// Ryzom - MMORPG Framework
// Copyright (C) 2010 Winch Gate Property Limited
//
// This program is free software: you can redistribute it and/or modify
// it under the terms of the GNU Affero 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 Affero General Public License for more details.
//
// You should have received a copy of the GNU Affero General Public License
// along with this program. If not, see .
// ----------------------------------------------------------------------------
#include "stdpch.h"
#include "interface_3d_scene.h"
#include "interface_manager.h"
#include "character_3d.h"
#include "../time_client.h"
#include "../entities.h"
#include "nel/3d/u_point_light.h"
#include "nel/3d/u_particle_system_instance.h"
#include "nel/3d/u_animation_set.h"
#include "nel/misc/xml_auto_ptr.h"
#include "action_handler.h"
#include "lua_ihm.h"
// ----------------------------------------------------------------------------
using namespace std;
using namespace NL3D;
using namespace NLMISC;
// ----------------------------------------------------------------------------
// CInterface3DScene
// ----------------------------------------------------------------------------
CInterface3DScene::CInterface3DScene(const TCtorParam ¶m)
: CInterfaceGroup(param)
{
_Scene = NULL;
_AutoAnimSet = NULL;
_CurrentCS = 0;
_CurrentCamera = 0;
_MouseLDown = false;
_MouseRDown = false;
_UserInteraction = false;
_RotYFactor = _RotZFactor = 0.005f;
_RotYLimitMin = _RotZLimitMin = -(float)(180.0f / NLMISC::Pi);
_RotYLimitMax = _RotZLimitMax = (float)(180.0f / NLMISC::Pi);
_DistLimitMin = 0.1f;
_DistLimitMax = 15.0f;
_DistFactor = 0.005f;
}
// ----------------------------------------------------------------------------
CInterface3DScene::~CInterface3DScene()
{
uint i;
for (i = 0; i < _Characters.size(); ++i)
delete _Characters[i];
for (i = 0; i < _IGs.size(); ++i)
delete _IGs[i];
for (i = 0; i < _Cameras.size(); ++i)
delete _Cameras[i];
for (i = 0; i < _Lights.size(); ++i)
delete _Lights[i];
for (i = 0; i < _Shapes.size(); ++i)
delete _Shapes[i];
for (i = 0; i < _FXs.size(); ++i)
delete _FXs[i];
NL3D::UDriver *Driver = CInterfaceManager::getInstance()->getViewRenderer().getDriver();
if (_Scene != NULL)
Driver->deleteScene (_Scene);
if (_AutoAnimSet != NULL)
Driver->deleteAnimationSet(_AutoAnimSet);
}
// ----------------------------------------------------------------------------
CInterface3DCharacter *CInterface3DScene::getCharacter3D(uint index)
{
nlassert(index < _Characters.size());
return _Characters[index];
}
// ----------------------------------------------------------------------------
CInterface3DCamera *CInterface3DScene::getCamera(uint index)
{
nlassert(index < _Cameras.size());
return _Cameras[index];
}
// ----------------------------------------------------------------------------
bool CInterface3DScene::parse (xmlNodePtr cur, CInterfaceGroup *parentGroup)
{
CInterfaceManager *pIM = CInterfaceManager::getInstance();
if (!CInterfaceElement::parse(cur, parentGroup))
return false;
CXMLAutoPtr ptr;
double value;
// Check for user interaction properties
ptr = (char*) xmlGetProp( cur, (xmlChar*)"user_interaction" );
if (ptr) _UserInteraction = convertBool(ptr);
ptr = (char*) xmlGetProp( cur, (xmlChar*)"rotz_limit_min" );
if (ptr)
{
fromString((const char*)ptr, value);
_RotZLimitMin = (float)(value * (NLMISC::Pi/180.0));
}
ptr = (char*) xmlGetProp( cur, (xmlChar*)"rotz_limit_max" );
if (ptr)
{
fromString((const char*)ptr, value);
_RotZLimitMax = (float)(value * (NLMISC::Pi/180.0));
}
ptr = (char*) xmlGetProp( cur, (xmlChar*)"rotz_factor" );
if (ptr) fromString((const char*)ptr, _RotZFactor);
ptr = (char*) xmlGetProp( cur, (xmlChar*)"roty_limit_min" );
if (ptr)
{
fromString((const char*)ptr, value);
_RotYLimitMin = (float)(value * (NLMISC::Pi/180.0));
}
ptr = (char*) xmlGetProp( cur, (xmlChar*)"roty_limit_max" );
if (ptr)
{
fromString((const char*)ptr, value);
_RotYLimitMax = (float)(value * (NLMISC::Pi/180.0));
}
ptr = (char*) xmlGetProp( cur, (xmlChar*)"roty_factor" );
if (ptr) fromString((const char*)ptr, _RotYFactor);
ptr = (char*) xmlGetProp( cur, (xmlChar*)"dist_limit_min" );
if (ptr) fromString((const char*)ptr, _DistLimitMin);
ptr = (char*) xmlGetProp( cur, (xmlChar*)"dist_limit_max" );
if (ptr) fromString((const char*)ptr, _DistLimitMax);
ptr = (char*) xmlGetProp( cur, (xmlChar*)"dist_factor" );
if (ptr) fromString((const char*)ptr, _DistFactor);
// Check right now if this is a reference view
ptr = (char*) xmlGetProp( cur, (xmlChar*)"reference" );
_Ref3DScene = NULL;
if (ptr)
{
CInterfaceElement *pIE = pIM->getElementFromId(this->getId(), ptr);
_Ref3DScene = dynamic_cast(pIE);
}
if (_Ref3DScene != NULL)
{
ptr = (char*) xmlGetProp( cur, (xmlChar*)"curcam" );
if (ptr) setCurrentCamera (ptr);
return true;
}
NL3D::UDriver *Driver = CInterfaceManager::getInstance()->getViewRenderer().getDriver();
