// Everything that is a part of a LeoCAD project goes here. // #include "lc_global.h" #include "lc_math.h" #include "lc_mesh.h" #include #include #include #include #include #include #include "opengl.h" #include "matrix.h" #include "pieceinf.h" #include "texture.h" #include "piece.h" #include "camera.h" #include "light.h" #include "group.h" #include "terrain.h" #include "project.h" #include "image.h" #include "system.h" #include "globals.h" #include "minifig.h" #include "message.h" #include "curve.h" #include "mainwnd.h" #include "view.h" #include "library.h" #include "texfont.h" #include "debug.h" #include "lc_application.h" // FIXME: temporary function, replace the code !!! void SystemUpdateFocus (void* p) { messenger->Dispatch (LC_MSG_FOCUS_CHANGED, p); } static void ProjectListener(int Message, void* Data, void* User) { ((Project*)User)->HandleMessage(Message, Data); } ///////////////////////////////////////////////////////////////////////////// // Project construction/destruction Project::Project() { int i; m_ActiveView = NULL; m_bModified = false; m_bTrackCancel = false; m_nTracking = LC_TRACK_NONE; m_pPieces = NULL; m_pCameras = NULL; m_pLights = NULL; m_pGroups = NULL; m_pUndoList = NULL; m_pRedoList = NULL; m_nGridList = 0; m_pTrackFile = NULL; m_nCurClipboard = 0; m_nCurAction = 0; m_pTerrain = new Terrain(); m_pBackground = new Texture(); m_nAutosave = Sys_ProfileLoadInt ("Settings", "Autosave", 10); m_nMouse = Sys_ProfileLoadInt ("Default", "Mouse", 11); strcpy(m_strModelsPath, Sys_ProfileLoadString ("Default", "Projects", "")); if (messenger == NULL) messenger = new Messenger (); messenger->AddRef(); messenger->Listen(&ProjectListener, this); for (i = 0; i < 10; i++) m_pClipboard[i] = NULL; m_pScreenFont = new TexFont(); } Project::~Project() { DeleteContents(false); SystemFinish(); if (m_pTrackFile) { delete m_pTrackFile; m_pTrackFile = NULL; } for (int i = 0; i < 10; i++) if (m_pClipboard[i] != NULL) delete m_pClipboard[i]; messenger->DecRef (); delete m_pTerrain; delete m_pBackground; delete m_pScreenFont; } ///////////////////////////////////////////////////////////////////////////// // Project attributes, general services void Project::UpdateInterface() { // Update all user interface elements. SystemUpdateUndoRedo(m_pUndoList->pNext ? m_pUndoList->strText : NULL, m_pRedoList ? m_pRedoList->strText : NULL); SystemUpdatePaste(m_pClipboard[m_nCurClipboard] != NULL); SystemUpdatePlay(true, false); SystemUpdateCategories(false); SetTitle(m_strTitle); SystemUpdateFocus(NULL); SetAction(m_nCurAction); // SystemUpdateViewport(m_nViewportMode, 0); SystemUpdateColorList(m_nCurColor); SystemUpdateAnimation(m_bAnimation, m_bAddKeys); SystemUpdateRenderingMode((m_nDetail & LC_DET_FAST) != 0); SystemUpdateSnap(m_nSnap); SystemUpdateSnap(m_nMoveSnap, m_nAngleSnap); SystemUpdateCameraMenu(m_pCameras); SystemUpdateCurrentCamera(NULL, m_ActiveView ? m_ActiveView->mCamera : NULL, m_pCameras); UpdateSelection(); if (m_bAnimation) SystemUpdateTime(m_bAnimation, m_nCurFrame, m_nTotalFrames); else SystemUpdateTime(m_bAnimation, m_nCurStep, 255); for (int i = 0; i < m_ViewList.GetSize(); i++) { m_ViewList[i]->MakeCurrent(); RenderInitialize(); } UpdateSelection(); } void Project::SetTitle(const char* lpszTitle) { if (lpszTitle != m_strTitle) strcpy(m_strTitle, lpszTitle); char title[LC_MAXPATH], *ptr, ext[4]; strcpy(title, m_strTitle); ptr = strrchr(title, '.'); if (ptr != NULL) { strncpy(ext, ptr+1, 3); ext[3] = 0; strlwr(ext); if (strcmp(ext, "lcd") == 0) *ptr = 0; if (strcmp(ext, "dat") == 0) *ptr = 0; if (strcmp(ext, "ldr") == 0) *ptr = 0; if (strcmp(ext, "mpd") == 0) *ptr = 0; } strcat(title, " - LeoCAD"); SystemSetWindowCaption(title); } void Project::DeleteContents(bool bUndo) { Piece* pPiece; Camera* pCamera; Light* pLight; Group* pGroup; memset(m_strAuthor, 0, sizeof(m_strAuthor)); memset(m_strDescription, 0, sizeof(m_strDescription)); memset(m_strComments, 0, sizeof(m_strComments)); if (!bUndo) { LC_UNDOINFO* pUndo; while (m_pUndoList) { pUndo = m_pUndoList; m_pUndoList = m_pUndoList->pNext; delete pUndo; } while (m_pRedoList) { pUndo = m_pRedoList; m_pRedoList = m_pRedoList->pNext; delete pUndo; } m_pRedoList = NULL; m_pUndoList = NULL; m_pBackground->Unload(); m_pTerrain->LoadDefaults(true); } while (m_pPieces) { pPiece = m_pPieces; m_pPieces = m_pPieces->m_pNext; delete pPiece; } while (m_pCameras) { pCamera = m_pCameras; m_pCameras = m_pCameras->m_pNext; delete pCamera; } while (m_pLights) { pLight = m_pLights; m_pLights = m_pLights->m_pNext; delete pLight; } while (m_pGroups) { pGroup = m_pGroups; m_pGroups = m_pGroups->m_pNext; delete pGroup; } /* if (!m_strTempFile.IsEmpty()) { DeleteFile (m_strTempFile); m_strTempFile.Empty(); } */ } // Only call after DeleteContents() void Project::LoadDefaults(bool cameras) { int i; unsigned long rgb; // Default values // SystemUpdateViewport(0, m_nViewportMode); // m_nViewportMode = 0; SetAction(0); m_nCurColor = 0; SystemUpdateColorList(m_nCurColor); m_bAnimation = false; m_bAddKeys = false; SystemUpdateAnimation(m_bAnimation, m_bAddKeys); m_bUndoOriginal = true; SystemUpdateUndoRedo(NULL, NULL); m_nDetail = Sys_ProfileLoadInt ("Default", "Detail", LC_DET_BRICKEDGES); SystemUpdateRenderingMode((m_nDetail & LC_DET_FAST) != 0); m_nAngleSnap = (unsigned short)Sys_ProfileLoadInt ("Default", "Angle", 30); m_nSnap = Sys_ProfileLoadInt ("Default", "Snap", LC_DRAW_SNAP_A | LC_DRAW_SNAP_X | LC_DRAW_SNAP_Y | LC_DRAW_SNAP_Z); SystemUpdateSnap(m_nSnap); m_nMoveSnap = 0x0304; SystemUpdateSnap(m_nMoveSnap, m_nAngleSnap); m_fLineWidth = (float)Sys_ProfileLoadInt ("Default", "Line", 100)/100; m_fFogDensity = (float)Sys_ProfileLoadInt ("Default", "Density", 10)/100; rgb = Sys_ProfileLoadInt ("Default", "Fog", 0xFFFFFF); m_fFogColor[0] = (float)((unsigned char) (rgb))/255; m_fFogColor[1] = (float)((unsigned char) (((unsigned short) (rgb)) >> 8))/255; m_fFogColor[2] = (float)((unsigned char) ((rgb) >> 16))/255; m_fFogColor[3] = 1.0f; m_nGridSize = (unsigned short)Sys_ProfileLoadInt ("Default", "Grid", 20); rgb = Sys_ProfileLoadInt ("Default", "Ambient", 0x4B4B4B); m_fAmbient[0] = (float)((unsigned char) (rgb))/255; m_fAmbient[1] = (float)((unsigned char) (((unsigned short) (rgb)) >> 8))/255; m_fAmbient[2] = (float)((unsigned char) ((rgb) >> 16))/255; m_fAmbient[3] = 1.0f; rgb = Sys_ProfileLoadInt ("Default", "Background", 0xFFFFFF); m_fBackground[0] = (float)((unsigned char) (rgb))/255; m_fBackground[1] = (float)((unsigned char) (((unsigned short) (rgb)) >> 8))/255; m_fBackground[2] = (float)((unsigned char) ((rgb) >> 16))/255; m_fBackground[3] = 1.0f; rgb = Sys_ProfileLoadInt ("Default", "Gradient1", 0xBF0000); m_fGradient1[0] = (float)((unsigned char) (rgb))/255; m_fGradient1[1] = (float)((unsigned char) (((unsigned short) (rgb)) >> 8))/255; m_fGradient1[2] = (float)((unsigned char) ((rgb) >> 16))/255; rgb = Sys_ProfileLoadInt ("Default", "Gradient2", 0xFFFFFF); m_fGradient2[0] = (float)((unsigned char) (rgb))/255; m_fGradient2[1] = (float)((unsigned char) (((unsigned short) (rgb)) >> 8))/255; m_fGradient2[2] = (float)((unsigned char) ((rgb) >> 16))/255; m_nFPS = Sys_ProfileLoadInt ("Default", "FPS", 24); m_nCurStep = 1; m_nCurFrame = 1; m_nTotalFrames = 100; SystemUpdateTime(false, 1, 255); m_nScene = Sys_ProfileLoadInt ("Default", "Scene", 0); m_nSaveTimer = 0; strcpy(m_strHeader, Sys_ProfileLoadString ("Default", "Header", "")); strcpy(m_strFooter, Sys_ProfileLoadString ("Default", "Footer", "Page &P")); strcpy(m_strBackground, Sys_ProfileLoadString ("Default", "BMP", "")); m_pTerrain->LoadDefaults(true); m_OverlayActive = false; m_RestoreAction = false; for (i = 0; i < m_ViewList.GetSize (); i++) { m_ViewList[i]->MakeCurrent(); RenderInitialize(); } if (cameras) { for (i = 0; i < m_ViewList.GetSize(); i++) m_ViewList[i]->SetDefaultCamera(); SystemUpdateCameraMenu(m_pCameras); if (m_ActiveView) SystemUpdateCurrentCamera(NULL, m_ActiveView->mCamera, m_pCameras); } SystemPieceComboAdd(NULL); UpdateSelection(); } ///////////////////////////////////////////////////////////////////////////// // Standard file menu commands // Read a .lcd file bool Project::FileLoad(lcFile* file, bool bUndo, bool bMerge) { lcint32 i, count; char id[32]; lcuint32 rgb; float fv = 0.4f; lcuint8 ch, action = m_nCurAction; lcuint16 sh; file->Seek(0, SEEK_SET); file->ReadBuffer(id, 32); sscanf(&id[7], "%f", &fv); // Fix the ugly floating point reading on computers with different decimal points. if (fv == 0.0f) { lconv *loc = localeconv(); id[8] = loc->decimal_point[0]; sscanf(&id[7], "%f", &fv); if (fv == 0.0f) return false; } if (fv > 0.4f) file->ReadFloats(&fv, 1); file->ReadU32(&rgb, 1); if (!bMerge) { m_fBackground[0] = (float)((unsigned char) (rgb))/255; m_fBackground[1] = (float)((unsigned char) (((unsigned short) (rgb)) >> 8))/255; m_fBackground[2] = (float)((unsigned char) ((rgb) >> 16))/255; } if (fv < 0.6f) // old view { Camera* pCam; for (pCam = NULL, i = 0; i < 7; i++) { pCam = new Camera(i, pCam); if (m_pCameras == NULL) m_pCameras = pCam; // switch (i) // { // case LC_CAMERA_MAIN: m_pViewCameras[0] = pCam; break; // case LC_CAMERA_FRONT: m_pViewCameras[1] = pCam; break; // case LC_CAMERA_TOP: m_pViewCameras[2] = pCam; break; // case LC_CAMERA_RIGHT: m_pViewCameras[3] = pCam; break; // } } double eye[3], target[3]; file->ReadDoubles(eye, 3); file->ReadDoubles(target, 3); float tmp[3] = { (float)eye[0], (float)eye[1], (float)eye[2] }; pCam->ChangeKey(1, false, false, tmp, LC_CK_EYE); pCam->ChangeKey(1, true, false, tmp, LC_CK_EYE); tmp[0] = (float)target[0]; tmp[1] = (float)target[1]; tmp[2] = (float)target[2]; pCam->ChangeKey(1, false, false, tmp, LC_CK_TARGET); pCam->ChangeKey(1, true, false, tmp, LC_CK_TARGET); // Create up vector lcVector3 UpVector(0, 0, 1), FrontVector((float)(eye[0] - target[0]), (float)(eye[1] - target[1]), (float)(eye[2] - target[2])), SideVector; FrontVector.Normalize(); if (FrontVector == UpVector) SideVector = lcVector3(1, 0, 0); else SideVector = lcCross(FrontVector, UpVector); UpVector = lcNormalize(lcCross(SideVector, FrontVector)); pCam->ChangeKey(1, false, false, UpVector, LC_CK_UP); pCam->ChangeKey(1, true, false, UpVector, LC_CK_UP); } if (bMerge) file->Seek(32, SEEK_CUR); else { file->ReadS32(&i, 1); m_nAngleSnap = i; file->ReadU32(&m_nSnap, 1); file->ReadFloats(&m_fLineWidth, 1); file->ReadU32(&m_nDetail, 1); file->ReadS32(&i, 1); //m_nCurGroup = i; file->ReadS32(&i, 1); m_nCurColor = i; file->ReadS32(&i, 1); action = i; file->ReadS32(&i, 1); m_nCurStep = i; } if (fv > 0.8f) file->ReadU32(&m_nScene, 1); file->ReadS32(&count, 1); SystemStartProgressBar(0, count, 1, "Loading project..."); while (count--) { if (fv > 0.4f) { char name[LC_PIECE_NAME_LEN]; Piece* pPiece = new Piece(NULL); pPiece->FileLoad(*file, name); PieceInfo* pInfo = lcGetPiecesLibrary()->FindPieceInfo(name); if (pInfo) { pPiece->SetPieceInfo(pInfo); if (bMerge) for (Piece* p = m_pPieces; p; p = p->m_pNext) if (strcmp(p->GetName(), pPiece->GetName()) == 0) { pPiece->CreateName(m_pPieces); break; } if (strlen(pPiece->GetName()) == 0) pPiece->CreateName(m_pPieces); AddPiece(pPiece); if (!bUndo) SystemPieceComboAdd(pInfo->m_strDescription); } else delete pPiece; } else { char name[LC_PIECE_NAME_LEN]; float pos[3], rot[3], param[4]; lcuint8 color, step, group; file->ReadFloats(pos, 3); file->ReadFloats(rot, 3); file->ReadU8(&color, 1); file->ReadBuffer(name, 9); file->ReadU8(&step, 1); file->ReadU8(&group, 1); PieceInfo* pInfo = lcGetPiecesLibrary()->FindPieceInfo(name); if (pInfo != NULL) { Piece* pPiece = new Piece(pInfo); Matrix mat; pPiece->Initialize(pos[0], pos[1], pos[2], step, 1); pPiece->SetColorCode(lcGetColorCodeFromOriginalColor(color)); pPiece->CreateName(m_pPieces); AddPiece(pPiece); mat.CreateOld(0,0,0, rot[0],rot[1],rot[2]); mat.ToAxisAngle(param); pPiece->ChangeKey(1, false, false, param, LC_PK_ROTATION); pPiece->ChangeKey(1, true, false, param, LC_PK_ROTATION); // pPiece->SetGroup((Group*)group); SystemPieceComboAdd(pInfo->m_strDescription); } } SytemStepProgressBar(); } SytemEndProgressBar(); if (!bMerge) { if (fv >= 0.4f) { file->ReadBuffer(&ch, 1); if (ch == 0xFF) file->ReadU16(&sh, 1); else sh = ch; if (sh > 100) file->Seek(sh, SEEK_CUR); else file->ReadBuffer(m_strAuthor, sh); file->ReadBuffer(&ch, 1); if (ch == 0xFF) file->ReadU16(&sh, 1); else sh = ch; if (sh > 100) file->Seek(sh, SEEK_CUR); else file->ReadBuffer(m_strDescription, sh); file->ReadBuffer(&ch, 1); if (ch == 0xFF && fv < 1.3f) file->ReadU16(&sh, 1); else sh = ch; if (sh > 255) file->Seek(sh, SEEK_CUR); else file->ReadBuffer(m_strComments, sh); } } else { if (fv >= 0.4f) { file->ReadBuffer(&ch, 1); if (ch == 0xFF) file->ReadU16(&sh, 1); else sh = ch; file->Seek (sh, SEEK_CUR); file->ReadBuffer(&ch, 1); if (ch == 0xFF) file->ReadU16(&sh, 1); else sh = ch; file->Seek (sh, SEEK_CUR); file->ReadBuffer(&ch, 1); if (ch == 0xFF && fv < 1.3f) file->ReadU16(&sh, 1); else sh = ch; file->Seek (sh, SEEK_CUR); } } if (fv >= 0.5f) { file->ReadS32(&count, 1); Group* pGroup; Group* pLastGroup = NULL; for (pGroup = m_pGroups; pGroup; pGroup = pGroup->m_pNext) pLastGroup = pGroup; pGroup = pLastGroup; for (i = 0; i < count; i++) { if (pGroup) { pGroup->m_pNext = new Group(); pGroup = pGroup->m_pNext; } else m_pGroups = pGroup = new Group(); } pLastGroup = pLastGroup ? pLastGroup->m_pNext : m_pGroups; for (pGroup = pLastGroup; pGroup; pGroup = pGroup->m_pNext) { if (fv < 1.0f) { file->ReadBuffer(pGroup->m_strName, 65); file->ReadBuffer(&ch, 1); pGroup->m_fCenter[0] = 0; pGroup->m_fCenter[1] = 0; pGroup->m_fCenter[2] = 0; pGroup->m_pGroup = (Group*)-1; } else pGroup->FileLoad(file); } for (pGroup = pLastGroup; pGroup; pGroup = pGroup->m_pNext) { i = LC_POINTER_TO_INT(pGroup->m_pGroup); pGroup->m_pGroup = NULL; if (i > 0xFFFF || i == -1) continue; for (Group* g2 = pLastGroup; g2; g2 = g2->m_pNext) { if (i == 0) { pGroup->m_pGroup = g2; break; } i--; } } Piece* pPiece; for (pPiece = m_pPieces; pPiece; pPiece = pPiece->m_pNext) { i = LC_POINTER_TO_INT(pPiece->GetGroup()); pPiece->SetGroup(NULL); if (i > 0xFFFF || i == -1) continue; for (pGroup = pLastGroup; pGroup; pGroup = pGroup->m_pNext) { if (i == 0) { pPiece->SetGroup(pGroup); break; } i--; } } RemoveEmptyGroups(); } if (!bMerge) { if (fv >= 0.6f) { if (fv < 1.0f) { lcuint32 ViewportMode; file->ReadU32(&ViewportMode, 1); } else { lcuint8 ViewportMode, ActiveViewport; file->ReadU8(&ViewportMode, 1); file->ReadU8(&ActiveViewport, 1); } file->ReadS32(&count, 1); Camera* pCam = NULL; for (i = 0; i < count; i++) { pCam = new Camera(i, pCam); if (m_pCameras == NULL) m_pCameras = pCam; // if (i < 4 && fv == 0.6f) // m_pViewCameras[i] = pCam; } if (count < 7) { pCam = new Camera(0, NULL); for (i = 0; i < count; i++) pCam->FileLoad(*file); delete pCam; } else for (pCam = m_pCameras; pCam; pCam = pCam->m_pNext) pCam->FileLoad(*file); } if (fv >= 0.7f) { for (count = 0; count < 4; count++) { file->ReadS32(&i, 1); // Camera* pCam = m_pCameras; // while (i--) // pCam = pCam->m_pNext; // m_pViewCameras[count] = pCam; } file->ReadU32(&rgb, 1); m_fFogColor[0] = (float)((unsigned char) (rgb))/255; m_fFogColor[1] = (float)((unsigned char) (((unsigned short) (rgb)) >> 8))/255; m_fFogColor[2] = (float)((unsigned char) ((rgb) >> 16))/255; if (fv < 1.0f) { file->ReadU32(&rgb, 1); m_fFogDensity = (float)rgb/100; } else file->ReadFloats(&m_fFogDensity, 1); if (fv < 1.3f) { file->ReadU8(&ch, 1); if (ch == 0xFF) file->ReadU16(&sh, 1); sh = ch; } else file->ReadU16(&sh, 1); if (sh < LC_MAXPATH) file->ReadBuffer(m_strBackground, sh); else file->Seek (sh, SEEK_CUR); } if (fv >= 0.8f) { file->ReadBuffer(&ch, 1); file->ReadBuffer(m_strHeader, ch); file->ReadBuffer(&ch, 1); file->ReadBuffer(m_strFooter, ch); } if (fv > 0.9f) { file->ReadU32(&rgb, 1); m_fAmbient[0] = (float)((unsigned char) (rgb))/255; m_fAmbient[1] = (float)((unsigned char) (((unsigned short) (rgb)) >> 8))/255; m_fAmbient[2] = (float)((unsigned char) ((rgb) >> 16))/255; if (fv < 1.3f) { file->ReadS32(&i, 1); m_bAnimation = (i != 0); file->ReadS32(&i, 1); m_bAddKeys = (i != 0); file->ReadU8(&m_nFPS, 1); file->ReadS32(&i, 1); m_nCurFrame = i; file->ReadU16(&m_nTotalFrames, 1); file->ReadS32(&i, 1); m_nGridSize = i; file->ReadS32(&i, 1); //m_nMoveSnap = i; } else { file->ReadU8(&ch, 1); m_bAnimation = (ch != 0); file->ReadU8(&ch, 1); m_bAddKeys = (ch != 0); file->ReadU8(&m_nFPS, 1); file->ReadU16(&m_nCurFrame, 1); file->ReadU16(&m_nTotalFrames, 1); file->ReadU16(&m_nGridSize, 1); file->ReadU16(&sh, 1); if (fv >= 1.4f) m_nMoveSnap = sh; } } if (fv > 1.0f) { file->ReadU32(&rgb, 1); m_fGradient1[0] = (float)((unsigned char) (rgb))/255; m_fGradient1[1] = (float)((unsigned char) (((unsigned short) (rgb)) >> 8))/255; m_fGradient1[2] = (float)((unsigned char) ((rgb) >> 16))/255; file->ReadU32(&rgb, 1); m_fGradient2[0] = (float)((unsigned char) (rgb))/255; m_fGradient2[1] = (float)((unsigned char) (((unsigned short) (rgb)) >> 8))/255; m_fGradient2[2] = (float)((unsigned char) ((rgb) >> 16))/255; if (fv > 1.1f) m_pTerrain->FileLoad (file); else { file->Seek(4, SEEK_CUR); file->ReadBuffer(&ch, 1); file->Seek(ch, SEEK_CUR); } } } if (!bMerge) { for (i = 0; i < m_ViewList.GetSize(); i++) m_ViewList[i]->SetDefaultCamera(); } for (i = 0; i < m_ViewList.GetSize (); i++) { m_ViewList[i]->MakeCurrent(); RenderInitialize(); } CalculateStep(); if (!bUndo) SelectAndFocusNone(false); if (!bMerge) SystemUpdateFocus(NULL); SetAction(action); // SystemUpdateViewport(m_nViewportMode, 0); SystemUpdateColorList(m_nCurColor); SystemUpdateAnimation(m_bAnimation, m_bAddKeys); SystemUpdateRenderingMode((m_nDetail & LC_DET_FAST) != 0); SystemUpdateSnap(m_nSnap); SystemUpdateSnap(m_nMoveSnap, m_nAngleSnap); SystemUpdateCameraMenu(m_pCameras); SystemUpdateCurrentCamera(NULL, m_ActiveView->mCamera, m_pCameras); UpdateSelection(); if (m_bAnimation) SystemUpdateTime(m_bAnimation, m_nCurFrame, m_nTotalFrames); else SystemUpdateTime(m_bAnimation, m_nCurStep, 255); UpdateAllViews (); return true; } void Project::FileSave(lcFile* file, bool bUndo) { float ver_flt = 1.4f; // LeoCAD 0.75 - (and this should have been an integer). lcuint32 rgb; lcuint8 ch; lcuint16 sh; int i, j; file->Seek(0, SEEK_SET); file->WriteBuffer(LC_STR_VERSION, 32); file->WriteFloats(&ver_flt, 1); rgb = FLOATRGB(m_fBackground); file->WriteU32(&rgb, 1); i = m_nAngleSnap; file->WriteS32(&i, 1); file->WriteU32(&m_nSnap, 1); file->WriteFloats(&m_fLineWidth, 1); file->WriteU32(&m_nDetail, 1); //i = m_nCurGroup; file->WriteS32(&i, 1); i = m_nCurColor; file->WriteS32(&i, 1); i = m_nCurAction; file->WriteS32(&i, 1); i = m_nCurStep; file->WriteS32(&i, 1); file->WriteU32(&m_nScene, 1); Piece* pPiece; for (i = 0, pPiece = m_pPieces; pPiece; pPiece = pPiece->m_pNext) i++; file->WriteS32(&i, 1); for (pPiece = m_pPieces; pPiece; pPiece = pPiece->m_pNext) pPiece->FileSave (*file, m_pGroups); ch = strlen(m_strAuthor); file->WriteBuffer(&ch, 1); file->WriteBuffer(m_strAuthor, ch); ch = strlen(m_strDescription); file->WriteBuffer(&ch, 1); file->WriteBuffer(m_strDescription, ch); ch = strlen(m_strComments); file->WriteBuffer(&ch, 1); file->WriteBuffer(m_strComments, ch); Group* pGroup; for (i = 0, pGroup = m_pGroups; pGroup; pGroup = pGroup->m_pNext) i++; file->WriteS32(&i, 1); for (pGroup = m_pGroups; pGroup; pGroup = pGroup->m_pNext) pGroup->FileSave(file, m_pGroups); lcuint8 ViewportMode = 0, ActiveViewport = 0; file->WriteU8(&ViewportMode, 1); file->WriteU8(&ActiveViewport, 1); Camera* pCamera; for (i = 0, pCamera = m_pCameras; pCamera; pCamera = pCamera->m_pNext) i++; file->WriteS32(&i, 1); for (i = 0, pCamera = m_pCameras; pCamera; pCamera = pCamera->m_pNext) pCamera->FileSave(*file); for (j = 0; j < 4; j++) { i = 0; // for (i = 0, pCamera = m_pCameras; pCamera; pCamera = pCamera->m_pNext) // if (pCamera == m_pViewCameras[j]) // break; // else // i++; file->WriteS32(&i, 1); } rgb = FLOATRGB(m_fFogColor); file->WriteU32(&rgb, 1); file->WriteFloats(&m_fFogDensity, 1); sh = strlen(m_strBackground); file->WriteU16(&sh, 1); file->WriteBuffer(m_strBackground, sh); ch = strlen(m_strHeader); file->WriteBuffer(&ch, 1); file->WriteBuffer(m_strHeader, ch); ch = strlen(m_strFooter); file->WriteBuffer(&ch, 1); file->WriteBuffer(m_strFooter, ch); // 0.60 (1.0) rgb = FLOATRGB(m_fAmbient); file->WriteU32(&rgb, 1); ch = m_bAnimation; file->WriteBuffer(&ch, 1); ch = m_bAddKeys; file->WriteU8(&ch, 1); file->WriteU8 (&m_nFPS, 1); file->WriteU16(&m_nCurFrame, 1); file->WriteU16(&m_nTotalFrames, 1); file->WriteU16(&m_nGridSize, 1); file->WriteU16(&m_nMoveSnap, 1); // 0.62 (1.1) rgb = FLOATRGB(m_fGradient1); file->WriteU32(&rgb, 1); rgb = FLOATRGB(m_fGradient2); file->WriteU32(&rgb, 1); // 0.64 (1.2) m_pTerrain->FileSave(file); if (!bUndo) { lcuint32 pos = 0; i = Sys_ProfileLoadInt ("Default", "Save Preview", 0); if (i != 0) { pos = file->GetPosition(); Image* image = new Image[1]; LC_IMAGE_OPTS opts; opts.interlaced = false; opts.transparent = false; opts.format = LC_IMAGE_GIF; i = m_bAnimation ? m_nCurFrame : m_nCurStep; CreateImages(image, 120, 100, i, i, false); image[0].FileSave (*file, &opts); delete []image; } file->WriteU32(&pos, 1); m_nSaveTimer = 0; } } void Project::FileReadMPD(lcFile& MPD, PtrArray& FileArray) const { LC_FILEENTRY* CurFile = NULL; char Buf[1024]; while (MPD.ReadLine(Buf, 1024)) { String Line(Buf); Line.TrimLeft(); if (Line[0] != '0') { // Copy current line. if (CurFile != NULL) CurFile->File.WriteBuffer(Buf, strlen(Buf)); continue; } Line.TrimRight(); Line = Line.Right(Line.GetLength() - 1); Line.TrimLeft(); // Find where a subfile starts. if (Line.CompareNoCase("FILE", 4) == 0) { Line = Line.Right(Line.GetLength() - 4); Line.TrimLeft(); // Create a new file. CurFile = new LC_FILEENTRY(); strncpy(CurFile->FileName, Line, sizeof(CurFile->FileName)); FileArray.Add(CurFile); } else if (Line.CompareNoCase("ENDFILE", 7) == 0) { // File ends here. CurFile = NULL; } else if (CurFile != NULL) { // Copy current line. CurFile->File.WriteBuffer(Buf, strlen(Buf)); } } } void Project::FileReadLDraw(lcFile* file, Matrix* prevmat, int* nOk, int DefColor, int* nStep, PtrArray& FileArray) { char buf[1024]; // Save file offset. lcuint32 Offset = file->GetPosition(); file->Seek(0, SEEK_SET); while (file->ReadLine(buf, 1024)) { strupr(buf); if (strstr(buf, "STEP")) { (*nStep)++; continue; } bool read = true; char *ptr, tmp[LC_MAXPATH], pn[LC_MAXPATH]; int color, cmd; float fmat[12]; if (sscanf(buf, "%d %i %g %g %g %g %g %g %g %g %g %g %g %g %s[12]", &cmd, &color, &fmat[0], &fmat[1], &fmat[2], &fmat[3], &fmat[4], &fmat[5], &fmat[6], &fmat[7], &fmat[8], &fmat[9], &fmat[10], &fmat[11], &tmp[0]) != 15) continue; Matrix incmat, tmpmat; incmat.FromLDraw(fmat); tmpmat.Multiply(*prevmat, incmat); if (cmd == 1) { int cl = color; if (color == 16) cl = DefColor; strcpy(pn, tmp); ptr = strrchr(tmp, '.'); if (ptr != NULL) *ptr = 0; // See if it's a piece in the library if (strlen(tmp) < LC_PIECE_NAME_LEN) { char name[LC_PIECE_NAME_LEN]; strcpy(name, tmp); PieceInfo* pInfo = lcGetPiecesLibrary()->FindPieceInfo(name); if (pInfo != NULL) { float x, y, z, rot[4]; Piece* pPiece = new Piece(pInfo); read = false; tmpmat.GetTranslation(&x, &y, &z); pPiece->Initialize(x, y, z, *nStep, 1); pPiece->SetColorCode(cl); pPiece->CreateName(m_pPieces); AddPiece(pPiece); tmpmat.ToAxisAngle(rot); pPiece->ChangeKey(1, false, false, rot, LC_PK_ROTATION); pPiece->ChangeKey(1, true, false, rot, LC_PK_ROTATION); SystemPieceComboAdd(pInfo->m_strDescription); (*nOk)++; } } // Check for MPD files first. if (read) { for (int i = 0; i < FileArray.GetSize(); i++) { if (stricmp(FileArray[i]->FileName, pn) == 0) { FileReadLDraw(&FileArray[i]->File, &tmpmat, nOk, cl, nStep, FileArray); read = false; break; } } } // Try to read the file from disk. if (read) { lcDiskFile tf; if (tf.Open(pn, "rt")) { FileReadLDraw(&tf, &tmpmat, nOk, cl, nStep, FileArray); read = false; } } if (read) { // Create a placeholder. PieceInfo* Info = lcGetPiecesLibrary()->CreatePiecePlaceholder(tmp); float x, y, z, rot[4]; Piece* pPiece = new Piece(Info); read = false; tmpmat.GetTranslation(&x, &y, &z); pPiece->Initialize(x, y, z, *nStep, 1); pPiece->SetColorCode(cl); pPiece->CreateName(m_pPieces); AddPiece(pPiece); tmpmat.ToAxisAngle(rot); pPiece->ChangeKey(1, false, false, rot, LC_PK_ROTATION); pPiece->ChangeKey(1, true, false, rot, LC_PK_ROTATION); SystemPieceComboAdd(Info->m_strDescription); (*nOk)++; } } } // Restore file offset. file->Seek(Offset, SEEK_SET); } bool Project::DoFileSave() { /* DWORD dwAttrib = GetFileAttributes(m_strPathName); if (dwAttrib & FILE_ATTRIBUTE_READONLY) { // we do not have read-write access or the file does not (now) exist if (!DoSave(NULL, true)) return false; } else */ { if (!DoSave(m_strPathName, true)) return false; } return true; } // Save the document data to a file // lpszPathName = path name where to save document file // if lpszPathName is NULL then the user will be prompted (SaveAs) // note: lpszPathName can be different than 'm_strPathName' // if 'bReplace' is TRUE will