dnl dnl Bind Slot Templates dnl dnl Copyright (C) 1998-1999 Karl Nelson dnl Copyright (C) 2000 Carl Nygard dnl dnl This library is free software; you can redistribute it and/or dnl modify it under the terms of the GNU Library General Public dnl License as published by the Free Software Foundation; either dnl version 2 of the License, or (at your option) any later version. dnl dnl This library is distributed in the hope that it will be useful, dnl but WITHOUT ANY WARRANTY; without even the implied warranty of dnl MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU dnl Library General Public License for more details. dnl dnl You should have received a copy of the GNU Library General Public dnl License along with this library; if not, write to the Free dnl Software Foundation, Inc., 675 Mass Ave, Cambridge, MA 02139, USA. dnl // -*- c++ -*- dnl Ignore the next line /* This is a generated file, do not edit. Generated from __file__ */ /* This was also shamelessly copied, hacked, munched, and carefully * tweaked from KNelson's original bind.h.m4 * CJN 3.22.00 */ include(template.macros.m4) #ifndef __header__ #define __header__ /* SigC::retbind ------------- retbind() alters a Slot by fixing the return value to certain values Return value fixing ignores any slot return value. The slot is destroyed in the process and a new one is created, so references holding onto the slot will no longer be valid. Typecasting may be necessary to match arguments between the slot and the binding return value. Types must be an exact match. To insure the proper type, the type can be explicitly specified on template instantation. Simple Sample usage: void f(int,int); Slot2 s1=slot(f); Slot1 s2=retbind(s1,1); // s1 is invalid cout << "s2: " << s2(2,1) << endl; Type specified usage: struct A {}; struct B :public A {}; B* b; Slot1 s1; Slot0 s2=retbind(s1,b); // B* must be told to match A* */ #include #include #ifdef SIGC_CXX_NAMESPACES namespace SigC { #endif dnl dnl ADAPTOR_RETBIND_SLOT([P1..PN]) dnl define([ADAPTOR_RETBIND_SLOT],[dnl /**************************************************************** ***** Adaptor RetBind Slot NUM($1) arguments ****************************************************************/ ADAPTOR_RETBIND_SLOT_IMPL(R,[$1]) #ifndef SIGC_CXX_VOID_RETURN #ifdef SIGC_CXX_PARTIAL_SPEC ADAPTOR_RETBIND_SLOT_IMPL(void,[$1]) #endif #endif template __SLOT__(Ret,[$1]) retbind(const [Slot]NUM($1) &s, Ret ret) {return [AdaptorRetBindSlot]NUM($1)::create(s.data(),ret); } ])dnl dnl dnl ADAPTOR_RETBIND_SLOT_IMPL(R,[P1..PN]) dnl define([ADAPTOR_RETBIND_SLOT_IMPL],[dnl LINE(]__line__[)dnl ifelse($1,void,[dnl template struct [AdaptorRetBindSlot]NUM($2) : public AdaptorSlot_ ],[dnl template struct [AdaptorRetBindSlot]NUM($2): public AdaptorSlot_ ])dnl {TYPEDEF_RTYPE(Ret,RType) typedef __SLOT__(Ret,[$2]) SlotType; typedef __SLOT__($1,[$2]) InSlotType; struct Node:public AdaptorNode { Ret ret_; }; typedef CallDataObj2 CallData; static RType callback(LIST(void* d,1,ARG_BOTH($2),[$2])) { CallData* data=(CallData*)d; Node* node=data->obj; ((typename InSlotType::Callback&)(node->data_))(LIST(ARG_NAME($2),[$2])); return node->ret_; } static SlotData* create(SlotData *s,Ret ret) { SlotData* tmp=(SlotData*)s; Node *node=new Node(); copy_callback(tmp,node); node->ret_ = ret; CallData &data=reinterpret_cast(tmp->data_); data.callback=&callback; data.obj=node; return tmp; } }; ])dnl ADAPTOR_RETBIND_SLOT(ARGS(P,0)) ADAPTOR_RETBIND_SLOT(ARGS(P,1)) ADAPTOR_RETBIND_SLOT(ARGS(P,2)) #ifdef SIGC_CXX_NAMESPACES } // namespace #endif #endif