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sigslot.h
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sigslot.h
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#ifndef SIGSLOT_H__
#define SIGSLOT_H__
#include <set>
#include <list>
#define SIGSLOT_DISABLE_COPY(Class) \
private: \
Class(const Class&); \
Class& operator=(const Class&);
#define SIGSLOT_DEFAULT_CONSTRUCTOR(Class) \
public: \
Class() {} \
SIGSLOT_DISABLE_COPY(Class)
#ifdef _MSC_VER
#define SIGSLOT_INVOKE __cdecl
#else
#define SIGSLOT_INVOKE
#endif
namespace sigslot {
class _signal_base;
class has_slots
{
SIGSLOT_DEFAULT_CONSTRUCTOR(has_slots)
friend class _signal_base;
public:
void free_slots();
~has_slots() { free_slots(); }
private:
void _signal_connect(_signal_base *sender)
{
m_senders.insert(sender);
}
void _signal_disconnect(_signal_base *sender)
{
m_senders.erase(sender);
}
typedef std::set<_signal_base *> sender_set;
sender_set m_senders;
};
class _connection_base
{
SIGSLOT_DEFAULT_CONSTRUCTOR(_connection_base)
public:
virtual ~_connection_base() {}
virtual has_slots *dest() const = 0;
};
class _signal_base
{
SIGSLOT_DEFAULT_CONSTRUCTOR(_signal_base)
public:
~_signal_base()
{
for (connections::const_iterator i = m_connected_slots.begin();
i != m_connected_slots.end(); ++i)
{
if (*i == NULL) continue;
(*i)->dest()->_signal_disconnect(this);
delete *i;
}
}
void disconnect(const has_slots *pclass)
{
for (connections::iterator i = m_connected_slots.begin();
i != m_connected_slots.end(); ++i)
{
if (*i && (*i)->dest() == pclass)
{
(*i)->dest()->_signal_disconnect(this);
delete *i;
*i = NULL;
}
}
}
protected:
void _insert_connection(_connection_base *connection)
{
for (connections::iterator i = m_connected_slots.begin();
i != m_connected_slots.end(); ++i)
{
if (*i == NULL)
{
*i = connection;
return;
}
}
m_connected_slots.push_back(connection);
}
void _connect_to_has_slots(has_slots *pclass)
{
pclass->_signal_connect(this);
}
typedef std::list<_connection_base *> connections;
connections m_connected_slots;
};
inline void has_slots::free_slots()
{
while (!m_senders.empty())
(*m_senders.begin())->disconnect(this);
}
//////////////////////////////////////////////////
class _connection_base0 : public _connection_base
{
public:
virtual void SIGSLOT_INVOKE operator()() const = 0;
};
template <class dest_t, class ret_t>
class _connection0 : public _connection_base0
{
public:
_connection0(dest_t *pobject, ret_t (dest_t::*pmemfun)())
{
m_pobject = pobject;
m_pmemfun = pmemfun;
}
virtual void SIGSLOT_INVOKE operator()() const
{
(m_pobject->*m_pmemfun)();
}
virtual has_slots *dest() const
{
return m_pobject;
}
private:
dest_t *m_pobject;
ret_t (dest_t::*m_pmemfun)();
};
class signal0;
class _signal_base0 : public _signal_base
{
public:
template <class Dest_t, class dest_t, class ret_t>
void connect(Dest_t *pclass, ret_t (dest_t::*pmemfun)())
{
_connect_to_has_slots(pclass);
_insert_connection(new _connection0<Dest_t, ret_t>(pclass, pmemfun));
}
template <class Dest_t, class dest_t, class ret_t>
void connect(const Dest_t *pclass, ret_t (dest_t::*pmemfun)() const)
{
