#include "lc_global.h" #include "lc_view.h" #include "lc_viewwidget.h" #include #include "lc_mainwindow.h" #include "camera.h" #include "texfont.h" #include "lc_texture.h" #include "piece.h" #include "pieceinf.h" #include "lc_synth.h" #include "lc_scene.h" #include "lc_context.h" #include "lc_viewsphere.h" lcView* lcView::mLastFocusedView; std::vector lcView::mViews; lcVertexBuffer lcView::mRotateMoveVertexBuffer; lcIndexBuffer lcView::mRotateMoveIndexBuffer; lcView::lcView(lcViewType ViewType, lcModel* Model) : mViewType(ViewType), mScene(new lcScene()), mModel(Model) { mContext = new lcContext(); mViews.push_back(this); mViewSphere = std::unique_ptr(new lcViewSphere(this)); memset(mGridSettings, 0, sizeof(mGridSettings)); mDragState = lcDragState::None; mTrackToolFromOverlay = false; lcView* ActiveView = gMainWindow ? gMainWindow->GetActiveView() : nullptr; if (ActiveView) SetCamera(ActiveView->mCamera, false); else SetDefaultCamera(); } lcView::~lcView() { mContext->DestroyVertexBuffer(mGridBuffer); if (gMainWindow && mViewType == lcViewType::View) gMainWindow->RemoveView(this); if (mCamera && mCamera->IsSimple()) delete mCamera; mViews.erase(std::find(mViews.begin(), mViews.end(), this)); if (mLastFocusedView == this) mLastFocusedView = nullptr; if (mDeleteContext) delete mContext; } void lcView::UpdateProjectViews(const Project* Project) { for (lcView* View : mViews) { const lcModel* ViewModel = View->GetActiveModel(); if (ViewModel && ViewModel->GetProject() == Project) View->Redraw(); } } void lcView::UpdateAllViews() { for (lcView* View : mViews) View->Redraw(); } void lcView::MakeCurrent() { mContext->MakeCurrent(); } void lcView::Redraw() { if (mWidget) mWidget->update(); } #ifdef LC_USE_QOPENGLWIDGET void lcView::SetOffscreenContext() { mContext->SetOffscreenContext(); } #else void lcView::SetContext(lcContext* Context) { if (mDeleteContext) delete mContext; mContext = Context; mDeleteContext = false; } #endif void lcView::SetFocus(bool Focus) { if (Focus) { mLastFocusedView = this; emit FocusReceived(); } } void lcView::SetMousePosition(int MouseX, int MouseY) { mMouseX = MouseX; mMouseY = MouseY; } void lcView::SetMouseModifiers(Qt::KeyboardModifiers MouseModifiers) { mMouseModifiers = MouseModifiers; } lcModel* lcView::GetActiveModel() const { return !mActiveSubmodelInstance ? mModel : mActiveSubmodelInstance->mPieceInfo->GetModel(); } void lcView::SetTopSubmodelActive() { lcModel* ActiveModel = GetActiveModel(); if (mActiveSubmodelInstance) { ActiveModel->SetActive(false); mActiveSubmodelInstance = nullptr; } GetActiveModel()->UpdateInterface(); } void lcView::SetSelectedSubmodelActive() { lcModel* ActiveModel = GetActiveModel(); lcObject* Object = ActiveModel->GetFocusObject(); if (mActiveSubmodelInstance) { ActiveModel->SetActive(false); mActiveSubmodelInstance = nullptr; } if (Object && Object->IsPiece()) { lcPiece* Piece = (lcPiece*)Object; if (Piece->mPieceInfo->IsModel()) { mActiveSubmodelTransform = lcMatrix44Identity(); mModel->GetPieceWorldMatrix(Piece, mActiveSubmodelTransform); mActiveSubmodelInstance = Piece; ActiveModel = mActiveSubmodelInstance->mPieceInfo->GetModel(); ActiveModel->SetActive(true); RemoveCamera(); } } GetActiveModel()->UpdateInterface(); } void