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Changeset 8706 for code/trunk/src/libraries/core/command

Timestamp:

Jun 14, 2011, 8:53:28 PM (13 years ago)

Author:

dafrick

Message:

Merging presentation branch back into trunk.
There are many new features and also a lot of other changes and bugfixes, if you want to know, digg through the svn log.
Not everything is yet working as it should, but it should be fairly stable. If you habe any bug reports, just send me an email.

Location:

Files:

: 3 edited

. (modified) (1 prop)
src/libraries/core/command/Functor.h (modified) (1 diff)
src/libraries/core/command/Shell.cc (modified) (1 diff)

Legend:

: Unmodified
: Added
: Removed

code/trunk

Property svn:mergeinfo changed

/code/branches/bigships (added)	merged: 8426,8503-8504,8588
/code/branches/dockingsystem (added)	merged: 8137,8140,8151,8153,8185-8186,8188-8189,8192
/code/branches/dockingsystem2 (added)	merged: 8196-8197,8206,8257,8289,8382-8383,8434,8487,8493,8500-8501,8544,8560
/code/branches/gameimmersion (added)	merged: 8138,8145-8146,8152,8183-8184,8187,8191,8254,8379,8386,8395,8427,8490,8492,8533,8538,8541-8542,8547,8549-8551,8553,8574-8577
/code/branches/hudimprovements (added)	merged: 7920,7923,7932
/code/branches/pickup (added)	merged: 8255,8375,8381,8422,8433,8486,8489,8502,8534-8536,8543,8554-8555
/code/branches/portals2 (added)	merged: 8460,8466,8483,8511,8599-8600
/code/branches/presentation	merged: 8512,8546,8556,8561,8564-8568,8570,8578-8587,8589,8592-8594,8596-8598,8601,8603,8605,8607-8608,8611-8612,8614-8615,8627-8628,8631-8632,8635,8637,8639-8640,8642-8643,8645-8648,8651,8654-8668,8673,8675,8679-8682,8684,8686,8692,8694,8700,8702-8705
/code/branches/spaceboundaries2 (added)	merged: 8468,8506,8513,8604,8609,8613
/code/branches/spacerace (added)	merged: 8182,8250-8251,8428,8494,8548,8552,8571-8573,8616-8617,8624,8630
/code/branches/steering	merged: 8223,8430-8431,8545,8595
/code/branches/tetris	merged: 8246-8249,8488,8537,8563
/code/branches/tutoriallevel (added)	merged: 7828-7831,7894,8370
/code/branches/tutoriallevel2 (added)	merged: 8371,8374,8376-8378,8444-8451
/code/branches/tutoriallevel3 (added)	merged: 8453,8634,8636
/code/branches/weapons	merged: 8190,8429,8590-8591