connect((Dest_t *)pclass, (ret_t (dest_t::*)())pmemfun);
}
void connect(signal0 *pclass);
};
class signal0 : public _signal_base0, public has_slots
{
public:
void operator()() const
{
for (connections::const_iterator i = m_connected_slots.begin();
i != m_connected_slots.end(); ++i)
{
if (*i == NULL) continue;
(*(_connection_base0 *)(*i))();
}
}
typedef _signal_base0 base;
};
inline void _signal_base0::connect(signal0 *pclass)
{
connect(pclass, &signal0::operator());
}
//////////////////////////////////////////////////
template <class a1_t>
class _connection_base1 : public _connection_base
{
public:
virtual void SIGSLOT_INVOKE operator()(a1_t a1) const = 0;
};
template <class dest_t, class ret_t, class a1_t>
class _connection1 : public _connection_base1<a1_t>
{
public:
_connection1(dest_t *pobject, ret_t (dest_t::*pmemfun)(a1_t))
{
m_pobject = pobject;
m_pmemfun = pmemfun;
}
virtual void SIGSLOT_INVOKE operator()(a1_t a1) const
{
(m_pobject->*m_pmemfun)(a1);
}
virtual has_slots *dest() const
{
return m_pobject;
}
private:
dest_t *m_pobject;
ret_t (dest_t::*m_pmemfun)(a1_t);
};
template <class a1_t>
class signal1;
template <class a1_t>
class _signal_base1 : public _signal_base0
{
public:
template <class Dest_t, class dest_t, class ret_t>
void connect(Dest_t *pclass, ret_t (dest_t::*pmemfun)(a1_t))
{
_connect_to_has_slots(pclass);
_insert_connection(new _connection1<Dest_t, ret_t, a1_t>(pclass, pmemfun));
}
template <class Dest_t, class dest_t, class ret_t>
void connect(const Dest_t *pclass, ret_t (dest_t::*pmemfun)(a1_t) const)
{
connect((Dest_t *)pclass, (ret_t (dest_t::*)(a1_t))pmemfun);
}
void connect(signal1<a1_t> *pclass)
{
connect(pclass, &signal1<a1_t>::operator());
}
using _signal_base0::connect;
};
template <class a1_t>
class signal1 : public _signal_base1<a1_t>, public has_slots
{
public:
void operator()(a1_t a1) const
{
for (typename base::connections::const_iterator i = this->m_connected_slots.begin();
i != this->m_connected_slots.end(); ++i)
{
if (*i == NULL) continue;
(*(_connection_base1<a1_t> *)(*i))(a1);
}
}
typedef _signal_base1<a1_t> base;
};
//////////////////////////////////////////////////
template <class a1_t, class a2_t>
class _connection_base2 : public _connection_base
{
public:
virtual void SIGSLOT_INVOKE operator()(a1_t a1, a2_t a2) const = 0;
};
template <class dest_t, class ret_t, class a1_t, class a2_t>
class _connection2 : public _connection_base2<a1_t, a2_t>
{
public:
_connection2(dest_t *pobject, ret_t (dest_t::*pmemfun)(a1_t, a2_t))
{
m_pobject = pobject;
m_pmemfun = pmemfun;
}
virtual void SIGSLOT_INVOKE operator()(a1_t a1, a2_t a2) const
{
(m_pobject->*m_pmemfun)(a1, a2);
}
virtual has_slots *dest() const
{
return m_pobject;
}
private:
dest_t *m_pobject;
ret_t (dest_t::*m_pmemfun)(a1_t, a2_t);
};
template <class a1_t, class a2_t>
class signal2;
template <class a1_t, class a2_t>
class _signal_base2 : public _signal_base1<a1_t>
{
public:
template <class Dest_t, class dest_t, class ret_t>
void connect(Dest_t *pclass, ret_t (dest_t::*pmemfun)(a1_t, a2_t))
{
this->_connect_to_has_slots(pclass);
this->_insert_connection(
