (); auto it = begin ();
std::advance (it, idx); std::advance (it, idx);
return *it; return *it;
} }
//---------------------------------------------------------------------
constexpr const value_type& constexpr const value_type&
operator[] (size_t idx) const noexcept operator[] (size_t idx) const& noexcept
{ {
auto it = begin (); auto it = begin ();
std::advance (it, idx); std::advance (it, idx);
return *it; return *it;
} }
bool
operator== (const view &rhs) const noexcept
{
return rhs.m_begin == m_begin &&
rhs.m_end == m_end;
}
private: private:
T m_begin; //---------------------------------------------------------------------
T m_end; IteratorT m_begin;
IteratorT m_end;
}; };
template <typename T, size_t N> ///////////////////////////////////////////////////////////////////////////
template <typename ValueT, size_t N>
auto auto
make_view (const T (&arr)[N]) make_view (const ValueT (&arr)[N])
{ {
return util::view<const T*> (arr + 0, arr + N); return util::view<const ValueT*> (arr + 0, arr + N);
} }
template <typename T> //-------------------------------------------------------------------------
template <typename ContainerT>
auto auto
make_view (T &t) make_view (ContainerT &t)
{ {
return util::view<decltype(std::begin (t))> { std::begin (t), std::end (t) }; return util::view<decltype(std::begin (t))> { std::begin (t), std::end (t) };
} }
template <typename T> //-------------------------------------------------------------------------
template <typename ContainerT>
auto auto
make_view (const T &t) make_view (const ContainerT &t)
{ {
return util::view<decltype(std::cbegin (t))> { std::cbegin (t), std::cend (t) }; return util::view<decltype(std::cbegin (t))> { std::cbegin (t), std::cend (t) };
} }
template <typename T>
auto
make_view (T&&) = delete;
template <typename T> //-------------------------------------------------------------------------
// disable the possibility of creating a view to a temporary. note that
// this only works if an lval version has already been defined otherwise
// universal reference rules will capture both lval and rval here.
template <typename ContainerT>
auto auto
make_cview (const T &t) make_view (ContainerT&&) = delete;
///////////////////////////////////////////////////////////////////////////
template <typename ContainerT>
auto
make_cview (const ContainerT &t)
{ {
return util::view<decltype(std::cbegin (t))> { std::cbegin (t), std::cend (t) }; return util::view<decltype(std::cbegin (t))> { std::cbegin (t), std::cend (t) };
} }
template <typename T>
//-------------------------------------------------------------------------
template <typename IteratorT>
auto auto
make_view (T first, T last) make_view (IteratorT first, IteratorT last)
{ {
return view<T> {first, last}; return view<IteratorT> {first, last};
} }
template <typename T> //-------------------------------------------------------------------------
template <typename ValueT>
auto auto
make_cview (T *first, T *last) make_cview (ValueT *first, ValueT *last)
{ {
return view<const T*> {first, last}; return view<const ValueT*> {first, last};
} }
// string conversions ///////////////////////////////////////////////////////////////////////////
inline inline
view<const char*> make_view (const char *str) view<const char*> make_view (const char *str)
{ {
return { str, str + strlen (str) }; return { str, str + strlen (str) };
} }
//-------------------------------------------------------------------------
inline inline
view<char*> make_view (char *str) view<char*> make_view (char *str)
{ {
return { str, str + strlen (str) }; return { str, str + strlen (str) };
} }
//-------------------------------------------------------------------------
template <typename CharT, typename TraitsT, typename AllocT> template <typename CharT, typename TraitsT, typename AllocT>
view<const CharT*> view<const CharT*>
make_view (const std::basic_string<CharT,TraitsT,AllocT> &str) make_view (const std::basic_string<CharT,TraitsT,AllocT> &str)
@ -228,6 +259,8 @@ namespace util {
}; };
} }
//-------------------------------------------------------------------------
template <typename CharT, typename TraitsT, typename AllocT> template <typename CharT, typename TraitsT, typename AllocT>
view<CharT*> view<CharT*>
make_view (std::basic_string<CharT,TraitsT,AllocT> &str) make_view (std::basic_string<CharT,TraitsT,AllocT> &str)
@ -238,31 +271,56 @@ namespace util {
}; };
} }
//-------------------------------------------------------------------------
template <typename CharT, typename TraitsT, typename AllocT> template <typename CharT, typename TraitsT, typename AllocT>
view<const CharT*> view<const CharT*>
make_view (const std::basic_string<CharT,TraitsT,AllocT>&&) = delete; make_view (const std::basic_string<CharT,TraitsT,AllocT>&&) = delete;
//-------------------------------------------------------------------------
template <typename CharT, typename TraitsT, typename AllocT> template <typename CharT, typename TraitsT, typename AllocT>
view<CharT*> view<CharT*>
make_view (std::basic_string<CharT,TraitsT,AllocT>&&) = delete; make_view (std::basic_string<CharT,TraitsT,AllocT>&&) = delete;
// boolean operationrs
template <typename T>
bool operator!= (view<T>, view<T>);
bool operator== (const std::string&, view<const char*>); ///////////////////////////////////////////////////////////////////////////
bool operator== (const std::string&, view<char*>); template <typename IteratorT>
bool operator== (const std::string&, view<std::string::const_iterator>); constexpr bool
bool operator== (const std::string&, view<std::string::iterator>); operator== (const view<IteratorT> &a, const view<IteratorT> &b)
{
return std::cbegin (a) == std::cbegin (b) &&
std::cend (a) == std::cend (b);
}
bool operator== (view<const char*>, const std::string&);
bool operator== (view<char*>, const std::string&);
bool operator== (view<std::string::const_iterator>, const std::string&);
bool operator== (view<std::string::iterator>, const std::string&);
template <typename T> //-------------------------------------------------------------------------
template <typename IteratorT>
constexpr bool
operator!= (const view<IteratorT> &a, const view<IteratorT> &b)
{
return !(a == b);
}
//-------------------------------------------------------------------------
// equality operations for string-like views against std::strings
bool equal (const std::string&, view<const char*>);
bool equal (const std::string&, view<char*>);
bool equal (const std::string&, view<std::string::const_iterator>);
bool equal (const std::string&, view<std::string::iterator>);
bool equal (view<const char*>, const std::string&);
bool equal (view<char*>, const std::string&);
bool equal (view<std::string::const_iterator>, const std::string&);
bool equal (view<std::string::iterator>, const std::string&);
///////////////////////////////////////////////////////////////////////////
template <typename IteratorT>
std::ostream& std::ostream&
operator<< (std::ostream&, view<T>); operator<< (std::ostream&, view<IteratorT>);
} }
#endif #endif