nlassert ( Driver != NULL);
_Scene = Driver->createScene(true);
_Scene->enableLightingSystem(true);
CRGBA rgbaTmp;
ptr = (char*) xmlGetProp( cur, (xmlChar*)"ambient" );
rgbaTmp = CRGBA::Black;
if (ptr) rgbaTmp = convertColor(ptr);
_Scene->setAmbientGlobal(rgbaTmp);
ptr = (char*) xmlGetProp( cur, (xmlChar*)"sun_ambient" );
rgbaTmp = CRGBA(50,50,50);
if (ptr) rgbaTmp = convertColor(ptr);
_Scene->setSunAmbient(rgbaTmp);
ptr = (char*) xmlGetProp( cur, (xmlChar*)"sun_diffuse" );
rgbaTmp = CRGBA::White;
if (ptr) rgbaTmp = convertColor(ptr);
_Scene->setSunDiffuse(rgbaTmp);
ptr = (char*) xmlGetProp( cur, (xmlChar*)"sun_specular" );
rgbaTmp = CRGBA::White;
if (ptr) rgbaTmp = convertColor(ptr);
_Scene->setSunSpecular(rgbaTmp);
CVector v(-1,1,-1);
ptr = (char*) xmlGetProp( cur, (xmlChar*)"sun_direction" );
if (ptr) v = convertVector(ptr);
_Scene->setSunDirection(v);
// Read all children
// bool ok = true;
cur = cur->children;
while (cur)
{
// Check that this is a camera node
if ( stricmp((char*)cur->name,"character3d") == 0 )
{
CInterface3DCharacter *pCha = new CInterface3DCharacter;
if (!pCha->parse(cur,this))
{
delete pCha;
nlwarning("character3d not added to scene3d");
}
else
{
_Characters.push_back(pCha);
}
}
else if ( stricmp((char*)cur->name,"ig") == 0 )
{
CInterface3DIG *pIG = new CInterface3DIG;
if (!pIG->parse(cur,this))
{
delete pIG;
nlwarning("ig not added to scene3d");
}
else
{
_IGs.push_back(pIG);
}
}
else if ( stricmp((char*)cur->name,"shape") == 0 )
{
CInterface3DShape *pShp = new CInterface3DShape;
if (!pShp->parse(cur,this))
{
delete pShp;
nlwarning("shape not added to scene3d");
}
else
{
_Shapes.push_back(pShp);
}
}
else if ( stricmp((char*)cur->name,"camera") == 0 )
{
CInterface3DCamera *pCam = new CInterface3DCamera;
if (!pCam->parse(cur,this))
{
delete pCam;
nlwarning("camera not added to scene3d");
}
else
{
_Cameras.push_back(pCam);
}
}
else if ( stricmp((char*)cur->name,"light") == 0 )
{
CInterface3DLight *pLig = new CInterface3DLight;
if (!pLig->parse(cur,this))
{
delete pLig;
nlwarning("light not added to scene3d");
}
else
{
_Lights.push_back(pLig);
}
}
else if ( stricmp((char*)cur->name,"fx") == 0 )
{
CInterface3DFX *pFX = new CInterface3DFX;
if (!pFX->parse(cur,this))
{
delete pFX;
nlwarning("fx not added to scene3d");
}
else
{
_FXs.push_back(pFX);
}
}
else if ( stricmp((char*)cur->name,"auto_anim") == 0 )
{
CXMLAutoPtr ptr((const char*)xmlGetProp (cur, (xmlChar*)"name"));
string animName;
if (ptr)
animName = strlwr (CFile::getFilenameWithoutExtension(ptr));
if (!animName.empty())
{
if (_AutoAnimSet == NULL)
_AutoAnimSet = CInterfaceManager::getInstance()->getViewRenderer().getDriver()->createAnimationSet();
uint id = _AutoAnimSet->addAnimation (ptr, animName.c_str ());
if (id == UAnimationSet::NotFound)
{
nlwarning ("Can't load automatic animation '%s'", animName.c_str());
}
}
else
{
nlwarning ("Can't get automatic animation name");
}
}
cur = cur->next;
}
// if some auto_anim, found, compile and set auto_anim
if (_AutoAnimSet != NULL)
{
_AutoAnimSet->build ();
_Scene->setAutomaticAnimationSet (_AutoAnimSet);
}
// If no camera create the default one
if (_Cameras.size() == 0)
{
CInterface3DCamera *pCam = new CInterface3DCamera;
_Cameras.push_back(pCam);
}
_CurrentCamera = 0;
// Initialize all camera distance
for (uint i = 0; i < _Cameras.size(); ++i)
{
CInterface3DCamera *pCam = _Cameras[i];
pCam->setDist ((pCam->getPos() - pCam->getTarget()).norm());
}
// Get the current camera
ptr = (char*) xmlGetProp( cur, (xmlChar*)"curcam" );
if (ptr) setCurrentCamera (ptr);
return true;
}
// ----------------------------------------------------------------------------
void CInterface3DScene::checkCoords()
{
uint i;
for (i = 0; i < _Characters.size(); ++i)
{
_Characters[i]->checkCoords();
}
for (i = 0; i < _IGs.size(); ++i)
_IGs[i]->checkCoords();
for (i = 0; i < _Cameras.size(); ++i)
_Cameras[i]->checkCoords();
for (i = 0; i < _Lights.size(); ++i)
_Lights[i]->checkCoords();
for (i = 0; i < _FXs.size(); ++i)
_FXs[i]->checkCoords();
if (_Scene != NULL)
_Scene->animate (TimeInSec-FirstTimeInSec);
}
// ----------------------------------------------------------------------------
void CInterface3DScene::updateCoords ()
{
CViewBase::updateCoords();
}
// ----------------------------------------------------------------------------
void CInterface3DScene::draw ()
{
H_AUTO( RZ_Interface_CInterface3DScene_draw )
NL3D::UDriver *Driver = CInterfaceManager::getInstance()->getViewRenderer().getDriver();
if ( Driver == NULL)
return;
// No Op if screen minimized
CInterfaceManager *pIM = CInterfaceManager::getInstance();
CViewRenderer &rVR = pIM->getViewRenderer();
if(rVR.isMinimized())
return;
CInterface3DScene *pDisp = this;
// If this is a reference view
if (_Ref3DScene != NULL)
{
pDisp = _Ref3DScene;
pDisp->setFlareContext(1);
}
else
{
pDisp->setFlareContext(0);
}
// This is not a reference view !
