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CWE-ou-minkata/MOULOpenSourceClientPlugin/Plasma20/Sources/Plasma/FeatureLib/pfPython/plPythonFileMod.cpp

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/*==LICENSE==*
CyanWorlds.com Engine - MMOG client, server and tools
Copyright (C) 2011 Cyan Worlds, Inc.
This program is free software: you can redistribute it and/or modify
it under the terms of the GNU General Public License as published by
the Free Software Foundation, either version 3 of the License, or
(at your option) any later version.
This program is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
GNU General Public License for more details.
You should have received a copy of the GNU General Public License
along with this program. If not, see <http://www.gnu.org/licenses/>.
You can contact Cyan Worlds, Inc. by email legal@cyan.com
or by snail mail at:
Cyan Worlds, Inc.
14617 N Newport Hwy
Mead, WA 99021
*==LICENSE==*/
//////////////////////////////////////////////////////////////////////
//
// plPythonFileMod - the 'special' Python File modifier.
//
// This modifier will handle the interface to python code that has been file-ized.
//
//////////////////////////////////////////////////////////////////////////
#include "hsTypes.h"
#include "hsStream.h"
#include "plgDispatch.h"
#include "hsResMgr.h"
#include "../plResMgr/plKeyFinder.h"
#include "../pnKeyedObject/plKeyImp.h"
#include "../pnKeyedObject/plUoid.h"
#include "../pnSceneObject/plSceneObject.h"
#include "../pnSceneObject/plCoordinateInterface.h"
#include "../pnKeyedObject/plKey.h"
#include "../pnMessage/plTimeMsg.h"
#include "../pnMessage/plCmdIfaceModMsg.h"
#include "../plMessage/plInputEventMsg.h"
#include "../plModifier/plLogicModifier.h"
#include "../pfMessage/pfGUINotifyMsg.h"
#include "../plMessage/plRoomLoadNotifyMsg.h"
#include "../pfMessage/plClothingMsg.h"
#include "../pfMessage/pfKIMsg.h"
#include "../plMessage/plMemberUpdateMsg.h"
#include "../plMessage/plAgeLoadedMsg.h"
#include "../pnMessage/plRemoteAvatarInfoMsg.h"
#include "../pnMessage/plPlayerPageMsg.h"
#include "../plNetClient/plNetClientMgr.h"
#include "../plNetTransport/plNetTransportMember.h"
#include "../pnMessage/plSDLNotificationMsg.h"
#include "../plMessage/plNetOwnershipMsg.h"
#include "../plSDL/plSDL.h"
#include "../plVault/plVault.h"
#include "../plMessage/plCCRMsg.h"
#include "../plMessage/plVaultNotifyMsg.h"
#include "../plInputCore/plInputInterfaceMgr.h"
#include "../plInputCore/plInputDevice.h"
#include "../pfMessage/pfMarkerMsg.h"
#include "../pfMessage/pfBackdoorMsg.h"
#include "../plMessage/plAvatarMsg.h"
#include "../plMessage/plLOSHitMsg.h"
#include "../plMessage/plRenderMsg.h"
#include "../pfMessage/pfMovieEventMsg.h"
#include "../plMessage/plClimbEventMsg.h"
#include "../plMessage/plCaptureRenderMsg.h"
#include "../plGImage/plMipmap.h"
#include "../plMessage/plAccountUpdateMsg.h"
#include "../plAgeLoader/plAgeLoader.h"
#include "../pfGameMgr/pfGameMgr.h"
#include "../plMessage/plAIMsg.h"
#include "../plAvatar/plAvBrainCritter.h"
#include "plProfile.h"
#include "plPythonFileMod.h"
#include "cyPythonInterface.h"
#include "pyKey.h"
#include "cyDraw.h"
#include "cyPhysics.h"
#include "pySceneObject.h"
#include "cyMisc.h"
#include "cyCamera.h"
#include "pyNotify.h"
#include "cyAvatar.h"
#include "pyGeometry3.h"
#include "pyVault.h"
#include "pyVaultNode.h"
#include "pyVaultNodeRef.h"
#include "pyVaultAgeLinkNode.h"
#include "pyPlayer.h"
#include "pyNetLinkingMgr.h"
#include "pyAgeInfoStruct.h"
#include "pyAgeLinkStruct.h"
#include "pyImage.h"
#include "pyCritterBrain.h"
// GUI Control:
#include "pyGUIDialog.h"
#include "pyGUIControlButton.h"
#include "pyGUIControlCheckBox.h"
#include "pyGUIControlEditBox.h"
#include "pyGUIControlListBox.h"
#include "pyGUIControlRadioGroup.h"
#include "pyGUIControlTextBox.h"
#include "pyGUIControlValue.h"
#include "pyGUIControlDynamicText.h"
#include "pyGUIControlMultiLineEdit.h"
#include "pyGUIPopUpMenu.h"
#include "pyGUIControlClickMap.h"
// Game manager
#include "Games/pyGameMgrMsg.h"
#include "Games/pyGameCliMsg.h"
#include <locale>
#include "plPythonSDLModifier.h"
#include "../plMessage/plTimerCallbackMsg.h"
plProfile_CreateTimer("Update", "Python", PythonUpdate);
/////////////////////////////////////////////////////////////////////////////
//
// fFunctionNames - the actual names of the functions for On[event] types
//
char* plPythonFileMod::fFunctionNames[] =
{
{ "OnFirstUpdate" }, // kfunc_FirstUpdate
{ "OnUpdate" }, // kfunc_Update
{ "OnNotify" }, // kfunc_Notify
{ "OnTimer" }, // kfunc_AtTimer
{ "OnControlKeyEvent" }, // kfunc_OnKeyEvent
{ "Load" }, // kfunc_Load
{ "Save" }, // kfunc_Save
{ "OnGUINotify" }, // kfunc_GUINotify
{ "OnPageLoad" }, // kfunc_PageLoad
{ "OnClothingUpdate" }, // kfunc_ClothingUpdate
{ "OnKIMsg" }, // kfunc_KIMsg,
{ "OnMemberUpdate" }, // kfunc_MemberUpdate,
{ "OnRemoteAvatarInfo" }, // kfunc_RemoteAvatarInfo,
{ "OnRTChat" }, // kfunc_RTChat,
{ "OnVaultEvent" }, // kfunc_VaultEvent,
{ "AvatarPage" }, // kfunc_AvatarPage,
{ "OnSDLNotify" }, // kfunc_SDLNotify
{ "OnOwnershipChanged" }, // kfunc_OwnershipNotify
{ "OnAgeVaultEvent" }, // kfunc_AgeVaultEvent
{ "OnInit" }, // kfunc_Init,
{ "OnCCRMsg" }, // kfunc_OnCCRMsg,
{ "OnServerInitComplete" }, // kfunc_OnServerInitComplete
{ "OnVaultNotify" }, // kfunc_OnVaultNotify
{ "OnDefaultKeyCaught" }, // kfunc_OnDefaultKeyCaught
{ "OnMarkerMsg" }, // kfunc_OnMarkerMsg,
{ "OnBackdoorMsg" }, // kfunc_OnBackdoorMsg,
{ "OnBehaviorNotify" }, // kfunc_OnBehaviorNotify,
{ "OnLOSNotify" }, // kfunc_OnLOSNotify,
{ "BeginAgeUnLoad" }, // kfunc_OnBeginAgeLoad,
{ "OnMovieEvent" }, // kfunc_OnMovieEvent,
{ "OnScreenCaptureDone" }, // kfunc_OnScreenCaptureDone,
{ "OnClimbingBlockerEvent"},// kFunc_OnClimbingBlockerEvent,
{ "OnAvatarSpawn"}, // kFunc_OnAvatarSpawn
{ "OnAccountUpdate"}, // kFunc_OnAccountUpdate
{ "gotPublicAgeList"}, // kfunc_gotPublicAgeList
{ "OnGameMgrMsg" }, // kfunc_OnGameMgrMsg
{ "OnGameCliMsg" }, // kfunc_OnGameCliMsg
{ "OnAIMsg" }, // kfunc_OnAIMsg
{ nil }
};
//// Callback From the Vault Events //////////////////////////////////////////////
class PythonVaultCallback : public VaultCallback
{
protected:
plPythonFileMod* fPyFileMod;
int fFunctionIdx;
public:
PythonVaultCallback( plPythonFileMod *pymod, int fidx )
{
fPyFileMod = pymod;
fFunctionIdx = fidx;
}
void AddedChildNode ( RelVaultNode * parentNode, RelVaultNode * childNode )
{
// is there an 'OnVaultEvent' defined?
if ( fPyFileMod && fPyFileMod->fPyFunctionInstances[fFunctionIdx] != nil )
{
PyObject* ptuple = PyTuple_New(1);
PyTuple_SetItem(ptuple, 0, pyVaultNodeRef::New(parentNode, childNode));
// call it
plProfile_BeginTiming(PythonUpdate);
PyObject* retVal = PyObject_CallMethod(fPyFileMod->fPyFunctionInstances[fFunctionIdx],
fPyFileMod->fFunctionNames[fFunctionIdx],
"lO",pyVault::kVaultNodeRefAdded,ptuple);
if ( retVal == nil )
{
#ifndef PLASMA_EXTERNAL_RELEASE
// for some reason this function didn't, remember that and not call it again
fPyFileMod->fPyFunctionInstances[fFunctionIdx] = nil;
#endif //PLASMA_EXTERNAL_RELEASE
// if there was an error make sure that the stderr gets flushed so it can be seen
fPyFileMod->ReportError();
}
Py_XDECREF(retVal);
Py_DECREF(ptuple);
plProfile_EndTiming(PythonUpdate);
// display any output (NOTE: this would be disabled in production)
fPyFileMod->DisplayPythonOutput();
}
}
void RemovingChildNode ( RelVaultNode * parentNode, RelVaultNode * childNode )
{
// is there an 'OnVaultEvent' defined?
if ( fPyFileMod && fPyFileMod->fPyFunctionInstances[fFunctionIdx] != nil )
{
PyObject* ptuple = PyTuple_New(1);
PyTuple_SetItem(ptuple, 0, pyVaultNodeRef::New(parentNode, childNode));
// call it
plProfile_BeginTiming(PythonUpdate);
PyObject* retVal = PyObject_CallMethod(fPyFileMod->fPyFunctionInstances[fFunctionIdx],
fPyFileMod->fFunctionNames[fFunctionIdx],
"lO",pyVault::kVaultRemovingNodeRef,ptuple);
if ( retVal == nil )
{
#ifndef PLASMA_EXTERNAL_RELEASE
// for some reason this function didn't, remember that and not call it again
fPyFileMod->fPyFunctionInstances[fFunctionIdx] = nil;
#endif //PLASMA_EXTERNAL_RELEASE
// if there was an error make sure that the stderr gets flushed so it can be seen
fPyFileMod->ReportError();
}
Py_XDECREF(retVal);
Py_DECREF(ptuple);
plProfile_EndTiming(PythonUpdate);
// display any output (NOTE: this would be disabled in production)
fPyFileMod->DisplayPythonOutput();
}
}
void ChangedNode ( RelVaultNode * changedNode )
{
// is there an 'OnVaultEvent' defined?