change file name if successful (SaveAs) // if 'bReplace' is FALSE will not change path name (SaveCopyAs) bool Project::DoSave(char* lpszPathName, bool bReplace) { lcDiskFile file; char newName[LC_MAXPATH]; memset(newName, 0, sizeof(newName)); if (lpszPathName) strcpy(newName, lpszPathName); char ext[4], *ptr; memset(ext, 0, 4); ptr = strrchr(newName, '.'); if (ptr != NULL) { ptr++; strncpy(ext, ptr, 3); strlwr(ext); if ((strcmp(ext, "dat") == 0) || (strcmp(ext, "ldr") == 0)) { *ptr = 0; strcat(newName, "lcd"); } } if (strlen(newName) == 0) { strcpy(newName, m_strPathName); if (bReplace && strlen(newName) == 0) { strcpy(newName, m_strTitle); // check for dubious filename int iBad = strcspn(newName, " #%;/\\"); if (iBad != -1) newName[iBad] = 0; strcat(newName, ".lcd"); } if (!SystemDoDialog(LC_DLG_FILE_SAVE_PROJECT, &newName)) return false; // don't even attempt to save } // CWaitCursor wait; if (!file.Open(newName, "wb")) { // MessageBox("Failed to save."); // be sure to delete the file if (lpszPathName == NULL) remove(newName); return false; } memset(ext, 0, 4); ptr = strrchr(newName, '.'); if (ptr != NULL) { strncpy(ext, ptr+1, 3); strlwr(ext); } if ((strcmp(ext, "dat") == 0) || (strcmp(ext, "ldr") == 0)) { Piece* pPiece; int i, steps = GetLastStep(); char buf[256], *ptr; ptr = strrchr(m_strPathName, '\\'); if (ptr == NULL) ptr = strrchr(m_strPathName, '/'); if (ptr == NULL) ptr = m_strPathName; else ptr++; sprintf(buf, "0 Model exported from LeoCAD\r\n" "0 Original name: %s\r\n", ptr); if (strlen(m_strAuthor) != 0) { strcat(buf, "0 Author: "); strcat(buf, m_strAuthor); strcat(buf, "\r\n"); } strcat(buf, "\r\n"); file.WriteBuffer(buf, strlen(buf)); const char* OldLocale = setlocale(LC_NUMERIC, "C"); for (i = 1; i <= steps; i++) { for (pPiece = m_pPieces; pPiece; pPiece = pPiece->m_pNext) { if ((pPiece->IsVisible(i, false)) && (pPiece->GetStepShow() == i)) { float f[12]; const lcVector3& position = pPiece->mPosition; const lcVector4& rotation = pPiece->mRotation; Matrix mat(rotation, position); mat.ToLDraw(f); sprintf (buf, " 1 %d %.2f %.2f %.2f %.2f %.2f %.2f %.2f %.2f %.2f %.2f %.2f %.2f %s.DAT\r\n", pPiece->mColorCode, f[0], f[1], f[2], f[3], f[4], f[5], f[6], f[7], f[8], f[9], f[10], f[11], pPiece->mPieceInfo->m_strName); file.WriteBuffer(buf, strlen(buf)); } } if (i != steps) file.WriteBuffer("0 STEP\r\n", 8); } file.WriteBuffer("0\r\n", 3); setlocale(LC_NUMERIC, OldLocale); } else FileSave(&file, false); // save me file.Close(); SetModifiedFlag(false); // back to unmodified // reset the title and change the document name if (bReplace) SetPathName(newName, true); return true; // success } // return true if ok to continue bool Project::SaveModified() { if (!IsModified()) return true; // ok to continue // get name/title of document char name[LC_MAXPATH]; if (strlen(m_strPathName) == 0) { // get name based on caption strcpy(name, m_strTitle); if (strlen(name) == 0) strcpy(name, "Untitled"); } else { // get name based on file title of path name char* p; p = strrchr(m_strPathName, '\\'); if (!p) p = strrchr(m_strPathName, '/'); if (p) strcpy(name, ++p); else strcpy(name, m_strPathName); } char prompt[512]; sprintf(prompt, "Save changes to %s ?", name); switch (SystemDoMessageBox(prompt, LC_MB_YESNOCANCEL)) { case LC_CANCEL: return false; // don't continue case LC_YES: // If so, either Save or Update, as appropriate if (!DoFileSave()) return false; // don't continue break; case LC_NO: // If not saving changes, revert the document break; } return true; // keep going } ///////////////////////////////////////////////////////////////////////////// // File operations bool Project::OnNewDocument() { SetTitle("Untitled"); DeleteContents(false); memset(m_strPathName, 0, sizeof(m_strPathName)); // no path name yet strcpy(m_strAuthor, Sys_ProfileLoadString ("Default", "User", "")); SetModifiedFlag(false); // make clean LoadDefaults(true); CheckPoint(""); // SystemUpdateRecentMenu(m_strRecentFiles); messenger->Dispatch (LC_MSG_FOCUS_CHANGED, NULL); // CWnd* pFrame = AfxGetMainWnd(); // if (pFrame != NULL) // pFrame->PostMessage (WM_LC_UPDATE_LIST, 1, m_nCurColor+1); // set cur group to 0 return true; } bool Project::OpenProject(const char* FileName) { if (!SaveModified()) return false; // Leave the original one // CWaitCursor wait; bool WasModified = IsModified(); SetModifiedFlag(false); // Not dirty for open if (!OnOpenDocument(FileName)) { // Check if we corrupted the original document if (!IsModified()) SetModifiedFlag(WasModified); else OnNewDocument(); return false; // Open failed } SetPathName(FileName, true); return true; } bool Project::OnOpenDocument (const char* lpszPathName) { lcDiskFile file; bool bSuccess = false; if (!file.Open(lpszPathName, "rb")) { // MessageBox("Failed to open file."); return false; } char ext[4]; const char *ptr; memset(ext, 0, 4); ptr = strrchr(lpszPathName, '.'); if (ptr != NULL) { strncpy(ext, ptr+1, 3); strlwr(ext); } bool datfile = false; bool mpdfile = false; // Find out what file type we're loading. if ((strcmp(ext, "dat") == 0) || (strcmp(ext, "ldr") == 0)) datfile = true; else if (strcmp(ext, "mpd") == 0) mpdfile = true; // Delete the current project. DeleteContents(false); LoadDefaults(datfile || mpdfile); SetModifiedFlag(true); // dirty during loading SystemDoWaitCursor(1); if (file.GetLength() != 0) { PtrArray FileArray; // Unpack the MPD file. if (mpdfile) { FileReadMPD(file, FileArray); if (FileArray.GetSize() == 0) { file.Seek(0, SEEK_SET); mpdfile = false; datfile = true; console.PrintWarning("No files found inside the MPD, trying to load it as a .DAT file.\n"); } } if (datfile || mpdfile) { int ok = 0, step = 1; Matrix mat; if (mpdfile) FileReadLDraw(&FileArray[0]->File, &mat, &ok, 16, &step, FileArray); else FileReadLDraw(&file, &mat, &ok, 16, &step, FileArray); m_nCurStep = step; SystemUpdateTime(false, m_nCurStep, 255); SystemUpdateFocus(NULL); UpdateSelection(); CalculateStep(); UpdateAllViews (); console.PrintMisc("%d objects imported.\n", ok); bSuccess = true; } else { // Load a LeoCAD file. bSuccess = FileLoad(&file, false, false); } // Clean up. if (mpdfile) { for (int i = 0; i < FileArray.GetSize(); i++) delete FileArray[i]; } } file.Close(); SystemDoWaitCursor(-1); if (bSuccess == false) { // MessageBox("Failed to load."); DeleteContents(false); // remove failed contents return false; } CheckPoint(""); m_nSaveTimer = 0; SetModifiedFlag(false); // start off with unmodified return true; } void Project::SetPathName(const char* PathName, bool bAddToMRU) { strcpy(m_strPathName, PathName); // always capture the complete file name including extension (if present) const char* lpszTemp = PathName; for (const char* lpsz = PathName; *lpsz != '\0'; lpsz++) { // remember last directory/drive separator if (*lpsz == '\\' || *lpsz == '/' || *lpsz == ':') lpszTemp = lpsz + 1; } // set the document title based on path name SetTitle(lpszTemp); // add it to the file MRU list if (bAddToMRU) main_window->AddToMRU(PathName); } ///////////////////////////////////////////////////////////////////////////// // Undo/Redo support // Save current state. void Project::CheckPoint (const char* text) { LC_UNDOINFO* pTmp; LC_UNDOINFO* pUndo = new LC_UNDOINFO; int i; strcpy(pUndo->strText, text); FileSave(&pUndo->file, true); for (pTmp = m_pUndoList, i = 0; pTmp; pTmp = pTmp->pNext, i++) if ((i == 30) && (pTmp->pNext != NULL)) { delete pTmp->pNext; pTmp->pNext = NULL; m_bUndoOriginal = false; } pUndo->pNext = m_pUndoList; m_pUndoList = pUndo; while (m_pRedoList) { pUndo = m_pRedoList; m_pRedoList = m_pRedoList->pNext; delete pUndo; } m_pRedoList = NULL; SystemUpdateUndoRedo(m_pUndoList->pNext ? m_pUndoList->strText : NULL, NULL); } void Project::AddView (View* pView) { m_ViewList.Add (pView); pView->MakeCurrent (); RenderInitialize (); if (!m_ActiveView) m_ActiveView = pView; } void Project::RemoveView (View* pView) { if (pView == m_ActiveView) m_ActiveView = NULL; m_ViewList.RemovePointer(pView); } void Project::UpdateAllViews() { for (int i = 0; i < m_ViewList.GetSize (); i++) m_ViewList[i]->Redraw (); } // Returns true if the active view changed. bool Project::SetActiveView(View* view) { m_ActiveView = view; return false; /* if (view == m_ActiveView) return false; // Camera* OldCamera = NULL; View* OldView = m_ActiveView; m_ActiveView = view; if (OldView) { OldView->Redraw(); // OldCamera = OldView->GetCamera(); } if (view) { view->Redraw(); // SystemUpdateCurrentCamera(OldCamera, m_ActiveView->GetCamera(), m_ActiveModel->m_Cameras); } return true; */ } ///////////////////////////////////////////////////////////////////////////// // Project rendering // Only this function should be called. void Project::Render(View* view, bool ToMemory) { glViewport(0, 0, view->GetWidth(), view->GetHeight()); RenderBackground(view); // Setup the projection and camera matrices. float ratio = (float)view->GetWidth() / (float)view->GetHeight(); view->mCamera->LoadProjection(ratio); if (ToMemory) RenderScenePieces(view); else { if ((m_nDetail & LC_DET_FAST) && (m_nTracking != LC_TRACK_NONE)) RenderSceneBoxes(view); else RenderScenePieces(view); RenderSceneObjects(view); if (m_OverlayActive || ((m_nCurAction == LC_ACTION_SELECT) && (m_nTracking == LC_TRACK_LEFT) && (m_ActiveView == view))) RenderOverlays(view); RenderViewports(view); } } void Project::RenderBackground(View* view) { if ((m_nScene & (LC_SCENE_GRADIENT | LC_SCENE_BG)) == 0) { glClearColor(m_fBackground[0], m_fBackground[1], m_fBackground[2], 1.0f); glClear(GL_COLOR_BUFFER_BIT | GL_DEPTH_BUFFER_BIT); return; } glClear(GL_COLOR_BUFFER_BIT | GL_DEPTH_BUFFER_BIT); glDepthMask(GL_FALSE); glDisable(GL_DEPTH_TEST); glDisable(GL_LIGHTING); glDisable(GL_FOG); float ViewWidth = (float)view->GetWidth(); float ViewHeight = (float)view->GetHeight(); glMatrixMode(GL_PROJECTION); glLoadIdentity(); glOrtho(0.0f, ViewWidth, 0.0f, ViewHeight, -1.0f, 1.0f); glMatrixMode(GL_MODELVIEW); glLoadIdentity(); glTranslatef(0.375f, 0.375f, 0.0f); // Draw gradient quad. if (m_nScene & LC_SCENE_GRADIENT) { glShadeModel(GL_SMOOTH); float Verts[4][2]; float Colors[4][4]; glEnableClientState(GL_VERTEX_ARRAY); glVertexPointer(2, GL_FLOAT, 0, Verts); glEnableClientState(GL_COLOR_ARRAY); glColorPointer(4, GL_FLOAT, 0, Colors); Colors[0][0] = m_fGradient1[0]; Colors[0][1] = m_fGradient1[1]; Colors[0][2] = m_fGradient1[2]; Colors[0][3] = 1.0f; Verts[0][0] = ViewWidth; Verts[0][1] = ViewHeight; Colors[1][0] = m_fGradient1[0]; Colors[1][1] = m_fGradient1[1]; Colors[1][2] = m_fGradient1[2]; Colors[1][3] = 1.0f; Verts[1][0] = 0; Verts[1][1] = ViewHeight; Colors[2][0] = m_fGradient2[0]; Colors[2][1] = m_fGradient2[1]; Colors[2][2] = m_fGradient2[2]; Colors[2][3] = 1.0f; Verts[2][0] = 0; Verts[2][1] = 0; Colors[3][0] = m_fGradient2[0]; Colors[3][1] = m_fGradient2[1]; Colors[3][2] = m_fGradient2[2]; Colors[3][3] = 1.0f; Verts[3][0] = ViewWidth; Verts[3][1] = 0; glDrawArrays(GL_TRIANGLE_FAN, 0, 4); glDisableClientState(GL_VERTEX_ARRAY); glDisableClientState(GL_COLOR_ARRAY); glShadeModel(GL_FLAT); } // Draw the background picture. if (m_nScene & LC_SCENE_BG) { glEnable(GL_TEXTURE_2D); glTexEnvi(GL_TEXTURE_ENV, GL_TEXTURE_ENV_MODE, GL_REPLACE); m_pBackground->MakeCurrent(); float Verts[4][2]; float Coords[4][2]; glEnableClientState(GL_VERTEX_ARRAY); glVertexPointer(2, GL_FLOAT, 0, Verts); glEnableClientState(GL_TEXTURE_COORD_ARRAY); glTexCoordPointer(2, GL_FLOAT, 0, Coords); float tw = 1.0f, th = 1.0f; if (m_nScene & LC_SCENE_BG_TILE) { tw = ViewWidth / m_pBackground->m_nWidth; th = ViewHeight / m_pBackground->m_nHeight; } Coords[0][0] = 0; Coords[0][1] = 0; Verts[0][0] = 0; Verts[0][1] = ViewHeight; Coords[1][0] = tw; Coords[1][1] = 0; Verts[1][0] = ViewWidth; Verts[1][1] = ViewHeight; Coords[2][0] = tw; Coords[2][1] = th; Verts[2][0] = ViewWidth; Verts[2][1] = 0; Coords[3][0] = 0; Coords[3][1] = th; Verts[3][0] = 0; Verts[3][1] = 0; glDrawArrays(GL_TRIANGLE_FAN, 0, 4); glDisableClientState(GL_VERTEX_ARRAY); glDisableClientState(GL_TEXTURE_COORD_ARRAY); glDisable(GL_TEXTURE_2D); } glEnable(GL_DEPTH_TEST); glDepthMask(GL_TRUE); } struct lcTranslucentRenderSection { float Distance; Piece* piece; }; int lcTranslucentRenderCompare(const lcTranslucentRenderSection& a, const lcTranslucentRenderSection& b, void*) { if (a.Distance > b.Distance) return 1; else return -1; } int lcOpaqueRenderCompare(const Piece* a, const Piece* b, void*) { if (a->mPieceInfo > b->mPieceInfo) return 1; else return -1; } void Project::RenderScenePieces(View* view) { float AspectRatio = (float)view->GetWidth() / (float)view->GetHeight(); view->mCamera->LoadProjection(AspectRatio); if (m_nSnap & LC_DRAW_GRID) { glColor3f(1.0f - m_fBackground[0], 1.0f - m_fBackground[1], 1.0f - m_fBackground[2]); glCallList (m_nGridList); } if (m_nDetail & LC_DET_LIGHTING) { int index = 0; Light *pLight; for (pLight = m_pLights; pLight; pLight = pLight->m_pNext, index++) pLight->Setup (index); glEnable(GL_LIGHTING); } if (m_nScene & LC_SCENE_FOG) glEnable(GL_FOG); if (m_nScene & LC_SCENE_FLOOR) m_pTerrain->Render(view->mCamera, AspectRatio); PtrArray OpaquePieces(512); ObjArray TranslucentSections(512); const lcMatrix44& WorldView = view->mCamera->mWorldView; for (Piece* pPiece = m_pPieces; pPiece; pPiece = pPiece->m_pNext) { if (!pPiece->IsVisible(m_bAnimation ? m_nCurFrame : m_nCurStep, m_bAnimation)) continue; bool Translucent = lcIsColorTranslucent(pPiece->mColorIndex); PieceInfo* Info = pPiece->mPieceInfo; if ((Info->m_nFlags & (LC_PIECE_HAS_SOLID | LC_PIECE_HAS_LINES)) || ((Info->m_nFlags & LC_PIECE_HAS_DEFAULT) && !Translucent)) OpaquePieces.AddSorted(pPiece, lcOpaqueRenderCompare, NULL); if ((Info->m_nFlags & LC_PIECE_HAS_TRANSLUCENT) || ((Info->m_nFlags & LC_PIECE_HAS_DEFAULT) && Translucent)) { lcVector3 Pos = lcMul31(pPiece->mPosition, WorldView); lcTranslucentRenderSection RenderSection; RenderSection.Distance = Pos[2]; RenderSection.piece = pPiece; TranslucentSections.AddSorted(RenderSection, lcTranslucentRenderCompare, NULL); } } lcMesh* PreviousMesh = NULL; bool PreviousSelected = false; char* ElementsOffset = NULL; glEnableClientState(GL_VERTEX_ARRAY); for (int PieceIdx = 0; PieceIdx < OpaquePieces.GetSize(); PieceIdx++) { Piece* piece = OpaquePieces[PieceIdx]; lcMesh* Mesh = piece->mPieceInfo->mMesh; glPushMatrix(); glMultMatrixf(piece->mModelWorld); if (PreviousMesh != Mesh) { if (GL_HasVertexBufferObject()) { glBindBufferARB(GL_ARRAY_BUFFER_ARB, Mesh->mVertexBuffer.mBuffer); glVertexPointer(3, GL_FLOAT, 0, NULL); glBindBufferARB(GL_ELEMENT_ARRAY_BUFFER_ARB, Mesh->mIndexBuffer.mBuffer); ElementsOffset = NULL; } else { glVertexPointer(3, GL_FLOAT, 0, Mesh->mVertexBuffer.mData); ElementsOffset = (char*)Mesh->mIndexBuffer.mData; } PreviousMesh = Mesh; } if (piece->IsSelected()) { if (!PreviousSelected) glLineWidth(2.0f * m_fLineWidth); PreviousSelected = true; } else { if (PreviousSelected) glLineWidth(m_fLineWidth); PreviousSelected = false; } for (int SectionIdx = 0; SectionIdx < Mesh->mNumSections; SectionIdx++) { lcMeshSection* Section = &Mesh->mSections[SectionIdx]; int ColorIdx = Section->ColorIndex; if (Section->PrimitiveType == GL_TRIANGLES) { if (ColorIdx == gDefaultColor) ColorIdx = piece->mColorIndex; if (lcIsColorTranslucent(ColorIdx)) continue; lcSetColor(ColorIdx); } else { if (piece->IsFocused()) lcSetColorFocused(); else if (piece->IsSelected()) lcSetColorSelected(); else if (ColorIdx == gEdgeColor) lcSetEdgeColor(piece->mColorIndex); else lcSetColor(ColorIdx); } glDrawElements(Section->PrimitiveType, Section->NumIndices, Mesh->mIndexType, ElementsOffset + Section->IndexOffset); } glPopMatrix(); } if (PreviousSelected) glLineWidth(m_fLineWidth); if (TranslucentSections.GetSize()) { glBlendFunc(GL_SRC_ALPHA, GL_ONE_MINUS_SRC_ALPHA); glEnable(GL_BLEND); glDepthMask(GL_FALSE); for (int PieceIdx = 0; PieceIdx < TranslucentSections.GetSize(); PieceIdx++) { Piece* piece = TranslucentSections[PieceIdx].piece; lcMesh* Mesh = piece->mPieceInfo->mMesh; glPushMatrix(); glMultMatrixf(piece->mModelWorld); if (PreviousMesh != Mesh) { if (GL_HasVertexBufferObject()) { glBindBufferARB(GL_ARRAY_BUFFER_ARB, Mesh->mVertexBuffer.mBuffer); glVertexPointer(3, GL_FLOAT, 0, NULL); glBindBufferARB(GL_ELEMENT_ARRAY_BUFFER_ARB, Mesh->mIndexBuffer.mBuffer); ElementsOffset = NULL; } else { glVertexPointer(3, GL_FLOAT, 0, Mesh->mVertexBuffer.mData); ElementsOffset = (char*)Mesh->mIndexBuffer.mData; } PreviousMesh = Mesh; } for (int SectionIdx = 0; SectionIdx < Mesh->mNumSections; SectionIdx++) { lcMeshSection* Section = &Mesh->mSections[SectionIdx]; int ColorIdx = Section->ColorIndex; if (Section->PrimitiveType != GL_TRIANGLES) continue; if (ColorIdx == gDefaultColor) ColorIdx = piece->mColorIndex; if (!lcIsColorTranslucent(ColorIdx)) continue; lcSetColor(ColorIdx); glDrawElements(Section->PrimitiveType, Section->NumIndices, Mesh->mIndexType, ElementsOffset + Section->IndexOffset); } glPopMatrix(); } glDepthMask(GL_TRUE); glDisable(GL_BLEND); } if (GL_HasVertexBufferObject()) { glBindBufferARB(GL_ARRAY_BUFFER_ARB, 0); glBindBufferARB(GL_ELEMENT_ARRAY_BUFFER_ARB, 0); } else glVertexPointer(3, GL_FLOAT, 0, NULL); glDisableClientState(GL_VERTEX_ARRAY); } void Project::RenderSceneBoxes(View* view) { Piece* pPiece; glPolygonMode(GL_FRONT_AND_BACK, GL_LINE); for (pPiece = m_pPieces; pPiece; pPiece = pPiece->m_pNext) if (pPiece->IsVisible(m_bAnimation ? m_nCurFrame : m_nCurStep, m_bAnimation)) pPiece->RenderBox(true, m_fLineWidth); glPolygonMode(GL_FRONT_AND_BACK, GL_FILL); } void Project::RenderSceneObjects(View* view) { #ifdef LC_DEBUG RenderDebugPrimitives(); #endif // Draw cameras & lights if (m_nCurAction == LC_ACTION_INSERT) { lcVector3 Pos; lcVector4 Rot; GetPieceInsertPosition(view, m_nDownX, m_nDownY, Pos, Rot); glPushMatrix(); glTranslatef(Pos[0], Pos[1], Pos[2]); glRotatef(Rot[3], Rot[0], Rot[1], Rot[2]); glLineWidth(2*m_fLineWidth); m_pCurPiece->RenderPiece(m_nCurColor); glLineWidth(m_fLineWidth); glPopMatrix(); } if (m_nDetail & LC_DET_LIGHTING) { glDisable (GL_LIGHTING); int index = 0; Light *pLight; for (pLight = m_pLights; pLight; pLight = pLight->m_pNext, index++) glDisable ((GLenum)(GL_LIGHT0+index)); } for (Camera* pCamera = m_pCameras; pCamera; pCamera = pCamera->m_pNext) { if ((pCamera == view->mCamera) || !pCamera->IsVisible()) continue; pCamera->Render(m_fLineWidth); } for (Light* pLight = m_pLights; pLight; pLight = pLight->m_pNext) if (pLight->IsVisible ()) pLight->Render(m_fLineWidth); // Draw axis icon if (m_nSnap & LC_DRAW_AXIS) { // glClear(GL_DEPTH_BUFFER_BIT); lcMatrix44 Mats[3]; Mats[0] = view->mCamera->mWorldView; Mats[0].SetTranslation(lcVector3(0, 0, 0)); Mats[1] = lcMul(lcMatrix44(lcVector4(0, 1, 0, 0), lcVector4(1, 0, 0, 0), lcVector4(0, 0, 1, 0), lcVector4(0, 0, 0, 1)), Mats[0]); Mats[2] = lcMul(lcMatrix44(lcVector4(0, 0, 1, 0), lcVector4(0, 1, 0, 0), lcVector4(1, 0, 0, 0), lcVector4(0, 0, 0, 1)), Mats[0]); lcVector3 pts[3] = { lcMul30(lcVector3(20, 0, 0), Mats[0]), lcMul30(lcVector3(0, 20, 0), Mats[0]), lcMul30(lcVector3(0, 0, 20), Mats[0]), }; glMatrixMode(GL_PROJECTION); glLoadIdentity(); glOrtho(0, view->GetWidth(), 0, view->GetHeight(), -50, 50); glMatrixMode(GL_MODELVIEW); glLoadIdentity(); glTranslatef(25.375f, 25.375f, 0.0f); // Draw the arrows. for (int i = 0; i < 3; i++) { switch (i) { case 0: glColor4f(0.8f, 0.0f, 0.0f, 1.0f); break; case 1: glColor4f(0.0f, 0.8f, 0.0f, 1.0f); break; case 2: glColor4f(0.0f, 0.0f, 0.8f, 1.0f); break; } glBegin(GL_LINES); glVertex3f(pts[i][0], pts[i][1], pts[i][2]); glVertex3f(0, 0, 0); glEnd(); glBegin(GL_TRIANGLE_FAN); glVertex3f(pts[i][0], pts[i][1], pts[i][2]); for (int j = 0; j < 9; j++) { lcVector3 pt = lcMul30(lcVector3(12.0f, cosf(LC_2PI * j / 8) * 3.0f, sinf(LC_2PI * j / 8) * 3.0f), Mats[i]); glVertex3f(pt[0], pt[1], pt[2]); } glEnd(); } // Draw the text. glTexEnvi(GL_TEXTURE_ENV, GL_TEXTURE_ENV_MODE, GL_MODULATE); m_pScreenFont->MakeCurrent(); glEnable(GL_TEXTURE_2D); glEnable(GL_ALPHA_TEST); glBegin(GL_QUADS); glColor4f(0.0f, 0.0f, 0.0f, 1.0f); m_pScreenFont->PrintText(pts[0][0], pts[0][1], 40.0f, "X"); m_pScreenFont->PrintText(pts[1][0], pts[1][1], 40.0f, "Y"); m_pScreenFont->PrintText(pts[2][0], pts[2][1], 40.0f, "Z"); glEnd(); glDisable(GL_TEXTURE_2D); glDisable(GL_ALPHA_TEST); } } void Project::RenderOverlays(View* view) { // Draw the selection rectangle. if ((m_nCurAction == LC_ACTION_SELECT) && (m_nTracking == LC_TRACK_LEFT) && (m_ActiveView == view) && (m_OverlayMode == LC_OVERLAY_NONE)) { glMatrixMode(GL_PROJECTION); glLoadIdentity(); glOrtho(0.0f, view->GetWidth(), 0.0f, view->GetHeight(), -1.0f, 1.0f); glMatrixMode(GL_MODELVIEW); glLoadIdentity(); glTranslatef(0.375f, 0.375f, 0.0f); glDisable(GL_DEPTH_TEST); glEnable(GL_LINE_STIPPLE); glLineStipple(5, 0x5555); glColor4f(0.0f, 0.0f, 0.0f, 1.0f); float pt1x = (float)m_nDownX; float pt1y = (float)m_nDownY; float pt2x = m_fTrack[0]; float pt2y = m_fTrack[1]; glBegin(GL_LINES); glVertex2f(pt1x, pt1y); glVertex2f(pt2x, pt1y); glVertex2f(pt2x, pt1y); glVertex2f(pt2x, pt2y); glVertex2f(pt2x, pt2y); glVertex2f(pt1x, pt2y); glVertex2f(pt1x, pt2y); glVertex2f(pt1x, pt1y); glEnd(); glDisable(GL_LINE_STIPPLE); glEnable(GL_DEPTH_TEST); } const float OverlayScale = view->m_OverlayScale; if ((m_nCurAction == LC_ACTION_MOVE || m_nCurAction == LC_ACTION_SELECT) && (m_OverlayMode >= LC_OVERLAY_NONE && m_OverlayMode <= LC_OVERLAY_ROTATE_XYZ)) { const float OverlayMovePlaneSize = 0.5f * OverlayScale; const float OverlayMoveArrowSize = 1.5f * OverlayScale; const float OverlayMoveArrowCapSize = 0.9f * OverlayScale; const float OverlayMoveArrowCapRadius = 0.1f * OverlayScale; const float OverlayMoveArrowBodyRadius = 0.05f * OverlayScale; const float OverlayRotateArrowStart = 1.0f * OverlayScale; const float OverlayRotateArrowEnd = 1.5f * OverlayScale; const float OverlayRotateArrowCenter = 1.2f * OverlayScale; glDisable(GL_DEPTH_TEST); // Find the rotation from the focused piece if relative snap is enabled. Object* Focus = NULL; lcVector4 Rot(0, 0, 1, 0); if ((m_nSnap & LC_DRAW_GLOBAL_SNAP) == 0) { Focus = GetFocusObject(); if ((Focus != NULL) && Focus->IsPiece()) Rot = ((Piece*)Focus)->mRotation; else Focus = NULL; } // Draw a quad if we're moving on a plane. if ((m_OverlayMode == LC_OVERLAY_MOVE_XY) || (m_OverlayMode == LC_OVERLAY_MOVE_XZ) || (m_OverlayMode == LC_OVERLAY_MOVE_YZ)) { glPushMatrix(); glTranslatef(m_OverlayCenter[0], m_OverlayCenter[1], m_OverlayCenter[2]); if (Focus) glRotatef(Rot[3], Rot[0], Rot[1], Rot[2]); if (m_OverlayMode == LC_OVERLAY_MOVE_XZ) glRotatef(90.0f, 0.0f, 0.0f, -1.0f); else if (m_OverlayMode == LC_OVERLAY_MOVE_XY) glRotatef(90.0f, 0.0f, 1.0f, 0.0f); glBlendFunc(GL_SRC_ALPHA, GL_ONE_MINUS_SRC_ALPHA); glEnable(GL_BLEND); glBegin(GL_QUADS); glColor4f(0.8f, 0.8f, 0.0f, 0.3f); glVertex3f(0.0f, 0.0f, 0.0f); glVertex3f(0.0f, OverlayMovePlaneSize, 0.0f); glVertex3f(0.0f, OverlayMovePlaneSize, OverlayMovePlaneSize); glVertex3f(0.0f, 0.0f, OverlayMovePlaneSize); glEnd(); glDisable(GL_BLEND); glPopMatrix(); } // Draw the arrows. for (int i = 0; i < 3; i++) { switch (i) { case 0: if ((m_OverlayMode == LC_OVERLAY_MOVE_X) || (m_OverlayMode == LC_OVERLAY_MOVE_XY) || (m_OverlayMode == LC_OVERLAY_MOVE_XZ)) glColor4f(0.8f, 0.8f, 0.0f, 1.0f); else glColor4f(0.8f, 0.0f, 0.0f, 1.0f); break; case 1: if ((m_OverlayMode == LC_OVERLAY_MOVE_Y) || (m_OverlayMode == LC_OVERLAY_MOVE_XY) || (m_OverlayMode == LC_OVERLAY_MOVE_YZ)) glColor4f(0.8f, 0.8f, 0.0f, 1.0f); else glColor4f(0.0f, 0.8f, 0.0f, 1.0f); break; case 2: if ((m_OverlayMode == LC_OVERLAY_MOVE_Z) || (m_OverlayMode == LC_OVERLAY_MOVE_XZ) || (m_OverlayMode == LC_OVERLAY_MOVE_YZ)) glColor4f(0.8f, 0.8f, 0.0f, 1.0f); else glColor4f(0.0f, 0.0f, 0.8f, 1.0f); break; } glPushMatrix(); glTranslatef(m_OverlayCenter[0], m_OverlayCenter[1], m_OverlayCenter[2]); if (Focus) glRotatef(Rot[3], Rot[0], Rot[1], Rot[2]); if (i == 1) glMultMatrixf(lcMatrix44(lcVector4(0, 1, 0, 0), lcVector4(1, 0, 0, 0), lcVector4(0, 0, 1, 0), lcVector4(0, 0, 0, 1))); else if (i == 2) glMultMatrixf(lcMatrix44(lcVector4(0, 0, 1, 0), lcVector4(0, 1, 0, 0), lcVector4(1, 0, 0, 0), lcVector4(0, 0, 0, 1))); // Translation arrows. if (m_nTracking == LC_TRACK_NONE || (m_OverlayMode >= LC_OVERLAY_NONE && m_OverlayMode <= LC_OVERLAY_MOVE_XYZ)) { glBegin(GL_LINES); glVertex3f(0.0f, 0.0f, 0.0f); glVertex3f(OverlayMoveArrowSize, 0.0f, 0.0f); glEnd(); glBegin(GL_TRIANGLE_FAN); glVertex3f(OverlayMoveArrowSize, 0.0f, 0.0f); for (int j = 0; j < 9; j++) { float y = cosf(LC_2PI * j / 8) * OverlayMoveArrowCapRadius; float z = sinf(LC_2PI * j / 8) * OverlayMoveArrowCapRadius; glVertex3f(OverlayMoveArrowCapSize, y, z); } glEnd(); } // Rotation arrows. if (m_nCurAction == LC_ACTION_SELECT && m_nTracking == LC_TRACK_NONE) { switch (i) { case 0: if (m_OverlayMode == LC_OVERLAY_ROTATE_X) glColor4f(0.8f, 0.8f, 0.0f, 1.0f); else glColor4f(0.8f, 0.0f, 0.0f, 1.0f); break; case 1: if (m_OverlayMode == LC_OVERLAY_ROTATE_Y) glColor4f(0.8f, 0.8f, 0.0f, 1.0f); else glColor4f(0.0f, 0.8f, 0.0f, 1.0f); break; case 2: if (m_OverlayMode == LC_OVERLAY_ROTATE_Z) glColor4f(0.8f, 0.8f, 0.0f, 1.0f); else glColor4f(0.0f, 0.0f, 0.8f, 1.0f); break; } glBegin(GL_TRIANGLE_STRIP); for (int j = 0; j < 9; j++) { const float Radius1 = OverlayRotateArrowEnd - OverlayMoveArrowCapRadius - OverlayRotateArrowCenter - OverlayMoveArrowBodyRadius; const float Radius2 = OverlayRotateArrowEnd - OverlayMoveArrowCapRadius - OverlayRotateArrowCenter + OverlayMoveArrowBodyRadius; float x = cosf(LC_2PI / 4 * j / 8); float y = sinf(LC_2PI / 4 * j / 8); glVertex3f(0.0f, OverlayRotateArrowCenter + x * Radius1, OverlayRotateArrowCenter + y * Radius1); glVertex3f(0.0f, OverlayRotateArrowCenter + x * Radius2, OverlayRotateArrowCenter + y * Radius2); } glEnd(); glBegin(GL_TRIANGLE_STRIP); for (int j = 0; j < 9; j++) { const float Radius = OverlayRotateArrowEnd - OverlayMoveArrowCapRadius - OverlayRotateArrowCenter; float x = cosf(LC_2PI / 4 * j / 8); float y = sinf(LC_2PI / 4 * j / 8); glVertex3f(-OverlayMoveArrowBodyRadius, OverlayRotateArrowCenter + x * Radius, OverlayRotateArrowCenter + y * Radius); glVertex3f( OverlayMoveArrowBodyRadius, OverlayRotateArrowCenter + x * Radius, OverlayRotateArrowCenter + y * Radius); } glEnd(); glBegin(GL_TRIANGLE_FAN); glVertex3f(0.0f, OverlayRotateArrowEnd - OverlayMoveArrowCapRadius, OverlayRotateArrowStart); for (int j = 0; j < 9; j++) { float x = cosf(LC_2PI * j / 8) * OverlayMoveArrowCapRadius; float y = sinf(LC_2PI * j / 8) * OverlayMoveArrowCapRadius; glVertex3f(x, OverlayRotateArrowEnd - OverlayMoveArrowCapRadius + y, OverlayRotateArrowCenter); } glEnd(); glBegin(GL_TRIANGLE_FAN); glVertex3f(0.0f, OverlayRotateArrowStart, OverlayRotateArrowEnd - OverlayMoveArrowCapRadius); for (int j = 0; j < 9; j++) { float x = cosf(LC_2PI * j / 8) * OverlayMoveArrowCapRadius; float y = sinf(LC_2PI * j / 8) * OverlayMoveArrowCapRadius; glVertex3f(x, OverlayRotateArrowCenter, OverlayRotateArrowEnd - OverlayMoveArrowCapRadius + y); } glEnd(); } glPopMatrix(); } glEnable(GL_DEPTH_TEST); } if (m_nCurAction == LC_ACTION_ROTATE || (m_nCurAction == LC_ACTION_SELECT && m_nTracking != LC_TRACK_NONE && m_OverlayMode >= LC_OVERLAY_ROTATE_X && m_OverlayMode <= LC_OVERLAY_ROTATE_XYZ)) { const float OverlayRotateRadius = 2.0f; glDisable(GL_DEPTH_TEST); Camera* Cam = view->mCamera; int j; // Find the rotation from the focused piece if relative snap is enabled. Object* Focus = NULL; lcVector4 Rot(0, 0, 1, 0); if ((m_nSnap & LC_DRAW_GLOBAL_SNAP) == 0) { Focus = GetFocusObject(); if ((Focus != NULL) && Focus->IsPiece()) Rot = ((Piece*)Focus)->mRotation; else Focus = NULL; } bool HasAngle = false; // Draw a disc showing the rotation amount. if (m_MouseTotalDelta.LengthSquared() != 0.0f && (m_nTracking != LC_TRACK_NONE)) { lcVector4 Rotation; float Angle, Step; HasAngle = true; switch (m_OverlayMode) { case LC_OVERLAY_ROTATE_X: glColor4f(0.8f, 0.0f, 0.0f, 0.3f); Angle = m_MouseTotalDelta[0]; Rotation = lcVector4(0.0f, 0.0f, 0.0f, 1.0f); break; case LC_OVERLAY_ROTATE_Y: glColor4f(0.0f, 0.8f, 0.0f, 0.3f); Angle = m_MouseTotalDelta[1]; Rotation = lcVector4(90.0f, 0.0f, 0.0f, 1.0f); break; case LC_OVERLAY_ROTATE_Z: glColor4f(0.0f, 0.0f, 0.8f, 0.3f); Angle = m_MouseTotalDelta[2]; Rotation = lcVector4(90.0f, 0.0f, -1.0f, 0.0f); break; default: Rotation = lcVector4(0.0f, 0.0f, 0.0f, 1.0f); Angle = 0.0f; break; }; if (Angle > 0.0f) { Step = 360.0f / 32; } else { Angle = -Angle; Step = -360.0f / 32; } if (fabsf(Angle) >= fabsf(Step)) { glPushMatrix(); glTranslatef(m_OverlayCenter[0], m_OverlayCenter[1], m_OverlayCenter[2]); if (Focus) glRotatef(Rot[3], Rot[0], Rot[1], Rot[2]); glRotatef(Rotation[0], Rotation[1], Rotation[2], Rotation[3]); glBlendFunc(GL_SRC_ALPHA, GL_ONE_MINUS_SRC_ALPHA); glEnable(GL_BLEND); glBegin(GL_TRIANGLE_FAN); glVertex3f(0.0f, 0.0f, 0.0f); float StartAngle; int i = 0; if (Step < 0) StartAngle = -Angle; else StartAngle = Angle; do { float x = cosf((Step * i - StartAngle) * LC_DTOR) * OverlayRotateRadius * OverlayScale; float y = sinf((Step * i - StartAngle) * LC_DTOR) * OverlayRotateRadius * OverlayScale; glVertex3f(0.0f, x, y); i++; if (Step > 0) Angle -= Step; else Angle += Step; } while (Angle >= 0.0f); glEnd(); glDisable(GL_BLEND); glPopMatrix(); } } glPushMatrix(); lcMatrix44 Mat = lcMatrix44AffineInverse(Cam->mWorldView); Mat.SetTranslation(m_OverlayCenter); // Draw the circles. if (m_nCurAction == LC_ACTION_ROTATE && !HasAngle && m_nTracking == LC_TRACK_NONE) { glBegin(GL_LINE_LOOP); glColor3f(0.1f, 0.1f, 0.1f); for (j = 0; j < 32; j++) { lcVector3 Pt; Pt[0] = cosf(LC_2PI * j / 32) * OverlayRotateRadius * OverlayScale; Pt[1] = sinf(LC_2PI * j / 32) * OverlayRotateRadius * OverlayScale; Pt[2] = 0.0f; Pt = lcMul31(Pt, Mat); glVertex3f(Pt[0], Pt[1], Pt[2]); } glEnd(); } lcVector3 ViewDir = Cam->mTargetPosition - Cam->mPosition; ViewDir.Normalize(); // Transform ViewDir to local space. if (Focus) { lcMatrix44 RotMat = lcMatrix44FromAxisAngle(lcVector3(Rot[0], Rot[1], Rot[2]), -Rot[3] * LC_DTOR); ViewDir = lcMul30(ViewDir, RotMat); } glTranslatef(m_OverlayCenter[0], m_OverlayCenter[1], m_OverlayCenter[2]); if (Focus) glRotatef(Rot[3], Rot[0], Rot[1], Rot[2]); // Draw each axis circle. for (int i = 0; i < 3; i++) { if (m_OverlayMode == LC_OVERLAY_ROTATE_X + i) { glColor4f(0.8f, 0.8f, 0.0f, 1.0f); } else { if (m_nCurAction != LC_ACTION_ROTATE || HasAngle || m_nTracking != LC_TRACK_NONE) continue; switch (i) { case 0: glColor4f(0.8f, 0.0f, 0.0f, 1.0f); break; case 1: glColor4f(0.0f, 0.8f, 0.0f, 1.0f); break; case 2: glColor4f(0.0f, 0.0f, 0.8f, 1.0f); break; } } glBegin(GL_LINES); for (int j = 0; j < 32; j++) { lcVector3 v1, v2; switch (i) { case 0: v1 = lcVector3(0.0f, cosf(LC_2PI * j / 32), sinf(LC_2PI * j / 32)); v2 = lcVector3(0.0f, cosf(LC_2PI * (j + 1) / 32), sinf(LC_2PI * (j + 1) / 32)); break; case 1: v1 = lcVector3(cosf(LC_2PI * j / 32), 0.0f, sinf(LC_2PI * j / 32)); v2 = lcVector3(cosf(LC_2PI * (j + 1) / 32), 0.0f, sinf(LC_2PI * (j + 1) / 32)); break; case 2: v1 = lcVector3(cosf(LC_2PI * j / 32), sinf(LC_2PI * j / 32), 0.0f); v2 = lcVector3(cosf(LC_2PI * (j + 1) / 32), sinf(LC_2PI * (j + 1) / 32), 0.0f); break; } if (m_nCurAction != LC_ACTION_ROTATE || HasAngle || m_nTracking != LC_TRACK_NONE || lcDot(ViewDir, v1 + v2) <= 0.0f) { lcVector3 Pt1 = v1 * (OverlayRotateRadius * OverlayScale); lcVector3 Pt2 = v2 * (OverlayRotateRadius * OverlayScale); glVertex3f(Pt1[0], Pt1[1], Pt1[2]); glVertex3f(Pt2[0], Pt2[1], Pt2[2]); } } glEnd(); } glPopMatrix(); // Draw tangent vector. if (m_nTracking != LC_TRACK_NONE) { if ((m_OverlayMode == LC_OVERLAY_ROTATE_X) || (m_OverlayMode == LC_OVERLAY_ROTATE_Y) || (m_OverlayMode == LC_OVERLAY_ROTATE_Z)) { const float OverlayRotateArrowSize = 1.5f; const float OverlayRotateArrowCapSize = 0.25f; lcVector3 Normal, Tangent; lcVector4 Rotation; float Angle; switch (m_OverlayMode) { case LC_OVERLAY_ROTATE_X: Angle = m_MouseTotalDelta[0]; Rotation = lcVector4(0.0f, 0.0f, 0.0f, 1.0f); break; case LC_OVERLAY_ROTATE_Y: Angle = m_MouseTotalDelta[1]; Rotation = lcVector4(90.0f, 0.0f, 0.0f, 1.0f); break; case LC_OVERLAY_ROTATE_Z: Angle = m_MouseTotalDelta[2]; Rotation = lcVector4(90.0f, 0.0f, -1.0f, 0.0f); break; default: Rotation = lcVector4(0.0f, 0.0f, 1.0f, 0.0f); break; }; glPushMatrix(); glTranslatef(m_OverlayCenter[0], m_OverlayCenter[1], m_OverlayCenter[2]); if (Focus) glRotatef(Rot[3], Rot[0], Rot[1], Rot[2]); glRotatef(Rotation[0], Rotation[1], Rotation[2], Rotation[3]); glColor3f(0.8f, 0.8f, 0.0f); if (HasAngle) { glBegin(GL_LINES); float StartY = OverlayScale * OverlayRotateRadius; float EndZ = (Angle > 0.0f) ? OverlayScale * OverlayRotateArrowSize : -OverlayScale * OverlayRotateArrowSize; float TipZ = (Angle > 0.0f) ? -OverlayScale * OverlayRotateArrowCapSize : OverlayScale * OverlayRotateArrowCapSize; glVertex3f(0.0f, StartY, 0.0f); glVertex3f(0.0f, StartY, EndZ); glVertex3f(0.0f, StartY, EndZ); glVertex3f(0.0f, StartY + OverlayScale * OverlayRotateArrowCapSize, EndZ + TipZ); glVertex3f(0.0f, StartY, EndZ); glVertex3f(0.0f, StartY - OverlayScale * OverlayRotateArrowCapSize, EndZ + TipZ); glEnd(); glPopMatrix(); } // Draw text. int Viewport[4] = { 0, 0, view->GetWidth(), view->GetHeight() }; float Aspect = (float)Viewport[2]/(float)Viewport[3]; Camera* Cam = view->mCamera; const lcMatrix44& ModelView = Cam->mWorldView; lcMatrix44 Projection = lcMatrix44Perspective(Cam->m_fovy, Aspect, Cam->m_zNear, Cam->m_zFar); lcVector3 Screen = lcProjectPoint(m_OverlayCenter, ModelView, Projection, Viewport); glMatrixMode(GL_PROJECTION); glPushMatrix(); glLoadIdentity(); glOrtho(0, Viewport[2], 0, Viewport[3], -1, 1); glMatrixMode(GL_MODELVIEW); glPushMatrix(); glLoadIdentity(); glTranslatef(0.375, 0.375, 0.0); glTexEnvi(GL_TEXTURE_ENV, GL_TEXTURE_ENV_MODE, GL_MODULATE); m_pScreenFont->MakeCurrent(); glEnable(GL_TEXTURE_2D); glEnable(GL_ALPHA_TEST); char buf[32]; sprintf(buf, "[%.2f]", fabsf(Angle)); int cx, cy; m_pScreenFont->GetStringDimensions(&cx, &cy, buf); glBegin(GL_QUADS); glColor3f(0.8f, 0.8f, 0.0f); m_pScreenFont->PrintText(Screen[0] - Viewport[0] - (cx / 2), Screen[1] - Viewport[1] + (cy / 2), 0.0f, buf); glEnd(); glDisable(GL_TEXTURE_2D); glDisable(GL_ALPHA_TEST); glMatrixMode(GL_PROJECTION); glPopMatrix(); glMatrixMode(GL_MODELVIEW); glPopMatrix(); } } glEnable(GL_DEPTH_TEST); } else if (m_nCurAction == LC_ACTION_ROTATE_VIEW) { int x, y, w, h; x = 0; y = 0; w = view->GetWidth(); h = view->GetHeight(); glMatrixMode(GL_PROJECTION); glLoadIdentity(); glOrtho(0, w, 0, h, -1, 1); glMatrixMode(GL_MODELVIEW); glLoadIdentity(); glTranslatef(0.375f, 0.375f, 0.0f); glDisable(GL_DEPTH_TEST); glColor4f(0.0f, 0.0f, 0.0f, 1.0f); // Draw circle. glBegin(GL_LINE_LOOP); float r = lcMin(w, h) * 0.35f; float cx = x + w / 2.0f; float cy = y + h / 2.0f; for (int i = 0; i < 32; i++) { float x = cosf((float)i / 32.0f * (2.0f * LC_PI)) * r + cx; float y = sinf((float)i / 32.0f * (2.0f * LC_PI)) * r + cy; glVertex2f(x, y); } glEnd(); const float OverlayCameraSquareSize = lcMax(8.0f, (w+h)/200); // Draw squares. glBegin(GL_LINE_LOOP); glVertex2f(cx + OverlayCameraSquareSize, cy + r + OverlayCameraSquareSize); glVertex2f(cx - OverlayCameraSquareSize, cy + r + OverlayCameraSquareSize); glVertex2f(cx - OverlayCameraSquareSize, cy + r - OverlayCameraSquareSize); glVertex2f(cx + OverlayCameraSquareSize, cy + r - OverlayCameraSquareSize); glEnd(); glBegin(GL_LINE_LOOP); glVertex2f(cx + OverlayCameraSquareSize, cy - r + OverlayCameraSquareSize); glVertex2f(cx - OverlayCameraSquareSize, cy - r + OverlayCameraSquareSize); glVertex2f(cx - OverlayCameraSquareSize, cy - r - OverlayCameraSquareSize); glVertex2f(cx + OverlayCameraSquareSize, cy - r - OverlayCameraSquareSize); glEnd(); glBegin(GL_LINE_LOOP); glVertex2f(cx + r + OverlayCameraSquareSize, cy + OverlayCameraSquareSize); glVertex2f(cx + r - OverlayCameraSquareSize, cy + OverlayCameraSquareSize); glVertex2f(cx + r - OverlayCameraSquareSize, cy - OverlayCameraSquareSize); glVertex2f(cx + r + OverlayCameraSquareSize, cy - OverlayCameraSquareSize); glEnd(); glBegin(GL_LINE_LOOP); glVertex2f(cx - r + OverlayCameraSquareSize, cy + OverlayCameraSquareSize); glVertex2f(cx - r - OverlayCameraSquareSize, cy + OverlayCameraSquareSize); glVertex2f(cx - r - OverlayCameraSquareSize, cy - OverlayCameraSquareSize); glVertex2f(cx - r + OverlayCameraSquareSize, cy - OverlayCameraSquareSize); glEnd(); glEnable(GL_DEPTH_TEST); } else if (m_nCurAction == LC_ACTION_ZOOM_REGION) { glMatrixMode(GL_PROJECTION); glLoadIdentity(); glOrtho(0, view->GetWidth(), 0, view->GetHeight(), -1, 1); glMatrixMode(GL_MODELVIEW); glLoadIdentity(); glTranslatef(0.375f, 0.375f, 0.0f); glDisable(GL_DEPTH_TEST); glEnable(GL_LINE_STIPPLE); glLineStipple(5, 0x5555); glColor3f(0, 0, 0); float pt1x = (float)m_nDownX; float pt1y = (float)m_nDownY; float pt2x = m_OverlayTrackStart[0]; float pt2y = m_OverlayTrackStart[1]; glBegin(GL_LINES); glVertex2f(pt1x, pt1y); glVertex2f(pt2x, pt1y); glVertex2f(pt2x, pt1y); glVertex2f(pt2x, pt2y); glVertex2f(pt2x, pt2y); glVertex2f(pt1x, pt2y); glVertex2f(pt1x, pt2y); glVertex2f(pt1x, pt1y); glEnd(); glDisable(GL_LINE_STIPPLE); glEnable(GL_DEPTH_TEST); } } void Project::RenderViewports(View* view) { glMatrixMode(GL_PROJECTION); glLoadIdentity(); glOrtho(0.0f, view->GetWidth(), 0.0f, view->GetHeight(), -1.0f, 1.0f); glMatrixMode(GL_MODELVIEW); glLoadIdentity(); glTranslatef(0.375f, 0.375f, 0.0f); glDepthMask(GL_FALSE); glDisable(GL_DEPTH_TEST); glDisable(GL_LIGHTING); glDisable(GL_FOG); // Draw camera name glColor3f(0, 0, 0); glEnable(GL_TEXTURE_2D); glTexEnvi(GL_TEXTURE_ENV, GL_TEXTURE_ENV_MODE, GL_MODULATE); m_pScreenFont->MakeCurrent(); glEnable(GL_ALPHA_TEST); glBegin(GL_QUADS); m_pScreenFont->PrintText(3.0f, (float)view->GetHeight() - 1.0f - 6.0f, 0.0f, view->mCamera->GetName()); glEnd(); glDisable(GL_ALPHA_TEST); glDisable(GL_TEXTURE_2D); glDepthMask(GL_TRUE); glEnable(GL_DEPTH_TEST); } // Initialize OpenGL void Project::RenderInitialize() { int i; glBlendFunc(GL_SRC_ALPHA, GL_ONE_MINUS_SRC_ALPHA); glEnable(GL_POLYGON_OFFSET_FILL); glPolygonOffset(0.5f, 0.1f); glCullFace(GL_BACK); glDisable (GL_CULL_FACE); glEnable(GL_DEPTH_TEST); glDepthFunc(GL_LEQUAL); glDepthMask(GL_TRUE); if (m_nDetail & LC_DET_SMOOTH) glShadeModel(GL_SMOOTH); else glShadeModel(GL_FLAT); if (m_nDetail & LC_DET_LIGHTING) { glEnable(GL_LIGHTING); glColorMaterial(GL_FRONT_AND_BACK, GL_AMBIENT); glEnable(GL_COLOR_MATERIAL); GLfloat mat_translucent[] = { (GLfloat)0.8, (GLfloat)0.8, (GLfloat)0.8, (GLfloat)1.0 }; GLfloat mat_opaque[] = { (GLfloat)0.8, (GLfloat)0.8, (GLfloat)0.8, (GLfloat)1.0 }; GLfloat medium_shininess[] = { (GLfloat)64.0 }; glMaterialfv(GL_FRONT_AND_BACK, GL_SHININESS, medium_shininess); glMaterialfv(GL_FRONT_AND_BACK, GL_SPECULAR, mat_opaque); glMaterialfv(GL_FRONT_AND_BACK, GL_DIFFUSE, mat_translucent); } else { glDisable(GL_LIGHTING); glDisable(GL_COLOR_MATERIAL); } glLightModelfv(GL_LIGHT_MODEL_AMBIENT, m_fAmbient); glClearColor(m_fBackground[0], m_fBackground[1], m_fBackground[2], 1.0f); if (m_nScene & LC_SCENE_FOG) { glEnable(GL_FOG); glFogi(GL_FOG_MODE, GL_EXP); glFogf(GL_FOG_DENSITY, m_fFogDensity); glFogfv(GL_FOG_COLOR, m_fFogColor); } else glDisable (GL_FOG); // Load font if (!m_pScreenFont->IsLoaded()) m_pScreenFont->Initialize(); glAlphaFunc(GL_GREATER, 0.0625); if (m_nScene & LC_SCENE_FLOOR) m_pTerrain->LoadTexture(true); if (m_nScene & LC_SCENE_BG) if (!m_pBackground->LoadFromFile(m_strBackground, true)) { m_nScene &= ~LC_SCENE_BG; // AfxMessageBox ("Could not load background"); } // Set the perspective correction hint to fastest or nicest... // glHint(GL_PERSPECTIVE_CORRECTION_HINT, GL_FASTEST); // Grid display list if (m_nGridList == 0) m_nGridList = glGenLists(1); glNewList (m_nGridList, GL_COMPILE); glEnableClientState(GL_VERTEX_ARRAY); i = 2*(4*m_nGridSize+2); // verts needed (2*lines) float *grid = (float*)malloc(i*sizeof(float[3])); float x = m_nGridSize*0.8f; for (int j = 0; j <= m_nGridSize*2; j++) { grid[j*12] = x; grid[j*12+1] = m_nGridSize*0.8f; grid[j*12+2] = 0; grid[j*12+3] = x; grid[j*12+4] = -m_nGridSize*0.8f; grid[j*12+5] = 0; grid[j*12+6] = m_nGridSize*0.8f; grid[j*12+7] = x; grid[j*12+8] = 0; grid[j*12+9] = -m_nGridSize*0.8f; grid[j*12+10] = x; grid[j*12+11] = 0; x -= 0.8f; } glVertexPointer(3, GL_FLOAT, 0, grid); glDrawArrays(GL_LINES, 0, i); glEndList(); free(grid); } ///////////////////////////////////////////////////////////////////////////// // Project functions void Project::AddPiece(Piece* pPiece) { /* // Sort piece array to avoid OpenGL state changes (needs work) void CCADDoc::AddPiece(CPiece* pNewPiece) { POSITION pos1, pos2; for (pos1 = m_Pieces.GetHeadPosition(); (pos2 = pos1) != NULL;) { CPiece* pPiece = m_Pieces.GetNext(pos1); if (pPiece->IsTranslucent()) break; } if (pos2 == NULL || pNewPiece->IsTranslucent()) m_Pieces.AddTail(pNewPiece); else m_Pieces.InsertBefore(pos2, pNewPiece); } */ if (m_pPieces != NULL) { pPiece->m_pNext = m_pPieces; m_pPieces = pPiece; // TODO: sorting and BSP } else { m_pPieces = pPiece; pPiece->m_pNext = NULL; } } void Project::RemovePiece(Piece* pPiece) { Piece* pTemp, *pLast; pLast = NULL; for (pTemp = m_pPieces; pTemp; pLast = pTemp, pTemp = pTemp->m_pNext) if (pTemp == pPiece) { if (pLast != NULL) pLast->m_pNext = pTemp->m_pNext; else m_pPieces = pTemp->m_pNext; break; } // TODO: remove from BSP } void Project::CalculateStep() { int PieceCount = 0; Piece* pPiece; Camera* pCamera; Light* pLight; for (pPiece = m_pPieces; pPiece; pPiece = pPiece->m_pNext) { pPiece->UpdatePosition(m_bAnimation ? m_nCurFrame : m_nCurStep, m_bAnimation); PieceCount++; } SystemDoWaitCursor(1); SystemStartProgressBar(0, PieceCount, 1, "Updating pieces..."); for (pPiece = m_pPieces; pPiece; pPiece = pPiece->m_pNext) SytemStepProgressBar(); SytemEndProgressBar(); SystemDoWaitCursor(-1); for (pCamera = m_pCameras; pCamera; pCamera = pCamera->m_pNext) pCamera->UpdatePosition(m_bAnimation ? m_nCurFrame : m_nCurStep, m_bAnimation); for (pLight = m_pLights; pLight; pLight = pLight->m_pNext) pLight->UpdatePosition(m_bAnimation ? m_nCurFrame : m_nCurStep, m_bAnimation); } // Returns true if anything was removed (used by cut and del) bool Project::RemoveSelectedObjects() { Piece* pPiece; Camera* pCamera; Light* pLight; void* pPrev; bool removed = false; pPiece = m_pPieces; while (pPiece) { if (pPiece->IsSelected()) { Piece* pTemp; pTemp = pPiece->m_pNext; removed = true; RemovePiece(pPiece); delete pPiece; pPiece = pTemp; } else pPiece = pPiece->m_pNext; } // Cameras can't be removed while being used or default for (pPrev = NULL, pCamera = m_pCameras; pCamera; ) { bool bCanDelete = true; for (int ViewIdx = 0; ViewIdx < m_ViewList.GetSize(); ViewIdx++) { if (pCamera == m_ViewList[ViewIdx]->mCamera) { bCanDelete = false; break; } } if (bCanDelete && pCamera->IsSelected()) { if (pPrev) { ((Camera*)pPrev)->m_pNext = pCamera->m_pNext; delete pCamera; pCamera = ((Camera*)pPrev)->m_pNext; } else { m_pCameras = m_pCameras->m_pNext; delete pCamera; pCamera = m_pCameras; } removed = true; SystemUpdateCameraMenu(m_pCameras); SystemUpdateCurrentCamera(NULL, m_ActiveView->mCamera, m_pCameras); } else { pPrev = pCamera; pCamera = pCamera->m_pNext; } } for (pPrev = NULL, pLight = m_pLights; pLight; ) { if (pLight->IsSelected()) { if (pPrev) { ((Light*)pPrev)->m_pNext = pLight->m_pNext; delete pLight; pLight = ((Light*)pPrev)->m_pNext; } else { m_pLights = m_pLights->m_pNext; delete pLight; pLight = m_pLights; } removed = true; } else { pPrev = pLight; pLight = pLight->m_pNext; } } RemoveEmptyGroups(); // CalculateStep(); // AfxGetMainWnd()->PostMessage(WM_LC_UPDATE_INFO, NULL, OT_PIECE); return removed; } void Project::UpdateSelection() { unsigned long flags = 0; int SelectedCount = 0; Object* Focus = NULL; if (m_pPieces == NULL) flags |= LC_SEL_NO_PIECES; else { Piece* pPiece; Group* pGroup = NULL; bool first = true; for (pPiece = m_pPieces; pPiece; pPiece = pPiece->m_pNext) { if (pPiece->IsSelected()) { SelectedCount++; if (pPiece->IsFocused()) Focus = pPiece; if (flags & LC_SEL_PIECE) flags |= LC_SEL_MULTIPLE; else flags |= LC_SEL_PIECE; if (pPiece->GetGroup() != NULL) { flags |= LC_SEL_GROUP; if (pPiece->IsFocused()) flags |= LC_SEL_FOCUSGROUP; } if (first) { pGroup = pPiece->GetGroup(); first = false; } else { if (pGroup != pPiece->GetGroup()) flags |= LC_SEL_CANGROUP; else if (pGroup == NULL) flags |= LC_SEL_CANGROUP; } } else { flags |= LC_SEL_UNSELECTED; if (pPiece->IsHidden()) flags |= LC_SEL_HIDDEN; } } } for (Camera* pCamera = m_pCameras; pCamera; pCamera = pCamera->m_pNext) if (pCamera->IsSelected()) { flags |= LC_SEL_CAMERA; SelectedCount++; if (pCamera->IsEyeFocused() || pCamera->IsTargetFocused()) Focus = pCamera; } for (Light* pLight = m_pLights; pLight; pLight = pLight->m_pNext) if (pLight->IsSelected()) { flags |= LC_SEL_LIGHT; SelectedCount++; if (pLight->IsEyeFocused() || pLight->IsTargetFocused()) Focus = pLight; } if (m_nTracking == LC_TRACK_NONE) { ActivateOverlay(m_ActiveView, m_nCurAction, LC_OVERLAY_NONE); } SystemUpdateSelected(flags, SelectedCount, Focus); } void Project::CheckAutoSave() { m_nSaveTimer += 5; if (m_nAutosave & LC_AUTOSAVE_FLAG) { int nInterval; nInterval = m_nAutosave & ~LC_AUTOSAVE_FLAG; if (m_nSaveTimer >= (m_nAutosave*60)) { m_nSaveTimer = 0; /* if (m_strTempFile.IsEmpty()) { char tmpFile[_MAX_PATH], out[_MAX_PATH]; GetTempPath (_MAX_PATH, out); GetTempFileName (out, "~LC", 0, tmpFile); DeleteFile (tmpFile); if (char *ptr = strchr(tmpFile, '.')) *ptr = 0; strcat (tmpFile, ".lcd"); m_strTempFile = tmpFile; } CFile file (m_strTempFile, CFile::modeCreate|CFile::modeWrite|CFile::typeBinary); m_bUndo = TRUE; file.SeekToBegin(); CArchive ar(&file, CArchive::store); Serialize(ar); ar.Close(); m_bUndo = FALSE; */ } } } unsigned char Project::GetLastStep() { unsigned char last = 1; for (Piece* pPiece = m_pPieces; pPiece; pPiece = pPiece->m_pNext) last = lcMax(last, pPiece->GetStepShow()); return last; } // Create a series of pictures void Project::CreateImages(Image* images, int width, int height, unsigned short from, unsigned short to, bool hilite) { unsigned short oldtime; void* render = Sys_StartMemoryRender (width, height); unsigned char* buf = (unsigned char*)malloc (width*height*3); oldtime = m_bAnimation ? m_nCurFrame : m_nCurStep; View view(this, m_ActiveView); view.SetCamera(m_ActiveView->mCamera); view.OnSize(width, height); if (!hilite) SelectAndFocusNone(false); RenderInitialize(); for (int i = from; i <= to; i++) { if (m_bAnimation) m_nCurFrame = i; else m_nCurStep = i; if (hilite) { for (Piece* pPiece = m_pPieces; pPiece; pPiece = pPiece->m_pNext) { if ((m_bAnimation && pPiece->GetFrameShow() == i) || (!m_bAnimation && pPiece->GetStepShow() == i)) pPiece->Select (true, false, false); else pPiece->Select (false, false, false); } } CalculateStep(); Render(&view, true); images[i-from].FromOpenGL (width, height); } if (m_bAnimation) m_nCurFrame = oldtime; else m_nCurStep = (unsigned char)oldtime; CalculateStep(); free (buf); Sys_FinishMemoryRender (render); } void Project::CreateHTMLPieceList(FILE* f, int nStep, bool bImages, const char* ext) { int* ColorsUsed = new int[gColorList.GetSize()]; memset(ColorsUsed, 0, sizeof(ColorsUsed[0]) * gColorList.GetSize()); int* PiecesUsed = new int[gColorList.GetSize()]; int NumColors = 0; for (Piece* pPiece = m_pPieces; pPiece; pPiece = pPiece->m_pNext) { if ((pPiece->GetStepShow() == nStep) || (nStep == 0)) ColorsUsed[pPiece->mColorIndex]++; } fputs("
\n",f); for (int ColorIdx = 0; ColorIdx < gColorList.GetSize(); ColorIdx++) { if (ColorsUsed[ColorIdx]) { ColorsUsed[ColorIdx] = NumColors; NumColors++; fprintf(f, "\n", gColorList[ColorIdx].Name); } } NumColors++; fputs("\n",f); PieceInfo* pInfo; for (int j = 0; j < lcGetPiecesLibrary()->GetPieceCount (); j++) { bool Add = false; memset(PiecesUsed, 0, sizeof(PiecesUsed[0]) * gColorList.GetSize()); pInfo = lcGetPiecesLibrary()->GetPieceInfo(j); for (Piece* pPiece = m_pPieces; pPiece; pPiece = pPiece->m_pNext) { if ((pPiece->mPieceInfo == pInfo) && ((pPiece->GetStepShow() == nStep) || (nStep == 0))) { PiecesUsed[pPiece->mColorIndex]++; Add = true; } } if (Add) { if (bImages) fprintf(f, "\n", pInfo->m_strName, ext, pInfo->m_strDescription); else fprintf(f, "\n", pInfo->m_strDescription); int curcol = 1; for (int ColorIdx = 0; ColorIdx < gColorList.GetSize(); ColorIdx++) { if (PiecesUsed[ColorIdx]) { while (curcol != ColorsUsed[ColorIdx] + 1) { fputs("\n", f); curcol++; } fprintf(f, "\n", PiecesUsed[ColorIdx]); curcol++; } } while (curcol != NumColors) { fputs("\n", f); curcol++; } fputs("\n", f); } } fputs("
Piece
%s
\"%s\"
%s
-
%d
-
\n
