Prepare the Slot classes to be used independently of Signals

Added some polish around them and, to mark this special occasion, moved them out of the SigImpl namespace. PS: This partially reverts commit 0775350fee345e37fb59835dda4d85664346b606, since I had to reintroduce ReturnType template parameter, because it will be used in other places. But Signal classes remain without the ReturnType, because I still cannot imagine how would it be used.
author: Pavel Labath <pavelo@centrum.sk> 2011-05-19 10:32:42 (GMT)
committer: Pavel Labath <pavelo@centrum.sk> 2011-09-14 17:39:10 (GMT)
commit: 7bca844581a38fbf46f8a3761cbd5e31bd9005d6 (patch)
tree: 14c1a7ceae330b4bcb3310284e508269cc2b0044
parent: 0a40d1caf3180538d83c7016939d91c7beaf6c2c (diff)
download: fluxbox_paul-7bca844581a38fbf46f8a3761cbd5e31bd9005d6.zip
fluxbox_paul-7bca844581a38fbf46f8a3761cbd5e31bd9005d6.tar.bz2
2 files changed, 117 insertions, 64 deletions
diff --git a/src/FbTk/Signal.hh b/src/FbTk/Signal.hh
index 0148a17..31fd840 100644
--- a/src/FbTk/Signal.hh
+++ b/src/FbTk/Signal.hh
@@ -22,6 +22,7 @@
 #ifndef FBTK_SIGNAL_HH
 #define FBTK_SIGNAL_HH
+#include "RefCount.hh"
 #include "Slot.hh"
 #include <algorithm>
 #include <list>
@@ -120,66 +121,90 @@ private:
    unsigned m_emitting;
 };
-template <typename Arg1, typename Arg2, typename Arg3>
+} // namespace SigImpl
-class SignalTemplate: public SignalHolder {
-public:
-    template<typename Functor>
-    SlotID connect(const Functor& functor) {
-        return SignalHolder::connect(SlotPtr( new Slot<Arg1, Arg2, Arg3, Functor>(functor) ));
-    }
-protected:
-    void emit_(Arg1 arg1, Arg2 arg2, Arg3 arg3) {
+/// Specialization for three arguments.
+template <typename Arg1 = SigImpl::EmptyArg, typename Arg2 = SigImpl::EmptyArg, typename Arg3 = SigImpl::EmptyArg >
+class Signal: public SigImpl::SignalHolder {
+public:
+    void emit(Arg1 arg1, Arg2 arg2, Arg3 arg3) {
        begin_emitting();
        for ( Iterator it = begin(); it != end(); ++it ) {
            if(*it)
-                static_cast<SigImpl::SlotTemplate<Arg1, Arg2, Arg3> &>(**it)(arg1, arg2, arg3);
+                static_cast<Slot<void, Arg1, Arg2, Arg3> &>(**it)(arg1, arg2, arg3);
        }
        end_emitting();
    }
-};
-} // namespace SigImpl
+    template<typename Functor>
-/// Base template for three arguments.
+    SlotID connect(const Functor& functor) {
-template <typename Arg1 = SigImpl::EmptyArg, typename Arg2 = SigImpl::EmptyArg, typename Arg3 = SigImpl::EmptyArg >
+        return SignalHolder::connect(SlotPtr(
-class Signal: public SigImpl::SignalTemplate<Arg1, Arg2, Arg3> {
+                        new SlotImpl<Functor, void, Arg1, Arg2, Arg3>(functor)
-public:
+                    ));
-    void emit(Arg1 arg1, Arg2 arg2, Arg3 arg3)
+    }
-    { SigImpl::SignalTemplate<Arg1, Arg2, Arg3>::emit_(arg1, arg2, arg3); }
 };
 /// Specialization for two arguments.