if ( fPyFileMod && fPyFileMod->fPyFunctionInstances[fFunctionIdx] != nil )
{
PyObject* ptuple = PyTuple_New(1);
PyTuple_SetItem(ptuple, 0, pyVaultNode::New(changedNode));
// call it
plProfile_BeginTiming(PythonUpdate);
PyObject* retVal = PyObject_CallMethod(fPyFileMod->fPyFunctionInstances[fFunctionIdx],
fPyFileMod->fFunctionNames[fFunctionIdx],
"lO",pyVault::kVaultNodeSaved,ptuple);
if ( retVal == nil )
{
#ifndef PLASMA_EXTERNAL_RELEASE
// for some reason this function didn't, remember that and not call it again
fPyFileMod->fPyFunctionInstances[fFunctionIdx] = nil;
#endif //PLASMA_EXTERNAL_RELEASE
// if there was an error make sure that the stderr gets flushed so it can be seen
fPyFileMod->ReportError();
}
Py_XDECREF(retVal);
Py_DECREF(ptuple);
plProfile_EndTiming(PythonUpdate);
// display any output (NOTE: this would be disabled in production)
fPyFileMod->DisplayPythonOutput();
}
}
};
/////////////////////////////////////////////////////////////////////////////
//
// Class : pfPythonKeyCatcher
// PARAMETERS : none
//
// PURPOSE : Small wrapper class to catch discarded key events and pass
// them to a plPythonFileMod
//
class pfPythonKeyCatcher : public plDefaultKeyCatcher
{
plPythonFileMod *fMod;
public:
pfPythonKeyCatcher( plPythonFileMod *mod ) : fMod( mod ) {}
virtual void HandleKeyEvent( plKeyEventMsg *event )
{
fMod->HandleDiscardedKey( event );
}
};
hsBool plPythonFileMod::fAtConvertTime = false;
/////////////////////////////////////////////////////////////////////////////
//
// Function : plPythonFileMod and ~plPythonFileMod
// PARAMETERS : none
//
// PURPOSE : Constructor and destructor
//
plPythonFileMod::plPythonFileMod()
{
fPythonFile = nil;
fModuleName = nil;
fModule = nil;
fLocalNotify= true;
fIsFirstTimeEval = true;
fVaultCallback = nil;
fSDLMod = nil;
fSelfKey = nil;
fInstance = nil;
fKeyCatcher = nil;
fPipe = nil;
fAmIAttachedToClone = false;
// assume that all the functions are not available
// ...if the functions are defined in the module, then we'll call 'em
int i;
for (i=0 ; i<kfunc_lastone; i++)
fPyFunctionInstances[i] = nil;
}
plPythonFileMod::~plPythonFileMod()
{
if ( !fAtConvertTime ) // if this is just an Add that's during a convert, then don't do anymore
{
// remove our reference to the instance (but only if we made one)
if(fInstance)
{
if ( fInstance->ob_refcnt > 1)
Py_DECREF(fInstance);
// then have the glue delete the instance of class
PyObject* delInst = PythonInterface::GetModuleItem("glue_delInst",fModule);
if ( delInst!=nil && PyCallable_Check(delInst) )
{
PyObject* retVal = PyObject_CallFunction(delInst,nil);
if ( retVal == nil )
{
// if there was an error make sure that the stderr gets flushed so it can be seen
ReportError();
}
Py_XDECREF(retVal);
// display any output
DisplayPythonOutput();
}
}
fInstance = nil;
}
// If we have a key catcher, get rid of it
delete fKeyCatcher;
fKeyCatcher = nil;
// if we created a Vault callback, undo it and get rid of it
if (fVaultCallback)
{
// Set the callback for the vault thingy
VaultUnregisterCallback(fVaultCallback);
delete fVaultCallback;
fVaultCallback = nil;
}
if (fSelfKey)
{
Py_DECREF(fSelfKey);
fSelfKey = nil;
}
// get rid of the python code
if ( fPythonFile )
{
delete [] fPythonFile;
fPythonFile = nil;
}
// then get rid of this module
// NOTE: fModule shouldn't be made in the plugin, only at runtime
if ( fModuleName && fModule )
{
//_PyModule_Clear(fModule);
PyObject *m;
PyObject *modules = PyImport_GetModuleDict();
if( modules && (m = PyDict_GetItemString(modules, fModuleName)) && PyModule_Check(m))
{
hsStatusMessageF("Module %s removed from python dictionary",fModuleName);
PyDict_DelItemString(modules, fModuleName);
}
else
{
hsStatusMessageF("Module %s not found in python dictionary. Already removed?",fModuleName);
}
// the above code should have unloaded the module from python, so it will delete itself, therefore
// we need to set our pointer to nil to make sure we don't try to use it
fModule = nil;
}
delete [] fModuleName;
fModuleName = nil;
}
#include "plPythonPack.h"
bool plPythonFileMod::ILoadPythonCode()
{
#ifndef PLASMA_EXTERNAL_RELEASE
// get code from file and execute in module
// see if the file exists first before trying to import it
char pathandfile[256];
sprintf(pathandfile, ".\\python\\%s.py",fPythonFile);
wchar *wPathandfile = hsStringToWString(pathandfile);
hsBool exists = PathDoesFileExist(wPathandfile);
delete [] wPathandfile;
if (exists)
{
char fromLoad[256];
//sprintf(fromLoad,"from %s import *", fPythonFile);
// ok... we can't really use import because Python remembers too much where global variables came from
// ...and using execfile make it sure that globals are defined in this module and not in the imported module
sprintf(fromLoad,"execfile('.\\\\python\\\\%s.py')", fPythonFile);
if ( PythonInterface::RunString( fromLoad, fModule) )
{
// we've loaded the code into our module
// now attach the glue python code to the end
if ( !PythonInterface::RunString("execfile('.\\\\python\\\\plasma\\\\glue.py')", fModule) )
{
// display any output (NOTE: this would be disabled in production)
DisplayPythonOutput();
return false;
}
else
return true;
}
DisplayPythonOutput();
char errMsg[256];
sprintf(errMsg,"Python file %s.py had errors!!! Could not load.",fPythonFile);
PythonInterface::WriteToLog(errMsg);
hsAssert(0,errMsg);
return false;
}
#endif //PLASMA_EXTERNAL_RELEASE
// Finally, try and find the file in the Python packfile
// ... for the external users .pak file is only used
PyObject* pythonCode = PythonPack::OpenPythonPacked(fPythonFile);
if (pythonCode && PythonInterface::RunPYC(pythonCode, fModule))
return true;
DisplayPythonOutput();
char errMsg[256];
sprintf(errMsg,"Python file %s.py was not found.",fPythonFile);
PythonInterface::WriteToLog(errMsg);
hsAssert(0,errMsg);
return false;
}
/////////////////////////////////////////////////////////////////////////////
//
// Function : AddTarget
// PARAMETERS : sobj - object to add as our target
//
// PURPOSE : Get the Key of our target
//
// NOTE: This modifier wasn't intended to have multiple targets
//
void plPythonFileMod::AddTarget(plSceneObject* sobj)
{
plMultiModifier::AddTarget(sobj);
plgDispatch::Dispatch()->RegisterForExactType(plEvalMsg::Index(), GetKey());
plgDispatch::Dispatch()->RegisterForExactType(plPlayerPageMsg::Index(), GetKey());
plgDispatch::Dispatch()->RegisterForExactType(plAgeBeginLoadingMsg::Index(), GetKey());
plgDispatch::Dispatch()->RegisterForExactType(plInitialAgeStateLoadedMsg::Index(), GetKey());
// initialize the python stuff
if ( !fAtConvertTime ) // if this is just an Add that's during a convert, then don't do anymore
{
// was there a python file module with this?
if ( fPythonFile )
{
// has the module not been initialized yet
if ( !fModule )
{
plKey pkey = sobj->GetKey();
// nope, must be the first object. Then use it as the basis for the module
char modulename[256];
IMakeModuleName(modulename,sobj);
delete [] fModuleName;
fModuleName = StrDup(modulename);
fModule = PythonInterface::CreateModule(modulename);
// if we can't create the instance then there is nothing to do here
if (!ILoadPythonCode())
{
// things are getting off on a bad foot... just say there wasn't a module...
fModule = nil;
return;
}
// set the name of the file (in the global dictionary of the module)
PyObject* dict = PyModule_GetDict(fModule);
PyObject* pfilename = PyString_FromString(fPythonFile);
PyDict_SetItemString(dict, "glue_name", pfilename);
// next we need to:
// - create instance of class
PyObject* getInst = PythonInterface::GetModuleItem("glue_getInst",fModule);
fInstance = nil;
if ( getInst!=nil && PyCallable_Check(getInst) )
{
fInstance = PyObject_CallFunction(getInst,nil);
if ( fInstance == nil )
// if there was an error make sure that the stderr gets flushed so it can be seen
ReportError();
}
// display any output
DisplayPythonOutput();
if ( fInstance == nil ) // then there was an error
{
// display any output (NOTE: this would be disabled in production)
char errMsg[256];
sprintf(errMsg,"Python file %s.py, instance not found.",fPythonFile);
PythonInterface::WriteToLog(errMsg);
hsAssert(0, errMsg);
return; // if we can't create the instance then there is nothing to do here
}
// Add the SDL modifier
if (plPythonSDLModifier::HasSDL(fPythonFile))
{
plSceneObject* sceneObj = plSceneObject::ConvertNoRef(GetTarget(0)->GetKey()->ObjectIsLoaded());
if (sceneObj)
{
hsAssert(!fSDLMod, "Python SDL modifier already created");
fSDLMod = TRACKED_NEW plPythonSDLModifier(this);
sceneObj->AddModifier(fSDLMod);
}
}
// - set the self.key and self.sceneobject in the instance of the class
// create the pyKey for this modifier
fSelfKey = pyKey::New(GetKey(),this);
// set the selfKey as an attribute to their instance
PyObject_SetAttrString(fInstance, "key", fSelfKey);
// create the sceneobject
PyObject* pSobj = pySceneObject::New(pkey, fSelfKey);
// set the sceneobject as an attribute to their instance
PyObject_SetAttrString(fInstance, "sceneobject", pSobj);
Py_DECREF(pSobj);
// set the isInitialStateLoaded to not loaded... yet
PyObject* pInitialState = PyInt_FromLong(0);
PyObject_SetAttrString(fInstance, "isInitialStateLoaded", pInitialState);
Py_DECREF(pInitialState);
// Give the SDL mod to Python
if (fSDLMod)
{
PyObject* pSDL = pySDLModifier::New(fSDLMod);
PyObject_SetAttrString(fInstance, "SDL", pSDL);
Py_DECREF(pSDL);
}
// - set the parameters
PyObject* setParams = PythonInterface::GetModuleItem("glue_setParam",fModule);
PyObject* check_isNamed = PythonInterface::GetModuleItem("glue_isNamedAttribute",fModule);
if ( setParams!=nil && PyCallable_Check(setParams) )
{
// loop throught the parameters and set them by id
// (will need to create the appropiate Python object for each type)
int nparam;
for ( nparam=0; nparam<GetParameterListCount() ; nparam++ )
{
plPythonParameter parameter = GetParameterItem(nparam);
// create the python object that matches the type
// (NOTE: this relies on function created above to help create Plasma python objects)
PyObject* value = nil; // assume that there is no conversion available
int isNamedAttr = 0;
PyObject* retvalue;
switch (parameter.fValueType)
{
case plPythonParameter::kInt:
value = PyInt_FromLong(parameter.datarecord.fIntNumber);
break;
case plPythonParameter::kFloat:
value = PyFloat_FromDouble(parameter.datarecord.fFloatNumber);
break;
case plPythonParameter::kBoolean:
value = PyInt_FromLong(parameter.datarecord.fBool);
break;
case plPythonParameter::kString:
case plPythonParameter::kAnimationName:
isNamedAttr = 0;
if ( check_isNamed!=nil && PyCallable_Check(check_isNamed) )
{
retvalue = PyObject_CallFunction(check_isNamed,"l", parameter.fID);
if ( retvalue == nil )
{
ReportError();
DisplayPythonOutput();
}
if ( retvalue && PyInt_Check(retvalue) )
isNamedAttr = PyInt_AsLong(retvalue);
Py_XDECREF(retvalue);
// is it a NamedActivator
if ( isNamedAttr == 1 || isNamedAttr == 2)
{
if (plAgeLoader::GetInstance()->IsLoadingAge())
{
NamedComponent comp;
comp.isActivator = (isNamedAttr == 1);
comp.id = parameter.fID;
comp.name = TRACKED_NEW char[strlen(parameter.datarecord.fString) + 1];
strcpy(comp.name, parameter.datarecord.fString);
fNamedCompQueue.Append(comp);
}
else
{
if (isNamedAttr == 1)
IFindActivatorAndAdd(parameter.datarecord.fString, parameter.fID);
else
IFindResponderAndAdd(parameter.datarecord.fString, parameter.fID);
}
}
}
// if it wasn't a named string then must be normal string type
if ( isNamedAttr == 0 )
if ( parameter.datarecord.fString != nil )
value = PyString_FromString(parameter.datarecord.fString);
break;
case plPythonParameter::kSceneObject:
case plPythonParameter::kSceneObjectList:
if ( parameter.fObjectKey != nil )
{
// create the sceneobject
value = pySceneObject::New(parameter.fObjectKey, fSelfKey);
}
break;
case plPythonParameter::kActivatorList:
case plPythonParameter::kResponderList:
case plPythonParameter::kDynamicText:
case plPythonParameter::kGUIDialog:
case plPythonParameter::kExcludeRegion:
case plPythonParameter::kAnimation:
case plPythonParameter::kBehavior:
case plPythonParameter::kMaterial:
case plPythonParameter::kGUIPopUpMenu:
case plPythonParameter::kGUISkin:
case plPythonParameter::kWaterComponent:
case plPythonParameter::kSwimCurrentInterface:
case plPythonParameter::kClusterComponentList:
case plPythonParameter::kMaterialAnimation:
case plPythonParameter::kGrassShaderComponent:
if ( parameter.fObjectKey != nil )
{
// create pyKey for the object
value = pyKey::New(parameter.fObjectKey);
}
break;
}
// if there is a value that was converted then tell the Python code
if ( value != nil )
{
PyObject* retVal = PyObject_CallFunction(setParams,"lO", parameter.fID, value);
if ( retVal == nil )
{
// if there was an error make sure that the stderr gets flushed so it can be seen
ReportError();
}
Py_XDECREF(retVal);
Py_DECREF(value);
}
}
}
// check if we need to register named activators or responders
if (fNamedCompQueue.Count() > 0)
{
plgDispatch::Dispatch()->RegisterForExactType( plAgeLoadedMsg::Index(), GetKey() );
}
// - find functions in class they've defined.