code/trunk/src/libraries/core/command/Functor.h

-                      r7871
+                      r8706
         // Helper class, used to call a function-pointer with a given object and parameters and to return its return-value (if available)
         template <class R, class O, bool isconst, class P1, class P2, class P3, class P4, class P5> struct FunctorCaller                                              { static inline MultiType call(typename detail::FunctionPointer<R, O, isconst, P1, P2, P3, P4, P5>::Type functionPointer, O* object, const MultiType& param1, const MultiType& param2, const MultiType& param3, const MultiType& param4, const MultiType& param5) { return (object->*functionPointer)(param1, param2, param3, param4, param5); } };
         template <class R, class O, bool isconst, class P1, class P2, class P3, class P4>           struct FunctorCaller<R, O, isconst, P1, P2, P3, P4, void>         { static inline MultiType call(typename detail::FunctionPointer<R, O, isconst, P1, P2, P3, P4, void>::Type functionPointer, O* object, const MultiType& param1, const MultiType& param2, const MultiType& param3, const MultiType& param4, const MultiType& param5) { return (object->*functionPointer)(param1, param2, param3, param4); } };
         template <class R, class O, bool isconst, class P1, class P2, class P3>                     struct FunctorCaller<R, O, isconst, P1, P2, P3, void, void>       { static inline MultiType call(typename detail::FunctionPointer<R, O, isconst, P1, P2, P3, void, void>::Type functionPointer, O* object, const MultiType& param1, const MultiType& param2, const MultiType& param3, const MultiType& param4, const MultiType& param5) { return (object->*functionPointer)(param1, param2, param3); } };
         template <class R, class O, bool isconst, class P1, class P2>                               struct FunctorCaller<R, O, isconst, P1, P2, void, void, void>     { static inline MultiType call(typename detail::FunctionPointer<R, O, isconst, P1, P2, void, void, void>::Type functionPointer, O* object, const MultiType& param1, const MultiType& param2, const MultiType& param3, const MultiType& param4, const MultiType& param5) { return (object->*functionPointer)(param1, param2); } };
         template <class R, class O, bool isconst, class P1>                                         struct FunctorCaller<R, O, isconst, P1, void, void, void, void>   { static inline MultiType call(typename detail::FunctionPointer<R, O, isconst, P1, void, void, void, void>::Type functionPointer, O* object, const MultiType& param1, const MultiType& param2, const MultiType& param3, const MultiType& param4, const MultiType& param5) { return (object->*functionPointer)(param1); } };
         template <class R, class O, bool isconst>                                                   struct FunctorCaller<R, O, isconst, void, void, void, void, void> { static inline MultiType call(typename detail::FunctionPointer<R, O, isconst, void, void, void, void, void>::Type functionPointer, O* object, const MultiType& param1, const MultiType& param2, const MultiType& param3, const MultiType& param4, const MultiType& param5) { return (object->*functionPointer)(); } };
+        template <class R, class O, bool isconst, class P1, class P2, class P3, class P4>           struct FunctorCaller<R, O, isconst, P1, P2, P3, P4, void>         { static inline MultiType call(typename detail::FunctionPointer<R, O, isconst, P1, P2, P3, P4, void>::Type functionPointer, O* object, const MultiType& param1, const MultiType& param2, const MultiType& param3, const MultiType& param4, const MultiType&) { return (object->*functionPointer)(param1, param2, param3, param4); } };
+        template <class R, class O, bool isconst, class P1, class P2, class P3>                     struct FunctorCaller<R, O, isconst, P1, P2, P3, void, void>       { static inline MultiType call(typename detail::FunctionPointer<R, O, isconst, P1, P2, P3, void, void>::Type functionPointer, O* object, const MultiType& param1, const MultiType& param2, const MultiType& param3, const MultiType&, const MultiType&) { return (object->*functionPointer)(param1, param2, param3); } };