 template <typename Arg1, typename Arg2>
-class Signal<Arg1, Arg2, SigImpl::EmptyArg>:
+class Signal<Arg1, Arg2, SigImpl::EmptyArg>: public SigImpl::SignalHolder {
-        public SigImpl::SignalTemplate<Arg1, Arg2, SigImpl::EmptyArg> {
 public:
    void emit(Arg1 arg1, Arg2 arg2) {
-        SigImpl::SignalTemplate<Arg1, Arg2, SigImpl::EmptyArg>::
+        begin_emitting();
-            emit_(arg1, arg2, SigImpl::EmptyArg());
+        for ( Iterator it = begin(); it != end(); ++it ) {
+            if(*it)
+                static_cast<Slot<void, Arg1, Arg2> &>(**it)(arg1, arg2);
+        }
+        end_emitting();
+    }
+    template<typename Functor>
+    SlotID connect(const Functor& functor) {
+        return SignalHolder::connect(SlotPtr(
+                        new SlotImpl<Functor, void, Arg1, Arg2>(functor)
+                    ));
    }
 };
 /// Specialization for one argument.
 template <typename Arg1>
-class Signal<Arg1, SigImpl::EmptyArg, SigImpl::EmptyArg>:
+class Signal<Arg1, SigImpl::EmptyArg, SigImpl::EmptyArg>: public SigImpl::SignalHolder {
-        public SigImpl::SignalTemplate<Arg1, SigImpl::EmptyArg, SigImpl::EmptyArg> {
 public:
-    void emit(Arg1 arg1) {
+    void emit(Arg1 arg) {
-        SigImpl::SignalTemplate<Arg1, SigImpl::EmptyArg, SigImpl::EmptyArg>
+        begin_emitting();
-            ::emit_(arg1, SigImpl::EmptyArg(), SigImpl::EmptyArg());
+        for ( Iterator it = begin(); it != end(); ++it ) {
+            if(*it)
+                static_cast<Slot<void, Arg1> &>(**it)(arg);
+        }
+        end_emitting();
+    }
+    template<typename Functor>
+    SlotID connect(const Functor& functor) {
+        return SignalHolder::connect(SlotPtr(
+                        new SlotImpl<Functor, void, Arg1>(functor)
+                    ));
    }
 };
 /// Specialization for no arguments.
 template <>
-class Signal<SigImpl::EmptyArg, SigImpl::EmptyArg, SigImpl::EmptyArg>:
+class Signal<SigImpl::EmptyArg, SigImpl::EmptyArg, SigImpl::EmptyArg>: public SigImpl::SignalHolder {
-        public SigImpl::SignalTemplate<SigImpl::EmptyArg, SigImpl::EmptyArg, SigImpl::EmptyArg> {
 public:
    void emit() {
-        SigImpl::SignalTemplate<SigImpl::EmptyArg, SigImpl::EmptyArg, SigImpl::EmptyArg>
+        begin_emitting();
-            ::emit_(SigImpl::EmptyArg(), SigImpl::EmptyArg(), SigImpl::EmptyArg());
+        for ( Iterator it = begin(); it != end(); ++it ) {
+            if(*it)
+                static_cast<Slot<void> &>(**it)();
+        }
+        end_emitting();
+    }
+    template<typename Functor>
+    SlotID connect(const Functor& functor) {
+        return SignalHolder::connect(SlotPtr(
+                        new SlotImpl<Functor, void>(functor)
+                    ));
    }
 };
diff --git a/src/FbTk/Slot.hh b/src/FbTk/Slot.hh
index ea7ee2f..71bf6ab 100644
--- a/src/FbTk/Slot.hh
+++ b/src/FbTk/Slot.hh
@@ -22,7 +22,7 @@
 #ifndef FBTK_SLOT_HH
 #define FBTK_SLOT_HH
-#include "RefCount.hh"
+#include "NotCopyable.hh"
 namespace FbTk {
@@ -31,71 +31,99 @@ namespace SigImpl {
 struct EmptyArg {};
-class SlotBase {
+/** A base class for all slots. It's purpose is to provide a virtual destructor and to enable the
+ * Signal class to hold a pointer to a generic slot.
+ */
+class SlotBase: private FbTk::NotCopyable {
 public:
    virtual ~SlotBase() {}
 };
-template<typename Arg1, typename Arg2, typename Arg3>
+} // namespace SigImpl
-class SlotTemplate: public SlotBase {
+/** Declares a pure virtual function call operator with a specific number of arguments (depending
+ * on the template specialization). This allows us to "call" any functor in an opaque way.