PythonInterface::CheckInstanceForFunctions(fInstance,fFunctionNames,fPyFunctionInstances);
// clear any errors created by checking for methods in a class
PyErr_Clear(); // clear the error
// register for messages that they have functions defined for
// register for PageLoaded message if needed
if ( fPyFunctionInstances[kfunc_PageLoad] != nil )
{
// register for plRoomLoadNotifyMsg
plgDispatch::Dispatch()->RegisterForExactType(plRoomLoadNotifyMsg::Index(), GetKey());
}
// register for ClothingUpdate message if needed
if ( fPyFunctionInstances[kfunc_ClothingUpdate] != nil )
{
// register for plRoomLoadNotifyMsg
plgDispatch::Dispatch()->RegisterForExactType(plClothingUpdateBCMsg::Index(), GetKey());
}
// register for pfKIMsg message if needed
if ( fPyFunctionInstances[kfunc_KIMsg] != nil )
{
// register for pfKIMsg
plgDispatch::Dispatch()->RegisterForExactType(pfKIMsg::Index(), GetKey());
}
// register for Member update message if needed
if ( fPyFunctionInstances[kfunc_MemberUpdate] != nil )
{
// register for plMemberUpdateMsg
plgDispatch::Dispatch()->RegisterForExactType(plMemberUpdateMsg::Index(), GetKey());
}
// register for Remote Avatar Info message if needed
if ( fPyFunctionInstances[kfunc_RemoteAvatarInfo] != nil )
{
// register for plRemoteAvatarInfoMsg
plgDispatch::Dispatch()->RegisterForExactType(plRemoteAvatarInfoMsg::Index(), GetKey());
}
// register for CCR message if needed
if ( fPyFunctionInstances[kfunc_OnCCRMsg] != nil )
{
// register for plCCRCommunicationMsg
plgDispatch::Dispatch()->RegisterForExactType(plCCRCommunicationMsg::Index(), GetKey());
}
// register for VaultNotify message if needed
if ( fPyFunctionInstances[kfunc_OnVaultNotify] != nil )
{
// register for plVaultNotifyMsg
plgDispatch::Dispatch()->RegisterForExactType(plVaultNotifyMsg::Index(), GetKey());
}
// register for Owndership change notification message if needed
if ( fPyFunctionInstances[kfunc_OwnershipNotify] != nil )
{
// register for plNetOwnershipMsg
plgDispatch::Dispatch()->RegisterForExactType(plNetOwnershipMsg::Index(), GetKey());
}
#ifndef PLASMA_EXTERNAL_RELEASE
// register for Backdoor message if needed
if ( fPyFunctionInstances[kfunc_OnBackdoorMsg] != nil )
{
// register for pfDebugTriggerMsg
plgDispatch::Dispatch()->RegisterForExactType(pfBackdoorMsg::Index(), GetKey());
}
#endif //PLASMA_EXTERNAL_RELEASE
// register for VaultCallback events if needed
if ( fPyFunctionInstances[kfunc_VaultEvent] != nil )
{
// create the callback object
// Set the callback for the vault thingy
fVaultCallback = TRACKED_NEW PythonVaultCallback( this, kfunc_VaultEvent );
VaultRegisterCallback(fVaultCallback);
}
// register ourselves to be the default key catcher if necessary
if ( fPyFunctionInstances[kfunc_OnDefaultKeyCaught] != nil )
{
// Make us a key catcher
fKeyCatcher = TRACKED_NEW pfPythonKeyCatcher( this );
// Tell the input interface manager to use our catcher
plInputInterfaceMgr::GetInstance()->SetDefaultKeyCatcher( fKeyCatcher );
}
// register for Marker messages if needed
if ( fPyFunctionInstances[kfunc_OnMarkerMsg] != nil )
{
plgDispatch::Dispatch()->RegisterForExactType(pfMarkerMsg::Index(), GetKey());
}
// if they are going to get LOS hit messages then we need to get the Pipeline pointer
if ( fPyFunctionInstances[kfunc_OnLOSNotify] != nil )
{
plgDispatch::Dispatch()->RegisterForExactType( plRenderMsg::Index(), GetKey() );
}
// if this is a climbing-wall function, we need to register for climbing wall messages
if ( fPyFunctionInstances[kfunc_OnClimbBlockerEvent] != nil)
{
plgDispatch::Dispatch()->RegisterForExactType( plClimbEventMsg::Index(), GetKey() );
}
if ( fPyFunctionInstances[kfunc_OnAvatarSpawn] != nil)
{
plgDispatch::Dispatch()->RegisterForExactType( plAvatarSpawnNotifyMsg::Index(), GetKey() );
}
if ( fPyFunctionInstances[kfunc_OnAccountUpdate] != nil)
{
plgDispatch::Dispatch()->RegisterForExactType( plAccountUpdateMsg::Index(), GetKey() );
}
if ( fPyFunctionInstances[kfunc_gotPublicAgeList] != nil)
{
plgDispatch::Dispatch()->RegisterForExactType(plNetCommPublicAgeListMsg::Index(), GetKey());
}
if ( fPyFunctionInstances[kfunc_OnGameMgrMsg] != nil)
{
pfGameMgr::GetInstance()->AddReceiver(GetKey());
}
if ( fPyFunctionInstances[kfunc_OnAIMsg] != nil)
{
// the message that is spammed to anyone who will listen
plgDispatch::Dispatch()->RegisterForExactType(plAIBrainCreatedMsg::Index(), GetKey());
}
// As the last thing... call the OnInit function if they have one
if ( fPyFunctionInstances[kfunc_Init] != nil )
{
plProfile_BeginTiming(PythonUpdate);
// call it
PyObject* retVal = PyObject_CallMethod(fPyFunctionInstances[kfunc_Init],fFunctionNames[kfunc_Init],nil);
if ( retVal == nil )
{
#ifndef PLASMA_EXTERNAL_RELEASE
// for some reason this function didn't, remember that and not call it again
fPyFunctionInstances[kfunc_Init] = nil;
#endif //PLASMA_EXTERNAL_RELEASE
// if there was an error make sure that the stderr gets flushed so it can be seen
ReportError();
}
Py_XDECREF(retVal);
plProfile_EndTiming(PythonUpdate);
// display any output (NOTE: this would be disabled in production)
DisplayPythonOutput();
}
// display python output
DisplayPythonOutput();
}
else
{
// else if module is already created... Then we are just adding an addition object to the already existing SceneObject
if ( fInstance ) // make sure that we have an instance already also
{
PyObject* dict = PyModule_GetDict(fModule);
// create pyKey for the object
PyObject* pkeyObj = pyKey::New(sobj->GetKey());
// need to get the instance, that holds the sceneobject that we are attached to
PyObject* getInst = PythonInterface::GetModuleItem("glue_getInst",fModule);
// get the sceneObject that should already be created
PyObject* pSceneObject = PyObject_GetAttrString(fInstance,"sceneobject");
// add our new object to the list of objects that are in the _selfObject
PyObject* retVal = PyObject_CallMethod(pSceneObject,"addKey","O",pkeyObj );
Py_XDECREF(retVal);
// GetAttrString put a ref on pSceneObject, but we're done with it now.
Py_XDECREF(pSceneObject);
Py_DECREF(pkeyObj);
}
}
}
}
}
void plPythonFileMod::RemoveTarget(plSceneObject* so)
{
// remove sdl modifier
if (fSDLMod)
{
if (GetNumTargets() > 0)
{
plSceneObject* sceneObj = plSceneObject::ConvertNoRef(GetTarget(0)->GetKey()->ObjectIsLoaded());
if (sceneObj && fSDLMod)
sceneObj->RemoveModifier(fSDLMod);
}
delete fSDLMod;
fSDLMod = nil;
}
plMultiModifier::RemoveTarget(so);
}
/////////////////////////////////////////////////////////////////////////////
//
// Function : HandleDiscardedKey
// PARAMETERS : msg - the key event message that was discarded
//
// PURPOSE : API for processing discarded keys as the deafult key catcher
//
void plPythonFileMod::HandleDiscardedKey( plKeyEventMsg *msg )
{
// So OnDefaultKeyCaught takes two parameters: the key character pressed and a boolean saying up or down
char keyChar = plKeyboardDevice::KeyEventToChar( msg );
// if the caps lock is down then reverse upper and lowercase
if ( msg->GetCapsLockKeyDown() )
{
if ( std::islower(keyChar,std::locale()) )
keyChar = std::toupper(keyChar,std::locale());
else
keyChar = std::tolower(keyChar,std::locale());
}
if (!fPyFunctionInstances[kfunc_OnDefaultKeyCaught])
return;
plProfile_BeginTiming( PythonUpdate );
PyObject* retVal = PyObject_CallMethod( fPyFunctionInstances[ kfunc_OnDefaultKeyCaught ],
fFunctionNames[ kfunc_OnDefaultKeyCaught ],
"ciiiii",
keyChar,
(int)msg->GetKeyDown(),
(int)msg->GetRepeat(),
(int)msg->GetShiftKeyDown(),
(int)msg->GetCtrlKeyDown(),
(int)msg->GetKeyCode() );
if( retVal == nil )
{
#ifndef PLASMA_EXTERNAL_RELEASE
// for some reason this function didn't, remember that and not call it again
fPyFunctionInstances[ kfunc_OnDefaultKeyCaught ] = nil;
#endif //PLASMA_EXTERNAL_RELEASE
// if there was an error make sure that the stderr gets flushed so it can be seen
ReportError();
}
Py_XDECREF(retVal);
plProfile_EndTiming( PythonUpdate );
// display any output (NOTE: this would be disabled in production)
DisplayPythonOutput();
}
/////////////////////////////////////////////////////////////////////////////
//
// Function : IMakeModuleName
// PARAMETERS : sobj - object to add as our target
//
// PURPOSE : Get the Key of our target
//
// NOTE: This modifier wasn't intended to have multiple targets
//
void plPythonFileMod::IMakeModuleName(char* modulename,plSceneObject* sobj)
{
// Forgive my general crapulance...
// This strips underscores out of module names
// so python won't truncate them... -S
plKey pKey = GetKey();
plKey sKey = sobj->GetKey();
const char* pKeyName = pKey->GetName();
const char* pSobjName = sKey->GetName();
UInt16 len = hsStrlen(pKeyName);
UInt16 slen = hsStrlen(pSobjName);
hsAssert(len+slen < 256, "Warning: String length exceeds 256 characters.");
int i, k = 0;
for(i = 0; i < slen; i++)
{
if(pSobjName[i] == '_') continue;
modulename[k++] = pSobjName[i];
}
for(i = 0; i < len; i++)
{
if(pKeyName[i] == '_') continue;
modulename[k++] = pKeyName[i];
}
modulename[k] = '\0';
// check to see if we are attaching to a clone?
plKeyImp* pKeyImp = (plKeyImp*)(sKey);
if (pKeyImp->GetCloneOwner())
{
// we have an owner... so we must be a clone.
// add the cloneID to the end of the module name
// and set the fIAmAClone flag
UInt32 cloneID = pKeyImp->GetUoid().GetCloneID();
sprintf(modulename,"%s%d",modulename,cloneID);
fAmIAttachedToClone = true;
}
// make sure that the actual modulue will be uniqie
if ( !PythonInterface::IsModuleNameUnique(modulename) )
{
// if not unique then add the sequence number to the end of the modulename
UInt32 seqID = pKeyImp->GetUoid().GetLocation().GetSequenceNumber();
sprintf(modulename,"%s%d",modulename,seqID);
}
}
/////////////////////////////////////////////////////////////////////////////
//
// Function : ISetKeyValue
// PARAMETERS : key to responder, parameter id
//
// PURPOSE : set the param in the python file
// : so named stuff works
//
void plPythonFileMod::ISetKeyValue(const plKey& key, Int32 id)
{
PyObject* setParams = PythonInterface::GetModuleItem("glue_setParam",fModule);
if ( setParams != nil && PyCallable_Check(setParams) )
{
if ( key != nil )
{
// create pyKey for the object
PyObject* value = pyKey::New(key);
if ( value != nil )
{
PyObject* retVal = PyObject_CallFunction(setParams,"lO", id, value);
if ( retVal == nil )
{
// if there was an error make sure that the stderr gets flushed so it can be seen
ReportError();
}
Py_XDECREF(retVal);
Py_DECREF(value);
}
}
}
}
/////////////////////////////////////////////////////////////////////////////
//
// Function : IFindResponderAndAdd
// PARAMETERS : ResponderName - name of the responder to find
//
// PURPOSE : find a responder by name in all age and page locations
// : and add to the Parameter list
//
void plPythonFileMod::IFindResponderAndAdd(const char *responderName, Int32 id)
{
if ( responderName != nil )
{
std::vector<plKey> keylist;
const plLocation &loc = GetKey()->GetUoid().GetLocation();
plKeyFinder::Instance().ReallyStupidResponderSearch(responderName,keylist,loc); // use the really stupid search to find the responder
// the keylist will be filled with all the keys that correspond to that responder
int list_size = keylist.size();
int i;
for ( i=0 ; i<list_size; i++ )
{
plPythonParameter parm(id);
parm.SetToResponder(keylist[i]);
AddParameter(parm);
ISetKeyValue(keylist[i], id);
}
}
}
/////////////////////////////////////////////////////////////////////////////
//
// Function : IFindActivatorAndAdd
// PARAMETERS : ResponderName - name of the responder to find
//
// PURPOSE : find a responder by name in all age and page locations
// : and add to the Parameter list
//
void plPythonFileMod::IFindActivatorAndAdd(const char *activatorName, Int32 id)
{
if ( activatorName != nil )
{
std::vector<plKey> keylist;
const plLocation &loc = GetKey()->GetUoid().GetLocation();
plKeyFinder::Instance().ReallyStupidActivatorSearch(activatorName,keylist, loc); // use the really stupid search to find the responder
// the keylist will be filled with all the keys that correspond to that responder
int list_size = keylist.size();
// create the Python object that is the list, starts as empty
int i;
for ( i=0 ; i<list_size; i++ )
{
plPythonParameter parm(id);
parm.SetToActivator(keylist[i]);
AddParameter(parm);
ISetKeyValue(keylist[i], id);
// need to add ourselves as a receiver to their list
// first see if it is an logicMod, then add to their receiver list
plLogicModifier *logic = plLogicModifier::ConvertNoRef(keylist[i]->ObjectIsLoaded());
if (logic)
{
logic->AddNotifyReceiver(this->GetKey());
}
else // else might be a python file key
{
// next check to see if it is another PythonFileMod, and add to their notify list
plPythonFileMod *pymod = plPythonFileMod::ConvertNoRef(keylist[i]->ObjectIsLoaded());
if (pymod)
{
pymod->AddToNotifyList(this->GetKey());
}
else // else maybe its just not loaded yet
{
// setup a ref notify when it does get loaded
hsgResMgr::ResMgr()->AddViaNotify(keylist[i],
TRACKED_NEW plGenRefMsg(GetKey(), plRefMsg::kOnCreate, kAddNotify, 0),
plRefFlags::kPassiveRef);
}
}
}
}
}
/////////////////////////////////////////////////////////////////////////////
//
// Function : IEval
// PARAMETERS : secs
// del
// dirty
//
// PURPOSE : This is where the main update work is done
// Tasks:
// - Call the Python code's Update function (if there)
//
hsBool plPythonFileMod::IEval(double secs, hsScalar del, UInt32 dirty)
{
if ( fModule )
{
// if this is the first time at the Eval, then run Python init
if ( fIsFirstTimeEval )
{
fIsFirstTimeEval = false; // no longer the first time
// now run the __init__ function if there is one.
