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// NeL - MMORPG Framework <http://dev.ryzom.com/projects/nel/>
// 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 <http://www.gnu.org/licenses/>.
# include "std_afx.h"
# undef OBJECT_VIEWER_EXPORT
# define OBJECT_VIEWER_EXPORT __declspec( dllexport )
# include <vector>
# include "object_viewer.h"
# include "nel/3d/nelu.h"
# include "nel/3d/mesh.h"
# include "nel/3d/mesh_mrm.h"
# include "nel/3d/mesh_mrm_skinned.h"
# include "nel/3d/transform_shape.h"
# include "nel/3d/mesh_instance.h"
# include "nel/3d/text_context.h"
# include "nel/3d/skeleton_model.h"
# include "nel/3d/init_3d.h"
# include "nel/3d/scene_group.h"
# include "nel/3d/animation_playlist.h"
# include "nel/3d/track_keyframer.h"
# include "nel/3d/font_generator.h"
# include "nel/3d/register_3d.h"
# include "nel/3d/seg_remanence.h"
# include "nel/misc/common.h"
# include "nel/misc/file.h"
# include "nel/misc/path.h"
# include "nel/misc/time_nl.h"
# include "nel/misc/config_file.h"
# include "nel/sound/u_audio_mixer.h"
# include "nel/3d/water_pool_manager.h"
# include "nel/3d/landscape_model.h"
# include "nel/3d/visual_collision_manager.h"
# include "nel/3d/visual_collision_entity.h"
# include "nel/3d/ps_util.h"
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# include "nel/pacs/global_retriever.h"
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# include "select_movie_size.h"
# include "editable_range.h"
# include "range_manager.h"
# include "located_properties.h"
# include "color_button.h"
# include "particle_dlg.h"
# include "resource.h"
# include "main_frame.h"
# include "sound_system.h"
# include "scheme_manager.h"
# include "day_night_dlg.h"
# include "water_pool_editor.h"
# include "vegetable_dlg.h"
# include "dialog_progress.h"
# include "select_string.h"
# include "global_wind_dlg.h"
# include "sound_anim_dlg.h"
# include "light_group_factor.h"
# include "choose_bg_color_dlg.h"
# include "choose_sun_color_dlg.h"
# include "choose_frame_delay.h"
# include "skeleton_scale_dlg.h"
# include "graph.h"
# include "tune_mrm_dlg.h"
using namespace std ;
using namespace NL3D ;
using namespace NLMISC ;
using namespace NLSOUND ;
using namespace NLPACS ;
static char SDrive [ 256 ] ;
static char SDir [ 256 ] ;
uint SkeletonUsedForSound = 0xFFFFFFFF ;
CSoundContext SoundContext ;
//
// Note!
//
// If this DLL is dynamically linked against the MFC
// DLLs, any functions exported from this DLL which
// call into MFC must have the AFX_MANAGE_STATE macro
// added at the very beginning of the function.
//
// For example:
//
// extern "C" BOOL PASCAL EXPORT ExportedFunction()
// {
// AFX_MANAGE_STATE(AfxGetStaticModuleState());
// // normal function body here
// }
//
// It is very important that this macro appear in each
// function, prior to any calls into MFC. This means that
// it must appear as the first statement within the
// function, even before any object variable declarations
// as their constructors may generate calls into the MFC
// DLL.
//
// Please see MFC Technical Notes 33 and 58 for additional
// details.
//
/////////////////////////////////////////////////////////////////////////////
// CObject_viewerApp
BEGIN_MESSAGE_MAP ( CObject_viewerApp , CWinApp )
//{{AFX_MSG_MAP(CObject_viewerApp)
//}}AFX_MSG_MAP
END_MESSAGE_MAP ( )
/////////////////////////////////////////////////////////////////////////////
// CObject_viewerApp construction
CObject_viewerApp : : CObject_viewerApp ( )
{
// TODO: add construction code here,
// Place all significant initialization in InitInstance
}
/////////////////////////////////////////////////////////////////////////////
// The one and only CObject_viewerApp object
CObject_viewerApp theApp ;
bool CObjectViewer : : _InstanceRunning = false ;
// ***************************************************************************
class CObjView : public CView
{
public :
CObjView ( )
{
MainFrame = NULL ;
} ;
virtual ~ CObjView ( ) { }
virtual void OnDraw ( CDC * ) { }
afx_msg BOOL OnEraseBkgnd ( CDC * pDC )
{
return FALSE ;
}
virtual LRESULT WindowProc ( UINT message , WPARAM wParam , LPARAM lParam )
{
if ( ( CNELU : : Driver ) & & MainFrame )
MainFrame - > DriverWindowProc ( CNELU : : Driver , m_hWnd , message , wParam , lParam ) ;
return CView : : WindowProc ( message , wParam , lParam ) ;
}
DECLARE_DYNCREATE ( CObjView )
CMainFrame * MainFrame ;
} ;
// ***************************************************************************
IMPLEMENT_DYNCREATE ( CObjView , CView )
// ***************************************************************************
void animateCNELUScene ( CCloudScape * cs , uint64 deltaTime = 0 )
{
if ( ! cs ) return ;
static sint64 firstTime = NLMISC : : CTime : : getLocalTime ( ) ;
static sint64 lastTime = NLMISC : : CTime : : getLocalTime ( ) ;
if ( deltaTime = = 0 )
{
deltaTime = NLMISC : : CTime : : getLocalTime ( ) - lastTime ;
}
lastTime + = deltaTime ;
float fdelta = 0.001f * ( float ) ( lastTime - firstTime ) ;
CNELU : : Scene - > animate ( fdelta ) ;
cs - > anim ( fdelta , CNELU : : Scene - > getCam ( ) ) ;
}
// ***************************************************************************
CObjectViewer : : CObjectViewer ( )
{
AFX_MANAGE_STATE ( AfxGetStaticModuleState ( ) ) ;
_SceneRoot = NULL ;
init3d ( ) ;
// vl: is it really useful? i moved it from ov.exe init
CScene : : registerBasics ( ) ;
registerSerial3d ( ) ;
_MainFrame = NULL ;
_SlotDlg = NULL ;
_AnimationSetDlg = NULL ;
_AnimationDlg = NULL ;
_ParticleDlg = NULL ;
_FontGenerator = NULL ;
_VegetableLandscape = NULL ;
_VegetableCollisionManager = NULL ;
_VegetableCollisionEntity = NULL ;
_CameraFocal = 75.f ; // default value for the focal
_SelectedObject = 0xffffffff ;
_LightGroupDlg = NULL ;
_ChooseFrameDelayDlg = NULL ;
_ChooseBGColorDlg = NULL ;
_DayNightDlg = NULL ;
_WaterPoolDlg = NULL ;
_SoundAnimDlg = NULL ;
_VegetableDlg = NULL ;
_GlobalWindDlg = NULL ;
_SkeletonScaleDlg = NULL ;
_TuneMRMDlg = NULL ;
// no frame delay is the default
_FrameDelay = 0 ;
// Hotspot color
_HotSpotColor . R = 255 ;
_HotSpotColor . G = 255 ;
_HotSpotColor . B = 0 ;
_HotSpotColor . A = 255 ;
_BackGroundColor = CRGBA : : Black ;
// Hotspot size
_HotSpotSize = 10.f ;
_Wpm = & NL3D : : GetWaterPoolManager ( ) ;
_GlobalRetriever = NULL ;
_ObjectLightTest = NULL ;
_CharacterScalePos = 1 ;
_CurrentCamera = - 1 ;
_Direct3d = false ;
_Fog = false ;
_FogStart = 0 ;
_FogEnd = 1 ;
_FogColor = NLMISC : : CRGBA : : Black ;
_FXUserMatrix . identity ( ) ;
_FXMatrixVisible = false ;
_FXUserMatrixVisible = false ;
_SceneMatrixVisible = false ;
_OcclusionTestMeshsVisible = false ;
_CS = NULL ;
}
// ***************************************************************************
std : : string CObjectViewer : : getModulePath ( ) const
{
// Get the configuration file path (located in same directory as module)
HMODULE hModule = AfxGetInstanceHandle ( ) ;
nlassert ( hModule ) ; // shouldn't be null now anymore in any case
nlassert ( hModule ! = GetModuleHandle ( NULL ) ) ; // if this is dll, the module handle can't be same as exe
char sModulePath [ 256 ] ;
int res = GetModuleFileName ( hModule , sModulePath , 256 ) ; nlassert ( res ) ;
nldebug ( " Object viewer module path is '%s' " , sModulePath ) ;
_splitpath ( sModulePath , SDrive , SDir , NULL , NULL ) ;
_makepath ( sModulePath , SDrive , SDir , " object_viewer " , " .cfg " ) ;
return sModulePath ;
}
// ***************************************************************************
void CObjectViewer : : loadDriverName ( )
{
// Load the config file
CConfigFile cf ;
cf . load ( getModulePath ( ) ) ;
CConfigFile : : CVar * var = cf . getVarPtr ( " driver " ) ;
_Direct3d = var & & ( var - > asString ( ) = = " direct3d " ) ;
}
// ***************************************************************************
void CObjectViewer : : loadConfigFile ( )
{
// Load object_viewer.ini
try
{
// Load the config file
CConfigFile cf ;
cf . load ( getModulePath ( ) ) ;
try
{
// Add search pathes
CConfigFile : : CVar & search_pathes = cf . getVar ( " search_pathes " ) ;
for ( uint i = 0 ; i < ( uint ) search_pathes . size ( ) ; i + + )
CPath : : addSearchPath ( search_pathes . asString ( i ) ) ;
}
catch ( EUnknownVar & )
{ }
try
{
// Add recusrive search pathes
CConfigFile : : CVar & recursive_search_pathes = cf . getVar ( " recursive_search_pathes " ) ;
for ( uint i = 0 ; i < ( uint ) recursive_search_pathes . size ( ) ; i + + )
CPath : : addSearchPath ( recursive_search_pathes . asString ( i ) , true , false ) ;
}
catch ( EUnknownVar & )
{ }
// Add extension remapping
try
{
CConfigFile : : CVar & extensions_remapping = cf . getVar ( " extensions_remapping " ) ;
if ( extensions_remapping . size ( ) % 2 ! = 0 )
{
nlwarning ( " extensions_remapping must have a multiple of 2 entries (ex: extensions_remapping={ \" dds \" , \" tga \" };) " ) ;
}
else
{
for ( uint i = 0 ; i < ( uint ) extensions_remapping . size ( ) ; i + = 2 )
CPath : : remapExtension ( extensions_remapping . asString ( i ) , extensions_remapping . asString ( i + 1 ) , true ) ;
}
}
catch ( EUnknownVar & )
{
}
// debug, display path
//CPath::display();
// set the sound banks and sample banks
try
{
/* CConfigFile::CVar &var = cf.getVar("sound_path");
string soundPath = var . asString ( ) ;
var = cf . getVar ( " soundbanks " ) ;
for ( uint i = 0 ; i < ( uint ) var . size ( ) ; i + + )
{
string dir = soundPath ;
dir . append ( " / " ) . append ( var . asString ( i ) . c_str ( ) ) ;
CSoundSystem : : addSoundBank ( dir ) ;
}
*/
{
CConfigFile : : CVar & var = cf . getVar ( " sample_path " ) ;
string samplePath ( var . asString ( ) ) ;
CSoundSystem : : setSamplePath ( samplePath ) ;
}
{
CConfigFile : : CVar & var = cf . getVar ( " packed_sheet_path " ) ;
string packedSheetPath ( var . asString ( ) ) ;
CSoundSystem : : setPackedSheetPath ( packedSheetPath ) ;
}
/*CConfigFile::CVar var = cf.getVar("samplebanks");
for ( uint i = 0 ; i < ( uint ) var . size ( ) ; i + + )
CSoundSystem : : addSampleBank ( var . asString ( i ) . c_str ( ) ) ; */
}
catch ( EUnknownVar & )
{
//::MessageBox(NULL, "warning : 'sample_path' or 'packed_sheet_path' variable not defined.\nSound will not work properly.", "Objectviewer.cfg", MB_OK|MB_ICONEXCLAMATION);
}
// load the camera focal
try
{
CConfigFile : : CVar & camera_focal = cf . getVar ( " camera_focal " ) ;
_CameraFocal = camera_focal . asFloat ( ) ;
}
catch ( EUnknownVar & )
{
}
// load Scene light setup.
try
{
CConfigFile : : CVar & var = cf . getVar ( " scene_light_enabled " ) ;
_SceneLightEnabled = var . asInt ( ) ! = 0 ;
}
catch ( EUnknownVar & )
{
_SceneLightEnabled = false ;
}
try
{
CConfigFile : : CVar & var = cf . getVar ( " scene_light_sun_ambiant " ) ;
_SceneLightSunAmbiant . R = var . asInt ( 0 ) ;
_SceneLightSunAmbiant . G = var . asInt ( 1 ) ;
_SceneLightSunAmbiant . B = var . asInt ( 2 ) ;
}
catch ( EUnknownVar & )
{
_SceneLightSunAmbiant = NLMISC : : CRGBA : : Black ;
}
try
{
CConfigFile : : CVar & var = cf . getVar ( " scene_light_sun_diffuse " ) ;
_SceneLightSunDiffuse . R = var . asInt ( 0 ) ;
_SceneLightSunDiffuse . G = var . asInt ( 1 ) ;
_SceneLightSunDiffuse . B = var . asInt ( 2 ) ;
}
catch ( EUnknownVar & )
{
_SceneLightSunDiffuse = NLMISC : : CRGBA : : White ;
}
try
{
CConfigFile : : CVar & var = cf . getVar ( " scene_light_sun_specular " ) ;
_SceneLightSunSpecular . R = var . asInt ( 0 ) ;
_SceneLightSunSpecular . G = var . asInt ( 1 ) ;
_SceneLightSunSpecular . B = var . asInt ( 2 ) ;
}
catch ( EUnknownVar & )
{
_SceneLightSunSpecular = NLMISC : : CRGBA : : White ;
}
try
{
CConfigFile : : CVar & var = cf . getVar ( " scene_light_sun_dir " ) ;
_SceneLightSunDir . x = var . asFloat ( 0 ) ;
_SceneLightSunDir . y = var . asFloat ( 1 ) ;
_SceneLightSunDir . z = var . asFloat ( 2 ) ;
_SceneLightSunDir . normalize ( ) ;
}
catch ( EUnknownVar & )
{
_SceneLightSunDir . set ( 0 , 1 , - 1 ) ;
_SceneLightSunDir . normalize ( ) ;
}
try
{
CConfigFile : : CVar & var = cf . getVar ( " object_light_test " ) ;
_ObjectLightTestShape = var . asString ( ) ;
}
catch ( EUnknownVar & )
{
}
// Load vegetable Landscape cfg.