+        template <class R, class O, bool isconst, class P1, class P2>                               struct FunctorCaller<R, O, isconst, P1, P2, void, void, void>     { static inline MultiType call(typename detail::FunctionPointer<R, O, isconst, P1, P2, void, void, void>::Type functionPointer, O* object, const MultiType& param1, const MultiType& param2, const MultiType&, const MultiType&, const MultiType&) { return (object->*functionPointer)(param1, param2); } };
+        template <class R, class O, bool isconst, class P1>                                         struct FunctorCaller<R, O, isconst, P1, void, void, void, void>   { static inline MultiType call(typename detail::FunctionPointer<R, O, isconst, P1, void, void, void, void>::Type functionPointer, O* object, const MultiType& param1, const MultiType&, const MultiType&, const MultiType&, const MultiType&) { return (object->*functionPointer)(param1); } };
+        template <class R, class O, bool isconst>                                                   struct FunctorCaller<R, O, isconst, void, void, void, void, void> { static inline MultiType call(typename detail::FunctionPointer<R, O, isconst, void, void, void, void, void>::Type functionPointer, O* object, const MultiType&, const MultiType&, const MultiType&, const MultiType&, const MultiType&) { return (object->*functionPointer)(); } };
         template <class O, bool isconst, class P1, class P2, class P3, class P4, class P5> struct FunctorCaller<void, O, isconst, P1, P2, P3, P4, P5>           { static inline MultiType call(typename detail::FunctionPointer<void, O, isconst, P1, P2, P3, P4, P5>::Type functionPointer, O* object, const MultiType& param1, const MultiType& param2, const MultiType& param3, const MultiType& param4, const MultiType& param5) { (object->*functionPointer)(param1, param2, param3, param4, param5); return MT_Type::Null; } };
         template <class O, bool isconst, class P1, class P2, class P3, class P4>           struct FunctorCaller<void, O, isconst, P1, P2, P3, P4, void>         { static inline MultiType call(typename detail::FunctionPointer<void, O, isconst, P1, P2, P3, P4, void>::Type functionPointer, O* object, const MultiType& param1, const MultiType& param2, const MultiType& param3, const MultiType& param4, const MultiType& param5) { (object->*functionPointer)(param1, param2, param3, param4); return MT_Type::Null; } };
         template <class O, bool isconst, class P1, class P2, class P3>                     struct FunctorCaller<void, O, isconst, P1, P2, P3, void, void>       { static inline MultiType call(typename detail::FunctionPointer<void, O, isconst, P1, P2, P3, void, void>::Type functionPointer, O* object, const MultiType& param1, const MultiType& param2, const MultiType& param3, const MultiType& param4, const MultiType& param5) { (object->*functionPointer)(param1, param2, param3); return MT_Type::Null; } };
         template <class O, bool isconst, class P1, class P2>                               struct FunctorCaller<void, O, isconst, P1, P2, void, void, void>     { static inline MultiType call(typename detail::FunctionPointer<void, O, isconst, P1, P2, void, void, void>::Type functionPointer, O* object, const MultiType& param1, const MultiType& param2, const MultiType& param3, const MultiType& param4, const MultiType& param5) { (object->*functionPointer)(param1, param2); return MT_Type::Null; } };
         template <class O, bool isconst, class P1>                                         struct FunctorCaller<void, O, isconst, P1, void, void, void, void>   { static inline MultiType call(typename detail::FunctionPointer<void, O, isconst, P1, void, void, void, void>::Type functionPointer, O* object, const MultiType& param1, const MultiType& param2, const MultiType& param3, const MultiType& param4, const MultiType& param5) { (object->*functionPointer)(param1); return MT_Type::Null; } };
         template <class O, bool isconst>                                                   struct FunctorCaller<void, O, isconst, void, void, void, void, void> { static inline MultiType call(typename detail::FunctionPointer<void, O, isconst, void, void, void, void, void>::Type functionPointer, O* object, const MultiType& param1, const MultiType& param2, const MultiType& param3, const MultiType& param4, const MultiType& param5) { (object->*functionPointer)(); return MT_Type::Null; } };
