/* Copyright (c) 2002-2012 Croteam Ltd. All rights reserved. */ // DlgCreateReflectionTexture.cpp : implementation file // #include "stdafx.h" #ifdef _DEBUG #undef new #define new DEBUG_NEW #undef THIS_FILE static char THIS_FILE[] = __FILE__; #endif ///////////////////////////////////////////////////////////////////////////// // CDlgCreateReflectionTexture dialog DECLARE_CTFILENAME( fnBCGTexture, "Models\\Editor\\SpecularPreviewBCG.tex"); static TIME timeLastTick=TIME(0); static BOOL _bTimerEnabled = TRUE; static ANGLE3D a3dObjectRotation = ANGLE3D( 0, 0, 0); static ANGLE3D a3dLightRotation = ANGLE3D( 0, 0, 0); static ANGLE3D a3dObjectAngles = ANGLE3D( 0, 0, 0); static ANGLE3D a3dLightAngles = ANGLE3D( 0, 0, 0); static CPoint ptLMBDown; static CPoint ptRMBDown; static ANGLE3D GetRotForDelta(CPoint ptDelta, BOOL bInvertY) { FLOAT fdH = ptDelta.x/15.0f; FLOAT fdP = ptDelta.y/15.0f; if( bInvertY) return ANGLE3D( fdH, -fdP, 0); else return ANGLE3D( fdH, fdP, 0); } // formulae used for ray-plane intersection ray always from (0,0,0) // system (parametric equations for plane by planar coordinates on it and // parametric equations for ray): // u*ux+v*vx+ox-l*dx=0 // u*uy+v*vy+oy-l*dy=0 // u*uz+v*vz+oz-l*dz=0 // solution: // // u=-(dx*(oy*vz-oz*vy)+dy*(oz*vx-ox*vz)+dz*(ox*vy-oy*vx))/(dx*(uy*vz-uz*vy)+dy*(uz*vx-ux*vz)+dz*(ux*vy-uy*vx)) // v= (dx*(oy*uz-oz*uy)+dy*(oz*ux-ox*uz)+dz*(ox*uy-oy*ux))/(dx*(uy*vz-uz*vy)+dy*(uz*vx-ux*vz)+dz*(ux*vy-uy*vx)) // l= (ox*(uy*vz-uz*vy)+oy*(uz*vx-ux*vz)+oz*(ux*vy-uy*vx))/(dx*(uy*vz-uz*vy)+dy*(uz*vx-ux*vz)+dz*(ux*vy-uy*vx)) struct PlaneParam { FLOAT pl_fOX; FLOAT pl_fOY; FLOAT pl_fOZ; FLOAT pl_fUX; FLOAT pl_fUY; FLOAT pl_fUZ; FLOAT pl_fVX; FLOAT pl_fVY; FLOAT pl_fVZ; }; // ox oy oz ux uy uz vx vy vz struct PlaneParam plN = { -128,+128,-128, +1, 0, 0, 0,-1, 0 }; struct PlaneParam plS = { +128,+128,+128, -1, 0, 0, 0,-1, 0 }; struct PlaneParam plE = { +128,+128,-128, 0, 0,+1, 0,-1, 0 }; struct PlaneParam plW = { -128,+128,+128, 0, 0,-1, 0,-1, 0 }; struct PlaneParam plF = { -128,-128,-128, +1, 0, 0, 0, 0,+1 }; struct PlaneParam plC = { -128,+128,+128, +1, 0, 0, 0, 0,-1 }; BOOL PlaneRayIntersection( FLOAT fRayX, FLOAT fRayY, FLOAT fRayZ, struct PlaneParam &plPlane, FLOAT &fU, FLOAT &fV, FLOAT &fL) { FLOAT dx = fRayX; FLOAT dy = fRayY; FLOAT dz = fRayZ; FLOAT ox = plPlane.pl_fOX; FLOAT oy = plPlane.pl_fOY; FLOAT oz = plPlane.pl_fOZ; FLOAT ux = plPlane.pl_fUX; FLOAT uy = plPlane.pl_fUY; FLOAT uz = plPlane.pl_fUZ; FLOAT vx = plPlane.pl_fVX; FLOAT vy = plPlane.pl_fVY; FLOAT vz = plPlane.pl_fVZ; FLOAT fDivisor = dx*(uy*vz-uz*vy)+dy*(uz*vx-ux*vz)+dz*(ux*vy-uy*vx); if (fDivisor<0.0001) { return FALSE; } fU = -(dx*(oy*vz-oz*vy)+dy*(oz*vx-ox*vz)+dz*(ox*vy-oy*vx))/fDivisor; fV = +(dx*(oy*uz-oz*uy)+dy*(oz*ux-ox*uz)+dz*(ox*uy-oy*ux))/fDivisor; fL = +(ox*(uy*vz-uz*vy)+oy*(uz*vx-ux*vz)+oz*(ux*vy-uy*vx))/fDivisor; return TRUE; } CDlgCreateReflectionTexture::CDlgCreateReflectionTexture(CWnd* pParent /*=NULL*/) : CDialog(CDlgCreateReflectionTexture::IDD, pParent) { //{{AFX_DATA_INIT(CDlgCreateReflectionTexture) m_bAutoRotate = FALSE; //}}AFX_DATA_INIT m_bAutoRotate = TRUE; m_colorReflection.m_pwndParentDialog = this; m_colorLight.m_pwndParentDialog = this; m_colorAmbient.m_pwndParentDialog = this; m_colorAmbient.SetColor( 0x030303FF); for (INDEX iwin=0; iwin<7; iwin++) { m_apdp[iwin] = NULL; m_apvp[iwin] = NULL; } m_bCustomWindowsCreated = FALSE; m_plPlacement.pl_OrientationAngle = ANGLE3D( 30, 0, 0); m_moModel.mo_Stretch = FLOAT3D( 1.0f, 1.0f, 1.0f); // mark that timer is not yet started m_iTimerID = -1; } void CDlgCreateReflectionTexture::DoDataExchange(CDataExchange* pDX) { CDialog::DoDataExchange(pDX); if( !pDX->m_bSaveAndValidate) { } //{{AFX_DATA_MAP(CDlgCreateReflectionTexture) DDX_Control(pDX, IDC_SIZE_IN_PIXELS, m_comboSizeInPixels); DDX_Control(pDX, IDC_REFLECTION_COLOR, m_colorReflection); DDX_Control(pDX, IDC_LIGHT_COLOR, m_colorLight); DDX_Control(pDX, IDC_AMBIENT_COLOR, m_colorAmbient); DDX_Check(pDX, IDC_AUTO_ROTATE, m_bAutoRotate); //}}AFX_DATA_MAP if( pDX->m_bSaveAndValidate) { _bTimerEnabled = FALSE; try { CreateReflectionTexture_t( CTString("temp\\ReflectionTemp.tex")); CTextureData *pTD = (CTextureData *) m_moModel.mo_toReflection.GetData(); if( pTD != NULL) pTD->Reload(); } catch( char *strError) { WarningMessage( strError); } _bTimerEnabled = TRUE; Invalidate( FALSE); } } BEGIN_MESSAGE_MAP(CDlgCreateReflectionTexture, CDialog) //{{AFX_MSG_MAP(CDlgCreateReflectionTexture) ON_WM_PAINT() ON_WM_TIMER() ON_WM_DESTROY() ON_BN_CLICKED(IDC_AUTO_ROTATE, OnAutoRotate) ON_CBN_SELCHANGE(IDC_SIZE_IN_PIXELS, OnSelchangeSizeInPixels) //}}AFX_MSG_MAP END_MESSAGE_MAP() ///////////////////////////////////////////////////////////////////////////// // CDlgCreateReflectionTexture message handlers void CDlgCreateReflectionTexture::CreateReflectionTexture_t( CTFileName fnTexture) // throw char * { INDEX iSelectedSize = m_comboSizeInPixels.GetCurSel(); ASSERT( iSelectedSize != CB_ERR); PIX pixSize = 1UL<<(iSelectedSize+1); PIX pixSizeU = pixSize; PIX pixSizeV = pixSize; UBYTE *pubImage = (UBYTE *)AllocMemory(pixSize*pixSize*3); CTFileName fnN = m_strBase+"N"+m_strExt; CTFileName fnS = m_strBase+"S"+m_strExt; CTFileName fnE = m_strBase+"E"+m_strExt; CTFileName fnW = m_strBase+"W"+m_strExt; CTFileName fnF = m_strBase+"F"+m_strExt; CTFileName fnC = m_strBase+"C"+m_strExt; CTFileName