lcView::CreateResources(lcContext* Context) { gGridTexture = new lcTexture; gGridTexture->CreateGridTexture(); CreateSelectMoveOverlayMesh(Context); } void lcView::CreateSelectMoveOverlayMesh(lcContext* Context) { float Verts[(51 + 138 + 10) * 3]; float* CurVert = Verts; const float OverlayMovePlaneSize = 0.5f; const float OverlayMoveArrowSize = 1.5f; const float OverlayMoveArrowCapSize = 0.9f; const float OverlayMoveArrowCapRadius = 0.1f; const float OverlayMoveArrowBodySize = 1.2f; const float OverlayMoveArrowBodyRadius = 0.05f; const float OverlayRotateArrowStart = 1.0f; const float OverlayRotateArrowEnd = 1.5f; const float OverlayRotateArrowCenter = 1.2f; *CurVert++ = OverlayMoveArrowSize; *CurVert++ = 0.0f; *CurVert++ = 0.0f; for (int EdgeIdx = 0; EdgeIdx < 8; EdgeIdx++) { *CurVert++ = OverlayMoveArrowCapSize; *CurVert++ = cosf(LC_2PI * EdgeIdx / 8) * OverlayMoveArrowCapRadius; *CurVert++ = sinf(LC_2PI * EdgeIdx / 8) * OverlayMoveArrowCapRadius; } *CurVert++ = 0.0f; *CurVert++ = -OverlayMoveArrowBodyRadius; *CurVert++ = 0.0f; *CurVert++ = 0.0f; *CurVert++ = OverlayMoveArrowBodyRadius; *CurVert++ = 0.0f; *CurVert++ = 0.0f; *CurVert++ = 0.0f; *CurVert++ = -OverlayMoveArrowBodyRadius; *CurVert++ = 0.0f; *CurVert++ = 0.0f; *CurVert++ = OverlayMoveArrowBodyRadius; *CurVert++ = OverlayMoveArrowBodySize; *CurVert++ = -OverlayMoveArrowBodyRadius; *CurVert++ = 0.0f; *CurVert++ = OverlayMoveArrowBodySize; *CurVert++ = OverlayMoveArrowBodyRadius; *CurVert++ = 0.0f; *CurVert++ = OverlayMoveArrowBodySize; *CurVert++ = 0.0f; *CurVert++ = -OverlayMoveArrowBodyRadius; *CurVert++ = OverlayMoveArrowBodySize; *CurVert++ = 0.0f; *CurVert++ = OverlayMoveArrowBodyRadius; for (int VertIdx = 0; VertIdx < 17; VertIdx++) { *CurVert = *(CurVert - 50); CurVert++; *CurVert = *(CurVert - 52); CurVert++; *CurVert = *(CurVert - 51); CurVert++; } for (int VertIdx = 0; VertIdx < 17; VertIdx++) { *CurVert = *(CurVert - 100); CurVert++; *CurVert = *(CurVert - 102); CurVert++; *CurVert = *(CurVert - 104); CurVert++; } *CurVert++ = 0.0f; *CurVert++ = OverlayRotateArrowEnd - OverlayMoveArrowCapRadius; *CurVert++ = OverlayRotateArrowStart; for (int EdgeIdx = 0; EdgeIdx < 8; EdgeIdx++) { *CurVert++ = cosf(LC_2PI * EdgeIdx / 8) * OverlayMoveArrowCapRadius; *CurVert++ = sinf(LC_2PI * EdgeIdx / 8) * OverlayMoveArrowCapRadius + OverlayRotateArrowEnd - OverlayMoveArrowCapRadius; *CurVert++ = OverlayRotateArrowCenter; } *CurVert++ = 0.0f; *CurVert++ = OverlayRotateArrowStart; *CurVert++ = OverlayRotateArrowEnd - OverlayMoveArrowCapRadius; for (int EdgeIdx = 0; EdgeIdx < 8; EdgeIdx++) { *CurVert++ = cosf(LC_2PI * EdgeIdx / 8) * OverlayMoveArrowCapRadius; *CurVert++ = OverlayRotateArrowCenter; *CurVert++ = sinf(LC_2PI * EdgeIdx / 8) * OverlayMoveArrowCapRadius + OverlayRotateArrowEnd - OverlayMoveArrowCapRadius; } for (int EdgeIdx = 0; EdgeIdx < 7; EdgeIdx++) { const float Radius1 = OverlayRotateArrowEnd - OverlayMoveArrowCapRadius - OverlayRotateArrowCenter - OverlayMoveArrowBodyRadius; const float Radius2 = OverlayRotateArrowEnd - OverlayMoveArrowCapRadius - OverlayRotateArrowCenter + OverlayMoveArrowBodyRadius; float x = cosf(LC_2PI / 4 * EdgeIdx / 6); float y = sinf(LC_2PI / 4 * EdgeIdx / 6); *CurVert++ = 0.0f; *CurVert++ = OverlayRotateArrowCenter + x * Radius1; *CurVert++ = OverlayRotateArrowCenter + y * Radius1; *CurVert++ = 0.0f; *CurVert++ = OverlayRotateArrowCenter + x * Radius2; *CurVert++ = OverlayRotateArrowCenter + y * Radius2; } for (int EdgeIdx = 0; EdgeIdx < 7; EdgeIdx++) { const float Radius = OverlayRotateArrowEnd - OverlayMoveArrowCapRadius - OverlayRotateArrowCenter; float x = cosf(LC_2PI / 4 * EdgeIdx / 6); float y = sinf(LC_2PI / 4 * EdgeIdx / 6); *CurVert++ = -OverlayMoveArrowBodyRadius; *CurVert++ = OverlayRotateArrowCenter + x * Radius; *CurVert++ = OverlayRotateArrowCenter + y * Radius; *CurVert++ = OverlayMoveArrowBodyRadius; *CurVert++ = OverlayRotateArrowCenter + x * Radius; *CurVert++ = OverlayRotateArrowCenter + y * Radius; } for (int VertIdx = 0; VertIdx < 46; VertIdx++) { *CurVert = *(CurVert - 137); CurVert++; *CurVert = *(CurVert - 139); CurVert++; *CurVert = *(CurVert - 138); CurVert++; } for (int VertIdx = 0; VertIdx < 46; VertIdx++) { *CurVert = *(CurVert - 274); CurVert++; *CurVert = *(CurVert - 276); CurVert++; *CurVert = *(CurVert - 278); CurVert++; } *CurVert++ = 0.0f; *CurVert++ = 0.0f; *CurVert++ = 0.0f; *CurVert++ = 0.0f; *CurVert++ = OverlayMovePlaneSize; *CurVert++ = 0.0f; *CurVert++ = 0.0f; *CurVert++ = OverlayMovePlaneSize; *CurVert++ = OverlayMovePlaneSize; *CurVert++ = 0.0f; *CurVert++ = 0.0f; *CurVert++ = OverlayMovePlaneSize; *CurVert++ = OverlayMovePlaneSize; *CurVert++ = 0.0f; *CurVert++ = 0.0f; *CurVert++ = OverlayMovePlaneSize; *CurVert++ = 0.0f; *CurVert++ = OverlayMovePlaneSize; *CurVert++ = 0.0f; *CurVert++ = 0.0f; *CurVert++ = OverlayMovePlaneSize; *CurVert++ = 0.0f; *CurVert++ = OverlayMovePlaneSize; *CurVert++ = 0.0f; *CurVert++ = OverlayMovePlaneSize; *CurVert++ = OverlayMovePlaneSize; *CurVert++ = 0.0f; *CurVert++ = OverlayMovePlaneSize; *CurVert++ = 0.0f; *CurVert++ = 0.0f; const GLushort Indices[108 + 360 + 12] = { 0, 1, 2, 0, 2, 3, 0, 3, 4, 0, 4, 5, 0, 5, 6, 0, 6, 7, 0, 7, 8, 0, 8, 1, 9, 10, 14, 14, 13, 9, 11, 12, 15, 15, 16, 12, 17, 18, 19, 17, 19, 20, 17, 20, 21, 17, 21, 22, 17, 22, 23, 17, 23, 24, 17, 24, 25, 17, 25, 18, 26, 27, 31, 31, 30, 26, 28, 29, 32, 32, 33, 29, 34, 35, 36, 34, 36, 37, 34, 37, 38, 34, 38, 39, 34, 39, 40, 34, 40, 41, 34, 41, 42, 34, 42, 35, 43, 44, 48, 48, 47, 43, 45, 46, 49, 49, 50, 46, 51, 52, 53, 51, 53, 54, 51, 54, 55, 51, 55, 56, 51, 56, 57, 51, 57, 58, 51, 58, 59, 51, 59, 52, 60, 61, 62, 60, 62, 63, 60, 63, 64, 60, 64, 65, 60, 65, 66, 60, 66, 67, 60, 67, 68, 60, 68, 61, 69, 70, 71, 71, 72, 70, 71, 72, 73, 73, 74, 72, 73, 74, 75, 75, 76, 74, 75, 76, 77, 77, 78, 76, 77, 78, 79, 79, 80, 78, 79, 80, 81, 81, 82, 80, 83, 84, 85, 85, 86, 84, 85, 86, 87, 87, 88, 86, 87, 88, 89, 89, 90, 88, 89, 90, 91, 91, 92, 90, 91, 92, 93, 93, 94, 92, 93, 94, 95, 95, 96, 94, 97, 98, 99, 97, 99, 100, 97, 100, 101, 97, 101, 102, 97, 102, 103, 97, 103, 104, 97, 104, 105, 97, 105, 98, 106, 107, 108, 106, 108, 109, 106, 109, 110, 106, 110, 111, 106, 111, 112, 106, 112, 113, 106, 113, 114, 106, 114, 107, 115, 116, 117, 117, 118, 116, 117, 118, 119, 119, 120, 118, 119, 120, 121, 121, 122, 120, 121, 