+        template <class O, bool isconst, class P1, class P2, class P3, class P4>           struct FunctorCaller<void, O, isconst, P1, P2, P3, P4, void>         { static inline MultiType call(typename detail::FunctionPointer<void, O, isconst, P1, P2, P3, P4, void>::Type functionPointer, O* object, const MultiType& param1, const MultiType& param2, const MultiType& param3, const MultiType& param4, const MultiType&) { (object->*functionPointer)(param1, param2, param3, param4); return MT_Type::Null; } };
+        template <class O, bool isconst, class P1, class P2, class P3>                     struct FunctorCaller<void, O, isconst, P1, P2, P3, void, void>       { static inline MultiType call(typename detail::FunctionPointer<void, O, isconst, P1, P2, P3, void, void>::Type functionPointer, O* object, const MultiType& param1, const MultiType& param2, const MultiType& param3, const MultiType&, const MultiType&) { (object->*functionPointer)(param1, param2, param3); return MT_Type::Null; } };
+        template <class O, bool isconst, class P1, class P2>                               struct FunctorCaller<void, O, isconst, P1, P2, void, void, void>     { static inline MultiType call(typename detail::FunctionPointer<void, O, isconst, P1, P2, void, void, void>::Type functionPointer, O* object, const MultiType& param1, const MultiType& param2, const MultiType&, const MultiType&, const MultiType&) { (object->*functionPointer)(param1, param2); return MT_Type::Null; } };
+        template <class O, bool isconst, class P1>                                         struct FunctorCaller<void, O, isconst, P1, void, void, void, void>   { static inline MultiType call(typename detail::FunctionPointer<void, O, isconst, P1, void, void, void, void>::Type functionPointer, O* object, const MultiType& param1, const MultiType&, const MultiType&, const MultiType&, const MultiType&) { (object->*functionPointer)(param1); return MT_Type::Null; } };
+        template <class O, bool isconst>                                                   struct FunctorCaller<void, O, isconst, void, void, void, void, void> { static inline MultiType call(typename detail::FunctionPointer<void, O, isconst, void, void, void, void, void>::Type functionPointer, O* object, const MultiType&, const MultiType&, const MultiType&, const MultiType&, const MultiType&) { (object->*functionPointer)(); return MT_Type::Null; } };
         template <class R, bool isconst, class P1, class P2, class P3, class P4, class P5> struct FunctorCaller<R, void, isconst, P1, P2, P3, P4, P5>           { static inline MultiType call(typename detail::FunctionPointer<R, void, isconst, P1, P2, P3, P4, P5>::Type functionPointer, void*, const MultiType& param1, const MultiType& param2, const MultiType& param3, const MultiType& param4, const MultiType& param5) { return (*functionPointer)(param1, param2, param3, param4, param5); } };
         template <class R, bool isconst, class P1, class P2, class P3, class P4>           struct FunctorCaller<R, void, isconst, P1, P2, P3, P4, void>         { static inline MultiType call(typename detail::FunctionPointer<R, void, isconst, P1, P2, P3, P4, void>::Type functionPointer, void*, const MultiType& param1, const MultiType& param2, const MultiType& param3, const MultiType& param4, const MultiType& param5) { return (*functionPointer)(param1, param2, param3, param4); } };
         template <class R, bool isconst, class P1, class P2, class P3>                     struct FunctorCaller<R, void, isconst, P1, P2, P3, void, void>       { static inline MultiType call(typename detail::FunctionPointer<R, void, isconst, P1, P2, P3, void, void>::Type functionPointer, void*, const MultiType& param1, const MultiType& param2, const MultiType& param3, const MultiType& param4, const MultiType& param5) { return (*functionPointer)(param1, param2, param3); } };
         template <class R, bool isconst, class P1, class P2>                               struct FunctorCaller<R, void, isconst, P1, P2, void, void, void>     { static inline MultiType call(typename detail::FunctionPointer<R, void, isconst, P1, P2, void, void, void>::Type functionPointer, void*, const MultiType& param1, const MultiType& param2, const MultiType& param3, const MultiType& param4, const MultiType& param5) { return (*functionPointer)(param1, param2); } };
         template <class R, bool isconst, class P1>                                         struct FunctorCaller<R, void, isconst, P1, void, void, void, void>   { static inline MultiType call(typename detail::FunctionPointer<R, void, isconst, P1, void, void, void, void>::Type functionPointer, void*, const MultiType& param1, const MultiType& param2, const MultiType& param3, const MultiType& param4, const MultiType& param5) { return (*functionPointer)(param1); } };