+ */
+template<typename ReturnType, typename Arg1 = SigImpl::EmptyArg,
+         typename Arg2 = SigImpl::EmptyArg, typename Arg3 = SigImpl::EmptyArg>
+class Slot: public SigImpl::SlotBase {
+public:
+    virtual ReturnType operator()(Arg1, Arg2, Arg3) = 0;
+};
+/// Specialization for two arguments
+template<typename ReturnType, typename Arg1, typename Arg2>
+class Slot<ReturnType, Arg1, Arg2, SigImpl::EmptyArg>: public SigImpl::SlotBase {
+public:
+    virtual ReturnType operator()(Arg1, Arg2) = 0;
+};
+/// Specialization for one argument
+template<typename ReturnType, typename Arg1>
+class Slot<ReturnType, Arg1, SigImpl::EmptyArg, SigImpl::EmptyArg>: public SigImpl::SlotBase {
+public:
+    virtual ReturnType operator()(Arg1) = 0;
+};
+/// Specialization for no arguments
+template<typename ReturnType>
+class Slot<ReturnType, SigImpl::EmptyArg, SigImpl::EmptyArg, SigImpl::EmptyArg>: public SigImpl::SlotBase {
 public:
-    virtual void operator()(Arg1, Arg2, Arg3) = 0;
+    virtual ReturnType operator()() = 0;
 };
-template<typename Arg1, typename Arg2, typename Arg3, typename Functor>
+/** A class which knows how to call a specific functor. It inherits from Slot and implemetents
-class Slot: public SlotTemplate<Arg1, Arg2, Arg3> {
+ * the function call operator
+ */
+template<typename Functor, typename ReturnType, typename Arg1 = SigImpl::EmptyArg,
+         typename Arg2 = SigImpl::EmptyArg, typename Arg3 = SigImpl::EmptyArg>
+class SlotImpl: public Slot<ReturnType, Arg1, Arg2, Arg3> {
 public:
-    virtual void operator()(Arg1 arg1, Arg2 arg2, Arg3 arg3)
+    virtual ReturnType operator()(Arg1 arg1, Arg2 arg2, Arg3 arg3)
-    { m_functor(arg1, arg2, arg3); }
+    { return m_functor(arg1, arg2, arg3); }
-    Slot(Functor functor) : m_functor(functor) {}
+    SlotImpl(Functor functor) : m_functor(functor) {}
 private:
    Functor m_functor;
 };
-// specialization for two arguments
+/// Specialization for two arguments
-template<typename Arg1, typename Arg2, typename Functor>
+template<typename Functor, typename ReturnType, typename Arg1, typename Arg2>
-class Slot<Arg1, Arg2, EmptyArg, Functor>: public SlotTemplate<Arg1, Arg2, EmptyArg> {
+class SlotImpl<Functor, ReturnType, Arg1, Arg2, SigImpl::EmptyArg>: public Slot<ReturnType, Arg1, Arg2> {
 public:
-    virtual void operator()(Arg1 arg1, Arg2 arg2, EmptyArg)
+    virtual ReturnType operator()(Arg1 arg1, Arg2 arg2) { return m_functor(arg1, arg2); }
-    { m_functor(arg1, arg2); }
-    Slot(Functor functor) : m_functor(functor) {}
+    SlotImpl(Functor functor) : m_functor(functor) {}
 private:
    Functor m_functor;
 };
-// specialization for one argument
+/// Specialization for one argument
-template<typename Arg1, typename Functor>
