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knotkit/lib/map_wrapper.h

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/* wrapper for STL maps */
template<class M, class K, class V> class map_wrapper_iter;
template<class M, class K, class V> class map_wrapper_const_iter;
template<class M, class K, class V>
class map_wrapper
{
friend class map_wrapper_iter<M, K, V>;
friend class map_wrapper_const_iter<M, K, V>;
protected:
class map_impl : public refcounted
{
public:
M t;
public:
map_impl () = default;
map_impl (const map_impl &) = delete;
map_impl (const M &t_) : t(t_) { }
map_impl (initializer_list<std::pair<const K, V> > il) : t(il) { }
~map_impl () = default;
map_impl &operator = (const map_impl &) = delete;
};
ptr<map_impl> impl;
public:
typedef map_wrapper_iter<M, K, V> iter;
typedef map_wrapper_const_iter<M, K, V> const_iter;
public:
map_wrapper () : impl(new map_impl) { }
map_wrapper (const map_wrapper &m) : impl(m.impl) { }
map_wrapper (copy, const map_wrapper &m) : impl(new map_impl (m.impl->t)) { }
map_wrapper (initializer_list<std::pair<const K, V> > il)
: impl(new map_impl (il))
{ }
map_wrapper (reader &r);
~map_wrapper () { }
map_wrapper &operator = (const map_wrapper &m) { impl = m.impl; return *this; }
map_wrapper &operator = (initializer_list<std::pair<const K, V> > il)
{
impl->t = il;
return *this;
}
// range-based for
typename M::const_iterator begin () const { return impl->t.begin (); }
typename M::const_iterator end () const { return impl->t.end (); }
/* returns the pair associated to the smallest key */
pair<K, V> head () const
{
typename M::const_iterator i = impl->t.begin ();
assert (i != impl->t.end ());
return pair<K, V> (i->first, i->second);
}
/* returns the pair associated to the largest key */
pair<K, V> tail () const
{
typename M::const_reverse_iterator i = impl->t.rbegin();
assert (i != impl->t.rend ());
return pair<K, V> (i->first, i->second);
}
maybe<V> remove_with_value (const K &k)
{
typename M::iterator i = impl->t.find (k);
if (i == impl->t.end ())
return maybe<V> ();
else
{
V v = i->second;
impl->t.erase (i);
return maybe<V> (v);
}
}
void clear () { impl->t.clear (); }
bool is_empty () const { return impl->t.empty (); }
unsigned card () const { return impl->t.size (); }
void yank (const K &k) { assert (operator % (k)); impl->t.erase (k); }
V yank_with_value (const K &k)
{
typename M::iterator i = impl->t.find (k);
assert (i != impl->t.end ());
V v = i->second;
impl->t.erase (i);
return v;
}
void operator -= (const K &k) { impl->t.erase (k); }
void push (const K &k, const V &v) { assert (!operator % (k)); impl->t.insert (std::pair<K, V> (k, v)); }
void set (const K &k, const V &v) { operator [] (k) = v; }
pair<V &, bool> find (const K &k)
{
typename M::iterator i = impl->t.find (k);
bool present;
if (i == impl->t.end ())
{
i = impl->t.insert (std::pair<K, V> (k, V ())).first;
present = 0;
}
else
present = 1;
return pair<V &, bool> (i->second, present);
}
V *operator ^ (const K &k)
{
typename M::iterator i = impl->t.find (k);
return i == impl->t.end () ? 0 : &i->second;
}
const V *operator ^ (const K &k) const
{
typename M::const_iterator i = impl->t.find (k);
return i == impl->t.end () ? 0 : &i->second;
}
V &operator [] (const K &k) { return impl->t[k]; }
const V &operator [] (const K &k) const
{
typename M::const_iterator i = impl->t.find (k);
assert (i != impl->t.end ());
return i->second;
}
const V &operator () (const K &k) const { return operator [] (k); }
const V &operator () (const K &k, const V &d) const
{
typename M::const_iterator i = impl->t.find (k);
if (i == impl->t.end ())
return d;
else
return i->second;
}
bool operator % (const K &k) const
{
typename M::const_iterator i = impl->t.find (k);
return i != impl->t.end ();
}
bool operator == (const map_wrapper &m) const;
bool operator != (const map_wrapper &m) const { return !operator == (m); }
bool operator < (const map_wrapper &m) const;
void write_self (writer &w) const;
};
template<class M, class K, class V>
map_wrapper<M, K, V>::map_wrapper (reader &r)
: impl(new map_impl)
{
unsigned card_ = r.read_unsigned ();
K k;
V v;
for (unsigned i = 0; i < card_; i ++)
{
read (r, k);
read (r, v);
push (k, v);
}
}
template<class M, class K, class V> bool
map_wrapper<M, K, V>::operator == (const map_wrapper &m) const
{
if (card () != m.card ())
return 0;
const_iter i = *this,
j = m;
while (i && j)
{
if (i.key () != j.key ()
|| i.val () != j.val ())
return 0;
i ++;
j ++;
}
if (i || j)
return 0;
return 1;
}
template<class M, class K, class V> bool
map_wrapper<M, K, V>::operator < (const map_wrapper &m) const
{
const_iter i = *this,
j = m;
while (i && j)
{
if (i.key () < j.key ())
return 1;
else if (i.key () > j.key ())
return 0;
else
{
assert (i.key () == j.key ());
if (i.val () < j.val ())
return 1;
else if (i.val () > j.val ())
return 0;
else
assert (i.val () == j.val ());
}
i ++;
j ++;
}
return !i && j;
}
template<class M, class K, class V> void
map_wrapper<M, K, V>::write_self (writer &w) const
{
write (w, card ());
for (const_iter i = *this; i; i ++)
{
write (w, i.key ());
write (w, i.val ());
}
}
template<class M, class K, class V>
class map_wrapper_iter
{
private:
ptr<typename map_wrapper<M, K, V>::map_impl> impl;
typename M::iterator i, end;
bool deleted;
public:
map_wrapper_iter (map_wrapper<M, K, V> &m) : impl(m.impl), i(m.impl->t.begin ()), end(m.impl->t.end ()), deleted(0) { }
~map_wrapper_iter () { }
void del ()
{
assert (!deleted);
typename M::iterator iprev = i ++;
impl->t.erase (iprev);
deleted = 1;
}
const K &key () const { assert (!deleted); return i->first; }
V &val () { assert (!deleted); return i->second; }
operator bool () const { assert (!deleted); return i != end; }
void operator ++ () { if (deleted) deleted = 0; else i ++; }
void operator ++ (int) { operator ++ (); }
};
template<class M, class K, class V>
class map_wrapper_const_iter
{
private:
ptr<const typename map_wrapper<M, K, V>::map_impl> impl;
typename M::const_iterator i, end;
public:
map_wrapper_const_iter (const map_wrapper<M, K, V> &m) : impl(m.impl), i(m.impl->t.begin ()), end(m.impl->t.end ()) { }
~map_wrapper_const_iter () { }
const K &key () const { return i->first; }
const V &val () { return i->second; }
operator bool () const { return i != end; }
void operator ++ () { i ++; }
void operator ++ (int) { i ++; }
};
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