fnEnv= fnTexture; CImageInfo iiN; CImageInfo iiS; CImageInfo iiW; CImageInfo iiE; CImageInfo iiF; CImageInfo iiC; CImageInfo iiEnv; UBYTE (*paubN)[256][256][3]; UBYTE (*paubS)[256][256][3]; UBYTE (*paubW)[256][256][3]; UBYTE (*paubE)[256][256][3]; UBYTE (*paubF)[256][256][3]; UBYTE (*paubC)[256][256][3]; BOOL bSucesseful = TRUE; try { iiN.LoadAnyGfxFormat_t(fnN); iiS.LoadAnyGfxFormat_t(fnS); iiE.LoadAnyGfxFormat_t(fnE); iiW.LoadAnyGfxFormat_t(fnW); iiF.LoadAnyGfxFormat_t(fnF); iiC.LoadAnyGfxFormat_t(fnC); } catch( char *strError) { (void) strError; bSucesseful = FALSE; } if( bSucesseful) { if (iiN.ii_Width!=256 || iiN.ii_Height!=256 || iiN.ii_BitsPerPixel!=24 ||iiS.ii_Width!=256 || iiS.ii_Height!=256 || iiS.ii_BitsPerPixel!=24 ||iiE.ii_Width!=256 || iiE.ii_Height!=256 || iiE.ii_BitsPerPixel!=24 ||iiW.ii_Width!=256 || iiW.ii_Height!=256 || iiW.ii_BitsPerPixel!=24 ||iiF.ii_Width!=256 || iiF.ii_Height!=256 || iiF.ii_BitsPerPixel!=24 ||iiC.ii_Width!=256 || iiC.ii_Height!=256 || iiC.ii_BitsPerPixel!=24) { throw "All pictures must be 256x256 pixels in 24 bpp!"; } paubN=(UBYTE(*)[256][256][3])iiN.ii_Picture; paubS=(UBYTE(*)[256][256][3])iiS.ii_Picture; paubE=(UBYTE(*)[256][256][3])iiE.ii_Picture; paubW=(UBYTE(*)[256][256][3])iiW.ii_Picture; paubF=(UBYTE(*)[256][256][3])iiF.ii_Picture; paubC=(UBYTE(*)[256][256][3])iiC.ii_Picture; for (PIX pixEnvU=0; pixEnvU0 && fL0 && fL0 && fL0 && fL0 && fL0 && fL0.1); PIX pixU = PIX(fBestU); PIX pixV = PIX(fBestV); if (pixU<0) { ASSERT(pixU>-10); pixU = 0; } if (pixU>255) { ASSERT(pixU<260); pixU = 255; } if (pixV<0) { ASSERT(pixV>-10); pixV = 0; } if (pixV>255) { ASSERT(pixV<260); pixV = 255; } pubImage[(pixEnvV*pixSizeU+pixEnvU)*3+0] = (*paub)[pixV][pixU][0]; pubImage[(pixEnvV*pixSizeU+pixEnvU)*3+1] = (*paub)[pixV][pixU][1]; pubImage[(pixEnvV*pixSizeU+pixEnvU)*3+2] = (*paub)[pixV][pixU][2]; } } } // create black reflection map else { for (PIX pixU=0; pixUmd_colReflections = m_colorReflection.GetColor(); PIXaabbox2D screenBox = PIXaabbox2D( PIX2D(0,0), PIX2D(pdp->GetWidth(), pdp->GetHeight()) ); //pdp->PutTexture( &m_moModel.mo_toReflection, screenBox); //return; if( m_toBackground.GetData() != NULL) { pdp->PutTexture( &m_toBackground, screenBox); } else { pdp->Fill( C_BLACK|CT_OPAQUE); } pdp->FillZBuffer( ZBUF_BACK); CRenderModel rmRenderModel; CPerspectiveProjection3D prPerspectiveProjection; a3dObjectAngles += a3dObjectRotation; a3dLightAngles += a3dLightRotation; m_plPlacement.pl_OrientationAngle = a3dObjectAngles; AnglesToDirectionVector( a3dLightAngles, rmRenderModel.rm_vLightDirection); prPerspectiveProjection.FOVL() = AngleDeg(50.0f); prPerspectiveProjection.ScreenBBoxL() = FLOATaabbox2D( FLOAT2D(0.0f,0.0f),FLOAT2D((float)pdp->GetWidth(), (float)pdp->GetHeight())); prPerspectiveProjection.AspectRatioL() = 