// NeL - 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 "std_afx.h" #include "nel/3d/particle_system.h" #include "object_viewer.h" #include "located_target_dlg.h" #include "collision_zone_dlg.h" #include "editable_range.h" #include "attrib_dlg.h" #include "direction_attr.h" ///////////////////////////////////////////////////////////////////////////// // CLocatedTargetDlg dialog CLocatedTargetDlg::CLocatedTargetDlg(CParticleWorkspace::CNode *ownerNode, NL3D::CPSTargetLocatedBindable *lbTarget, CParticleDlg *particleDlg) : _Node(ownerNode), _LBTarget(lbTarget), _ParticleDlg(particleDlg) { nlassert(particleDlg); //{{AFX_DATA_INIT(CLocatedTargetDlg) // NOTE: the ClassWizard will add member initialization here //}}AFX_DATA_INIT } void CLocatedTargetDlg::DoDataExchange(CDataExchange* pDX) { CDialog::DoDataExchange(pDX); //{{AFX_DATA_MAP(CLocatedTargetDlg) DDX_Control(pDX, IDC_AVAILABLE_TARGET, m_AvailableTargets); DDX_Control(pDX, IDC_TARGET, m_Targets); //}}AFX_DATA_MAP } BEGIN_MESSAGE_MAP(CLocatedTargetDlg, CDialog) //{{AFX_MSG_MAP(CLocatedTargetDlg) ON_BN_CLICKED(IDC_ADD_TARGET, OnAddTarget) ON_BN_CLICKED(IDC_REMOVE_TARGET, OnRemoveTarget) //}}AFX_MSG_MAP END_MESSAGE_MAP() ///////////////////////////////////////////////////////////////////////////// // CLocatedTargetDlg message handlers void CLocatedTargetDlg::init(CWnd* pParent) { Create(IDD_LOCATED_TARGET_DLG, pParent); ShowWindow(SW_SHOW); } void CLocatedTargetDlg::OnAddTarget() { UpdateData(); int totalCount = m_AvailableTargets.GetCount(); nlassert(totalCount); std::vector indexs; indexs.resize(totalCount); int selCount = m_AvailableTargets.GetSelItems(totalCount, &indexs[0]); std::sort(indexs.begin(), indexs.begin() + selCount); // we never know ... // check that force isn't applied on a forever lasting object if (dynamic_cast(_LBTarget)) { bool forEverLastingTarget = false; for (int k = 0; k < selCount; ++k) { NL3D::CPSLocated *loc = (NL3D::CPSLocated *) m_AvailableTargets.GetItemData(indexs[k] - k); nlassert(loc); if (loc->getLastForever()) { forEverLastingTarget = true; break; } } if (forEverLastingTarget) { CString warningStr; CString messStr; warningStr.LoadString(IDS_WARNING); messStr.LoadString(IDS_FORCE_APPLIED_ON_OBJECT_THAT_LAST_FOREVER); if (MessageBox((LPCTSTR) messStr, (LPCTSTR) warningStr, MB_OKCANCEL) != IDOK) { return; } } } // for (int k = 0; k < selCount; ++k) { NL3D::CPSLocated *loc = (NL3D::CPSLocated *) m_AvailableTargets.GetItemData(indexs[k] - k); nlassert(loc); _LBTarget->attachTarget(loc); m_AvailableTargets.DeleteString(indexs[k] - k); int l = m_Targets.AddString(utf8ToTStr(loc->getName())); m_Targets.SetItemData(l, (DWORD_PTR) loc); } UpdateData(FALSE); // updateModifiedFlag(); } void CLocatedTargetDlg::OnRemoveTarget() { UpdateData(); int totalCount = m_Targets.GetCount(); nlassert(totalCount); std::vector indexs; indexs.resize(totalCount); int selCount = m_Targets.GetSelItems(totalCount, &indexs[0]); std::sort(indexs.begin(), indexs.begin() + selCount); // we never know ... for (int k = 0; k < selCount; ++k) { NL3D::CPSLocated *loc = (NL3D::CPSLocated *) m_Targets.GetItemData(indexs[k] - k); nlassert(loc); _LBTarget->detachTarget(loc); m_Targets.DeleteString(indexs[k] - k); int l = m_AvailableTargets.AddString(utf8ToTStr(loc->getName())); m_AvailableTargets.SetItemData(l, (DWORD_PTR) loc); } UpdateData(FALSE); updateModifiedFlag(); } BOOL CLocatedTargetDlg::OnInitDialog() { CDialog::OnInitDialog(); RECT r; uint k; uint nbTarg = _LBTarget->getNbTargets(); m_Targets.InitStorage(nbTarg, 