loadVegetableLandscapeCfg ( cf ) ;
// load automatfic animations
try
{
CConfigFile : : CVar & var = cf . getVar ( " automatic_animation_path " ) ;
std : : auto_ptr < CAnimationSet > as ( new CAnimationSet ) ;
//
bool loadingOk = as - > loadFromFiles ( var . asString ( ) , true , " anim " , true ) ;
//
if ( ! loadingOk )
{
//::MessageBox(NULL, "Warning : Unable to load all automatic animation", "Error", MB_OK | MB_ICONEXCLAMATION);
nlwarning ( " Unable to load all automatic animation " ) ;
}
CNELU : : Scene - > setAutomaticAnimationSet ( as . release ( ) ) ;
}
catch ( EUnknownVar & )
{
//::MessageBox(NULL, "No automatic animation path specified, please set 'automatic_animation_path'", "warning", MB_OK);
nlwarning ( " No automatic animation path specified " ) ;
}
// load CharacterScalePos
try
{
CConfigFile : : CVar & var = cf . getVar ( " character_scale_pos " ) ;
_CharacterScalePos = var . asFloat ( ) ;
}
catch ( EUnknownVar & )
{
}
// Fog
CConfigFile : : CVar * var = cf . getVarPtr ( " fog " ) ;
if ( var )
_Fog = var - > asInt ( ) ! = 0 ;
var = cf . getVarPtr ( " fog_start " ) ;
if ( var )
_FogStart = var - > asFloat ( ) ;
var = cf . getVarPtr ( " fog_end " ) ;
if ( var )
_FogEnd = var - > asFloat ( ) ;
var = cf . getVarPtr ( " fog_color " ) ;
if ( var )
_FogColor = CRGBA ( ( uint8 ) ( var - > asInt ( 0 ) ) , ( uint8 ) ( var - > asInt ( 1 ) ) , ( uint8 ) ( var - > asInt ( 2 ) ) ) ;
// Clouds
_CSS . NbCloud = 0 ;
if ( var = cf . getVarPtr ( " cloud_count " ) )
_CSS . NbCloud = var - > asInt ( ) ;
if ( var = cf . getVarPtr ( " cloud_diffuse " ) )
{
_CSS . Diffuse . R = var - > asInt ( 0 ) ;
_CSS . Diffuse . G = var - > asInt ( 1 ) ;
_CSS . Diffuse . B = var - > asInt ( 2 ) ;
}
if ( var = cf . getVarPtr ( " cloud_ambient " ) )
{
_CSS . Ambient . R = var - > asInt ( 0 ) ;
_CSS . Ambient . G = var - > asInt ( 1 ) ;
_CSS . Ambient . B = var - > asInt ( 2 ) ;
}
if ( var = cf . getVarPtr ( " cloud_speed " ) )
_CSS . CloudSpeed = var - > asFloat ( ) ;
if ( var = cf . getVarPtr ( " cloud_update_period " ) )
_CSS . TimeToChange = var - > asFloat ( ) ;
if ( var = cf . getVarPtr ( " cloud_wind_speed " ) )
_CSS . WindSpeed = var - > asFloat ( ) ;
}
catch ( Exception & e )
{
: : MessageBox ( NULL , e . what ( ) , " Objectviewer.cfg " , MB_OK | MB_ICONEXCLAMATION ) ;
}
}
// ***************************************************************************
// properly remove a single window
static void removeWindow ( CWnd * wnd )
{
if ( ! wnd ) return ;
wnd - > DestroyWindow ( ) ;
delete wnd ;
}
// ***************************************************************************
CObjectViewer : : ~ CObjectViewer ( )
{
AFX_MANAGE_STATE ( AfxGetStaticModuleState ( ) ) ;
removeWindow ( _MainFrame ) ;
removeWindow ( _SlotDlg ) ;
removeWindow ( _AnimationSetDlg ) ;
removeWindow ( _AnimationDlg ) ;
removeWindow ( _DayNightDlg ) ;
removeWindow ( _WaterPoolDlg ) ;
removeWindow ( _SoundAnimDlg ) ;
removeWindow ( _LightGroupDlg ) ;
removeWindow ( _ChooseBGColorDlg ) ;
removeWindow ( _VegetableDlg ) ;
removeWindow ( _GlobalWindDlg ) ;
removeWindow ( _SkeletonScaleDlg ) ;
removeWindow ( _TuneMRMDlg ) ;
delete _FontGenerator ;
}
// ***************************************************************************
void CObjectViewer : : initCamera ( )
{
// Camera
CFrustum frustrum ;
uint32 width , height ;
CNELU : : Driver - > getWindowSize ( width , height ) ;
frustrum . initPerspective ( _CameraFocal * ( float ) Pi / 180.f , height ! = 0 ? ( float ) width / ( float ) height : 0.f , 0.1f , 1000.f ) ;
CNELU : : Camera - > setFrustum ( frustrum ) ;
// Others camera
uint i ;
for ( i = 0 ; i < _Cameras . size ( ) ; i + + )
{
frustrum . initPerspective ( _ListInstance [ _Cameras [ i ] ] - > Camera - > getFov ( ) , height ! = 0 ? ( float ) width / ( float ) height : 0.f , 0.1f , 1000.f ) ;
_ListInstance [ _Cameras [ i ] ] - > Camera - > setFrustum ( frustrum ) ;
}
}
// ***************************************************************************
bool CObjectViewer : : initUI ( HWND parent )
{
AFX_MANAGE_STATE ( AfxGetStaticModuleState ( ) ) ;
// initialize NeL context if needed
if ( ! NLMISC : : INelContext : : isContextInitialised ( ) )
new NLMISC : : CApplicationContext ;
// The fonts manager
_FontManager . setMaxMemory ( 2000000 ) ;
// The windows path
uint dSize = : : GetWindowsDirectory ( NULL , 0 ) ;
nlverify ( dSize ) ;
char * wd = new char [ dSize ] ;
nlverify ( : : GetWindowsDirectory ( wd , dSize ) ) ;
_FontPath = wd ;
_FontPath + = " \\ fonts \\ arial.ttf " ;
// The font generator
_FontGenerator = new NL3D : : CFontGenerator ( _FontPath ) ;
delete [ ] wd ;
// The viewport
CViewport viewport ;
// Create the icon
HICON hIcon = ( HICON ) LoadImage ( theApp . m_hInstance , MAKEINTRESOURCE ( IDI_APP_ICON ) , IMAGE_ICON ,
16 , 16 , 0 ) ;
// load name of the driver from the config file
loadDriverName ( ) ;
// Create a doomy driver
IDriver * driver = _Direct3d ? CDRU : : createD3DDriver ( ) : CDRU : : createGlDriver ( ) ;
// Get parent window
CWnd parentWnd ;
CWnd * parentWndPtr = NULL ;
if ( parent )
{
parentWnd . Attach ( parent ) ;
parentWndPtr = & parentWnd ;
}
// Create the main frame
_MainFrame = new CMainFrame ( this , ( winProc ) driver - > getWindowProc ( ) ) ;
// Read register
_MainFrame - > registerValue ( true ) ;
// Create the window
_MainFrame - > CFrameWnd : : Create ( AfxRegisterWndClass ( 0 , 0 , NULL , hIcon ) ,
" NeL object viewer " , 0x00cfc000 , /*WS_OVERLAPPEDWINDOW,*/ CFrameWnd : : rectDefault , parentWndPtr ,
MAKEINTRESOURCE ( IDR_OBJECT_VIEWER_MENU ) , 0x00000300 /*WS_EX_ACCEPTFILES*/ /*|WS_EX_CLIENTEDGE*/ ) ;
// Detach the hwnd
parentWnd . Detach ( ) ;
// Delete doomy driver
delete driver ;
// Create a cwnd
getRegisterWindowState ( _MainFrame , REGKEY_OBJ_VIEW_OPENGL_WND , true ) ;
_MainFrame - > ActivateFrame ( ) ;
_MainFrame - > ShowWindow ( SW_SHOW ) ;
_MainFrame - > UpdateWindow ( ) ;
// Context to open a view
CCreateContext context ;
context . m_pCurrentDoc = NULL ;
context . m_pCurrentFrame = _MainFrame ;
context . m_pLastView = NULL ;
context . m_pNewDocTemplate = NULL ;
context . m_pNewViewClass = RUNTIME_CLASS ( CObjView ) ;
// Create a view
CObjView * view = ( CObjView * ) _MainFrame - > CreateView ( & context ) ;
view - > ShowWindow ( SW_SHOW ) ;
_MainFrame - > SetActiveView ( view ) ;
view = ( CObjView * ) _MainFrame - > GetActiveView ( ) ;
view - > MainFrame = _MainFrame ;
_MainFrame - > ShowWindow ( SW_SHOW ) ;
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RECT viewportRect ;
GetClientRect ( view - > m_hWnd , & viewportRect ) ;
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// Init NELU
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if ( ! CNELU : : init ( viewportRect . right , viewportRect . bottom , viewport , 32 , true , view - > m_hWnd , false , _Direct3d ) )
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{
return false ;
}
//CNELU::init (640, 480, viewport, 32, true, _MainFrame->m_hWnd);
CNELU : : Scene - > setPolygonBalancingMode ( CScene : : PolygonBalancingClamp ) ;
// load the config file
loadConfigFile ( ) ;
// Set the fog
CNELU : : Driver - > enableFog ( _Fog ) ;
CNELU : : Driver - > setupFog ( _FogStart , _FogEnd , _FogColor ) ;
// init sound
CSoundSystem : : initSoundSystem ( ) ;
// Create a root.
_SceneRoot = ( CTransform * ) CNELU : : Scene - > createModel ( NL3D : : TransformId ) ;
// Init default lighting seutp.
setupSceneLightingSystem ( _SceneLightEnabled , _SceneLightSunDir , _SceneLightSunAmbiant , _SceneLightSunDiffuse , _SceneLightSunSpecular ) ;
// Camera
initCamera ( ) ;
_MainFrame - > OnResetCamera ( ) ;
// Create animation set dialog
_AnimationSetDlg = new CAnimationSetDlg ( this , _MainFrame ) ;
_AnimationSetDlg - > Create ( IDD_ANIMATION_SET ) ;
getRegisterWindowState ( _AnimationSetDlg , REGKEY_OBJ_VIEW_ANIMATION_SET_DLG , false ) ;
// Create animation set dialog
_AnimationDlg = new CAnimationDlg ( this , _MainFrame ) ;
_AnimationDlg - > Create ( IDD_ANIMATION ) ;
getRegisterWindowState ( _AnimationDlg , REGKEY_OBJ_VIEW_ANIMATION_DLG , false ) ;
// Create the main dialog
_SlotDlg = new CMainDlg ( this , _MainFrame ) ;
_SlotDlg - > Create ( IDD_MAIN_DLG ) ;
getRegisterWindowState ( _SlotDlg , REGKEY_OBJ_VIEW_SLOT_DLG , false ) ;
// Create particle dialog
_ParticleDlg = new CParticleDlg ( this , _MainFrame , _MainFrame , _AnimationDlg ) ;
_ParticleDlg - > Create ( IDD_PARTICLE ) ;
getRegisterWindowState ( _ParticleDlg , REGKEY_OBJ_PARTICLE_DLG , false ) ;
// Create water pool editor dialog
_WaterPoolDlg = new CWaterPoolEditor ( _Wpm , _MainFrame ) ;
_WaterPoolDlg - > Create ( IDD_WATER_POOL ) ;
getRegisterWindowState ( _WaterPoolDlg , REGKEY_OBJ_WATERPOOL_DLG , false ) ;
// Create day night dialog
_DayNightDlg = new CDayNightDlg ( this , _MainFrame ) ;
_DayNightDlg - > Create ( IDD_DAYNIGHT ) ;
getRegisterWindowState ( _DayNightDlg , REGKEY_OBJ_DAYNIGHT_DLG , false ) ;
// Create vegetable dialog
_VegetableDlg = new CVegetableDlg ( this , _MainFrame ) ;
_VegetableDlg - > Create ( IDD_VEGETABLE_DLG ) ;
getRegisterWindowState ( _VegetableDlg , REGKEY_OBJ_VIEW_VEGETABLE_DLG , false ) ;
// Create global wind dialog
_GlobalWindDlg = new CGlobalWindDlg ( this , _MainFrame ) ;
_GlobalWindDlg - > Create ( IDD_GLOBAL_WIND ) ;
getRegisterWindowState ( _GlobalWindDlg , REGKEY_OBJ_GLOBAL_WIND_DLG , false ) ;
// Create sound animation editor dialog
_SoundAnimDlg = new CSoundAnimDlg ( this , _AnimationDlg , _MainFrame ) ;
_SoundAnimDlg - > Create ( IDD_SOUND_ANIM_DLG , _MainFrame ) ;
getRegisterWindowState ( _SoundAnimDlg , REGKEY_OBJ_SOUND_ANIM_DLG , false ) ;
// Create light group editor dialog
_LightGroupDlg = new CLightGroupFactor ( _MainFrame ) ;
_LightGroupDlg - > Create ( IDD_LIGHT_GROUP_FACTOR , _MainFrame ) ;
getRegisterWindowState ( _LightGroupDlg , REGKEY_OBJ_LIGHT_GROUP_DLG , false ) ;
// Create frame delay window
_ChooseFrameDelayDlg = new CChooseFrameDelay ( this , _MainFrame ) ;
_ChooseFrameDelayDlg - > Create ( IDD_CHOOSE_FRAME_DELAY , _MainFrame ) ;
getRegisterWindowState ( _ChooseFrameDelayDlg , REGKEY_CHOOSE_FRAME_DELAY_DLG , false ) ;
// Set backgroupnd color
setBackGroundColor ( _MainFrame - > BgColor ) ;
// Create bg color window (must create after the background color has been set)
_ChooseBGColorDlg = new CChooseBGColorDlg ( this , _MainFrame ) ;
_ChooseBGColorDlg - > Create ( IDD_CHOOSE_BG_COLOR , _MainFrame ) ;
getRegisterWindowState ( _ChooseBGColorDlg , REGKEY_CHOOSE_BG_COLOR_DLG , false ) ;
// Create bg color window (must create after the background color has been set)
_ChooseSunColorDlg = new CChooseSunColorDlg ( CNELU : : Scene , _MainFrame ) ;
_ChooseSunColorDlg - > Create ( IDD_CHOOSE_SUN_COLOR , _MainFrame ) ;
getRegisterWindowState ( _ChooseSunColorDlg , REGKEY_CHOOSE_SUN_COLOR_DLG , false ) ;
// Create skeleton scale dlg
_SkeletonScaleDlg = new CSkeletonScaleDlg ( this , _MainFrame ) ;
_SkeletonScaleDlg - > Create ( IDD_SKELETON_SCALE_DLG , _MainFrame ) ;
getRegisterWindowState ( _SkeletonScaleDlg , REGKEY_SKELETON_SCALE_DLG , false ) ;
// Create tune mrm dlg
_TuneMRMDlg = new CTuneMrmDlg ( this , CNELU : : Scene , _MainFrame ) ;
_TuneMRMDlg - > Create ( IDD_TUNE_MRM_DLG , _MainFrame ) ;
getRegisterWindowState ( _TuneMRMDlg , REGKEY_TUNE_MRM_DLG , false ) ;
_MainFrame - > update ( ) ;
// Set current frame
setAnimTime ( 0.f , 100.f ) ;
// Add mouse listener to event server
_MouseListener . addToServer ( CNELU : : EventServer ) ;
CNELU : : Driver - > activate ( ) ;
// Enable sum of vram
CNELU : : Driver - > enableUsedTextureMemorySum ( ) ;
char sModulePath [ 256 ] ;
// load the scheme bank if one is present
CIFile iF ;
: : _makepath ( sModulePath , SDrive , SDir , " default " , " .scb " ) ;
if ( iF . open ( sModulePath ) )
{
try
{
iF . serial ( SchemeManager ) ;
}
catch ( NLMISC : : EStream & e )
{
: : MessageBox ( NULL , ( " Unable to load the default scheme bank file : " + std : : string ( e . what ( ) ) ) . c_str ( ) , " Object Viewer " , MB_ICONEXCLAMATION ) ;
}
}
iF . close ( ) ;
// try to load a default config file for the viewer (for anitmation and particle edition setup)
: : _makepath ( sModulePath , SDrive , SDir , " default " , " .ovcgf " ) ;
if ( iF . open ( sModulePath ) )
{
try
{
serial ( iF ) ;
}
catch ( Exception & e )
{
: : MessageBox ( NULL , ( std : : string ( " error while loading default.ovcgf : " ) + e . what ( ) ) . c_str ( ) , " NeL object viewer " , MB_OK | MB_ICONEXCLAMATION ) ;
}
}
// Create the cloud scape
_CS = new CCloudScape ( CNELU : : Driver ) ;
_CS - > init ( & _CSS ) ;
return true ;
}
// ***************************************************************************
void CObjectViewer : : addTransformation ( CMatrix & current , CAnimation * anim , float begin , float end , ITrack * posTrack , ITrack * rotquatTrack ,
ITrack * nextPosTrack , ITrack * nextRotquatTrack , bool removeLast )
{
// In place ?
if ( _AnimationDlg - > Inplace )
{
// Just identity
current . identity ( ) ;
}
else
{
// Remove the start of the animation
CQuat rotEnd ( 0 , 0 , 0 , 1 ) ;
CVector posEnd ( 0 , 0 , 0 ) ;
if ( rotquatTrack )
{
// Interpolate the rotation
rotquatTrack - > interpolate ( end , rotEnd ) ;
}
if ( posTrack )
{
// Interpolate the position
posTrack - > interpolate ( end , posEnd ) ;
}
// Add the final rotation and position
CMatrix tmp ;
tmp . identity ( ) ;
tmp . setRot ( rotEnd ) ;
tmp . setPos ( posEnd ) ;
// Incremental ?
if ( _AnimationDlg - > IncPos )
current * = tmp ;
else
current = tmp ;
if ( removeLast )
{
CQuat rotStart ( 0 , 0 , 0 , 1 ) ;
CVector posStart ( 0 , 0 , 0 ) ;
if ( nextRotquatTrack )
{
// Interpolate the rotation
nextRotquatTrack - > interpolate ( begin , rotStart ) ;
}
if ( nextPosTrack )
{
// Interpolate the position
nextPosTrack - > interpolate ( begin , posStart ) ;
}
// Remove the init rotation and position of the next animation
tmp . identity ( ) ;
tmp . setRot ( rotStart ) ;
tmp . setPos ( posStart ) ;
tmp . invert ( ) ;
current * = tmp ;
// Normalize the mt
CVector I = current . getI ( ) ;
CVector J = current . getJ ( ) ;
I . z = 0 ;
J . z = 0 ;
J . normalize ( ) ;
CVector K = I ^ J ;
K . normalize ( ) ;
I = J ^ K ;
I . normalize ( ) ;
tmp . setRot ( I , J , K ) ;
tmp . setPos ( current . getPos ( ) ) ;
current = tmp ;
}
}
}
// ***************************************************************************
void CObjectViewer : : setupPlaylist ( float time )
{
// Update animation dlg
// Gor each object
uint i ;
for ( i = 0 ; i < _ListInstance . size ( ) ; i + + )
{
// Empty with playlist
uint j ;
for ( j = 0 ; j < CChannelMixer : : NumAnimationSlot ; j + + )
{
// Empty slot
_ListInstance [ i ] - > Playlist . setAnimation ( j , CAnimationPlaylist : : empty ) ;
}
// With channel mixer ?
if ( _AnimationSetDlg - > UseMixer )
{
// Setup from slots
_ListInstance [ i ] - > setAnimationPlaylist ( getFrameRate ( ) ) ;
// A playlist
_ListInstance [ i ] - > Playlist . setupMixer ( _ListInstance [ i ] - > ChannelMixer , _AnimationDlg - > getTime ( ) ) ;
}
else
{
// Some animation in the list ?