// is the Update function defined and working (as far as we know)?
if ( fPyFunctionInstances[kfunc_FirstUpdate] != nil )
{
plProfile_BeginTiming(PythonUpdate);
// call it
PyObject* retVal = PyObject_CallMethod(fPyFunctionInstances[kfunc_FirstUpdate],fFunctionNames[kfunc_FirstUpdate],nil);
if ( retVal == nil )
{
#ifndef PLASMA_EXTERNAL_RELEASE
// for some reason this function didn't, remember that and not call it again
fPyFunctionInstances[kfunc_FirstUpdate] = nil;
#endif //PLASMA_EXTERNAL_RELEASE
// if there was an error make sure that the stderr gets flushed so it can be seen
ReportError();
}
Py_XDECREF(retVal);
plProfile_EndTiming(PythonUpdate);
// display any output (NOTE: this would be disabled in production)
DisplayPythonOutput();
}
}
// is the Update function defined and working (as far as we know)?
if ( fPyFunctionInstances[kfunc_Update] != nil )
{
plProfile_BeginTiming(PythonUpdate);
// call it
PyObject* retVal = PyObject_CallMethod(fPyFunctionInstances[kfunc_Update],fFunctionNames[kfunc_Update],"df",secs,del);
if ( retVal == nil )
{
#ifndef PLASMA_EXTERNAL_RELEASE
// for some reason this function didn't, remember that and not call it again
fPyFunctionInstances[kfunc_Update] = nil;
#endif //PLASMA_EXTERNAL_RELEASE
// if there was an error make sure that the stderr gets flushed so it can be seen
ReportError();
}
Py_XDECREF(retVal);
plProfile_EndTiming(PythonUpdate);
// display any output (NOTE: this would be disabled in production)
DisplayPythonOutput();
}
}
return true;
}
/////////////////////////////////////////////////////////////////////////////
//
// Function : MsgReceive
// PARAMETERS : msg - the message that came to us.
//
// PURPOSE : Handle all the different types of messages that we recv
//
hsBool plPythonFileMod::MsgReceive(plMessage* msg)
{
// is it a ref message
plGenRefMsg* genRefMsg = plGenRefMsg::ConvertNoRef(msg);
if (genRefMsg)
{
// is it a ref for a named activator that we need to add to notify?
if ((genRefMsg->GetContext() & plRefMsg::kOnCreate) && genRefMsg->fWhich == kAddNotify)
{
// which kind of activator is this
plLogicModifier *logic = plLogicModifier::ConvertNoRef(genRefMsg->GetRef());
if (logic)
{
logic->AddNotifyReceiver(this->GetKey());
}
else // else might be a python file key
{
// next check to see if it is another PythonFileMod, and add to their notify list
plPythonFileMod *pymod = plPythonFileMod::ConvertNoRef(genRefMsg->GetRef());
if (pymod)
{
pymod->AddToNotifyList(this->GetKey());
}
}
}
}
plAgeLoadedMsg* ageLoadedMsg = plAgeLoadedMsg::ConvertNoRef(msg);
if (ageLoadedMsg && ageLoadedMsg->fLoaded)
{
for (int i = 0; i < fNamedCompQueue.Count(); ++i)
{
NamedComponent comp = fNamedCompQueue[i];
if (comp.isActivator)
IFindActivatorAndAdd(comp.name, comp.id);
else
IFindResponderAndAdd(comp.name, comp.id);
delete [] comp.name;
}
fNamedCompQueue.Reset();
plgDispatch::Dispatch()->UnRegisterForExactType( plAgeLoadedMsg::Index(), GetKey() );
}
// if this is a render message, then we are just trying to get a pointer to the Pipeline
plRenderMsg *rMsg = plRenderMsg::ConvertNoRef( msg );
if( rMsg != nil )
{
fPipe = rMsg->Pipeline();
plgDispatch::Dispatch()->UnRegisterForExactType( plRenderMsg::Index(), GetKey() );
return true;
}
// are they looking for an Notify message? should be coming from a proActivator
if (fPyFunctionInstances[kfunc_Notify] != nil)
{
// yes, so was there actually a plActivateMsg?
plNotifyMsg* pNtfyMsg = plNotifyMsg::ConvertNoRef(msg);
if (pNtfyMsg)
{
// remember if this was a Local Broad cast or not
fLocalNotify = (pNtfyMsg->HasBCastFlag(plMessage ::plBCastFlags::kNetNonLocal)) ? false : true;
// create a list for the event records
PyObject* levents = PyList_New(0); // start with a list of no elements
// loop thought the event records to get the data and transform into python objects
Int32 num_records = pNtfyMsg->GetEventCount();
int j;
for ( j=0; j<num_records; j++ )
{
// get an event record
proEventData* pED = pNtfyMsg->GetEventRecord(j);
switch ( pED->fEventType )
{
case proEventData::kCollision:
{
proCollisionEventData *eventData = (proCollisionEventData *)pED;
// get data from the collision
// create list
PyObject* event = PyList_New(4);
PyList_SetItem(event, 0, PyLong_FromLong((long)proEventData::kCollision));
PyList_SetItem(event, 1, PyInt_FromLong(eventData->fEnter ? 1 : 0));
PyList_SetItem(event, 2, pySceneObject::New(eventData->fHitter, fSelfKey));
PyList_SetItem(event, 3, pySceneObject::New(eventData->fHittee, fSelfKey));
// add this event record to the main event list (lists within a list)
PyList_Append(levents, event);
Py_DECREF(event);
}
break;
case proEventData::kSpawned:
{
proSpawnedEventData *eventData = (proSpawnedEventData *)pED;
PyObject* event = PyList_New(3);
PyList_SetItem(event, 0, PyLong_FromLong((long)proEventData::kSpawned));
PyList_SetItem(event, 1, pySceneObject::New(eventData->fSpawner, fSelfKey));
PyList_SetItem(event, 2, pySceneObject::New(eventData->fSpawnee, fSelfKey));
PyList_Append(levents, event);
Py_DECREF(event);
}
break;
case proEventData::kPicked:
{
// get data from the picked event
proPickedEventData *eventData = (proPickedEventData *)pED;
// create list
PyObject* event = PyList_New(6);
PyList_SetItem(event, 0, PyLong_FromLong((long)proEventData::kPicked));
PyList_SetItem(event, 1, PyInt_FromLong(eventData->fEnabled ? 1 : 0));
PyList_SetItem(event, 2, pySceneObject::New(eventData->fPicker, fSelfKey));
PyList_SetItem(event, 3, pySceneObject::New(eventData->fPicked, fSelfKey));
PyList_SetItem(event, 4, pyPoint3::New(eventData->fHitPoint));
// make it in the local space
hsPoint3 tolocal(0,0,0);
if(eventData->fPicked)
{
plSceneObject* obj = plSceneObject::ConvertNoRef(eventData->fPicked->ObjectIsLoaded());
if ( obj )
{
const plCoordinateInterface* ci = obj->GetCoordinateInterface();
if ( ci )
tolocal = (hsMatrix44)ci->GetWorldToLocal() * eventData->fHitPoint;
}
}
PyList_SetItem(event, 5, pyPoint3::New(tolocal));
// add this event record to the main event list (lists within a list)
PyList_Append(levents, event);
Py_DECREF(event);
}
break;
case proEventData::kControlKey:
{
proControlKeyEventData *eventData = (proControlKeyEventData *)pED;
// create event list
PyObject* event = PyList_New(3);
PyList_SetItem(event, 0, PyLong_FromLong((long)proEventData::kControlKey));
PyList_SetItem(event, 1, PyLong_FromLong(eventData->fControlKey));
PyList_SetItem(event, 2, PyInt_FromLong(eventData->fDown ? 1 : 0));
// add this event record to the main event list (lists within a list)
PyList_Append(levents, event);
Py_DECREF(event);
}
break;
case proEventData::kVariable:
{
proVariableEventData *eventData = (proVariableEventData *)pED;
// create event list
PyObject* event = PyList_New(4);
PyList_SetItem(event, 0, PyLong_FromLong((long)proEventData::kVariable));
PyList_SetItem(event, 1, PyString_FromString(eventData->fName));
PyList_SetItem(event, 2, PyLong_FromLong(eventData->fDataType));
// depending on the data type create the data
switch ( eventData->fDataType )
{
case proEventData::kNumber:
PyList_SetItem(event, 3, PyFloat_FromDouble(eventData->fNumber));
break;
case proEventData::kKey:
PyList_SetItem(event, 3, pyKey::New(eventData->fKey));
break;
}
// add this event record to the main event list (lists within a list)
PyList_Append(levents, event);
Py_DECREF(event);
}
break;
case proEventData::kFacing:
{
proFacingEventData *eventData = (proFacingEventData *)pED;
// create event list
PyObject* event = PyList_New(5);
PyList_SetItem(event, 0, PyLong_FromLong((long)proEventData::kFacing));
PyList_SetItem(event, 1, PyInt_FromLong(eventData->enabled ? 1 : 0));
PyList_SetItem(event, 2, pySceneObject::New(eventData->fFacer, fSelfKey));
PyList_SetItem(event, 3, pySceneObject::New(eventData->fFacee, fSelfKey));
PyList_SetItem(event, 4, PyFloat_FromDouble(eventData->dot));
// add this event record to the main event list (lists within a list)
PyList_Append(levents, event);
Py_DECREF(event);
}
break;
case proEventData::kContained:
{
proContainedEventData *eventData = (proContainedEventData *)pED;
// create event list
PyObject* event = PyList_New(4);
PyList_SetItem(event, 0, PyLong_FromLong((long)proEventData::kContained));
PyList_SetItem(event, 1, PyInt_FromLong(eventData->fEntering ? 1 : 0));
PyList_SetItem(event, 2, pySceneObject::New(eventData->fContained, fSelfKey));
PyList_SetItem(event, 3, pySceneObject::New(eventData->fContainer, fSelfKey));
// add this event record to the main event list (lists within a list)
PyList_Append(levents, event);
Py_DECREF(event);
}
break;
case proEventData::kActivate:
{
proActivateEventData *eventData = (proActivateEventData *)pED;
// create event list
PyObject* event = PyList_New(3);
PyList_SetItem(event, 0, PyLong_FromLong((long)proEventData::kActivate));
PyList_SetItem(event, 1, PyInt_FromLong(eventData->fActive ? 1 : 0));
PyList_SetItem(event, 2, PyInt_FromLong(eventData->fActivate ? 1 : 0));
// add this event record to the main event list (lists within a list)
PyList_Append(levents, event);
Py_DECREF(event);
}
break;
case proEventData::kCallback:
{
proCallbackEventData *eventData = (proCallbackEventData *)pED;
// create event list
PyObject* event = PyList_New(2);
PyList_SetItem(event, 0, PyLong_FromLong((long)proEventData::kCallback));
PyList_SetItem(event, 1, PyLong_FromLong(eventData->fEventType));
// add this event record to the main event list (lists within a list)
PyList_Append(levents, event);
Py_DECREF(event);
}
break;
case proEventData::kResponderState:
{
proResponderStateEventData *eventData = (proResponderStateEventData *)pED;
// create event list
PyObject* event = PyList_New(2);
PyList_SetItem(event, 0, PyLong_FromLong((long)proEventData::kResponderState));
PyList_SetItem(event, 1, PyLong_FromLong(eventData->fState));
// add this event record to the main event list (lists within a list)
PyList_Append(levents, event);
Py_DECREF(event);
}
break;
case proEventData::kMultiStage:
{
proMultiStageEventData *eventData = (proMultiStageEventData *)pED;
// create event list
PyObject* event = PyList_New(4);
PyList_SetItem(event, 0, PyLong_FromLong((long)proEventData::kMultiStage));
PyList_SetItem(event, 1, PyLong_FromLong(eventData->fStage));
PyList_SetItem(event, 2, PyLong_FromLong(eventData->fEvent));
PyList_SetItem(event, 3, pySceneObject::New(eventData->fAvatar, fSelfKey));
// add this event record to the main event list (lists within a list)
PyList_Append(levents, event);
Py_DECREF(event);
}
break;
case proEventData::kOfferLinkingBook:
{
proOfferLinkingBookEventData* eventData = (proOfferLinkingBookEventData*)pED;
// create event list
PyObject* event = PyList_New(4);
PyList_SetItem(event, 0, PyLong_FromLong((long)proEventData::kOfferLinkingBook));
PyList_SetItem(event, 1, pySceneObject::New(eventData->offerer, fSelfKey));
PyList_SetItem(event, 2, PyInt_FromLong(eventData->targetAge));
PyList_SetItem(event, 3, PyInt_FromLong(eventData->offeree));
PyList_Append(levents, event);
Py_DECREF(event);
}
break;
case proEventData::kBook:
{
proBookEventData* eventData = (proBookEventData*)pED;
// create event list
PyObject* event = PyList_New(3);
PyList_SetItem(event, 0, PyLong_FromLong((long)proEventData::kBook));
PyList_SetItem(event, 1, PyLong_FromUnsignedLong(eventData->fEvent));
PyList_SetItem(event, 2, PyLong_FromUnsignedLong(eventData->fLinkID));
PyList_Append(levents, event);
Py_DECREF(event);
}
break;
}
}
// Need to determine which of the Activators sent this plNotifyMsg
// and set the ID appropriately
Int32 id = -1; // assume that none was found
if ( pNtfyMsg->GetSender() != nil )
{
// loop throught the parameters and set them by id
// (will need to create the appropiate Python object for each type)
int npm;
for ( npm=0; npm<GetParameterListCount() ; npm++ )
{
plPythonParameter parameter = GetParameterItem(npm);
// is it something that could produce a plNotifiyMsg?
