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https://port.numenaute.org/aleajactaest/khanat-opennel-code.git
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400 lines
12 KiB
C++
400 lines
12 KiB
C++
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// Ryzom - MMORPG Framework <http://dev.ryzom.com/projects/ryzom/>
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// Copyright (C) 2010 Winch Gate Property Limited
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//
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// This program is free software: you can redistribute it and/or modify
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// it under the terms of the GNU Affero General Public License as
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// published by the Free Software Foundation, either version 3 of the
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// License, or (at your option) any later version.
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//
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// This program is distributed in the hope that it will be useful,
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// but WITHOUT ANY WARRANTY; without even the implied warranty of
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// MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
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// GNU Affero General Public License for more details.
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//
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// You should have received a copy of the GNU Affero General Public License
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// along with this program. If not, see <http://www.gnu.org/licenses/>.
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#include "stdpch.h"
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#include "state_instance.h"
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#include "nel/misc/smart_ptr.h"
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#include "script_vm.h"
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#include "script_compiler.h"
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#include "event_reaction_container.h"
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#include "ai_grp.h"
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#include "ai_outpost.h"
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using namespace std;
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using namespace NLMISC;
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using namespace AICOMP;
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using namespace AIVM;
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//////////////////////////////////////////////////////////////////////////////
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// CStateInstance //
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//////////////////////////////////////////////////////////////////////////////
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CAIState const* CStateInstance::getActiveState() const
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{
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#if !FINAL_VERSION
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nlassert(this!=NULL);
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#else
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if (!this)
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return NULL; // ugly! -> to remove date = 19/05/2004.
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#endif
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if (_PunctualState) // the puntual state is active !
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return _PunctualState;
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if (_state) // the normal state is active !
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return _state;
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// no state is active !
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return NULL;
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}
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sint32 CStateInstance::getUserTimer(uint timerId)
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{
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NLMISC::clamp(timerId, 0u, 3u);
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return _UserTimer[timerId].timeRemaining();
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}
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void CStateInstance::setUserTimer(uint timerId, sint32 time)
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{
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NLMISC::clamp(timerId, 0u, 3u);
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if (_UserTimer[timerId].isEnabled())
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_UserTimer[timerId].set(time);
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}
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void CStateInstance::addStatePersistentObj(CAIState const* keyState, CSmartPtr<NLMISC::CVirtualRefCount> anyObj)
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{
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_StatePersistentObjList.push_back(CStatePersistentObjEntry(keyState, anyObj));
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}
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void CStateInstance::setFirstBotSpawned()
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{
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_FirstBotSpawned = true;
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}
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struct CDiffStateRemover
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{
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CDiffStateRemover(CAIState const* const state) : _State(state) { }
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bool operator()(CStateInstance::CStatePersistentObjEntry const& entry) const
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{
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return entry._State!=_State;
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}
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CAIState const* const _State;
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};
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void CStateInstance::removeExceptForState(CAIState const* keyState)
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{
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TStatePersistentObjList::iterator const itLast = remove_if(_StatePersistentObjList.begin(), _StatePersistentObjList.end(), CDiffStateRemover(keyState));
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_StatePersistentObjList.erase(itLast, _StatePersistentObjList.end());
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}
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void CStateInstance::setScriptCallBack(TStringId const& eventName, AIVM::CByteCodeEntry const& codeScriptEntry)
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{
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_CallBacks[eventName] = codeScriptEntry; // effectively affects this callback to this eventName.
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}
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AIVM::CByteCodeEntry const* CStateInstance::getScriptCallBackPtr(TStringId const& eventName) const
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{
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TCallBackList::const_iterator it = _CallBacks.find(eventName);
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if (it==_CallBacks.end())
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return NULL;
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return &(it->second);
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}
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void CStateInstance::callScriptCallBack(IScriptContext* caller, TStringId const& funcName, int mode, std::string const& inParamsSig, std::string const& outParamsSig, AIVM::CScriptStack* stack)
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{
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// :FIXME: mode, signatures end stack are unused
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AIVM::CByteCodeEntry const* const codeScript = getScriptCallBackPtr(funcName);
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if (!codeScript || !codeScript->isValid())
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return;
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interpretCode(caller, *codeScript); // effectively calls the call back.