+template<typename Functor, typename ReturnType, typename Arg1>
-class Slot<Arg1, EmptyArg, EmptyArg, Functor>: public SlotTemplate<Arg1, EmptyArg, EmptyArg> {
+class SlotImpl<Functor, ReturnType, Arg1, SigImpl::EmptyArg, SigImpl::EmptyArg>: public Slot<ReturnType, Arg1> {
 public:
-    virtual void operator()(Arg1 arg1, EmptyArg, EmptyArg)
+    virtual ReturnType operator()(Arg1 arg1) { return m_functor(arg1); }
-    { m_functor(arg1); }
-    Slot(Functor functor) : m_functor(functor) {}
+    SlotImpl(Functor functor) : m_functor(functor) {}
 private:
    Functor m_functor;
 };
-// specialization for no arguments
+/// Specialization for no arguments
-template<typename Functor>
+template<typename Functor, typename ReturnType>
-class Slot<EmptyArg, EmptyArg, EmptyArg, Functor>: public SlotTemplate<EmptyArg, EmptyArg, EmptyArg> {
+class SlotImpl<Functor, ReturnType, SigImpl::EmptyArg, SigImpl::EmptyArg, SigImpl::EmptyArg>: public Slot<ReturnType> {
 public:
-    virtual void operator()(EmptyArg, EmptyArg, EmptyArg)
+    virtual ReturnType operator()() { return m_functor(); }
-    { m_functor(); }
-    Slot(Functor functor) : m_functor(functor) {}
+    SlotImpl(Functor functor) : m_functor(functor) {}
 private:
    Functor m_functor;
 };
-} // namespace SigImpl
 } // namespace FbTk
 #endif // FBTK_SLOT_H
author	Pavel Labath <pavelo@centrum.sk>	2011-05-19 10:32:42 (GMT)
committer	Pavel Labath <pavelo@centrum.sk>	2011-09-14 17:39:10 (GMT)
commit	7bca844581a38fbf46f8a3761cbd5e31bd9005d6 (patch)
tree	14c1a7ceae330b4bcb3310284e508269cc2b0044
parent	0a40d1caf3180538d83c7016939d91c7beaf6c2c (diff)
download	fluxbox_paul-7bca844581a38fbf46f8a3761cbd5e31bd9005d6.zip fluxbox_paul-7bca844581a38fbf46f8a3761cbd5e31bd9005d6.tar.bz2

diff --git a/src/FbTk/Signal.hh b/src/FbTk/Signal.hh index 0148a17..31fd840 100644 --- a/src/FbTk/Signal.hh +++ b/src/FbTk/Signal.hh
@@ -22,6 +22,7 @@
22	#ifndef FBTK_SIGNAL_HH	22	#ifndef FBTK_SIGNAL_HH
23	#define FBTK_SIGNAL_HH	23	#define FBTK_SIGNAL_HH
24		24
		25	#include "RefCount.hh"
25	#include "Slot.hh"	26	#include "Slot.hh"
26	#include <algorithm>	27	#include <algorithm>
27	#include <list>	28	#include <list>
@@ -120,66 +121,90 @@ private:
120	unsigned m_emitting;	121	unsigned m_emitting;
121	};	122	};
122		123
123	template <typename Arg1, typename Arg2, typename Arg3>	124	} // namespace SigImpl
124	class SignalTemplate: public SignalHolder {
125	public:
126	template<typename Functor>
127	SlotID connect(const Functor& functor) {
128	return SignalHolder::connect(SlotPtr( new Slot<Arg1, Arg2, Arg3, Functor>(functor) ));
129	}
130		125
131	protected:	126
132	void emit_(Arg1 arg1, Arg2 arg2, Arg3 arg3) {	127	/// Specialization for three arguments.