if ( parameter.fValueType == plPythonParameter::kActivatorList
|| parameter.fValueType == plPythonParameter::kBehavior
|| parameter.fValueType == plPythonParameter::kResponderList )
{
// is there an actual ObjectKey to look at?
if (parameter.fObjectKey != nil )
{
// is it the same as the sender of the notify message?
if ( pNtfyMsg->GetSender()->GetUoid() == parameter.fObjectKey->GetUoid() )
{
// match! Then return that as the ID
id = parameter.fID;
}
}
}
}
}
// call it
plProfile_BeginTiming(PythonUpdate);
PyObject* retVal = PyObject_CallMethod(fPyFunctionInstances[kfunc_Notify],fFunctionNames[kfunc_Notify],
"flO",pNtfyMsg->fState,id,levents);
if ( retVal == nil )
{
#ifndef PLASMA_EXTERNAL_RELEASE
// for some reason this function didn't, remember that and not call it again
fPyFunctionInstances[kfunc_Notify] = nil;
#endif //PLASMA_EXTERNAL_RELEASE
// if there was an error make sure that the stderr gets flushed so it can be seen
ReportError();
}
Py_XDECREF(retVal);
Py_DECREF(levents);
plProfile_EndTiming(PythonUpdate);
// display any output (NOTE: this would be disabled in production)
DisplayPythonOutput();
// we handled this message (I think)
return true;
}
}
// are they looking for a key event message?
if (fPyFunctionInstances[kfunc_OnKeyEvent] != nil)
{
// we are looking for collision messages, is it one?
plControlEventMsg* pEMsg = plControlEventMsg::ConvertNoRef(msg);
if (pEMsg)
{
// call it
plProfile_BeginTiming(PythonUpdate);
PyObject* retVal = PyObject_CallMethod(fPyFunctionInstances[kfunc_OnKeyEvent],fFunctionNames[kfunc_OnKeyEvent],
"ll",pEMsg->GetControlCode(),pEMsg->ControlActivated());
if ( retVal == nil )
{
#ifndef PLASMA_EXTERNAL_RELEASE
// for some reason this function didn't, remember that and not call it again
fPyFunctionInstances[kfunc_OnKeyEvent] = nil;
#endif //PLASMA_EXTERNAL_RELEASE
// if there was an error make sure that the stderr gets flushed so it can be seen
ReportError();
}
Py_XDECREF(retVal);
plProfile_EndTiming(PythonUpdate);
// display any output (NOTE: this would be disabled in production)
DisplayPythonOutput();
// we handled this message (I think)
return true;
}
}
// are they looking for an Timer message?
if (fPyFunctionInstances[kfunc_AtTimer])
{
// yes, so was there actually a plActivateMsg?
plTimerCallbackMsg* pTimerMsg = plTimerCallbackMsg::ConvertNoRef(msg);
if (pTimerMsg)
{
// yes...
// call it
plProfile_BeginTiming(PythonUpdate);
PyObject* retVal = PyObject_CallMethod(fPyFunctionInstances[kfunc_AtTimer],fFunctionNames[kfunc_AtTimer],
"l",pTimerMsg->fID);
if ( retVal == nil )
{
#ifndef PLASMA_EXTERNAL_RELEASE
// for some reason this function didn't, remember that and not call it again
fPyFunctionInstances[kfunc_AtTimer] = nil;
#endif //PLASMA_EXTERNAL_RELEASE
// if there was an error make sure that the stderr gets flushed so it can be seen
ReportError();
}
Py_XDECREF(retVal);
plProfile_EndTiming(PythonUpdate);
// display any output (NOTE: this would be disabled in production)
DisplayPythonOutput();
// we handled this message (I think)
return true;
}
}
// are they looking for an GUINotify message?
if (fPyFunctionInstances[kfunc_GUINotify])
{
// yes, so was there actually a plActivateMsg?
pfGUINotifyMsg* pGUIMsg = pfGUINotifyMsg::ConvertNoRef(msg);
if (pGUIMsg)
{
// yes...
// call it ... but first create the control that started this mess
// create the key
PyObject* pyControl = nil;
if ( pGUIMsg->GetControlKey() ) // make sure there is a control key
{
// now create the control... but first we need to find out what it is
PyObject* pyCtrlKey = pyKey::New(pGUIMsg->GetControlKey());
UInt32 control_type = pyGUIDialog::WhatControlType(*(pyKey::ConvertFrom(pyCtrlKey)));
Py_DECREF(pyCtrlKey);
switch (control_type)
{
case pyGUIDialog::kDialog:
pyControl = pyGUIDialog::New(pGUIMsg->GetControlKey());
break;
case pyGUIDialog::kButton:
pyControl = pyGUIControlButton::New(pGUIMsg->GetControlKey());
break;
case pyGUIDialog::kListBox:
pyControl = pyGUIControlListBox::New(pGUIMsg->GetControlKey());
break;
case pyGUIDialog::kTextBox:
pyControl = pyGUIControlTextBox::New(pGUIMsg->GetControlKey());
break;
case pyGUIDialog::kEditBox:
pyControl = pyGUIControlEditBox::New(pGUIMsg->GetControlKey());
break;
case pyGUIDialog::kUpDownPair:
case pyGUIDialog::kKnob:
pyControl = pyGUIControlValue::New(pGUIMsg->GetControlKey());
break;
case pyGUIDialog::kCheckBox:
pyControl = pyGUIControlCheckBox::New(pGUIMsg->GetControlKey());
break;
case pyGUIDialog::kRadioGroup:
pyControl = pyGUIControlRadioGroup::New(pGUIMsg->GetControlKey());
break;
case pyGUIDialog::kDynamicText:
pyControl = pyGUIControlDynamicText::New(pGUIMsg->GetControlKey());
break;
case pyGUIDialog::kMultiLineEdit:
pyControl = pyGUIControlMultiLineEdit::New(pGUIMsg->GetControlKey());
break;
case pyGUIDialog::kPopUpMenu:
pyControl = pyGUIPopUpMenu::New(pGUIMsg->GetControlKey());
break;
case pyGUIDialog::kClickMap:
pyControl = pyGUIControlClickMap::New(pGUIMsg->GetControlKey());
break;
default:
// we don't know what it is... just send 'em the pyKey
pyControl = pyKey::New(pGUIMsg->GetControlKey());
break;
}
}
// Need to determine which of the GUIDialogs sent this plGUINotifyMsg
// and set the ID appropriately
Int32 id = -1; // assume that none was found
if ( pGUIMsg->GetSender() != nil )
{
// loop throught the parameters and set them by id
// (will need to create the appropiate Python object for each type)
int npm;
for ( npm=0; npm<GetParameterListCount() ; npm++ )
{
plPythonParameter parameter = GetParameterItem(npm);
// is it something that could produce a plNotifiyMsg?
if ( parameter.fValueType == plPythonParameter::kGUIDialog || parameter.fValueType == plPythonParameter::kGUIPopUpMenu )
{
// is there an actual ObjectKey to look at?
if (parameter.fObjectKey != nil )
{
// is it the same of the sender of the notify message?
if ( pGUIMsg->GetSender()->GetUoid() == parameter.fObjectKey->GetUoid() )
{
// match! then set the ID to what the parameter is, so the python programmer can find it
id = parameter.fID;
}
}
}
}
}
// make sure that we found a control to go with this
if ( pyControl == nil )
{
// if none then return a Python None object
Py_INCREF(Py_None);
pyControl = Py_None;
}
// call their OnGUINotify method
plProfile_BeginTiming(PythonUpdate);
PyObject* retVal = PyObject_CallMethod(fPyFunctionInstances[kfunc_GUINotify],fFunctionNames[kfunc_GUINotify],
"lOl",id,pyControl,pGUIMsg->GetEvent() );
if ( retVal == nil )
{
#ifndef PLASMA_EXTERNAL_RELEASE
// for some reason this function didn't, remember that and not call it again
fPyFunctionInstances[kfunc_GUINotify] = nil;
#endif //PLASMA_EXTERNAL_RELEASE
// if there was an error make sure that the stderr gets flushed so it can be seen
ReportError();
}
Py_XDECREF(retVal);
Py_DECREF(pyControl);
plProfile_EndTiming(PythonUpdate);
// display any output (NOTE: this would be disabled in production)
DisplayPythonOutput();
// we handled this message (I think)
return true;
}
}
// are they looking for an RoomLoadNotify message?
if (fPyFunctionInstances[kfunc_PageLoad])
{
// yes, so was there actually a plRoomLoadNotifyMsg?
plRoomLoadNotifyMsg* pRLNMsg = plRoomLoadNotifyMsg::ConvertNoRef(msg);
if (pRLNMsg)
{
// yes...
// call it
char* roomname = "";
if ( pRLNMsg->GetRoom() != nil )
roomname = (char*)pRLNMsg->GetRoom()->GetName();
plProfile_BeginTiming(PythonUpdate);
PyObject* retVal = PyObject_CallMethod(fPyFunctionInstances[kfunc_PageLoad],fFunctionNames[kfunc_PageLoad],
"ls",pRLNMsg->GetWhatHappen(),roomname);
if ( retVal == nil )
{
#ifndef PLASMA_EXTERNAL_RELEASE
// for some reason this function didn't, remember that and not call it again
fPyFunctionInstances[kfunc_PageLoad] = nil;
#endif //PLASMA_EXTERNAL_RELEASE
// if there was an error make sure that the stderr gets flushed so it can be seen
ReportError();
}
Py_XDECREF(retVal);
plProfile_EndTiming(PythonUpdate);
// display any output (NOTE: this would be disabled in production)
DisplayPythonOutput();
// we handled this message (I think)
return true;
}
}
// are they looking for an ClothingUpdate message?
if (fPyFunctionInstances[kfunc_ClothingUpdate])
{
// yes, so was there actually a plClothingUpdateBCMsg?
plClothingUpdateBCMsg* pCUMsg = plClothingUpdateBCMsg::ConvertNoRef(msg);
if (pCUMsg)
{
// yes...
// call it
plProfile_BeginTiming(PythonUpdate);
PyObject* retVal = PyObject_CallMethod(fPyFunctionInstances[kfunc_ClothingUpdate],fFunctionNames[kfunc_ClothingUpdate],nil);
if ( retVal == nil )
{
#ifndef PLASMA_EXTERNAL_RELEASE
// for some reason this function didn't, remember that and not call it again
fPyFunctionInstances[kfunc_ClothingUpdate] = nil;
#endif //PLASMA_EXTERNAL_RELEASE
// if there was an error make sure that the stderr gets flushed so it can be seen
ReportError();
}
Py_XDECREF(retVal);
plProfile_EndTiming(PythonUpdate);
// display any output (NOTE: this would be disabled in production)
DisplayPythonOutput();
// we handled this message (I think)
return true;
}
}
// are they looking for an KIMsg message?
if (fPyFunctionInstances[kfunc_KIMsg])
{
// yes, so was there actually a pfKIMsg?
pfKIMsg* pkimsg = pfKIMsg::ConvertNoRef(msg);
if (pkimsg && pkimsg->GetCommand() != pfKIMsg::kHACKChatMsg)
{
// yes...