if ( _ListInstance [ i ] - > Saved . PlayList . size ( ) > 0 )
{
// Index choosed
uint choosedIndex = 0xffffffff ;
// Track here
bool there = false ;
// Current matrix
CMatrix current ;
current . identity ( ) ;
// Current animation
CAnimation * anim = NULL ;
ITrack * posTrack = NULL ;
ITrack * rotquatTrack = NULL ;
// Try channel animationset
anim = _ListInstance [ i ] - > AnimationSet . getAnimation ( _ListInstance [ i ] - > AnimationSet . getAnimationIdByName ( _ListInstance [ i ] - > Saved . PlayList [ 0 ] ) ) ;
if ( anim )
{
posTrack = ( ITrack * ) anim - > getTrackByName ( " pos " ) ;
rotquatTrack = ( ITrack * ) anim - > getTrackByName ( " rotquat " ) ;
}
there = posTrack | | rotquatTrack ;
// Accumul time
float startTime = 0 ;
float endTime = anim - > getEndTime ( ) - anim - > getBeginTime ( ) ;
// Animation index
uint index = 0 ;
// Get animation used in the list
while ( time > = endTime )
{
// Next animation
index + + ;
if ( index < _ListInstance [ i ] - > Saved . PlayList . size ( ) )
{
// Pointer on the animation
CAnimation * newAnim = _ListInstance [ i ] - > AnimationSet . getAnimation ( _ListInstance [ i ] - > AnimationSet . getAnimationIdByName ( _ListInstance [ i ] - > Saved . PlayList [ index ] ) ) ;
ITrack * newPosTrack = ( ITrack * ) newAnim - > getTrackByName ( " pos " ) ;
ITrack * newRotquatTrack = ( ITrack * ) newAnim - > getTrackByName ( " rotquat " ) ;
// Add the transformation
addTransformation ( current , anim , newAnim - > getBeginTime ( ) , anim - > getEndTime ( ) , posTrack , rotquatTrack , newPosTrack , newRotquatTrack , true ) ;
// Pointer on the animation
anim = newAnim ;
posTrack = newPosTrack ;
rotquatTrack = newRotquatTrack ;
// Add start time
startTime = endTime ;
endTime = startTime + anim - > getEndTime ( ) - anim - > getBeginTime ( ) ;
}
else
{
// Add the transformation
addTransformation ( current , anim , 0 , anim - > getEndTime ( ) , posTrack , rotquatTrack , NULL , NULL , false ) ;
break ;
}
}
// Time cropped ?
if ( index > = _ListInstance [ i ] - > Saved . PlayList . size ( ) )
{
// Yes
index - - ;
// Good index
choosedIndex = _ListInstance [ i ] - > AnimationSet . getAnimationIdByName ( _ListInstance [ i ] - > Saved . PlayList [ index ] ) ;
anim = _ListInstance [ i ] - > AnimationSet . getAnimation ( choosedIndex ) ;
// End time for last anim
startTime = anim - > getEndTime ( ) - time ;
}
else
{
// No
// Add the transformation
addTransformation ( current , anim , 0 , anim - > getBeginTime ( ) + time - startTime , posTrack , rotquatTrack , NULL , NULL , false ) ;
// Good index
choosedIndex = _ListInstance [ i ] - > AnimationSet . getAnimationIdByName ( _ListInstance [ i ] - > Saved . PlayList [ index ] ) ;
// Get the animation
anim = _ListInstance [ i ] - > AnimationSet . getAnimation ( choosedIndex ) ;
// Final time
startTime - = anim - > getBeginTime ( ) ;
}
// Set the slot
_ListInstance [ i ] - > Playlist . setTimeOrigin ( 0 , startTime ) ;
_ListInstance [ i ] - > Playlist . setWrapMode ( 0 , CAnimationPlaylist : : Clamp ) ;
_ListInstance [ i ] - > Playlist . setStartWeight ( 0 , 1 , 0 ) ;
_ListInstance [ i ] - > Playlist . setEndWeight ( 0 , 1 , 1 ) ;
_ListInstance [ i ] - > Playlist . setAnimation ( 0 , choosedIndex ) ;
// Setup the channel
_ListInstance [ i ] - > Playlist . setupMixer ( _ListInstance [ i ] - > ChannelMixer , _AnimationDlg - > getTime ( ) ) ;
// Setup the pos and rot for this shape
if ( there )
{
CVector pos = current . getPos ( ) ;
// Get a skeleton model
CSkeletonModel * skelModel = dynamic_cast < CSkeletonModel * > ( _ListInstance [ i ] - > TransformShape ) ;
// If a skeleton model
if ( skelModel )
{
// scale animated pos value with the CFG scale
pos * = _CharacterScalePos ;
}
if ( _ListInstance [ i ] - > TransformShape )
{
_ListInstance [ i ] - > TransformShape - > setPos ( pos ) ;
_ListInstance [ i ] - > TransformShape - > setRotQuat ( current . getRot ( ) ) ;
}
if ( _ListInstance [ i ] - > Camera )
{
_ListInstance [ i ] - > Camera - > setPos ( pos ) ;
_ListInstance [ i ] - > Camera - > setRotQuat ( current . getRot ( ) ) ;
}
}
}
else
{
if ( _ListInstance [ i ] - > TransformShape )
{
CMeshBase * meshBase = dynamic_cast < CMeshBase * > ( ( IShape * ) _ListInstance [ i ] - > TransformShape - > Shape ) ;
if ( meshBase )
{
_ListInstance [ i ] - > TransformShape - > setPos ( meshBase - > getDefaultPos ( ) - > getDefaultValue ( ) ) ;
_ListInstance [ i ] - > TransformShape - > setRotQuat ( meshBase - > getDefaultRotQuat ( ) - > getDefaultValue ( ) ) ;
_ListInstance [ i ] - > TransformShape - > setScale ( meshBase - > getDefaultScale ( ) - > getDefaultValue ( ) ) ;
}
else
{
/*_ListInstance[i]->TransformShape->setPos (CVector::Null);
_ListInstance [ i ] - > TransformShape - > setRotQuat ( CQuat : : Identity ) ;
_ListInstance [ i ] - > TransformShape - > setScale ( 1 , 1 , 1 ) ; */
}
}
if ( _ListInstance [ i ] - > Camera )
{
_ListInstance [ i ] - > Camera - > setPos ( _ListInstance [ i ] - > Camera - > getDefaultPos ( ) - > getDefaultValue ( ) ) ;
_ListInstance [ i ] - > Camera - > setTargetPos ( _ListInstance [ i ] - > Camera - > getDefaultTargetPos ( ) - > getDefaultValue ( ) ) ;
}
}
}
}
}
// tool funct : this if a window has another window as a parent (recursive)
// if parent == true, this return true
static bool isParentWnd ( HWND parent , HWND son )
{
if ( parent = = son ) return true ;
HWND directParent = GetParent ( son ) ;
if ( ! directParent ) return false ;
if ( directParent = = parent ) return true ;
return isParentWnd ( parent , directParent ) ;
}
// ***************************************************************************
void CObjectViewer : : go ( )
{
nlassert ( ! _InstanceRunning ) ; // this shouldn't be called if an instance of the viewer is running.
AFX_MANAGE_STATE ( AfxGetStaticModuleState ( ) ) ;
_InstanceRunning = true ;
CGraph graph ( " ms " , 10 , 10 , 200 , 100 , CRGBA ( 64 , 64 , 64 ) , 20 , 200 ) ;
do
{
_CrtCheckMemory ( ) ;
if ( isParentWnd ( _MainFrame - > m_hWnd , GetForegroundWindow ( ) ) )
{
CNELU : : Driver - > activate ( ) ;
// Handle animation
_AnimationDlg - > handle ( ) ;
// Handle sound animation
_SoundAnimDlg - > handle ( ) ;
// Handle sound animation
_LightGroupDlg - > handle ( ) ;
// Setup the channel mixer
_AnimationSetDlg - > UpdateData ( ) ;
// Setup the play list
setupPlaylist ( _AnimationDlg - > getTime ( ) ) ;
// Eval sound tracks
evalSoundTrack ( _AnimationDlg - > getLastTime ( ) , _AnimationDlg - > getTime ( ) ) ;
// Animate the automatic animation in the scene
//CNELU::Scene->animate( (float) + NLMISC::CTime::ticksToSecond( NLMISC::CTime::getPerformanceTime() ) );
// Eval channel mixer for transform
for ( uint i = 0 ; i < _ListInstance . size ( ) ; i + + )
_ListInstance [ i ] - > ChannelMixer . eval ( false ) ;
animateCNELUScene ( _CS ) ;
// Clear the buffers
CNELU : : clearBuffers ( _BackGroundColor ) ;
//if (_CS) _CS->setDebugQuad(true);
// call of callback list
{
std : : vector < IMainLoopCallBack * > copyVect ( _CallBackList . begin ( ) , _CallBackList . end ( ) ) ;
for ( std : : vector < IMainLoopCallBack * > : : iterator it = _CallBackList . begin ( ) ; it ! = _CallBackList . end ( ) ; + + it )
{
( * it ) - > goPreRender ( ) ;
}
}
// Render the CS
if ( _CS ) _CS - > render ( ) ;
// Draw the scene
CNELU : : Scene - > render ( ) ;
// call of callback list
{
std : : vector < IMainLoopCallBack * > copyVect ( _CallBackList . begin ( ) , _CallBackList . end ( ) ) ;
for ( std : : vector < IMainLoopCallBack * > : : iterator it = _CallBackList . begin ( ) ; it ! = _CallBackList . end ( ) ; + + it )
{
( * it ) - > goPostRender ( ) ;
}
}
if ( _OcclusionTestMeshsVisible )
{
CNELU : : Scene - > renderOcclusionTestMeshs ( ) ;
}
// Profile polygon count
CPrimitiveProfile in , out ;
CNELU : : Driver - > profileRenderedPrimitives ( in , out ) ;
// Draw the hotSpot
if ( _MainFrame - > MoveMode = = CMainFrame : : ObjectMode )
{
float radius = _HotSpotSize / 2.f ;
CNELU : : Driver - > setupModelMatrix ( CMatrix : : Identity ) ;
CDRU : : drawLine ( _MouseListener . getHotSpot ( ) + CVector ( radius , 0 , 0 ) , _MouseListener . getHotSpot ( ) + CVector ( - radius , 0 , 0 ) , _HotSpotColor , * CNELU : : Driver ) ;
CDRU : : drawLine ( _MouseListener . getHotSpot ( ) + CVector ( 0 , radius , 0 ) , _MouseListener . getHotSpot ( ) + CVector ( 0 , - radius , 0 ) , _HotSpotColor , * CNELU : : Driver ) ;
CDRU : : drawLine ( _MouseListener . getHotSpot ( ) + CVector ( 0 , 0 , radius ) , _MouseListener . getHotSpot ( ) + CVector ( 0 , 0 , - radius ) , _HotSpotColor , * CNELU : : Driver ) ;
}
// Test some keys
if ( CNELU : : AsyncListener . isKeyPushed ( KeyF3 ) )
{
// Change render mode
switch ( CNELU : : Driver - > getPolygonMode ( ) )
{
case IDriver : : Filled :
CNELU : : Driver - > setPolygonMode ( IDriver : : Line ) ;
break ;
case IDriver : : Line :
CNELU : : Driver - > setPolygonMode ( IDriver : : Point ) ;
break ;
case IDriver : : Point :
CNELU : : Driver - > setPolygonMode ( IDriver : : Filled ) ;
break ;
}
}
// draw various matrix
if ( _FXMatrixVisible ) drawFXMatrix ( ) ;
if ( _FXUserMatrixVisible ) drawFXUserMatrix ( ) ;
if ( _SceneMatrixVisible ) drawSceneMatrix ( ) ;
// draw Skeleton Scale Dlg selection
if ( _SkeletonScaleDlg )
_SkeletonScaleDlg - > drawSelection ( ) ;
// Test Window Keys
bool keyWndOk = false ;
if ( CNELU : : AsyncListener . isKeyPushed ( Key1 ) )
_MainFrame - > OnWindowAnimation ( ) , keyWndOk = true ;
if ( CNELU : : AsyncListener . isKeyPushed ( Key2 ) )
_MainFrame - > OnWindowAnimationset ( ) , keyWndOk = true ;
if ( CNELU : : AsyncListener . isKeyPushed ( Key3 ) )
_MainFrame - > OnWindowMixersslots ( ) , keyWndOk = true ;
if ( CNELU : : AsyncListener . isKeyPushed ( Key4 ) )
_MainFrame - > OnWindowParticles ( ) , keyWndOk = true ;
if ( CNELU : : AsyncListener . isKeyPushed ( Key5 ) )
_MainFrame - > OnWindowDayNight ( ) , keyWndOk = true ;
if ( CNELU : : AsyncListener . isKeyPushed ( Key6 ) )
_MainFrame - > OnWindowWaterPool ( ) , keyWndOk = true ;
if ( CNELU : : AsyncListener . isKeyPushed ( Key7 ) )
_MainFrame - > OnWindowVegetable ( ) , keyWndOk = true ;
if ( CNELU : : AsyncListener . isKeyPushed ( Key8 ) )
_MainFrame - > OnWindowGlobalwind ( ) , keyWndOk = true ;
if ( CNELU : : AsyncListener . isKeyPushed ( Key9 ) )
_MainFrame - > OnWindowSoundAnim ( ) , keyWndOk = true ;
if ( CNELU : : AsyncListener . isKeyPushed ( KeyO ) )
_MainFrame - > OnFileOpen ( ) , keyWndOk = true ;
// Reload texture ?
if ( CNELU : : AsyncListener . isKeyPushed ( KeyR ) )
_MainFrame - > OnReloadTextures ( ) ;
// If some window activated, reset the focus to the main wnd.
if ( keyWndOk )
_MainFrame - > SetActiveWindow ( ) ;
// Calc FPS
static sint64 lastTime = NLMISC : : CTime : : getPerformanceTime ( ) ;
sint64 newTime = NLMISC : : CTime : : getPerformanceTime ( ) ;
2013-07-19 13:37:25 +00:00
sint64 timeDiff = newTime - lastTime ;
float fps = timeDiff > 0 ? ( float ) ( 1.0 / NLMISC : : CTime : : ticksToSecond ( newTime - lastTime ) ) : 1000.0f ;
2012-05-29 13:31:11 +00:00
lastTime = newTime ;
char msgBar [ 1024 ] ;
uint nbPlayingSources , nbSources ;
if ( CSoundSystem : : getAudioMixer ( ) )
{
nbPlayingSources = CSoundSystem : : getAudioMixer ( ) - > getUsedTracksCount ( ) ;
nbSources = CSoundSystem : : getAudioMixer ( ) - > getPlayingSourcesCount ( ) ;
}
else
{
nbPlayingSources = nbSources = NULL ;
}
// Display std info.
sprintf ( msgBar , " %s - Nb tri: %d -Texture used (Mo): %5.2f - Texture allocated (Mo): %5.2f - Distance: %5.0f - Sounds: %d/%d - Fps: %03.1f " ,
_Direct3d ? " Direct3d " : " OpenGL " ,
in . NLines + in . NPoints + in . NQuads * 2 + in . NTriangles + in . NTriangleStrips , ( float ) CNELU : : Driver - > getUsedTextureMemory ( ) / ( float ) ( 1024 * 1024 ) ,
( float ) CNELU : : Driver - > profileAllocatedTextureMemory ( ) / ( float ) ( 1024 * 1024 ) ,
( _SceneCenter - CNELU : : Camera - > getMatrix ( ) . getPos ( ) ) . norm ( ) ,
nbPlayingSources ,
nbSources ,
fps
) ;
// Display
_MainFrame - > StatusBar . SetWindowText ( msgBar ) ;
// Display Vegetable info.
if ( _VegetableDlg ! = NULL )
{
if ( _VegetableLandscape ! = NULL )
{
char vegetMsgBar [ 1024 ] ;
sprintf ( vegetMsgBar , " %d " , _VegetableLandscape - > Landscape . getNumVegetableFaceRendered ( ) ) ;
_VegetableDlg - > StaticPolyCount . SetWindowText ( vegetMsgBar ) ;
}
else
{
_VegetableDlg - > StaticPolyCount . SetWindowText ( " 0 " ) ;
}
}
// graph disabled for now..
// graph.addValue(CNELU::Scene->getEllapsedTime() * 1000.f);
// graph.renderGraph();
// Swap the buffers
CNELU : : swapBuffers ( ) ;
// Select the good camera
if ( _MainFrame - > MoveMode = = CMainFrame : : CameraMode )
{
sint cameraId = getCurrentCamera ( ) ;
if ( cameraId ! = - 1 )
{
CInstanceInfo * info = getInstance ( getCameraInstance ( cameraId ) ) ;
nlassert ( info - > Camera ) ;
CNELU : : Scene - > setCam ( info - > Camera ) ;
}
}
else
{
CNELU : : Scene - > setCam ( CNELU : : Camera ) ;
}
if ( _MainFrame - > MoveMode = = CMainFrame : : ObjectMode )
{
_MouseListener . setMouseMode ( CEvent3dMouseListener : : edit3d ) ;
}
else
{
_MouseListener . setMouseMode ( CEvent3dMouseListener : : firstPerson ) ;
_MouseListener . setSpeed ( _MainFrame - > MoveSpeed ) ;
}
// Reset camera aspect ratio
initCamera ( ) ;
if ( _MainFrame - > isMoveElement ( ) )
{
// for now we apply a transform on the selected object in the particle system
_ParticleDlg - > moveElement ( _MouseListener . getModelMatrix ( ) ) ;
}
else if ( _MainFrame - > isMoveFX ( ) )
{
_ParticleDlg - > setPSWorldMatrix ( _MouseListener . getModelMatrix ( ) ) ;
}
else if ( _MainFrame - > isMoveFXUserMatrix ( ) )
{
setFXUserMatrix ( _MouseListener . getModelMatrix ( ) ) ;
}
else if ( _MainFrame - > isMoveObjectLightTest ( ) )
{
_ObjectLightTestMatrix = _MouseListener . getModelMatrix ( ) ;
}
else if ( _MainFrame - > isMoveSceneRoot ( ) )
{
_SceneRoot - > setTransformMode ( ITransformable : : DirectMatrix ) ;
_SceneRoot - > setMatrix ( _MouseListener . getModelMatrix ( ) ) ;
}
else
{
nlassert ( _MainFrame - > isMoveCamera ( ) ) ;
// New matrix from camera
CNELU : : Camera - > setTransformMode ( ITransformable : : DirectMatrix ) ;
CNELU : : Camera - > setMatrix ( _MouseListener . getViewMatrix ( ) ) ;
// Vegetable: manage collision snapping if wanted and possible
if ( _VegetableSnapToGround & & _VegetableLandscape )
{
// get matrix from camera.