         template <class R, bool isconst>                                                   struct FunctorCaller<R, void, isconst, void, void, void, void, void> { static inline MultiType call(typename detail::FunctionPointer<R, void, isconst, void, void, void, void, void>::Type functionPointer, void*, const MultiType& param1, const MultiType& param2, const MultiType& param3, const MultiType& param4, const MultiType& param5) { return (*functionPointer)(); } };
+        template <class R, bool isconst, class P1, class P2, class P3, class P4>           struct FunctorCaller<R, void, isconst, P1, P2, P3, P4, void>         { static inline MultiType call(typename detail::FunctionPointer<R, void, isconst, P1, P2, P3, P4, void>::Type functionPointer, void*, const MultiType& param1, const MultiType& param2, const MultiType& param3, const MultiType& param4, const MultiType&) { return (*functionPointer)(param1, param2, param3, param4); } };
+        template <class R, bool isconst, class P1, class P2, class P3>                     struct FunctorCaller<R, void, isconst, P1, P2, P3, void, void>       { static inline MultiType call(typename detail::FunctionPointer<R, void, isconst, P1, P2, P3, void, void>::Type functionPointer, void*, const MultiType& param1, const MultiType& param2, const MultiType& param3, const MultiType&, const MultiType&) { return (*functionPointer)(param1, param2, param3); } };
+        template <class R, bool isconst, class P1, class P2>                               struct FunctorCaller<R, void, isconst, P1, P2, void, void, void>     { static inline MultiType call(typename detail::FunctionPointer<R, void, isconst, P1, P2, void, void, void>::Type functionPointer, void*, const MultiType& param1, const MultiType& param2, const MultiType&, const MultiType&, const MultiType&) { return (*functionPointer)(param1, param2); } };
+        template <class R, bool isconst, class P1>                                         struct FunctorCaller<R, void, isconst, P1, void, void, void, void>   { static inline MultiType call(typename detail::FunctionPointer<R, void, isconst, P1, void, void, void, void>::Type functionPointer, void*, const MultiType& param1, const MultiType&, const MultiType&, const MultiType&, const MultiType&) { return (*functionPointer)(param1); } };
+        template <class R, bool isconst>                                                   struct FunctorCaller<R, void, isconst, void, void, void, void, void> { static inline MultiType call(typename detail::FunctionPointer<R, void, isconst, void, void, void, void, void>::Type functionPointer, void*, const MultiType&, const MultiType&, const MultiType&, const MultiType&, const MultiType&) { return (*functionPointer)(); } };
         template <bool isconst, class P1, class P2, class P3, class P4, class P5> struct FunctorCaller<void, void, isconst, P1, P2, P3, P4, P5>           { static inline MultiType call(typename detail::FunctionPointer<void, void, isconst, P1, P2, P3, P4, P5>::Type functionPointer, void*, const MultiType& param1, const MultiType& param2, const MultiType& param3, const MultiType& param4, const MultiType& param5) { (*functionPointer)(param1, param2, param3, param4, param5); return MT_Type::Null; } };
         template <bool isconst, class P1, class P2, class P3, class P4>           struct FunctorCaller<void, void, isconst, P1, P2, P3, P4, void>         { static inline MultiType call(typename detail::FunctionPointer<void, void, isconst, P1, P2, P3, P4, void>::Type functionPointer, void*, const MultiType& param1, const MultiType& param2, const MultiType& param3, const MultiType& param4, const MultiType& param5) { (*functionPointer)(param1, param2, param3, param4); return MT_Type::Null; } };
         template <bool isconst, class P1, class P2, class P3>                     struct FunctorCaller<void, void, isconst, P1, P2, P3, void, void>       { static inline MultiType call(typename detail::FunctionPointer<void, void, isconst, P1, P2, P3, void, void>::Type functionPointer, void*, const MultiType& param1, const MultiType& param2, const MultiType& param3, const MultiType& param4, const MultiType& param5) { (*functionPointer)(param1, param2, param3); return MT_Type::Null; } };