// find the value that would go with a command
PyObject* value;
std::wstring str;
switch (pkimsg->GetCommand())
{
case pfKIMsg::kSetChatFadeDelay:
value = PyFloat_FromDouble(pkimsg->GetDelay());
break;
case pfKIMsg::kSetTextChatAdminMode:
value = PyLong_FromLong(pkimsg->GetFlags()&pfKIMsg::kAdminMsg ? 1 : 0 );
break;
case pfKIMsg::kYesNoDialog:
value = PyTuple_New(2);
str = pkimsg->GetStringU();
PyTuple_SetItem(value, 0, PyUnicode_FromWideChar(str.c_str(), str.length()));
PyTuple_SetItem(value, 1, pyKey::New(pkimsg->GetSender()));
break;
case pfKIMsg::kGZInRange:
value = PyTuple_New(2);
PyTuple_SetItem(value, 0, PyLong_FromLong(pkimsg->GetIntValue()));
PyTuple_SetItem(value, 1, pyKey::New(pkimsg->GetSender()));
break;
case pfKIMsg::kRateIt:
value = PyTuple_New(3);
str = pkimsg->GetStringU();
PyTuple_SetItem(value,0,PyString_FromString(pkimsg->GetUser()));
PyTuple_SetItem(value,1,PyUnicode_FromWideChar(str.c_str(), str.length()));
PyTuple_SetItem(value,2,PyLong_FromLong(pkimsg->GetIntValue()));
break;
case pfKIMsg::kRegisterImager:
value = PyTuple_New(2);
str = pkimsg->GetStringU();
PyTuple_SetItem(value, 0, PyUnicode_FromWideChar(str.c_str(), str.length()));
PyTuple_SetItem(value, 1, pyKey::New(pkimsg->GetSender()));
break;
case pfKIMsg::kAddPlayerDevice:
case pfKIMsg::kRemovePlayerDevice:
{
str = pkimsg->GetStringU();
if ( str.length() > 0 )
value = PyUnicode_FromWideChar(str.c_str(), str.length());
else
{
Py_INCREF(Py_None);
value = Py_None;
}
}
break;
case pfKIMsg::kKIChatStatusMsg:
case pfKIMsg::kKILocalChatStatusMsg:
case pfKIMsg::kKILocalChatErrorMsg:
case pfKIMsg::kKIOKDialog:
case pfKIMsg::kKIOKDialogNoQuit:
case pfKIMsg::kGZFlashUpdate:
case pfKIMsg::kKICreateMarkerNode:
str = pkimsg->GetStringU();
value = PyUnicode_FromWideChar(str.c_str(), str.length());
break;
case pfKIMsg::kMGStartCGZGame:
case pfKIMsg::kMGStopCGZGame:
case pfKIMsg::kFriendInviteSent:
default:
value = PyLong_FromLong(pkimsg->GetIntValue());
break;
}
plProfile_BeginTiming(PythonUpdate);
PyObject* retVal = PyObject_CallMethod(fPyFunctionInstances[kfunc_KIMsg],fFunctionNames[kfunc_KIMsg],
"lO",pkimsg->GetCommand(),value);
if ( retVal == nil )
{
#ifndef PLASMA_EXTERNAL_RELEASE
// for some reason this function didn't, remember that and not call it again
fPyFunctionInstances[kfunc_KIMsg] = nil;
#endif //PLASMA_EXTERNAL_RELEASE
// if there was an error make sure that the stderr gets flushed so it can be seen
ReportError();
}
Py_XDECREF(retVal);
Py_DECREF(value);
plProfile_EndTiming(PythonUpdate);
// display any output (NOTE: this would be disabled in production)
DisplayPythonOutput();
// we handled this message (I think)
return true;
}
}
// are they looking for an MemberUpdate message?
if (fPyFunctionInstances[kfunc_MemberUpdate])
{
// yes, so was there actually a plMemberUpdateMsg?
plMemberUpdateMsg* pmumsg = plMemberUpdateMsg::ConvertNoRef(msg);
if (pmumsg)
{
// yes... then call it
plProfile_BeginTiming(PythonUpdate);
PyObject* retVal = PyObject_CallMethod(fPyFunctionInstances[kfunc_MemberUpdate],fFunctionNames[kfunc_MemberUpdate],nil);
if ( retVal == nil )
{
#ifndef PLASMA_EXTERNAL_RELEASE
// for some reason this function didn't, remember that and not call it again
fPyFunctionInstances[kfunc_MemberUpdate] = nil;
#endif //PLASMA_EXTERNAL_RELEASE
// if there was an error make sure that the stderr gets flushed so it can be seen
ReportError();
}
Py_XDECREF(retVal);
plProfile_EndTiming(PythonUpdate);
// display any output (NOTE: this would be disabled in production)
DisplayPythonOutput();
// we handled this message (I think)
return true;
}
}
// are they looking for a RemoteAvatar Info message?
if (fPyFunctionInstances[kfunc_RemoteAvatarInfo])
{
// yes, so was there actually a plActivateMsg?
plRemoteAvatarInfoMsg* pramsg = plRemoteAvatarInfoMsg::ConvertNoRef(msg);
if (pramsg)
{
// yes...
PyObject* player;
// if there was no avatar key in the message
if ( pramsg->GetAvatarKey() == nil )
{
// then just return a None... same thing as nil.. which I guess means a non-avatar is selected
player = PyInt_FromLong(0);
}
else
{
// try to create the pyPlayer for where this message came from
int mbrIndex = plNetClientMgr::GetInstance()->TransportMgr().FindMember(pramsg->GetAvatarKey());
if ( mbrIndex != -1 )
{
plNetTransportMember *mbr = plNetClientMgr::GetInstance()->TransportMgr().GetMember( mbrIndex );
player = pyPlayer::New(mbr->GetAvatarKey(), mbr->GetPlayerName(), mbr->GetPlayerID(), mbr->GetDistSq());
}
else
{
// else if we could not find the player in our list, then no avatar selected
player = PyInt_FromLong(0);
}
}
plProfile_BeginTiming(PythonUpdate);
PyObject* retVal = PyObject_CallMethod(fPyFunctionInstances[kfunc_RemoteAvatarInfo],fFunctionNames[kfunc_RemoteAvatarInfo],
"O",player);
if ( retVal == nil )
{
#ifndef PLASMA_EXTERNAL_RELEASE
// for some reason this function didn't, remember that and not call it again
fPyFunctionInstances[kfunc_RemoteAvatarInfo] = nil;
#endif //PLASMA_EXTERNAL_RELEASE
// if there was an error make sure that the stderr gets flushed so it can be seen
ReportError();
}
Py_XDECREF(retVal);
Py_DECREF(player);
plProfile_EndTiming(PythonUpdate);
// display any output (NOTE: this would be disabled in production)
DisplayPythonOutput();
// we handled this message (I think)
return true;
}
}
// are they looking for a CCR communication message?
if (fPyFunctionInstances[kfunc_OnCCRMsg])
{
// yes, so was there actually a plActivateMsg?
plCCRCommunicationMsg* ccrmsg = plCCRCommunicationMsg::ConvertNoRef(msg);
if (ccrmsg)
{
const char* textmessage = ccrmsg->GetMessage();
if ( textmessage == nil)
textmessage = "";
plProfile_BeginTiming(PythonUpdate);
PyObject* retVal = PyObject_CallMethod(fPyFunctionInstances[kfunc_OnCCRMsg],fFunctionNames[kfunc_OnCCRMsg],
"lsl",ccrmsg->GetType(),textmessage,ccrmsg->GetCCRPlayerID());
if ( retVal == nil )
{
#ifndef PLASMA_EXTERNAL_RELEASE
// for some reason this function didn't, remember that and not call it again
fPyFunctionInstances[kfunc_OnCCRMsg] = nil;
#endif //PLASMA_EXTERNAL_RELEASE
// if there was an error make sure that the stderr gets flushed so it can be seen
ReportError();
}
Py_XDECREF(retVal);
plProfile_EndTiming(PythonUpdate);
// display any output (NOTE: this would be disabled in production)
DisplayPythonOutput();
// we handled this message (I think)
return true;
}
}
// are they looking for a VaultNotify message?
if (fPyFunctionInstances[kfunc_OnVaultNotify])
{
// yes, so was there actually a plVaultNotifyMsg?
if (plVaultNotifyMsg * vaultNotifyMsg = plVaultNotifyMsg::ConvertNoRef(msg))
{
if ( hsSucceeded( vaultNotifyMsg->GetResultCode() ) )
{
// Create a tuple for second argument according to msg type.
// Default to an empty tuple.
PyObject* ptuple = PyTuple_New(0);
switch ( vaultNotifyMsg->GetType() )
{
case plVaultNotifyMsg::kRegisteredOwnedAge:
case plVaultNotifyMsg::kRegisteredVisitAge:
case plVaultNotifyMsg::kUnRegisteredOwnedAge:
case plVaultNotifyMsg::kUnRegisteredVisitAge: {
if (RelVaultNode * rvn = VaultGetNodeIncRef(vaultNotifyMsg->GetArgs()->GetInt(plNetCommon::VaultTaskArgs::kAgeLinkNode))) {
Py_DECREF(ptuple);
ptuple = PyTuple_New(1);
PyTuple_SetItem(ptuple, 0, pyVaultAgeLinkNode::New(rvn));
rvn->DecRef();
}
}
break;
case plVaultNotifyMsg::kPublicAgeCreated:
case plVaultNotifyMsg::kPublicAgeRemoved: {
if (const char * ageName = vaultNotifyMsg->GetArgs()->GetString(plNetCommon::VaultTaskArgs::kAgeFilename)) {
Py_DECREF(ptuple);
ptuple = PyTuple_New(1);
PyTuple_SetItem(ptuple, 0, PyString_FromString(ageName));
}
}
break;
}
plProfile_BeginTiming(PythonUpdate);
PyObject* retVal = PyObject_CallMethod(fPyFunctionInstances[kfunc_OnVaultNotify],fFunctionNames[kfunc_OnVaultNotify],
"lO",vaultNotifyMsg->GetType(),ptuple);
if ( retVal == nil )
{
#ifndef PLASMA_EXTERNAL_RELEASE
// for some reason this function didn't, remember that and not call it again
fPyFunctionInstances[kfunc_OnVaultNotify] = nil;
#endif //PLASMA_EXTERNAL_RELEASE
// if there was an error make sure that the stderr gets flushed so it can be seen
ReportError();
}
Py_XDECREF(retVal);
Py_DECREF(ptuple);
plProfile_EndTiming(PythonUpdate);
// display any output (NOTE: this would be disabled in production)
DisplayPythonOutput();
// we handled this message (I think)
}
return true;
}
}
// are they looking for a RealTimeChat message?
if (fPyFunctionInstances[kfunc_RTChat])
{
// yes, so was there actually a pfKIMsg?
pfKIMsg* pkimsg = pfKIMsg::ConvertNoRef(msg);
if (pkimsg && pkimsg->GetCommand() == pfKIMsg::kHACKChatMsg)
{
// yes...
// filter ignored player
if ( !VaultAmIgnoringPlayer( pkimsg->GetPlayerID() ) )
{
// create the pyPlayer for where this message came from
PyObject* player;
PyObject* ptPlayerClass = PythonInterface::GetPlasmaItem("ptPlayer");
hsAssert(ptPlayerClass,"Could not create a ptPlayer");
int mbrIndex = plNetClientMgr::GetInstance()->TransportMgr().FindMember(pkimsg->GetPlayerID());
if ( mbrIndex != -1 )
{
plNetTransportMember *mbr = plNetClientMgr::GetInstance()->TransportMgr().GetMember( mbrIndex );
player = pyPlayer::New(mbr->GetAvatarKey(), pkimsg->GetUser(), mbr->GetPlayerID(), mbr->GetDistSq());
}
else
{
// else if we could not find the player in our list, then just return a string of the user's name
const char * fromName = pkimsg->GetUser();
if (!fromName)
fromName = "Anonymous Coward";
player = pyPlayer::New(plNetClientMgr::GetInstance()->GetLocalPlayerKey(), fromName, pkimsg->GetPlayerID(), 0.0);
}
plProfile_BeginTiming(PythonUpdate);
PyObject* retVal = PyObject_CallMethod(fPyFunctionInstances[kfunc_RTChat],fFunctionNames[kfunc_RTChat],
"Osl",player,pkimsg->GetString().c_str(),pkimsg->GetFlags());
if ( retVal == nil )
{
#ifndef PLASMA_EXTERNAL_RELEASE
// for some reason this function didn't, remember that and not call it again
fPyFunctionInstances[kfunc_RTChat] = nil;
#endif //PLASMA_EXTERNAL_RELEASE
// if there was an error make sure that the stderr gets flushed so it can be seen
ReportError();
}
Py_XDECREF(retVal);
Py_DECREF(player);
plProfile_EndTiming(PythonUpdate);
// display any output (NOTE: this would be disabled in production)
DisplayPythonOutput();
// we handled this message (I think)
return true;
}
}
}
if (plPlayerPageMsg::ConvertNoRef(msg))
{
if (fPyFunctionInstances[kfunc_AvatarPage])
{
// yes, so was there actually a player page msg
plPlayerPageMsg* ppMsg = plPlayerPageMsg::ConvertNoRef(msg);
if (ppMsg)
{
PyObject* pSobj = pySceneObject::New(ppMsg->fPlayer, fSelfKey);
plProfile_BeginTiming(PythonUpdate);
plSynchEnabler ps(true); // enable dirty state tracking during shutdown
PyObject* retVal = PyObject_CallMethod(fPyFunctionInstances[kfunc_AvatarPage],fFunctionNames[kfunc_AvatarPage],
"Oli",pSobj,!ppMsg->fUnload,ppMsg->fLastOut);
if ( retVal == nil )
{
#ifndef PLASMA_EXTERNAL_RELEASE
// for some reason this function didn't, remember that and not call it again
fPyFunctionInstances[kfunc_AvatarPage] = nil;
#endif //PLASMA_EXTERNAL_RELEASE
// if there was an error make sure that the stderr gets flushed so it can be seen
ReportError();
}
Py_XDECREF(retVal);
Py_DECREF(pSobj);
plProfile_EndTiming(PythonUpdate);
// display any output (NOTE: this would be disabled in production)
DisplayPythonOutput();
// we handled this message (I think)
return true;
}
}
}
if (plAgeBeginLoadingMsg::ConvertNoRef(msg))
{
if (fPyFunctionInstances[kfunc_OnBeginAgeLoad])
{
// yes, so was there actually a player page msg
plAgeBeginLoadingMsg* ppMsg = plAgeBeginLoadingMsg::ConvertNoRef(msg);
if (ppMsg)
{
PyObject* pSobj = pySceneObject::New(plNetClientMgr::GetInstance()->GetLocalPlayerKey(), fSelfKey);
plProfile_BeginTiming(PythonUpdate);
plSynchEnabler ps(true); // enable dirty state tracking during shutdown
PyObject* retVal = PyObject_CallMethod(fPyFunctionInstances[kfunc_OnBeginAgeLoad],fFunctionNames[kfunc_OnBeginAgeLoad],
"O",pSobj);
if ( retVal == nil )
{
#ifndef PLASMA_EXTERNAL_RELEASE
// for some reason this function didn't, remember that and not call it again
fPyFunctionInstances[kfunc_OnBeginAgeLoad] = nil;
#endif //PLASMA_EXTERNAL_RELEASE
// if there was an error make sure that the stderr gets flushed so it can be seen
ReportError();
}
Py_XDECREF(retVal);
Py_DECREF(pSobj);
plProfile_EndTiming(PythonUpdate);
// display any output (NOTE: this would be disabled in production)
DisplayPythonOutput();
// we handled this message (I think)
return true;
}
}
}
if (plInitialAgeStateLoadedMsg::ConvertNoRef(msg))// initial server update complete message
{
// make sure there is a valid python instance
if ( fInstance )
{
// set the isInitialStateLoaded to that it is loaded
PyObject* pInitialState = PyInt_FromLong(1);
PyObject_SetAttrString(fInstance, "isInitialStateLoaded", pInitialState);
Py_DECREF(pInitialState);
}
if (fPyFunctionInstances[kfunc_OnServerInitComplete])
{
PyObject* retVal = PyObject_CallMethod(fPyFunctionInstances[kfunc_OnServerInitComplete],fFunctionNames[kfunc_OnServerInitComplete],nil);
if ( retVal == nil )
{
#ifndef PLASMA_EXTERNAL_RELEASE
// for some reason this function didn't, remember that and not call it again
fPyFunctionInstances[kfunc_OnServerInitComplete] = nil;
#endif //PLASMA_EXTERNAL_RELEASE
// if there was an error make sure that the stderr gets flushed so it can be seen
ReportError();
}
Py_XDECREF(retVal);
plProfile_EndTiming(PythonUpdate);
// display any output (NOTE: this would be disabled in production)
DisplayPythonOutput();
// we handled this message (I think)
return true;
}
}
// are they looking for an plSDLNotificationMsg message?