new _connection2<Dest_t, ret_t, a1_t, a2_t>(pclass, pmemfun));
}
template <class Dest_t, class dest_t, class ret_t>
void connect(const Dest_t *pclass, ret_t (dest_t::*pmemfun)(a1_t, a2_t) const)
{
connect((Dest_t *)pclass, (ret_t (dest_t::*)(a1_t, a2_t))pmemfun);
}
void connect(signal2<a1_t, a2_t> *pclass)
{
connect(pclass, &signal2<a1_t, a2_t>::operator());
}
using _signal_base1<a1_t>::connect;
};
template <class a1_t, class a2_t>
class signal2 : public _signal_base2<a1_t, a2_t>, public has_slots
{
public:
void operator()(a1_t a1, a2_t a2) const
{
for (typename base::connections::const_iterator i = this->m_connected_slots.begin();
i != this->m_connected_slots.end(); ++i)
{
if (*i == NULL) continue;
(*(_connection_base2<a1_t, a2_t> *)(*i))(a1, a2);
}
}
typedef _signal_base2<a1_t, a2_t> base;
};
//////////////////////////////////////////////////
template <class a1_t, class a2_t, class a3_t>
class _connection_base3 : public _connection_base
{
public:
virtual void SIGSLOT_INVOKE operator()(a1_t a1, a2_t a2, a3_t a3) const = 0;
};
template <class dest_t, class ret_t, class a1_t, class a2_t, class a3_t>
class _connection3 : public _connection_base3<a1_t, a2_t, a3_t>
{
public:
_connection3(dest_t *pobject, ret_t (dest_t::*pmemfun)(a1_t, a2_t, a3_t))
{
m_pobject = pobject;
m_pmemfun = pmemfun;
}
virtual void SIGSLOT_INVOKE operator()(a1_t a1, a2_t a2, a3_t a3) const
{
(m_pobject->*m_pmemfun)(a1, a2, a3);
}
virtual has_slots *dest() const
{
return m_pobject;
}
private:
dest_t *m_pobject;
ret_t (dest_t::*m_pmemfun)(a1_t, a2_t, a3_t);
};
template <class a1_t, class a2_t, class a3_t>
class signal3;
template <class a1_t, class a2_t, class a3_t>
class _signal_base3 : public _signal_base2<a1_t, a2_t>
{
public:
template <class Dest_t, class dest_t, class ret_t>
void connect(Dest_t *pclass, ret_t (dest_t::*pmemfun)(a1_t, a2_t, a3_t))
{
this->_connect_to_has_slots(pclass);
this->_insert_connection(
new _connection3<Dest_t, ret_t, a1_t, a2_t, a3_t>(pclass, pmemfun));
}
template <class Dest_t, class dest_t, class ret_t>
void connect(const Dest_t *pclass,
ret_t (dest_t::*pmemfun)(a1_t, a2_t, a3_t) const)
{
connect((Dest_t *)pclass, (ret_t (dest_t::*)(a1_t, a2_t, a3_t))pmemfun);
}
void connect(signal3<a1_t, a2_t, a3_t> *pclass)
{
connect(pclass, &signal3<a1_t, a2_t, a3_t>::operator());
}
using _signal_base2<a1_t, a2_t>::connect;
};
template <class a1_t, class a2_t, class a3_t>
class signal3 : public _signal_base3<a1_t, a2_t, a3_t>, public has_slots
{
public:
void operator()(a1_t a1, a2_t a2, a3_t a3) const
{
for (typename base::connections::const_iterator i = this->m_connected_slots.begin();
i != this->m_connected_slots.end(); ++i)
{
if (*i == NULL) continue;
(*(_connection_base3<a1_t, a2_t, a3_t> *)(*i))(a1, a2, a3);
}
}
typedef _signal_base3<a1_t, a2_t, a3_t> base;
};
//////////////////////////////////////////////////
template <class a1_t, class a2_t, class a3_t, class a4_t>
class _connection_base4 : public _connection_base
{
public:
virtual void SIGSLOT_INVOKE operator()(a1_t a1, a2_t a2, a3_t a3, a4_t a4) const = 0;
};
template <class dest_t, class ret_t, class a1_t, class a2_t, class a3_t, class a4_t>