		128	template <typename Arg1 = SigImpl::EmptyArg, typename Arg2 = SigImpl::EmptyArg, typename Arg3 = SigImpl::EmptyArg >
		129	class Signal: public SigImpl::SignalHolder {
		130	public:
		131	void emit(Arg1 arg1, Arg2 arg2, Arg3 arg3) {
133	begin_emitting();	132	begin_emitting();
134	for ( Iterator it = begin(); it != end(); ++it ) {	133	for ( Iterator it = begin(); it != end(); ++it ) {
135	if(*it)	134	if(*it)
136	static_cast<SigImpl::SlotTemplate<Arg1, Arg2, Arg3> &>(**it)(arg1, arg2, arg3);	135	static_cast<Slot<void, Arg1, Arg2, Arg3> &>(**it)(arg1, arg2, arg3);
137	}	136	}
138	end_emitting();	137	end_emitting();
139	}	138	}
140	};
141
142	} // namespace SigImpl
143		139
144		140	template<typename Functor>
145	/// Base template for three arguments.	141	SlotID connect(const Functor& functor) {
146	template <typename Arg1 = SigImpl::EmptyArg, typename Arg2 = SigImpl::EmptyArg, typename Arg3 = SigImpl::EmptyArg >	142	return SignalHolder::connect(SlotPtr(
147	class Signal: public SigImpl::SignalTemplate<Arg1, Arg2, Arg3> {	143	new SlotImpl<Functor, void, Arg1, Arg2, Arg3>(functor)
148	public:	144	));
149	void emit(Arg1 arg1, Arg2 arg2, Arg3 arg3)	145	}
150	{ SigImpl::SignalTemplate<Arg1, Arg2, Arg3>::emit_(arg1, arg2, arg3); }
151	};	146	};
152		147
153	/// Specialization for two arguments.	148	/// Specialization for two arguments.
154	template <typename Arg1, typename Arg2>	149	template <typename Arg1, typename Arg2>
155	class Signal<Arg1, Arg2, SigImpl::EmptyArg>:	150	class Signal<Arg1, Arg2, SigImpl::EmptyArg>: public SigImpl::SignalHolder {
156	public SigImpl::SignalTemplate<Arg1, Arg2, SigImpl::EmptyArg> {
157	public:	151	public:
158	void emit(Arg1 arg1, Arg2 arg2) {	152	void emit(Arg1 arg1, Arg2 arg2) {
159	SigImpl::SignalTemplate<Arg1, Arg2, SigImpl::EmptyArg>::	153	begin_emitting();
160	emit_(arg1, arg2, SigImpl::EmptyArg());	154	for ( Iterator it = begin(); it != end(); ++it ) {
		155	if(*it)
		156	static_cast<Slot<void, Arg1, Arg2> &>(**it)(arg1, arg2);
		157	}
		158	end_emitting();
		159	}
		160
		161	template<typename Functor>
		162	SlotID connect(const Functor& functor) {
		163	return SignalHolder::connect(SlotPtr(
		164	new SlotImpl<Functor, void, Arg1, Arg2>(functor)
		165	));
161	}	166	}
162	};	167	};
163		168
164	/// Specialization for one argument.	169	/// Specialization for one argument.
165	template <typename Arg1>	170	template <typename Arg1>
166	class Signal<Arg1, SigImpl::EmptyArg, SigImpl::EmptyArg>:	171	class Signal<Arg1, SigImpl::EmptyArg, SigImpl::EmptyArg>: public SigImpl::SignalHolder {
167	public SigImpl::SignalTemplate<Arg1, SigImpl::EmptyArg, SigImpl::EmptyArg> {
168	public:	172	public:
169	void emit(Arg1 arg1) {	173	void emit(Arg1 arg) {
170	SigImpl::SignalTemplate<Arg1, SigImpl::EmptyArg, SigImpl::EmptyArg>	174	begin_emitting();
171	::emit_(arg1, SigImpl::EmptyArg(), SigImpl::EmptyArg());	175	for ( Iterator it = begin(); it != end(); ++it ) {
		176	if(*it)
		177	static_cast<Slot<void, Arg1> &>(**it)(arg);
		178	}
		179	end_emitting();
		180	}
		181
		182	template<typename Functor>
		183	SlotID connect(const Functor& functor) {
		184	return SignalHolder::connect(SlotPtr(
		185	new SlotImpl<Functor, void, Arg1>(functor)
		186	));
172	}	187	}
173	};	188	};
174		189
175	/// Specialization for no arguments.	190	/// Specialization for no arguments.