", f); delete[] PiecesUsed; delete[] ColorsUsed; } // Special notifications. void Project::HandleNotify(LC_NOTIFY id, unsigned long param) { switch (id) { case LC_COLOR_CHANGED: { m_nCurColor = (unsigned char)param; } break; case LC_CAPTURE_LOST: { if (m_nTracking != LC_TRACK_NONE) StopTracking(false); } break; // Application is (de)activated case LC_ACTIVATE: { if (param == 0) SystemExportClipboard(m_pClipboard[m_nCurClipboard]); else { free(m_pClipboard[m_nCurClipboard]); m_pClipboard[m_nCurClipboard] = SystemImportClipboard(); SystemUpdatePaste(m_pClipboard[m_nCurClipboard] != NULL); } } break; // FIXME: don't change the keys with ChangeKey() // FIXME: even if pos == prevpos, the user might want to add a key case LC_PIECE_MODIFIED: { LC_PIECE_MODIFY* mod = (LC_PIECE_MODIFY*)param; Piece* pPiece = (Piece*)mod->piece; const lcVector3& Pos = pPiece->mPosition; lcVector3 Angles = lcMatrix44ToEulerAngles(pPiece->mModelWorld) * LC_RTOD; if (Pos != mod->Position) pPiece->ChangeKey(m_bAnimation ? m_nCurFrame : m_nCurStep, m_bAnimation, m_bAddKeys, mod->Position, LC_PK_POSITION); if (mod->Rotation != Angles) { lcVector4 rot = lcMatrix44ToAxisAngle(lcMatrix44FromEulerAngles(mod->Rotation * LC_DTOR)); rot[3] *= LC_RTOD; pPiece->ChangeKey(m_bAnimation ? m_nCurFrame : m_nCurStep, m_bAnimation, m_bAddKeys, rot, LC_PK_ROTATION); } if (m_bAnimation) { pPiece->SetFrameShow(mod->from); pPiece->SetFrameHide(mod->to); } else { pPiece->SetStepShow(mod->from); pPiece->SetStepHide(mod->to); } if (mod->hidden) pPiece->Hide(); else pPiece->UnHide(); pPiece->SetName(mod->name); pPiece->SetColorIndex(mod->color); pPiece->UpdatePosition(m_bAnimation ? m_nCurFrame : m_nCurStep, m_bAnimation); SetModifiedFlag(true); CheckPoint("Modifying"); ActivateOverlay(m_ActiveView, m_nCurAction, LC_OVERLAY_NONE); UpdateAllViews(); } break; case LC_CAMERA_MODIFIED: { LC_CAMERA_MODIFY* mod = (LC_CAMERA_MODIFY*)param; Camera* pCamera = (Camera*)mod->camera; if (mod->hidden) pCamera->Hide(); else pCamera->UnHide(); if (pCamera->mPosition != mod->Eye) pCamera->ChangeKey(m_bAnimation ? m_nCurFrame : m_nCurStep, m_bAnimation, m_bAddKeys, mod->Eye, LC_CK_EYE); if (pCamera->mTargetPosition != mod->Target) pCamera->ChangeKey(m_bAnimation ? m_nCurFrame : m_nCurStep, m_bAnimation, m_bAddKeys, mod->Target, LC_CK_TARGET); if (pCamera->mUpVector != mod->Up) pCamera->ChangeKey(m_bAnimation ? m_nCurFrame : m_nCurStep, m_bAnimation, m_bAddKeys, mod->Up, LC_CK_UP); pCamera->m_fovy = mod->fovy; pCamera->m_zNear = mod->znear; pCamera->m_zFar = mod->zfar; pCamera->UpdatePosition(m_bAnimation ? m_nCurFrame : m_nCurStep, m_bAnimation); UpdateAllViews (); } break; case LC_LIGHT_MODIFIED: { } break; } } void Project::HandleMessage(int Message, void* Data) { if (Message == LC_MSG_FOCUS_CHANGED) { } } // Handle (almost) all menu/toolbar commands here. void Project::HandleCommand(LC_COMMANDS id, unsigned long nParam) { switch (id) { case LC_FILE_NEW: { if (!SaveModified()) return; // leave the original one OnNewDocument(); UpdateAllViews (); } break; case LC_FILE_OPEN: { char filename[LC_MAXPATH]; strcpy(filename, m_strModelsPath); if (SystemDoDialog(LC_DLG_FILE_OPEN_PROJECT, filename)) { OpenProject(filename); } } break; case LC_FILE_MERGE: { char filename[LC_MAXPATH]; strcpy(filename, m_strModelsPath); if (SystemDoDialog(LC_DLG_FILE_MERGE_PROJECT, filename)) { lcDiskFile file; if (file.Open(filename, "rb")) { // CWaitCursor wait; if (file.GetLength() != 0) { FileLoad(&file, false, true); CheckPoint("Merging"); } file.Close(); } } } break; case LC_FILE_SAVE: { DoFileSave(); } break; case LC_FILE_SAVEAS: { DoSave(NULL, true); } break; case LC_FILE_PICTURE: { LC_IMAGEDLG_OPTS opts; opts.from = 1; opts.to = m_bAnimation ? m_nTotalFrames : GetLastStep(); opts.multiple = m_bAnimation; opts.imopts.background[0] = (unsigned char)(m_fBackground[0]*255); opts.imopts.background[1] = (unsigned char)(m_fBackground[1]*255); opts.imopts.background[2] = (unsigned char)(m_fBackground[2]*255); if (SystemDoDialog(LC_DLG_PICTURE_SAVE, &opts)) { if (m_bAnimation) opts.to = lcMin(opts.to, m_nTotalFrames); else opts.to = lcMin(opts.to, 255); opts.from = lcMax(1, opts.from); if (opts.multiple) { if (opts.from > opts.to) { unsigned short t = opts.from; opts.from = opts.to; opts.to = t; } } else opts.from = opts.to = m_bAnimation ? m_nCurFrame : m_nCurStep; Image* images = new Image[opts.to-opts.from+1]; CreateImages (images, opts.width, opts.height, opts.from, opts.to, false); char *ptr, ext[4]; ptr = strrchr(opts.filename, '.'); if (ptr != NULL) { strncpy(ext, ptr+1, 3); strlwr(ext); } if (strcmp(ext, "avi") == 0) { SaveVideo(opts.filename, images, opts.to-opts.from+1, m_bAnimation ? m_nFPS : 60.0f/opts.imopts.pause); } else { for (int i = 0; i <= opts.to-opts.from; i++) { char filename[LC_MAXPATH]; if (opts.multiple) { char* ext = strrchr(opts.filename, '.'); *ext = 0; sprintf(filename, "%s%02d.%s", opts.filename, i+1, ext+1); *ext = '.'; } else strcpy(filename, opts.filename); images[i].FileSave (filename, &opts.imopts); } } delete []images; } } break; case LC_FILE_3DS: { #ifdef LC_WINDOWS Export3DStudio(); #endif } break; case LC_FILE_HTML: { LC_HTMLDLG_OPTS opts; strcpy (opts.path, Sys_ProfileLoadString ("Default", "HTML Path", "")); if (strlen (opts.path) == 0) { strcpy (opts.path, m_strPathName); if (strlen(opts.path) > 0) { char* ptr = strrchr(opts.path, '/'); if (ptr == NULL) ptr = strrchr(opts.path, '\\'); if (ptr) { ptr++; *ptr = 0; } } } unsigned long image = Sys_ProfileLoadInt ("Default", "HTML Image Options", 1|LC_IMAGE_TRANSPARENT); opts.imdlg.imopts.background[0] = (unsigned char)(m_fBackground[0]*255); opts.imdlg.imopts.background[1] = (unsigned char)(m_fBackground[1]*255); opts.imdlg.imopts.background[2] = (unsigned char)(m_fBackground[2]*255); opts.imdlg.from = 1; opts.imdlg.to = 1; opts.imdlg.multiple = false; opts.imdlg.width = Sys_ProfileLoadInt ("Default", "HTML Image Width", 256); opts.imdlg.height = Sys_ProfileLoadInt ("Default", "HTML Image Height", 160); opts.imdlg.imopts.quality = Sys_ProfileLoadInt ("Default", "JPEG Quality", 70); opts.imdlg.imopts.interlaced = (image & LC_IMAGE_PROGRESSIVE) != 0; opts.imdlg.imopts.transparent = (image & LC_IMAGE_TRANSPARENT) != 0; opts.imdlg.imopts.truecolor = (image & LC_IMAGE_HIGHCOLOR) != 0; opts.imdlg.imopts.pause = 1; opts.imdlg.imopts.format = (unsigned char)(image & ~(LC_IMAGE_MASK)); unsigned long ul = Sys_ProfileLoadInt ("Default", "HTML Options", LC_HTML_SINGLEPAGE); opts.singlepage = (ul & LC_HTML_SINGLEPAGE) != 0; opts.index = (ul & LC_HTML_INDEX) != 0; opts.images = (ul & LC_HTML_IMAGES) != 0; opts.listend = (ul & LC_HTML_LISTEND) != 0; opts.liststep = (ul & LC_HTML_LISTSTEP) != 0; opts.highlight = (ul & LC_HTML_HIGHLIGHT) != 0; opts.htmlext = (ul & LC_HTML_HTMLEXT) != 0; if (SystemDoDialog(LC_DLG_HTML, &opts)) { FILE* f; const char *ext, *htmlext; char fn[LC_MAXPATH]; int i; unsigned short last = GetLastStep(); // Save HTML options ul = 0; if (opts.singlepage) ul |= LC_HTML_SINGLEPAGE; if (opts.index) ul |= LC_HTML_INDEX; if (opts.images) ul |= LC_HTML_IMAGES; if (opts.listend) ul |= LC_HTML_LISTEND; if (opts.liststep) ul |= LC_HTML_LISTSTEP; if (opts.highlight) ul |= LC_HTML_HIGHLIGHT; if (opts.htmlext) ul |= LC_HTML_HTMLEXT; Sys_ProfileSaveInt ("Default", "HTML Options", ul); // Save image options ul = opts.imdlg.imopts.format; if (opts.imdlg.imopts.interlaced) ul |= LC_IMAGE_PROGRESSIVE; if (opts.imdlg.imopts.transparent) ul |= LC_IMAGE_TRANSPARENT; if (opts.imdlg.imopts.truecolor) ul |= LC_IMAGE_HIGHCOLOR; Sys_ProfileSaveInt ("Default", "HTML Image Options", ul); Sys_ProfileSaveInt ("Default", "HTML Image Width", opts.imdlg.width); Sys_ProfileSaveInt ("Default", "HTML Image Height", opts.imdlg.height); switch (opts.imdlg.imopts.format) { case LC_IMAGE_BMP: ext = ".bmp"; break; default: case LC_IMAGE_GIF: ext = ".gif"; break; case LC_IMAGE_JPG: ext = ".jpg"; break; case LC_IMAGE_PNG: ext = ".png"; break; } if (opts.htmlext) htmlext = ".html"; else htmlext = ".htm"; i = strlen (opts.path); if (i && opts.path[i] != '/' && opts.path[i] != '\\') strcat (opts.path, "/"); Sys_ProfileSaveString ("Default", "HTML Path", opts.path); /* // Create destination folder char *MyPath = strdup(dlg.m_strFolder); char *p = MyPath; int psave; while(*p) { while(*p && *p != '\\') ++p; psave = *p; if (*p == '\\') *p = 0; if (strlen(MyPath) > 3) CreateDirectory(MyPath, NULL); *p = psave; if (*p) ++p; } free(MyPath); */ main_window->BeginWait (); if (opts.singlepage) { strcpy (fn, opts.path); strcat (fn, m_strTitle); strcat (fn, htmlext); f = fopen (fn, "wt"); fprintf (f, "\n\nInstructions for %s\n\n
\n
\n", m_strTitle); for (i = 1; i <= last; i++) { fprintf(f, "\"Step

\n", m_strTitle, i, ext, i, opts.imdlg.width, opts.imdlg.height); if (opts.liststep) CreateHTMLPieceList(f, i, opts.images, ext); } if (opts.listend) CreateHTMLPieceList(f, 0, opts.images, ext); fputs("
\n


Created by LeoCAD
\n", f); fclose(f); } else { if (opts.index) { strcpy (fn, opts.path); strcat (fn, m_strTitle); strcat (fn, "-index"); strcat (fn, htmlext); f = fopen (fn, "wt"); fprintf(f, "\n\nInstructions for %s\n\n
\n
\n", m_strTitle); for (i = 1; i <= last; i++) fprintf(f, "Step %d
\n
", m_strTitle, i, htmlext, i); if (opts.listend) fprintf(f, "Pieces Used
\n", m_strTitle, htmlext); fputs("
\n


Created by LeoCAD
\n", f); fclose(f); } // Create each step for (i = 1; i <= last; i++) { sprintf(fn, "%s%s-%02d%s", opts.path, m_strTitle, i, htmlext); f = fopen(fn, "wt"); fprintf(f, "\n\n%s - Step %02d\n\n
\n
\n", m_strTitle, i); fprintf(f, "\"Step

\n", m_strTitle, i, ext, i, opts.imdlg.width, opts.imdlg.height); if (opts.liststep) CreateHTMLPieceList(f, i, opts.images, ext); fputs("
\n


", f); if (i != 1) fprintf(f, "Previous ", m_strTitle, i-1, htmlext); if (opts.index) fprintf(f, "Index ", m_strTitle, htmlext); if (i != last) fprintf(f, "Next", m_strTitle, i+1, htmlext); else if (opts.listend) fprintf(f, "Pieces Used", m_strTitle, htmlext); fputs("
\n",f); fclose(f); } if (opts.listend) { strcpy (fn, opts.path); strcat (fn, m_strTitle); strcat (fn, "-pieces"); strcat (fn, htmlext); f = fopen (fn, "wt"); fprintf (f, "\n\nPieces used by %s\n\n
\n
\n", m_strTitle); CreateHTMLPieceList(f, 0, opts.images, ext); fputs("
\n


", f); fprintf(f, "Previous ", m_strTitle, i-1, htmlext); if (opts.index) fprintf(f, "Index ", m_strTitle, htmlext); fputs("
\n",f); fclose(f); } } // Save step pictures Image* images = new Image[last]; CreateImages (images, opts.imdlg.width, opts.imdlg.height, 1, last, opts.highlight); for (i = 0; i < last; i++) { sprintf(fn, "%s%s-%02d%s", opts.path, m_strTitle, i+1, ext); images[i].FileSave (fn, &opts.imdlg.imopts); } delete []images; if (opts.images) { int cx = 120, cy = 100; void* render = Sys_StartMemoryRender (cx, cy); float aspect = (float)cx/(float)cy; glViewport(0, 0, cx, cy); Piece *p1, *p2; PieceInfo* pInfo; for (p1 = m_pPieces; p1; p1 = p1->m_pNext) { bool bSkip = false; pInfo = p1->mPieceInfo; for (p2 = m_pPieces; p2; p2 = p2->m_pNext) { if (p2 == p1) break; if (p2->mPieceInfo == pInfo) { bSkip = true; break; } } if (bSkip) continue; glDepthFunc(GL_LEQUAL); glClearColor(1,1,1,1); glClear(GL_COLOR_BUFFER_BIT | GL_DEPTH_BUFFER_BIT); glColorMaterial(GL_FRONT, GL_AMBIENT_AND_DIFFUSE); glEnable(GL_COLOR_MATERIAL); glDisable (GL_DITHER); glShadeModel(GL_FLAT); pInfo->ZoomExtents(30.0f, aspect); float pos[4] = { 0, 0, 10, 0 }; glLightfv(GL_LIGHT0, GL_POSITION, pos); glEnable(GL_LIGHTING); glEnable(GL_LIGHT0); glEnable(GL_DEPTH_TEST); pInfo->RenderPiece(m_nCurColor); glFinish(); Image image; image.FromOpenGL (cx, cy); sprintf(fn, "%s%s%s", opts.path, pInfo->m_strName, ext); image.FileSave (fn, &opts.imdlg.imopts); } Sys_FinishMemoryRender (render); } main_window->EndWait (); } } break; // Export to POV-Ray, swap X & Y from our cs to work with LGEO. case LC_FILE_POVRAY: { LC_POVRAYDLG_OPTS opts; if (!SystemDoDialog(LC_DLG_POVRAY, &opts)) break; lcDiskFile POVFile; char Line[1024]; if (!POVFile.Open(opts.outpath, "wt")) { SystemDoMessageBox("Could not open file for writing.", LC_MB_OK|LC_MB_ICONERROR); break; } PiecesLibrary* Library = lcGetPiecesLibrary(); char* PieceTable = new char[Library->GetPieceCount() * LC_PIECE_NAME_LEN]; int* PieceFlags = new int[Library->GetPieceCount()]; int NumColors = gColorList.GetSize(); char* ColorTable = new char[NumColors * LC_MAX_COLOR_NAME]; memset(PieceTable, 0, Library->GetPieceCount() * LC_PIECE_NAME_LEN); memset(PieceFlags, 0, Library->GetPieceCount() * sizeof(int)); memset(ColorTable, 0, NumColors * LC_MAX_COLOR_NAME); enum { LGEO_PIECE_LGEO = 0x01, LGEO_PIECE_AR = 0x02, LGEO_PIECE_SLOPE = 0x04, }; enum { LGEO_COLOR_SOLID = 0x01, LGEO_COLOR_TRANSPARENT = 0x02, LGEO_COLOR_CHROME = 0x04, LGEO_COLOR_PEARL = 0x08, LGEO_COLOR_METALLIC = 0x10, LGEO_COLOR_RUBBER = 0x20, LGEO_COLOR_GLITTER = 0x40, }; // Parse LGEO tables. if (opts.libpath[0]) { lcDiskFile TableFile, ColorFile; char Filename[LC_MAXPATH]; int Length = strlen(opts.libpath); if ((opts.libpath[Length - 1] != '\\') && (opts.libpath[Length - 1] != '/')) strcat(opts.libpath, "/"); strcpy(Filename, opts.libpath); strcat(Filename, "lg_elements.lst"); if (!TableFile.Open(Filename, "rt")) { delete[] PieceTable; delete[] PieceFlags; SystemDoMessageBox("Could not find LGEO files.", LC_MB_OK | LC_MB_ICONERROR); break; } while (TableFile.ReadLine(Line, sizeof(Line))) { char Src[1024], Dst[1024], Flags[1024]; if (*Line == ';') continue; if (sscanf(Line,"%s%s%s", Src, Dst, Flags) != 3) continue; strupr(Src); PieceInfo* Info = Library->FindPieceInfo(Src); if (!Info) continue; int Index = Library->GetPieceIndex(Info); if (strchr(Flags, 'L')) { PieceFlags[Index] |= LGEO_PIECE_LGEO; sprintf(PieceTable + Index * LC_PIECE_NAME_LEN, "lg_%s", Dst); } if (strchr(Flags, 'A')) { PieceFlags[Index] |= LGEO_PIECE_AR; sprintf(PieceTable + Index * LC_PIECE_NAME_LEN, "ar_%s", Dst); } if (strchr(Flags, 'S')) PieceFlags[Index] |= LGEO_PIECE_SLOPE; } strcpy(Filename, opts.libpath); strcat(Filename, "lg_colors.lst"); if (!ColorFile.Open(Filename, "rt")) { delete[] PieceTable; delete[] PieceFlags; SystemDoMessageBox("Could not find LGEO files.", LC_MB_OK | LC_MB_ICONERROR); break; } while (ColorFile.ReadLine(Line, sizeof(Line))) { char Name[1024], Flags[1024]; int Code; if (*Line == ';') continue; if (sscanf(Line,"%d%s%s", &Code, Name, Flags) != 3) continue; int Color = lcGetColorIndex(Code); if (Color >= NumColors) continue; strcpy(&ColorTable[Color * LC_MAX_COLOR_NAME], Name); } } const char* OldLocale = setlocale(LC_NUMERIC, "C"); // Add includes. if (opts.libpath[0]) { POVFile.WriteLine("#include \"lg_defs.inc\"\n#include \"lg_color.inc\"\n\n"); for (Piece* piece = m_pPieces; piece; piece = piece->m_pNext) { PieceInfo* Info = piece->mPieceInfo; for (Piece* FirstPiece = m_pPieces; FirstPiece; FirstPiece = FirstPiece->m_pNext) { if (FirstPiece->mPieceInfo != Info) continue; if (FirstPiece != piece) break; int Index = Library->GetPieceIndex(Info); if (PieceTable[Index * LC_PIECE_NAME_LEN]) { sprintf(Line, "#include \"%s.inc\"\n", PieceTable + Index * LC_PIECE_NAME_LEN); POVFile.WriteLine(Line); } break; } } POVFile.WriteLine("\n"); } else POVFile.WriteLine("#include \"colors.inc\"\n\n"); // Add color definitions. for (int ColorIdx = 0; ColorIdx < gColorList.GetSize(); ColorIdx++) { lcColor* Color = &gColorList[ColorIdx]; if (lcIsColorTranslucent(ColorIdx)) { sprintf(Line, "#declare lc_%s = texture { pigment { rgb <%f, %f, %f> filter 0.9 } finish { ambient 0.3 diffuse 0.2 reflection 0.25 phong 0.3 phong_size 60 } }\n", Color->SafeName, Color->Value[0], Color->Value[1], Color->Value[2]); } else { sprintf(Line, "#declare lc_%s = texture { pigment { rgb <%f, %f, %f> } finish { ambient 0.1 phong 0.2 phong_size 20 } }\n", Color->SafeName, Color->Value[0], Color->Value[1], Color->Value[2]); } POVFile.WriteLine(Line); if (!ColorTable[ColorIdx * LC_MAX_COLOR_NAME]) sprintf(&ColorTable[ColorIdx * LC_MAX_COLOR_NAME], "lc_%s", Color->SafeName); } POVFile.WriteLine("\n"); // Add pieces not included in LGEO. for (Piece* piece = m_pPieces; piece; piece = piece->m_pNext) { PieceInfo* Info = piece->mPieceInfo; int Index = Library->GetPieceIndex(Info); if (PieceTable[Index * LC_PIECE_NAME_LEN]) continue; char Name[LC_PIECE_NAME_LEN]; char* Ptr; strcpy(Name, Info->m_strName); while ((Ptr = strchr(Name, '-'))) *Ptr = '_'; sprintf(PieceTable + Index * LC_PIECE_NAME_LEN, "lc_%s", Name); Info->mMesh->ExportPOVRay(POVFile, Name, ColorTable); POVFile.WriteLine("}\n\n"); sprintf(Line, "#declare lc_%s_clear = lc_%s\n\n", Name, Name); POVFile.WriteLine(Line); } const lcVector3& Position = m_ActiveView->mCamera->mPosition; const lcVector3& Target = m_ActiveView->mCamera->mTargetPosition; const lcVector3& Up = m_ActiveView->mCamera->mUpVector; sprintf(Line, "camera {\n sky<%1g,%1g,%1g>\n location <%1g, %1g, %1g>\n look_at <%1g, %1g, %1g>\n angle %.0f\n}\n\n", Up[0], Up[1], Up[2], Position[1], Position[0], Position[2], Target[1], Target[0], Target[2], m_ActiveView->mCamera->m_fovy); POVFile.WriteLine(Line); sprintf(Line, "background { color rgb <%1g, %1g, %1g> }\n\nlight_source { <0, 0, 20> White shadowless }\n\n", m_fBackground[0], m_fBackground[1], m_fBackground[2]); POVFile.WriteLine(Line); for (Piece* piece = m_pPieces; piece; piece = piece->m_pNext) { int Index = Library->GetPieceIndex(piece->mPieceInfo); float fl[12]; int Color; Color = piece->mColorIndex; const char* Suffix = lcIsColorTranslucent(Color) ? "_clear" : ""; const lcVector3& pos = piece->mPosition; const lcVector4& rot = piece->mRotation; Matrix mat(rot, pos); mat.ToLDraw(fl); if (PieceFlags[Index] & LGEO_PIECE_SLOPE) { sprintf(Line, "merge {\n object {\n %s%s\n texture { %s }\n }\n" " object {\n %s_slope\n texture { %s normal { bumps 0.3 scale 0.02 } }\n }\n" " matrix <%.4f, %.4f, %.4f, %.4f, %.4f, %.4f, %.4f, %.4f, %.4f, %.4f, %.4f, %.4f>\n}\n", PieceTable + Index * LC_PIECE_NAME_LEN, Suffix, &ColorTable[Color * LC_MAX_COLOR_NAME], PieceTable + Index * LC_PIECE_NAME_LEN, &ColorTable[Color * LC_MAX_COLOR_NAME], -fl[11], -fl[5], fl[8], -fl[9], -fl[3], fl[6], -fl[10], -fl[4], fl[7], pos[1], pos[0], pos[2]); } else { sprintf(Line, "object {\n %s%s\n texture { %s }\n matrix <%.4f, %.4f, %.4f, %.4f, %.4f, %.4f, %.4f, %.4f, %.4f, %.4f, %.4f, %.4f>\n}\n", PieceTable + Index * LC_PIECE_NAME_LEN, Suffix, &ColorTable[Color * LC_MAX_COLOR_NAME], -fl[11], -fl[5], fl[8], -fl[9], -fl[3], fl[6], -fl[10], -fl[4], fl[7], pos[1], pos[0], pos[2]); } POVFile.WriteLine(Line); } delete[] PieceTable; delete[] PieceFlags; setlocale(LC_NUMERIC, OldLocale); if (opts.render) { #ifdef LC_WINDOWS char CmdLine[LC_MAXPATH * 3 + 100]; if (opts.libpath[0]) sprintf(CmdLine, "\"+L%slg\\\" \"+L%sar\\\" \"+I%s\"", opts.libpath, opts.libpath, opts.outpath); else sprintf(CmdLine, "\"+I%s\"", opts.outpath); ShellExecute(::GetDesktopWindow(), "open", opts.povpath, CmdLine, NULL, SW_SHOWNORMAL); #endif #ifdef LC_LINUX pid_t pID = fork(); if (pID == 0) { char InputArg[LC_MAXPATH + 16]; sprintf(InputArg, "+I%s", opts.outpath); if (opts.libpath[0]) { char LibArg1[LC_MAXPATH + 16], LibArg2[LC_MAXPATH + 16]; sprintf(LibArg1, "+L%slg/", opts.libpath); sprintf(LibArg2, "+L%sar/", opts.libpath); execl(opts.povpath, opts.povpath, InputArg, LibArg1, LibArg2, NULL); } else execl(opts.povpath, opts.povpath, InputArg, NULL); exit(0); } #endif } } break; case LC_FILE_WAVEFRONT: { char filename[LC_MAXPATH]; if (!SystemDoDialog(LC_DLG_WAVEFRONT, filename)) break; lcDiskFile OBJFile; char Line[1024]; if (!OBJFile.Open(filename, "wt")) { SystemDoMessageBox("Could not open file for writing.", LC_MB_OK|LC_MB_ICONERROR); break; } char buf[LC_MAXPATH], *ptr; lcuint32 vert = 1; Piece* pPiece; const char* OldLocale = setlocale(LC_NUMERIC, "C"); strcpy(buf, m_strPathName); ptr = strrchr(buf, '\\'); if (ptr) ptr++; else { ptr = strrchr(buf, '/'); if (ptr) ptr++; else ptr = buf; } OBJFile.WriteLine("# Model exported from LeoCAD\n"); if (strlen(buf) != 0) { sprintf(Line, "# Original name: %s\n", ptr); OBJFile.WriteLine(Line); } if (strlen(m_strAuthor)) { sprintf(Line, "# Author: %s\n", m_strAuthor); OBJFile.WriteLine(Line); } strcpy(buf, filename); ptr = strrchr(buf, '.'); if (ptr) *ptr = 0; strcat(buf, ".mtl"); ptr = strrchr(buf, '\\'); if (ptr) ptr++; else { ptr = strrchr(buf, '/'); if (ptr) ptr++; else ptr = buf; } sprintf(Line, "#\n\nmtllib %s\n\n", ptr); OBJFile.WriteLine(Line); FILE* mat = fopen(buf, "wt"); fputs("# Colors used by LeoCAD\n# You need to add transparency values\n#\n\n", mat); for (int ColorIdx = 0; ColorIdx < gColorList.GetSize(); ColorIdx++) { lcColor* Color = &gColorList[ColorIdx]; fprintf(mat, "newmtl %s\nKd %.2f %.2f %.2f\n\n", Color->SafeName, Color->Value[0], Color->Value[1], Color->Value[2]); } fclose(mat); for (pPiece = m_pPieces; pPiece; pPiece = pPiece->m_pNext) { float tmp[3]; const lcVector3& pos = pPiece->mPosition; const lcVector4& rot = pPiece->mRotation; Matrix mat(rot, pos); PieceInfo* pInfo = pPiece->mPieceInfo; float* Verts = (float*)pInfo->mMesh->mVertexBuffer.mData; for (int i = 0; i < pInfo->mMesh->mNumVertices * 3; i += 3) { mat.TransformPoint(tmp, &Verts[i]); sprintf(Line, "v %.2f %.2f %.2f\n", tmp[0], tmp[1], tmp[2]); OBJFile.WriteLine(Line); } OBJFile.WriteLine("#\n\n"); } for (pPiece = m_pPieces; pPiece; pPiece = pPiece->m_pNext) { PieceInfo* Info = pPiece->mPieceInfo; strcpy(buf, pPiece->GetName()); for (unsigned int i = 0; i < strlen(buf); i++) if ((buf[i] == '#') || (buf[i] == ' ')) buf[i] = '_'; sprintf(Line, "g %s\n", buf); OBJFile.WriteLine(Line); Info->mMesh->ExportWavefrontIndices(OBJFile, pPiece->mColorCode, vert); vert += Info->mMesh->mNumVertices; } setlocale(LC_NUMERIC, OldLocale); } break; case LC_FILE_PROPERTIES: { PiecesLibrary* Library = lcGetPiecesLibrary(); LC_PROPERTIESDLG_OPTS opts; opts.strTitle = m_strTitle; strcpy(opts.strAuthor, m_strAuthor); strcpy(opts.strDescription, m_strDescription); strcpy(opts.strComments, m_strComments); opts.strFilename = m_strPathName; opts.NumPieces = Library->GetPieceCount(); opts.NumColors = gColorList.GetSize(); opts.PieceColorCount = new int[(opts.NumPieces + 1) * (opts.NumColors + 1)]; memset(opts.PieceColorCount, 0, (opts.NumPieces + 1) * (opts.NumColors + 1) * sizeof(opts.PieceColorCount[0])); opts.PieceNames = new const char*[opts.NumPieces]; for (int i = 0; i < opts.NumPieces; i++) opts.PieceNames[i] = Library->GetPieceInfo(i)->m_strDescription; for (Piece* pPiece = m_pPieces; pPiece; pPiece = pPiece->m_pNext) { int idx = Library->GetPieceIndex(pPiece->mPieceInfo); opts.PieceColorCount[idx * (opts.NumColors + 1) + pPiece->mColorIndex]++; opts.PieceColorCount[idx * (opts.NumColors + 1) + opts.NumColors]++; opts.PieceColorCount[opts.NumPieces * (opts.NumColors + 1) + pPiece->mColorIndex]++; opts.PieceColorCount[opts.NumPieces * (opts.NumColors + 1) + opts.NumColors]++; } if (SystemDoDialog(LC_DLG_PROPERTIES, &opts)) { if (strcmp(m_strAuthor, opts.strAuthor) || strcmp(m_strDescription, opts.strDescription) || strcmp(m_strComments, opts.strComments)) { strcpy(m_strAuthor, opts.strAuthor); strcpy(m_strDescription, opts.strDescription); strcpy(m_strComments, opts.strComments); SetModifiedFlag(true); } } delete[] opts.PieceColorCount; delete[] opts.PieceNames; } break; case LC_FILE_TERRAIN: { Terrain* temp = new Terrain(); *temp = *m_pTerrain; if (SystemDoDialog(LC_DLG_TERRAIN, temp)) { *m_pTerrain = *temp; m_pTerrain->LoadTexture(true); } delete temp; } break; case LC_FILE_LIBRARY: { lcMemFile file; FileSave(&file, true); if (SystemDoDialog(LC_DLG_LIBRARY, NULL)) { if (lcGetPiecesLibrary()->m_Modified) { DeleteContents(true); FileLoad(&file, true, false); } } } break; case LC_FILE_RECENT: { OpenProject(main_window->GetMRU(nParam)); } break; case LC_EDIT_UNDO: case LC_EDIT_REDO: { LC_UNDOINFO *pUndo, *pTmp; int i; if (id == LC_EDIT_UNDO) { if ((m_pUndoList != NULL) && (m_pUndoList->pNext != NULL)) { // Remove the first item from the undo list. pUndo = m_pUndoList; m_pUndoList = pUndo->pNext; // Check if we need to delete the last redo info. for (pTmp = m_pRedoList, i = 0; pTmp; pTmp = pTmp->pNext, i++) if ((i == 29) && (pTmp->pNext != NULL)) { delete pTmp->pNext; pTmp->pNext = NULL; } pUndo->pNext = m_pRedoList; m_pRedoList = pUndo; pUndo = m_pUndoList; DeleteContents(true); FileLoad(&pUndo->file, true, false); } if (m_bUndoOriginal && (m_pUndoList != NULL) && (m_pUndoList->pNext == NULL)) SetModifiedFlag(false); } else { if (m_pRedoList != NULL) { // Remove the first element from the redo list. pUndo = m_pRedoList; m_pRedoList = pUndo->pNext; // Check if we can delete the last undo info. for (pTmp = m_pUndoList, i = 0; pTmp; pTmp = pTmp->pNext, i++) if ((i == 30) && (pTmp->pNext != NULL)) { delete pTmp->pNext; pTmp->pNext = NULL; } // Add info to the start of the undo list. pUndo->pNext = m_pUndoList; m_pUndoList = pUndo; // Load state. DeleteContents(true); FileLoad(&pUndo->file, true, false); } } SystemUpdateUndoRedo(m_pUndoList->pNext ? m_pUndoList->strText : NULL, m_pRedoList ? m_pRedoList->strText : NULL); } break; case LC_EDIT_CUT: case LC_EDIT_COPY: { if (m_pClipboard[m_nCurClipboard] != NULL) delete m_pClipboard[m_nCurClipboard]; m_pClipboard[m_nCurClipboard] = new lcMemFile; int i = 0; Piece* pPiece; Camera* pCamera; Group* pGroup; // Light* pLight; for (pPiece = m_pPieces; pPiece; pPiece = pPiece->m_pNext) if (pPiece->IsSelected()) i++; m_pClipboard[m_nCurClipboard]->WriteBuffer(&i, sizeof(i)); for (pPiece = m_pPieces; pPiece; pPiece = pPiece->m_pNext) if (pPiece->IsSelected()) pPiece->FileSave(*m_pClipboard[m_nCurClipboard], m_pGroups); for (i = 0, pGroup = m_pGroups; pGroup; pGroup = pGroup->m_pNext) i++; m_pClipboard[m_nCurClipboard]->WriteBuffer(&i, sizeof(i)); for (pGroup = m_pGroups; pGroup; pGroup = pGroup->m_pNext) pGroup->FileSave(m_pClipboard[m_nCurClipboard], m_pGroups); for (i = 0, pCamera = m_pCameras; pCamera; pCamera = pCamera->m_pNext) if (pCamera->IsSelected()) i++; m_pClipboard[m_nCurClipboard]->WriteBuffer(&i, sizeof(i)); for (pCamera = m_pCameras; pCamera; pCamera = pCamera->m_pNext) if (pCamera->IsSelected()) pCamera->FileSave(*m_pClipboard[m_nCurClipboard]); /* for (i = 0, pLight = m_pLights; pLight; pLight = pLight->m_pNext) if (pLight->IsSelected()) i++; m_pClipboard[m_nCurClipboard]->Write(&i, sizeof(i)); for (pLight = m_pLights; pLight; pLight = pLight->m_pNext) if (pLight->IsSelected()) pLight->FileSave(m_pClipboard[m_nCurClipboard]); */ if (id == LC_EDIT_CUT) { RemoveSelectedObjects(); SystemUpdateFocus(NULL); UpdateSelection(); UpdateAllViews (); SetModifiedFlag(true); CheckPoint("Cutting"); } SystemExportClipboard(m_pClipboard[m_nCurClipboard]); SystemUpdatePaste(true); } break; case LC_EDIT_PASTE: { int i, j; Piece* pPasted = NULL; lcFile* file = m_pClipboard[m_nCurClipboard]; if (file == NULL) break; file->Seek(0, SEEK_SET); SelectAndFocusNone(false); file->ReadBuffer(&i, sizeof(i)); while (i--) { char name[LC_PIECE_NAME_LEN]; Piece* pPiece = new Piece(NULL); pPiece->FileLoad(*file, name); PieceInfo* pInfo = lcGetPiecesLibrary()->FindPieceInfo(name); if (pInfo) { pPiece->SetPieceInfo(pInfo); pPiece->m_pNext = pPasted; pPasted = pPiece; } else delete pPiece; } file->ReadBuffer(&i, sizeof(i)); Piece* pPiece; Group** groups = (Group**)malloc(i*sizeof(Group**)); for (j = 0; j < i; j++) { groups[j] = new Group(); groups[j]->FileLoad(file); } while (pPasted) { pPiece = pPasted; pPasted = pPasted->m_pNext; pPiece->CreateName(m_pPieces); pPiece->SetFrameShow(m_nCurFrame); pPiece->SetStepShow(m_nCurStep); AddPiece(pPiece); pPiece->Select(true, false, false); j = LC_POINTER_TO_INT(pPiece->GetGroup()); if (j != -1) pPiece->SetGroup(groups[j]); else pPiece->UnGroup(NULL); } for (j = 0; j < i; j++) { int g = LC_POINTER_TO_INT(groups[j]->m_pGroup); groups[j]->m_pGroup = (g != -1) ? groups[g] : NULL; } for (j = 0; j < i; j++) { Group* pGroup; bool add = false; for (pPiece = m_pPieces; pPiece; pPiece = pPiece->m_pNext) { for (pGroup = pPiece->GetGroup(); pGroup; pGroup = pGroup->m_pGroup) if (pGroup == groups[j]) { add = true; break; } if (add) break; } if (add) { int a, max = 0; for (pGroup = m_pGroups; pGroup; pGroup = pGroup->m_pNext) if (strncmp("Pasted Group #", pGroup->m_strName, 14) == 0) if (sscanf(pGroup->m_strName + 14, "%d", &a) == 1) if (a > max) max = a; sprintf(groups[j]->m_strName, "Pasted Group #%.2d", max+1); groups[j]->m_pNext = m_pGroups; m_pGroups = groups[j]; } else delete groups[j]; } free(groups); Camera* pCamera = m_pCameras; while (pCamera->m_pNext) pCamera = pCamera->m_pNext; file->ReadBuffer(&i, sizeof(i)); while (i--) { pCamera = new Camera(8, pCamera); pCamera->FileLoad(*file); pCamera->Select(true, false, false); pCamera->GetTarget ()->Select(true, false, false); } // TODO: lights CalculateStep(); SetModifiedFlag(true); CheckPoint("Pasting"); SystemUpdateFocus(NULL); UpdateSelection(); UpdateAllViews (); } break; case LC_EDIT_SELECT_ALL: { Piece* pPiece; for (pPiece = m_pPieces; pPiece; pPiece = pPiece->m_pNext) if (pPiece->IsVisible(m_bAnimation ? m_nCurFrame : m_nCurStep, m_bAnimation)) pPiece->Select(true, false, false); // pFrame->UpdateInfo(); UpdateSelection(); UpdateAllViews (); } break; case LC_EDIT_SELECT_NONE: { SelectAndFocusNone(false); messenger->Dispatch (LC_MSG_FOCUS_CHANGED, NULL); UpdateSelection(); UpdateAllViews(); } break; case LC_EDIT_SELECT_INVERT: { Piece* pPiece; for (pPiece = m_pPieces; pPiece; pPiece = pPiece->m_pNext) if (pPiece->IsVisible(m_bAnimation ? m_nCurFrame : m_nCurStep, m_bAnimation)) { if (pPiece->IsSelected()) pPiece->Select(false, false, false); else pPiece->Select(true, false, false); } messenger->Dispatch (LC_MSG_FOCUS_CHANGED, NULL); UpdateSelection(); UpdateAllViews(); } break; case LC_EDIT_SELECT_BYNAME: { Piece* pPiece; Camera* pCamera; Light* pLight; Group* pGroup; int i = 0; for (pPiece = m_pPieces; pPiece; pPiece = pPiece->m_pNext) if (pPiece->IsVisible(m_bAnimation ? m_nCurFrame : m_nCurStep, m_bAnimation)) i++; for (pCamera = m_pCameras; pCamera; pCamera = pCamera->m_pNext) if (pCamera != m_ActiveView->mCamera) if (pCamera->IsVisible()) i++; for (pLight = m_pLights; pLight; pLight = pLight->m_pNext) if (pLight->IsVisible()) i++; // TODO: add only groups with visible pieces for (pGroup = m_pGroups; pGroup; pGroup = pGroup->m_pNext) i++; if (i == 0) { // TODO: say 'Nothing to select' break; } LC_SEL_DATA* opts = (LC_SEL_DATA*)malloc((i+1)*sizeof(LC_SEL_DATA)); i = 0; for (pPiece = m_pPieces; pPiece; pPiece = pPiece->m_pNext) if (pPiece->IsVisible(m_bAnimation ? m_nCurFrame : m_nCurStep, m_bAnimation)) { opts[i].name = pPiece->GetName(); opts[i].type = LC_SELDLG_PIECE; opts[i].selected = pPiece->IsSelected(); opts[i].pointer = pPiece; i++; } for (pCamera = m_pCameras; pCamera; pCamera = pCamera->m_pNext) if (pCamera != m_ActiveView->mCamera) if (pCamera->IsVisible()) { opts[i].name = pCamera->GetName(); opts[i].type = LC_SELDLG_CAMERA; opts[i].selected = pCamera->IsSelected(); opts[i].pointer = pCamera; i++; } for (pLight = m_pLights; pLight; pLight = pLight->m_pNext) if (pLight->IsVisible()) { opts[i].name = pLight->GetName(); opts[i].type = LC_SELDLG_LIGHT; opts[i].selected = pLight->IsSelected(); opts[i].pointer = pLight; i++; } // TODO: add only groups with visible pieces for (pGroup = m_pGroups; pGroup; pGroup = pGroup->m_pNext) { opts[i].name = pGroup->m_strName; opts[i].type = LC_SELDLG_GROUP; // TODO: check if selected opts[i].selected = false; opts[i].pointer = pGroup; i++; } opts[i].pointer = NULL; if (SystemDoDialog(LC_DLG_SELECTBYNAME, opts)) { SelectAndFocusNone(false); for (i = 0; opts[i].pointer != NULL; i++) { if (!opts[i].selected) continue; switch (opts[i].type) { case LC_SELDLG_PIECE: { ((Piece*)opts[i].pointer)->Select(true, false, false); } break; case LC_SELDLG_CAMERA: { ((Camera*)opts[i].pointer)->Select(true, false, false); } break; case LC_SELDLG_LIGHT: { ((Light*)opts[i].pointer)->Select(true, false, false); } break; case LC_SELDLG_GROUP: { pGroup = (Group*)opts[i].pointer; pGroup = pGroup->GetTopGroup(); for (pPiece = m_pPieces; pPiece; pPiece = pPiece->m_pNext) if (pPiece->GetTopGroup() == pGroup) pPiece->Select(true, false, false); } break; } } UpdateSelection(); UpdateAllViews(); // pFrame->UpdateInfo(); } free(opts); } break; case LC_PIECE_INSERT: { if (m_pCurPiece == NULL) break; Piece* pLast = NULL; Piece* pPiece = new Piece(m_pCurPiece); for (pLast = m_pPieces; pLast; pLast = pLast->m_pNext) if ((pLast->IsFocused()) || (pLast->m_pNext == NULL)) break; if (pLast != NULL) { lcVector3 Pos; lcVector4 Rot; GetPieceInsertPosition(pLast, Pos, Rot); pPiece->Initialize(Pos[0], Pos[1], Pos[2], m_nCurStep, m_nCurFrame); pPiece->ChangeKey(m_nCurStep, false, false, Rot, LC_PK_ROTATION); pPiece->ChangeKey(m_nCurFrame, true, false, Rot, LC_PK_ROTATION); pPiece->UpdatePosition(m_bAnimation ? m_nCurFrame : m_nCurStep, m_bAnimation); } else pPiece->Initialize(0, 0, 0, m_nCurStep, m_nCurFrame); SelectAndFocusNone(false); pPiece->SetColorIndex(m_nCurColor); pPiece->CreateName(m_pPieces); AddPiece(pPiece); pPiece->Select (true, true, false); messenger->Dispatch (LC_MSG_FOCUS_CHANGED, pPiece); UpdateSelection(); SystemPieceComboAdd(m_pCurPiece->m_strDescription); // AfxGetMainWnd()->PostMessage(WM_LC_UPDATE_INFO, (WPARAM)pNew, OT_PIECE); UpdateAllViews(); SetModifiedFlag(true); CheckPoint("Inserting"); } break; case LC_PIECE_DELETE: { if (RemoveSelectedObjects()) { messenger->Dispatch (LC_MSG_FOCUS_CHANGED, NULL); UpdateSelection(); UpdateAllViews(); SetModifiedFlag(true); CheckPoint("Deleting"); } } break; case LC_PIECE_MINIFIG: { MinifigWizard Wizard(m_ActiveView); int i; if (SystemDoDialog(LC_DLG_MINIFIG, &Wizard)) { SelectAndFocusNone(false); for (i = 0; i < LC_MFW_NUMITEMS; i++) { if (Wizard.m_Info[i] == NULL) continue; Matrix mat; Piece* pPiece = new Piece(Wizard.m_Info[i]); lcVector4& Position = Wizard.m_Matrices[i][3]; lcVector4 Rotation = lcMatrix44ToAxisAngle(Wizard.m_Matrices[i]); Rotation[3] *= LC_RTOD; pPiece->Initialize(Position[0], Position[1], Position[2], m_nCurStep, m_nCurFrame); pPiece->SetColorIndex(Wizard.m_Colors[i]); pPiece->CreateName(m_pPieces); AddPiece(pPiece); pPiece->Select(true, false, false); pPiece->ChangeKey(1, false, false, Rotation, LC_PK_ROTATION); pPiece->ChangeKey(1, true, false, Rotation, LC_PK_ROTATION); pPiece->UpdatePosition(m_bAnimation ? m_nCurFrame : m_nCurStep, m_bAnimation); SystemPieceComboAdd(Wizard.m_Info[i]->m_strDescription); } float bs[6] = { 10000, 10000, 10000, -10000, -10000, -10000 }; int max = 0; Group* pGroup; for (pGroup = m_pGroups; pGroup; pGroup = pGroup->m_pNext) if (strncmp (pGroup->m_strName, "Minifig #", 9) == 0) if (sscanf(pGroup->m_strName, "Minifig #%d", &i) == 1) if (i > max) max = i; pGroup = new Group; sprintf(pGroup->m_strName, "Minifig #%.2d", max+1); pGroup->m_pNext = m_pGroups; m_pGroups = pGroup; for (Piece* pPiece = m_pPieces; pPiece; pPiece = pPiece->m_pNext) if (pPiece->IsSelected()) { pPiece->SetGroup(pGroup); pPiece->CompareBoundingBox(bs); } pGroup->m_fCenter[0] = (bs[0]+bs[3])/2; pGroup->m_fCenter[1] = (bs[1]+bs[4])/2; pGroup->m_fCenter[2] = (bs[2]+bs[5])/2; messenger->Dispatch (LC_MSG_FOCUS_CHANGED, NULL); UpdateSelection(); UpdateAllViews(); SetModifiedFlag(true); CheckPoint("Minifig"); } } break; case LC_PIECE_ARRAY: { LC_ARRAYDLG_OPTS opts; if (SystemDoDialog(LC_DLG_ARRAY, &opts)) { int total; total = opts.n1DCount; if (opts.nArrayDimension > 0) total *= opts.n2DCount; if (opts.nArrayDimension > 1) total *= opts.n3DCount; if (total < 2) { SystemDoMessageBox("Array only have 1 element.", LC_MB_OK|LC_MB_ICONWARNING); break; } if ((m_nSnap & LC_DRAW_CM_UNITS) == 0) { opts.f2D[0] *= 0.08f; opts.f2D[1] *= 0.08f; opts.f2D[2] *= 0.08f; opts.f3D[0] *= 0.08f; opts.f3D[1] *= 0.08f; opts.f3D[2] *= 0.08f; opts.fMove[0] *= 0.08f; opts.fMove[1] *= 0.08f; opts.fMove[2] *= 0.08f; } Piece *pPiece, *pFirst = NULL, *pLast = NULL; float bs[6] = { 10000, 10000, 10000, -10000, -10000, -10000 }; int sel = 0; unsigned long i, j, k; for (pPiece = m_pPieces; pPiece; pPiece = pPiece->m_pNext) if (pPiece->IsSelected()) { pPiece->CompareBoundingBox(bs); sel++; } for (pPiece = m_pPieces; pPiece; pPiece = pPiece->m_pNext) { if (!pPiece->IsSelected()) continue; for (i = 0; i < opts.n1DCount; i++) { lcVector3 pos = pPiece->mPosition; lcVector4 param = pPiece->mRotation; Matrix mat(param, pos); if (sel == 1) { mat.GetTranslation(pos); mat.Rotate(i*opts.fRotate[0], 1, 0, 0); mat.Rotate(i*opts.fRotate[1], 0, 1, 0); mat.Rotate(i*opts.fRotate[2], 0, 0, 1); mat.SetTranslation(pos); } else { mat.RotateCenter(i*opts.fRotate[0],1,0,0,(bs[0]+bs[3])/2,(bs[1]+bs[4])/2,(bs[2]+bs[5])/2); mat.RotateCenter(i*opts.fRotate[1],0,1,0,(bs[0]+bs[3])/2,(bs[1]+bs[4])/2,(bs[2]+bs[5])/2); mat.RotateCenter(i*opts.fRotate[2],0,0,1,(bs[0]+bs[3])/2,(bs[1]+bs[4])/2,(bs[2]+bs[5])/2); } mat.ToAxisAngle(param); mat.GetTranslation(pos); if (i != 0) { if (pLast) { pLast->m_pNext = new Piece(pPiece->mPieceInfo); pLast = pLast->m_pNext; } else pLast = pFirst = new Piece(pPiece->mPieceInfo); pLast->Initialize(pos[0]+i*opts.fMove[0], pos[1]+i*opts.fMove[1], pos[2]+i*opts.fMove[2], m_nCurStep, m_nCurFrame); pLast->SetColorIndex(pPiece->mColorIndex); pLast->ChangeKey(1, false, false, param, LC_PK_ROTATION); pLast->ChangeKey(1, true, false, param, LC_PK_ROTATION); } if (opts.nArrayDimension == 0) continue; for (j = 0; j < opts.n2DCount; j++) { if (j != 0) { if (pLast) { pLast->m_pNext = new Piece(pPiece->mPieceInfo); pLast = pLast->m_pNext; } else pLast = pFirst = new Piece(pPiece->mPieceInfo); pLast->Initialize(pos[0]+i*opts.fMove[0]+j*opts.f2D[0], pos[1]+i*opts.fMove[1]+j*opts.f2D[1], pos[2]+i*opts.fMove[2]+j*opts.f2D[2], m_nCurStep, m_nCurFrame); pLast->SetColorIndex(pPiece->mColorIndex); pLast->ChangeKey(1, false, false, param, LC_PK_ROTATION); pLast->ChangeKey(1, true, false, param, LC_PK_ROTATION); } if (opts.nArrayDimension == 1) continue; for (k = 1; k < opts.n3DCount; k++) { if (pLast) { pLast->m_pNext = new Piece(pPiece->mPieceInfo); pLast = pLast->m_pNext; } else pLast = pFirst = new Piece(pPiece->mPieceInfo); pLast->Initialize(pos[0]+i*opts.fMove[0]+j*opts.f2D[0]+k*opts.f3D[0], pos[1]+i*opts.fMove[1]+j*opts.f2D[1]+k*opts.f3D[1], pos[2]+i*opts.fMove[2]+j*opts.f2D[2]+k*opts.f3D[2], m_nCurStep, m_nCurFrame); pLast->SetColorIndex(pPiece->mColorIndex); pLast->ChangeKey(1, false, false, param, LC_PK_ROTATION); pLast->ChangeKey(1, true, false, param, LC_PK_ROTATION); } } } } while (pFirst) { pPiece = pFirst->m_pNext; pFirst->CreateName(m_pPieces); pFirst->UpdatePosition(m_bAnimation ? m_nCurFrame : m_nCurStep, m_bAnimation); AddPiece(pFirst); pFirst = pPiece; } SelectAndFocusNone(true); // SystemUpdateFocus(NULL); UpdateSelection(); UpdateAllViews(); SetModifiedFlag(true); CheckPoint("Array"); } } break; case LC_PIECE_COPYKEYS: { float move[3], rot[4]; Piece* pPiece; for (pPiece = m_pPieces; pPiece; pPiece = pPiece->m_pNext) if (pPiece->IsSelected()) { pPiece->CalculateSingleKey (m_bAnimation ? m_nCurStep : m_nCurFrame, !m_bAnimation, LC_PK_POSITION, move); pPiece->CalculateSingleKey (m_bAnimation ? m_nCurStep : m_nCurFrame, !m_bAnimation, LC_PK_ROTATION, rot); pPiece->ChangeKey(m_bAnimation ? m_nCurFrame : m_nCurStep, m_bAnimation, m_bAddKeys, move, LC_PK_POSITION); pPiece->ChangeKey(m_bAnimation ? m_nCurFrame : m_nCurStep, m_bAnimation, m_bAddKeys, rot, LC_PK_ROTATION); } // TODO: cameras and lights CalculateStep(); UpdateAllViews(); } break; case LC_PIECE_GROUP: { Group* pGroup; int i, max = 0; char name[65]; for (pGroup = m_pGroups; pGroup; pGroup = pGroup->m_pNext) if (strncmp (pGroup->m_strName, "Group #", 7) == 0) if (sscanf(pGroup->m_strName, "Group #%d", &i) == 1) if (i > max) max = i; sprintf(name, "Group #%.2d", max+1); if (SystemDoDialog(LC_DLG_GROUP, name)) { pGroup = new Group(); strcpy(pGroup->m_strName, name); pGroup->m_pNext = m_pGroups; m_pGroups = pGroup; float bs[6] = { 10000, 10000, 10000, -10000, -10000, -10000 }; for (Piece* pPiece = m_pPieces; pPiece; pPiece = pPiece->m_pNext) if (pPiece->IsSelected()) { pPiece->DoGroup(pGroup); pPiece->CompareBoundingBox(bs); } pGroup->m_fCenter[0] = (bs[0]+bs[3])/2; pGroup->m_fCenter[1] = (bs[1]+bs[4])/2; pGroup->m_fCenter[2] = (bs[2]+bs[5])/2; RemoveEmptyGroups(); SetModifiedFlag(true); CheckPoint("Grouping"); } } break; case LC_PIECE_UNGROUP: { Group* pList = NULL; Group* pGroup; Group* tmp; Piece* pPiece; for (pPiece = m_pPieces; pPiece; pPiece = pPiece->m_pNext) if (pPiece->IsSelected()) { pGroup = pPiece->GetTopGroup(); // Check if we already removed the group for (tmp = pList; tmp; tmp = tmp->m_pNext) if (pGroup == tmp) pGroup = NULL; if (pGroup != NULL) { // First remove the group from the array for (tmp = m_pGroups; tmp->m_pNext; tmp = tmp->m_pNext) if (tmp->m_pNext == pGroup) { tmp->m_pNext = pGroup->m_pNext; break; } if (pGroup == m_pGroups) m_pGroups = pGroup->m_pNext; // Now add it to the list of top groups pGroup->m_pNext = pList; pList = pGroup; } } while (pList) { for (pPiece = m_pPieces; pPiece; pPiece = pPiece->m_pNext) if (pPiece->IsSelected()) pPiece->UnGroup(pList); pGroup = pList; pList = pList->m_pNext; delete pGroup; } RemoveEmptyGroups(); SetModifiedFlag(true); CheckPoint("Ungrouping"); } break; case LC_PIECE_GROUP_ADD: { Group* pGroup = NULL; Piece* pPiece; for (pPiece = m_pPieces; pPiece; pPiece = pPiece->m_pNext) if (pPiece->IsSelected()) { pGroup = pPiece->GetTopGroup(); if (pGroup != NULL) break; } if (pGroup != NULL) { for (pPiece = m_pPieces; pPiece; pPiece = pPiece->m_pNext) if (pPiece->IsFocused()) { pPiece->SetGroup(pGroup); break; } } RemoveEmptyGroups(); SetModifiedFlag(true); CheckPoint("Grouping"); } break; case LC_PIECE_GROUP_REMOVE: { Piece* pPiece; for (pPiece = m_pPieces; pPiece; pPiece = pPiece->m_pNext) if (pPiece->IsFocused()) { pPiece->UnGroup(NULL); break; } RemoveEmptyGroups(); SetModifiedFlag(true); CheckPoint("Ungrouping"); } break; case LC_PIECE_GROUP_EDIT: { int i; Group* pGroup; Piece* pPiece; LC_GROUPEDITDLG_OPTS opts; for (i = 0, pPiece = m_pPieces; pPiece; pPiece = pPiece->m_pNext) i++; opts.piececount = i; opts.pieces = (Piece**)malloc(i*sizeof(Piece*)); opts.piecesgroups = (Group**)malloc(i*sizeof(Group*)); for (i = 0, pPiece = m_pPieces; pPiece; pPiece = pPiece->m_pNext, i++) { opts.pieces[i] = pPiece; opts.piecesgroups[i] = pPiece->GetGroup(); } for (i = 0, pGroup = m_pGroups; pGroup; pGroup = pGroup->m_pNext) i++; opts.groupcount = i; opts.groups = (Group**)malloc(i*sizeof(Group*)); opts.groupsgroups = (Group**)malloc(i*sizeof(Group*)); for (i = 0, pGroup = m_pGroups; pGroup; pGroup = pGroup->m_pNext, i++) { opts.groups[i] = pGroup; opts.groupsgroups[i] = pGroup->m_pGroup; } if (SystemDoDialog(LC_DLG_EDITGROUPS, &opts)) { for (i = 0; i < opts.piececount; i++) opts.pieces[i]->SetGroup(opts.piecesgroups[i]); for (i = 0; i < opts.groupcount; i++) opts.groups[i]->m_pGroup = opts.groupsgroups[i]; RemoveEmptyGroups(); SelectAndFocusNone(false); SystemUpdateFocus(NULL); UpdateSelection(); UpdateAllViews(); SetModifiedFlag(true); CheckPoint("Editing"); } free(opts.pieces); free(opts.piecesgroups); free(opts.groups); free(opts.groupsgroups); } break; case LC_PIECE_HIDE_SELECTED: { Piece* pPiece; for (pPiece = m_pPieces; pPiece; pPiece = pPiece->m_pNext) if (pPiece->IsSelected()) pPiece->Hide(); UpdateSelection(); messenger->Dispatch (LC_MSG_FOCUS_CHANGED, NULL); UpdateAllViews(); } break; case LC_PIECE_HIDE_UNSELECTED: { Piece* pPiece; for (pPiece = m_pPieces; pPiece; pPiece = pPiece->m_pNext) if (!pPiece->IsSelected()) pPiece->Hide(); UpdateSelection(); UpdateAllViews(); } break; case LC_PIECE_UNHIDE_ALL: { Piece* pPiece; for (pPiece = m_pPieces; pPiece; pPiece = pPiece->m_pNext) pPiece->UnHide(); UpdateSelection(); UpdateAllViews(); } break; case LC_PIECE_PREVIOUS: { bool redraw = false; for (Piece* pPiece = m_pPieces; pPiece; pPiece = pPiece->m_pNext) if (pPiece->IsSelected()) { if (m_bAnimation) { unsigned short t = pPiece->GetFrameShow(); if (t > 1) { redraw = true; pPiece->SetFrameShow(t-1); } } else { unsigned char t = pPiece->GetStepShow(); if (t > 1) { redraw = true; pPiece->SetStepShow(t-1); } } } if (redraw) { SetModifiedFlag(true); CheckPoint("Modifying"); UpdateAllViews(); } } break; case LC_PIECE_NEXT: { bool redraw = false; for (Piece* pPiece = m_pPieces; pPiece; pPiece = pPiece->m_pNext) if (pPiece->IsSelected()) { if (m_bAnimation) { unsigned short t = pPiece->GetFrameShow(); if (t < m_nTotalFrames) { redraw = true; pPiece->SetFrameShow(t+1); if (pPiece->IsSelected () && t == m_nCurFrame) pPiece->Select (false, false, false); } } else { unsigned char t = pPiece->GetStepShow(); if (t < 255) { redraw = true; pPiece->SetStepShow(t+1); if (pPiece->IsSelected () && t == m_nCurStep) pPiece->Select (false, false, false); } } } if (redraw) { SetModifiedFlag(true); CheckPoint("Modifying"); UpdateAllViews(); UpdateSelection (); } } break; case LC_VIEW_PREFERENCES: { LC_PREFERENCESDLG_OPTS opts; opts.nMouse = m_nMouse; opts.nSaveInterval = m_nAutosave; strcpy(opts.strUser, Sys_ProfileLoadString ("Default", "User", "")); strcpy(opts.strPath, m_strModelsPath); opts.nDetail = m_nDetail; opts.fLineWidth = m_fLineWidth; opts.AASamples = Sys_ProfileLoadInt("Default", "AASamples", 1); opts.nSnap = m_nSnap; opts.nAngleSnap = m_nAngleSnap; opts.nGridSize = m_nGridSize; opts.nScene = m_nScene; opts.fDensity = m_fFogDensity; strcpy(opts.strBackground, m_strBackground); memcpy(opts.fBackground, m_fBackground, sizeof(m_fBackground)); memcpy(opts.fFog, m_fFogColor, sizeof(m_fFogColor)); memcpy(opts.fAmbient, m_fAmbient, sizeof(m_fAmbient)); memcpy(opts.fGrad1, m_fGradient1, sizeof(m_fGradient1)); memcpy(opts.fGrad2, m_fGradient2, sizeof(m_fGradient2)); strcpy(opts.strFooter, m_strFooter); strcpy(opts.strHeader, m_strHeader); if (SystemDoDialog(LC_DLG_PREFERENCES, &opts)) { m_nMouse = opts.nMouse; m_nAutosave = opts.nSaveInterval; strcpy(m_strModelsPath, opts.strPath); Sys_ProfileSaveString ("Default", "User", opts.strUser); m_nDetail = opts.nDetail; m_fLineWidth = opts.fLineWidth; m_nSnap = opts.nSnap; m_nAngleSnap = opts.nAngleSnap; m_nGridSize = opts.nGridSize; m_nScene = opts.nScene; m_fFogDensity = opts.fDensity; strcpy(m_strBackground, opts.strBackground); memcpy(m_fBackground, opts.fBackground, sizeof(m_fBackground)); memcpy(m_fFogColor, opts.fFog, sizeof(m_fFogColor)); memcpy(m_fAmbient, opts.fAmbient, sizeof(m_fAmbient)); memcpy(m_fGradient1, opts.fGrad1, sizeof(m_fGradient1)); memcpy(m_fGradient2, opts.fGrad2, sizeof(m_fGradient2)); strcpy(m_strFooter, opts.strFooter); strcpy(m_strHeader, opts.strHeader); SystemUpdateSnap(m_nSnap); SystemUpdateSnap(m_nMoveSnap, m_nAngleSnap); for (int i = 0; i < m_ViewList.GetSize (); i++) { m_ViewList[i]->MakeCurrent (); RenderInitialize(); } UpdateAllViews(); } } break; case LC_VIEW_ZOOM: { m_ActiveView->mCamera->DoZoom(nParam, m_nMouse, m_bAnimation ? m_nCurFrame : m_nCurStep, m_bAnimation, m_bAddKeys); SystemUpdateFocus(NULL); UpdateOverlayScale(); UpdateAllViews(); } break; case LC_VIEW_ZOOMIN: { m_ActiveView->mCamera->DoZoom(-1, m_nMouse, m_bAnimation ? m_nCurFrame : m_nCurStep, m_bAnimation, m_bAddKeys); SystemUpdateFocus(NULL); UpdateOverlayScale(); UpdateAllViews(); } break; case LC_VIEW_ZOOMOUT: { m_ActiveView->mCamera->DoZoom(1, m_nMouse, m_bAnimation ? m_nCurFrame : m_nCurStep, m_bAnimation, m_bAddKeys); SystemUpdateFocus(NULL); UpdateOverlayScale(); UpdateAllViews(); } break; case LC_VIEW_ZOOMEXTENTS: { // If the control key is down then zoom all views, otherwise zoom only the active view. int FirstView, LastView; if (Sys_KeyDown(KEY_CONTROL)) { FirstView = 0; LastView = m_ViewList.GetSize(); } else { FirstView = m_ViewList.FindIndex(m_ActiveView); LastView = FirstView + 1; } float bs[6] = { 10000, 10000, 10000, -10000, -10000, -10000 }; for (Piece* pPiece = m_pPieces; pPiece; pPiece = pPiece->m_pNext) if (pPiece->IsVisible(m_bAnimation ? m_nCurFrame : m_nCurStep, m_bAnimation)) pPiece->CompareBoundingBox(bs); lcVector3 Center((bs[0] + bs[3]) / 2, (bs[1] + bs[4]) / 2, (bs[2] + bs[5]) / 2); lcVector3 Points[8] = { lcVector3(bs[0], bs[1], bs[5]), lcVector3(bs[3], bs[1], bs[5]), lcVector3(bs[0], bs[1], bs[2]), lcVector3(bs[3], bs[4], bs[5]), lcVector3(bs[3], bs[4], bs[2]), lcVector3(bs[0], bs[4], bs[2]), lcVector3(bs[0], bs[4], bs[5]), lcVector3(bs[3], bs[1], bs[2]) }; for (int vp = FirstView; vp < LastView; vp++) { View* view = m_ViewList[vp]; view->mCamera->ZoomExtents(view, Center, Points, 8, m_bAnimation ? m_nCurFrame : m_nCurStep, m_bAnimation, m_bAddKeys); } SystemUpdateFocus(NULL); UpdateOverlayScale(); UpdateAllViews(); } break; case LC_VIEW_STEP_NEXT: { if (m_bAnimation) m_nCurFrame++; else m_nCurStep++; CalculateStep(); UpdateSelection(); SystemUpdateFocus(NULL); UpdateAllViews(); if (m_bAnimation) SystemUpdateTime(m_bAnimation, m_nCurFrame, m_nTotalFrames); else SystemUpdateTime(m_bAnimation, m_nCurStep, 255); } break; case LC_VIEW_STEP_PREVIOUS: { if (m_bAnimation) m_nCurFrame--; else m_nCurStep--; CalculateStep(); UpdateSelection(); SystemUpdateFocus(NULL); UpdateAllViews(); if (m_bAnimation) SystemUpdateTime(m_bAnimation, m_nCurFrame, m_nTotalFrames); else SystemUpdateTime(m_bAnimation, m_nCurStep, 255); } break; case LC_VIEW_STEP_FIRST: { if (m_bAnimation) m_nCurFrame = 1; else m_nCurStep = 1; CalculateStep(); UpdateSelection(); SystemUpdateFocus(NULL); UpdateAllViews(); if (m_bAnimation) SystemUpdateTime(m_bAnimation, m_nCurFrame, m_nTotalFrames); else SystemUpdateTime(m_bAnimation, m_nCurStep, 255); } break; case LC_VIEW_STEP_LAST: { if (m_bAnimation) m_nCurFrame = m_nTotalFrames; else m_nCurStep = GetLastStep (); CalculateStep(); UpdateSelection(); SystemUpdateFocus(NULL); UpdateAllViews(); if (m_bAnimation) SystemUpdateTime(m_bAnimation, m_nCurFrame, m_nTotalFrames); else SystemUpdateTime(m_bAnimation, m_nCurStep, 255); } break; case LC_VIEW_STEP_CHOOSE: { SystemDoDialog(LC_DLG_STEPCHOOSE, NULL); if (m_bAnimation) SystemUpdateTime(m_bAnimation, m_nCurFrame, m_nTotalFrames); else SystemUpdateTime(m_bAnimation, m_nCurStep, 255); } break; case LC_VIEW_STEP_SET: { if (m_bAnimation) m_nCurFrame = (nParam < m_nTotalFrames) ? (unsigned short)nParam : m_nTotalFrames; else m_nCurStep = (nParam < 255) ? (unsigned char)nParam : 255; CalculateStep(); UpdateSelection(); SystemUpdateFocus(NULL); UpdateAllViews(); if (m_bAnimation) SystemUpdateTime(m_bAnimation, m_nCurFrame, m_nTotalFrames); else SystemUpdateTime(m_bAnimation, m_nCurStep, 255); } break; case LC_VIEW_STEP_INSERT: { for (Piece* pPiece = m_pPieces; pPiece; pPiece = pPiece->m_pNext) pPiece->InsertTime (m_bAnimation ? m_nCurFrame : m_nCurStep, m_bAnimation, 1); for (Camera* pCamera = m_pCameras; pCamera; pCamera = pCamera->m_pNext) pCamera->InsertTime (m_bAnimation ? m_nCurFrame : m_nCurStep, m_bAnimation, 1); for (Light* pLight = m_pLights; pLight; pLight = pLight->m_pNext) pLight->InsertTime (m_bAnimation ? m_nCurFrame : m_nCurStep, m_bAnimation, 1); SetModifiedFlag (true); if (m_bAnimation) CheckPoint ("Adding Frame"); else CheckPoint ("Adding Step"); CalculateStep (); UpdateAllViews (); UpdateSelection (); } break; case LC_VIEW_STEP_DELETE: { for (Piece* pPiece = m_pPieces; pPiece; pPiece = pPiece->m_pNext) pPiece->RemoveTime (m_bAnimation ? m_nCurFrame : m_nCurStep, m_bAnimation, 1); for (Camera* pCamera = m_pCameras; pCamera; pCamera = pCamera->m_pNext) pCamera->RemoveTime (m_bAnimation ? m_nCurFrame : m_nCurStep, m_bAnimation, 1); for (Light* pLight = m_pLights; pLight; pLight = pLight->m_pNext) pLight->RemoveTime (m_bAnimation ? m_nCurFrame : m_nCurStep, m_bAnimation, 1); SetModifiedFlag (true); if (m_bAnimation) CheckPoint ("Removing Frame"); else CheckPoint ("Removing Step"); CalculateStep (); UpdateAllViews (); UpdateSelection (); } break; case LC_VIEW_STOP: { m_bStopRender = true; } break; case LC_VIEW_PLAY: { SelectAndFocusNone(false); UpdateSelection(); m_bStopRender = false; SystemUpdatePlay(false, true); long time = SystemGetTicks(); unsigned short tics; float rate = 1000.0f/m_nFPS; while (!m_bStopRender) { tics = (unsigned short)(SystemGetTicks() - time); if (tics < rate) continue; // nothing to do time = SystemGetTicks(); m_nCurFrame += (unsigned short)((float)tics/rate); while (m_nCurFrame > m_nTotalFrames) m_nCurFrame -= m_nTotalFrames; CalculateStep(); SystemUpdateTime(true, m_nCurFrame, m_nTotalFrames); UpdateAllViews(); SystemPumpMessages(); } SystemUpdatePlay(true, false); SystemUpdateFocus(NULL); } break; case LC_VIEW_VIEWPOINT_FRONT: { m_ActiveView->mCamera->SetViewpoint(LC_VIEWPOINT_FRONT, m_bAnimation ? m_nCurFrame : m_nCurStep, m_bAnimation, m_bAddKeys); HandleCommand(LC_VIEW_ZOOMEXTENTS, 0); } break; case LC_VIEW_VIEWPOINT_BACK: { m_ActiveView->mCamera->SetViewpoint(LC_VIEWPOINT_BACK, m_bAnimation ? m_nCurFrame : m_nCurStep, m_bAnimation, m_bAddKeys); HandleCommand(LC_VIEW_ZOOMEXTENTS, 0); } break; case LC_VIEW_VIEWPOINT_TOP: { m_ActiveView->mCamera->SetViewpoint(LC_VIEWPOINT_TOP, m_bAnimation ? m_nCurFrame : m_nCurStep, m_bAnimation, m_bAddKeys); HandleCommand(LC_VIEW_ZOOMEXTENTS, 0); } break; case LC_VIEW_VIEWPOINT_BOTTOM: { m_ActiveView->mCamera->SetViewpoint(LC_VIEWPOINT_UNDER, m_bAnimation ? m_nCurFrame : m_nCurStep, m_bAnimation, m_bAddKeys); HandleCommand(LC_VIEW_ZOOMEXTENTS, 0); } break; case LC_VIEW_VIEWPOINT_LEFT: { m_ActiveView->mCamera->SetViewpoint(LC_VIEWPOINT_LEFT, m_bAnimation ? m_nCurFrame : m_nCurStep, m_bAnimation, m_bAddKeys); HandleCommand(LC_VIEW_ZOOMEXTENTS, 0); } break; case LC_VIEW_VIEWPOINT_RIGHT: { m_ActiveView->mCamera->SetViewpoint(LC_VIEWPOINT_RIGHT, m_bAnimation ? m_nCurFrame : m_nCurStep, m_bAnimation, m_bAddKeys); HandleCommand(LC_VIEW_ZOOMEXTENTS, 0); } break; case LC_VIEW_VIEWPOINT_HOME: { m_ActiveView->mCamera->SetViewpoint(LC_VIEWPOINT_HOME, m_bAnimation ? m_nCurFrame : m_nCurStep, m_bAnimation, m_bAddKeys); HandleCommand(LC_VIEW_ZOOMEXTENTS, 0); } break; case LC_VIEW_CAMERA_MENU: { Camera* pCamera = GetCamera(nParam); SystemUpdateCurrentCamera(m_ActiveView->mCamera, pCamera, m_pCameras); m_ActiveView->SetCamera(pCamera); UpdateOverlayScale(); UpdateAllViews(); } break; case LC_VIEW_CAMERA_RESET: { Camera* pCamera; while (m_pCameras) { pCamera = m_pCameras; m_pCameras = m_pCameras->m_pNext; delete pCamera; } for (int ViewIdx = 0; ViewIdx < m_ViewList.GetSize(); ViewIdx++) m_ViewList[ViewIdx]->SetDefaultCamera(); SystemUpdateCameraMenu(m_pCameras); SystemUpdateCurrentCamera(NULL, m_ActiveView->mCamera, m_pCameras); SystemUpdateFocus(NULL); UpdateOverlayScale(); UpdateAllViews(); SetModifiedFlag(true); CheckPoint("Reset Cameras"); } break; case LC_HELP_ABOUT: { SystemDoDialog(LC_DLG_ABOUT, 0); } break; case LC_TOOLBAR_ANIMATION: { m_bAnimation = !m_bAnimation; CalculateStep(); SystemUpdateFocus(NULL); UpdateAllViews(); SystemUpdateAnimation(m_bAnimation, m_bAddKeys); if (m_bAnimation) SystemUpdateTime(m_bAnimation, m_nCurFrame, m_nTotalFrames); else SystemUpdateTime(m_bAnimation, m_nCurStep, 255); } break; case LC_TOOLBAR_ADDKEYS: { m_bAddKeys = !m_bAddKeys; SystemUpdateAnimation(m_bAnimation, m_bAddKeys); } break; // Change snap X, Y, Z, All, None or Angle. case LC_TOOLBAR_SNAPMENU: { switch (nParam) { case 0: if (m_nSnap & LC_DRAW_SNAP_X) m_nSnap &= ~LC_DRAW_SNAP_X; else m_nSnap |= LC_DRAW_SNAP_X; break; case 1: if (m_nSnap & LC_DRAW_SNAP_Y) m_nSnap &= ~LC_DRAW_SNAP_Y; else m_nSnap |= LC_DRAW_SNAP_Y; break; case 2: if (m_nSnap & LC_DRAW_SNAP_Z) m_nSnap &= ~LC_DRAW_SNAP_Z; else m_nSnap |= LC_DRAW_SNAP_Z; break; case 3: m_nSnap |= LC_DRAW_SNAP_XYZ; break; case 4: m_nSnap &= ~LC_DRAW_SNAP_XYZ; break; case 5: if (m_nSnap & LC_DRAW_SNAP_A) m_nSnap &= ~LC_DRAW_SNAP_A; else m_nSnap |= LC_DRAW_SNAP_A; break; case 6: if ((m_nSnap & LC_DRAW_SNAP_XYZ) == LC_DRAW_SNAP_XYZ) m_nSnap &= ~LC_DRAW_SNAP_XYZ; else m_nSnap |= LC_DRAW_SNAP_XYZ; break; } SystemUpdateSnap(m_nSnap); } break; case LC_TOOLBAR_LOCKMENU: { switch (nParam) { case 0: if (m_nSnap & LC_DRAW_LOCK_X) m_nSnap &= ~LC_DRAW_LOCK_X; else m_nSnap |= LC_DRAW_LOCK_X; break; case 1: if (m_nSnap & LC_DRAW_LOCK_Y) m_nSnap &= ~LC_DRAW_LOCK_Y; else m_nSnap |= LC_DRAW_LOCK_Y; break; case 2: if (m_nSnap & LC_DRAW_LOCK_Z) m_nSnap &= ~LC_DRAW_LOCK_Z; else m_nSnap |= LC_DRAW_LOCK_Z; break; case 3: m_nSnap &= ~LC_DRAW_LOCK_XYZ; break; case 4: if ((m_nSnap & LC_DRAW_LOCK_XYZ) == LC_DRAW_LOCK_XYZ) m_nSnap &= ~LC_DRAW_LOCK_XYZ; else m_nSnap |= LC_DRAW_LOCK_XYZ; break; } SystemUpdateSnap(m_nSnap); } break; case LC_TOOLBAR_FASTRENDER: { if (m_nDetail & LC_DET_FAST) m_nDetail &= ~LC_DET_FAST; else m_nDetail |= LC_DET_FAST; UpdateAllViews(); SystemUpdateRenderingMode((m_nDetail & LC_DET_FAST) != 0); } break; case LC_EDIT_MOVEXY_SNAP_0: case LC_EDIT_MOVEXY_SNAP_1: case LC_EDIT_MOVEXY_SNAP_2: case LC_EDIT_MOVEXY_SNAP_3: case LC_EDIT_MOVEXY_SNAP_4: case LC_EDIT_MOVEXY_SNAP_5: case LC_EDIT_MOVEXY_SNAP_6: case LC_EDIT_MOVEXY_SNAP_7: case LC_EDIT_MOVEXY_SNAP_8: case LC_EDIT_MOVEXY_SNAP_9: { m_nMoveSnap = (id - LC_EDIT_MOVEXY_SNAP_0) | (m_nMoveSnap & ~0xff); if (id != LC_EDIT_MOVEXY_SNAP_0) m_nSnap |= LC_DRAW_SNAP_X | LC_DRAW_SNAP_Y; else m_nSnap &= ~(LC_DRAW_SNAP_X | LC_DRAW_SNAP_Y); SystemUpdateSnap(m_nMoveSnap, m_nAngleSnap); } break; case LC_EDIT_MOVEZ_SNAP_0: case LC_EDIT_MOVEZ_SNAP_1: case LC_EDIT_MOVEZ_SNAP_2: case LC_EDIT_MOVEZ_SNAP_3: case LC_EDIT_MOVEZ_SNAP_4: case LC_EDIT_MOVEZ_SNAP_5: case LC_EDIT_MOVEZ_SNAP_6: case LC_EDIT_MOVEZ_SNAP_7: case LC_EDIT_MOVEZ_SNAP_8: case LC_EDIT_MOVEZ_SNAP_9: { m_nMoveSnap = (((id - LC_EDIT_MOVEZ_SNAP_0) << 8) | (m_nMoveSnap & ~0xff00)); if (id != LC_EDIT_MOVEZ_SNAP_0) m_nSnap |= LC_DRAW_SNAP_Z; else m_nSnap &= ~LC_DRAW_SNAP_Z; SystemUpdateSnap(m_nMoveSnap, m_nAngleSnap); } break; case LC_EDIT_ANGLE_SNAP_0: case LC_EDIT_ANGLE_SNAP_1: case LC_EDIT_ANGLE_SNAP_2: case LC_EDIT_ANGLE_SNAP_3: case LC_EDIT_ANGLE_SNAP_4: case LC_EDIT_ANGLE_SNAP_5: case LC_EDIT_ANGLE_SNAP_6: case LC_EDIT_ANGLE_SNAP_7: case LC_EDIT_ANGLE_SNAP_8: case LC_EDIT_ANGLE_SNAP_9: { int Angles[] = { 0, 1, 5, 10, 15, 30, 45, 60, 90, 180 }; m_nAngleSnap = Angles[id - LC_EDIT_ANGLE_SNAP_0]; if (m_nAngleSnap) m_nSnap |= LC_DRAW_SNAP_A; else m_nSnap &= ~LC_DRAW_SNAP_A; SystemUpdateSnap(m_nMoveSnap, m_nAngleSnap); } break; case LC_EDIT_ACTION_SELECT: { SetAction(LC_ACTION_SELECT); } break; case LC_EDIT_ACTION_INSERT: { SetAction(LC_ACTION_INSERT); } break; case LC_EDIT_ACTION_LIGHT: { SetAction(LC_ACTION_LIGHT); } break; case LC_EDIT_ACTION_SPOTLIGHT: { SetAction(LC_ACTION_SPOTLIGHT); } break; case LC_EDIT_ACTION_CAMERA: { SetAction(LC_ACTION_CAMERA); } break; case LC_EDIT_ACTION_MOVE: { SetAction(LC_ACTION_MOVE); } break; case LC_EDIT_ACTION_ROTATE: { SetAction(LC_ACTION_ROTATE); } break; case LC_EDIT_ACTION_ERASER: { SetAction(LC_ACTION_ERASER); } break; case LC_EDIT_ACTION_PAINT: { SetAction(LC_ACTION_PAINT); } break; case LC_EDIT_ACTION_ZOOM: { SetAction(LC_ACTION_ZOOM); } break; case LC_EDIT_ACTION_ZOOM_REGION: { SetAction(LC_ACTION_ZOOM_REGION); } break; case LC_EDIT_ACTION_PAN: { SetAction(LC_ACTION_PAN); } break; case LC_EDIT_ACTION_ROTATE_VIEW: { SetAction(LC_ACTION_ROTATE_VIEW); } break; case LC_EDIT_ACTION_ROLL: { SetAction(LC_ACTION_ROLL); } break; } } void Project::SetAction(int nAction) { m_PreviousAction = m_nCurAction; m_nCurAction = nAction; SystemUpdateAction(m_nCurAction, m_PreviousAction); ActivateOverlay(m_ActiveView, m_nCurAction, LC_OVERLAY_NONE); UpdateAllViews(); } int Project::GetAction() const { int Action = m_nCurAction; if (m_OverlayActive) { switch (m_OverlayMode) { case LC_OVERLAY_NONE: break; case LC_OVERLAY_MOVE_X: case LC_OVERLAY_MOVE_Y: case LC_OVERLAY_MOVE_Z: case LC_OVERLAY_MOVE_XY: case LC_OVERLAY_MOVE_XZ: case LC_OVERLAY_MOVE_YZ: case LC_OVERLAY_MOVE_XYZ: Action = LC_ACTION_MOVE; break; case LC_OVERLAY_ROTATE_X: case LC_OVERLAY_ROTATE_Y: case LC_OVERLAY_ROTATE_Z: case LC_OVERLAY_ROTATE_XY: case LC_OVERLAY_ROTATE_XZ: case LC_OVERLAY_ROTATE_YZ: case LC_OVERLAY_ROTATE_XYZ: Action = LC_ACTION_ROTATE; break; case LC_OVERLAY_ZOOM: Action = LC_ACTION_ZOOM; break; case LC_OVERLAY_PAN: Action = LC_ACTION_PAN; break; case LC_OVERLAY_ROTATE_VIEW_X: case LC_OVERLAY_ROTATE_VIEW_Y: case LC_OVERLAY_ROTATE_VIEW_Z: case LC_OVERLAY_ROTATE_VIEW_XYZ: Action = LC_ACTION_ROTATE_VIEW; break; } } return Action; } // Remove unused groups void Project::RemoveEmptyGroups() { bool recurse = false; Group *g1, *g2; Piece* pPiece; int ref; for (g1 = m_pGroups; g1;) { ref = 0; for (pPiece = m_pPieces; pPiece; pPiece = pPiece->m_pNext) if (pPiece->GetGroup() == g1) ref++; for (g2 = m_pGroups; g2; g2 = g2->m_pNext) if (g2->m_pGroup == g1) ref++; if (ref < 2) { if (ref != 0) { for (pPiece = m_pPieces; pPiece; pPiece = pPiece->m_pNext) if (pPiece->GetGroup() == g1) pPiece->SetGroup(g1->m_pGroup); for (g2 = m_pGroups; g2; g2 = g2->m_pNext) if (g2->m_pGroup == g1) g2->m_pGroup = g1->m_pGroup; } if (g1 == m_pGroups) { m_pGroups = g1->m_pNext; delete g1; g1 = m_pGroups; } else { for (g2 = m_pGroups; g2; g2 = g2->m_pNext) if (g2->m_pNext == g1) { g2->m_pNext = g1->m_pNext; break; } delete g1; g1 = g2->m_pNext; } recurse = true; } else g1 = g1->m_pNext; } if (recurse) RemoveEmptyGroups(); } Group* Project::AddGroup (const char* name, Group* pParent, float x, float y, float z) { Group *pNewGroup = new Group(); if (name == NULL) { int i, max = 0; char str[65]; for (Group *pGroup = m_pGroups; pGroup; pGroup = pGroup->m_pNext) if (strncmp (pGroup->m_strName, "Group #", 7) == 0) if (sscanf(pGroup->m_strName, "Group #%d", &i) == 1) if (i > max) max = i; sprintf (str, "Group #%.2d", max+1); strcpy (pNewGroup->m_strName, str); } else strcpy (pNewGroup->m_strName, name); pNewGroup->m_pNext = m_pGroups; m_pGroups = pNewGroup; pNewGroup->m_fCenter[0] = x; pNewGroup->m_fCenter[1] = y; pNewGroup->m_fCenter[2] = z; pNewGroup->m_pGroup = pParent; return pNewGroup; } void Project::SelectAndFocusNone(bool bFocusOnly) { Piece* pPiece; Camera* pCamera; Light* pLight; for (pPiece = m_pPieces; pPiece; pPiece = pPiece->m_pNext) pPiece->Select (false, bFocusOnly, false); for (pCamera = m_pCameras; pCamera; pCamera = pCamera->m_pNext) { pCamera->Select (false, bFocusOnly, false); pCamera->GetTarget ()->Select (false, bFocusOnly, false); } for (pLight = m_pLights; pLight; pLight = pLight->m_pNext) { pLight->Select (false, bFocusOnly, false); if (pLight->GetTarget ()) pLight->GetTarget ()->Select (false, bFocusOnly, false); } // AfxGetMainWnd()->PostMessage(WM_LC_UPDATE_INFO, NULL, OT_PIECE); } bool Project::GetSelectionCenter(lcVector3& Center) const { float bs[6] = { 10000, 10000, 10000, -10000, -10000, -10000 }; bool Selected = false; for (Piece* pPiece = m_pPieces; pPiece; pPiece = pPiece->m_pNext) { if (pPiece->IsSelected()) { pPiece->CompareBoundingBox(bs); Selected = true; } } Center = lcVector3((bs[0] + bs[3]) * 0.5f, (bs[1] + bs[4]) * 0.5f, (bs[2] + bs[5]) * 0.5f); return Selected; } Camera* Project::GetCamera(int i) { Camera* pCamera; for (pCamera = m_pCameras; i-- > 0 && pCamera; pCamera = pCamera->m_pNext) ; return pCamera; } void Project::ConvertToUserUnits(lcVector3& Value) const { if ((m_nSnap & LC_DRAW_CM_UNITS) == 0) Value /= 0.04f; } void Project::ConvertFromUserUnits(lcVector3& Value) const { if ((m_nSnap & LC_DRAW_CM_UNITS) == 0) Value *= 0.04f; } bool Project::GetFocusPosition(lcVector3& Position) const { Piece* pPiece; Camera* pCamera; for (pPiece = m_pPieces; pPiece; pPiece = pPiece->m_pNext) if (pPiece->IsFocused()) { Position = pPiece->mPosition; return true; } for (pCamera = m_pCameras; pCamera; pCamera = pCamera->m_pNext) { if (pCamera->IsEyeFocused()) { Position = pCamera->mPosition; return true; } if (pCamera->IsTargetFocused()) { Position = pCamera->mTargetPosition; return true; } } // TODO: light Position = lcVector3(0.0f, 0.0f, 0.0f); return false; } // Returns the object that currently has focus. Object* Project::GetFocusObject() const { for (Piece* pPiece = m_pPieces; pPiece; pPiece = pPiece->m_pNext) { if (pPiece->IsFocused()) return pPiece; } for (Camera* pCamera = m_pCameras; pCamera; pCamera = pCamera->m_pNext) { if (pCamera->IsEyeFocused() || pCamera->IsTargetFocused()) return pCamera; } // TODO: light return NULL; } // Find a good starting position/orientation relative to an existing piece. void Project::GetPieceInsertPosition(Piece* OffsetPiece, lcVector3& Position, lcVector4& Rotation) { lcVector3 Dist(0, 0, OffsetPiece->mPieceInfo->m_fDimensions[2] - m_pCurPiece->m_fDimensions[5]); SnapVector(Dist); lcVector3 pos = OffsetPiece->mPosition; const lcVector4& rot = OffsetPiece->mRotation; Matrix mat(rot, pos); mat.Translate(Dist[0], Dist[1], Dist[2]); mat.GetTranslation(pos); Position = lcVector3(pos[0], pos[1], pos[2]); Rotation = lcVector4(rot[0], rot[1], rot[2], rot[3]); } // Try to find a good starting position/orientation for a new piece. void Project::GetPieceInsertPosition(View* view, int MouseX, int MouseY, lcVector3& Position, lcVector4& Rotation) { // Check if the mouse is over a piece. Piece* HitPiece = (Piece*)FindObjectFromPoint(view, MouseX, MouseY, true); if (HitPiece) { GetPieceInsertPosition(HitPiece, Position, Rotation); return; } // Try to hit the base grid. int Viewport[4] = { 0, 0, view->GetWidth(), view->GetHeight() }; float Aspect = (float)Viewport[2]/(float)Viewport[3]; Camera* Cam = view->mCamera; const lcMatrix44& ModelView = Cam->mWorldView; lcMatrix44 Projection = lcMatrix44Perspective(Cam->m_fovy, Aspect, Cam->m_zNear, Cam->m_zFar); lcVector3 ClickPoints[2] = { lcVector3((float)m_nDownX, (float)m_nDownY, 0.0f), lcVector3((float)m_nDownX, (float)m_nDownY, 1.0f) }; lcUnprojectPoints(ClickPoints, 2, ModelView, Projection, Viewport); lcVector3 Intersection; if (lcLinePlaneIntersection(&Intersection, ClickPoints[0], ClickPoints[1], lcVector4(0, 0, 1, 0))) { SnapVector(Intersection); Position = Intersection; Rotation = lcVector4(0, 0, 1, 0); return; } // Couldn't find a good position, so just place the piece somewhere near the camera. Position = lcUnprojectPoint(lcVector3((float)m_nDownX, (float)m_nDownY, 0.9f), ModelView, Projection, Viewport); Rotation = lcVector4(0, 0, 1, 0); } Object* Project::FindObjectFromPoint(View* view, int x, int y, bool PiecesOnly) { int Viewport[4] = { 0, 0, view->GetWidth(), view->GetHeight() }; float Aspect = (float)Viewport[2]/(float)Viewport[3]; Camera* Cam = view->mCamera; const lcMatrix44& ModelView = Cam->mWorldView; lcMatrix44 Projection = lcMatrix44Perspective(Cam->m_fovy, Aspect, Cam->m_zNear, Cam->m_zFar); lcVector3 Start = lcUnprojectPoint(lcVector3((float)x, (float)y, 0.0f), ModelView, Projection, Viewport); lcVector3 End = lcUnprojectPoint(lcVector3((float)x, (float)y, 1.0f), ModelView, Projection, Viewport); lcClickLine ClickLine; ClickLine.Start = Start; ClickLine.End = End; ClickLine.MinDist = FLT_MAX; ClickLine.Closest = NULL; for (Piece* pPiece = m_pPieces; pPiece; pPiece = pPiece->m_pNext) if (pPiece->IsVisible(m_bAnimation ? m_nCurFrame : m_nCurStep, m_bAnimation)) pPiece->MinIntersectDist(&ClickLine); if (!PiecesOnly) { for (Camera* pCamera = m_pCameras; pCamera; pCamera = pCamera->m_pNext) if (pCamera != view->mCamera && pCamera->IsVisible()) pCamera->MinIntersectDist(&ClickLine); for (Light* pLight = m_pLights; pLight; pLight = pLight->m_pNext) if (pLight->IsVisible()) pLight->MinIntersectDist(&ClickLine); } return ClickLine.Closest; } void Project::FindObjectsInBox(float x1, float y1, float x2, float y2, PtrArray& Objects) { int Viewport[4] = { 0, 0, m_ActiveView->GetWidth(), m_ActiveView->GetHeight() }; float Aspect = (float)Viewport[2]/(float)Viewport[3]; Camera* Cam = m_ActiveView->mCamera; const lcMatrix44& ModelView = Cam->mWorldView; lcMatrix44 Projection = lcMatrix44Perspective(Cam->m_fovy, Aspect, Cam->m_zNear, Cam->m_zFar); // Find out the top-left and bottom-right corners in screen coordinates. float Left, Top, Bottom, Right; if (x1 < x2) { Left = x1; Right = x2; } else { Left = x2; Right = x1; } if (y1 > y2) { Top = y1; Bottom = y2; } else { Top = y2; Bottom = y1; } // Unproject 6 points to world space. lcVector3 Corners[6] = { lcVector3(Left, Top, 0), lcVector3(Left, Bottom, 0), lcVector3(Right, Bottom, 0), lcVector3(Right, Top, 0), lcVector3(Left, Top, 1), lcVector3(Right, Bottom, 1) }; lcUnprojectPoints(Corners, 6, ModelView, Projection, Viewport); // Build the box planes. lcVector3 PlaneNormals[6]; PlaneNormals[0] = lcNormalize(lcCross(Corners[4] - Corners[0], Corners[1] - Corners[0])); // Left PlaneNormals[1] = lcNormalize(lcCross(Corners[5] - Corners[2], Corners[3] - Corners[2])); // Right PlaneNormals[2] = lcNormalize(lcCross(Corners[3] - Corners[0], Corners[4] - Corners[0])); // Top PlaneNormals[3] = lcNormalize(lcCross(Corners[1] - Corners[2], Corners[5] - Corners[2])); // Bottom PlaneNormals[4] = lcNormalize(lcCross(Corners[1] - Corners[0], Corners[3] - Corners[0])); // Front PlaneNormals[5] = lcNormalize(lcCross(Corners[1] - Corners[2], Corners[3] - Corners[2])); // Back lcVector4 Planes[6]; Planes[0] = lcVector4(PlaneNormals[0], -lcDot(PlaneNormals[0], Corners[0])); Planes[1] = lcVector4(PlaneNormals[1], -lcDot(PlaneNormals[1], Corners[5])); Planes[2] = lcVector4(PlaneNormals[2], -lcDot(PlaneNormals[2], Corners[0])); Planes[3] = lcVector4(PlaneNormals[3], -lcDot(PlaneNormals[3], Corners[5])); Planes[4] = lcVector4(PlaneNormals[4], -lcDot(PlaneNormals[4], Corners[0])); Planes[5] = lcVector4(PlaneNormals[5], -lcDot(PlaneNormals[5], Corners[5])); // Check if any objects are inside the volume. for (Piece* piece = m_pPieces; piece != NULL; piece = piece->m_pNext) { if (piece->IsVisible(m_bAnimation ? m_nCurFrame : m_nCurStep, m_bAnimation)) { if (piece->IntersectsVolume(Planes)) Objects.Add(piece); } } // TODO: lights and cameras. } ///////////////////////////////////////////////////////////////////////////// // Mouse handling // Returns true if the mouse was being tracked. bool Project::StopTracking(bool bAccept) { if (m_nTracking == LC_TRACK_NONE) return false; int Action = GetAction(); if ((m_nTracking == LC_TRACK_START_LEFT) || (m_nTracking == LC_TRACK_START_RIGHT)) { if (m_pTrackFile) { delete m_pTrackFile; m_pTrackFile = NULL; } m_nTracking = LC_TRACK_NONE; SystemReleaseMouse(); return false; } m_bTrackCancel = true; m_nTracking = LC_TRACK_NONE; SystemReleaseMouse(); // Reset the mouse overlay. if (m_OverlayActive) { ActivateOverlay(m_ActiveView, m_nCurAction, LC_OVERLAY_NONE); UpdateAllViews(); } if (bAccept) { switch (Action) { case LC_ACTION_SELECT: { if (((float)m_nDownX != m_fTrack[0]) && ((float)m_nDownY != m_fTrack[1])) { // Find objects inside the rectangle. PtrArray Objects; FindObjectsInBox((float)m_nDownX, (float)m_nDownY, m_fTrack[0], m_fTrack[1], Objects); // Deselect old pieces. bool Control = Sys_KeyDown(KEY_CONTROL); SelectAndFocusNone(Control); // Select new pieces. for (int i = 0; i < Objects.GetSize(); i++) { if (Objects[i]->GetType() == LC_OBJECT_PIECE) { Group* pGroup = ((Piece*)Objects[i])->GetTopGroup(); if (pGroup != NULL) { for (Piece* pPiece = m_pPieces; pPiece; pPiece = pPiece->m_pNext) if ((pPiece->IsVisible(m_bAnimation ? m_nCurFrame : m_nCurStep, m_bAnimation)) && (pPiece->GetTopGroup() == pGroup)) pPiece->Select (true, false, false); } else Objects[i]->Select(true, false, Control); } else Objects[i]->Select(true, false, Control); } } // Update screen and UI. UpdateSelection(); UpdateAllViews(); SystemUpdateFocus(NULL); } break; case LC_ACTION_MOVE: { SetModifiedFlag(true); CheckPoint("Moving"); } break; case LC_ACTION_ROTATE: { SetModifiedFlag(true); CheckPoint("Rotating"); } break; case LC_ACTION_CAMERA: { SystemUpdateCameraMenu(m_pCameras); SystemUpdateCurrentCamera(NULL, m_ActiveView->mCamera, m_pCameras); SetModifiedFlag(true); CheckPoint("Inserting"); } break; case LC_ACTION_CURVE: { SetModifiedFlag(true); CheckPoint("Inserting"); } break; case LC_ACTION_SPOTLIGHT: { SetModifiedFlag(true); CheckPoint("Inserting"); } break; case LC_ACTION_ZOOM: case LC_ACTION_PAN: case LC_ACTION_ROTATE_VIEW: case LC_ACTION_ROLL: { // For some reason the scene doesn't get redrawn when changing a camera but it does // when moving things around, so manually get the full scene rendered again. if (m_nDetail & LC_DET_FAST) UpdateAllViews(); } break; case LC_ACTION_ZOOM_REGION: { int Viewport[4] = { 0, 0, m_ActiveView->GetWidth(), m_ActiveView->GetHeight() }; float Aspect = (float)Viewport[2]/(float)Viewport[3]; Camera* Cam = m_ActiveView->mCamera; const lcMatrix44& ModelView = Cam->mWorldView; lcMatrix44 Projection = lcMatrix44Perspective(Cam->m_fovy, Aspect, Cam->m_zNear, Cam->m_zFar); // Find out the top-left and bottom-right corners in screen coordinates. float Left, Top, Bottom, Right; if (m_OverlayTrackStart[0] < m_nDownX) { Left = m_OverlayTrackStart[0]; Right = (float)m_nDownX; } else { Left = (float)m_nDownX; Right = m_OverlayTrackStart[0]; } if (m_OverlayTrackStart[1] > m_nDownY) { Top = m_OverlayTrackStart[1]; Bottom = (float)m_nDownY; } else { Top = (float)m_nDownY; Bottom = m_OverlayTrackStart[1]; } // Unproject screen points to world space. lcVector3 Points[3] = { lcVector3((Left + Right) / 2, (Top + Bottom) / 2, 0.9f), lcVector3((float)Viewport[2] / 2.0f, (float)Viewport[3] / 2.0f, 0.9f), lcVector3((float)Viewport[2] / 2.0f, (float)Viewport[3] / 2.0f, 0.1f), }; lcUnprojectPoints(Points, 3, ModelView, Projection, Viewport); // Center camera. lcVector3 Eye = Cam->mPosition; Eye = Eye + (Points[0] - Points[1]); lcVector3 Target = Cam->mTargetPosition; Target = Target + (Points[0] - Points[1]); // Zoom in/out. float RatioX = (Right - Left) / Viewport[2]; float RatioY = (Top - Bottom) / Viewport[3]; float ZoomFactor = -lcMax(RatioX, RatioY) + 0.75f; lcVector3 Dir = Points[1] - Points[2]; Eye = Eye + Dir * ZoomFactor; Target = Target + Dir * ZoomFactor; // Change the camera and redraw. Cam->ChangeKey(m_bAnimation ? m_nCurFrame : m_nCurStep, m_bAnimation, m_bAddKeys, Eye, LC_CK_EYE); Cam->ChangeKey(m_bAnimation ? m_nCurFrame : m_nCurStep, m_bAnimation, m_bAddKeys, Target, LC_CK_TARGET); Cam->UpdatePosition(m_bAnimation ? m_nCurFrame : m_nCurStep, m_bAnimation); SystemUpdateFocus(NULL); UpdateAllViews(); } break; case LC_ACTION_INSERT: case LC_ACTION_LIGHT: case LC_ACTION_ERASER: case LC_ACTION_PAINT: break; } if (m_RestoreAction) { SetAction(m_PreviousAction); m_RestoreAction = false; } } else if (m_pTrackFile != NULL) { if ((m_nCurAction == LC_ACTION_SELECT) || (m_nCurAction == LC_ACTION_ZOOM_REGION)) { UpdateAllViews(); } else { DeleteContents (true); FileLoad (m_pTrackFile, true, false); delete m_pTrackFile; m_pTrackFile = NULL; } } return true; } void Project::StartTracking(int mode) { SystemCaptureMouse(); m_nTracking = mode; if (m_pTrackFile != NULL) m_pTrackFile->SetLength (0); else m_pTrackFile = new lcMemFile; FileSave(m_pTrackFile, true); } void Project::GetSnapIndex(int* SnapXY, int* SnapZ, int* SnapAngle) const { if (SnapXY) *SnapXY = (m_nMoveSnap & 0xff); if (SnapZ) *SnapZ = ((m_nMoveSnap >> 8) & 0xff); if (SnapAngle) { if (m_nSnap & LC_DRAW_SNAP_A) { int Angles[] = { 0, 1, 5, 10, 15, 30, 45, 60, 90, 180 }; *SnapAngle = -1; for (unsigned int i = 0; i < sizeof(Angles)/sizeof(Angles[0]); i++) { if (m_nAngleSnap == Angles[i]) { *SnapAngle = i; break; } } } else SnapAngle = 0; } } void Project::GetSnapDistance(float* SnapXY, float* SnapZ) const { const float SnapXYTable[] = { 0.01f, 0.04f, 0.2f, 0.32f, 0.4f, 0.8f, 1.6f, 2.4f, 3.2f, 6.4f }; const float SnapZTable[] = { 0.01f, 0.04f, 0.2f, 0.32f, 0.4f, 0.8f, 0.96f, 1.92f, 3.84f, 7.68f }; int SXY, SZ; GetSnapIndex(&SXY, &SZ, NULL); SXY = lcMin(SXY, 9); SZ = lcMin(SZ, 9); *SnapXY = SnapXYTable[SXY]; *SnapZ = SnapZTable[SZ]; } void Project::GetSnapDistanceText(char* SnapXY, char* SnapZ) const { if (m_nSnap & LC_DRAW_CM_UNITS) { float xy, z; GetSnapDistance(&xy, &z); sprintf(SnapXY, "%.2f", xy); sprintf(SnapZ, "%.2f", z); } else { const char* SnapXYText[] = { "0", "1/20S", "1/4S", "1F", "1/2S", "1S", "2S", "3S", "4S", "8S" }; const char* SnapZText[] = { "0", "1/20S", "1/4S", "1F", "1/2S", "1S", "1B", "2B", "4B", "8B" }; int SXY, SZ; GetSnapIndex(&SXY, &SZ, NULL); SXY = lcMin(SXY, 9); SZ = lcMin(SZ, 9); strcpy(SnapXY, SnapXYText[SXY]); strcpy(SnapZ, SnapZText[SZ]); } } void Project::SnapVector(lcVector3& Delta, lcVector3& Leftover) const { float SnapXY, SnapZ; GetSnapDistance(&SnapXY, &SnapZ); if (m_nSnap & LC_DRAW_SNAP_X) { int i = (int)(Delta[0] / SnapXY); Leftover[0] = Delta[0] - (SnapXY * i); if (Leftover[0] > SnapXY / 2) { Leftover[0] -= SnapXY; i++; } else if (Leftover[0] < -SnapXY / 2) { Leftover[0] += SnapXY; i--; } Delta[0] = SnapXY * i; } if (m_nSnap & LC_DRAW_SNAP_Y) { int i = (int)(Delta[1] / SnapXY); Leftover[1] = Delta[1] - (SnapXY * i); if (Leftover[1] > SnapXY / 2) { Leftover[1] -= SnapXY; i++; } else if (Leftover[1] < -SnapXY / 2) { Leftover[1] += SnapXY; i--; } Delta[1] = SnapXY * i; } if (m_nSnap & LC_DRAW_SNAP_Z) { int i = (int)(Delta[2] / SnapZ); Leftover[2] = Delta[2] - (SnapZ * i); if (Leftover[2] > SnapZ / 2) { Leftover[2] -= SnapZ; i++; } else if (Leftover[2] < -SnapZ / 2) { Leftover[2] += SnapZ; i--; } Delta[2] = SnapZ * i; } } void Project::SnapRotationVector(lcVector3& Delta, lcVector3& Leftover) const { if (m_nSnap & LC_DRAW_SNAP_A) { int Snap[3]; for (int i = 0; i < 3; i++) { Snap[i] = (int)(Delta[i] / (float)m_nAngleSnap); } lcVector3 NewDelta((float)(m_nAngleSnap * Snap[0]), (float)(m_nAngleSnap * Snap[1]), (float)(m_nAngleSnap * Snap[2])); Leftover = Delta - NewDelta; Delta = NewDelta; } } bool Project::MoveSelectedObjects(lcVector3& Move, lcVector3& Remainder, bool Snap, bool Lock) { // Don't move along locked directions. if (Lock) { if (m_nSnap & LC_DRAW_LOCK_X) Move[0] = 0; if (m_nSnap & LC_DRAW_LOCK_Y) Move[1] = 0; if (m_nSnap & LC_DRAW_LOCK_Z) Move[2] = 0; } // Snap. if (Snap) { SnapVector(Move, Remainder); if (Move.LengthSquared() < 0.001f) return false; } // Transform the translation if we're in relative mode. if ((m_nSnap & LC_DRAW_GLOBAL_SNAP) == 0) { Object* Focus = GetFocusObject(); if ((Focus != NULL) && Focus->IsPiece()) Move = lcMul30(Move, ((Piece*)Focus)->mModelWorld); } Piece* pPiece; Camera* pCamera; Light* pLight; float x = Move[0], y = Move[1], z = Move[2]; for (pCamera = m_pCameras; pCamera; pCamera = pCamera->m_pNext) if (pCamera->IsSelected()) { pCamera->Move(m_bAnimation ? m_nCurFrame : m_nCurStep, m_bAnimation, m_bAddKeys, x, y, z); pCamera->UpdatePosition(m_bAnimation ? m_nCurFrame : m_nCurStep, m_bAnimation); } for (pLight = m_pLights; pLight; pLight = pLight->m_pNext) if (pLight->IsSelected()) { pLight->Move (m_bAnimation ? m_nCurFrame : m_nCurStep, m_bAnimation, m_bAddKeys, x, y, z); pLight->UpdatePosition (m_bAnimation ? m_nCurFrame : m_nCurStep, m_bAnimation); } for (pPiece = m_pPieces; pPiece; pPiece = pPiece->m_pNext) if (pPiece->IsSelected()) { pPiece->Move(m_bAnimation ? m_nCurFrame : m_nCurStep, m_bAnimation, m_bAddKeys, x, y, z); pPiece->UpdatePosition(m_bAnimation ? m_nCurFrame : m_nCurStep, m_bAnimation); } // TODO: move group centers if (m_OverlayActive) { if (!GetFocusPosition(m_OverlayCenter)) GetSelectionCenter(m_OverlayCenter); } return true; } bool Project::RotateSelectedObjects(lcVector3& Delta, lcVector3& Remainder, bool Snap, bool Lock) { // Don't move along locked directions. if (Lock) { if (m_nSnap & LC_DRAW_LOCK_X) Delta[0] = 0; if (m_nSnap & LC_DRAW_LOCK_Y) Delta[1] = 0; if (m_nSnap & LC_DRAW_LOCK_Z) Delta[2] = 0; } // Snap. if (Snap) SnapRotationVector(Delta, Remainder); if (Delta.LengthSquared() < 0.001f) return false; float bs[6] = { 10000, 10000, 10000, -10000, -10000, -10000 }; lcVector3 pos; lcVector4 rot; int nSel = 0; Piece *pPiece, *pFocus = NULL; for (pPiece = m_pPieces; pPiece; pPiece = pPiece->m_pNext) { if (pPiece->IsSelected()) { if (pPiece->IsFocused()) pFocus = pPiece; pPiece->CompareBoundingBox(bs); nSel++; } } if (pFocus != NULL) { pos = pFocus->mPosition; bs[0] = bs[3] = pos[0]; bs[1] = bs[4] = pos[1]; bs[2] = bs[5] = pos[2]; } lcVector3 Center((bs[0]+bs[3])/2, (bs[1]+bs[4])/2, (bs[2]+bs[5])/2); // Create the rotation matrix. lcVector4 RotationQuaternion(0, 0, 0, 1); lcVector4 WorldToFocusQuaternion, FocusToWorldQuaternion; if (!