class _connection4 : public _connection_base4<a1_t, a2_t, a3_t, a4_t>
{
public:
_connection4(dest_t *pobject,
ret_t (dest_t::*pmemfun)(a1_t, a2_t, a3_t, a4_t))
{
m_pobject = pobject;
m_pmemfun = pmemfun;
}
virtual void SIGSLOT_INVOKE operator()(a1_t a1, a2_t a2, a3_t a3, a4_t a4) const
{
(m_pobject->*m_pmemfun)(a1, a2, a3, a4);
}
virtual has_slots *dest() const
{
return m_pobject;
}
private:
dest_t *m_pobject;
ret_t (dest_t::*m_pmemfun)(a1_t, a2_t, a3_t, a4_t);
};
template <class a1_t, class a2_t, class a3_t, class a4_t>
class signal4;
template <class a1_t, class a2_t, class a3_t, class a4_t>
class _signal_base4 : public _signal_base3<a1_t, a2_t, a3_t>
{
public:
template <class Dest_t, class dest_t, class ret_t>
void connect(Dest_t *pclass,
ret_t (dest_t::*pmemfun)(a1_t, a2_t, a3_t, a4_t))
{
this->_connect_to_has_slots(pclass);
this->_insert_connection(
new _connection4<Dest_t,
ret_t, a1_t, a2_t, a3_t, a4_t>(pclass, pmemfun));
}
template <class Dest_t, class dest_t, class ret_t>
void connect(const Dest_t *pclass,
ret_t (dest_t::*pmemfun)(a1_t, a2_t, a3_t, a4_t) const)
{
connect((Dest_t *)pclass,
(ret_t (dest_t::*)(a1_t, a2_t, a3_t, a4_t))pmemfun);
}
void connect(signal4<a1_t, a2_t, a3_t, a4_t> *pclass)
{
connect(pclass, &signal4<a1_t, a2_t, a3_t, a4_t>::operator());
}
using _signal_base3<a1_t, a2_t, a3_t>::connect;
};
template <class a1_t, class a2_t, class a3_t, class a4_t>
class signal4 : public _signal_base4<a1_t, a2_t, a3_t, a4_t>, public has_slots
{
public:
void operator()(a1_t a1, a2_t a2, a3_t a3, a4_t a4) const
{
for (typename base::connections::const_iterator i = this->m_connected_slots.begin();
i != this->m_connected_slots.end(); ++i)
{
if (*i == NULL) continue;
(*(_connection_base4<a1_t, a2_t, a3_t, a4_t> *)(*i))(a1, a2, a3, a4);
}
}
typedef _signal_base4<a1_t, a2_t, a3_t, a4_t> base;
};
//////////////////////////////////////////////////
template <class a1_t, class a2_t, class a3_t, class a4_t, class a5_t>
class _connection_base5 : public _connection_base
{
public:
virtual void SIGSLOT_INVOKE operator()(a1_t a1, a2_t a2, a3_t a3, a4_t a4, a5_t a5) const = 0;
};
template <class dest_t, class ret_t, class a1_t, class a2_t,
class a3_t, class a4_t, class a5_t>
class _connection5 : public _connection_base5<a1_t, a2_t, a3_t, a4_t, a5_t>
{
public:
_connection5(dest_t *pobject,
ret_t (dest_t::*pmemfun)(a1_t, a2_t, a3_t, a4_t, a5_t))
{
m_pobject = pobject;
m_pmemfun = pmemfun;
}
virtual void SIGSLOT_INVOKE operator()(a1_t a1, a2_t a2, a3_t a3, a4_t a4, a5_t a5) const
{
(m_pobject->*m_pmemfun)(a1, a2, a3, a4, a5);
}
virtual has_slots *dest() const
{
return m_pobject;
}
private:
dest_t *m_pobject;
ret_t (dest_t::*m_pmemfun)(a1_t, a2_t, a3_t, a4_t, a5_t);
};
template <class a1_t, class a2_t, class a3_t, class a4_t, class a5_t>
class signal5;
template <class a1_t, class a2_t, class a3_t, class a4_t, class a5_t>
class _signal_base5 : public _signal_base4<a1_t, a2_t, a3_t, a4_t>
{
public:
template <class Dest_t, class dest_t, class ret_t>
void connect(Dest_t *pclass,
ret_t (dest_t::*pmemfun)(a1_t, a2_t, a3_t, a4_t, a5_t))