         template <bool isconst, class P1, class P2>                               struct FunctorCaller<void, void, isconst, P1, P2, void, void, void>     { static inline MultiType call(typename detail::FunctionPointer<void, void, isconst, P1, P2, void, void, void>::Type functionPointer, void*, const MultiType& param1, const MultiType& param2, const MultiType& param3, const MultiType& param4, const MultiType& param5) { (*functionPointer)(param1, param2); return MT_Type::Null; } };
         template <bool isconst, class P1>                                         struct FunctorCaller<void, void, isconst, P1, void, void, void, void>   { static inline MultiType call(typename detail::FunctionPointer<void, void, isconst, P1, void, void, void, void>::Type functionPointer, void*, const MultiType& param1, const MultiType& param2, const MultiType& param3, const MultiType& param4, const MultiType& param5) { (*functionPointer)(param1); return MT_Type::Null; } };
         template <bool isconst>                                                   struct FunctorCaller<void, void, isconst, void, void, void, void, void> { static inline MultiType call(typename detail::FunctionPointer<void, void, isconst, void, void, void, void, void>::Type functionPointer, void*, const MultiType& param1, const MultiType& param2, const MultiType& param3, const MultiType& param4, const MultiType& param5) { (*functionPointer)(); return MT_Type::Null; } };
+        template <bool isconst, class P1, class P2, class P3, class P4>           struct FunctorCaller<void, void, isconst, P1, P2, P3, P4, void>         { static inline MultiType call(typename detail::FunctionPointer<void, void, isconst, P1, P2, P3, P4, void>::Type functionPointer, void*, const MultiType& param1, const MultiType& param2, const MultiType& param3, const MultiType& param4, const MultiType&) { (*functionPointer)(param1, param2, param3, param4); return MT_Type::Null; } };
+        template <bool isconst, class P1, class P2, class P3>                     struct FunctorCaller<void, void, isconst, P1, P2, P3, void, void>       { static inline MultiType call(typename detail::FunctionPointer<void, void, isconst, P1, P2, P3, void, void>::Type functionPointer, void*, const MultiType& param1, const MultiType& param2, const MultiType& param3, const MultiType&, const MultiType&) { (*functionPointer)(param1, param2, param3); return MT_Type::Null; } };
+        template <bool isconst, class P1, class P2>                               struct FunctorCaller<void, void, isconst, P1, P2, void, void, void>     { static inline MultiType call(typename detail::FunctionPointer<void, void, isconst, P1, P2, void, void, void>::Type functionPointer, void*, const MultiType& param1, const MultiType& param2, const MultiType&, const MultiType&, const MultiType&) { (*functionPointer)(param1, param2); return MT_Type::Null; } };
+        template <bool isconst, class P1>                                         struct FunctorCaller<void, void, isconst, P1, void, void, void, void>   { static inline MultiType call(typename detail::FunctionPointer<void, void, isconst, P1, void, void, void, void>::Type functionPointer, void*, const MultiType& param1, const MultiType&, const MultiType&, const MultiType&, const MultiType&) { (*functionPointer)(param1); return MT_Type::Null; } };
+        template <bool isconst>                                                   struct FunctorCaller<void, void, isconst, void, void, void, void, void> { static inline MultiType call(typename detail::FunctionPointer<void, void, isconst, void, void, void, void, void>::Type functionPointer, void*, const MultiType&, const MultiType&, const MultiType&, const MultiType&, const MultiType&) { (*functionPointer)(); return MT_Type::Null; } };
         // Helper class, used to identify the header of a function-pointer (independent of its class)

code/trunk/src/libraries/core/command/Shell.cc

r8079	r8706
265	265	return;
266	266
267		size_t previous_offset = mod(~~this->historyOffset_~~ - 1, this->maxHistoryLength_);
	267	size_t previous_offset = mod(static_cast<int>(this->historyOffset_) - 1, this->maxHistoryLength_);
268	268	if (previous_offset < this->commandHistory_.size() && command == this->commandHistory_[previous_offset])
269	269	return;

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