CMatrix matrix = CNELU : : Camera - > getMatrix ( ) ;
// snap To ground.
CVector pos = matrix . getPos ( ) ;
// if succes to snap to ground
if ( _VegetableCollisionEntity - > snapToGround ( pos ) )
{
pos . z + = _VegetableSnapHeight ;
matrix . setPos ( pos ) ;
// reset the moveListener and the camera.
_MouseListener . setMatrix ( matrix ) ;
CNELU : : Camera - > setMatrix ( matrix ) ;
}
}
}
// Update lighting test Dynamic object position
if ( _ObjectLightTest & & _GlobalRetriever )
{
// Get the position of the object snapped.
UGlobalPosition gPos = _GlobalRetriever - > retrievePosition ( _ObjectLightTestMatrix . getPos ( ) ) ;
CVector pos = _GlobalRetriever - > getGlobalPosition ( gPos ) ;
_ObjectLightTest - > setPos ( pos ) ;
_ObjectLightTest - > setRotQuat ( _ObjectLightTestMatrix . getRot ( ) ) ;
// Update the matrix and the mouseListener.
if ( _MainFrame - > isMoveObjectLightTest ( ) )
{
_ObjectLightTestMatrix . setPos ( pos ) ;
_MouseListener . setModelMatrix ( _ObjectLightTestMatrix ) ;
}
// Update the logicInfo so lighting is well computed.
_ObjectLightTestLogicInfo . GPos = gPos ;
}
// Pump message from the server
CNELU : : EventServer . pump ( ) ;
// Pump others message for the windows
MSG msg ;
while ( PeekMessage ( & msg , NULL , 0 , 0 , PM_REMOVE ) )
{
TranslateMessage ( & msg ) ;
DispatchMessage ( & msg ) ;
}
CSoundSystem : : setListenerMatrix ( _MouseListener . getViewMatrix ( ) ) ;
CSoundSystem : : poll ( ) ;
// simulate frame delay
if ( _FrameDelay )
{
NLMISC : : nlSleep ( _FrameDelay ) ;
}
// Save last time
_LastTime = _AnimationDlg - > getTime ( ) ;
theApp . OnIdle ( 0 ) ;
}
else
{
// Traditionnal message loop
MSG msg ;
while ( GetMessage ( & msg , NULL , 0 , 0 ) = = TRUE )
{
: : TranslateMessage ( & msg ) ;
: : DispatchMessage ( & msg ) ;
if ( ! IsWindow ( _MainFrame - > m_hWnd ) )
break ;
// Get the foreground window
if ( isParentWnd ( _MainFrame - > m_hWnd , GetForegroundWindow ( ) ) )
break ;
}
}
}
while ( ! CNELU : : AsyncListener . isKeyPushed ( KeyESCAPE ) & & CNELU : : Driver - > isActive ( ) ) ;
_InstanceRunning = false ;
}
// ***************************************************************************
void CObjectViewer : : releaseUI ( )
{
AFX_MANAGE_STATE ( AfxGetStaticModuleState ( ) ) ;
// Release particles
removeWindow ( _ChooseFrameDelayDlg ) ;
removeWindow ( _ParticleDlg ) ;
// release sound
CSoundSystem : : releaseSoundSystem ( ) ;
if ( CNELU : : Driver - > isActive ( ) )
{
// register window position
if ( CNELU : : Driver - > getDisplay ( ) )
{
setRegisterWindowState ( _MainFrame , REGKEY_OBJ_VIEW_OPENGL_WND ) ;
}
}
// Write register
if ( _MainFrame )
{
_MainFrame - > registerValue ( false ) ;
// Remove the main frame
if ( : : IsWindow ( * _MainFrame ) )
{
_MainFrame - > DestroyWindow ( ) ;
}
delete _MainFrame ;
_MainFrame = NULL ;
}
// Release the emitter from the server
_MouseListener . removeFromServer ( CNELU : : EventServer ) ;
// exit
// remove first possibly created collisions objects.
if ( _VegetableCollisionEntity )
{
_VegetableCollisionManager - > deleteEntity ( _VegetableCollisionEntity ) ;
_VegetableCollisionEntity = NULL ;
}
if ( _VegetableCollisionManager )
{
delete _VegetableCollisionManager ;
_VegetableCollisionManager = NULL ;
}
// delete Landscape
if ( _VegetableLandscape )
{
CNELU : : Scene - > deleteModel ( _VegetableLandscape ) ;
_VegetableLandscape = NULL ;
}
// Release all instances and all Igs.
removeAllInstancesFromScene ( ) ;
// Remove
// Create the cloud scape
delete _CS ;
_CS = NULL ;
// release Root
CNELU : : Scene - > deleteModel ( _SceneRoot ) ;
_SceneRoot = NULL ;
// release other 3D.
CNELU : : release ( ) ;
}
// ***************************************************************************
void setRegisterWindowState ( const CWnd * pWnd , const char * keyName )
{
HKEY hKey ;
if ( RegCreateKey ( HKEY_CURRENT_USER , keyName , & hKey ) = = ERROR_SUCCESS )
{
RECT rect ;
pWnd - > GetWindowRect ( & rect ) ;
RegSetValueEx ( hKey , " Left " , 0 , REG_DWORD , ( LPBYTE ) & rect . left , 4 ) ;
RegSetValueEx ( hKey , " Right " , 0 , REG_DWORD , ( LPBYTE ) & rect . right , 4 ) ;
RegSetValueEx ( hKey , " Top " , 0 , REG_DWORD , ( LPBYTE ) & rect . top , 4 ) ;
RegSetValueEx ( hKey , " Bottom " , 0 , REG_DWORD , ( LPBYTE ) & rect . bottom , 4 ) ;
}
}
// ***************************************************************************
void getRegisterWindowState ( CWnd * pWnd , const char * keyName , bool resize )
{
HKEY hKey ;
if ( RegOpenKeyEx ( HKEY_CURRENT_USER , keyName , 0 , KEY_READ , & hKey ) = = ERROR_SUCCESS )
{
DWORD len = 4 ;
DWORD type ;
RECT rect ;
RegQueryValueEx ( hKey , " Left " , 0 , & type , ( LPBYTE ) & rect . left , & len ) ;
RegQueryValueEx ( hKey , " Right " , 0 , & type , ( LPBYTE ) & rect . right , & len ) ;
RegQueryValueEx ( hKey , " Top " , 0 , & type , ( LPBYTE ) & rect . top , & len ) ;
RegQueryValueEx ( hKey , " Bottom " , 0 , & type , ( LPBYTE ) & rect . bottom , & len ) ;
// Set window pos
pWnd - > SetWindowPos ( NULL , rect . left , rect . top , rect . right - rect . left , rect . bottom - rect . top , SWP_NOOWNERZORDER | SWP_NOZORDER |
( resize ? 0 : SWP_NOSIZE ) ) ;
}
}
// ***************************************************************************
void CObjectViewer : : setAnimTime ( float animStart , float animEnd )
{
// Dispatch the command
_SlotDlg - > setAnimTime ( animStart , animEnd ) ;
_AnimationDlg - > setAnimTime ( animStart , animEnd ) ;
_SoundAnimDlg - > setAnimTime ( animStart , animEnd ) ;
}
// ***************************************************************************
void CObjectViewer : : resetSlots ( uint instance )
{
// Reset the animation set
_ListInstance [ instance ] - > AnimationSet . reset ( ) ;
// Set no animation in slot UI
for ( uint j = 0 ; j < NL3D : : CChannelMixer : : NumAnimationSlot ; j + + )
_ListInstance [ instance ] - > Saved . SlotInfo [ j ] . Animation = " " ;
// Reset the animation list
_ListInstance [ instance ] - > Saved . AnimationFileName . clear ( ) ;
// Reset the play list
_ListInstance [ instance ] - > Saved . PlayList . clear ( ) ;
// Reset the skeleton list
_ListInstance [ instance ] - > Saved . SWTFileName . clear ( ) ;
// Update
_AnimationSetDlg - > refresh ( TRUE ) ;
_SlotDlg - > refresh ( TRUE ) ;
_SoundAnimDlg - > refresh ( TRUE ) ;
}
// ***************************************************************************
void CObjectViewer : : reinitChannels ( )
{
// Add all the instance in the channel mixer
for ( uint i = 0 ; i < _ListInstance . size ( ) ; i + + )
{
// Reset the channels
_ListInstance [ i ] - > ChannelMixer . resetChannels ( ) ;
// Setup animation set
_ListInstance [ i ] - > ChannelMixer . setAnimationSet ( & ( _ListInstance [ i ] - > AnimationSet ) ) ;
// Register the transform (but not if it has automatic animation, as a channel mixer has been created for us)
bool autoAnim = false ;
if ( dynamic_cast < CMeshBaseInstance * > ( _ListInstance [ i ] - > TransformShape ) )
{
CMeshBase * mb = NLMISC : : safe_cast < CMeshBase * > ( ( IShape * ) static_cast < CMeshBaseInstance * > ( _ListInstance [ i ] - > TransformShape ) - > Shape ) ;
autoAnim = mb - > getAutoAnim ( ) ;
}
if ( ! autoAnim )
{
if ( _ListInstance [ i ] - > TransformShape )
_ListInstance [ i ] - > TransformShape - > registerToChannelMixer ( & ( _ListInstance [ i ] - > ChannelMixer ) , " " ) ;
if ( _ListInstance [ i ] - > Camera )
_ListInstance [ i ] - > Camera - > registerToChannelMixer ( & ( _ListInstance [ i ] - > ChannelMixer ) , " " ) ;
}
}
// Enable / disable channels
enableChannels ( ) ;
}
// ***************************************************************************
void CObjectViewer : : enableChannels ( )
{
// Disable some channels
_AnimationSetDlg - > UpdateData ( ) ;
bool enable = ( _AnimationSetDlg - > UseMixer = = 1 ) ;
// Add all the instance in the channel mixer
for ( uint i = 0 ; i < _ListInstance . size ( ) ; i + + )
{
// Get the pos and rot channel id
uint posId = _ListInstance [ i ] - > AnimationSet . getChannelIdByName ( " pos " ) ;
uint rotQuatId = _ListInstance [ i ] - > AnimationSet . getChannelIdByName ( " rotquat " ) ;
uint rotEulerId = _ListInstance [ i ] - > AnimationSet . getChannelIdByName ( " roteuler " ) ;
if ( posId ! = CAnimationSet : : NotFound )
_ListInstance [ i ] - > ChannelMixer . enableChannel ( posId , enable ) ;
if ( rotQuatId ! = CAnimationSet : : NotFound )
_ListInstance [ i ] - > ChannelMixer . enableChannel ( rotQuatId , enable ) ;
if ( rotEulerId ! = CAnimationSet : : NotFound )
_ListInstance [ i ] - > ChannelMixer . enableChannel ( rotEulerId , enable ) ;
}
}
// ***************************************************************************
float CObjectViewer : : getFrameRate ( )
{
return _AnimationDlg - > Speed ;
}
// ***************************************************************************
string getFilename ( const string & file )
{
// if the direct file exist, return it
if ( NLMISC : : CFile : : fileExists ( file ) )
return file ;
string path = NLMISC : : CFile : : getFilename ( file ) ;
path = CPath : : lookup ( path , false , false , false ) ;
if ( path . empty ( ) )
path = file ;
return path ;
}
// ***************************************************************************
void CObjectViewer : : serial ( NLMISC : : IStream & f )
{
// version 4: include particle workspace infos
// serial "OBJV_CFG"
2013-09-24 19:33:59 +00:00
f . serialCheck ( NELID ( " VJBO " ) ) ;
f . serialCheck ( NELID ( " GFC_ " ) ) ;
2012-05-29 13:31:11 +00:00
// serial the version
int ver = f . serialVersion ( 4 ) ;
if ( ver > = 4 )
{
f . serial ( ParticleWorkspaceFilename ) ;
}
if ( ver > = 3 )
{
// Read the configuration file
if ( f . isReading ( ) )
{
if ( ver < = 3 )
{
ParticleWorkspaceFilename = " " ;
}
// First instance
uint firstInstance = ( uint ) _ListInstance . size ( ) ;
// Read information
std : : vector < CInstanceSave > readed ;
f . serialCont ( readed ) ;
// Merge
for ( uint i = 0 ; i < readed . size ( ) ; i + + )
{
try
{
// Instance loaded
uint instance = 0xffffffff ;
if ( readed [ i ] . Camera )
{
instance = addCamera ( readed [ i ] . CameraInfo , readed [ i ] . ShapeFilename . c_str ( ) ) ;
}
else
{
// Load the shape
CIFile input ;
string path = getFilename ( readed [ i ] . ShapeFilename ) ;
if ( input . open ( path ) )
{
// Serial a shape
CShapeStream serialShape ;
serialShape . serial ( input ) ;
// Is a skeleton ?
if ( readed [ i ] . IsSkeleton )
{
// Add the skel
instance = addSkel ( serialShape . getShapePointer ( ) , readed [ i ] . ShapeFilename . c_str ( ) ) ;
SkeletonUsedForSound = instance ;
}
else
{
// Add the mesh
if ( readed [ i ] . SkeletonId ! = 0xffffffff )
instance = addMesh ( serialShape . getShapePointer ( ) , readed [ i ] . ShapeFilename . c_str ( ) , readed [ i ] . SkeletonId + firstInstance , ( readed [ i ] . BindBoneName = = " " ) ? NULL : readed [ i ] . BindBoneName . c_str ( ) ) ;
else
instance = addMesh ( serialShape . getShapePointer ( ) , readed [ i ] . ShapeFilename . c_str ( ) , 0xffffffff , ( readed [ i ] . BindBoneName = = " " ) ? NULL : readed [ i ] . BindBoneName . c_str ( ) ) ;
}
}
else
{
// Error message
char message [ 512 ] ;
smprintf ( message , 512 , " File not found %s " , readed [ i ] . ShapeFilename . c_str ( ) ) ;
_MainFrame - > MessageBox ( message , " NeL object viewer " , MB_OK | MB_ICONEXCLAMATION ) ;
// Stop loading
break ;
}
}
// Check instance number
nlassert ( instance = = ( firstInstance + i ) ) ;
// Load animations
for ( uint anim = 0 ; anim < readed [ i ] . AnimationFileName . size ( ) ; anim + + )
{
string path = getFilename ( readed [ i ] . AnimationFileName [ anim ] ) ;
loadAnimation ( path . c_str ( ) , instance ) ;
}
// Load SWT
for ( uint swt = 0 ; swt < readed [ i ] . SWTFileName . size ( ) ; swt + + )
{
string path = getFilename ( readed [ i ] . SWTFileName [ swt ] ) ;
loadSWT ( path . c_str ( ) , instance ) ;
}
// Set the playlist
_ListInstance [ instance ] - > Saved . PlayList = readed [ i ] . PlayList ;
// Set the slot information
for ( uint slot = 0 ; slot < NL3D : : CChannelMixer : : NumAnimationSlot ; slot + + )
_ListInstance [ instance ] - > Saved . SlotInfo [ slot ] = readed [ i ] . SlotInfo [ slot ] ;
}
catch ( Exception & e )
{
// Error message
char message [ 512 ] ;
smprintf ( message , 512 , " Error loading shape %s: %s " , readed [ i ] . ShapeFilename . c_str ( ) , e . what ( ) ) ;
_MainFrame - > MessageBox ( message , " NeL object viewer " , MB_OK | MB_ICONEXCLAMATION ) ;
// Stop loading
break ;
}
}
// Init channels
reinitChannels ( ) ;
// Read the selection
uint32 selection ;
f . serial ( selection ) ;
if ( selection + firstInstance < _ListInstance . size ( ) )
{
_SelectedObject = selection + firstInstance ;
}
// Invalidate dialogs
_AnimationSetDlg - > refresh ( TRUE ) ;
_SlotDlg - > refresh ( TRUE ) ;
_SoundAnimDlg - > refresh ( TRUE ) ;
}
else
{
// Build information
std : : vector < CInstanceSave > readed ( _ListInstance . size ( ) ) ;
for ( uint instance = 0 ; instance < _ListInstance . size ( ) ; instance + + )
{
// Copy the save information
readed [ instance ] = _ListInstance [ instance ] - > Saved ;
}
// Save the configuration
f . serialCont ( readed ) ;
// Write the selection
f . serial ( _SelectedObject ) ;
}
}
}
// ***************************************************************************
bool CObjectViewer : : loadInstanceGroup ( const char * igFilename )
{
//AFX_MANAGE_STATE(AfxGetStaticModuleState());
// Add to the path
char drive [ 256 ] ;
char dir [ 256 ] ;
char path [ 256 ] ;
// Add search path for the mesh
_splitpath ( igFilename , drive , dir , NULL , NULL ) ;
_makepath ( path , drive , dir , NULL , NULL ) ;
CPath : : addSearchPath ( path ) ;
// Open a file
CIFile file ;
if ( file . open ( igFilename ) )
{
// Shape pointer
NL3D : : CInstanceGroup * ig = new NL3D : : CInstanceGroup ;
try
{
// Stream it
file . serial ( * ig ) ;
// Append the ig.