{
this->_connect_to_has_slots(pclass);
this->_insert_connection(
new _connection5<Dest_t,
ret_t, a1_t, a2_t, a3_t, a4_t, a5_t>(pclass, pmemfun));
}
template <class Dest_t, class dest_t, class ret_t>
void connect(const Dest_t *pclass,
ret_t (dest_t::*pmemfun)(a1_t, a2_t, a3_t, a4_t, a5_t) const)
{
connect((Dest_t *)pclass,
(ret_t (dest_t::*)(a1_t, a2_t, a3_t, a4_t, a5_t))pmemfun);
}
void connect(signal5<a1_t, a2_t, a3_t, a4_t, a5_t> *pclass)
{
connect(pclass, &signal5<a1_t, a2_t, a3_t, a4_t, a5_t>::operator());
}
using _signal_base4<a1_t, a2_t, a3_t, a4_t>::connect;
};
template <class a1_t, class a2_t, class a3_t, class a4_t, class a5_t>
class signal5 : public _signal_base5<a1_t, a2_t, a3_t, a4_t, a5_t>, public has_slots
{
public:
void operator()(a1_t a1, a2_t a2, a3_t a3, a4_t a4, a5_t a5) const
{
for (typename base::connections::const_iterator i = this->m_connected_slots.begin();
i != this->m_connected_slots.end(); ++i)
{
if (*i == NULL) continue;
(*(_connection_base5<a1_t, a2_t, a3_t,
a4_t, a5_t> *)(*i))(a1, a2, a3, a4, a5);
}
}
typedef _signal_base5<a1_t, a2_t, a3_t, a4_t, a5_t> base;
};
//////////////////////////////////////////////////
template <class a1_t, class a2_t, class a3_t, class a4_t, class a5_t, class a6_t>
class _connection_base6 : public _connection_base
{
public:
virtual void SIGSLOT_INVOKE operator()(a1_t a1, a2_t a2, a3_t a3,
a4_t a4, a5_t a5, a6_t a6) const = 0;
};
template <class dest_t, class ret_t, class a1_t, class a2_t,
class a3_t, class a4_t, class a5_t, class a6_t>
class _connection6 : public _connection_base6<a1_t, a2_t, a3_t, a4_t, a5_t, a6_t>
{
public:
_connection6(dest_t *pobject,
ret_t (dest_t::*pmemfun)(a1_t, a2_t, a3_t, a4_t, a5_t, a6_t))
{
m_pobject = pobject;
m_pmemfun = pmemfun;
}
virtual void SIGSLOT_INVOKE operator()(a1_t a1, a2_t a2, a3_t a3,
a4_t a4, a5_t a5, a6_t a6) const
{
(m_pobject->*m_pmemfun)(a1, a2, a3, a4, a5, a6);
}
virtual has_slots *dest() const
{
return m_pobject;
}
private:
dest_t *m_pobject;
ret_t (dest_t::*m_pmemfun)(a1_t, a2_t, a3_t, a4_t, a5_t, a6_t);
};
template <class a1_t, class a2_t, class a3_t, class a4_t, class a5_t, class a6_t>
class signal6;
template <class a1_t, class a2_t, class a3_t, class a4_t, class a5_t, class a6_t>
class _signal_base6 : public _signal_base5<a1_t, a2_t, a3_t, a4_t, a5_t>
{
public:
template <class Dest_t, class dest_t, class ret_t>
void connect(Dest_t *pclass,
ret_t (dest_t::*pmemfun)(a1_t, a2_t, a3_t, a4_t, a5_t, a6_t))
{
this->_connect_to_has_slots(pclass);
this->_insert_connection(new _connection6<Dest_t,
ret_t, a1_t, a2_t, a3_t, a4_t, a5_t, a6_t>(pclass, pmemfun));
}
template <class Dest_t, class dest_t, class ret_t>
void connect(const Dest_t *pclass,
ret_t (dest_t::*pmemfun)(a1_t, a2_t, a3_t, a4_t, a5_t, a6_t) const)
{
connect((Dest_t *)pclass,
(ret_t (dest_t::*)(a1_t, a2_t, a3_t, a4_t, a5_t, a6_t))pmemfun);
}
void connect(signal6<a1_t, a2_t, a3_t, a4_t, a5_t, a6_t> *pclass)
{
connect(pclass, &signal6<a1_t, a2_t, a3_t, a4_t, a5_t, a6_t>::operator());
}
using _signal_base5<a1_t, a2_t, a3_t, a4_t, a5_t>::connect;
};