if (pDisp->_Scene == NULL)
return;
CInterface3DCamera *pI3DCam = pDisp->_Cameras[_CurrentCamera];
// TEMP TEMP TEMP DISPLAY BACKGROUND
//rVR.drawRotFlipBitmap (_RenderLayer, _XReal, _YReal, _WReal, _HReal, 0, false,
// rVR.getBlankTextureId(), CRGBA(255,255,255,255) );
// TEMP TEMP TEMP
rVR.flush();
// Viewport and frustrum
uint32 wsw, wsh;
sint32 oldSciX, oldSciY, oldSciW, oldSciH;
makeNewClip (oldSciX, oldSciY, oldSciW, oldSciH);
// Display sons only if not total clipped
if( rVR.isClipWindowEmpty() )
{
restoreClip (oldSciX, oldSciY, oldSciW, oldSciH);
return;
}
sint32 clipx,clipy,clipw,cliph;
getClip (clipx, clipy, clipw, cliph);
rVR.getScreenSize (wsw, wsh);
NL3D::CViewport oldVP = Driver->getViewport();
NL3D::CViewport newVP;
float vpX = (float) (clipx) / iavoid0(wsw);
float vpY = (float) (clipy) / iavoid0(wsh);
float vpW = (float) clipw / iavoid0(wsw);
float vpH = (float) cliph / iavoid0(wsh);
newVP.init(vpX, vpY, vpW, vpH);
NL3D::CFrustum oldFrustum = CInterfaceManager::getInstance()->getViewRenderer().getDriver()->getFrustum();
NL3D::CFrustum newFrustum;
newFrustum.initPerspective (pI3DCam->getFOV() * (float) (NLMISC::Pi / 180), (float) _WReal / iavoid0(_HReal), 0.1f, 100.f);
// Ajust frustum when there's clamping on border of screen
float xLeft = 0.f;
float xRight = 1.f;
float yBottom = 0.f;
float yTop = 1.f;
// We assume that the viewport has dimensions < to those of the screen
if ((_XReal+_WReal) > (clipx+clipw)) // right clamp ?
{
xRight = ((clipx+clipw) - _XReal) / (float) _WReal;
}
else if (_XReal < clipx) // left clamp
{
xLeft = (clipx - _XReal) / (float) _WReal;
}
if ((_YReal + _HReal) > (clipy+cliph)) // top clamp ?
{
yTop = ((clipy+cliph) - _YReal) / (float) _HReal;
}
else if (_YReal < clipy) // bottom clamp
{
yBottom = (clipy - _YReal) / (float) _HReal;
}
// adjust frustum
float fWidth = newFrustum.Right - newFrustum.Left;
float fLeft = newFrustum.Left;
newFrustum.Left = fLeft + fWidth * xLeft;
newFrustum.Right = fLeft + fWidth * xRight;
float fHeight = newFrustum.Top - newFrustum.Bottom;
float fBottom = newFrustum.Bottom;
newFrustum.Bottom = fBottom + fHeight * yBottom;
newFrustum.Top = fBottom + fHeight * yTop;
pDisp->_Scene->setViewport(newVP);
NL3D::UCamera cam = pDisp->_Scene->getCam();
cam.setFrustum(newFrustum);
// Rotate the camera position around the target with the rot parameters
CVector pos = pI3DCam->getPos() - pI3DCam->getTarget();
// float dist = pos.norm();
pos.normalize();
CMatrix m;
m.identity();
m.rotateZ(pI3DCam->getRotZ());
m.rotateX(pI3DCam->getRotY());
pos = m.mulVector(pos);
pos = pos * pI3DCam->getDist();
pos = pos + pI3DCam->getTarget();
cam.lookAt (pos, pI3DCam->getTarget(), pI3DCam->getRoll() * (float) (NLMISC::Pi / 180));
uint i;
if (_IGs.size() > 0)
{
for (i = 0; i < _Characters.size(); ++i)
_Characters[i]->setClusterSystem (_IGs[_CurrentCS]->getIG());
for (i = 0; i < _Shapes.size(); ++i)
_Shapes[i]->getShape().setClusterSystem (_IGs[_CurrentCS]->getIG());
for (i = 0; i < _FXs.size(); ++i)
if (!_FXs[i]->getPS().empty())
_FXs[i]->getPS().setClusterSystem (_IGs[_CurrentCS]->getIG());
cam.setClusterSystem (_IGs[_CurrentCS]->getIG());
}
else
{
for (i = 0; i < _Characters.size(); ++i)
_Characters[i]->setClusterSystem ((UInstanceGroup*)-1);
for (i = 0; i < _Shapes.size(); ++i)
{
if (!_Shapes[i]->getShape().empty())
_Shapes[i]->getShape().setClusterSystem ((UInstanceGroup*)-1);
}
for (i = 0; i < _FXs.size(); ++i)
if (!_FXs[i]->getPS().empty())
_FXs[i]->getPS().setClusterSystem ((UInstanceGroup*)-1);
cam.setClusterSystem ((UInstanceGroup*)-1);
}
////////////////////////
// Clear the Z-Buffer //
////////////////////////
NL3D::CScissor oldScissor = Driver->getScissor();
NL3D::CScissor newScissor;
newScissor.X = vpX;
newScissor.Y = vpY;
newScissor.Width = vpW;
newScissor.Height = vpH;
Driver->setScissor(newScissor);
Driver->clearZBuffer();
Driver->setScissor(oldScissor);
///////////////////////////////////////////////
pDisp->_Scene->render();
Driver->setViewport(oldVP);
Driver->setFrustum(oldFrustum);
// Restaure render states
pIM->getViewRenderer().setRenderStates();
restoreClip (oldSciX, oldSciY, oldSciW, oldSciH);
}
// ----------------------------------------------------------------------------
bool CInterface3DScene::handleEvent (const CEventDescriptor &event)
{
if (!_UserInteraction)
return false;
if (!_Active)
return false;
// if focus is lost then cancel rotation / zoom
if (event.getType() == CEventDescriptor::system)
{
const CEventDescriptorSystem &eds = (const CEventDescriptorSystem &) event;
if (eds.getEventTypeExtended() == CEventDescriptorSystem::setfocus)
{
const CEventDescriptorSetFocus &edsf = (const CEventDescriptorSetFocus &) eds;
if (edsf.hasFocus() == false)
{
_MouseLDown = false;
_MouseRDown = false;
return true;
}
}
}
if (event.getType() == CEventDescriptor::mouse)
{
const CEventDescriptorMouse &eventDesc = (const CEventDescriptorMouse &)event;
if ((CInterfaceManager::getInstance()->getCapturePointerLeft() != this) &&
(CInterfaceManager::getInstance()->getCapturePointerRight() != this) &&
(!((eventDesc.getX() >= _XReal) &&
(eventDesc.getX() < (_XReal + _WReal))&&
(eventDesc.getY() > _YReal) &&
(eventDesc.getY() <= (_YReal+ _HReal)))))
return false;
if (eventDesc.getEventTypeExtended() == CEventDescriptorMouse::mouseleftdown)
{
_MouseLDown = true;
_MouseLDownX = eventDesc.getX();
_MouseLDownY = eventDesc.getY();
CInterfaceManager *pIM = CInterfaceManager::getInstance();
pIM->setCapturePointerLeft(this); // Because we are not just a control
return true;
}
if (eventDesc.getEventTypeExtended() == CEventDescriptorMouse::mouseleftup)
{
_MouseLDown = false;
return true;
}
if (eventDesc.getEventTypeExtended() == CEventDescriptorMouse::mouserightdown)
{
_MouseRDown = true;
_MouseRDownX = eventDesc.getX();
_MouseRDownY = eventDesc.getY();