addInstanceGroup ( ig ) ;
}
catch ( Exception & e )
{
// clean
delete ig ;
_MainFrame - > MessageBox ( e . what ( ) , " NeL object viewer " , MB_OK | MB_ICONEXCLAMATION ) ;
return false ;
}
}
else
{
// Create a message
char msg [ 512 ] ;
_snprintf ( msg , 512 , " Can't open the file %s for reading. " , igFilename ) ;
_MainFrame - > MessageBox ( msg , " NeL object viewer " , MB_OK | MB_ICONEXCLAMATION ) ;
return false ;
}
return true ;
}
// ***************************************************************************
bool CObjectViewer : : loadMesh ( std : : vector < std : : string > & meshFilename , const char * skeleton )
{
AFX_MANAGE_STATE ( AfxGetStaticModuleState ( ) ) ;
// Add to the path
char drive [ 256 ] ;
char dir [ 256 ] ;
char path [ 256 ] ;
// Add search path for the skeleton
if ( skeleton )
{
_splitpath ( skeleton , drive , dir , NULL , NULL ) ;
_makepath ( path , drive , dir , NULL , NULL ) ;
CPath : : addSearchPath ( path ) ;
}
// Open a file
CIFile file ;
// Shape pointer
IShape * shapeSkel = NULL ;
uint skelIndex = 0xffffffff ;
NL3D : : CSkeletonModel * transformSkel = NULL ;
// Skel error ?
bool skelError = false ;
// Continue ?
if ( skeleton & & ( strcmp ( skeleton , " " ) ! = 0 ) )
{
// Open a file
if ( file . open ( skeleton ) )
{
// Sream a shape
CShapeStream streamShape ;
try
{
// Stream it
streamShape . serial ( file ) ;
// Add the shape
shapeSkel = streamShape . getShapePointer ( ) ;
}
catch ( Exception & e )
{
_MainFrame - > MessageBox ( e . what ( ) , " NeL object viewer " , MB_OK | MB_ICONEXCLAMATION ) ;
// error
skelError = true ;
}
}
else
{
// Create a message
char msg [ 512 ] ;
_snprintf ( msg , 512 , " Can't open the file %s for reading. " , meshFilename ) ;
_MainFrame - > MessageBox ( msg , " NeL object viewer " , MB_OK | MB_ICONEXCLAMATION ) ;
// error
skelError = true ;
}
}
// Skeleton error ?
if ( skelError )
return false ;
// Skeleton used ?
bool skelUsed = false ;
// Index of the shape
uint lastShape = 0xffffffff ;
// For each meshes
for ( uint i = 0 ; i < meshFilename . size ( ) ; i + + )
{
// Filename
const char * fileName = meshFilename [ i ] . c_str ( ) ;
// Add search path for the mesh
_splitpath ( fileName , drive , dir , NULL , NULL ) ;
_makepath ( path , drive , dir , NULL , NULL ) ;
CPath : : addSearchPath ( path ) ;
// Shape pointer
IShape * shapeMesh = NULL ;
if ( file . open ( fileName ) )
{
// Sream a shape
CShapeStream streamShape ;
try
{
// Stream it
streamShape . serial ( file ) ;
// Add the shape
shapeMesh = streamShape . getShapePointer ( ) ;
}
catch ( Exception & e )
{
_MainFrame - > MessageBox ( e . what ( ) , " NeL object viewer " , MB_OK | MB_ICONEXCLAMATION ) ;
continue ;
}
}
else
{
// Create a message
char msg [ 512 ] ;
_snprintf ( msg , 512 , " Can't open the file %s for reading. " , fileName ) ;
_MainFrame - > MessageBox ( msg , " NeL object viewer " , MB_OK | MB_ICONEXCLAMATION ) ;
continue ;
}
// Add the skel shape
if ( shapeSkel & & ( ! skelUsed ) )
{
// Add the skel
skelIndex = addSkel ( shapeSkel , skeleton ) ;
if ( skelIndex ! = 0xffffffff )
{
skelUsed = true ;
transformSkel = dynamic_cast < CSkeletonModel * > ( _ListInstance [ skelIndex ] - > TransformShape ) ;
nlassert ( transformSkel ) ;
}
}
// Add the skel shape
if ( shapeMesh )
{
// Get the object name
lastShape = addMesh ( shapeMesh , fileName , skelIndex ) ;
}
}
// Skel not used ?
if ( ( ! skelUsed ) & & shapeSkel )
{
// Remove it
delete shapeSkel ;
}
// Select the skeleton
if ( skelIndex ! = 0xffffffff )
_SelectedObject = skelIndex ;
else if ( lastShape ! = 0xffffffff )
_SelectedObject = lastShape ;
// Update windows
_AnimationSetDlg - > refresh ( TRUE ) ;
_SlotDlg - > refresh ( TRUE ) ;
_SoundAnimDlg - > refresh ( TRUE ) ;
return true ;
}
// ***************************************************************************
void CObjectViewer : : resetCamera ( )
{
AFX_MANAGE_STATE ( AfxGetStaticModuleState ( ) ) ;
_MainFrame - > OnResetCamera ( ) ;
}
// ***************************************************************************
uint CObjectViewer : : addMesh ( NL3D : : IShape * pMeshShape , const char * meshName , uint skelIndex , const char * bindSkelName , bool createInstance )
{
AFX_MANAGE_STATE ( AfxGetStaticModuleState ( ) ) ;
// *** Add the shape
// Store the shape pointer
if ( CNELU : : ShapeBank - > getPresentState ( meshName ) ! = CShapeBank : : NotPresent )
{
delete pMeshShape ;
}
else
CNELU : : ShapeBank - > add ( meshName , CSmartPtr < IShape > ( pMeshShape ) ) ;
// Must create the instance?
if ( createInstance )
{
// Create a model and add it to the scene
CTransformShape * pTrShape = CNELU : : Scene - > createInstance ( meshName ) ;
nlassert ( pTrShape ) ;
// link to the root for manipulation
_SceneRoot - > hrcLinkSon ( pTrShape ) ;
// Get the real shape used by the instance.
pMeshShape = pTrShape - > Shape ;
// Set the rot model
if ( _MainFrame - > Euler )
pTrShape - > setTransformMode ( ITransformable : : RotEuler ) ;
else
pTrShape - > setTransformMode ( ITransformable : : RotQuat ) ;
// Store the transform shape pointer
CInstanceInfo * iInfo = new CInstanceInfo ;
iInfo - > TransformShape = pTrShape ;
// Store the name of the shape
iInfo - > MustDelete = true ;
iInfo - > Saved . ShapeFilename = meshName ;
iInfo - > Saved . SkeletonId = skelIndex ;
_ListInstance . push_back ( iInfo ) ;
// *** Bind to the skeleton
// Get a mesh instance
CMeshBaseInstance * meshInstance = dynamic_cast < CMeshBaseInstance * > ( pTrShape ) ;
// Bind the mesh
if ( skelIndex ! = 0xffffffff )
{
// Get the skeleton
NL3D : : CSkeletonModel * transformSkel = dynamic_cast < CSkeletonModel * > ( _ListInstance [ skelIndex ] - > TransformShape ) ;
nlassert ( transformSkel ) ;
// It is a skinned mesh ?
CMesh * mesh = dynamic_cast < CMesh * > ( pMeshShape ) ;
CMeshMRM * meshMrm = dynamic_cast < CMeshMRM * > ( pMeshShape ) ;
CMeshMRMSkinned * meshMrmSkinned = dynamic_cast < CMeshMRMSkinned * > ( pMeshShape ) ;
if ( ( mesh & & mesh - > getMeshGeom ( ) . isSkinned ( ) ) | |
( meshMrm & & meshMrm - > getMeshGeom ( ) . isSkinned ( ) ) | |
meshMrmSkinned )
{
// Bind to skeleton
transformSkel - > bindSkin ( meshInstance ) ;
}
else
{
// Bind bone name
uint bindBone = 0xffffffff ;
std : : string boneName = " " ;
// Name is passed, look for bone
if ( bindSkelName )
{
// Make a list of bones
uint bone ;
for ( bone = 0 ; bone < transformSkel - > Bones . size ( ) ; bone + + )
{
if ( transformSkel - > Bones [ bone ] . getBoneName ( ) = = bindSkelName )
{
bindBone = bone ;
boneName = bindSkelName ;
break ;
}
}
}
// Found ? No, look for a bind bone
if ( bindBone = = 0xffffffff )
{
// Make a list of bones
vector < string > listBones ;
uint bone ;
for ( bone = 0 ; bone < transformSkel - > Bones . size ( ) ; bone + + )
listBones . push_back ( transformSkel - > Bones [ bone ] . getBoneName ( ) ) ;
// Get name of the mesh
char nameMesh [ 512 ] ;
_splitpath ( meshName , NULL , NULL , nameMesh , NULL ) ;
// Select a bones
std : : string message = " Select a bone to stick " + string ( nameMesh ) ;
CSelectString dialogSelect ( listBones , message . c_str ( ) , _MainFrame , false ) ;
if ( dialogSelect . DoModal ( ) = = IDOK )
{
// Select your bones
bindBone = dialogSelect . Selection ;
boneName = listBones [ dialogSelect . Selection ] ;
}
}
// Selected ?
if ( bindBone ! = 0xffffffff )
{
transformSkel - > stickObject ( pTrShape , bindBone ) ;
/*meshInstance->setPos (CVector::Null);
meshInstance - > setRotQuat ( CQuat : : Identity ) ;
meshInstance - > setScale ( 1 , 1 , 1 ) ; */
}
// Set the bone name
iInfo - > Saved . BindBoneName = boneName ;
}
}
// Return the instance index
return ( uint ) _ListInstance . size ( ) - 1 ;
}
else
return 0xffffffff ;
}
// ***************************************************************************
bool CObjectViewer : : chooseBone ( const std : : string & caption , NL3D : : CSkeletonModel * & skel , uint & boneIndex , std : : string * skelName /*= NULL*/ , std : : string * boneName /*= NULL*/ )
{
for ( uint k = 0 ; k < _ListInstance . size ( ) ; + + k )
{
NL3D : : CSkeletonModel * transformSkel = dynamic_cast < CSkeletonModel * > ( _ListInstance [ k ] - > TransformShape ) ;
if ( transformSkel )
{
// Make a list of bones
vector < string > listBones ;
uint bone ;
for ( bone = 0 ; bone < transformSkel - > Bones . size ( ) ; bone + + )
{
listBones . push_back ( transformSkel - > Bones [ bone ] . getBoneName ( ) ) ;
}
CSelectString dialogSelect ( listBones , caption . c_str ( ) , _MainFrame , false ) ;
if ( dialogSelect . DoModal ( ) = = IDOK )
{
boneIndex = dialogSelect . Selection ;
skel = transformSkel ;
if ( skelName )
{
* skelName = _ListInstance [ k ] - > Saved . ShapeFilename ;
}
if ( boneName )
{
* boneName = safe_cast < NL3D : : CSkeletonModel * > ( _ListInstance [ k ] - > TransformShape ) - > Bones [ boneIndex ] . getBoneName ( ) ;
}
return true ;
}
return false ;
}
}
return false ;
}
// ***************************************************************************
bool CObjectViewer : : isSkeletonPresent ( ) const
{
for ( uint k = 0 ; k < _ListInstance . size ( ) ; + + k )
{
NL3D : : CSkeletonModel * transformSkel = dynamic_cast < CSkeletonModel * > ( _ListInstance [ k ] - > TransformShape ) ;
if ( transformSkel ) return true ;
}
return false ;
}
// ***************************************************************************
uint CObjectViewer : : addCamera ( const NL3D : : CCameraInfo & cameraInfo , const char * cameraName )
{
AFX_MANAGE_STATE ( AfxGetStaticModuleState ( ) ) ;
// *** Add the shape
// link to the root for manipulation
CCamera * pCamera = ( CCamera * ) CNELU : : Scene - > createModel ( CameraId ) ;
_SceneRoot - > hrcLinkSon ( pCamera ) ;
// Build the camera
pCamera - > build ( cameraInfo ) ;
// Store the transform shape pointer
CInstanceInfo * iInfo = new CInstanceInfo ;
iInfo - > Camera = pCamera ;
// Store the name of the shape
iInfo - > MustDelete = true ;
iInfo - > Saved . ShapeFilename = cameraName ;
iInfo - > Saved . SkeletonId = 0xffffffff ;
iInfo - > Saved . CameraInfo = cameraInfo ;
iInfo - > Saved . Camera = true ;
_ListInstance . push_back ( iInfo ) ;
_Cameras . push_back ( ( uint ) _ListInstance . size ( ) - 1 ) ;
// Reinit camera
initCamera ( ) ;
// Return the instance index
return ( uint ) _ListInstance . size ( ) - 1 ;
}
// ***************************************************************************
uint CObjectViewer : : addSkel ( NL3D : : IShape * pSkelShape , const char * skelName )
{
AFX_MANAGE_STATE ( AfxGetStaticModuleState ( ) ) ;
// *** Add the shape
// Store the shape pointer
if ( CNELU : : ShapeBank - > getPresentState ( skelName ) ! = CShapeBank : : NotPresent )
{
delete pSkelShape ;
}
else
CNELU : : ShapeBank - > add ( skelName , CSmartPtr < IShape > ( pSkelShape ) ) ;
// Create a model and add it to the scene
CTransformShape * pTrShape = CNELU : : Scene - > createInstance ( skelName ) ;
nlassert ( pTrShape ) ;
// link to the root for manipulation
_SceneRoot - > hrcLinkSon ( pTrShape ) ;
// Get the real shape used by the instance.
pSkelShape = pTrShape - > Shape ;
// Get a skeleton model
CSkeletonModel * skelModel = dynamic_cast < CSkeletonModel * > ( pTrShape ) ;
// Is a skel ?
if ( skelModel )
{
// Set the rot model
if ( _MainFrame - > Euler )
pTrShape - > setTransformMode ( ITransformable : : RotEuler ) ;
else
pTrShape - > setTransformMode ( ITransformable : : RotQuat ) ;
// Store the transform shape pointer
CInstanceInfo * iInfo = new CInstanceInfo ;
iInfo - > TransformShape = skelModel ;
// Store the name of the shape
iInfo - > MustDelete = true ;
iInfo - > Saved . ShapeFilename = skelName ;
iInfo - > Saved . IsSkeleton = true ;
iInfo - > Saved . SkeletonId = 0xffffffff ;
_ListInstance . push_back ( iInfo ) ;
// set this skeleton for Skeleton Scale edition
_SkeletonScaleDlg - > setSkeletonToEdit ( skelModel , skelName ) ;
// Return the instance
return ( uint ) _ListInstance . size ( ) - 1 ;
}
return 0xffffffff ;
}
// ***************************************************************************
IObjectViewer * IObjectViewer : : getInterface ( int version )
{
AFX_MANAGE_STATE ( AfxGetStaticModuleState ( ) ) ;
// Check version number
if ( version ! = OBJECT_VIEWER_VERSION )
{
MessageBox ( NULL , " Bad version of object_viewer.dll. " , " NeL object viewer " , MB_ICONEXCLAMATION | MB_OK ) ;
return NULL ;
}
else
return new CObjectViewer ;
}
// ***************************************************************************
void IObjectViewer : : releaseInterface ( IObjectViewer * view )
{
AFX_MANAGE_STATE ( AfxGetStaticModuleState ( ) ) ;
delete view ;
}
// ***************************************************************************
void CObjectViewer : : setSingleAnimation ( NL3D : : CAnimation * pAnim , const char * name , uint instance )
{
AFX_MANAGE_STATE ( AfxGetStaticModuleState ( ) ) ;
if ( instance < _ListInstance . size ( ) )
{
// Set active
_SelectedObject = instance ;
// Add the animation
addAnimation ( pAnim , ( name + std : : string ( " .anim " ) ) . c_str ( ) , name , instance ) ;
// Add the animation to the animationSet
_AnimationSetDlg - > UpdateData ( TRUE ) ;
_AnimationSetDlg - > UseMixer = 1 ;
_AnimationSetDlg - > UpdateData ( FALSE ) ;
// Set the animation in the first slot
_ListInstance [ instance ] - > Saved . SlotInfo [ 0 ] . Animation = name ;
_ListInstance [ instance ] - > Saved . SlotInfo [ 0 ] . Skeleton = " " ;
_ListInstance [ instance ] - > Saved . SlotInfo [ 0 ] . Offset = 0 ;
_ListInstance [ instance ] - > Saved . SlotInfo [ 0 ] . StartTime = ( int ) ( pAnim - > getBeginTime ( ) * _AnimationDlg - > Speed ) ;
_ListInstance [ instance ] - > Saved . SlotInfo [ 0 ] . EndTime = ( int ) ( pAnim - > getEndTime ( ) * _AnimationDlg - > Speed ) ;
_ListInstance [ instance ] - > Saved . SlotInfo [ 0 ] . StartBlend = 1.f ;
_ListInstance [ instance ] - > Saved . SlotInfo [ 0 ] . EndBlend = 1.f ;
_ListInstance [ instance ] - > Saved . SlotInfo [ 0 ] . Enable = true ;
for ( uint i = 1 ; i < CChannelMixer : : NumAnimationSlot ; i + + )
_ListInstance [ instance ] - > Saved . SlotInfo [ i ] . Enable = false ;
// Update dialog box
_AnimationSetDlg - > refresh ( TRUE ) ;
_SlotDlg - > refresh ( TRUE ) ;
_SoundAnimDlg - > refresh ( TRUE ) ;
// Reinit
reinitChannels ( ) ;
}
}
// ***************************************************************************
void CObjectViewer : : setAutoAnimation ( NL3D : : CAnimationSet * pAnimSet )
{
CNELU : : Scene - > setAutomaticAnimationSet ( pAnimSet ) ;
}
// ***************************************************************************
void CObjectViewer : : setAmbientColor ( const NLMISC : : CRGBA & color )
{
CNELU : : Driver - > setAmbientColor ( color ) ;
// Setup also Scene lighting system here, even if not used.