template <class a1_t, class a2_t, class a3_t, class a4_t, class a5_t, class a6_t>
class signal6 : public _signal_base6<a1_t, a2_t, a3_t, a4_t, a5_t, a6_t>,
public has_slots
{
public:
void operator()(a1_t a1, a2_t a2, a3_t a3, a4_t a4, a5_t a5, a6_t a6) const
{
for (typename base::connections::const_iterator i = this->m_connected_slots.begin();
i != this->m_connected_slots.end(); ++i)
{
if (*i == NULL) continue;
(*(_connection_base6<a1_t, a2_t, a3_t,
a4_t, a5_t, a6_t> *)(*i))(a1, a2, a3, a4, a5, a6);
}
}
typedef _signal_base6<a1_t, a2_t, a3_t, a4_t, a5_t, a6_t> base;
};
//////////////////////////////////////////////////
template <class a1_t, class a2_t, class a3_t, class a4_t,
class a5_t, class a6_t, class a7_t>
class _connection_base7 : public _connection_base
{
public:
virtual void SIGSLOT_INVOKE operator()(a1_t a1, a2_t a2, a3_t a3,
a4_t a4, a5_t a5, a6_t a6, a7_t a7) const = 0;
};
template <class dest_t, class ret_t, class a1_t, class a2_t,
class a3_t, class a4_t, class a5_t, class a6_t, class a7_t>
class _connection7 : public _connection_base7<a1_t, a2_t,
a3_t, a4_t, a5_t, a6_t, a7_t>
{
public:
_connection7(dest_t *pobject, ret_t (dest_t::*pmemfun)(a1_t,
a2_t, a3_t, a4_t, a5_t, a6_t, a7_t))
{
m_pobject = pobject;
m_pmemfun = pmemfun;
}
virtual void SIGSLOT_INVOKE operator()(a1_t a1, a2_t a2, a3_t a3,
a4_t a4, a5_t a5, a6_t a6, a7_t a7) const
{
(m_pobject->*m_pmemfun)(a1, a2, a3, a4, a5, a6, a7);
}
virtual has_slots *dest() const
{
return m_pobject;
}
private:
dest_t *m_pobject;
ret_t (dest_t::*m_pmemfun)(a1_t, a2_t, a3_t, a4_t, a5_t, a6_t, a7_t);
};
template <class a1_t, class a2_t, class a3_t, class a4_t,
class a5_t, class a6_t, class a7_t>
class signal7;
template <class a1_t, class a2_t, class a3_t, class a4_t,
class a5_t, class a6_t, class a7_t>
class _signal_base7 : public _signal_base6<a1_t, a2_t, a3_t, a4_t, a5_t, a6_t>
{
public:
template <class Dest_t, class dest_t, class ret_t>
void connect(Dest_t *pclass, ret_t (dest_t::*pmemfun)(a1_t,
a2_t, a3_t, a4_t, a5_t, a6_t, a7_t))
{
this->_connect_to_has_slots(pclass);
this->_insert_connection(new _connection7<Dest_t, ret_t, a1_t, a2_t,
a3_t, a4_t, a5_t, a6_t, a7_t>(pclass, pmemfun));
}
template <class Dest_t, class dest_t, class ret_t>
void connect(const Dest_t *pclass, ret_t (dest_t::*pmemfun)(a1_t,
a2_t, a3_t, a4_t, a5_t, a6_t, a7_t) const)
{
connect((Dest_t *)pclass, (ret_t (dest_t::*)(a1_t, a2_t, a3_t,
a4_t, a5_t, a6_t, a7_t))pmemfun);
}
void connect(signal7<a1_t, a2_t, a3_t, a4_t, a5_t, a6_t, a7_t> *pclass)
{
connect(pclass, &signal7<a1_t, a2_t, a3_t, a4_t,
a5_t, a6_t, a7_t>::operator());
}
using _signal_base6<a1_t, a2_t, a3_t, a4_t, a5_t, a6_t>::connect;
};
template <class a1_t, class a2_t, class a3_t, class a4_t,
class a5_t, class a6_t, class a7_t>
class signal7 : public _signal_base7<a1_t, a2_t, a3_t, a4_t, a5_t, a6_t, a7_t>,
public has_slots
{
public:
void operator()(a1_t a1, a2_t a2, a3_t a3, a4_t a4,
a5_t a5, a6_t a6, a7_t a7) const
{
for (typename base::connections::const_iterator i = this->m_connected_slots.begin();
i != this->m_connected_slots.end(); ++i)
{
if (*i == NULL) continue;