122, 123, 123, 124, 122, 123, 124, 125, 125, 126, 124, 125, 126, 127, 127, 128, 126, 129, 130, 131, 131, 132, 130, 131, 132, 133, 133, 134, 132, 133, 134, 135, 135, 136, 134, 135, 136, 137, 137, 138, 136, 137, 138, 139, 139, 140, 138, 139, 140, 141, 141, 142, 140, 143, 144, 145, 143, 145, 146, 143, 146, 147, 143, 147, 148, 143, 148, 149, 143, 149, 150, 143, 150, 151, 143, 151, 144, 152, 153, 154, 152, 154, 155, 152, 155, 156, 152, 156, 157, 152, 157, 158, 152, 158, 159, 152, 159, 160, 152, 160, 153, 161, 162, 163, 163, 164, 162, 163, 164, 165, 165, 166, 164, 165, 166, 167, 167, 168, 166, 167, 168, 169, 169, 170, 168, 169, 170, 171, 171, 172, 170, 171, 172, 173, 173, 174, 172, 175, 176, 177, 177, 178, 176, 177, 178, 179, 179, 180, 178, 179, 180, 181, 181, 182, 180, 181, 182, 183, 183, 184, 182, 183, 184, 185, 185, 186, 184, 185, 186, 187, 187, 188, 186, 189, 190, 191, 192, 189, 193, 194, 195, 189, 196, 197, 198 }; mRotateMoveVertexBuffer = Context->CreateVertexBuffer(sizeof(Verts), Verts); mRotateMoveIndexBuffer = Context->CreateIndexBuffer(sizeof(Indices), Indices); } void lcView::DestroyResources(lcContext* Context) { delete gGridTexture; gGridTexture = nullptr; Context->DestroyVertexBuffer(mRotateMoveVertexBuffer); Context->DestroyIndexBuffer(mRotateMoveIndexBuffer); } void lcView::RemoveCamera() { if (mCamera && mCamera->IsSimple()) return; lcCamera* Camera = mCamera; mCamera = new lcCamera(true); if (Camera) mCamera->CopyPosition(Camera); else mCamera->SetViewpoint(lcViewpoint::Home); emit CameraChanged(); Redraw(); } lcVector3 lcView::ProjectPoint(const lcVector3& Point) const { int Viewport[4] = { 0, 0, mWidth, mHeight }; return lcProjectPoint(Point, mCamera->mWorldView, GetProjectionMatrix(), Viewport); } lcVector3 lcView::UnprojectPoint(const lcVector3& Point) const { int Viewport[4] = { 0, 0, mWidth, mHeight }; return lcUnprojectPoint(Point, mCamera->mWorldView, GetProjectionMatrix(), Viewport); } void lcView::UnprojectPoints(lcVector3* Points, int NumPoints) const { int Viewport[4] = { 0, 0, mWidth, mHeight }; lcUnprojectPoints(Points, NumPoints, mCamera->mWorldView, GetProjectionMatrix(), Viewport); } lcMatrix44 lcView::GetProjectionMatrix() const { float AspectRatio = (float)mWidth / (float)mHeight; if (mCamera->IsOrtho()) { float OrthoHeight = mCamera->GetOrthoHeight() / 2.0f; float OrthoWidth = OrthoHeight * AspectRatio; return lcMatrix44Ortho(-OrthoWidth, OrthoWidth, -OrthoHeight, OrthoHeight, mCamera->m_zNear, mCamera->m_zFar * 4); } else return lcMatrix44Perspective(mCamera->m_fovy, AspectRatio, mCamera->m_zNear, mCamera->m_zFar); } lcMatrix44 lcView::GetTileProjectionMatrix(int CurrentRow, int CurrentColumn, int CurrentTileWidth, int CurrentTileHeight) const { int ImageWidth = mRenderImage.width(); int ImageHeight = mRenderImage.height(); double ImageLeft, ImageRight, ImageBottom, ImageTop, Near, Far; double AspectRatio = (double)ImageWidth / (double)ImageHeight; if (mCamera->IsOrtho()) { float OrthoHeight = mCamera->GetOrthoHeight() / 2.0f; float OrthoWidth = OrthoHeight * AspectRatio; ImageLeft = -OrthoWidth; ImageRight = OrthoWidth; ImageBottom = -OrthoHeight; ImageTop = OrthoHeight; Near = mCamera->m_zNear; Far = mCamera->m_zFar * 4; } else { double xmin, xmax, ymin, ymax; ymax = mCamera->m_zNear * tan(mCamera->m_fovy * 3.14159265 / 360.0); ymin = -ymax; xmin = ymin * AspectRatio; xmax = ymax * AspectRatio; ImageLeft = xmin; ImageRight = xmax; ImageBottom = ymin; ImageTop = ymax; Near = mCamera->m_zNear; Far = mCamera->m_zFar; } double Left = ImageLeft + (ImageRight - ImageLeft) * (CurrentColumn * mWidth) / ImageWidth; double Right = Left + (ImageRight - ImageLeft) * CurrentTileWidth / ImageWidth; double Bottom = ImageBottom + (ImageTop - ImageBottom) * (CurrentRow * mHeight) / ImageHeight; double Top = Bottom + (ImageTop - ImageBottom) * CurrentTileHeight / ImageHeight; if (mCamera->IsOrtho()) return lcMatrix44Ortho(Left, Right, Bottom, Top, Near, Far); else return lcMatrix44Frustum(Left, Right, Bottom, Top, Near, Far); } void lcView::ShowContextMenu() const { if (mViewType != lcViewType::View) return; QAction** Actions = gMainWindow->mActions; QMenu* Popup = new QMenu(mWidget); Popup->addAction(Actions[LC_EDIT_CUT]); Popup->addAction(Actions[LC_EDIT_COPY]); Popup->addAction(Actions[LC_EDIT_PASTE]); Popup->addAction(Actions[LC_PIECE_DUPLICATE]); Popup->addSeparator(); Popup->addAction(Actions[LC_PIECE_CONTROL_POINT_INSERT]); Popup->addAction(Actions[LC_PIECE_CONTROL_POINT_REMOVE]); Popup->addSeparator(); Popup->addAction(Actions[LC_PIECE_EDIT_SELECTED_SUBMODEL]); Popup->addAction(Actions[LC_PIECE_EDIT_END_SUBMODEL]); Popup->addAction(Actions[LC_PIECE_VIEW_SELECTED_MODEL]); Popup->addAction(Actions[LC_PIECE_INLINE_SELECTED_MODELS]); Popup->addAction(Actions[LC_PIECE_MOVE_SELECTION_TO_MODEL]); Popup->addSeparator(); Popup->addMenu(gMainWindow->GetToolsMenu()); Popup->addMenu(gMainWindow->GetViewpointMenu()); Popup->addMenu(gMainWindow->GetCameraMenu()); Popup->addMenu(gMainWindow->GetProjectionMenu()); Popup->addMenu(gMainWindow->GetShadingMenu()); Popup->addSeparator(); Popup->addAction(Actions[LC_VIEW_SPLIT_HORIZONTAL]); Popup->addAction(Actions[LC_VIEW_SPLIT_VERTICAL]); Popup->addAction(Actions[LC_VIEW_REMOVE_VIEW]); Popup->addAction(Actions[LC_VIEW_RESET_VIEWS]); Popup->exec(QCursor::pos()); delete Popup; } lcVector3 lcView::GetMoveDirection(const lcVector3& Direction) const { if (lcGetPreferences().mFixedAxes) return Direction; // TODO: rewrite this lcVector3 axis = Direction; lcVector3 Pts[3] = { lcVector3(5.0f, 5.0f, 0.1f), lcVector3(10.0f, 5.0f, 0.1f), lcVector3(5.0f, 10.0f, 0.1f) }; UnprojectPoints(Pts, 3); 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; } } return axis; } lcMatrix44 lcView::GetPieceInsertPosition(bool IgnoreSelected, PieceInfo* Info) const { lcPiece* HitPiece = (lcPiece*)FindObjectUnderPointer(true, IgnoreSelected).Object; lcModel* ActiveModel = GetActiveModel(); if (HitPiece) { lcVector3 Position(0, 0, HitPiece->GetBoundingBox().Max.z - Info->GetBoundingBox().Min.z); if (gMainWindow->GetRelativeTransform()) Position = lcMul31(ActiveModel->SnapPosition(Position), HitPiece->mModelWorld); else Position = ActiveModel->SnapPosition(lcMul31(Position, HitPiece->mModelWorld)); lcMatrix44 WorldMatrix = HitPiece->mModelWorld; WorldMatrix.SetTranslation(Position); return WorldMatrix; } std::array ClickPoints = {{ lcVector3((float)mMouseX, (float)mMouseY, 0.0f), lcVector3((float)mMouseX, (float)mMouseY, 1.0f) }}; UnprojectPoints(ClickPoints.data(), 2); if (ActiveModel != mModel) { lcMatrix44 InverseMatrix = lcMatrix44AffineInverse(mActiveSubmodelTransform); for (lcVector3& Point : ClickPoints) Point = lcMul31(Point, InverseMatrix); } const lcBoundingBox& BoundingBox = Info->GetBoundingBox(); lcVector3 Intersection; if (lcLineSegmentPlaneIntersection(&Intersection, ClickPoints[0], ClickPoints[1], lcVector4(0, 0, 1, BoundingBox.Min.z))) { Intersection = ActiveModel->SnapPosition(Intersection); return lcMatrix44Translation(Intersection); } lcVector3 Position; if (!ActiveModel->GetFocusPosition(Position)) Position = ActiveModel->GetSelectionOrModelCenter(); lcVector3 FrontVector(mCamera->mTargetPosition - mCamera->mPosition); if (lcLineSegmentPlaneIntersection(&Intersection, ClickPoints[0], ClickPoints[1], lcVector4(FrontVector, -lcDot(FrontVector, Position)))) { Intersection = ActiveModel->SnapPosition(Intersection); return lcMatrix44Translation(Intersection); } return lcMatrix44Translation(UnprojectPoint(lcVector3((float)mMouseX, (float)mMouseY, 0.9f))); } lcVector3 lcView::GetCameraLightInsertPosition() const { lcModel* ActiveModel = GetActiveModel(); std::array ClickPoints = { { lcVector3((float)mMouseX, (float)mMouseY, 0.0f), lcVector3((float)mMouseX, (float)mMouseY, 1.0f) } }; UnprojectPoints(ClickPoints.data(), 2); if (ActiveModel != mModel) { lcMatrix44 InverseMatrix = lcMatrix44AffineInverse(mActiveSubmodelTransform); for (lcVector3& Point : ClickPoints) Point = lcMul31(Point, InverseMatrix); } lcVector3 Min, Max; lcVector3 Center; if (ActiveModel->GetPiecesBoundingBox(Min, Max)) Center = (Min + Max) / 2.0f; else Center = lcVector3(0.0f, 0.0f, 0.0f); return lcRayPointClosestPoint(Center, ClickPoints[0], ClickPoints[1]); } void lcView::GetRayUnderPointer(lcVector3& Start, lcVector3& End) const { lcVector3 StartEnd[2] = { lcVector3((float)mMouseX, (float)mMouseY, 0.0f), lcVector3((float)mMouseX, (float)mMouseY, 1.0f) }; UnprojectPoints(StartEnd, 2); Start = StartEnd[0]; End = StartEnd[1]; } lcObjectSection lcView::FindObjectUnderPointer(bool PiecesOnly, bool IgnoreSelected) const { lcVector3 StartEnd[2] = { lcVector3((float)mMouseX, (float)mMouseY, 0.0f), lcVector3((float)mMouseX, (float)mMouseY, 1.0f) }; UnprojectPoints(StartEnd, 2); lcObjectRayTest ObjectRayTest; ObjectRayTest.PiecesOnly = PiecesOnly; ObjectRayTest.IgnoreSelected = IgnoreSelected; ObjectRayTest.ViewCamera = mCamera; ObjectRayTest.Start = StartEnd[0]; ObjectRayTest.End = StartEnd[1]; ObjectRayTest.Distance = FLT_MAX; ObjectRayTest.ObjectSection.Object = nullptr; ObjectRayTest.ObjectSection.Section = 0;; lcModel* ActiveModel = GetActiveModel(); if (ActiveModel != mModel) { lcMatrix44 InverseMatrix = lcMatrix44AffineInverse(mActiveSubmodelTransform); ObjectRayTest.Start = lcMul31(ObjectRayTest.Start, InverseMatrix); ObjectRayTest.End = lcMul31(ObjectRayTest.End, InverseMatrix); } ActiveModel->RayTest(ObjectRayTest); return ObjectRayTest.ObjectSection; } lcArray lcView::FindObjectsInBox(float x1, float y1, float x2, float y2) const { 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; } std::array