if (fPyFunctionInstances[kfunc_SDLNotify])
{
// yes, so was there actually a plSDLNotificationMsg?
plSDLNotificationMsg* sn = plSDLNotificationMsg::ConvertNoRef(msg);
if (sn)
{
const char* tag = sn->fHintString.c_str();
if (tag == nil)
tag = "";
// yes... then call it
plProfile_BeginTiming(PythonUpdate);
PyObject* retVal = PyObject_CallMethod(fPyFunctionInstances[kfunc_SDLNotify],fFunctionNames[kfunc_SDLNotify],
"ssls",sn->fVar->GetName(),sn->fSDLName.c_str(),sn->fPlayerID,tag);
if ( retVal == nil )
{
#ifndef PLASMA_EXTERNAL_RELEASE
// for some reason this function didn't, remember that and not call it again
fPyFunctionInstances[kfunc_SDLNotify] = nil;
#endif //PLASMA_EXTERNAL_RELEASE
// if there was an error make sure that the stderr gets flushed so it can be seen
ReportError();
}
Py_XDECREF(retVal);
plProfile_EndTiming(PythonUpdate);
// display any output (NOTE: this would be disabled in production)
DisplayPythonOutput();
// we handled this message (I think)
return true;
}
}
// are they looking for an plNetOwnershipMsg message?
if (fPyFunctionInstances[kfunc_OwnershipNotify])
{
// yes, so was there actually a plNetOwnershipMsg?
plNetOwnershipMsg* nom = plNetOwnershipMsg::ConvertNoRef(msg);
if (nom)
{
// yes... then call it
plProfile_BeginTiming(PythonUpdate);
PyObject* retVal = PyObject_CallMethod(fPyFunctionInstances[kfunc_OwnershipNotify],fFunctionNames[kfunc_OwnershipNotify],
nil);
if ( retVal == nil )
{
#ifndef PLASMA_EXTERNAL_RELEASE
// for some reason this function didn't, remember that and not call it again
fPyFunctionInstances[kfunc_OwnershipNotify] = nil;
#endif //PLASMA_EXTERNAL_RELEASE
// if there was an error make sure that the stderr gets flushed so it can be seen
ReportError();
}
Py_XDECREF(retVal);
plProfile_EndTiming(PythonUpdate);
// display any output (NOTE: this would be disabled in production)
DisplayPythonOutput();
// we handled this message (I think)
return true;
}
}
// are they looking for an pfMarkerMsg message?
if (fPyFunctionInstances[kfunc_OnMarkerMsg])
{
pfMarkerMsg* markermsg = pfMarkerMsg::ConvertNoRef(msg);
if (markermsg)
{
// yes... then call it
plProfile_BeginTiming(PythonUpdate);
// Default to an empty tuple.
PyObject* ptuple = PyTuple_New(0);
switch ( markermsg->fType )
{
case pfMarkerMsg::kMarkerCaptured:
// Sent when we collide with a marker
Py_DECREF(ptuple);
ptuple = PyTuple_New(1);
PyTuple_SetItem(ptuple, 0, PyLong_FromUnsignedLong((long)markermsg->fMarkerID));
break;
}
PyObject* retVal = PyObject_CallMethod(fPyFunctionInstances[kfunc_OnMarkerMsg], fFunctionNames[kfunc_OnMarkerMsg],
"lO", (UInt32)markermsg->fType, ptuple);
if (retVal == nil)
{
#ifndef PLASMA_EXTERNAL_RELEASE
// for some reason this function didn't, remember that and not call it again
fPyFunctionInstances[kfunc_OnMarkerMsg] = nil;
#endif //PLASMA_EXTERNAL_RELEASE
// if there was an error make sure that the stderr gets flushed so it can be seen
ReportError();
}
Py_XDECREF(retVal);
Py_DECREF(ptuple);
plProfile_EndTiming(PythonUpdate);
// display any output (NOTE: this would be disabled in production)
DisplayPythonOutput();
// we handled this message (I think)
return true;
}
}
#ifndef PLASMA_EXTERNAL_RELEASE
// are they looking for an pfDebugTriggerMsg message?
if (fPyFunctionInstances[kfunc_OnBackdoorMsg])
{
// yes, so was there actually a plNetOwnershipMsg?
pfBackdoorMsg* dt = pfBackdoorMsg::ConvertNoRef(msg);
if (dt)
{
// yes... then call it
plProfile_BeginTiming(PythonUpdate);
PyObject* retVal = PyObject_CallMethod(fPyFunctionInstances[kfunc_OnBackdoorMsg],
fFunctionNames[kfunc_OnBackdoorMsg],
"ss",dt->GetTarget(),dt->GetString());
if ( retVal == nil )
{
// if there was an error make sure that the stderr gets flushed so it can be seen
ReportError();
}
Py_XDECREF(retVal);
plProfile_EndTiming(PythonUpdate);
// display any output (NOTE: this would be disabled in production)
DisplayPythonOutput();
// we handled this message (I think)
return true;
}
}
#endif //PLASMA_EXTERNAL_RELEASE
// are they looking for a plLOSHitMsg message?
if (fPyFunctionInstances[kfunc_OnLOSNotify])
{
// yes, so was there actually a plLOSHitMsg?
plLOSHitMsg *pLOSMsg = plLOSHitMsg::ConvertNoRef( msg );
if (pLOSMsg)
{
// yes... then call it (self,ID,noHitFlag,sceneobject,hitPoint,distance)
plProfile_BeginTiming(PythonUpdate);
PyObject* scobj;
PyObject* hitpoint;
if ( pLOSMsg->fObj && plSceneObject::ConvertNoRef( pLOSMsg->fObj->ObjectIsLoaded()) )
{
scobj = pySceneObject::New(pLOSMsg->fObj);
hitpoint = pyPoint3::New(pLOSMsg->fHitPoint);
}
else
{
// otherwise return a None object for the avatarKey
Py_INCREF(Py_None);
scobj = Py_None;
Py_INCREF(Py_None);
hitpoint = Py_None;
}
PyObject* retVal = PyObject_CallMethod(fPyFunctionInstances[kfunc_OnLOSNotify],
fFunctionNames[kfunc_OnLOSNotify],
"llOOf",pLOSMsg->fRequestID,pLOSMsg->fNoHit,
scobj, hitpoint, pLOSMsg->fDistance);
if ( retVal == nil )
{
#ifndef PLASMA_EXTERNAL_RELEASE
// for some reason this function didn't, remember that and not call it again
fPyFunctionInstances[kfunc_OnLOSNotify] = nil;
#endif //PLASMA_EXTERNAL_RELEASE
// if there was an error make sure that the stderr gets flushed so it can be seen
ReportError();
}
Py_XDECREF(retVal);
Py_DECREF(scobj);
Py_DECREF(hitpoint);
plProfile_EndTiming(PythonUpdate);
// display any output (NOTE: this would be disabled in production)
DisplayPythonOutput();
// we handled this message (I think)
return true;
}
}
// are they looking for a plAvatarBehaviorNotifyMsg message?
if (fPyFunctionInstances[kfunc_OnBehaviorNotify])
{
// yes, so was there actually a plAvatarBehaviorNotifyMsg?
plAvatarBehaviorNotifyMsg *behNotifymsg = plAvatarBehaviorNotifyMsg::ConvertNoRef(msg);
if (behNotifymsg)
{
// yes... then call it
plProfile_BeginTiming(PythonUpdate);
// the parent of the sender should be the avatar that did the behavior
PyObject* pSobj;
plModifier* avmod = plModifier::ConvertNoRef(behNotifymsg->GetSender()->ObjectIsLoaded());
if ( avmod && avmod->GetNumTargets() > 0 )
{
pSobj = pySceneObject::New(avmod->GetTarget(0)->GetKey(), fSelfKey);
}
else
{
// otherwise return a None object for the avatarKey
Py_INCREF(Py_None);
pSobj = Py_None;
}
PyObject* retVal = PyObject_CallMethod(fPyFunctionInstances[kfunc_OnBehaviorNotify],
fFunctionNames[kfunc_OnBehaviorNotify],
"lOl",behNotifymsg->fType,pSobj,behNotifymsg->state);
if ( retVal == nil )
{
#ifndef PLASMA_EXTERNAL_RELEASE
// for some reason this function didn't, remember that and not call it again
fPyFunctionInstances[kfunc_OnBehaviorNotify] = nil;
#endif //PLASMA_EXTERNAL_RELEASE
// if there was an error make sure that the stderr gets flushed so it can be seen
ReportError();
}
Py_XDECREF(retVal);
Py_DECREF(pSobj);
plProfile_EndTiming(PythonUpdate);
// display any output (NOTE: this would be disabled in production)
DisplayPythonOutput();
// we handled this message (I think)
return true;
}
}
// are they looking for a pfMovieEventMsg message?
if (fPyFunctionInstances[kfunc_OnMovieEvent])
{
// yes, so was there actually a pfMovieEventMsg?
pfMovieEventMsg *moviemsg = pfMovieEventMsg::ConvertNoRef(msg);
if (moviemsg)
{
// yes... then call it
plProfile_BeginTiming(PythonUpdate);
PyObject* retVal = PyObject_CallMethod(fPyFunctionInstances[kfunc_OnMovieEvent],
fFunctionNames[kfunc_OnMovieEvent],
"si",moviemsg->fMovieName,(UInt32)moviemsg->fReason);
if ( retVal == nil )
{
#ifndef PLASMA_EXTERNAL_RELEASE
// for some reason this function didn't, remember that and not call it again
fPyFunctionInstances[kfunc_OnMovieEvent] = nil;
#endif //PLASMA_EXTERNAL_RELEASE
// if there was an error make sure that the stderr gets flushed so it can be seen
ReportError();
}
Py_XDECREF(retVal);
plProfile_EndTiming(PythonUpdate);
// display any output (NOTE: this would be disabled in production)
DisplayPythonOutput();
// we handled this message (I think)
return true;
}
}
// are they looking for a plCaptureRenderMsg message?
if (fPyFunctionInstances[kfunc_OnScreenCaptureDone])
{
// yes, so was there actually a pfMovieEventMsg?