CInterfaceManager *pIM = CInterfaceManager::getInstance();
pIM->setCapturePointerRight(this); // Because we are not just a control
return true;
}
if (eventDesc.getEventTypeExtended() == CEventDescriptorMouse::mouserightup)
{
_MouseRDown = false;
return true;
}
if (eventDesc.getEventTypeExtended() == CEventDescriptorMouse::mousemove)
{
if (_MouseLDown)
{
sint32 dx = eventDesc.getX() - _MouseLDownX;
sint32 dy = eventDesc.getY() - _MouseLDownY;
mouseLMove (dx,dy);
_MouseLDownX = eventDesc.getX();
_MouseLDownY = eventDesc.getY();
}
if (_MouseRDown)
{
sint32 dx = eventDesc.getX() - _MouseRDownX;
sint32 dy = eventDesc.getY() - _MouseRDownY;
mouseRMove (dx,dy);
_MouseRDownX = eventDesc.getX();
_MouseRDownY = eventDesc.getY();
}
return true;
}
}
return false;
}
// ----------------------------------------------------------------------------
void CInterface3DScene::mouseLMove (sint32 dx, sint32 dy)
{
const CInterface3DScene *pI3DS = (_Ref3DScene != NULL) ? _Ref3DScene : this;
CInterface3DCamera *pI3DCam = pI3DS->_Cameras[_CurrentCamera];
float ang = pI3DCam->getRotY() + ((float)dy)*_RotYFactor;
clamp (ang, _RotYLimitMin, _RotYLimitMax);
pI3DCam->setRotY (ang);
ang = pI3DCam->getRotZ() - ((float)dx)*_RotZFactor;
clamp (ang ,_RotZLimitMin, _RotZLimitMax);
pI3DCam->setRotZ (ang);
}
// ----------------------------------------------------------------------------
void CInterface3DScene::mouseRMove (sint32 /* dx */, sint32 dy)
{
const CInterface3DScene *pI3DS = (_Ref3DScene != NULL) ? _Ref3DScene : this;
CInterface3DCamera *pI3DCam = pI3DS->_Cameras[_CurrentCamera];
float dist = pI3DCam->getDist() - ((float)dy)*_DistFactor;
clamp (dist, _DistLimitMin, _DistLimitMax);
pI3DCam->setDist (dist);
}
// ----------------------------------------------------------------------------
CInterfaceElement* CInterface3DScene::getElement (const string &id)
{
if (id == getId())
return this;
string sTmp = id.substr(0, getId().size());
if (sTmp != getId()) return NULL;
uint i;
for (i = 0; i < _Characters.size(); ++i)
if (id == _Characters[i]->getId())
return _Characters[i];
for (i = 0; i < _IGs.size(); ++i)
if (id == _IGs[i]->getId())
return _IGs[i];
for (i = 0; i < _Shapes.size(); ++i)
if (id == _Shapes[i]->getId())
return _Shapes[i];
for (i = 0; i < _Cameras.size(); ++i)
if (id == _Cameras[i]->getId())
return _Cameras[i];
for (i = 0; i < _Lights.size(); ++i)
if (id == _Lights[i]->getId())
return _Lights[i];
for (i = 0; i < _FXs.size(); ++i)
if (id == _FXs[i]->getId())
return _FXs[i];
return NULL;
}
// ----------------------------------------------------------------------------
string CInterface3DScene::getCurrentCamera() const
{
const CInterface3DScene *pI3DS = (_Ref3DScene != NULL) ? _Ref3DScene : this;
string name = pI3DS->_Cameras[_CurrentCamera]->getId();
name = name.substr(name.rfind(':'));
return name;
}
// ----------------------------------------------------------------------------
void CInterface3DScene::setCurrentCamera (const string &name)
{
CInterfaceManager *pIM = CInterfaceManager::getInstance();
CInterface3DScene *pI3DS = (_Ref3DScene != NULL) ? _Ref3DScene : this;
CInterfaceElement *pIE = pIM->getElementFromId(pI3DS->getId(), name);
CInterface3DCamera *pI3DCam = dynamic_cast(pIE);
if (pI3DCam != NULL)
{
uint i = 0;
for (i = 0; i < pI3DS->_Cameras.size(); ++i)
if (pI3DS->_Cameras[i] == pI3DCam)
break;
if (i != pI3DS->_Cameras.size())
_CurrentCamera = i;
}
}
// ----------------------------------------------------------------------------
string CInterface3DScene::getCurrentClusterSystem () const
{
const CInterface3DScene *pI3DS = (_Ref3DScene != NULL) ? _Ref3DScene : this;
string name = pI3DS->_IGs[_CurrentCS]->getId();
name = name.substr(name.rfind(':'));
return name;
}
// ----------------------------------------------------------------------------
void CInterface3DScene::setCurrentClusterSystem(const string &sCSName)
{
CInterfaceManager *pIM = CInterfaceManager::getInstance();
CInterface3DScene *pI3DS = (_Ref3DScene != NULL) ? _Ref3DScene : this;
CInterfaceElement *pIE = pIM->getElementFromId(pI3DS->getId(), sCSName);
CInterface3DIG *pI3DIG = dynamic_cast(pIE);
if (pI3DIG != NULL)
{
uint i = 0;
for (i = 0; i < pI3DS->_IGs.size(); ++i)
if (pI3DS->_IGs[i] == pI3DIG)
break;
if (i != pI3DS->_IGs.size())
_CurrentCS = i;
}
}
// ----------------------------------------------------------------------------
void CInterface3DScene::remove(NL3D::UInstanceGroup *pIG)
{
uint32 i;
for (i = 0; i < _Characters.size(); ++i)
_Characters[i]->setClusterSystem ((UInstanceGroup*)NULL);
for (i = 0; i < _Shapes.size(); ++i)
_Shapes[i]->getShape().setClusterSystem ((UInstanceGroup*)NULL);
for (i = 0; i < _FXs.size(); ++i)
if (!_FXs[i]->getPS().empty())
_FXs[i]->getPS().setClusterSystem ((UInstanceGroup*)NULL);
CInterface3DScene *pDisp = this;
if (_Ref3DScene != NULL)
pDisp = _Ref3DScene;
if (pDisp->_Scene == NULL)
return;
NL3D::UCamera cam = pDisp->_Scene->getCam();
cam.setClusterSystem ((UInstanceGroup*)NULL);
pIG->removeFromScene(*_Scene);
_Scene->deleteInstanceGroup(pIG);
}
// ----------------------------------------------------------------------------
// CInterface3DCharacter
// ----------------------------------------------------------------------------
// ----------------------------------------------------------------------------
CInterface3DCharacter::CInterface3DCharacter()
{
_Char3D = NULL;
}
// ----------------------------------------------------------------------------
CInterface3DCharacter::~CInterface3DCharacter()
{
delete _Char3D;
}
// ----------------------------------------------------------------------------
bool CInterface3DCharacter::parse (xmlNodePtr cur, CInterface3DScene *parentGroup)
{
if (!CInterfaceElement::parse(cur, parentGroup))
return false;