CNELU : : Scene - > setAmbientGlobal ( color ) ;
}
// ***************************************************************************
void CObjectViewer : : setLight ( unsigned char id , const NL3D : : CLight & light )
{
CNELU : : Driver - > enableLight ( id ) ;
CNELU : : Driver - > setLight ( id , light ) ;
}
// ***************************************************************************
/** add an object that will be notified each time a frame is processed
* \ see removeMainLoopCallBack ( )
*/
void CObjectViewer : : registerMainLoopCallBack ( IMainLoopCallBack * i )
{
// nlassert(std::find(_CallBackList.begin(), _CallBackList.end(), i) == _CallBackList.begin()); // the object was register twice !!
_CallBackList . push_back ( i ) ;
}
/// remove an object that was registered with registerMainLoopCallBack()
void CObjectViewer : : removeMainLoopCallBack ( IMainLoopCallBack * i )
{
std : : vector < IMainLoopCallBack * > : : iterator it = std : : find ( _CallBackList . begin ( ) , _CallBackList . end ( ) , i ) ;
nlassert ( it ! = _CallBackList . end ( ) ) ; // this object wasn't registered
_CallBackList . erase ( it ) ;
}
// ***************************************************************************
void CObjectViewer : : activateTextureSet ( uint index )
{
AFX_MANAGE_STATE ( AfxGetStaticModuleState ( ) ) ;
std : : vector < CInstanceInfo * > : : iterator it ;
for ( it = _ListInstance . begin ( ) ; it ! = _ListInstance . end ( ) ; + + it )
{
NL3D : : CTransformShape * trShape = ( * it ) - > TransformShape ;
if ( dynamic_cast < NL3D : : CMeshBaseInstance * > ( trShape ) )
{
static_cast < NL3D : : CMeshBaseInstance * > ( trShape ) - > selectTextureSet ( index ) ;
}
}
}
// ***************************************************************************
void CObjectViewer : : shuffleTextureSet ( )
{
AFX_MANAGE_STATE ( AfxGetStaticModuleState ( ) ) ;
std : : vector < CInstanceInfo * > : : iterator it ;
for ( it = _ListInstance . begin ( ) ; it ! = _ListInstance . end ( ) ; + + it )
{
NL3D : : CTransformShape * trShape = ( * it ) - > TransformShape ;
if ( dynamic_cast < NL3D : : CMeshBaseInstance * > ( trShape ) )
{
static_cast < NL3D : : CMeshBaseInstance * > ( trShape ) - > selectTextureSet ( rand ( ) % 8 ) ;
}
}
}
// ***************************************************************************
void CObjectViewer : : removeAllInstancesFromScene ( )
{
AFX_MANAGE_STATE ( AfxGetStaticModuleState ( ) ) ;
// Remove all stand alone TransformShapes.
for ( uint instance = 0 ; instance < _ListInstance . size ( ) ; instance + + )
{
delete _ListInstance [ instance ] ;
}
// Remove all stand alone TransformShapes.
_ListInstance . clear ( ) ;
_Cameras . clear ( ) ;
_CurrentCamera = - 1 ;
_SelectedObject = 0xffffffff ;
// Remove added/loaded igs and their instances.
for ( uint igId = 0 ; igId < _ListIG . size ( ) ; igId + + )
{
// remove instances.
_ListIG [ igId ] - > removeFromScene ( * CNELU : : Scene ) ;
// free up the ig.
delete _ListIG [ igId ] ;
}
_ListIG . clear ( ) ;
// clear dynamic lighting test
_GlobalRetriever = NULL ;
CNELU : : Scene - > deleteInstance ( _ObjectLightTest ) ;
_ObjectLightTest = NULL ;
// Reset mesh cache
CNELU : : ShapeBank - > reset ( ) ;
// Invalidate dialogs
if ( CNELU : : Driver - > isActive ( ) )
{
_AnimationSetDlg - > refresh ( TRUE ) ;
_SlotDlg - > refresh ( TRUE ) ;
_SoundAnimDlg - > refresh ( TRUE ) ;
}
// remove any skeleton edited
if ( _InstanceRunning )
_SkeletonScaleDlg - > setSkeletonToEdit ( NULL , " " ) ;
}
// ***************************************************************************
void CObjectViewer : : enableFXs ( bool enabled )
{
// Stand alone fxs
for ( uint instance = 0 ; instance < _ListInstance . size ( ) ; instance + + )
{
NL3D : : CSegRemanence * sr = dynamic_cast < NL3D : : CSegRemanence * > ( _ListInstance [ instance ] - > TransformShape ) ;
if ( sr )
{
if ( enabled ) sr - > start ( ) ;
else sr - > stop ( ) ;
}
}
// remanences in igs
for ( uint igId = 0 ; igId < _ListIG . size ( ) ; + + igId )
{
for ( uint k = 0 ; k < _ListIG [ igId ] - > _Instances . size ( ) ; + + k )
{
NL3D : : CSegRemanence * sr = dynamic_cast < NL3D : : CSegRemanence * > ( _ListIG [ igId ] - > _Instances [ k ] ) ;
if ( sr )
{
if ( enabled ) sr - > start ( ) ;
else sr - > stop ( ) ;
}
}
}
}
// ***************************************************************************
void CObjectViewer : : evalSoundTrack ( float lastTime , float currentTime )
{
// Gor each object
for ( uint i = 0 ; i < _ListInstance . size ( ) ; i + + )
{
// Some animation in the list ?
if ( _ListInstance [ i ] - > Saved . PlayList . size ( ) > 0 )
{
// Accumul time
float startTime = 0 ;
float endTime = 0 ;
// Get start time of the animation that starts before the current time
for ( uint index = 0 ; index < _ListInstance [ i ] - > Saved . PlayList . size ( ) ; index + + )
{
// Pointer on the animation
string & name = _ListInstance [ i ] - > Saved . PlayList [ index ] ;
CAnimation * anim = _ListInstance [ i ] - > AnimationSet . getAnimation ( _ListInstance [ i ] - > AnimationSet . getAnimationIdByName ( name ) ) ;
// Add start time
startTime = endTime ;
endTime = startTime + anim - > getEndTime ( ) - anim - > getBeginTime ( ) ;
if ( ( startTime < = currentTime ) & & ( currentTime < endTime ) )
{
// setup the sound context
DWORD tab [ ] = { IDC_ARG0 , IDC_ARG1 , IDC_ARG2 , IDC_ARG3 , } ;
for ( uint i = 0 ; i < 4 ; i + + )
{
CEdit * edit = ( CEdit * ) _SoundAnimDlg - > GetDlgItem ( tab [ i ] ) ;
nlassert ( edit ) ;
char str [ 1024 ] ;
edit - > GetLine ( 0 , str , 1024 ) ;
SoundContext . Args [ i ] = atoi ( str ) ;
}
// get the position of the skel if a skel is available
if ( SkeletonUsedForSound ! = 0xFFFFFFFF )
{
const CMatrix & m = _ListInstance [ SkeletonUsedForSound ] - > TransformShape - > getMatrix ( ) ;
SoundContext . Position = m . getPos ( ) ;
}
else
{
SoundContext . Position = CVector : : Null ;
}
CSoundSystem : : playAnimation ( name , lastTime - startTime , currentTime - startTime , SoundContext ) ;
}
}
}
}
}
// ***************************************************************************
/*
void CObjectViewer : : evalSoundTrack ( float lastTime , float currentTime )
{
if ( lastTime ! = currentTime )
{
// For each objects
for ( uint instance = 0 ; instance < _ListInstance . size ( ) ; instance + + )
{
// For each channel of the mixer
for ( uint slot = 0 ; slot < CChannelMixer : : NumAnimationSlot ; slot + + )
{
// Anim id
uint animId = _ListInstance [ instance ] - > Playlist . getAnimation ( slot ) ;
// Channel actif ?
if ( animId ! = CAnimationPlaylist : : empty )
{
// Get the animation
CAnimation * anim = _ListInstance [ instance ] - > AnimationSet . getAnimation ( animId ) ;
nlassert ( anim ) ;
// Get the sound track
uint trackId = anim - > getIdTrackByName ( " NoteTrack " ) ;
if ( trackId ! = CAnimation : : NotFound )
{
// Get the track
ITrack * track = anim - > getTrack ( trackId ) ;
nlassert ( track ) ;
// Dynamic cast
UTrackKeyframer * soundTrackKF = dynamic_cast < UTrackKeyframer * > ( track ) ;
if ( soundTrackKF )
{
// Sound keys
std : : vector < TAnimationTime > result ;
// Get local begin and endTime
TAnimationTime localLastTime = _ListInstance [ instance ] - > Playlist . getLocalTime ( slot , lastTime , _ListInstance [ instance ] - > AnimationSet ) ;
TAnimationTime localCurrentTime = _ListInstance [ instance ] - > Playlist . getLocalTime ( slot , currentTime , _ListInstance [ instance ] - > AnimationSet ) ;
// Good interval
if ( localLastTime < = localCurrentTime )
{
// Get keys in this interval
soundTrackKF - > getKeysInRange ( localLastTime , localCurrentTime , result ) ;
}
else
{
// Get begin and last time
TAnimationTime beginTime = track - > getBeginTime ( ) ;
TAnimationTime endTime = track - > getEndTime ( ) ;
// Time must have been clamped
nlassert ( localCurrentTime < = endTime ) ;
nlassert ( localLastTime > = beginTime ) ;
// Get keys to the end
soundTrackKF - > getKeysInRange ( localCurrentTime , endTime , result ) ;
// Get keys at the beginning
soundTrackKF - > getKeysInRange ( beginTime , localLastTime , result ) ;
}
// Process sounds
NLSOUND : : UAudioMixer * audioMixer = CSoundSystem : : getAudioMixer ( ) ;
if ( audioMixer )
{
vector < TAnimationTime > : : iterator itResult ;
for ( itResult = result . begin ( ) ; itResult ! = result . end ( ) ; + + itResult )
{
string soundName ;
double keyTime = * itResult ;
nlinfo ( " keyTime = %f result size : %d " , * itResult , result . size ( ) ) ;
if ( ! track - > interpolate ( * itResult , soundName ) )
{
nlwarning ( " The key at offset %f is not a string " , * itResult ) ;
}
else
{
// if there are step sounds
if ( soundName = = " step " )
{
// need to spawn a sound linked to the anim
string dummySound = " PAShommecourseappartdur1a " ;
USource * source = audioMixer - > createSource ( dummySound . c_str ( ) , true ) ;
if ( source )
{
source - > setPos ( CVector : : Null ) ;
source - > play ( ) ;
nlinfo ( " launching dummy sound %s for the step event " , dummySound . c_str ( ) ) ;
}
else
{
nlwarning ( " sound not found for the step event: '%s' " , dummySound . c_str ( ) ) ;
}
}
else if ( soundName . find ( " snd_ " ) ! = string : : npos )
{
// need to spawn a sound linked to the anim
USource * source = audioMixer - > createSource ( soundName . c_str ( ) , true ) ;
if ( source )
{
source - > setPos ( CVector : : Null ) ;
source - > play ( ) ;
nlinfo ( " launching sound for anim event from notetrack '%s' " , soundName . c_str ( ) ) ;
}
else
{
nlwarning ( " sound not found: '%s' " , soundName . c_str ( ) ) ;
}
}
else
{
nlwarning ( " unknown notetrack event: '%s' " , soundName . c_str ( ) ) ;
}
}
}
}
}
}
}
}
}
}
}
*/
// ***************************************************************************
uint CObjectViewer : : addInstanceGroup ( NL3D : : CInstanceGroup * ig )
{
// First instance
uint first = ( uint ) _ListInstance . size ( ) ;
// Add all models to the scene
ig - > addToScene ( * CNELU : : Scene , CNELU : : Driver ) ;
// Unfreeze all objects from HRC.
ig - > unfreezeHRC ( ) ;
// link the root of the IG to our root, for scene rotation
ig - > linkRoot ( * CNELU : : Scene , _SceneRoot ) ;
// Keep a reference on them, but they'll be destroyed by IG.
for ( uint k = 0 ; k < ig - > getNumInstance ( ) ; + + k )
{
CInstanceInfo * iInfo = new CInstanceInfo ;
iInfo - > TransformShape = ig - > _Instances [ k ] ;
iInfo - > Saved . ShapeFilename = ig - > _InstancesInfos [ k ] . Name ;
iInfo - > MustDelete = false ;
_ListInstance . push_back ( iInfo ) ;
}
// Add the ig to the list.
_ListIG . push_back ( ig ) ;
// Return first instance
return first ;
}
// ***************************************************************************
void CObjectViewer : : setupSceneLightingSystem ( bool enable , const NLMISC : : CVector & sunDir , NLMISC : : CRGBA sunAmbiant , NLMISC : : CRGBA sunDiffuse , NLMISC : : CRGBA sunSpecular )
{
CNELU : : Scene - > enableLightingSystem ( enable ) ;
// Setup sun.
CNELU : : Scene - > setSunAmbient ( sunAmbiant ) ;
CNELU : : Scene - > setSunDiffuse ( sunDiffuse ) ;
CNELU : : Scene - > setSunSpecular ( sunSpecular ) ;
CNELU : : Scene - > setSunDirection ( sunDir ) ;
}
// ***************************************************************************
void CObjectViewer : : enableDynamicObjectLightingTest ( NLPACS : : CGlobalRetriever * globalRetriever , NL3D : : CInstanceGroup * ig )
{
AFX_MANAGE_STATE ( AfxGetStaticModuleState ( ) ) ;
// first delete the instance
if ( _ObjectLightTest )
{
CNELU : : Scene - > deleteInstance ( _ObjectLightTest ) ;
_ObjectLightTest = NULL ;
}
_GlobalRetriever = globalRetriever ;
// if enabled
if ( _GlobalRetriever )
{
nlassert ( ig ) ;
// this mesh is the dynamic one to move around.
_ObjectLightTest = CNELU : : Scene - > createInstance ( _ObjectLightTestShape ) ;
if ( _ObjectLightTest ! = NULL )
{
// link to the root for manipulation
_SceneRoot - > hrcLinkSon ( _ObjectLightTest ) ;
// setup the matrix.
_ObjectLightTestMatrix = _ObjectLightTest - > getMatrix ( ) ;
// setup the logic info.
_ObjectLightTestLogicInfo . GlobalRetriever = _GlobalRetriever ;
_ObjectLightTestLogicInfo . Ig = ig ;
// Default the GPos to uninitialized
_ObjectLightTestLogicInfo . GPos . InstanceId = - 1 ;
_ObjectLightTest - > setLogicInfo ( & _ObjectLightTestLogicInfo ) ;
}
else
{
if ( ! _ObjectLightTestShape . empty ( ) )
{
string str = string ( " Path not found for Light Test Shape: " ) + _ObjectLightTestShape ;
: : MessageBox ( NULL , str . c_str ( ) , " Dynamic Object Light Test " , MB_OK | MB_ICONEXCLAMATION ) ;
}
// disable.
_ObjectLightTest = NULL ;
_GlobalRetriever = NULL ;
}
}
}
// ***************************************************************************
void CObjectViewer : : COVLogicInfo : : getStaticLightSetup ( NLMISC : : CRGBA sunAmbient , std : : vector < CPointLightInfluence > & pointLightList , uint8 & sunContribution , CRGBA & ambient )
{
Ig - > getStaticLightSetup ( sunAmbient , GlobalRetriever - > getLocalRetrieverId ( GPos ) ,
GPos . LocalPosition . Surface ,
GPos . LocalPosition . Estimation ,
pointLightList , sunContribution , ambient ) ;
}
// ***************************************************************************
// ***************************************************************************
// Vegetable Landscape Part.
// ***************************************************************************
// ***************************************************************************
// ***************************************************************************
void CObjectViewer : : loadVegetableLandscapeCfg ( NLMISC : : CConfigFile & cf )
{
// vegetable display is true by default.
_VegetableEnabled = true ;
_VegetableSnapToGround = true ;
// Load landscape setup
// --------------
try
{
// tileBank setup.
CConfigFile : : CVar & tileBank = cf . getVar ( " veget_tile_bank " ) ;
_VegetableLandscapeTileBank = tileBank . asString ( ) ;
CConfigFile : : CVar & tileFarBank = cf . getVar ( " veget_tile_far_bank " ) ;
_VegetableLandscapeTileFarBank = tileFarBank . asString ( ) ;
// zone list.
_VegetableLandscapeZoneNames . clear ( ) ;
CConfigFile : : CVar & zones = cf . getVar ( " veget_landscape_zones " ) ;
for ( uint i = 0 ; i < ( uint ) zones . size ( ) ; i + + )
_VegetableLandscapeZoneNames . push_back ( zones . asString ( i ) . c_str ( ) ) ;
}
catch ( EUnknownVar & )
{
_VegetableLandscapeTileBank . clear ( ) ;
_VegetableLandscapeTileFarBank . clear ( ) ;
_VegetableLandscapeZoneNames . clear ( ) ;
}
// Load Landscape params.