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}
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void CStateInstance::callNativeCallBack(IScriptContext* caller, std::string const& funcName, int mode, std::string const& inParamsSig, std::string const& outParamsSig, AIVM::CScriptStack* stack)
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{
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// :FIXME: caller is unused
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CScriptNativeFuncParams* funcParam = CCompiler::getNativeFunc(funcName, inParamsSig, outParamsSig);
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if (funcParam!=NULL)
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{
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bool varArg = (mode & 1)!=0; // :KLUDGE: Hardcoded 1 :TODO: Replace with a names constant (see script_compiler.cpp)
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if (stack!=NULL)
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{
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if (varArg)
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{
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stack->push(outParamsSig);
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stack->push(inParamsSig);
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}
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funcParam->_func(this, *stack);
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}
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else
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{
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AIVM::CScriptStack dummyStack;
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if (varArg)
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{
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dummyStack.push(outParamsSig);
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dummyStack.push(inParamsSig);
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}
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funcParam->_func(this, dummyStack);
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}
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}
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else
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{
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nlwarning("Trying to call an unknown native function '%s_%s_%s'", funcName.c_str(), inParamsSig.c_str(), outParamsSig.c_str());
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// TODO:kxu: rebuild stack
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}
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}
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void CStateInstance::dumpVarsAndFunctions(CStringWriter& sw) const
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{
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sw.append("float variables:");
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FOREACHC(varIt, TLogicVarList, _LogicVar)
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sw.append(" "+CStringMapper::unmap(varIt->first)+" = "+NLMISC::toString(varIt->second));
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sw.append("string variables:");
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FOREACHC(varIt, TStrLogicVarList, _StrLogicVar)
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sw.append(" "+CStringMapper::unmap(varIt->first)+" = "+varIt->second);
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sw.append("context variables:");
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FOREACHC(varIt, TCtxLogicVarList, _CtxLogicVar)
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sw.append(" "+CStringMapper::unmap(varIt->first)+" = "+NLMISC::toStringPtr(varIt->second));
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sw.append("callBacks:");
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FOREACHC(varIt, TCallBackList, _CallBacks)
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sw.append(" "+CStringMapper::unmap(varIt->first));
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}
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void CStateInstance::interpretCode(IScriptContext* caller, CByteCodeEntry const& codeScriptEntry)
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{
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AIVM::IScriptContext* parent = getPersistentStateInstance()->getParentStateInstance();
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AIVM::CScriptVM::getInstance()->interpretCode(this, parent, caller, codeScriptEntry);
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}
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void CStateInstance::interpretCode(IScriptContext* caller, CSmartPtr<CByteCode const> const& codeScript)
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{
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interpretCode(caller, CByteCodeEntry(codeScript, 0));
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}
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void CStateInstance::interpretCodeOnChildren(CByteCodeEntry const& codeScriptEntry)
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{
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vector<CSmartPtr<CGroup> > tmpList;
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FOREACH(childIt, CPersistentStateInstance::TChildList, getPersistentStateInstance()->childs())
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tmpList.push_back((*childIt)->getGroup());
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FOREACH(childIt, vector<CSmartPtr<CGroup> >, tmpList)
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(*childIt)->getPersistentStateInstance()->interpretCode(this, codeScriptEntry);
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}
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IScriptContext* CStateInstance::findContext(NLMISC::TStringId const strId)
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{
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#if !FINAL_VERSION
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nlassert(this->getGroup());
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#endif
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std::vector<CGroup*> grps;
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this->getGroup()->getAIInstance()->findGroup(grps, CStringMapper::unmap(strId));
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if (grps.size()==1)
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return grps.back()->getPersistentStateInstance();
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else
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return NULL;
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}
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std::string CStateInstance::getContextName()
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{
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return getGroup()->getFullName();
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}
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void CStateInstance::init(CAIState* startState)
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{
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_state=
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_PunctualState=
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_NextPunctualState=NULL;
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_CancelPunctualState = false;
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_NextState = startState;
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_LogicVarChanged = false;
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_FirstBotSpawned = false;
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// _VarIndex[CStringMapper::map("v0")]=0;
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// _VarIndex[CStringMapper::map("v1")]=1;
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// _VarIndex[CStringMapper::map("v2")]=2;
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// _VarIndex[CStringMapper::map("v3")]=3;
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}
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void CStateInstance::setGlobalNelVar(std::string const& varId, float value)
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{
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if (NLMISC::ICommand::exists(varId))
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NLMISC::ICommand::execute(NLMISC::toString("%s %f", varId.c_str(), value), *NLMISC::InfoLog);
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else
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nlwarning("Nel variable \"%s\" do not exist", varId.c_str());
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}
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void CStateInstance::setGlobalNelVar(std::string const& varId, std::string value)
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{
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std::vector<std::string> args; args.push_back(value);
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if (NLMISC::ICommand::exists(varId))
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NLMISC::ICommand::execute(NLMISC::toString("%s %s", varId.c_str(), value.c_str()), *NLMISC::InfoLog);
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else
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nlwarning("Nel variable \"%s\" do not exist", varId.c_str());
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}
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void CStateInstance::blockUserEvent(uint32 eventId)
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{