CXMLAutoPtr ptr((const char*)xmlGetProp (cur, (xmlChar*)"dblink"));
_DBLink = "";
if (ptr) _DBLink = (const char *)ptr;
CVector pos(0,0,0), rot(0,0,0);
ptr = xmlGetProp (cur, (xmlChar*)"pos");
if (ptr) pos = convertVector(ptr);
ptr = xmlGetProp (cur, (xmlChar*)"rot");
if (ptr) rot = convertVector(ptr);
bool copyAnim = false;
ptr = xmlGetProp (cur, (xmlChar*)"copy_anim");
if (ptr) copyAnim = convertBool(ptr);
_Char3D = new CCharacter3D;
_Char3D->copyAnimation(copyAnim);
_Char3D->init (parentGroup->getScene());
_Char3D->setPos (pos.x, pos.y, pos.z);
_Char3D->setRotEuler ( rot.x * ((float)(NLMISC::Pi / 180)),
rot.y * ((float)(NLMISC::Pi / 180)),
rot.z * ((float)(NLMISC::Pi / 180)) );
checkCoords();
return true;
}
// ----------------------------------------------------------------------------
void CInterface3DCharacter::checkCoords()
{
if (_Char3D)
{
SCharacter3DSetup c3Ds = _Char3D->getCurrentSetup();
if ((_DBLink.empty()) || (_DBLink == "player"))
c3Ds.setupFromSERVERDataBase();
else if (_DBLink == "target")
{
if (UserEntity != NULL)
{
CEntityCL *selection = EntitiesMngr.entity(UserEntity->selection());
if (selection != NULL)
c3Ds.setupFromSERVERDataBase(selection->slot());
}
}
else
c3Ds.setupFromDataBase (_DBLink);
_Char3D->setup (c3Ds);
_Char3D->animate (TimeInSec);
}
}
// ----------------------------------------------------------------------------
void CInterface3DCharacter::setupCharacter3D(sint32 slot)
{
SCharacter3DSetup c3Ds = _Char3D->getCurrentSetup();
c3Ds.setupFromSERVERDataBase((uint8)slot);
_Char3D->setup(c3Ds);
}
// ----------------------------------------------------------------------------
int CInterface3DCharacter::luaSetupCharacter3D(CLuaState &ls)
{
const char *funcName = "setupCharacter3D";
CLuaIHM::checkArgCount(ls, funcName, 1);
CLuaIHM::checkArgType(ls, funcName, 1, LUA_TNUMBER);
setupCharacter3D((sint32) ls.toNumber(1));
return 0;
}
// ----------------------------------------------------------------------------
int CInterface3DCharacter::luaEnableLOD(CLuaState &ls)
{
const char *funcName = "enableLOD";
CLuaIHM::checkArgCount(ls, funcName, 1);
CLuaIHM::checkArgType(ls, funcName, 1, LUA_TBOOLEAN);
if (!_Char3D->getSkeleton().empty())
{
_Char3D->getSkeleton().enableLOD(ls.toBoolean(1));
}
return 0;
}
// ----------------------------------------------------------------------------
void CInterface3DCharacter::setClusterSystem (UInstanceGroup *pIG)
{
if (_Char3D != NULL)
_Char3D->setClusterSystem (pIG);
}
// ----------------------------------------------------------------------------
float CInterface3DCharacter::getPosX () const
{
if (_Char3D == NULL) return 0.0;
float x, y ,z;
_Char3D->getPos (x, y, z);
return x;
}
// ----------------------------------------------------------------------------
float CInterface3DCharacter::getPosY () const
{
if (_Char3D == NULL) return 0.0;
float x, y ,z;
_Char3D->getPos (x, y, z);
return y;
}
// ----------------------------------------------------------------------------
float CInterface3DCharacter::getPosZ () const
{
if (_Char3D == NULL) return 0.0;
float x, y ,z;
_Char3D->getPos (x, y, z);
return z;
}
// ----------------------------------------------------------------------------
void CInterface3DCharacter::setPosX (float f)
{
if (_Char3D == NULL) return;
float x, y ,z;
_Char3D->getPos(x, y, z);
x = f;
_Char3D->setPos(x, y, z);
}
// ----------------------------------------------------------------------------
void CInterface3DCharacter::setPosY (float f)
{
if (_Char3D == NULL) return;
float x, y ,z;
_Char3D->getPos(x, y, z);
y = f;
_Char3D->setPos(x, y, z);
}
// ----------------------------------------------------------------------------
void CInterface3DCharacter::setPosZ (float f)
{
if (_Char3D == NULL) return;
float x, y ,z;
_Char3D->getPos(x, y, z);
z = f;
_Char3D->setPos(x, y, z);
}
// ----------------------------------------------------------------------------
float CInterface3DCharacter::getRotX () const
{
if (_Char3D == NULL) return 0.0;
float x, y ,z;
_Char3D->getRotEuler(x, y, z);
return x / ((float)(NLMISC::Pi / 180));
}
// ----------------------------------------------------------------------------
float CInterface3DCharacter::getRotY () const
{
if (_Char3D == NULL) return 0.0;
float x, y ,z;
_Char3D->getRotEuler(x, y, z);
return y / ((float)(NLMISC::Pi / 180));
}
// ----------------------------------------------------------------------------
float CInterface3DCharacter::getRotZ () const
{
if (_Char3D == NULL) return 0.0;
float x, y ,z;
_Char3D->getRotEuler(x, y, z);
return z / ((float)(NLMISC::Pi / 180));
}
// ----------------------------------------------------------------------------
void CInterface3DCharacter::setRotX (float f)
{
if (_Char3D == NULL) return;
float x, y ,z;
_Char3D->getRotEuler(x, y, z);
x = f * ((float)(NLMISC::Pi / 180));
_Char3D->setRotEuler(x, y, z);
}
// ----------------------------------------------------------------------------
void CInterface3DCharacter::setRotY (float f)
{
if (_Char3D == NULL) return;
float x, y ,z;
_Char3D->getRotEuler(x, y, z);
y = f * ((float)(NLMISC::Pi / 180));
_Char3D->setRotEuler(x, y, z);
}
// ----------------------------------------------------------------------------
void CInterface3DCharacter::setRotZ (float f)
{
if (_Char3D == NULL) return;
float x, y ,z;
_Char3D->getRotEuler(x, y, z);
z = f * ((float)(NLMISC::Pi / 180));
_Char3D->setRotEuler(x, y, z);
}
// ----------------------------------------------------------------------------
float CInterface3DCharacter::getHeadX () const
{
if (_Char3D == NULL) return 0.0;
float x, y ,z;
_Char3D->getHeadPos (x, y, z);
return x;
}
// ----------------------------------------------------------------------------
float CInterface3DCharacter::getHeadY () const
{
if (_Char3D == NULL) return 0.0;
float x, y ,z;
_Char3D->getHeadPos (x, y, z);
return y;