plCaptureRenderMsg *capturemsg = plCaptureRenderMsg::ConvertNoRef(msg);
if (capturemsg)
{
// yes... then call it
plProfile_BeginTiming(PythonUpdate);
PyObject* pSobj;
if ( capturemsg->GetMipmap() )
{
pSobj = pyImage::New(capturemsg->GetMipmap());
}
else
{
// otherwise return a None object for the avatarKey
Py_INCREF(Py_None);
pSobj = Py_None;
}
PyObject* retVal = PyObject_CallMethod(fPyFunctionInstances[kfunc_OnScreenCaptureDone],
fFunctionNames[kfunc_OnScreenCaptureDone],
"O",pSobj);
if ( retVal == nil )
{
#ifndef PLASMA_EXTERNAL_RELEASE
// for some reason this function didn't, remember that and not call it again
fPyFunctionInstances[kfunc_OnScreenCaptureDone] = nil;
#endif //PLASMA_EXTERNAL_RELEASE
// if there was an error make sure that the stderr gets flushed so it can be seen
ReportError();
}
Py_XDECREF(retVal);
Py_DECREF(pSobj);
plProfile_EndTiming(PythonUpdate);
// display any output (NOTE: this would be disabled in production)
DisplayPythonOutput();
// we handled this message (I think)
return true;
}
}
if (fPyFunctionInstances[kfunc_OnClimbBlockerEvent])
{
plClimbEventMsg* pEvent = plClimbEventMsg::ConvertNoRef(msg);
if (pEvent)
{
PyObject* pSobj = pySceneObject::New(pEvent->GetSender(), fSelfKey);
plProfile_BeginTiming(PythonUpdate);
PyObject* retVal = PyObject_CallMethod(fPyFunctionInstances[kfunc_OnClimbBlockerEvent],
fFunctionNames[kfunc_OnClimbBlockerEvent],
"O",pSobj);
if ( retVal == nil )
{
#ifndef PLASMA_EXTERNAL_RELEASE
// for some reason this function didn't, remember that and not call it again
fPyFunctionInstances[kfunc_OnClimbBlockerEvent] = nil;
#endif //PLASMA_EXTERNAL_RELEASE
// if there was an error make sure that the stderr gets flushed so it can be seen
ReportError();
}
Py_XDECREF(retVal);
Py_DECREF(pSobj);
return true;
}
}
if (fPyFunctionInstances[kfunc_OnAvatarSpawn])
{
plAvatarSpawnNotifyMsg* pSpawn = plAvatarSpawnNotifyMsg::ConvertNoRef(msg);
if (pSpawn)
{
PyObject* retVal = PyObject_CallMethod(fPyFunctionInstances[kfunc_OnAvatarSpawn],
fFunctionNames[kfunc_OnAvatarSpawn],
"l",1);
if ( retVal == nil )
{
#ifndef PLASMA_EXTERNAL_RELEASE
// for some reason this function didn't, remember that and not call it again
fPyFunctionInstances[kfunc_OnAvatarSpawn] = nil;
#endif //PLASMA_EXTERNAL_RELEASE
// if there was an error make sure that the stderr gets flushed so it can be seen
ReportError();
}
Py_XDECREF(retVal);
return true;
}
}
if (fPyFunctionInstances[kfunc_OnAccountUpdate])
{
plAccountUpdateMsg* pUpdateMsg = plAccountUpdateMsg::ConvertNoRef(msg);
if (pUpdateMsg)
{
plProfile_BeginTiming(PythonUpdate);
PyObject* retVal = PyObject_CallMethod(fPyFunctionInstances[kfunc_OnAccountUpdate], fFunctionNames[kfunc_OnAccountUpdate],
"iii", (int)pUpdateMsg->GetUpdateType(), (int)pUpdateMsg->GetResult(), (int)pUpdateMsg->GetPlayerInt()
);
if ( retVal == nil )
{
#ifndef PLASMA_EXTERNAL_RELEASE
// for some reason this function didn't, remember that and not call it again
fPyFunctionInstances[kfunc_OnAccountUpdate] = nil;
#endif //PLASMA_EXTERNAL_RELEASE
// if there was an error make sure that the stderr gets flushed so it can be seen
ReportError();
}
Py_XDECREF(retVal);
plProfile_EndTiming(PythonUpdate);
// display any output (NOTE: this would be disabled in production)
DisplayPythonOutput();
return true;
}
}
if (fPyFunctionInstances[kfunc_gotPublicAgeList])
{
plNetCommPublicAgeListMsg * pPubAgeMsg = plNetCommPublicAgeListMsg::ConvertNoRef(msg);
if (pPubAgeMsg)
{
plProfile_BeginTiming(PythonUpdate);
PyObject* pyEL = PyList_New(pPubAgeMsg->ages.Count());
for (unsigned i = 0; i<pPubAgeMsg->ages.Count(); ++i) {
plAgeInfoStruct ageInfo;
ageInfo.CopyFrom(pPubAgeMsg->ages[i]);
unsigned nPlayers = pPubAgeMsg->ages[i].currentPopulation;
unsigned nOwners = pPubAgeMsg->ages[i].population;
PyObject* t = PyTuple_New(3);
PyTuple_SetItem(t, 0, pyAgeInfoStruct::New(&ageInfo));
PyTuple_SetItem(t, 1, PyLong_FromUnsignedLong(nPlayers));
PyTuple_SetItem(t, 2, PyLong_FromUnsignedLong(nOwners));
PyList_SetItem(pyEL, i, t); // steals the ref
}
PyObject* retVal = PyObject_CallMethod(
fPyFunctionInstances[kfunc_gotPublicAgeList],
fFunctionNames[kfunc_gotPublicAgeList],
"O",
pyEL
);
if ( retVal == nil )
{
#ifndef PLASMA_EXTERNAL_RELEASE
// for some reason this function didn't, remember that and not call it again
fPyFunctionInstances[kfunc_gotPublicAgeList] = nil;
#endif //PLASMA_EXTERNAL_RELEASE
// if there was an error make sure that the stderr gets flushed so it can be seen
ReportError();
}
Py_XDECREF(retVal);
plProfile_EndTiming(PythonUpdate);
// display any output (NOTE: this would be disabled in production)
DisplayPythonOutput();
return true;
}
}
if (fPyFunctionInstances[kfunc_OnGameMgrMsg])
{
pfGameMgrMsg* gameMgrMsg = pfGameMgrMsg::ConvertNoRef(msg);
if (gameMgrMsg)
{
plProfile_BeginTiming(PythonUpdate);
PyObject* pythonMsg = pyGameMgrMsg::New(gameMgrMsg);
PyObject* retVal = PyObject_CallMethod(
fPyFunctionInstances[kfunc_OnGameMgrMsg],
fFunctionNames[kfunc_OnGameMgrMsg],
"O",
pythonMsg
);
Py_DECREF(pythonMsg);
if (retVal == nil)
{
#ifndef PLASMA_EXTERNAL_RELEASE
// for some reason this function didn't, remember that and not call it again
fPyFunctionInstances[kfunc_OnGameMgrMsg] = nil;
#endif //PLASMA_EXTERNAL_RELEASE
// if there was an error make sure that the stderr gets flushed so it can be seen
ReportError();
}
Py_XDECREF(retVal);
plProfile_EndTiming(PythonUpdate);
// display any output
DisplayPythonOutput();
return true;
}
}
if (fPyFunctionInstances[kfunc_OnGameCliMsg])
{
pfGameCliMsg* gameMgrMsg = pfGameCliMsg::ConvertNoRef(msg);
if (gameMgrMsg)
{
plProfile_BeginTiming(PythonUpdate);
PyObject* pythonMsg = pyGameCliMsg::New(gameMgrMsg);
PyObject* retVal = PyObject_CallMethod(
fPyFunctionInstances[kfunc_OnGameCliMsg],
fFunctionNames[kfunc_OnGameCliMsg],
"O",
pythonMsg
);
Py_DECREF(pythonMsg);
if (retVal == nil)
{
#ifndef PLASMA_EXTERNAL_RELEASE
// for some reason this function didn't, remember that and not call it again
fPyFunctionInstances[kfunc_OnGameCliMsg] = nil;
#endif //PLASMA_EXTERNAL_RELEASE
// if there was an error make sure that the stderr gets flushed so it can be seen
ReportError();
}
Py_XDECREF(retVal);
plProfile_EndTiming(PythonUpdate);
// display any output
DisplayPythonOutput();
return true;
}
}
if (fPyFunctionInstances[kfunc_OnAIMsg])
{
plAIMsg* aiMsg = plAIMsg::ConvertNoRef(msg);
if (aiMsg)
{
plProfile_BeginTiming(PythonUpdate);
// grab the sender (the armature mod that has our brain)
plArmatureMod* armMod = plArmatureMod::ConvertNoRef(aiMsg->GetSender()->ObjectIsLoaded());
PyObject* brainObj = NULL;
if (armMod)
{
plArmatureBrain* brain = armMod->FindBrainByClass(plAvBrainCritter::Index());
plAvBrainCritter* critterBrain = plAvBrainCritter::ConvertNoRef(brain);
if (critterBrain)
brainObj = pyCritterBrain::New(critterBrain);
}
if (!brainObj)
{
Py_INCREF(Py_None);
brainObj = Py_None;
}
// set up the msg type and any args, based on the message we got
int msgType = plAIMsg::kAIMsg_Unknown;
PyObject* args = NULL;
plAIBrainCreatedMsg* brainCreatedMsg = plAIBrainCreatedMsg::ConvertNoRef(aiMsg);
if (brainCreatedMsg)
msgType = plAIMsg::kAIMsg_BrainCreated;
plAIArrivedAtGoalMsg* arrivedMsg = plAIArrivedAtGoalMsg::ConvertNoRef(aiMsg);
if (arrivedMsg)
{
msgType = plAIMsg::kAIMsg_ArrivedAtGoal;
args = PyTuple_New(1);
PyTuple_SetItem(args, 0, pyPoint3::New(arrivedMsg->Goal()));
}
// if no args were set, simply set to none
if (!args)
{
Py_INCREF(Py_None);
args = Py_None;
}
// call the function with the above arguments
PyObject* retVal = PyObject_CallMethod(
fPyFunctionInstances[kfunc_OnAIMsg],
fFunctionNames[kfunc_OnAIMsg],
"OisO",
brainObj, msgType, aiMsg->BrainUserString().c_str(), args
);
Py_DECREF(brainObj);
Py_DECREF(args);
if (retVal == nil)
{
#ifndef PLASMA_EXTERNAL_RELEASE
// for some reason this function didn't, remember that and not call it again
fPyFunctionInstances[kfunc_OnAIMsg] = nil;
#endif //PLASMA_EXTERNAL_RELEASE
// if there was an error make sure that the stderr gets flushed so it can be seen
ReportError();
}
Py_XDECREF(retVal);
plProfile_EndTiming(PythonUpdate);
// display any output
DisplayPythonOutput();
return true;
}
}
return plModifier::MsgReceive(msg);
}
/////////////////////////////////////////////////////////////////////////////
//
// Function : ReportError
// PARAMETERS :
//
// PURPOSE : Report error to somewhere
//
void plPythonFileMod::ReportError()
{
char objectName[128];
StrCopy(objectName, this->GetKeyName(), arrsize(objectName));
StrPack(objectName, " - ", arrsize(objectName));
PythonInterface::WriteToStdErr(objectName);
PyErr_Print(); // make sure the error is printed
PyErr_Clear(); // clear the error
}
/////////////////////////////////////////////////////////////////////////////
//
// Function : DisplayPythonOutput
// PARAMETERS :
//
// PURPOSE : display any Python stdout or stderr to file and to screen(later)
//
void plPythonFileMod::DisplayPythonOutput()
{
// get the messages
PythonInterface::getOutputAndReset();
}
/////////////////////////////////////////////////////////////////////////////
//
// Function : SetSourceFile
// PARAMETERS : code - text source code
// : filename - where the source code came from (just say the object name)
//
// PURPOSE : Sets the source code for this modifier.
// : Compile it into a Python code object
// : (This is usually called by the component)
//
void plPythonFileMod::SetSourceFile(const char* filename)
{
delete [] fPythonFile;
fPythonFile = hsStrcpy(filename);
}
/////////////////////////////////////////////////////////////////////////////
//
// Function : getPythonOutput
// PARAMETERS : none
//
// PURPOSE : get the Output to the error file to be displayed
//
int plPythonFileMod::getPythonOutput(std::string* line)
{
return PythonInterface::getOutputAndReset(line);
}
/////////////////////////////////////////////////////////////////////////////
//
// Function : EnableControlKeys
// PARAMETERS : none
//
// PURPOSE : get the Output to the error file to be displayed
//
void plPythonFileMod::EnableControlKeyEvents()
{
// register for keyboard events if needed
if ( fPyFunctionInstances[kfunc_OnKeyEvent] != nil )
{
// register for key events
plCmdIfaceModMsg* pModMsg = TRACKED_NEW plCmdIfaceModMsg;
pModMsg->SetBCastFlag(plMessage::kBCastByExactType);
pModMsg->SetSender(GetKey());
pModMsg->SetCmd(plCmdIfaceModMsg::kAdd);
plgDispatch::MsgSend(pModMsg);
}
}
/////////////////////////////////////////////////////////////////////////////
//
// Function : DisableControlKeys
// PARAMETERS : none
//
// PURPOSE : get the Output to the error file to be displayed
//
void plPythonFileMod::DisableControlKeyEvents()
{
// unregister for key events
plCmdIfaceModMsg* pModMsg = TRACKED_NEW plCmdIfaceModMsg;
pModMsg->SetBCastFlag(plMessage::kBCastByExactType);
pModMsg->SetSender(GetKey());
pModMsg->SetCmd(plCmdIfaceModMsg::kRemove);
plgDispatch::MsgSend(pModMsg);
}
void plPythonFileMod::Read(hsStream* stream, hsResMgr* mgr)
{
plMultiModifier::Read(stream, mgr);
// read in the compile python code (pyc)
if ( fPythonFile )
{
// if we already have some code, get rid of it!
delete [] fPythonFile;
fPythonFile = nil;
}
fPythonFile = stream->ReadSafeString();
// then read in the list of receivers that want to be notified
int nRcvs = stream->ReadSwap32();
fReceivers.Reset();
int m;
for( m=0; m<nRcvs; m++ )
{
fReceivers.Append(mgr->ReadKey(stream));
}
// then read in the list of parameters
int nParms = stream->ReadSwap32();
fParameters.SetCountAndZero(nParms);
int i;
for( i=0; i<nParms; i++ )
{
plPythonParameter parm;
parm.Read(stream,mgr);
fParameters[i] = parm;
}
}
void plPythonFileMod::Write(hsStream* stream, hsResMgr* mgr)
{
plMultiModifier::Write(stream, mgr);
stream->WriteSafeString(fPythonFile);
// then write out the list of receivers that want to be notified
stream->WriteSwap32(fReceivers.GetCount());
int m;
for( m=0; m<fReceivers.GetCount(); m++ )
mgr->WriteKey(stream, fReceivers[m]);
// then write out the list of parameters
stream->WriteSwap32(fParameters.GetCount());
int i;
for( i=0; i<fParameters.GetCount(); i++ )
fParameters[i].Write(stream,mgr);
}
//// kGlobalNameKonstant /////////////////////////////////////////////////
// My continued attempt to spread the CORRECT way to spell konstant. -mcn
char plPythonFileMod::kGlobalNameKonstant[] = "VeryVerySpecialPythonFileMod";