176	template <>	191	template <>
177	class Signal<SigImpl::EmptyArg, SigImpl::EmptyArg, SigImpl::EmptyArg>:	192	class Signal<SigImpl::EmptyArg, SigImpl::EmptyArg, SigImpl::EmptyArg>: public SigImpl::SignalHolder {
178	public SigImpl::SignalTemplate<SigImpl::EmptyArg, SigImpl::EmptyArg, SigImpl::EmptyArg> {
179	public:	193	public:
180	void emit() {	194	void emit() {
181	SigImpl::SignalTemplate<SigImpl::EmptyArg, SigImpl::EmptyArg, SigImpl::EmptyArg>	195	begin_emitting();
182	::emit_(SigImpl::EmptyArg(), SigImpl::EmptyArg(), SigImpl::EmptyArg());	196	for ( Iterator it = begin(); it != end(); ++it ) {
		197	if(*it)
		198	static_cast<Slot<void> &>(**it)();
		199	}
		200	end_emitting();
		201	}
		202
		203	template<typename Functor>
		204	SlotID connect(const Functor& functor) {
		205	return SignalHolder::connect(SlotPtr(
		206	new SlotImpl<Functor, void>(functor)
		207	));
183	}	208	}
184	};	209	};
185		210


diff --git a/src/FbTk/Slot.hh b/src/FbTk/Slot.hh index ea7ee2f..71bf6ab 100644 --- a/src/FbTk/Slot.hh +++ b/src/FbTk/Slot.hh
@@ -22,7 +22,7 @@
22	#ifndef FBTK_SLOT_HH	22	#ifndef FBTK_SLOT_HH
23	#define FBTK_SLOT_HH	23	#define FBTK_SLOT_HH
24		24
25	#include "RefCount.hh"	25	#include "NotCopyable.hh"
26		26
27	namespace FbTk {	27	namespace FbTk {
28		28
@@ -31,71 +31,99 @@ namespace SigImpl {
31		31
32	struct EmptyArg {};	32	struct EmptyArg {};
33		33
34	class SlotBase {	34	/** A base class for all slots. It's purpose is to provide a virtual destructor and to enable the
		35	* Signal class to hold a pointer to a generic slot.
		36	*/
		37	class SlotBase: private FbTk::NotCopyable {
35	public:	38	public:
36	virtual ~SlotBase() {}	39	virtual ~SlotBase() {}
37	};	40	};
38		41
39	template<typename Arg1, typename Arg2, typename Arg3>	42	} // namespace SigImpl
40	class SlotTemplate: public SlotBase {	43
		44	/** Declares a pure virtual function call operator with a specific number of arguments (depending
		45	* on the template specialization). This allows us to "call" any functor in an opaque way.
		46	*/
		47	template<typename ReturnType, typename Arg1 = SigImpl::EmptyArg,
		48	typename Arg2 = SigImpl::EmptyArg, typename Arg3 = SigImpl::EmptyArg>
		49	class Slot: public SigImpl::SlotBase {
		50	public:
		51	virtual ReturnType operator()(Arg1, Arg2, Arg3) = 0;
		52	};
		53
		54	/// Specialization for two arguments
		55	template<typename ReturnType, typename Arg1, typename Arg2>
		56	class Slot<ReturnType, Arg1, Arg2, SigImpl::EmptyArg>: public SigImpl::SlotBase {
		57	public:
		58	virtual ReturnType operator()(Arg1, Arg2) = 0;
		59	};
		60
		61	/// Specialization for one argument
		62	template<typename ReturnType, typename Arg1>
		63	class Slot<ReturnType, Arg1, SigImpl::EmptyArg, SigImpl::EmptyArg>: public SigImpl::SlotBase {
		64	public:
		65	virtual ReturnType operator()(Arg1) = 0;
		66	};
		67
		68	/// Specialization for no arguments
		69	template<typename ReturnType>
		70	class Slot<ReturnType, SigImpl::EmptyArg, SigImpl::EmptyArg, SigImpl::EmptyArg>: public SigImpl::SlotBase {
41	public:	71	public:
42	virtual void operator()(Arg1, Arg2, Arg3) = 0;	72	virtual ReturnType operator()() = 0;
43	};	73	};
44		74
45	template<typename Arg1, typename Arg2, typename Arg3, typename Functor>	75	/** A class which knows how to call a specific functor. It inherits from Slot and implemetents