}
// ----------------------------------------------------------------------------
float CInterface3DCharacter::getHeadZ () const
{
if (_Char3D == NULL) return 0.0;
float x, y ,z;
_Char3D->getHeadPos (x, y, z);
return z;
}
// ----------------------------------------------------------------------------
void CInterface3DCharacter::setAnim (sint32 anim)
{
if (_Char3D)
_Char3D->setAnim(anim);
checkCoords();
}
// ----------------------------------------------------------------------------
void CInterface3DCharacter::setPeople(const std::string & people)
{
_Char3D->setPeople(EGSPD::CPeople::fromString(people));
}
// ----------------------------------------------------------------------------
std::string CInterface3DCharacter::getPeople() const
{
return EGSPD::CPeople::toString(_Char3D->getPeople());
}
// ----------------------------------------------------------------------------
void CInterface3DCharacter::setSex(bool male)
{
_Char3D->setSex(male);
}
// ----------------------------------------------------------------------------
bool CInterface3DCharacter::getSex() const
{
return _Char3D->getSex();
}
// ----------------------------------------------------------------------------
// CInterface3DIG
// ----------------------------------------------------------------------------
// ----------------------------------------------------------------------------
CInterface3DIG::~CInterface3DIG()
{
CInterface3DScene *pI3DS = dynamic_cast(_Parent);
nlassert(pI3DS != NULL);
if (_IG)
{
_IG->removeFromScene(*pI3DS->getScene());
pI3DS->getScene()->deleteInstanceGroup(_IG);
_IG = NULL;
}
}
// ----------------------------------------------------------------------------
bool CInterface3DIG::parse (xmlNodePtr cur, CInterface3DScene *parentGroup)
{
if (!CInterfaceElement::parse(cur, parentGroup))
return false;
CXMLAutoPtr ptr((const char*)xmlGetProp (cur, (xmlChar*)"pos"));
if (ptr) _Pos = convertVector(ptr);
ptr = xmlGetProp (cur, (xmlChar*)"rot");
if (ptr) _Rot = convertVector(ptr);
string name;
ptr = xmlGetProp (cur, (xmlChar*)"name");
if (ptr) name = (const char*)ptr;
_Name = strlwr(name);
_IG = UInstanceGroup::createInstanceGroup(_Name);
if (_IG == NULL)
return true; // Create anyway
_IG->setPos (_Pos);
//_IG->setRot (_Rot);
setRotX (_Rot.x);
setRotY (_Rot.y);
setRotZ (_Rot.z);
_IG->addToScene (*parentGroup->getScene(), CInterfaceManager::getInstance()->getViewRenderer().getDriver() );
parentGroup->getScene()->setToGlobalInstanceGroup (_IG);
return true;
}
// ----------------------------------------------------------------------------
float CInterface3DIG::getPosX () const
{
return _Pos.x;
}
// ----------------------------------------------------------------------------
float CInterface3DIG::getPosY () const
{
return _Pos.y;
}
// ----------------------------------------------------------------------------
float CInterface3DIG::getPosZ () const
{
return _Pos.z;
}
// ----------------------------------------------------------------------------
void CInterface3DIG::setPosX (float f)
{
_Pos.x = f;
if (_IG != NULL) _IG->setPos(_Pos);
}
// ----------------------------------------------------------------------------
void CInterface3DIG::setPosY (float f)
{
_Pos.y = f;
if (_IG != NULL) _IG->setPos(_Pos);
}
// ----------------------------------------------------------------------------
void CInterface3DIG::setPosZ (float f)
{
_Pos.z = f;
if (_IG != NULL) _IG->setPos(_Pos);
}
// ----------------------------------------------------------------------------
float CInterface3DIG::getRotX () const
{
return _Rot.x;
}
// ----------------------------------------------------------------------------
float CInterface3DIG::getRotY () const
{
return _Rot.y;
}
// ----------------------------------------------------------------------------
float CInterface3DIG::getRotZ () const
{
return _Rot.z;
}
// ----------------------------------------------------------------------------
void CInterface3DIG::setRotX (float f)
{
_Rot.x = f;
CMatrix m;
m.identity();
m.setRot (_Rot,CMatrix::XYZ);
CQuat q = m.getRot();
_IG->setRotQuat (q);
}
// ----------------------------------------------------------------------------
void CInterface3DIG::setRotY (float f)
{
_Rot.y = f;
CMatrix m;
m.identity();
m.setRot (_Rot,CMatrix::XYZ);
CQuat q = m.getRot();
_IG->setRotQuat (q);
}
// ----------------------------------------------------------------------------
void CInterface3DIG::setRotZ (float f)
{
_Rot.z = f;
CMatrix m;
m.identity();
m.setRot (_Rot,CMatrix::XYZ);
CQuat q = m.getRot();
_IG->setRotQuat (q);
}
// ----------------------------------------------------------------------------
std::string CInterface3DIG::getName() const
{
return _Name;
}
// ----------------------------------------------------------------------------
void CInterface3DIG::setName (const std::string &ht)
{
string lwrname = strlwr(ht);
if (lwrname != _Name)
{
CInterface3DScene *pI3DS = dynamic_cast(_Parent);
nlassert(pI3DS != NULL);
if (_IG != NULL)
{
pI3DS->remove(_IG);
_IG = NULL;
}
_Name = lwrname;
_IG = UInstanceGroup::createInstanceGroup(_Name);
if (_IG == NULL) return;
_IG->setPos (_Pos);
_IG->addToScene (*pI3DS->getScene(), CInterfaceManager::getInstance()->getViewRenderer().getDriver() );
pI3DS->getScene()->setToGlobalInstanceGroup (_IG);
}
}
// ----------------------------------------------------------------------------
// CInterface3DShape
// ----------------------------------------------------------------------------
// ----------------------------------------------------------------------------
CInterface3DShape::~CInterface3DShape()
{
CInterface3DScene *pI3DS = dynamic_cast(_Parent);
nlassert(pI3DS != NULL);
if (!_Instance.empty())
pI3DS->getScene()->deleteInstance(_Instance);
}
// ----------------------------------------------------------------------------