(m_nSnap & LC_DRAW_LOCK_X) && (Delta[0] != 0.0f)) { lcVector4 q = lcQuaternionRotationX(Delta[0] * LC_DTOR); RotationQuaternion = lcQuaternionMultiply(q, RotationQuaternion); } if (!(m_nSnap & LC_DRAW_LOCK_Y) && (Delta[1] != 0.0f)) { lcVector4 q = lcQuaternionRotationY(Delta[1] * LC_DTOR); RotationQuaternion = lcQuaternionMultiply(q, RotationQuaternion); } if (!(m_nSnap & LC_DRAW_LOCK_Z) && (Delta[2] != 0.0f)) { lcVector4 q = lcQuaternionRotationZ(Delta[2] * LC_DTOR); RotationQuaternion = lcQuaternionMultiply(q, RotationQuaternion); } // Transform the rotation relative to the focused piece. if (m_nSnap & LC_DRAW_GLOBAL_SNAP) pFocus = NULL; if (pFocus != NULL) { lcVector4 Rot; Rot = ((Piece*)pFocus)->mRotation; WorldToFocusQuaternion = lcQuaternionFromAxisAngle(lcVector4(Rot[0], Rot[1], Rot[2], -Rot[3] * LC_DTOR)); FocusToWorldQuaternion = lcQuaternionFromAxisAngle(lcVector4(Rot[0], Rot[1], Rot[2], Rot[3] * LC_DTOR)); RotationQuaternion = lcQuaternionMultiply(FocusToWorldQuaternion, RotationQuaternion); } for (pPiece = m_pPieces; pPiece; pPiece = pPiece->m_pNext) { if (!pPiece->IsSelected()) continue; pos = pPiece->mPosition; rot = pPiece->mRotation; lcVector4 NewRotation; if ((nSel == 1) && (pFocus == pPiece)) { lcVector4 LocalToWorldQuaternion; LocalToWorldQuaternion = lcQuaternionFromAxisAngle(lcVector4(rot[0], rot[1], rot[2], rot[3] * LC_DTOR)); lcVector4 NewLocalToWorldQuaternion; if (pFocus != NULL) { lcVector4 LocalToFocusQuaternion = lcQuaternionMultiply(WorldToFocusQuaternion, LocalToWorldQuaternion); NewLocalToWorldQuaternion = lcQuaternionMultiply(LocalToFocusQuaternion, RotationQuaternion); } else { NewLocalToWorldQuaternion = lcQuaternionMultiply(RotationQuaternion, LocalToWorldQuaternion); } NewRotation = lcQuaternionToAxisAngle(NewLocalToWorldQuaternion); } else { lcVector3 Distance = lcVector3(pos[0], pos[1], pos[2]) - Center; lcVector4 LocalToWorldQuaternion = lcQuaternionFromAxisAngle(lcVector4(rot[0], rot[1], rot[2], rot[3] * LC_DTOR)); lcVector4 NewLocalToWorldQuaternion; if (pFocus != NULL) { lcVector4 LocalToFocusQuaternion = lcQuaternionMultiply(WorldToFocusQuaternion, LocalToWorldQuaternion); NewLocalToWorldQuaternion = lcQuaternionMultiply(RotationQuaternion, LocalToFocusQuaternion); lcVector4 WorldToLocalQuaternion = lcQuaternionFromAxisAngle(lcVector4(rot[0], rot[1], rot[2], -rot[3] * LC_DTOR)); Distance = lcQuaternionMul(Distance, WorldToLocalQuaternion); Distance = lcQuaternionMul(Distance, NewLocalToWorldQuaternion); } else { NewLocalToWorldQuaternion = lcQuaternionMultiply(RotationQuaternion, LocalToWorldQuaternion); Distance = lcQuaternionMul(Distance, RotationQuaternion); } NewRotation = lcQuaternionToAxisAngle(NewLocalToWorldQuaternion); pos[0] = Center[0] + Distance[0]; pos[1] = Center[1] + Distance[1]; pos[2] = Center[2] + Distance[2]; pPiece->ChangeKey(m_bAnimation ? m_nCurFrame : m_nCurStep, m_bAnimation, m_bAddKeys, pos, LC_PK_POSITION); } rot[0] = NewRotation[0]; rot[1] = NewRotation[1]; rot[2] = NewRotation[2]; rot[3] = NewRotation[3] * LC_RTOD; pPiece->ChangeKey(m_bAnimation ? m_nCurFrame : m_nCurStep, m_bAnimation, m_bAddKeys, rot, LC_PK_ROTATION); pPiece->UpdatePosition(m_bAnimation ? m_nCurFrame : m_nCurStep, m_bAnimation); } if (m_OverlayActive) { if (!GetFocusPosition(m_OverlayCenter)) GetSelectionCenter(m_OverlayCenter); } return true; } void Project::TransformSelectedObjects(LC_TRANSFORM_TYPE Type, const lcVector3& Transform) { switch (Type) { case LC_TRANSFORM_ABSOLUTE_TRANSLATION: { float bs[6] = { 10000, 10000, 10000, -10000, -10000, -10000 }; lcVector3 Center; int nSel = 0; Piece *pPiece, *pFocus = NULL; for (pPiece = m_pPieces; pPiece; pPiece = pPiece->m_pNext) { if (pPiece->IsSelected()) { if (pPiece->IsFocused()) pFocus = pPiece; pPiece->CompareBoundingBox(bs); nSel++; } } if (pFocus != NULL) Center = pFocus->mPosition; else Center = lcVector3((bs[0]+bs[3])/2, (bs[1]+bs[4])/2, (bs[2]+bs[5])/2); lcVector3 Offset = Transform - Center; Camera* pCamera; Light* pLight; for (pCamera = m_pCameras; pCamera; pCamera = pCamera->m_pNext) { if (pCamera->IsSelected()) { pCamera->Move(m_bAnimation ? m_nCurFrame : m_nCurStep, m_bAnimation, m_bAddKeys, Offset.x, Offset.y, Offset.z); pCamera->UpdatePosition(m_bAnimation ? m_nCurFrame : m_nCurStep, m_bAnimation); } } for (pLight = m_pLights; pLight; pLight = pLight->m_pNext) { if (pLight->IsSelected()) { pLight->Move(m_bAnimation ? m_nCurFrame : m_nCurStep, m_bAnimation, m_bAddKeys, Offset.x, Offset.y, Offset.z); pLight->UpdatePosition (m_bAnimation ? m_nCurFrame : m_nCurStep, m_bAnimation); } } for (pPiece = m_pPieces; pPiece; pPiece = pPiece->m_pNext) { if (pPiece->IsSelected()) { pPiece->Move(m_bAnimation ? m_nCurFrame : m_nCurStep, m_bAnimation, m_bAddKeys, Offset.x, Offset.y, Offset.z); pPiece->UpdatePosition(m_bAnimation ? m_nCurFrame : m_nCurStep, m_bAnimation); } } if (m_OverlayActive) { if (!GetFocusPosition(m_OverlayCenter)) GetSelectionCenter(m_OverlayCenter); } if (nSel) { UpdateOverlayScale(); UpdateAllViews(); SetModifiedFlag(true); CheckPoint("Moving"); SystemUpdateFocus(NULL); } } break; case LC_TRANSFORM_RELATIVE_TRANSLATION: { lcVector3 Move(Transform), Remainder; if (MoveSelectedObjects(Move, Remainder, false, false)) { UpdateOverlayScale(); UpdateAllViews(); SetModifiedFlag(true); CheckPoint("Moving"); SystemUpdateFocus(NULL); } } break; case LC_TRANSFORM_ABSOLUTE_ROTATION: { // Create the rotation matrix. lcVector4 RotationQuaternion(0, 0, 0, 1); if (Transform[0] != 0.0f) { lcVector4 q = lcQuaternionRotationX(Transform[0] * LC_DTOR); RotationQuaternion = lcQuaternionMultiply(q, RotationQuaternion); } if (Transform[1] != 0.0f) { lcVector4 q = lcQuaternionRotationY(Transform[1] * LC_DTOR); RotationQuaternion = lcQuaternionMultiply(q, RotationQuaternion); } if (Transform[2] != 0.0f) { lcVector4 q = lcQuaternionRotationZ(Transform[2] * LC_DTOR); RotationQuaternion = lcQuaternionMultiply(q, RotationQuaternion); } lcVector4 NewRotation = lcQuaternionToAxisAngle(RotationQuaternion); NewRotation[3] *= LC_RTOD; Piece *pPiece; int nSel = 0; for (pPiece = m_pPieces; pPiece; pPiece = pPiece->m_pNext) { if (pPiece->IsSelected()) { pPiece->ChangeKey(m_bAnimation ? m_nCurFrame : m_nCurStep, m_bAnimation, m_bAddKeys, NewRotation, LC_PK_ROTATION); pPiece->UpdatePosition(m_bAnimation ? m_nCurFrame : m_nCurStep, m_bAnimation); nSel++; } } if (m_OverlayActive) { if (!GetFocusPosition(m_OverlayCenter)) GetSelectionCenter(m_OverlayCenter); } if (nSel) { UpdateOverlayScale(); UpdateAllViews(); SetModifiedFlag(true); CheckPoint("Rotating"); SystemUpdateFocus(NULL); } } break; case LC_TRANSFORM_RELATIVE_ROTATION: { lcVector3 Rotate(Transform), Remainder; if (RotateSelectedObjects(Rotate, Remainder, false, false)) { UpdateOverlayScale(); UpdateAllViews(); SetModifiedFlag(true); CheckPoint("Rotating"); SystemUpdateFocus(NULL); } } break; } } bool Project::OnKeyDown(char nKey, bool bControl, bool bShift) { bool ret = false; // FIXME: Almost all of this should go through the keyboard shortcut system. switch (nKey) { case KEY_ESCAPE: { if (m_nTracking != LC_TRACK_NONE) StopTracking(false); ret = true; } break; case KEY_INSERT: { HandleCommand(LC_PIECE_INSERT, 0); ret = true; } break; case KEY_DELETE: { HandleCommand(LC_PIECE_DELETE, 0); ret = true; } break; case '0': case '1': case '2': case '3': case '4': case '5': case '6': case '7': case '8': case '9': { if (bControl) { m_nCurClipboard = nKey - 0x30; SystemUpdatePaste(m_pClipboard[m_nCurClipboard] != NULL); ret = true; } } break; case KEY_PLUS: // case '+': case '=': { if (bShift) HandleCommand(LC_VIEW_ZOOM, -10); else HandleCommand(LC_VIEW_ZOOM, -1); ret = true; } break; case KEY_MINUS: // case '-': case '_': { if (bShift) HandleCommand(LC_VIEW_ZOOM, 10); else HandleCommand(LC_VIEW_ZOOM, 1); ret = true; } break; case KEY_TAB: { if (m_pPieces == NULL) break; Piece* pFocus = NULL, *pPiece; for (pFocus = m_pPieces; pFocus; pFocus = pFocus->m_pNext) if (pFocus->IsFocused()) break; SelectAndFocusNone(false); if (pFocus == NULL) { if (bShift) { // Focus the last visible piece. for (pPiece = m_pPieces; pPiece; pPiece = pPiece->m_pNext) if (pPiece->IsVisible(m_bAnimation ? m_nCurFrame : m_nCurStep, m_bAnimation)) pFocus = pPiece; } else { // Focus the first visible piece. for (pPiece = m_pPieces; pPiece; pPiece = pPiece->m_pNext) if (pPiece->IsVisible(m_bAnimation ? m_nCurFrame : m_nCurStep, m_bAnimation)) { pFocus = pPiece; break; } } } else { if (bShift) { // Focus the previous visible piece. Piece* pBest = pPiece = pFocus; for (;;) { if (pPiece->IsVisible(m_bAnimation ? m_nCurFrame : m_nCurStep, m_bAnimation)) pBest = pPiece; if (pPiece->m_pNext != NULL) { if (pPiece->m_pNext == pFocus) break; else pPiece = pPiece->m_pNext; } else { if (pFocus == m_pPieces) break; else pPiece = m_pPieces; } } pFocus = pBest; } else { // Focus the next visible piece. pPiece = pFocus; for (;;) { if (pPiece != pFocus) if (pPiece->IsVisible(m_bAnimation ? m_nCurFrame : m_nCurStep, m_bAnimation)) { pFocus = pPiece; break; } if (pPiece->m_pNext != NULL) { if (pPiece->m_pNext == pFocus) break; else pPiece = pPiece->m_pNext; } else { if (pFocus == m_pPieces) break; else pPiece = m_pPieces; } } } } if (pFocus != NULL) { pFocus->Select (true, true, false); Group* pGroup = pFocus->GetTopGroup(); if (pGroup != NULL) { for (pPiece = m_pPieces; pPiece; pPiece = pPiece->m_pNext) if ((pPiece->IsVisible(m_bAnimation ? m_nCurFrame : m_nCurStep, m_bAnimation)) && (pPiece->GetTopGroup() == pGroup)) pPiece->Select (true, false, false); } } UpdateSelection(); UpdateAllViews(); SystemUpdateFocus(pFocus); ret = true; } break; case KEY_UP: case KEY_DOWN: case KEY_LEFT: case KEY_RIGHT: case KEY_NEXT: case KEY_PRIOR: // if (AnyObjectSelected(FALSE)) { lcVector3 axis; if (bShift) { if (m_nSnap & LC_DRAW_SNAP_A) axis[0] = axis[1] = axis[2] = m_nAngleSnap; else axis[0] = axis[1] = axis[2] = 1; } else { float xy, z; GetSnapDistance(&xy, &z); axis[0] = axis[1] = xy; axis[2] = z; if (((m_nSnap & LC_DRAW_SNAP_X) == 0) || bControl) axis[0] = 0.01f; if (((m_nSnap & LC_DRAW_SNAP_Y) == 0) || bControl) axis[1] = 0.01f; if (((m_nSnap & LC_DRAW_SNAP_Z) == 0) || bControl) axis[2] = 0.01f; } if (m_nSnap & LC_DRAW_MOVEAXIS) { switch (nKey) { case KEY_UP: axis[1] = axis[2] = 0; axis[0] = -axis[0]; break; case KEY_DOWN: axis[1] = axis[2] = 0; break; case KEY_LEFT: axis[0] = axis[2] = 0; axis[1] = -axis[1]; break; case KEY_RIGHT: axis[0] = axis[2] = 0; break; case KEY_NEXT: axis[0] = axis[1] = 0; axis[2] = -axis[2]; break; case KEY_PRIOR: axis[0] = axis[1] = 0; break; } } else { Camera *camera = m_ActiveView->mCamera; if (camera->IsSide ()) { lcMatrix44 mat = lcMatrix44AffineInverse(camera->mWorldView); switch (nKey) { case KEY_UP: axis[0] = axis[2] = 0; break; case KEY_DOWN: axis[0] = axis[2] = 0; axis[1] = -axis[1]; break; case KEY_LEFT: axis[0] = -axis[0]; axis[1] = axis[2] = 0; break; case KEY_RIGHT: axis[1] = axis[2] = 0; break; case KEY_NEXT: axis[0] = axis[1] = 0; axis[2] = -axis[2]; break; case KEY_PRIOR: axis[0] = axis[1] = 0; break; } axis = lcMul30(axis, mat); } else { // TODO: rewrite this switch (nKey) { case KEY_UP: axis[1] = axis[2] = 0; axis[0] = -axis[0]; break; case KEY_DOWN: axis[1] = axis[2] = 0; break; case KEY_LEFT: axis[0] = axis[2] = 0; axis[1] = -axis[1]; break; case KEY_RIGHT: axis[0] = axis[2] = 0; break; case KEY_NEXT: axis[0] = axis[1] = 0; axis[2] = -axis[2]; break; case KEY_PRIOR: axis[0] = axis[1] = 0; break; } int Viewport[4] = { 0, 0, m_ActiveView->GetWidth(), m_ActiveView->GetHeight() }; float Aspect = (float)Viewport[2]/(float)Viewport[3]; Camera* Cam = m_ActiveView->mCamera; const lcMatrix44& ModelView = Cam->mWorldView; lcMatrix44 Projection = lcMatrix44Perspective(Cam->m_fovy, Aspect, Cam->m_zNear, Cam->m_zFar); lcVector3 Pts[3] = { lcVector3(5.0f, 5.0f, 0.1f), lcVector3(10.0f, 5.0f, 0.1f), lcVector3(5.0f, 10.0f, 0.1f) }; lcUnprojectPoints(Pts, 3, ModelView, Projection, Viewport); float ax, ay; lcVector3 vx((Pts[1][0] - Pts[0][0]), (Pts[1][1] - Pts[0][1]), 0);//Pts[1][2] - Pts[0][2] }; vx.Normalize(); lcVector3 x(1, 0, 0); ax = acosf(lcDot(vx, x)); lcVector3 vy((Pts[2][0] - Pts[0][0]), (Pts[2][1] - Pts[0][1]), 0);//Pts[2][2] - Pts[0][2] }; vy.Normalize(); lcVector3 y(0, -1, 0); ay = acosf(lcDot(vy, y)); if (ax > 135) axis[0] = -axis[0]; if (ay < 45) axis[1] = -axis[1]; if (ax >= 45 && ax <= 135) { float tmp = axis[0]; ax = acosf(lcDot(vx, y)); if (ax > 90) { axis[0] = -axis[1]; axis[1] = tmp; } else { axis[0] = axis[1]; axis[1] = -tmp; } } } } if (bShift) { lcVector3 tmp; RotateSelectedObjects(axis, tmp, true, true); } else { lcVector3 tmp; MoveSelectedObjects(axis, tmp, false, true); } UpdateOverlayScale(); UpdateAllViews(); SetModifiedFlag(true); CheckPoint((bShift) ? "Rotating" : "Moving"); SystemUpdateFocus(NULL); ret = true; } break; } return ret; } void Project::BeginPieceDrop(PieceInfo* Info) { StartTracking(LC_TRACK_LEFT); SetAction(LC_ACTION_INSERT); m_RestoreAction = true; m_PreviousPiece = m_pCurPiece; m_pCurPiece = Info; m_pCurPiece->AddRef(); } void Project::BeginColorDrop() { StartTracking(LC_TRACK_LEFT); SetAction(LC_ACTION_PAINT); m_RestoreAction = true; } void Project::OnLeftButtonDown(View* view, int x, int y, bool bControl, bool bShift) { if (m_nTracking != LC_TRACK_NONE) if (StopTracking(false)) return; if (SetActiveView(view)) return; m_bTrackCancel = false; m_nDownX = x; m_nDownY = y; m_MouseTotalDelta = lcVector3(0, 0, 0); m_MouseSnapLeftover = lcVector3(0, 0, 0); int Viewport[4] = { 0, 0, view->GetWidth(), view->GetHeight() }; float Aspect = (float)Viewport[2]/(float)Viewport[3]; Camera* Cam = view->mCamera; const lcMatrix44& ModelView = Cam->mWorldView; lcMatrix44 Projection = lcMatrix44Perspective(Cam->m_fovy, Aspect, Cam->m_zNear, Cam->m_zFar); lcVector3 point = lcUnprojectPoint(lcVector3((float)x, (float)y, 0.9f), ModelView, Projection, Viewport); m_fTrack[0] = point[0]; m_fTrack[1] = point[1]; m_fTrack[2] = point[2]; if (Sys_KeyDown(KEY_ALT)) ActivateOverlay(view, LC_ACTION_ROTATE_VIEW, LC_OVERLAY_ROTATE_VIEW_XYZ); int Action = GetAction(); switch (Action) { case LC_ACTION_SELECT: case LC_ACTION_ERASER: case LC_ACTION_PAINT: { Object* Closest = FindObjectFromPoint(view, x, y); if (Action == LC_ACTION_SELECT) { if (Closest != NULL) { switch (Closest->GetType ()) { case LC_OBJECT_PIECE: { Piece* pPiece = (Piece*)Closest; Group* pGroup = pPiece->GetTopGroup(); bool bFocus = pPiece->IsFocused (); SelectAndFocusNone (bControl); // if a piece has focus deselect it, otherwise set the focus pPiece->Select (!bFocus, !bFocus, false); if (pGroup != NULL) for (pPiece = m_pPieces; pPiece; pPiece = pPiece->m_pNext) if (pPiece->GetTopGroup() == pGroup) pPiece->Select (!bFocus, false, false); } break; case LC_OBJECT_CAMERA: case LC_OBJECT_CAMERA_TARGET: case LC_OBJECT_LIGHT: case LC_OBJECT_LIGHT_TARGET: { SelectAndFocusNone (bControl); Closest->Select (true, true, bControl); } break; } } else SelectAndFocusNone (bControl); UpdateSelection(); UpdateAllViews(); SystemUpdateFocus(Closest); StartTracking(LC_TRACK_START_LEFT); } if ((Action == LC_ACTION_ERASER) && (Closest != NULL)) { switch (Closest->GetType ()) { case LC_OBJECT_PIECE: { Piece* pPiece = (Piece*)Closest; RemovePiece(pPiece); delete pPiece; // CalculateStep(); RemoveEmptyGroups(); } break; case LC_OBJECT_CAMERA: case LC_OBJECT_CAMERA_TARGET: { Camera* pCamera; if (Closest->GetType () == LC_OBJECT_CAMERA) pCamera = (Camera*)Closest; else pCamera = ((CameraTarget*)Closest)->GetParent(); bool bCanDelete = true; for (int ViewIdx = 0; ViewIdx < m_ViewList.GetSize(); ViewIdx++) if (pCamera == m_ViewList[ViewIdx]->mCamera) bCanDelete = false; if (bCanDelete) { Camera* pPrev; for (pPrev = m_pCameras; pPrev; pPrev = pPrev->m_pNext) if (pPrev->m_pNext == pCamera) { pPrev->m_pNext = pCamera->m_pNext; delete pCamera; SystemUpdateCameraMenu(m_pCameras); SystemUpdateCurrentCamera(NULL, m_ActiveView->mCamera, m_pCameras); break; } } } break; case LC_OBJECT_LIGHT: case LC_OBJECT_LIGHT_TARGET: { // pos = m_Lights.Find(pObject->m_pParent); // m_Lights.RemoveAt(pos); // delete pObject->m_pParent; } break; } UpdateSelection(); UpdateAllViews(); SetModifiedFlag(true); CheckPoint("Deleting"); // AfxGetMainWnd()->PostMessage(WM_LC_UPDATE_INFO, NULL, OT_PIECE); } if ((Action == LC_ACTION_PAINT) && (Closest != NULL) && (Closest->GetType() == LC_OBJECT_PIECE)) { Piece* pPiece = (Piece*)Closest; if (pPiece->mColorIndex != m_nCurColor) { pPiece->SetColorIndex(m_nCurColor); SetModifiedFlag(true); CheckPoint("Painting"); SystemUpdateFocus(NULL); UpdateAllViews(); } } } break; case LC_ACTION_INSERT: case LC_ACTION_LIGHT: { if (Action == LC_ACTION_INSERT) { lcVector3 Pos; lcVector4 Rot; GetPieceInsertPosition(view, x, y, Pos, Rot); Piece* pPiece = new Piece(m_pCurPiece); pPiece->Initialize(Pos[0], Pos[1], Pos[2], m_nCurStep, m_nCurFrame); pPiece->SetColorIndex(m_nCurColor); pPiece->ChangeKey(m_nCurStep, false, false, Rot, LC_PK_ROTATION); pPiece->ChangeKey(m_nCurFrame, true, false, Rot, LC_PK_ROTATION); pPiece->UpdatePosition(m_bAnimation ? m_nCurFrame : m_nCurStep, m_bAnimation); SelectAndFocusNone(false); pPiece->CreateName(m_pPieces); AddPiece(pPiece); pPiece->Select (true, true, false); UpdateSelection(); SystemPieceComboAdd(m_pCurPiece->m_strDescription); SystemUpdateFocus(pPiece); if (!bControl) SetAction(LC_ACTION_SELECT); } else if (Action == LC_ACTION_LIGHT) { GLint max; int count = 0; Light *pLight; glGetIntegerv (GL_MAX_LIGHTS, &max); for (pLight = m_pLights; pLight; pLight = pLight->m_pNext) count++; if (count == max) break; pLight = new Light (m_fTrack[0], m_fTrack[1], m_fTrack[2]); SelectAndFocusNone (false); pLight->CreateName(m_pLights); pLight->m_pNext = m_pLights; m_pLights = pLight; SystemUpdateFocus (pLight); pLight->Select (true, true, false); UpdateSelection (); } // AfxGetMainWnd()->PostMessage(WM_LC_UPDATE_INFO, (WPARAM)pNew, OT_PIECE); UpdateSelection(); UpdateAllViews(); SetModifiedFlag(true); CheckPoint("Inserting"); } break; case LC_ACTION_SPOTLIGHT: { GLint max; int count = 0; Light *pLight; glGetIntegerv (GL_MAX_LIGHTS, &max); for (pLight = m_pLights; pLight; pLight = pLight->m_pNext) count++; if (count == max) break; lcVector3 tmp = lcUnprojectPoint(lcVector3(x+1.0f, y-1.0f, 0.9f), ModelView, Projection, Viewport); SelectAndFocusNone(false); StartTracking(LC_TRACK_START_LEFT); pLight = new Light (m_fTrack[0], m_fTrack[1], m_fTrack[2], tmp[0], tmp[1], tmp[2]); pLight->GetTarget ()->Select (true, true, false); pLight->m_pNext = m_pLights; m_pLights = pLight; UpdateSelection(); UpdateAllViews(); SystemUpdateFocus(pLight); } break; case LC_ACTION_CAMERA: { lcVector3 tmp = lcUnprojectPoint(lcVector3(x+1.0f, y-1.0f, 0.9f), ModelView, Projection, Viewport); SelectAndFocusNone(false); StartTracking(LC_TRACK_START_LEFT); Camera* pCamera = new Camera(m_fTrack[0], m_fTrack[1], m_fTrack[2], tmp[0], tmp[1], tmp[2], m_pCameras); pCamera->GetTarget ()->Select (true, true, false); UpdateSelection(); UpdateAllViews(); SystemUpdateFocus(pCamera); } break; case LC_ACTION_MOVE: { bool sel = false; for (Piece* pPiece = m_pPieces; pPiece; pPiece = pPiece->m_pNext) { if (pPiece->IsSelected()) { sel = true; break; } } if (!sel) { for (Camera* pCamera = m_pCameras; pCamera; pCamera = pCamera->m_pNext) { if (pCamera->IsSelected()) { sel = true; break; } } } if (!sel) { for (Light* pLight = m_pLights; pLight; pLight = pLight->m_pNext) { if (pLight->IsSelected()) { sel = true; break; } } } if (sel) { StartTracking(LC_TRACK_START_LEFT); m_OverlayDelta = lcVector3(0.0f, 0.0f, 0.0f); m_MouseSnapLeftover = lcVector3(0.0f, 0.0f, 0.0f); } } break; case LC_ACTION_ROTATE: { Piece* pPiece; for (pPiece = m_pPieces; pPiece; pPiece = pPiece->m_pNext) { if (pPiece->IsSelected()) { StartTracking(LC_TRACK_START_LEFT); m_OverlayDelta = lcVector3(0.0f, 0.0f, 0.0f); break; } } } break; case LC_ACTION_ZOOM_REGION: { m_OverlayTrackStart[0] = (float)x; m_OverlayTrackStart[1] = (float)y; StartTracking(LC_TRACK_START_LEFT); ActivateOverlay(view, m_nCurAction, LC_OVERLAY_NONE); } break; case LC_ACTION_ZOOM: case LC_ACTION_ROLL: case LC_ACTION_PAN: case LC_ACTION_ROTATE_VIEW: { StartTracking(LC_TRACK_START_LEFT); } break; } } void Project::OnLeftButtonDoubleClick(View* view, int x, int y, bool bControl, bool bShift) { if (SetActiveView(view)) return; int Viewport[4] = { 0, 0, view->GetWidth(), view->GetHeight() }; float Aspect = (float)Viewport[2]/(float)Viewport[3]; Camera* Cam = view->mCamera; const lcMatrix44& ModelView = Cam->mWorldView; lcMatrix44 Projection = lcMatrix44Perspective(Cam->m_fovy, Aspect, Cam->m_zNear, Cam->m_zFar); lcVector3 point = lcUnprojectPoint(lcVector3((float)x, (float)y, 0.9f), ModelView, Projection, Viewport); m_fTrack[0] = point[0]; m_fTrack[1] = point[1]; m_fTrack[2] = point[2]; Object* Closest = FindObjectFromPoint(view, x, y); // if (m_nCurAction == LC_ACTION_SELECT) { SelectAndFocusNone(bControl); if (Closest != NULL) switch (Closest->GetType ()) { case LC_OBJECT_PIECE: { Piece* pPiece = (Piece*)Closest; pPiece->Select (true, true, false); Group* pGroup = pPiece->GetTopGroup(); if (pGroup != NULL) for (pPiece = m_pPieces; pPiece; pPiece = pPiece->m_pNext) if (pPiece->GetTopGroup() == pGroup) pPiece->Select (true, false, false); } break; case LC_OBJECT_CAMERA: case LC_OBJECT_CAMERA_TARGET: case LC_OBJECT_LIGHT: case LC_OBJECT_LIGHT_TARGET: { Closest->Select (true, true, bControl); } break; } UpdateSelection(); UpdateAllViews(); SystemUpdateFocus(Closest); } } void Project::OnLeftButtonUp(View* view, int x, int y, bool bControl, bool bShift) { if (m_nTracking == LC_TRACK_LEFT) { // Dragging a new piece from the tree. if (m_nCurAction == LC_ACTION_INSERT) { if ((x > 0) && (x < view->GetWidth()) && (y > 