(*(_connection_base7<a1_t, a2_t, a3_t,
a4_t, a5_t, a6_t, a7_t> *)(*i))(a1, a2, a3, a4, a5, a6, a7);
}
}
typedef _signal_base7<a1_t, a2_t, a3_t, a4_t, a5_t, a6_t, a7_t> base;
};
//////////////////////////////////////////////////
template <class a1_t, class a2_t, class a3_t, class a4_t,
class a5_t, class a6_t, class a7_t, class a8_t>
class _connection_base8 : public _connection_base
{
public:
virtual void SIGSLOT_INVOKE operator()(a1_t a1, a2_t a2, a3_t a3,
a4_t a4, a5_t a5, a6_t a6, a7_t a7, a8_t a8) const = 0;
};
template <class dest_t, class ret_t, class a1_t, class a2_t,
class a3_t, class a4_t, class a5_t, class a6_t, class a7_t, class a8_t>
class _connection8 : public _connection_base8<a1_t, a2_t,
a3_t, a4_t, a5_t, a6_t, a7_t, a8_t>
{
public:
_connection8(dest_t *pobject, ret_t (dest_t::*pmemfun)(a1_t,
a2_t, a3_t, a4_t, a5_t, a6_t, a7_t, a8_t))
{
m_pobject = pobject;
m_pmemfun = pmemfun;
}
virtual void SIGSLOT_INVOKE operator()(a1_t a1, a2_t a2, a3_t a3,
a4_t a4, a5_t a5, a6_t a6, a7_t a7, a8_t a8) const
{
(m_pobject->*m_pmemfun)(a1, a2, a3, a4, a5, a6, a7, a8);
}
virtual has_slots *dest() const
{
return m_pobject;
}
private:
dest_t *m_pobject;
ret_t (dest_t::*m_pmemfun)(a1_t, a2_t, a3_t,
a4_t, a5_t, a6_t, a7_t, a8_t);
};
template <class a1_t, class a2_t, class a3_t, class a4_t,
class a5_t, class a6_t, class a7_t, class a8_t>
class signal8;
template <class a1_t, class a2_t, class a3_t, class a4_t,
class a5_t, class a6_t, class a7_t, class a8_t>
class _signal_base8 :
public _signal_base7<a1_t, a2_t, a3_t, a4_t, a5_t, a6_t, a7_t>
{
public:
template <class Dest_t, class dest_t, class ret_t>
void connect(Dest_t *pclass, ret_t (dest_t::*pmemfun)(a1_t,
a2_t, a3_t, a4_t, a5_t, a6_t, a7_t, a8_t))
{
this->_connect_to_has_slots(pclass);
this->_insert_connection(new _connection8<Dest_t, ret_t, a1_t, a2_t,
a3_t, a4_t, a5_t, a6_t, a7_t, a8_t>(pclass, pmemfun));
}
template <class Dest_t, class dest_t, class ret_t>
void connect(const Dest_t *pclass, ret_t (dest_t::*pmemfun)(a1_t,
a2_t, a3_t, a4_t, a5_t, a6_t, a7_t, a8_t) const)
{
connect((Dest_t *)pclass, (ret_t (dest_t::*)(a1_t, a2_t, a3_t,
a4_t, a5_t, a6_t, a7_t, a8_t))pmemfun);
}
void connect(signal8<a1_t, a2_t, a3_t, a4_t,
a5_t, a6_t, a7_t, a8_t> *pclass)
{
connect(pclass, &signal8<a1_t, a2_t, a3_t, a4_t,
a5_t, a6_t, a7_t, a8_t>::operator());
}
using _signal_base7<a1_t, a2_t, a3_t, a4_t, a5_t, a6_t, a7_t>::connect;
};
template <class a1_t, class a2_t, class a3_t, class a4_t,
class a5_t, class a6_t, class a7_t, class a8_t>
class signal8 : public _signal_base8<a1_t, a2_t, a3_t, a4_t,
a5_t, a6_t, a7_t, a8_t>, public has_slots
{
public:
void operator()(a1_t a1, a2_t a2, a3_t a3, a4_t a4,
a5_t a5, a6_t a6, a7_t a7, a8_t a8) const
{
for (typename base::connections::const_iterator i = this->m_connected_slots.begin();
i != this->m_connected_slots.end(); ++i)
{
if (*i == NULL) continue;
(*(_connection_base8<a1_t, a2_t, a3_t,
a4_t, a5_t, a6_t, a7_t, a8_t> *)(*i))(a1, a2, a3, a4, a5, a6, a7, a8);
}
}
typedef _signal_base8<a1_t, a2_t, a3_t, a4_t, a5_t, a6_t, a7_t, a8_t> base;
};
} // namespace sigslot
#endif // SIGSLOT_H__