128); std::set targetSet; // fill the box thta tells us what the target are for(k = 0; k < nbTarg; ++k) { m_Targets.AddString(_LBTarget->getTarget(k)->getName().c_str() ); m_Targets.SetItemData(k, (DWORD) _LBTarget->getTarget(k) ); targetSet.insert(_LBTarget->getTarget(k)); }; // fill abox with the available targets NL3D::CParticleSystem *ps = _LBTarget->getOwner()->getOwner(); uint nbLocated = ps->getNbProcess(); m_AvailableTargets.InitStorage(nbTarg, 128); for (k = 0; k < nbLocated; ++k) { NL3D::CPSLocated *loc = dynamic_cast(ps->getProcess(k)); if (loc) { if (targetSet.find(loc) == targetSet.end()) { int l = m_AvailableTargets.AddString(loc->getName().c_str() ); m_AvailableTargets.SetItemData(l, (DWORD) loc ); } } } const sint posX = 5; sint posY = 180; // collision zone case if (dynamic_cast(_LBTarget)) { CCollisionZoneDlg *czd = new CCollisionZoneDlg(_Node, dynamic_cast(_LBTarget), _ParticleDlg); pushWnd(czd); czd->init(posX, posY, this); } // force with intensity case if (dynamic_cast(_LBTarget)) { _ForceIntensityWrapper.F = dynamic_cast(_LBTarget); CAttribDlgFloat *fi = new CAttribDlgFloat(std::string("FORCE INTENSITY"), _Node, 0, 100); pushWnd(fi); fi->setWrapper(&_ForceIntensityWrapper); fi->setSchemeWrapper(&_ForceIntensityWrapper); HBITMAP bmh = LoadBitmap(::AfxGetInstanceHandle(), MAKEINTRESOURCE(IDB_FORCE_INTENSITY)); fi->init(bmh, posX, posY, this); fi->GetClientRect(&r); posY += r.bottom + 3; } // vortex (to tune viscosity) if (dynamic_cast(_LBTarget)) { CEditableRangeFloat *rv = new CEditableRangeFloat(std::string("RADIAL_VISCOSITY"), _Node, 0, 1); pushWnd(rv); _RadialViscosityWrapper.V = dynamic_cast(_LBTarget); rv->setWrapper(&_RadialViscosityWrapper); rv->init(posX + 140, posY, this); CStatic *s = new CStatic; pushWnd(s); s->Create(_T("Radial viscosity : "), SS_LEFT, CRect(posX, posY, posX + 139, posY + 32), this); s->SetFont(CFont::FromHandle((HFONT) GetStockObject(DEFAULT_GUI_FONT))); s->ShowWindow(SW_SHOW); rv->GetClientRect(&r); posY += r.bottom + 3; CEditableRangeFloat *tv = new CEditableRangeFloat(std::string("TANGENTIAL_VISCOSITY"), _Node, 0, 1); pushWnd(tv); _TangentialViscosityWrapper.V = dynamic_cast(_LBTarget); tv->setWrapper(&_TangentialViscosityWrapper); tv->init(posX + 140, posY, this); s = new CStatic; pushWnd(s); s->Create(_T("Tangential Viscosity : "), SS_LEFT, CRect(posX, posY, posX + 139, posY + 32), this); s->ShowWindow(SW_SHOW); tv->GetClientRect(&r); posY += r.bottom + 3; } // deals with emitters that have a direction if (dynamic_cast(_LBTarget)) { CDirectionAttr *da = new CDirectionAttr(std::string("DIRECTION")); pushWnd(da); _DirectionWrapper.E = dynamic_cast(_LBTarget); da->setWrapper(&_DirectionWrapper); da->setDirectionWrapper(dynamic_cast(_LBTarget)); da->init(posX, posY, this); da->GetClientRect(&r); posY += r.bottom; } // Brownian (to tune parametric factor) if (dynamic_cast(_LBTarget)) { CEditableRangeFloat *rv = new CEditableRangeFloat(std::string("PARAMETRIC_FACTOR"), _Node, 0, 64); pushWnd(rv); _ParamFactorWrapper.F = static_cast(_LBTarget); rv->setWrapper(&_ParamFactorWrapper); rv->init(posX + 140, posY, this); CStatic *s = new CStatic; pushWnd(s); s->Create(_T("Parametric factor : "), SS_LEFT, CRect(posX, posY, posX + 139, posY + 40), this); s->SetFont(CFont::FromHandle((HFONT) GetStockObject(DEFAULT_GUI_FONT))); s->ShowWindow(SW_SHOW); rv->GetClientRect(&r); posY += r.bottom + 3; } return TRUE; // return TRUE unless you set the focus to a control // EXCEPTION: OCX Property Pages should return FALSE }