0) && (y < view->GetHeight())) { lcVector3 Pos; lcVector4 Rot; GetPieceInsertPosition(view, x, y, Pos, Rot); Piece* pPiece = new Piece(m_pCurPiece); pPiece->Initialize(Pos[0], Pos[1], Pos[2], m_nCurStep, m_nCurFrame); pPiece->SetColorIndex(m_nCurColor); pPiece->ChangeKey(m_nCurStep, false, false, Rot, LC_PK_ROTATION); pPiece->ChangeKey(m_nCurFrame, true, false, Rot, LC_PK_ROTATION); pPiece->UpdatePosition(m_bAnimation ? m_nCurFrame : m_nCurStep, m_bAnimation); SelectAndFocusNone(false); pPiece->CreateName(m_pPieces); AddPiece(pPiece); pPiece->Select (true, true, false); UpdateSelection(); SystemPieceComboAdd(m_pCurPiece->m_strDescription); SystemUpdateFocus(pPiece); SetAction(LC_ACTION_SELECT); m_RestoreAction = false; } m_pCurPiece->DeRef(); m_pCurPiece = m_PreviousPiece; m_PreviousPiece = NULL; } } StopTracking(true); } void Project::OnMiddleButtonDown(View* view, int x, int y, bool bControl, bool bShift) { if (StopTracking(false)) return; if (SetActiveView(view)) return; m_nDownX = x; m_nDownY = y; m_bTrackCancel = false; int Viewport[4] = { 0, 0, view->GetWidth(), view->GetHeight() }; float Aspect = (float)Viewport[2]/(float)Viewport[3]; Camera* Cam = view->mCamera; const lcMatrix44& ModelView = Cam->mWorldView; lcMatrix44 Projection = lcMatrix44Perspective(Cam->m_fovy, Aspect, Cam->m_zNear, Cam->m_zFar); lcVector3 point = lcUnprojectPoint(lcVector3((float)x, (float)y, 0.9f), ModelView, Projection, Viewport); m_fTrack[0] = point[0]; m_fTrack[1] = point[1]; m_fTrack[2] = point[2]; if (Sys_KeyDown(KEY_ALT)) ActivateOverlay(view, LC_ACTION_PAN, LC_OVERLAY_PAN); switch (GetAction()) { case LC_ACTION_PAN: { StartTracking(LC_TRACK_START_RIGHT); } break; } } void Project::OnMiddleButtonUp(View* view, int x, int y, bool bControl, bool bShift) { StopTracking(true); } void Project::OnRightButtonDown(View* view, int x, int y, bool bControl, bool bShift) { if (StopTracking(false)) return; if (SetActiveView(view)) return; m_nDownX = x; m_nDownY = y; m_bTrackCancel = false; int Viewport[4] = { 0, 0, view->GetWidth(), view->GetHeight() }; float Aspect = (float)Viewport[2]/(float)Viewport[3]; Camera* Cam = view->mCamera; const lcMatrix44& ModelView = Cam->mWorldView; lcMatrix44 Projection = lcMatrix44Perspective(Cam->m_fovy, Aspect, Cam->m_zNear, Cam->m_zFar); lcVector3 point = lcUnprojectPoint(lcVector3((float)x, (float)y, 0.9f), ModelView, Projection, Viewport); m_fTrack[0] = point[0]; m_fTrack[1] = point[1]; m_fTrack[2] = point[2]; if (Sys_KeyDown(KEY_ALT)) ActivateOverlay(view, LC_ACTION_ZOOM, LC_OVERLAY_ZOOM); switch (GetAction()) { case LC_ACTION_MOVE: { bool sel = false; for (Piece* pPiece = m_pPieces; pPiece; pPiece = pPiece->m_pNext) if (pPiece->IsSelected()) { sel = true; break; } if (!sel) for (Camera* pCamera = m_pCameras; pCamera; pCamera = pCamera->m_pNext) if (pCamera->IsSelected()) { sel = true; break; } if (!sel) for (Light* pLight = m_pLights; pLight; pLight = pLight->m_pNext) if (pLight->IsSelected()) { sel = true; break; } if (sel) { StartTracking(LC_TRACK_START_RIGHT); m_fTrack[0] = m_fTrack[1] = m_fTrack[2] = 0.0f; } } break; case LC_ACTION_ROTATE: { Piece* pPiece; for (pPiece = m_pPieces; pPiece; pPiece = pPiece->m_pNext) if (pPiece->IsSelected()) { StartTracking(LC_TRACK_START_RIGHT); m_fTrack[0] = m_fTrack[1] = m_fTrack[2] = 0.0f; break; } } break; case LC_ACTION_ZOOM: { StartTracking(LC_TRACK_START_RIGHT); } break; } } void Project::OnRightButtonUp(View* view, int x, int y, bool bControl, bool bShift) { if (!StopTracking(true) && !m_bTrackCancel) SystemDoPopupMenu(1, -1, -1); m_bTrackCancel = false; } void Project::OnMouseMove(View* view, int x, int y, bool bControl, bool bShift) { if ((m_nTracking == LC_TRACK_NONE) && (m_nCurAction != LC_ACTION_INSERT)) { if (m_OverlayActive) MouseUpdateOverlays(view, x, y); return; } if (m_nTracking == LC_TRACK_START_RIGHT) m_nTracking = LC_TRACK_RIGHT; if (m_nTracking == LC_TRACK_START_LEFT) m_nTracking = LC_TRACK_LEFT; float ptx, pty, ptz; int Viewport[4] = { 0, 0, view->GetWidth(), view->GetHeight() }; float Aspect = (float)Viewport[2]/(float)Viewport[3]; Camera* Cam = view->mCamera; const lcMatrix44& ModelView = Cam->mWorldView; lcMatrix44 Projection = lcMatrix44Perspective(Cam->m_fovy, Aspect, Cam->m_zNear, Cam->m_zFar); lcVector3 tmp = lcUnprojectPoint(lcVector3((float)x, (float)y, 0.9f), ModelView, Projection, Viewport); ptx = tmp[0]; pty = tmp[1]; ptz = tmp[2]; switch (GetAction()) { case LC_ACTION_SELECT: { int ptx = x, pty = y; if (ptx >= Viewport[0] + Viewport[2]) ptx = Viewport[0] + Viewport[2] - 1; else if (ptx <= Viewport[0]) ptx = Viewport[0] + 1; if (pty >= Viewport[1] + Viewport[3]) pty = Viewport[1] + Viewport[3] - 1; else if (pty <= Viewport[1]) pty = Viewport[1] + 1; m_fTrack[0] = (float)ptx; m_fTrack[1] = (float)pty; if (m_nTracking != LC_TRACK_NONE) UpdateOverlayScale(); UpdateAllViews(); } break; case LC_ACTION_INSERT: { if (m_nDownX != x || m_nDownY != y) { m_nDownX = x; m_nDownY = y; UpdateAllViews(); } } break; case LC_ACTION_SPOTLIGHT: { float mouse = 10.0f/(21 - m_nMouse); float delta[3] = { (ptx - m_fTrack[0])*mouse, (pty - m_fTrack[1])*mouse, (ptz - m_fTrack[2])*mouse }; m_fTrack[0] = ptx; m_fTrack[1] = pty; m_fTrack[2] = ptz; Light* pLight = m_pLights; pLight->Move (1, m_bAnimation, false, delta[0], delta[1], delta[2]); pLight->UpdatePosition (1, m_bAnimation); SystemUpdateFocus(NULL); UpdateAllViews(); } break; case LC_ACTION_CAMERA: { float mouse = 10.0f/(21 - m_nMouse); float delta[3] = { (ptx - m_fTrack[0])*mouse, (pty - m_fTrack[1])*mouse, (ptz - m_fTrack[2])*mouse }; m_fTrack[0] = ptx; m_fTrack[1] = pty; m_fTrack[2] = ptz; Camera* pCamera = m_pCameras; while (pCamera->m_pNext != NULL) pCamera = pCamera->m_pNext; pCamera->Move (1, m_bAnimation, false, delta[0], delta[1], delta[2]); pCamera->UpdatePosition(1, m_bAnimation); SystemUpdateFocus(NULL); UpdateAllViews(); } break; case LC_ACTION_MOVE: { // Check if the mouse moved since the last update. if ((x == m_nDownX) && (y == m_nDownY)) break; Camera* Camera = view->mCamera; bool Redraw; if ((m_OverlayActive && (m_OverlayMode != LC_OVERLAY_MOVE_XYZ)) || (!Camera->IsSide())) { lcVector3 ScreenX = lcNormalize(lcCross(Camera->mTargetPosition - Camera->mPosition, Camera->mUpVector)); lcVector3 ScreenY = Camera->mUpVector; lcVector3 Dir1, Dir2; bool SingleDir = true; int OverlayMode; if (m_OverlayActive && (m_OverlayMode != LC_OVERLAY_MOVE_XYZ)) OverlayMode = m_OverlayMode; else if (m_nTracking == LC_TRACK_LEFT) OverlayMode = LC_OVERLAY_MOVE_XY; else OverlayMode = LC_OVERLAY_MOVE_Z; switch (OverlayMode) { case LC_OVERLAY_MOVE_X: Dir1 = lcVector3(1, 0, 0); break; case LC_OVERLAY_MOVE_Y: Dir1 = lcVector3(0, 1, 0); break; case LC_OVERLAY_MOVE_Z: Dir1 = lcVector3(0, 0, 1); break; case LC_OVERLAY_MOVE_XY: Dir1 = lcVector3(1, 0, 0); Dir2 = lcVector3(0, 1, 0); SingleDir = false; break; case LC_OVERLAY_MOVE_XZ: Dir1 = lcVector3(1, 0, 0); Dir2 = lcVector3(0, 0, 1); SingleDir = false; break; case LC_OVERLAY_MOVE_YZ: Dir1 = lcVector3(0, 1, 0); Dir2 = lcVector3(0, 0, 1); SingleDir = false; break; } // Transform the translation axis. lcVector3 Axis1 = Dir1; lcVector3 Axis2 = Dir2; if ((m_nSnap & LC_DRAW_GLOBAL_SNAP) == 0) { Object* Focus = GetFocusObject(); if ((Focus != NULL) && Focus->IsPiece()) { const lcMatrix44& ModelWorld = ((Piece*)Focus)->mModelWorld; Axis1 = lcMul30(Dir1, ModelWorld); Axis2 = lcMul30(Dir2, ModelWorld); } } // Find out what direction the mouse is going to move stuff. lcVector3 MoveX, MoveY; if (SingleDir) { float dx1 = lcDot(ScreenX, Axis1); float dy1 = lcDot(ScreenY, Axis1); if (fabsf(dx1) > fabsf(dy1)) { if (dx1 >= 0.0f) MoveX = Dir1; else MoveX = -Dir1; MoveY = lcVector3(0, 0, 0); } else { MoveX = lcVector3(0, 0, 0); if (dy1 > 0.0f) MoveY = Dir1; else MoveY = -Dir1; } } else { float dx1 = lcDot(ScreenX, Axis1); float dy1 = lcDot(ScreenY, Axis1); float dx2 = lcDot(ScreenX, Axis2); float dy2 = lcDot(ScreenY, Axis2); if (fabsf(dx1) > fabsf(dx2)) { if (dx1 >= 0.0f) MoveX = Dir1; else MoveX = -Dir1; if (dy2 >= 0.0f) MoveY = Dir2; else MoveY = -Dir2; } else { if (dx2 >= 0.0f) MoveX = Dir2; else MoveX = -Dir2; if (dy1 > 0.0f) MoveY = Dir1; else MoveY = -Dir1; } } MoveX *= (float)(x - m_nDownX) * 0.25f / (21 - m_nMouse); MoveY *= (float)(y - m_nDownY) * 0.25f / (21 - m_nMouse); m_nDownX = x; m_nDownY = y; lcVector3 Delta = MoveX + MoveY + m_MouseSnapLeftover; Redraw = MoveSelectedObjects(Delta, m_MouseSnapLeftover, true, true); m_MouseTotalDelta += Delta; } else { // 3D movement. lcVector3 ScreenZ = lcNormalize(Camera->mTargetPosition - Camera->mPosition); lcVector3 ScreenX = lcCross(ScreenZ, Camera->mUpVector); lcVector3 ScreenY = Camera->mUpVector; lcVector3 TotalMove; if (m_nTracking == LC_TRACK_LEFT) { lcVector3 MoveX, MoveY; MoveX = ScreenX * (float)(x - m_nDownX) * 0.25f / (float)(21 - m_nMouse); MoveY = ScreenY * (float)(y - m_nDownY) * 0.25f / (float)(21 - m_nMouse); TotalMove = MoveX + MoveY + m_MouseSnapLeftover; } else { lcVector3 MoveZ; MoveZ = ScreenZ * (float)(y - m_nDownY) * 0.25f / (float)(21 - m_nMouse); TotalMove = MoveZ + m_MouseSnapLeftover; } m_nDownX = x; m_nDownY = y; Redraw = MoveSelectedObjects(TotalMove, m_MouseSnapLeftover, true, true); } SystemUpdateFocus(NULL); if (m_nTracking != LC_TRACK_NONE) UpdateOverlayScale(); if (Redraw) UpdateAllViews(); } break; case LC_ACTION_ROTATE: { Camera* Camera = m_ActiveView->mCamera; bool Redraw; if ((m_OverlayActive && (m_OverlayMode != LC_OVERLAY_ROTATE_XYZ)) || (!Camera->IsSide())) { lcVector3 ScreenX = lcNormalize(lcCross(Camera->mTargetPosition - Camera->mPosition, Camera->mUpVector)); lcVector3 ScreenY = Camera->mUpVector; lcVector3 Dir1, Dir2; bool SingleDir = true; int OverlayMode; if (m_OverlayActive && (m_OverlayMode != LC_OVERLAY_ROTATE_XYZ)) OverlayMode = m_OverlayMode; else if (m_nTracking == LC_TRACK_LEFT) OverlayMode = LC_OVERLAY_ROTATE_XY; else OverlayMode = LC_OVERLAY_ROTATE_Z; switch (OverlayMode) { case LC_OVERLAY_ROTATE_X: Dir1 = lcVector3(1, 0, 0); break; case LC_OVERLAY_ROTATE_Y: Dir1 = lcVector3(0, 1, 0); break; case LC_OVERLAY_ROTATE_Z: Dir1 = lcVector3(0, 0, 1); break; case LC_OVERLAY_ROTATE_XY: Dir1 = lcVector3(1, 0, 0); Dir2 = lcVector3(0, 1, 0); SingleDir = false; break; case LC_OVERLAY_ROTATE_XZ: Dir1 = lcVector3(1, 0, 0); Dir2 = lcVector3(0, 0, 1); SingleDir = false; break; case LC_OVERLAY_ROTATE_YZ: Dir1 = lcVector3(0, 1, 0); Dir2 = lcVector3(0, 0, 1); SingleDir = false; break; default: Dir1 = lcVector3(1, 0, 0); break; } // Find out what direction the mouse is going to move stuff. lcVector3 MoveX, MoveY; if (SingleDir) { float dx1 = lcDot(ScreenX, Dir1); float dy1 = lcDot(ScreenY, Dir1); if (fabsf(dx1) > fabsf(dy1)) { if (dx1 >= 0.0f) MoveX = Dir1; else MoveX = -Dir1; MoveY = lcVector3(0, 0, 0); } else { MoveX = lcVector3(0, 0, 0); if (dy1 > 0.0f) MoveY = Dir1; else MoveY = -Dir1; } } else { float dx1 = lcDot(ScreenX, Dir1); float dy1 = lcDot(ScreenY, Dir1); float dx2 = lcDot(ScreenX, Dir2); float dy2 = lcDot(ScreenY, Dir2); if (fabsf(dx1) > fabsf(dx2)) { if (dx1 >= 0.0f) MoveX = Dir1; else MoveX = -Dir1; if (dy2 >= 0.0f) MoveY = Dir2; else MoveY = -Dir2; } else { if (dx2 >= 0.0f) MoveX = Dir2; else MoveX = -Dir2; if (dy1 > 0.0f) MoveY = Dir1; else MoveY = -Dir1; } } MoveX *= (float)(x - m_nDownX) * 36.0f / (21 - m_nMouse); MoveY *= (float)(y - m_nDownY) * 36.0f / (21 - m_nMouse); m_nDownX = x; m_nDownY = y; lcVector3 Delta = MoveX + MoveY + m_MouseSnapLeftover; Redraw = RotateSelectedObjects(Delta, m_MouseSnapLeftover, true, true); m_MouseTotalDelta += Delta; } else { // 3D movement. lcVector3 ScreenZ = lcNormalize(Camera->mTargetPosition - Camera->mPosition); lcVector3 ScreenX = lcCross(ScreenZ, Camera->mUpVector); lcVector3 ScreenY = Camera->mUpVector; lcVector3 Delta; if (m_nTracking == LC_TRACK_LEFT) { lcVector3 MoveX, MoveY; MoveX = ScreenX * (float)(x - m_nDownX) * 36.0f / (float)(21 - m_nMouse); MoveY = ScreenY * (float)(y - m_nDownY) * 36.0f / (float)(21 - m_nMouse); Delta = MoveX + MoveY + m_MouseSnapLeftover; } else { lcVector3 MoveZ; MoveZ = ScreenZ * (float)(y - m_nDownY) * 36.0f / (float)(21 - m_nMouse); Delta = MoveZ + m_MouseSnapLeftover; } m_nDownX = x; m_nDownY = y; Redraw = RotateSelectedObjects(Delta, m_MouseSnapLeftover, true, true); m_MouseTotalDelta += Delta; } SystemUpdateFocus(NULL); if (Redraw) UpdateAllViews(); } break; case LC_ACTION_ZOOM: { if (m_nDownY == y) break; m_ActiveView->mCamera->DoZoom(y - m_nDownY, m_nMouse, m_bAnimation ? m_nCurFrame : m_nCurStep, m_bAnimation, m_bAddKeys); m_nDownY = y; SystemUpdateFocus(NULL); UpdateAllViews(); } break; case LC_ACTION_ZOOM_REGION: { if ((m_nDownY == y) && (m_nDownX == x)) break; m_nDownX = x; m_nDownY = y; UpdateAllViews(); } break; case LC_ACTION_PAN: { if ((m_nDownY == y) && (m_nDownX == x)) break; m_ActiveView->mCamera->DoPan(x - m_nDownX, y - m_nDownY, m_nMouse, m_bAnimation ? m_nCurFrame : m_nCurStep, m_bAnimation, m_bAddKeys); m_nDownX = x; m_nDownY = y; SystemUpdateFocus(NULL); UpdateAllViews(); } break; case LC_ACTION_ROTATE_VIEW: { if ((m_nDownY == y) && (m_nDownX == x)) break; float bs[6] = { 10000, 10000, 10000, -10000, -10000, -10000 }; for (Piece* pPiece = m_pPieces; pPiece; pPiece = pPiece->m_pNext) if (pPiece->IsSelected()) pPiece->CompareBoundingBox(bs); bs[0] = (bs[0]+bs[3])/2; bs[1] = (bs[1]+bs[4])/2; bs[2] = (bs[2]+bs[5])/2; switch (m_OverlayMode) { case LC_OVERLAY_ROTATE_VIEW_XYZ: m_ActiveView->mCamera->DoRotate(x - m_nDownX, y - m_nDownY, m_nMouse, m_bAnimation ? m_nCurFrame : m_nCurStep, m_bAnimation, m_bAddKeys, bs); break; case LC_OVERLAY_ROTATE_VIEW_X: m_ActiveView->mCamera->DoRotate(x - m_nDownX, 0, m_nMouse, m_bAnimation ? m_nCurFrame : m_nCurStep, m_bAnimation, m_bAddKeys, bs); break; case LC_OVERLAY_ROTATE_VIEW_Y: m_ActiveView->mCamera->DoRotate(0, y - m_nDownY, m_nMouse, m_bAnimation ? m_nCurFrame : m_nCurStep, m_bAnimation, m_bAddKeys, bs); break; case LC_OVERLAY_ROTATE_VIEW_Z: m_ActiveView->mCamera->DoRoll(x - m_nDownX, m_nMouse, m_bAnimation ? m_nCurFrame : m_nCurStep, m_bAnimation, m_bAddKeys); break; } m_nDownX = x; m_nDownY = y; SystemUpdateFocus(NULL); UpdateAllViews(); } break; case LC_ACTION_ROLL: { if (m_nDownX == x) break; m_ActiveView->mCamera->DoRoll(x - m_nDownX, m_nMouse, m_bAnimation ? m_nCurFrame : m_nCurStep, m_bAnimation, m_bAddKeys); m_nDownX = x; SystemUpdateFocus(NULL); UpdateAllViews(); } break; /* case LC_ACTION_CURVE: { float mouse = 10.0f/(21 - m_nMouse); float dx = (ptx - m_fTrack[0])*mouse; float dy = (pty - m_fTrack[1])*mouse; float dz = (ptz - m_fTrack[2])*mouse; Object *pObj = NULL; Curve *pCurve; m_fTrack[0] = ptx; m_fTrack[1] = pty; m_fTrack[2] = ptz; for (pObj = m_pObjects; pObj != NULL; pObj = pObj->m_pNext) if (pObj->IsSelected ()) break; if (pObj == NULL) break; pCurve = (Curve*)pObj; pCurve->Move (1, m_bAnimation, false, dx, dy, dz); pCurve->UpdatePosition(1, m_bAnimation); SystemUpdateFocus(NULL); UpdateAllViews(); } break; */ } } // Check if the mouse is over a different area of the overlay and redraw it. void Project::MouseUpdateOverlays(View* view, int x, int y) { const float OverlayScale = view->m_OverlayScale; if (m_nCurAction == LC_ACTION_SELECT || m_nCurAction == LC_ACTION_MOVE) { const float OverlayMovePlaneSize = 0.5f * OverlayScale; const float OverlayMoveArrowSize = 1.5f * OverlayScale; const float OverlayMoveArrowCapSize = 0.9f * OverlayScale; const float OverlayMoveArrowCapRadius = 0.1f * OverlayScale; const float OverlayRotateArrowStart = 1.0f * OverlayScale; const float OverlayRotateArrowEnd = 1.5f * OverlayScale; int Viewport[4] = { 0, 0, view->GetWidth(), view->GetHeight() }; float Aspect = (float)Viewport[2]/(float)Viewport[3]; Camera* Cam = view->mCamera; const lcMatrix44& ModelView = Cam->mWorldView; lcMatrix44 Projection = lcMatrix44Perspective(Cam->m_fovy, Aspect, Cam->m_zNear, Cam->m_zFar); // Intersect the mouse with the 3 planes. lcVector3 PlaneNormals[3] = { lcVector3(1.0f, 0.0f, 0.0f), lcVector3(0.0f, 1.0f, 0.0f), lcVector3(0.0f, 0.0f, 1.0f), }; // Find the rotation from the focused piece if relative snap is enabled. if ((m_nSnap & LC_DRAW_GLOBAL_SNAP) == 0) { Object* Focus = GetFocusObject(); if ((Focus != NULL) && Focus->IsPiece()) { const lcMatrix44& RotMat = ((Piece*)Focus)->mModelWorld; for (int i = 0; i < 3; i++) PlaneNormals[i] = lcMul30(PlaneNormals[i], RotMat); } } int Mode = (m_nCurAction == LC_ACTION_MOVE) ? LC_OVERLAY_MOVE_XYZ : LC_OVERLAY_NONE; lcVector3 Start = lcUnprojectPoint(lcVector3((float)x, (float)y, 0.0f), ModelView, Projection, Viewport); lcVector3 End = lcUnprojectPoint(lcVector3((float)x, (float)y, 1.0f), ModelView, Projection, Viewport); float ClosestIntersectionDistance = FLT_MAX; for (int AxisIndex = 0; AxisIndex < 3; AxisIndex++) { lcVector4 Plane(PlaneNormals[AxisIndex], -lcDot(PlaneNormals[AxisIndex], m_OverlayCenter)); lcVector3 Intersection; if (!lcLinePlaneIntersection(&Intersection, Start, End, Plane)) continue; float IntersectionDistance = lcLengthSquared(Intersection - Start); if (IntersectionDistance > ClosestIntersectionDistance) continue; lcVector3 Dir(Intersection - m_OverlayCenter); float Proj1 = lcDot(Dir, PlaneNormals[(AxisIndex + 1) % 3]); float Proj2 = lcDot(Dir, PlaneNormals[(AxisIndex + 2) % 3]); if (Proj1 > 0.0f && Proj1 < OverlayMovePlaneSize && Proj2 > 0.0f && Proj2 < OverlayMovePlaneSize) { LC_OVERLAY_MODES PlaneModes[] = { LC_OVERLAY_MOVE_YZ, LC_OVERLAY_MOVE_XZ, LC_OVERLAY_MOVE_XY }; Mode = PlaneModes[AxisIndex]; ClosestIntersectionDistance = IntersectionDistance; } if (Proj1 > OverlayRotateArrowStart && Proj1 < OverlayRotateArrowEnd && Proj2 > OverlayRotateArrowStart && Proj2 < OverlayRotateArrowEnd) { LC_OVERLAY_MODES PlaneModes[] = { LC_OVERLAY_ROTATE_X, LC_OVERLAY_ROTATE_Y, LC_OVERLAY_ROTATE_Z }; Mode = PlaneModes[AxisIndex]; ClosestIntersectionDistance = IntersectionDistance; } if (fabs(Proj1) < OverlayMoveArrowCapRadius && Proj2 > 0.0f && Proj2 < OverlayMoveArrowSize) { LC_OVERLAY_MODES DirModes[] = { LC_OVERLAY_MOVE_Z, LC_OVERLAY_MOVE_X, LC_OVERLAY_MOVE_Y }; Mode = DirModes[AxisIndex]; ClosestIntersectionDistance = IntersectionDistance; } if (fabs(Proj2) < OverlayMoveArrowCapRadius && Proj1 > 0.0f && Proj1 < OverlayMoveArrowSize) { LC_OVERLAY_MODES DirModes[] = { LC_OVERLAY_MOVE_Y, LC_OVERLAY_MOVE_Z, LC_OVERLAY_MOVE_X }; Mode = DirModes[AxisIndex]; ClosestIntersectionDistance = IntersectionDistance; } } if (Mode != m_OverlayMode) { m_OverlayMode = Mode; UpdateAllViews(); } } else if (m_nCurAction == LC_ACTION_ROTATE) { const float OverlayRotateRadius = 2.0f; // Calculate the distance from the mouse pointer to the center of the sphere. int Viewport[4] = { 0, 0, view->GetWidth(), view->GetHeight() }; float Aspect = (float)Viewport[2]/(float)Viewport[3]; Camera* Cam = view->mCamera; const lcMatrix44& ModelView = Cam->mWorldView; lcMatrix44 Projection = lcMatrix44Perspective(Cam->m_fovy, Aspect, Cam->m_zNear, Cam->m_zFar); // Unproject the mouse point against both the front and the back clipping planes. lcVector3 SegStart = lcUnprojectPoint(lcVector3((float)x, (float)y, 0.0f), ModelView, Projection, Viewport); lcVector3 SegEnd = lcUnprojectPoint(lcVector3((float)x, (float)y, 1.0f), ModelView, Projection, Viewport); lcVector3 Center(m_OverlayCenter); lcVector3 Line = SegEnd - SegStart; lcVector3 Vec = Center - SegStart; float u = lcDot(Vec, Line) / Line.LengthSquared(); // Closest point in the line to the mouse. lcVector3 Closest = SegStart + Line * u; int Mode = -1; float Distance = (Closest - Center).Length(); const float Epsilon = 0.25f * OverlayScale; if (Distance > (OverlayRotateRadius * OverlayScale + Epsilon)) { Mode = LC_OVERLAY_ROTATE_XYZ; } else if (Distance < (OverlayRotateRadius * OverlayScale + Epsilon)) { // 3D rotation unless we're over one of the axis circles. Mode = LC_OVERLAY_ROTATE_XYZ; // Point P on a line defined by two points P1 and P2 is described by P = P1 + u (P2 - P1) // A sphere centered at P3 with radius r is described by (x - x3)^2 + (y - y3)^2 + (z - z3)^2 = r^2 // Substituting the equation of the line into the sphere gives a quadratic equation where: // a = (x2 - x1)^2 + (y2 - y1)^2 + (z2 - z1)^2 // b = 2[ (x2 - x1) (x1 - x3) + (y2 - y1) (y1 - y3) + (z2 - z1) (z1 - z3) ] // c = x32 + y32 + z32 + x12 + y12 + z12 - 2[x3 x1 + y3 y1 + z3 z1] - r2 // The solutions to this quadratic are described by: (-b +- sqrt(b^2 - 4 a c) / 2 a // The exact behavior is determined by b^2 - 4 a c: // If this is less than 0 then the line does not intersect the sphere. // If it equals 0 then the line is a tangent to the sphere intersecting it at one point // If it is greater then 0 the line intersects the sphere at two points. float x1 = SegStart[0], y1 = SegStart[1], z1 = SegStart[2]; float x2 = SegEnd[0], y2 = SegEnd[1], z2 = SegEnd[2]; float x3 = m_OverlayCenter[0], y3 = m_OverlayCenter[1], z3 = m_OverlayCenter[2]; float r = OverlayRotateRadius * OverlayScale; // TODO: rewrite using vectors. float a = (x2 - x1)*(x2 - x1) + (y2 - y1)*(y2 - y1) + (z2 - z1)*(z2 - z1); float b = 2 * ((x2 - x1)*(x1 - x3) + (y2 - y1)*(y1 - y3) + (z2 - z1)*(z1 - z3)); float c = x3*x3 + y3*y3 + z3*z3 + x1*x1 + y1*y1 + z1*z1 - 2*(x3*x1 + y3*y1 + z3*z1) - r*r; float f = b * b - 4 * a * c; if (f >= 0.0f) { Camera* Cam = view->mCamera; lcVector3 ViewDir(Cam->mTargetPosition - Cam->mPosition); float u1 = (-b + sqrtf(f)) / (2*a); float u2 = (-b - sqrtf(f)) / (2*a); lcVector3 Intersections[2] = { lcVector3(x1 + u1*(x2-x1), y1 + u1*(y2-y1), z1 + u1*(z2-z1)), lcVector3(x1 + u2*(x2-x1), y1 + u2*(y2-y1), z1 + u2*(z2-z1)) }; for (int i = 0; i < 2; i++) { lcVector3 Dist = Intersections[i] - Center; if (lcDot(ViewDir, Dist) > 0.0f) continue; // Find the rotation from the focused piece if relative snap is enabled. if ((m_nSnap & LC_DRAW_GLOBAL_SNAP) == 0) { Object* Focus = GetFocusObject(); if ((Focus != NULL) && Focus->IsPiece()) { const lcVector4& Rot = ((Piece*)Focus)->mRotation; lcMatrix44 RotMat = lcMatrix44FromAxisAngle(lcVector3(Rot[0], Rot[1], Rot[2]), -Rot[3] * LC_DTOR); Dist = lcMul30(Dist, RotMat); } } // Check if we're close enough to one of the axis. Dist.Normalize(); float dx = fabsf(Dist[0]); float dy = fabsf(Dist[1]); float dz = fabsf(Dist[2]); if (dx < dy) { if (dx < dz) { if (dx < Epsilon) Mode = LC_OVERLAY_ROTATE_X; } else { if (dz < Epsilon) Mode = LC_OVERLAY_ROTATE_Z; } } else { if (dy < dz) { if (dy < Epsilon) Mode = LC_OVERLAY_ROTATE_Y; } else { if (dz < Epsilon) Mode = LC_OVERLAY_ROTATE_Z; } } if (Mode != LC_OVERLAY_ROTATE_XYZ) { switch (Mode) { case LC_OVERLAY_ROTATE_X: Dist[0] = 0.0f; break; case LC_OVERLAY_ROTATE_Y: Dist[1] = 0.0f; break; case LC_OVERLAY_ROTATE_Z: Dist[2] = 0.0f; break; } Dist *= r; m_OverlayTrackStart = Center + Dist; break; } } } } if (Mode != m_OverlayMode) { m_OverlayMode = Mode; UpdateAllViews(); } } else if (m_nCurAction == LC_ACTION_ROTATE_VIEW) { int vx, vy, vw, vh; vx = 0; vy = 0; vw = view->GetWidth(); vh = view->GetHeight(); int cx = vx + vw / 2; int cy = vy + vh / 2; float d = sqrtf((float)((cx - x) * (cx - x) + (cy - y) * (cy - y))); float r = lcMin(vw, vh) * 0.35f; const float SquareSize = lcMax(8.0f, (vw+vh)/200); if ((d < r + SquareSize) && (d > r - SquareSize)) { if ((cx - x < SquareSize) && (cx - x > -SquareSize)) m_OverlayMode = LC_OVERLAY_ROTATE_VIEW_Y; if ((cy - y < SquareSize) && (cy - y > -SquareSize)) m_OverlayMode = LC_OVERLAY_ROTATE_VIEW_X; } else { if (d < r) m_OverlayMode = LC_OVERLAY_ROTATE_VIEW_XYZ; else m_OverlayMode = LC_OVERLAY_ROTATE_VIEW_Z; } } view->SetCursor(view->GetCursor()); } void Project::ActivateOverlay(View* view, int Action, int OverlayMode) { if ((Action == LC_ACTION_SELECT) || (Action == LC_ACTION_MOVE) || (Action == LC_ACTION_ROTATE)) { if (GetFocusPosition(m_OverlayCenter)) m_OverlayActive = true; else if (GetSelectionCenter(m_OverlayCenter)) m_OverlayActive = true; else m_OverlayActive = false; } else if ((Action == LC_ACTION_ZOOM_REGION) && (m_nTracking == LC_TRACK_START_LEFT)) m_OverlayActive = true; else if (Action == LC_ACTION_ZOOM || Action == LC_ACTION_PAN || Action == LC_ACTION_ROTATE_VIEW) m_OverlayActive = true; else m_OverlayActive = false; if (m_OverlayActive) { m_OverlayMode = OverlayMode; UpdateOverlayScale(); } if (view) view->SetCursor(view->GetCursor()); } void Project::UpdateOverlayScale() { // TODO: This is not needed, draw the overlays using an ortho matrix. if (m_OverlayActive) { // Calculate the scaling factor by projecting the center to the front plane then // projecting a point close to it back. int Viewport[4] = { 0, 0, m_ActiveView->GetWidth(), m_ActiveView->GetHeight() }; float Aspect = (float)Viewport[2]/(float)Viewport[3]; Camera* Cam = m_ActiveView->mCamera; const lcMatrix44& ModelView = Cam->mWorldView; lcMatrix44 Projection = lcMatrix44Perspective(Cam->m_fovy, Aspect, Cam->m_zNear, Cam->m_zFar); lcVector3 Screen = lcProjectPoint(m_OverlayCenter, ModelView, Projection, Viewport); Screen[0] += 10.0f; lcVector3 Point = lcUnprojectPoint(Screen, ModelView, Projection, Viewport); lcVector3 Dist(Point - m_OverlayCenter); m_ActiveView->m_OverlayScale = Dist.Length() * 5.0f; } }