bool CInterface3DShape::parse (xmlNodePtr cur, CInterface3DScene *parentGroup)
{
if (!CInterfaceElement::parse(cur, parentGroup))
return false;
CXMLAutoPtr ptr((const char*)xmlGetProp (cur, (xmlChar*)"pos"));
if (ptr) _Pos = convertVector(ptr);
ptr = xmlGetProp (cur, (xmlChar*)"rot");
if (ptr) _Rot = convertVector(ptr);
string name;
ptr = xmlGetProp (cur, (xmlChar*)"name");
if (ptr) name = (const char*)ptr;
_Name = strlwr(name);
_Instance = parentGroup->getScene()->createInstance(_Name);
if (_Instance.empty())
return false;
_Instance.setTransformMode(UTransformable::RotEuler);
_Instance.setPos (_Pos);
_Instance.setRotEuler (_Rot.x, _Rot.y, _Rot.z);
return true;
}
// ----------------------------------------------------------------------------
float CInterface3DShape::getPosX () const
{
return _Pos.x;
}
// ----------------------------------------------------------------------------
float CInterface3DShape::getPosY () const
{
return _Pos.y;
}
// ----------------------------------------------------------------------------
float CInterface3DShape::getPosZ () const
{
return _Pos.z;
}
// ----------------------------------------------------------------------------
void CInterface3DShape::setPosX (float f)
{
_Pos.x = f;
if (!_Instance.empty()) _Instance.setPos(_Pos);
}
// ----------------------------------------------------------------------------
void CInterface3DShape::setPosY (float f)
{
_Pos.y = f;
if (!_Instance.empty()) _Instance.setPos(_Pos);
}
// ----------------------------------------------------------------------------
void CInterface3DShape::setPosZ (float f)
{
_Pos.z = f;
if (!_Instance.empty()) _Instance.setPos(_Pos);
}
// ----------------------------------------------------------------------------
float CInterface3DShape::getRotX () const
{
return _Rot.x / ((float)(NLMISC::Pi / 180));
}
// ----------------------------------------------------------------------------
float CInterface3DShape::getRotY () const
{
return _Rot.y / ((float)(NLMISC::Pi / 180));
}
// ----------------------------------------------------------------------------
float CInterface3DShape::getRotZ () const
{
return _Rot.z / ((float)(NLMISC::Pi / 180));
}
// ----------------------------------------------------------------------------
void CInterface3DShape::setRotX (float f)
{
_Rot.x = f * ((float)(NLMISC::Pi / 180));
if (!_Instance.empty()) _Instance.setRotEuler (_Rot.x, _Rot.y, _Rot.z);
}
// ----------------------------------------------------------------------------
void CInterface3DShape::setRotY (float f)
{
_Rot.y = f * ((float)(NLMISC::Pi / 180));
if (!_Instance.empty()) _Instance.setRotEuler (_Rot.x, _Rot.y, _Rot.z);
}
// ----------------------------------------------------------------------------
void CInterface3DShape::setRotZ (float f)
{
_Rot.z = f * ((float)(NLMISC::Pi / 180));
if (!_Instance.empty()) _Instance.setRotEuler (_Rot.x, _Rot.y, _Rot.z);
}
// ----------------------------------------------------------------------------
std::string CInterface3DShape::getName() const
{
return _Name;
}
// ----------------------------------------------------------------------------
void CInterface3DShape::setName (const std::string &ht)
{
if (ht.empty())
{
CInterface3DScene *pI3DS = dynamic_cast(_Parent);
nlassert(pI3DS != NULL);
if (!_Instance.empty())
{
pI3DS->getScene()->deleteInstance(_Instance);
}
return;
_Name.clear();
}
string lwrname = toLower(ht);
if (lwrname != _Name)
{
CInterface3DScene *pI3DS = dynamic_cast(_Parent);
nlassert(pI3DS != NULL);
if (!_Instance.empty())
{
pI3DS->getScene()->deleteInstance(_Instance);
}
_Name = lwrname;
_Instance = pI3DS->getScene()->createInstance(_Name);
if (_Instance.empty()) return;
_Instance.setTransformMode(UTransformable::RotEuler);
_Instance.setPos (_Pos);
_Instance.setRotEuler (_Rot.x, _Rot.y, _Rot.z);
}
}
// ----------------------------------------------------------------------------
// CInterface3DCamera
// ----------------------------------------------------------------------------
// ----------------------------------------------------------------------------
bool CInterface3DCamera::parse (xmlNodePtr cur, CInterface3DScene *parentGroup)
{
if (!CInterfaceElement::parse(cur, parentGroup))
return false;
CXMLAutoPtr ptr((const char*)xmlGetProp (cur, (xmlChar*)"pos"));
if (ptr) _Pos = convertVector(ptr);
ptr = xmlGetProp (cur, (xmlChar*)"target");
if (ptr) _Target = convertVector(ptr);
ptr = xmlGetProp (cur, (xmlChar*)"fov");
if (ptr) fromString((const char*)ptr, _FOV);
ptr = xmlGetProp (cur, (xmlChar*)"roll");
if (ptr) fromString((const char*)ptr, _Roll);
return true;
}
// ----------------------------------------------------------------------------
void CInterface3DCamera::reset()
{
setTgtX(getTgtX());
_Rot = NLMISC::CVector(0,0,0);
}
// ----------------------------------------------------------------------------
// CInterface3DLight
// ----------------------------------------------------------------------------
// ----------------------------------------------------------------------------
CInterface3DLight::~CInterface3DLight()
{
CInterface3DScene *pI3DS = dynamic_cast(_Parent);
nlassert(pI3DS != NULL);
pI3DS->getScene()->deletePointLight(_Light);
}
// ----------------------------------------------------------------------------
bool CInterface3DLight::parse (xmlNodePtr cur, CInterface3DScene *parentGroup)
{
if (!CInterfaceElement::parse(cur, parentGroup))
return false;
_Light = parentGroup->getScene()->createPointLight();
CXMLAutoPtr ptr((const char*)xmlGetProp (cur, (xmlChar*)"pos"));
if (ptr) _Pos = convertVector(ptr);
ptr = xmlGetProp (cur, (xmlChar*)"color");
if (ptr) _Color = convertColor(ptr);
ptr = xmlGetProp (cur, (xmlChar*)"near");
if (ptr) fromString((const char*)ptr, _Near);
ptr = xmlGetProp (cur, (xmlChar*)"far");