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_UserEventBlocked |= (1 << eventId);
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}
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void CStateInstance::unblockUserEvent(uint32 eventId)
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{
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_UserEventBlocked &= ~(1 << eventId);
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}
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bool CStateInstance::isUserEventBlocked(uint32 eventId) const
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{
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return ((1 << eventId) & _UserEventBlocked) != 0;
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}
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//////////////////////////////////////////////////////////////////////////////
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// CPersistentStateInstance //
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//////////////////////////////////////////////////////////////////////////////
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void CPersistentStateInstance::updateStateInstance()
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{
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// deal with timer events -----------------------------------------
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// Event: State Timeout
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if (_StateTimeout.testOnce())
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processStateEvent(getEventContainer().EventPositionalStateTimeout);
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// Event: Punctual State Timeout
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if (_PunctualStateTimeout.testOnce())
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processStateEvent(getEventContainer().EventPunctualStateTimeout);
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// Event: User Timer n Triggered
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for (uint i=0;i<4;++i)
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{
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if (!_UserTimer[i].testOnce())
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continue;
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processStateEvent(getEventContainer().EventUserTimer[i]);
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}
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// Event logic var changed
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if (_LogicVarChanged)
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{
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processStateEvent(getEventContainer().EventVariableChanged);
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for(uint i =0;i<4;++i)
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{
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if(_LogicVarChangedList[i]==true)
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{
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processStateEvent(getEventContainer().EventVariableChangedTab[i]);
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_LogicVarChangedList[i]=false;
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}
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}
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_LogicVarChanged = false;
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}
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// deal with positional state change ------------------------------
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// if state change requested (and not in punctual state) then setup new state
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if (_NextState)
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{
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CAIState const* oldState = NULL;
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if (!_PunctualState && !_NextPunctualState && _state)
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{
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// close down current state
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oldState = _state;
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processStateEvent(getEventContainer().EventEndOfState);
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}
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// switch state & initalise state status flags
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_state = _NextState;
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_NextState = NULL;
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_StateTimeout.disable();
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if (_PunctualState || _NextPunctualState)
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return;
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removeExceptForState(_state);
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processStateEvent(getEventContainer().EventStartOfState);
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stateChange(oldState, _state);
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}
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// deal with start of punctual state ------------------------------
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// if state change requested then setup new state
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if (_NextPunctualState)
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{
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CAIState const* oldState = NULL;
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breakable
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{
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if (_PunctualState)
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{
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oldState = _PunctualState;
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break;
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}
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if (_state)
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{
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oldState = _state;
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break;
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}
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}
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// switch state & initalize state status flags
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_PunctualState = _NextPunctualState;
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_NextPunctualState = NULL;
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_CancelPunctualState = false;
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_PunctualStateTimeout.disable();
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// initalize new state
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CAIState const* const newState = _PunctualState;
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removeExceptForState(newState);
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processStateEvent(getEventContainer().EventStartOfState, newState);
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stateChange(oldState, newState);
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}
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// must be done after start of state
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if (_FirstBotSpawned)
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{
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_FirstBotSpawned = false;
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processStateEvent(getEventContainer().EventFirstBotSpawned);
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}
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// deal with end of punctual state --------------------------------
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if (!_CancelPunctualState)
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return;
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_CancelPunctualState = false;
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// if there was an active punctual state then cancel it
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if (!_PunctualState)
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return;
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// switch state & initalise state status flags
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_PunctualStateTimeout.disable();
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_StateTimeout.resume(); // this line just in case timeout suspended during punctual state
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// close down current state
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CAIState const* const punctualState = _PunctualState;
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processStateEvent(getEventContainer().EventEndOfState, punctualState);
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_PunctualState = NULL;
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// this removes obj that depends on state affectation existence.
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removeExceptForState(_state);
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// specialized virtual state change call.
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stateChange(punctualState, _state);
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}
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#include "event_reaction_include.h"
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