// 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 "object_viewer.h" #include "precomputed_rotations_dlg.h" #include "nel/3d/ps_particle.h" #include "nel/3d/ps_mesh.h" #include "attrib_dlg.h" ///////////////////////////////////////////////////////////////////////////// // CPrecomputedRotationsDlg dialog CPrecomputedRotationsDlg::CPrecomputedRotationsDlg(CParticleWorkspace::CNode *ownerNode, NL3D::CPSHintParticleRotateTheSame *prts, CAttribDlg *toDisable) : _Node(ownerNode), _RotatedParticle(prts), _WndToDisable(toDisable) { float minValue, maxValue; uint32 nbModels = prts->checkHintRotateTheSame(minValue, maxValue); //{{AFX_DATA_INIT(CPrecomputedRotationsDlg) m_RotSpeedMax = _T(""); m_PrecomputedRotations = nbModels ? TRUE : FALSE; m_RotSpeedMin = _T(""); m_NbModels = _T(""); //}}AFX_DATA_INIT } void CPrecomputedRotationsDlg::init(CWnd *pParent, sint x, sint y) { Create(IDD_HINT_ROTATE_THE_SAME, pParent); RECT r; GetClientRect(&r); CRect wr; wr.left = r.left + x; wr.top = r.top + y; wr.bottom = r.bottom + y; wr.right = r.right + x; MoveWindow(wr); ShowWindow(SW_SHOW); enablePrecompRotationControl(); updateFromReader(); } void CPrecomputedRotationsDlg::enablePrecompRotationControl(void) { nlassert(_RotatedParticle); UpdateData(); m_RotSpeedMinCtrl.EnableWindow(m_PrecomputedRotations); m_RotSpeedMaxCtrl.EnableWindow(m_PrecomputedRotations); m_NbModelsCtrl.EnableWindow(m_PrecomputedRotations); GetDlgItem(IDC_UPDATE_MIN_ROT_SPEED)->EnableWindow(m_PrecomputedRotations); GetDlgItem(IDC_UPDATE_MAX_ROT_SPEED)->EnableWindow(m_PrecomputedRotations); GetDlgItem(IDC_UPDATE_NB_MODELS)->EnableWindow(m_PrecomputedRotations); UpdateData(FALSE); } void CPrecomputedRotationsDlg::updateFromReader(void) { UpdateData(); if (m_PrecomputedRotations) { char out[256]; float minVelocity, maxVelocity; sprintf(out, "%d", _RotatedParticle->checkHintRotateTheSame(minVelocity, maxVelocity)); m_NbModels = out; sprintf(out, "%g", minVelocity); m_RotSpeedMin = out; sprintf(out, "%g", maxVelocity); m_RotSpeedMax = out; } else { m_NbModels.Empty(); m_RotSpeedMin.Empty(); m_RotSpeedMax.Empty(); } UpdateData(FALSE); } void CPrecomputedRotationsDlg::DoDataExchange(CDataExchange* pDX) { CDialog::DoDataExchange(pDX); //{{AFX_DATA_MAP(CPrecomputedRotationsDlg) DDX_Control(pDX, IDC_ROT_SPEED_MIN, m_RotSpeedMinCtrl); DDX_Control(pDX, IDC_NB_MODELS, m_NbModelsCtrl); DDX_Control(pDX, IDC_ROT_SPEED_MAX, m_RotSpeedMaxCtrl); DDX_Text(pDX, IDC_ROT_SPEED_MAX, m_RotSpeedMax); DDX_Check(pDX, IDC_HINT_PRECOMPUTED_ROTATIONS, m_PrecomputedRotations); DDX_Text(pDX, IDC_ROT_SPEED_MIN, m_RotSpeedMin); DDX_Text(pDX, IDC_NB_MODELS, m_NbModels); //}}AFX_DATA_MAP } BEGIN_MESSAGE_MAP(CPrecomputedRotationsDlg, CDialog) //{{AFX_MSG_MAP(CPrecomputedRotationsDlg) ON_BN_CLICKED(IDC_UPDATE_MIN_ROT_SPEED, OnUpdateMinRotSpeed) ON_BN_CLICKED(IDC_UPDATE_MAX_ROT_SPEED, OnUpdateMaxRotSpeed) ON_BN_CLICKED(IDC_UPDATE_NB_MODELS, OnUpdateNbModels) ON_BN_CLICKED(IDC_HINT_PRECOMPUTED_ROTATIONS, OnHintPrecomputedRotations) //}}AFX_MSG_MAP END_MESSAGE_MAP() ///////////////////////////////////////////////////////////////////////////// // CPrecomputedRotationsDlg message handlers void CPrecomputedRotationsDlg::OnUpdateMinRotSpeed() { nlassert(_RotatedParticle); UpdateData(); float newValue, valueMin, valueMax; if (NLMISC::fromString(NLMISC::tStrToUtf8(m_RotSpeedMin), newValue)) { uint32 nbModels = _RotatedParticle->checkHintRotateTheSame(valueMin, valueMax); valueMin = newValue; _RotatedParticle->hintRotateTheSame(nbModels, valueMin, valueMax); updateModifiedFlag(); } else { MessageBox(_T("invalid value !!")); } UpdateData(FALSE); updateModifiedFlag(); } void CPrecomputedRotationsDlg::OnUpdateMaxRotSpeed() { nlassert(_RotatedParticle); UpdateData(); float newValue, valueMin, valueMax; if (NLMISC::fromString(NLMISC::tStrToUtf8(m_RotSpeedMax), newValue)) { uint32 nbModels = _RotatedParticle->checkHintRotateTheSame(valueMin, valueMax); valueMax = newValue; _RotatedParticle->hintRotateTheSame(nbModels, valueMin, valueMax); updateModifiedFlag(); } else { MessageBox(_T("invalid value !!")); } UpdateData(FALSE); updateModifiedFlag(); } void CPrecomputedRotationsDlg::OnUpdateNbModels() { nlassert(_RotatedParticle); UpdateData(); float valueMin, valueMax; sint32 newNbModels; bool valid = (NLMISC::fromString(NLMISC::tStrToUtf8(m_NbModels), newNbModels) && newNbModels > 0); if (dynamic_cast(_RotatedParticle)) { valid &= (newNbModels < NL3D::ConstraintMeshMaxNumPrerotatedModels); } if (valid) { _RotatedParticle->checkHintRotateTheSame(valueMin, valueMax); _RotatedParticle->hintRotateTheSame((uint32) newNbModels, valueMin, valueMax); updateModifiedFlag(); } else { MessageBox(_T("invalid value !!")); } UpdateData(FALSE); updateModifiedFlag(); } void CPrecomputedRotationsDlg::OnHintPrecomputedRotations() { nlassert(_RotatedParticle); UpdateData(); if (_WndToDisable) { _WndToDisable->EnableWindow(!m_PrecomputedRotations); } if (m_PrecomputedRotations) { _RotatedParticle->hintRotateTheSame(32); updateModifiedFlag(); } else { _RotatedParticle->disableHintRotateTheSame(); updateModifiedFlag(); } enablePrecompRotationControl(); updateFromReader(); UpdateData(FALSE); }