1.0f; prPerspectiveProjection.FrontClipDistanceL() = 0.05f; prPerspectiveProjection.ViewerPlacementL().pl_PositionVector = FLOAT3D(0.0f,0.0f,0.0f); prPerspectiveProjection.ViewerPlacementL().pl_OrientationAngle = ANGLE3D( 0, -20, 0); prPerspectiveProjection.Prepare(); CAnyProjection3D apr; apr = prPerspectiveProjection; BeginModelRenderingView(apr, pdp); _mrpModelRenderPrefs.SetRenderType( RT_TEXTURE|RT_SHADING_PHONG); m_plPlacement.pl_PositionVector = FLOAT3D( 0.0f, -0.19f, -0.35f); rmRenderModel.SetObjectPlacement(m_plPlacement); rmRenderModel.rm_colLight = m_colorLight.GetColor(); rmRenderModel.rm_colAmbient = m_colorAmbient.GetColor(); m_moModel.SetupModelRendering( rmRenderModel); m_moModel.RenderModel( rmRenderModel); EndModelRenderingView(); } } void CDlgCreateReflectionTexture::PutPicture(CWnd &wnd, CTextureObject &to, INDEX iwin) { CDrawPort *&pdp = m_apdp[iwin]; CViewPort *&pvp = m_apvp[iwin]; if (pvp==NULL) { _pGfx->CreateWindowCanvas( wnd.m_hWnd, &pvp, &pdp); } if( (pdp != NULL) && (pdp->Lock()) ) { if( to.GetData()!= NULL) { PIXaabbox2D screenBox = PIXaabbox2D( PIX2D(0,0), PIX2D(pdp->GetWidth(), pdp->GetHeight()) ); pdp->PutTexture( &to, screenBox); } else { pdp->Fill( C_BLACK|CT_OPAQUE); } pdp->Unlock(); } if (pvp!=NULL) pvp->SwapBuffers(); } void CDlgCreateReflectionTexture::RenderPreview(void) { // ******** Render preview window CDrawPort *&pdp = m_apdp[0]; CViewPort *&pvp = m_apvp[0]; if (pvp==NULL) _pGfx->CreateWindowCanvas( m_wndPreview.m_hWnd, &pvp, &pdp); if( (pdp != NULL) && (pdp->Lock()) ) { DrawPreview( pdp); pdp->Unlock(); } if (pvp!=NULL) pvp->SwapBuffers(); PutPicture(m_wndN, m_toN, 1); PutPicture(m_wndE, m_toE, 2); PutPicture(m_wndS, m_toS, 3); PutPicture(m_wndW, m_toW, 4); PutPicture(m_wndC, m_toC, 5); PutPicture(m_wndF, m_toF, 6); } #define CREATE_WND( DLGID, wnd, IDW) \ pWnd = GetDlgItem(DLGID);\ pWnd->GetWindowRect(&rectWnd);\ ScreenToClient(&rectWnd);\ wnd.Create( NULL, NULL, WS_BORDER|WS_VISIBLE, rectWnd, this, IDW); void CDlgCreateReflectionTexture::OnPaint() { CPaintDC dc(this); // device context for painting if( m_iTimerID == -1) { m_iTimerID = (int) SetTimer( 1, 24, NULL); } if( !m_bCustomWindowsCreated) { // ---------------- Create custom windows CWnd *pWnd; CRect rectWnd; CREATE_WND( IDC_PREVIEW_FRAME, m_wndPreview, IDW_REFLECTION_PREVIEW); CREATE_WND( IDC_FRAME_FRONT, m_wndN, IDW_FRONT); CREATE_WND( IDC_FRAME_RIGHT, m_wndE, IDW_RIGHT); CREATE_WND( IDC_FRAME_BACK, m_wndS, IDW_BACK ); CREATE_WND( IDC_FRAME_LEFT, m_wndW, IDW_LEFT ); CREATE_WND( IDC_FRAME_UP, m_wndC, IDW_UP ); CREATE_WND( IDC_FRAME_DOWN, m_wndF, IDW_DOWN ); // mark that custom windows are created m_bCustomWindowsCreated = TRUE; } RenderPreview(); } BOOL CDlgCreateReflectionTexture::OnInitDialog() { CDialog::OnInitDialog(); if(::IsWindow( m_comboSizeInPixels.m_hWnd)) { m_comboSizeInPixels.SetCurSel( 6); } UpdateData( TRUE); return TRUE; } void CDlgCreateReflectionTexture::OnTimer(UINT nIDEvent) { // on our timer discard preview window if( nIDEvent == 1 && _bTimerEnabled) { TIME timeCurrentTick = _pTimer->GetRealTimeTick(); if( timeCurrentTick > timeLastTick ) { _pTimer->SetCurrentTick( timeCurrentTick); timeLastTick = timeCurrentTick; } RenderPreview(); } CDialog::OnTimer(nIDEvent); } void CDlgCreateReflectionTexture::OnDestroy() { for (INDEX iwin=0; iwin<7; iwin++) { if( m_apvp[iwin]!=NULL) _pGfx->DestroyWindowCanvas( m_apvp[iwin]); } KillTimer( m_iTimerID); _pTimer->SetCurrentTick( 0.0f); CDialog::OnDestroy(); } void CDlgCreateReflectionTexture::OnAutoRotate() { a3dObjectAngles = ANGLE3D( 0, 0, 0); a3dLightAngles = ANGLE3D( 0, 0, 0); if( m_bAutoRotate) { a3dObjectRotation = ANGLE3D( 0, 0, 0); a3dLightRotation = ANGLE3D( 0, 0, 0); } else { a3dObjectRotation = ANGLE3D( -2.5f, 0, 0); a3dLightRotation = ANGLE3D( 0, 0, 0); } m_bAutoRotate = !m_bAutoRotate; } void CDlgCreateReflectionTexture::OnSelchangeSizeInPixels() { UpdateData( TRUE); } void CDlgCreateReflectionTexture::AutoSetTextures( CTFileName fnFile) { char achrBase[ PATH_MAX]; strcpy( achrBase, fnFile.FileDir()+fnFile.FileName() ); achrBase[ strlen(achrBase)-1] = 0; m_strBase = achrBase; m_strExt = fnFile.FileExt(); try { CreateTexture_t( m_strBase+"N"+m_strExt, CTString("Temp\\TempN.tex"), 256, 15, FALSE); CreateTexture_t( m_strBase+"E"+m_strExt, CTString("Temp\\TempE.tex"), 256, 15, FALSE); CreateTexture_t( m_strBase+"S"+m_strExt, CTString("Temp\\TempS.tex"), 256, 15, FALSE); CreateTexture_t( m_strBase+"W"+m_strExt, CTString("Temp\\TempW.tex"), 256, 15, FALSE); CreateTexture_t( m_strBase+"C"+m_strExt, CTString("Temp\\TempC.tex"), 256, 15, FALSE); CreateTexture_t( m_strBase+"F"+m_strExt, CTString("Temp\\TempF.tex"), 256, 15, FALSE); m_toN.SetData_t( CTString("Temp\\TempN.tex")); m_toE.SetData_t( CTString("Temp\\TempE.tex")); m_toS.SetData_t( CTString("Temp\\TempS.tex")); m_toW.SetData_t( CTString("Temp\\TempW.tex")); m_toC.SetData_t( CTString("Temp\\TempC.tex")); m_toF.SetData_t( CTString("Temp\\TempF.tex")); } catch( char *strError) { (void) strError; } } static BOOL bWeStartedMouseDown = FALSE; BOOL CDlgCreateReflectionTexture::PreTranslateMessage(MSG* pMsg) { ULONG fwKeys = pMsg->wParam; PIX xPos = LOWORD(pMsg->lParam); PIX yPos = HIWORD(pMsg->lParam); CPoint point = CPoint(xPos, yPos); CPoint pointScreen; GetCursorPos( &pointScreen); CWnd *pWndPreview = GetDlgItem(IDC_PREVIEW_FRAME); CRect rectPreview; pWndPreview->GetClientRect( &rectPreview); pWndPreview->ClientToScreen( &rectPreview); if( rectPreview.PtInRect( pointScreen)) { if( (pMsg->message == WM_MOUSEMOVE) && (bWeStartedMouseDown) ) { if( fwKeys&MK_LBUTTON) a3dObjectRotation = GetRotForDelta( point-ptLMBDown, FALSE); else if( fwKeys&MK_RBUTTON) a3dLightRotation = GetRotForDelta( point-ptRMBDown, FALSE); } else if( (pMsg->message == WM_LBUTTONDOWN) || ( pMsg->message == WM_RBUTTONDOWN) ) { bWeStartedMouseDown = TRUE; ptLMBDown = point; ptRMBDown = point; } else if( (pMsg->message == WM_LBUTTONUP) && (bWeStartedMouseDown) ) { a3dObjectRotation = GetRotForDelta( point-ptLMBDown, FALSE); bWeStartedMouseDown = FALSE; } else if( (pMsg->message == WM_RBUTTONUP) && (bWeStartedMouseDown) ) { a3dLightRotation = GetRotForDelta( point-ptRMBDown, FALSE); bWeStartedMouseDown = FALSE; } } #define BROWSE_TEXTURE( ID)\ pWnd = GetDlgItem(ID);\ pWnd->GetClientRect( &rectWnd);\ pWnd->ClientToScreen( &rectWnd);\ if( rectWnd.PtInRect( pointScreen)) {\ fnChoosedFile = _EngineGUI.FileRequester( "Select picture", \ FILTER_TGA FILTER_PCX FILTER_ALL FILTER_END, "Reflection map picures directory", "Textures\\");\ if( fnChoosedFile != "") {\ AutoSetTextures(fnChoosedFile);}\ UpdateData( TRUE);}; #define SET_BCG_TEXTURE( ID, to)\ pWnd = GetDlgItem(ID);\ pWnd->GetClientRect( &rectWnd);\ pWnd->ClientToScreen( &rectWnd);\ if( rectWnd.PtInRect( pointScreen)) {\ try {\ if( to.GetName() == m_toBackground.GetName()){\ m_toBackground.SetData_t( fnBCGTexture);\ } else { m_toBackground.SetData_t( to.GetName());};\ } catch( char *strError) { (void) strError;};}; if( pMsg->message == WM_LBUTTONUP) { CTFileName fnChoosedFile; CWnd *pWnd; CRect rectWnd; BROWSE_TEXTURE( IDC_FRAME_FRONT); BROWSE_TEXTURE( IDC_FRAME_RIGHT); BROWSE_TEXTURE( IDC_FRAME_BACK); BROWSE_TEXTURE( IDC_FRAME_LEFT); BROWSE_TEXTURE( IDC_FRAME_UP); BROWSE_TEXTURE( IDC_FRAME_DOWN); } if( pMsg->message == WM_RBUTTONUP) { CWnd *pWnd; CRect rectWnd; SET_BCG_TEXTURE( IDC_FRAME_FRONT, m_toN); SET_BCG_TEXTURE( IDC_FRAME_RIGHT, m_toE); SET_BCG_TEXTURE( IDC_FRAME_BACK, m_toS); SET_BCG_TEXTURE( IDC_FRAME_LEFT, m_toW); SET_BCG_TEXTURE( IDC_FRAME_UP, m_toC); SET_BCG_TEXTURE( IDC_FRAME_DOWN, m_toF); } return CDialog::PreTranslateMessage(pMsg); } void CDlgCreateReflectionTexture::OnOK() { CTFileName fnTemp = _fnmApplicationPath+CTString("temp\\ReflectionTemp.tex"); CTFileName fnFinal = _EngineGUI.FileRequester( "Save texture as ...", FILTER_TEX FILTER_ALL FILTER_END, "Reflection map textures directory", "Textures\\"); if( fnFinal != "") { CopyFileA( fnTemp, _fnmApplicationPath+fnFinal, FALSE); } CDialog::OnOK(); }