// --------------
// threshold
try
{
CConfigFile : : CVar & thre = cf . getVar ( " veget_landscape_threshold " ) ;
_VegetableLandscapeThreshold = thre . asFloat ( ) ;
// clamp to avoid divide/0.
_VegetableLandscapeThreshold = max ( _VegetableLandscapeThreshold , 0.001f ) ;
}
catch ( EUnknownVar & )
{
_VegetableLandscapeThreshold = 0.003f ;
}
// tilenear
try
{
CConfigFile : : CVar & tileNear = cf . getVar ( " veget_landscape_tile_near " ) ;
_VegetableLandscapeTileNear = tileNear . asFloat ( ) ;
}
catch ( EUnknownVar & )
{
_VegetableLandscapeTileNear = 50 ;
}
// ambient
try
{
CConfigFile : : CVar & color = cf . getVar ( " veget_landscape_ambient " ) ;
_VegetableLandscapeAmbient . R = color . asInt ( 0 ) ;
_VegetableLandscapeAmbient . G = color . asInt ( 1 ) ;
_VegetableLandscapeAmbient . B = color . asInt ( 2 ) ;
}
catch ( EUnknownVar & )
{
_VegetableLandscapeAmbient . set ( 80 , 80 , 80 ) ;
}
// diffuse
try
{
CConfigFile : : CVar & color = cf . getVar ( " veget_landscape_diffuse " ) ;
_VegetableLandscapeDiffuse . R = color . asInt ( 0 ) ;
_VegetableLandscapeDiffuse . G = color . asInt ( 1 ) ;
_VegetableLandscapeDiffuse . B = color . asInt ( 2 ) ;
}
catch ( EUnknownVar & )
{
_VegetableLandscapeDiffuse . set ( 255 , 255 , 255 ) ;
}
// Snapping
try
{
CConfigFile : : CVar & var = cf . getVar ( " veget_landscape_snap_height " ) ;
_VegetableSnapHeight = var . asFloat ( ) ;
}
catch ( EUnknownVar & )
{
_VegetableSnapHeight = 1.70f ;
}
// Load Vegetable params.
// --------------
// vegetable texture
try
{
CConfigFile : : CVar & var = cf . getVar ( " veget_texture " ) ;
_VegetableTexture = var . asString ( ) ;
}
catch ( EUnknownVar & )
{
_VegetableTexture = " " ;
}
// vegetable ambient
try
{
CConfigFile : : CVar & color = cf . getVar ( " veget_ambient " ) ;
_VegetableAmbient . R = color . asInt ( 0 ) ;
_VegetableAmbient . G = color . asInt ( 1 ) ;
_VegetableAmbient . B = color . asInt ( 2 ) ;
}
catch ( EUnknownVar & )
{
_VegetableAmbient . set ( 80 , 80 , 80 ) ;
}
// vegetable diffuse
try
{
CConfigFile : : CVar & color = cf . getVar ( " veget_diffuse " ) ;
// setup to behave correclty ie as maxLightFactor:
sint R = color . asInt ( 0 ) - _VegetableAmbient . R ; clamp ( R , 0 , 255 ) ; _VegetableDiffuse . R = R ;
sint G = color . asInt ( 1 ) - _VegetableAmbient . G ; clamp ( G , 0 , 255 ) ; _VegetableDiffuse . G = G ;
sint B = color . asInt ( 2 ) - _VegetableAmbient . B ; clamp ( B , 0 , 255 ) ; _VegetableDiffuse . B = B ;
}
catch ( EUnknownVar & )
{
sint R = 255 - _VegetableAmbient . R ; clamp ( R , 0 , 255 ) ; _VegetableDiffuse . R = R ;
sint G = 255 - _VegetableAmbient . G ; clamp ( G , 0 , 255 ) ; _VegetableDiffuse . G = G ;
sint B = 255 - _VegetableAmbient . B ; clamp ( B , 0 , 255 ) ; _VegetableDiffuse . B = B ;
}
// vegetable lightDir
try
{
CConfigFile : : CVar & var = cf . getVar ( " veget_light_dir " ) ;
_VegetableLightDir . x = var . asFloat ( 0 ) ;
_VegetableLightDir . y = var . asFloat ( 1 ) ;
_VegetableLightDir . z = var . asFloat ( 2 ) ;
_VegetableLightDir . normalize ( ) ;
}
catch ( EUnknownVar & )
{
_VegetableLightDir . set ( 0 , 1 , - 1 ) ;
_VegetableLightDir . normalize ( ) ;
}
// windDir
try
{
CConfigFile : : CVar & var = cf . getVar ( " veget_wind_dir " ) ;
_VegetableWindDir . x = var . asFloat ( 0 ) ;
_VegetableWindDir . y = var . asFloat ( 1 ) ;
_VegetableWindDir . z = var . asFloat ( 2 ) ;
}
catch ( EUnknownVar & )
{
_VegetableWindDir . x = 0.5f ;
_VegetableWindDir . y = 0.5f ;
_VegetableWindDir . z = 0 ;
}
// windFreq
try
{
CConfigFile : : CVar & var = cf . getVar ( " veget_wind_freq " ) ;
_VegetableWindFreq = var . asFloat ( ) ;
}
catch ( EUnknownVar & )
{
_VegetableWindFreq = 0.5 ;
}
// windPower
try
{
CConfigFile : : CVar & var = cf . getVar ( " veget_wind_power " ) ;
_VegetableWindPower = var . asFloat ( ) ;
}
catch ( EUnknownVar & )
{
_VegetableWindPower = 1 ;
}
// windBendMin
try
{
CConfigFile : : CVar & var = cf . getVar ( " veget_wind_bend_min " ) ;
_VegetableWindBendMin = var . asFloat ( ) ;
}
catch ( EUnknownVar & )
{
_VegetableWindBendMin = 0 ;
}
}
// ***************************************************************************
bool CObjectViewer : : createVegetableLandscape ( )
{
// If not already done.
if ( ! _VegetableLandscape )
{
// create the landscape.
_VegetableLandscape = static_cast < CLandscapeModel * > ( CNELU : : Scene - > createModel ( LandscapeModelId ) ) ;
// Create a Progress Dialog.
CDialogProgress dlgProgress ;
dlgProgress . Create ( CDialogProgress : : IDD , _MainFrame ) ;
dlgProgress . ShowWindow ( true ) ;
try
{
if ( _VegetableLandscapeTileBank = = " " )
{
throw Exception ( " Landscape CFG not fully defined " ) ;
}
// Load The Bank files (copied from CLandscapeUser :) ).
// ================
// progress
dlgProgress . ProgressText . SetWindowText ( " Loading TileBanks... " ) ;
dlgProgress . ProgressBar . SetPos ( 0 ) ;
// load
CIFile bankFile ( CPath : : lookup ( _VegetableLandscapeTileBank ) ) ;
_VegetableLandscape - > Landscape . TileBank . serial ( bankFile ) ;
_VegetableLandscape - > Landscape . TileBank . makeAllPathRelative ( ) ;
_VegetableLandscape - > Landscape . TileBank . makeAllExtensionDDS ( ) ;
_VegetableLandscape - > Landscape . TileBank . setAbsPath ( " " ) ;
// progress
dlgProgress . ProgressBar . SetPos ( 50 ) ;
// load
CIFile farbankFile ( CPath : : lookup ( _VegetableLandscapeTileFarBank ) ) ;
_VegetableLandscape - > Landscape . TileFarBank . serial ( farbankFile ) ;
if ( ! _VegetableLandscape - > Landscape . initTileBanks ( ) )
{
nlwarning ( " You need to recompute bank.farbank for the far textures " ) ;
}
bankFile . close ( ) ;
farbankFile . close ( ) ;
// flushTiles.
// ================
if ( CNELU : : Driver )
{
// progress
dlgProgress . ProgressText . SetWindowText ( " Loading Tiles... " ) ;
dlgProgress . ProgressBar . SetPos ( 0 ) ;
// count nbText to load.
sint ts ;
sint nbTextTotal = 0 ;
for ( ts = 0 ; ts < _VegetableLandscape - > Landscape . TileBank . getTileSetCount ( ) ; ts + + )
{
CTileSet * tileSet = _VegetableLandscape - > Landscape . TileBank . getTileSet ( ts ) ;
nbTextTotal + = tileSet - > getNumTile128 ( ) ;
nbTextTotal + = tileSet - > getNumTile256 ( ) ;
nbTextTotal + = CTileSet : : count ;
}
// load.
sint nbTextDone = 0 ;
for ( ts = 0 ; ts < _VegetableLandscape - > Landscape . TileBank . getTileSetCount ( ) ; ts + + )
{
CTileSet * tileSet = _VegetableLandscape - > Landscape . TileBank . getTileSet ( ts ) ;
sint tl ;
for ( tl = 0 ; tl < tileSet - > getNumTile128 ( ) ; tl + + , nbTextDone + + )
{
_VegetableLandscape - > Landscape . flushTiles ( CNELU : : Driver , ( uint16 ) tileSet - > getTile128 ( tl ) , 1 ) ;
dlgProgress . ProgressBar . SetPos ( nbTextDone * 100 / nbTextTotal ) ;
}
for ( tl = 0 ; tl < tileSet - > getNumTile256 ( ) ; tl + + , nbTextDone + + )
{
_VegetableLandscape - > Landscape . flushTiles ( CNELU : : Driver , ( uint16 ) tileSet - > getTile256 ( tl ) , 1 ) ;
dlgProgress . ProgressBar . SetPos ( nbTextDone * 100 / nbTextTotal ) ;
}
for ( tl = 0 ; tl < CTileSet : : count ; tl + + , nbTextDone + + )
{
_VegetableLandscape - > Landscape . flushTiles ( CNELU : : Driver , ( uint16 ) tileSet - > getTransition ( tl ) - > getTile ( ) , 1 ) ;
dlgProgress . ProgressBar . SetPos ( nbTextDone * 100 / nbTextTotal ) ;
}
}
}
// misc setup.
// ================
_VegetableLandscape - > Landscape . setThreshold ( _VegetableLandscapeThreshold ) ;
_VegetableLandscape - > Landscape . setTileNear ( _VegetableLandscapeTileNear ) ;
_VegetableLandscape - > Landscape . setupStaticLight ( _VegetableLandscapeDiffuse , _VegetableLandscapeAmbient , 1 ) ;
_VegetableLandscape - > Landscape . loadVegetableTexture ( _VegetableTexture ) ;
_VegetableLandscape - > Landscape . setupVegetableLighting ( _VegetableAmbient , _VegetableDiffuse , _VegetableLightDir ) ;
_VegetableLandscape - > Landscape . setVegetableWind ( _VegetableWindDir , _VegetableWindFreq , _VegetableWindPower , _VegetableWindBendMin ) ;
// Load the zones.
// ================
// landscape recentering.
bool zoneLoaded = false ;
CAABBox landscapeBBox ;
// progress
dlgProgress . ProgressText . SetWindowText ( " Loading Zones... " ) ;
dlgProgress . ProgressBar . SetPos ( 0 ) ;
uint nbZones = ( uint ) _VegetableLandscapeZoneNames . size ( ) ;
for ( uint i = 0 ; i < nbZones ; i + + )
{
// open the file
CIFile zoneFile ( CPath : : lookup ( _VegetableLandscapeZoneNames [ i ] ) ) ;
CZone zone ;
// load
zoneFile . serial ( zone ) ;
// append to landscape
_VegetableLandscape - > Landscape . addZone ( zone ) ;
// progress
dlgProgress . ProgressBar . SetPos ( i * 100 / nbZones ) ;
// Add to the bbox.
if ( ! zoneLoaded )
{
zoneLoaded = true ;
landscapeBBox . setCenter ( zone . getZoneBB ( ) . getCenter ( ) ) ;
}
else
landscapeBBox . extend ( zone . getZoneBB ( ) . getCenter ( ) ) ;
}
// After All zone loaded, recenter the mouse listener on the landscape.
if ( zoneLoaded )
{
CMatrix matrix ;
_MouseListener . setHotSpot ( landscapeBBox . getCenter ( ) ) ;
matrix . setPos ( landscapeBBox . getCenter ( ) ) ;
matrix . rotateX ( - ( float ) Pi / 4 ) ;
matrix . translate ( CVector ( 0 , - 1000 , 0 ) ) ;
_MouseListener . setMatrix ( matrix ) ;
}
// Create collisions objects.
_VegetableCollisionManager = new CVisualCollisionManager ;
_VegetableCollisionManager - > setLandscape ( & _VegetableLandscape - > Landscape ) ;
_VegetableCollisionEntity = _VegetableCollisionManager - > createEntity ( ) ;
}
catch ( Exception & e )
{
// close the progress dialog
dlgProgress . DestroyWindow ( ) ;
MessageBox ( _MainFrame - > m_hWnd , e . what ( ) , " Failed to Load landscape " , MB_OK | MB_APPLMODAL ) ;
// remove first possibly created collisions objects.
if ( _VegetableCollisionEntity )
{
_VegetableCollisionManager - > deleteEntity ( _VegetableCollisionEntity ) ;
_VegetableCollisionEntity = NULL ;
}
if ( _VegetableCollisionManager )
{
delete _VegetableCollisionManager ;
_VegetableCollisionManager = NULL ;
}
// remove the landscape
CNELU : : Scene - > deleteModel ( _VegetableLandscape ) ;
_VegetableLandscape = NULL ;
return false ;
}
// close the progress dialog
dlgProgress . DestroyWindow ( ) ;
}
return true ;
}
// ***************************************************************************
void CObjectViewer : : showVegetableLandscape ( )
{
if ( _VegetableLandscape )
{
_VegetableLandscape - > show ( ) ;
}
}
// ***************************************************************************
void CObjectViewer : : hideVegetableLandscape ( )
{
if ( _VegetableLandscape )
{
_VegetableLandscape - > hide ( ) ;
}
}
// ***************************************************************************
void CObjectViewer : : enableLandscapeVegetable ( bool enable )
{
// update
_VegetableEnabled = enable ;
// update view.
if ( _VegetableLandscape )
{
_VegetableLandscape - > Landscape . enableVegetable ( _VegetableEnabled ) ;
}
}
// ***************************************************************************
void CObjectViewer : : refreshVegetableLandscape ( const NL3D : : CTileVegetableDesc & tvdesc )
{
// if landscape is displayed.
if ( _VegetableLandscape )
{
// first disable the vegetable, to delete any vegetation
_VegetableLandscape - > Landscape . enableVegetable ( false ) ;
// Then change all the tileSet of all the TileBanks.
for ( sint ts = 0 ; ts < _VegetableLandscape - > Landscape . TileBank . getTileSetCount ( ) ; ts + + )
{
CTileSet * tileSet = _VegetableLandscape - > Landscape . TileBank . getTileSet ( ts ) ;
// change the vegetableTileDesc of this tileSet.
tileSet - > setTileVegetableDesc ( tvdesc ) ;
}
// re-Enable the vegetable (if wanted).