if (ptr) fromString((const char*)ptr, _Far);
_Light.setPos(_Pos);
_Light.setAmbient (CRGBA(0,0,0));
_Light.setDiffuse (CRGBA(255,255,255));
_Light.setSpecular (CRGBA(255,255,255));
_Light.setColor (_Color);
_Light.setupAttenuation (_Near, _Far);
return true;
}
// ----------------------------------------------------------------------------
void CInterface3DLight::setPosX(float f)
{
_Pos.x = f;
_Light.setPos(_Pos);
}
// ----------------------------------------------------------------------------
void CInterface3DLight::setPosY(float f)
{
_Pos.y = f;
_Light.setPos(_Pos);
}
// ----------------------------------------------------------------------------
void CInterface3DLight::setPosZ(float f)
{
_Pos.z = f;
_Light.setPos(_Pos);
}
// ----------------------------------------------------------------------------
void CInterface3DLight::setNear(float f)
{
_Near = f;
_Light.setupAttenuation (_Near, _Far);
}
// ----------------------------------------------------------------------------
void CInterface3DLight::setFar(float f)
{
_Far = f;
_Light.setupAttenuation (_Near, _Far);
}
// ----------------------------------------------------------------------------
void CInterface3DLight::setColR(sint32 f)
{
_Color.R = (uint8)f;
_Light.setColor (_Color);
}
// ----------------------------------------------------------------------------
void CInterface3DLight::setColG(sint32 f)
{
_Color.G = (uint8)f;
_Light.setColor (_Color);
}
// ----------------------------------------------------------------------------
void CInterface3DLight::setColB(sint32 f)
{
_Color.B = (uint8)f;
_Light.setColor (_Color);
}
// ----------------------------------------------------------------------------
// CInterface3DFX
// ----------------------------------------------------------------------------
// ----------------------------------------------------------------------------
CInterface3DFX::~CInterface3DFX()
{
}
// ----------------------------------------------------------------------------
bool CInterface3DFX::parse (xmlNodePtr cur, CInterface3DScene *parentGroup)
{
if (!CInterfaceElement::parse(cur, parentGroup))
return false;
CXMLAutoPtr ptr((const char*)xmlGetProp (cur, (xmlChar*)"pos"));
if (ptr) _Pos = convertVector(ptr);
ptr = xmlGetProp (cur, (xmlChar*)"rot");
if (ptr) _Rot = convertVector(ptr);
string name;
ptr = xmlGetProp (cur, (xmlChar*)"name");
if (ptr) name = (const char*)ptr;
_Name = strlwr(name);
return true;
}
// ----------------------------------------------------------------------------
void CInterface3DFX::checkCoords()
{
if (!_FX.empty())
{
if (!_FX.isValid())
{
CInterface3DScene *pI3DS = dynamic_cast(_Parent);
nlassert(pI3DS != NULL);
pI3DS->getScene()->deleteInstance(_FX);
}
}
}
// ----------------------------------------------------------------------------
float CInterface3DFX::getPosX () const
{
return _Pos.x;
}
// ----------------------------------------------------------------------------
float CInterface3DFX::getPosY () const
{
return _Pos.y;
}
// ----------------------------------------------------------------------------
float CInterface3DFX::getPosZ () const
{
return _Pos.z;
}
// ----------------------------------------------------------------------------
void CInterface3DFX::setPosX (float f)
{
_Pos.x = f;
if (!_FX.empty()) _FX.setPos (_Pos);
}
// ----------------------------------------------------------------------------
void CInterface3DFX::setPosY (float f)
{
_Pos.y = f;
if (!_FX.empty()) _FX.setPos (_Pos);
}
// ----------------------------------------------------------------------------
void CInterface3DFX::setPosZ (float f)
{
_Pos.z = f;
if (!_FX.empty()) _FX.setPos (_Pos);
}
// ----------------------------------------------------------------------------
float CInterface3DFX::getRotX () const
{
return _Rot.x / ((float)(NLMISC::Pi / 180));
}
// ----------------------------------------------------------------------------
float CInterface3DFX::getRotY () const
{
return _Rot.y / ((float)(NLMISC::Pi / 180));
}
// ----------------------------------------------------------------------------
float CInterface3DFX::getRotZ () const
{
return _Rot.z / ((float)(NLMISC::Pi / 180));
}
// ----------------------------------------------------------------------------
void CInterface3DFX::setRotX (float f)
{
_Rot.x = f;
if (!_FX.empty()) _FX.setRotEuler(_Rot);
}
// ----------------------------------------------------------------------------
void CInterface3DFX::setRotY (float f)
{
_Rot.y = f;
if (!_FX.empty()) _FX.setRotEuler(_Rot);
}
// ----------------------------------------------------------------------------
void CInterface3DFX::setRotZ (float f)
{
_Rot.z = f;
if (!_FX.empty()) _FX.setRotEuler(_Rot);
}
// ----------------------------------------------------------------------------
std::string CInterface3DFX::getName() const
{
return _Name;
}
// ----------------------------------------------------------------------------
void CInterface3DFX::setName (const std::string &ht)
{
_Name = ht;
if (!_FX.empty())
setStarted (true);
}
// ----------------------------------------------------------------------------
bool CInterface3DFX::getStarted() const
{
return (!_FX.empty());
}
// ----------------------------------------------------------------------------
void CInterface3DFX::setStarted (bool b)
{
if (b == true)
{
CInterface3DScene *pI3DS = dynamic_cast(_Parent);
nlassert(pI3DS != NULL);
if (!_FX.empty())
pI3DS->getScene()->deleteInstance(_FX);
_FX.cast (pI3DS->getScene()->createInstance(_Name));
if (_FX.empty())
return;
_FX.setTransformMode(UTransformable::RotEuler);
_FX.setPos (_Pos);
_FX.setRotEuler (_Rot.x, _Rot.y, _Rot.z);
}
else
{
CInterface3DScene *pI3DS = dynamic_cast(_Parent);
nlassert(pI3DS != NULL);
if (!_FX.empty())
pI3DS->getScene()->deleteInstance(_FX);
_FX = NULL;
}
}
/* end of interface_3d_scene.cpp */