46	class Slot: public SlotTemplate<Arg1, Arg2, Arg3> {	76	* the function call operator
		77	*/
		78	template<typename Functor, typename ReturnType, typename Arg1 = SigImpl::EmptyArg,
		79	typename Arg2 = SigImpl::EmptyArg, typename Arg3 = SigImpl::EmptyArg>
		80	class SlotImpl: public Slot<ReturnType, Arg1, Arg2, Arg3> {
47	public:	81	public:
48	virtual void operator()(Arg1 arg1, Arg2 arg2, Arg3 arg3)	82	virtual ReturnType operator()(Arg1 arg1, Arg2 arg2, Arg3 arg3)
49	{ m_functor(arg1, arg2, arg3); }	83	{ return m_functor(arg1, arg2, arg3); }
50		84
51	Slot(Functor functor) : m_functor(functor) {}	85	SlotImpl(Functor functor) : m_functor(functor) {}
52		86
53	private:	87	private:
54	Functor m_functor;	88	Functor m_functor;
55	};	89	};
56		90
57	// specialization for two arguments	91	/// Specialization for two arguments
58	template<typename Arg1, typename Arg2, typename Functor>	92	template<typename Functor, typename ReturnType, typename Arg1, typename Arg2>
59	class Slot<Arg1, Arg2, EmptyArg, Functor>: public SlotTemplate<Arg1, Arg2, EmptyArg> {	93	class SlotImpl<Functor, ReturnType, Arg1, Arg2, SigImpl::EmptyArg>: public Slot<ReturnType, Arg1, Arg2> {
60	public:	94	public:
61	virtual void operator()(Arg1 arg1, Arg2 arg2, EmptyArg)	95	virtual ReturnType operator()(Arg1 arg1, Arg2 arg2) { return m_functor(arg1, arg2); }
62	{ m_functor(arg1, arg2); }
63		96
64	Slot(Functor functor) : m_functor(functor) {}	97	SlotImpl(Functor functor) : m_functor(functor) {}
65		98
66	private:	99	private:
67	Functor m_functor;	100	Functor m_functor;
68	};	101	};
69		102
70	// specialization for one argument	103	/// Specialization for one argument
71	template<typename Arg1, typename Functor>	104	template<typename Functor, typename ReturnType, typename Arg1>
72	class Slot<Arg1, EmptyArg, EmptyArg, Functor>: public SlotTemplate<Arg1, EmptyArg, EmptyArg> {	105	class SlotImpl<Functor, ReturnType, Arg1, SigImpl::EmptyArg, SigImpl::EmptyArg>: public Slot<ReturnType, Arg1> {
73	public:	106	public:
74	virtual void operator()(Arg1 arg1, EmptyArg, EmptyArg)	107	virtual ReturnType operator()(Arg1 arg1) { return m_functor(arg1); }
75	{ m_functor(arg1); }
76		108
77	Slot(Functor functor) : m_functor(functor) {}	109	SlotImpl(Functor functor) : m_functor(functor) {}
78		110
79	private:	111	private:
80	Functor m_functor;	112	Functor m_functor;
81	};	113	};
82		114
83	// specialization for no arguments	115	/// Specialization for no arguments
84	template<typename Functor>	116	template<typename Functor, typename ReturnType>
85	class Slot<EmptyArg, EmptyArg, EmptyArg, Functor>: public SlotTemplate<EmptyArg, EmptyArg, EmptyArg> {	117	class SlotImpl<Functor, ReturnType, SigImpl::EmptyArg, SigImpl::EmptyArg, SigImpl::EmptyArg>: public Slot<ReturnType> {
86	public:	118	public:
87	virtual void operator()(EmptyArg, EmptyArg, EmptyArg)	119	virtual ReturnType operator()() { return m_functor(); }
88	{ m_functor(); }
89		120
90	Slot(Functor functor) : m_functor(functor) {}	121	SlotImpl(Functor functor) : m_functor(functor) {}
91		122
92	private:	123	private:
93	Functor m_functor;	124	Functor m_functor;
94	};	125	};
95		126
96	} // namespace SigImpl
97
98	} // namespace FbTk	127	} // namespace FbTk
99		128
100
101	#endif // FBTK_SLOT_H	129	#endif // FBTK_SLOT_H