_VegetableLandscape - > Landscape . enableVegetable ( _VegetableEnabled ) ;
}
}
// ***************************************************************************
void CObjectViewer : : setVegetableWindPower ( float w )
{
_VegetableWindPower = w ;
if ( _VegetableLandscape )
_VegetableLandscape - > Landscape . setVegetableWind ( _VegetableWindDir , _VegetableWindFreq , _VegetableWindPower , _VegetableWindBendMin ) ;
}
// ***************************************************************************
void CObjectViewer : : setVegetableWindBendStart ( float w )
{
_VegetableWindBendMin = w ;
if ( _VegetableLandscape )
_VegetableLandscape - > Landscape . setVegetableWind ( _VegetableWindDir , _VegetableWindFreq , _VegetableWindPower , _VegetableWindBendMin ) ;
}
// ***************************************************************************
void CObjectViewer : : setVegetableWindFrequency ( float w )
{
_VegetableWindFreq = w ;
if ( _VegetableLandscape )
_VegetableLandscape - > Landscape . setVegetableWind ( _VegetableWindDir , _VegetableWindFreq , _VegetableWindPower , _VegetableWindBendMin ) ;
}
// ***************************************************************************
void CObjectViewer : : snapToGroundVegetableLandscape ( bool enable )
{
// update
_VegetableSnapToGround = enable ;
}
// ***************************************************************************
CInstanceInfo : : CInstanceInfo ( )
{
TransformShape = NULL ;
Camera = NULL ;
MustDelete = false ;
}
// ***************************************************************************
CInstanceInfo : : ~ CInstanceInfo ( )
{
if ( MustDelete )
{
if ( TransformShape )
CNELU : : Scene - > deleteInstance ( TransformShape ) ;
if ( Camera )
CNELU : : Scene - > deleteModel ( Camera ) ;
}
}
// ***************************************************************************
CSlotInfo : : CSlotInfo ( )
{
StartTime = 0 ;
EndTime = 0 ;
Offset = 0 ;
StartBlend = 1 ;
EndBlend = 1 ;
Smoothness = 1 ;
SpeedFactor = 1 ;
ClampMode = 0 ;
SkeletonInverted = false ;
Enable = true ;
}
// ***************************************************************************
void CSlotInfo : : serial ( NLMISC : : IStream & f )
{
f . serialVersion ( 0 ) ;
f . serial ( Animation ) ;
f . serial ( Skeleton ) ;
f . serial ( Offset ) ;
f . serial ( StartTime ) ;
f . serial ( EndTime ) ;
f . serial ( StartBlend ) ;
f . serial ( EndBlend ) ;
f . serial ( Smoothness ) ;
f . serial ( SpeedFactor ) ;
f . serial ( ClampMode ) ;
f . serial ( SkeletonInverted ) ;
f . serial ( Enable ) ;
}
// ***************************************************************************
uint CObjectViewer : : getEditedObject ( )
{
return _SelectedObject ;
}
// ***************************************************************************
void CObjectViewer : : setEditedObject ( uint selected )
{
_SelectedObject = selected ;
}
// ***************************************************************************
CInstanceInfo * CObjectViewer : : getInstance ( uint instance )
{
return _ListInstance [ instance ] ;
}
// ***************************************************************************
uint CObjectViewer : : getNumInstance ( ) const
{
return ( uint ) _ListInstance . size ( ) ;
}
// ***************************************************************************
void CInstanceInfo : : setAnimationPlaylist ( float frameRate )
{
for ( uint id = 0 ; id < NL3D : : CChannelMixer : : NumAnimationSlot ; id + + )
{
if ( Saved . SlotInfo [ id ] . Enable )
{
// Set the animation
uint animId = AnimationSet . getAnimationIdByName ( Saved . SlotInfo [ id ] . Animation ) ;
if ( animId = = CAnimationSet : : NotFound )
Playlist . setAnimation ( id , CAnimationPlaylist : : empty ) ;
else
Playlist . setAnimation ( id , animId ) ;
// Set the skeleton weight
uint skelId = AnimationSet . getSkeletonWeightIdByName ( Saved . SlotInfo [ id ] . Skeleton ) ;
if ( skelId = = CAnimationSet : : NotFound )
Playlist . setSkeletonWeight ( id , CAnimationPlaylist : : empty , false ) ;
else
Playlist . setSkeletonWeight ( id , skelId , Saved . SlotInfo [ id ] . SkeletonInverted ) ;
// Set others values
Playlist . setTimeOrigin ( id , Saved . SlotInfo [ id ] . Offset / frameRate ) ;
Playlist . setSpeedFactor ( id , Saved . SlotInfo [ id ] . SpeedFactor ) ;
Playlist . setStartWeight ( id , Saved . SlotInfo [ id ] . StartBlend , Saved . SlotInfo [ id ] . StartTime / frameRate ) ;
Playlist . setEndWeight ( id , Saved . SlotInfo [ id ] . EndBlend , Saved . SlotInfo [ id ] . EndTime / frameRate ) ;
Playlist . setWeightSmoothness ( id , Saved . SlotInfo [ id ] . Smoothness ) ;
// Switch between wrap modes
switch ( Saved . SlotInfo [ id ] . ClampMode )
{
case 0 :
Playlist . setWrapMode ( id , CAnimationPlaylist : : Clamp ) ;
break ;
case 1 :
Playlist . setWrapMode ( id , CAnimationPlaylist : : Repeat ) ;
break ;
case 2 :
Playlist . setWrapMode ( id , CAnimationPlaylist : : Disable ) ;
break ;
}
}
}
}
// ***************************************************************************
CInstanceSave : : CInstanceSave ( )
{
SkeletonId = 0xffffffff ;
IsSkeleton = false ;
Camera = false ;
}
// ***************************************************************************
void CInstanceSave : : serial ( NLMISC : : IStream & f )
{
// Serial a version
sint ver = f . serialVersion ( 1 ) ;
// Play list of this object
f . serialCont ( PlayList ) ;
// Slot info for this object
nlassert ( NL3D : : CChannelMixer : : NumAnimationSlot = = 8 ) ;
for ( uint slot = 0 ; slot < 8 ; slot + + )
// Serial the slot information
f . serial ( SlotInfo [ slot ] ) ;
// Input file
f . serial ( ShapeFilename ) ;
// Skeleton id
f . serial ( SkeletonId ) ;
// Bind bone name
f . serial ( BindBoneName ) ;
// Is a skeleton
f . serial ( IsSkeleton ) ;
// Animation input file
f . serialCont ( AnimationFileName ) ;
// Skeleton weight input file
f . serialCont ( SWTFileName ) ;
// Is a camera
if ( ver > = 1 )
{
f . serial ( Camera ) ;
f . serial ( CameraInfo ) ;
}
else if ( f . isReading ( ) )
Camera = false ;
}
// ***************************************************************************
void CObjectViewer : : refreshAnimationListeners ( )
{
_SoundAnimDlg - > refresh ( TRUE ) ;
}
// ***************************************************************************
void CObjectViewer : : addAnimation ( NL3D : : CAnimation * anim , const char * filename , const char * name , uint instance )
{
// Add an animation
uint id = _ListInstance [ instance ] - > AnimationSet . addAnimation ( name , anim ) ;
_ListInstance [ instance ] - > Saved . AnimationFileName . push_back ( filename ) ;
// Rebuild the animationSet
_ListInstance [ instance ] - > AnimationSet . build ( ) ;
if ( CNELU : : Driver & & CNELU : : ShapeBank )
{
_ListInstance [ instance ] - > AnimationSet . preloadSSSShapes ( * CNELU : : Driver , * CNELU : : ShapeBank ) ;
}
_SoundAnimDlg - > refresh ( TRUE ) ;
}
// ***************************************************************************
void CObjectViewer : : loadAnimation ( const char * fileName , uint instance )
{
// Open the file
CIFile file ;
if ( file . open ( fileName ) )
{
// Get the animation name
char name [ 256 ] ;
_splitpath ( fileName , NULL , NULL , name , NULL ) ;
// Make an animation
CAnimation * anim = new CAnimation ;
// Serial it
anim - > serial ( file ) ;
// Add the animation
addAnimation ( anim , fileName , name , instance ) ;
}
else
{
// Create a message
char msg [ 512 ] ;
_snprintf ( msg , 512 , " Can't open the file %s for reading. " , fileName ) ;
_MainFrame - > MessageBox ( msg , " NeL object viewer " , MB_OK | MB_ICONEXCLAMATION ) ;
}
}
// ***************************************************************************
void CObjectViewer : : loadSWT ( const char * fileName , uint instance )
{
// Open the file
CIFile file ;
if ( file . open ( fileName ) )
{
// Get the animation name
char name [ 256 ] ;
_splitpath ( fileName , NULL , NULL , name , NULL ) ;
// Get the skeleton pointer
CSkeletonWeight * skel = new CSkeletonWeight ;
// Serial it
skel - > serial ( file ) ;
// Add an animation
_ListInstance [ instance ] - > AnimationSet . addSkeletonWeight ( name , skel ) ;
// Add the filename in the list
_ListInstance [ instance ] - > Saved . SWTFileName . push_back ( fileName ) ;
}
else
{
// Create a message
char msg [ 512 ] ;
_snprintf ( msg , 512 , " Can't open the file %s for reading. " , fileName ) ;
_MainFrame - > MessageBox ( msg , " NeL object viewer " , MB_OK | MB_ICONEXCLAMATION ) ;
}
}
// ***************************************************************************
CMainDlg * CObjectViewer : : getSlotDlg ( )
{
return _SlotDlg ;
}
// ***************************************************************************
void CObjectViewer : : reloadTextures ( )
{
// For each instances
uint numInstance = getNumInstance ( ) ;
uint instance ;
for ( instance = 0 ; instance < numInstance ; instance + + )
{
// Get the info
CInstanceInfo * info = getInstance ( instance ) ;
// For each material
if ( info - > TransformShape )
{
uint numMaterial = info - > TransformShape - > getNumMaterial ( ) ;
uint mat ;
for ( mat = 0 ; mat < numMaterial ; mat + + )
{
// Get the material
CMaterial * material = info - > TransformShape - > getMaterial ( mat ) ;
// For each texture
int tex ;
for ( tex = 0 ; tex < IDRV_MAT_MAXTEXTURES ; tex + + )
{
ITexture * texture = material - > getTexture ( tex ) ;
// Touch it!
if ( texture )
{
CNELU : : Driver - > invalidateShareTexture ( * texture ) ;
}
}
}
}
}
}
// ***************************************************************************
// ***************************************************************************
// Global wind part.
// ***************************************************************************
// ***************************************************************************
// ***************************************************************************
void CObjectViewer : : setGlobalWindPower ( float w )
{
if ( _MainFrame )
{
clamp ( w , 0.f , 1.f ) ;
_MainFrame - > GlobalWindPower = w ;
CNELU : : Scene - > setGlobalWindPower ( w ) ;
}
}
// ***************************************************************************
float CObjectViewer : : getGlobalWindPower ( ) const
{
if ( _MainFrame )
return _MainFrame - > GlobalWindPower ;
else
return 1.f ;
}
void CObjectViewer : : shootScene ( )
{
static const char BASED_CODE szFilter [ ] = " Targa Files (*.tga)|*.tga|Jpeg Files (*.jpg)|*.jpg|All Files (*.*)|*.*|| " ;
CFileDialog fileDlg ( FALSE , " .tga " , " *.tga " , OFN_HIDEREADONLY | OFN_OVERWRITEPROMPT , szFilter ) ;
if ( fileDlg . DoModal ( ) = = IDOK )
{
// Choose the size
CSelectMovieSize movieSize ;
if ( movieSize . DoModal ( ) = = IDOK )
{
// Resize the window
RECT window ;
_MainFrame - > GetWindowRect ( & window ) ;
uint32 width ;
uint32 height ;
CNELU : : Driver - > getWindowSize ( width , height ) ;
window . right + = movieSize . Width - width ;
window . bottom + = movieSize . Height - height ;
_MainFrame - > SetWindowPos ( NULL , 0 , 0 , window . right - window . left , window . bottom - window . top , SWP_NOMOVE | SWP_NOZORDER ) ;
// Swap the buffers
CNELU : : swapBuffers ( ) ;
CNELU : : Driver - > setupViewport ( CViewport ( ) ) ;
// The file name
string filename = NLMISC : : CFile : : getFilenameWithoutExtension ( ( const char * ) fileDlg . GetPathName ( ) ) ;
string extension = NLMISC : : CFile : : getExtension ( ( const char * ) fileDlg . GetPathName ( ) ) ;
// The file name without extension
bool jpeg = toLower ( extension ) = = " jpg " ;
// Activate the driver
CNELU : : Driver - > activate ( ) ;
// Bitmap for shoot
NLMISC : : CBitmap shoot ;
// For each frame
sint i ;
for ( i = ( sint ) _AnimationDlg - > Start ; i < = ( sint ) _AnimationDlg - > End ; i + + )
{
// Set the time
_AnimationDlg - > setCurrentFrame ( ( float ) i ) ;
// Setup the play list
setupPlaylist ( _AnimationDlg - > getTime ( ) ) ;
// Animate the automatic animation in the scene
animateCNELUScene ( _CS , ( uint64 ) ( 1000.f / _AnimationDlg - > Speed ) ) ;
// Eval channel mixer for transform
for ( uint j = 0 ; j < _ListInstance . size ( ) ; j + + )
_ListInstance [ j ] - > ChannelMixer . eval ( false ) ;
// Clear the buffers
CNELU : : clearBuffers ( _BackGroundColor ) ;
// call of callback list
{
std : : vector < IMainLoopCallBack * > copyVect ( _CallBackList . begin ( ) , _CallBackList . end ( ) ) ;
for ( std : : vector < IMainLoopCallBack * > : : iterator it = _CallBackList . begin ( ) ; it ! = _CallBackList . end ( ) ; + + it )
{
( * it ) - > goPreRender ( ) ;
}
}
// Render the CS
if ( _CS ) _CS - > render ( ) ;
// Draw the scene
CNELU : : Scene - > render ( ) ;
// call of callback list
{
std : : vector < IMainLoopCallBack * > copyVect ( _CallBackList . begin ( ) , _CallBackList . end ( ) ) ;
for ( std : : vector < IMainLoopCallBack * > : : iterator it = _CallBackList . begin ( ) ; it ! = _CallBackList . end ( ) ; + + it )
{
( * it ) - > goPostRender ( ) ;
}
}
// Swap the buffers
CNELU : : swapBuffers ( ) ;
// Get the buffer
CNELU : : Driver - > getBuffer ( shoot ) ;
shoot . flipV ( ) ;
// Save it
char num [ 12 ] ;
smprintf ( num , 12 , " %04d " , i ) ;
string filenamefinal = filename + num + string ( " . " ) + extension ;
try
{
NLMISC : : COFile output ;
if ( output . open ( filenamefinal ) )
{
if ( jpeg )
shoot . writeJPG ( output , 255 ) ;
else
shoot . writeTGA ( output , 32 ) ;
}
else
{
_MainFrame - > MessageBox ( ( " Can't open the file " + filenamefinal + " for writing. " ) . c_str ( ) , " NeL object viewer " , MB_OK | MB_ICONEXCLAMATION ) ;
break ;
}
}
catch ( Exception & e )
{
_MainFrame - > MessageBox ( ( " Error during writing of the file " + filenamefinal + " : " + ( string ) e . what ( ) ) . c_str ( ) , " NeL object viewer " , MB_OK | MB_ICONEXCLAMATION ) ;
break ;
}
}
}
}
}
void CObjectViewer : : drawFXUserMatrix ( )
{
static std : : string fxUserMatrixStr ;
static bool stringRetrieved = false ;
if ( ! stringRetrieved )
{
CString fxUserMatrix ;
fxUserMatrix . LoadString ( IDS_FX_USER_MATRIX ) ;
fxUserMatrixStr = ( LPCTSTR ) fxUserMatrix ;
stringRetrieved = true ;
}
nlassert ( _ParticleDlg ) ;
drawNamedMatrix ( getFXUserMatrix ( ) , fxUserMatrixStr , NLMISC : : CRGBA : : Red , 0.2f , 10.f ) ;
}
void CObjectViewer : : drawFXMatrix ( )
{
static std : : string fxStr ;
static bool stringRetrieved = false ;
if ( ! stringRetrieved )
{
CString fx ;
fx . LoadString ( IDS_FX_MATRIX ) ;
fxStr = ( LPCTSTR ) fx ;
stringRetrieved = true ;
}
drawNamedMatrix ( _ParticleDlg - > getPSWorldMatrix ( ) , fxStr , NLMISC : : CRGBA : : Blue , - 0.2f , 10.f ) ;
}
void CObjectViewer : : drawSceneMatrix ( )
{
static std : : string sceneMatrixStr ;
static bool stringRetrieved = false ;
if ( ! stringRetrieved )
{
CString sceneMatrix ;
sceneMatrix . LoadString ( IDS_SCENE_MATRIX ) ;
sceneMatrixStr = ( LPCTSTR ) sceneMatrix ;
stringRetrieved = true ;
}
drawNamedMatrix ( _SceneRoot - > getMatrix ( ) , sceneMatrixStr , NLMISC : : CRGBA : : White , 0.f , 10.f ) ;
}
void CObjectViewer : : drawNamedMatrix ( const NLMISC : : CMatrix & matrix , const std : : string & name , NLMISC : : CRGBA color , float textZOffset , float testSize )
{
CPSUtil : : displayBasis ( CNELU : : Driver , matrix , NLMISC : : CMatrix : : Identity , 1.f , * _FontGenerator , _FontManager ) ;
CPSUtil : : print ( CNELU : : Driver , name , * _FontGenerator , _FontManager , matrix . getPos ( ) + NLMISC : : CVector ( 0.f , 0.f , textZOffset ) , testSize , color ) ;
}
sint CObjectViewer : : getCurrentCamera ( ) const
{
return _CurrentCamera ;
}
void CObjectViewer : : setCurrentCamera ( sint currentCamera )
{
nlassert ( ( currentCamera = = - 1 ) | | ( currentCamera < ( sint ) _Cameras . size ( ) ) ) ;
_CurrentCamera = currentCamera ;
}
uint CObjectViewer : : getCameraInstance ( uint cameraId ) const
{
return _Cameras [ cameraId ] ;
}
uint CObjectViewer : : getNumCamera ( ) const
{
return ( uint ) _Cameras . size ( ) ;
}
int localizedMessageBox ( HWND parentWindow , int messageStringID , int captionStringID , UINT nType )
{
CString caption ;
CString mess ;
caption . LoadString ( captionStringID ) ;
mess . LoadString ( messageStringID ) ;
return MessageBox ( parentWindow , ( LPCTSTR ) mess , ( LPCTSTR ) caption , nType ) ;
// TODO : replace older call to ::MessageBox in the object viewer with that function
}
int localizedMessageBox ( HWND parentWindow , const char * message , int captionStringID , UINT nType )
{
CString caption ;
caption . LoadString ( captionStringID ) ;
return MessageBox ( parentWindow , message , ( LPCTSTR ) caption , nType ) ;
}
CString getStrRsc ( uint stringID )
{
CString str ;
str . LoadString ( stringID ) ;
return str ;
}
bool browseFolder ( const CString & caption , CString & destFolder , HWND parent )
{
char chosenPath [ MAX_PATH ] ;
// browse folder
BROWSEINFO bi ;
bi . hwndOwner = parent ;
bi . pidlRoot = NULL ;
bi . pszDisplayName = chosenPath ;
bi . lpszTitle = ( LPCTSTR ) caption ;
bi . ulFlags = BIF_DONTGOBELOWDOMAIN | BIF_EDITBOX ;
bi . lpfn = NULL ;
bi . lParam = NULL ;
bi . iImage = 0 ;
LPITEMIDLIST result = SHBrowseForFolder ( & bi ) ;
if ( result ! = NULL & & SHGetPathFromIDList ( result , chosenPath ) )
{
destFolder = chosenPath ;
return true ;
}
return false ;
}