Corners = {{ lcVector3(Left, Top, 0), lcVector3(Left, Bottom, 0), lcVector3(Right, Bottom, 0), lcVector3(Right, Top, 0), lcVector3(Left, Top, 1), lcVector3(Right, Bottom, 1) }}; UnprojectPoints(Corners.data(), (int)Corners.size()); lcModel* ActiveModel = GetActiveModel(); if (ActiveModel != mModel) { lcMatrix44 InverseMatrix = lcMatrix44AffineInverse(mActiveSubmodelTransform); for (lcVector3& Point : Corners) Point = lcMul31(Point, InverseMatrix); } 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 lcObjectBoxTest ObjectBoxTest; ObjectBoxTest.ViewCamera = mCamera; ObjectBoxTest.Planes[0] = lcVector4(PlaneNormals[0], -lcDot(PlaneNormals[0], Corners[0])); ObjectBoxTest.Planes[1] = lcVector4(PlaneNormals[1], -lcDot(PlaneNormals[1], Corners[5])); ObjectBoxTest.Planes[2] = lcVector4(PlaneNormals[2], -lcDot(PlaneNormals[2], Corners[0])); ObjectBoxTest.Planes[3] = lcVector4(PlaneNormals[3], -lcDot(PlaneNormals[3], Corners[5])); ObjectBoxTest.Planes[4] = lcVector4(PlaneNormals[4], -lcDot(PlaneNormals[4], Corners[0])); ObjectBoxTest.Planes[5] = lcVector4(PlaneNormals[5], -lcDot(PlaneNormals[5], Corners[5])); ActiveModel->BoxTest(ObjectBoxTest); return ObjectBoxTest.Objects; } #ifdef LC_USE_QOPENGLWIDGET std::vector lcView::GetStepImages(lcStep Start, lcStep End) { std::vector Images; if (!BeginRenderToImage(mWidth, mHeight)) { QMessageBox::warning(gMainWindow, tr("LeoCAD"), tr("Error creating images.")); return Images; } const lcStep CurrentStep = mModel->GetCurrentStep(); for (lcStep Step = Start; Step <= End; Step++) { mModel->SetTemporaryStep(Step); OnDraw(); Images.emplace_back(GetRenderImage()); } EndRenderToImage(); mModel->SetTemporaryStep(CurrentStep); if (!mModel->IsActive()) mModel->CalculateStep(LC_STEP_MAX); return Images; } void lcView::SaveStepImages(const QString& BaseName, bool AddStepSuffix, lcStep Start, lcStep End) { std::vector Images = GetStepImages(Start, End); for (lcStep Step = Start; Step <= End; Step++) { QString FileName; if (AddStepSuffix) FileName = BaseName.arg(Step, 2, 10, QLatin1Char('0')); else FileName = BaseName; QImageWriter Writer(FileName); if (Writer.format().isEmpty()) Writer.setFormat("png"); if (!Writer.write(Images[Step - Start])) { QMessageBox::information(gMainWindow, tr("Error"), tr("Error writing to file '%1':\n%2").arg(FileName, Writer.errorString())); break; } } } #endif bool lcView::BeginRenderToImage(int Width, int Height) { GLint MaxTexture; glGetIntegerv(GL_MAX_TEXTURE_SIZE, &MaxTexture); MaxTexture = qMin(MaxTexture, 2048); #ifdef LC_USE_QOPENGLWIDGET const int Samples = QSurfaceFormat::defaultFormat().samples(); if (Samples > 1) MaxTexture /= Samples; #else MaxTexture /= QGLFormat::defaultFormat().sampleBuffers() ? QGLFormat::defaultFormat().samples() : 1; #endif int TileWidth = qMin(Width, MaxTexture); int TileHeight = qMin(Height, MaxTexture); mWidth = TileWidth; mHeight = TileHeight; mRenderImage = QImage(Width, Height, QImage::Format_ARGB32); #ifdef LC_USE_QOPENGLWIDGET QOpenGLFramebufferObjectFormat Format; Format.setAttachment(QOpenGLFramebufferObject::Depth); if (QSurfaceFormat::defaultFormat().samples() > 1) Format.setSamples(QSurfaceFormat::defaultFormat().samples()); mRenderFramebuffer = std::unique_ptr(new QOpenGLFramebufferObject(QSize(TileWidth, TileHeight), Format)); return mRenderFramebuffer->bind(); #else mRenderFramebuffer = mContext->CreateRenderFramebuffer(TileWidth, TileHeight); mContext->BindFramebuffer(mRenderFramebuffer.first); return mRenderFramebuffer.first.IsValid(); #endif } void lcView::EndRenderToImage() { #ifdef LC_USE_QOPENGLWIDGET mRenderFramebuffer.reset(); #else mRenderImage = QImage(); mContext->DestroyRenderFramebuffer(mRenderFramebuffer); mContext->ClearFramebuffer(); #endif } QImage lcView::GetRenderImage() const { return mRenderImage; } #ifdef LC_USE_QOPENGLWIDGET void lcView::BindRenderFramebuffer() { mRenderFramebuffer->bind(); } void lcView::UnbindRenderFramebuffer() { mRenderFramebuffer->release(); } QImage lcView::GetRenderFramebufferImage() const { return mRenderFramebuffer->toImage(); } #endif void lcView::OnDraw() { if (!mModel) return; const lcPreferences& Preferences = lcGetPreferences(); const bool DrawOverlays = mWidget != nullptr; const bool DrawInterface = mWidget != nullptr && mViewType == lcViewType::View; mScene->SetAllowLOD(Preferences.mAllowLOD && mWidget != nullptr); mScene->SetLODDistance(Preferences.mMeshLODDistance); mScene->Begin(mCamera->mWorldView); mScene->SetActiveSubmodelInstance(mActiveSubmodelInstance, mActiveSubmodelTransform); mScene->SetDrawInterface(DrawInterface); mModel->GetScene(mScene.get(), mCamera, Preferences.mHighlightNewParts, Preferences.mFadeSteps); if (DrawInterface && mTrackTool == lcTrackTool::Insert) { PieceInfo* Info = gMainWindow->GetCurrentPieceInfo(); if (Info) { lcMatrix44 WorldMatrix = GetPieceInsertPosition(false, Info); if (GetActiveModel() != mModel) WorldMatrix = lcMul(WorldMatrix, mActiveSubmodelTransform); Info->AddRenderMeshes(mScene.get(), WorldMatrix, gMainWindow->mColorIndex, lcRenderMeshState::Focused, false); } } if (DrawInterface) mScene->SetPreTranslucentCallback([this]() { DrawGrid(); }); mScene->End(); int TotalTileRows = 1; int TotalTileColumns = 1; if (!mRenderImage.isNull()) { int ImageWidth = mRenderImage.width(); int ImageHeight = mRenderImage.height(); if (ImageWidth > mWidth || ImageHeight > mHeight) { TotalTileColumns = (mWidth + ImageWidth - 1) / mWidth; TotalTileRows = (mHeight + ImageHeight - 1) / mHeight; } } for (int CurrentTileRow = 0; CurrentTileRow < TotalTileRows; CurrentTileRow++) { for (int CurrentTileColumn = 0; CurrentTileColumn < TotalTileColumns; CurrentTileColumn++) { mContext->SetDefaultState(); mContext->SetViewport(0, 0, mWidth, mHeight); DrawBackground(); int CurrentTileWidth, CurrentTileHeight; if (!mRenderImage.isNull() && (TotalTileRows > 1 || TotalTileColumns > 1)) { if (CurrentTileRow < TotalTileRows - 1) CurrentTileHeight = mHeight; else CurrentTileHeight = mRenderImage.height() - (TotalTileRows - 1) * (mHeight); if (CurrentTileColumn < TotalTileColumns - 1) CurrentTileWidth = mWidth; else CurrentTileWidth = mRenderImage.width() - (TotalTileColumns - 1) * (mWidth); mContext->SetViewport(0, 0, CurrentTileWidth, CurrentTileHeight); mContext->SetProjectionMatrix(GetTileProjectionMatrix(CurrentTileRow, CurrentTileColumn, CurrentTileWidth, CurrentTileHeight)); } else { CurrentTileWidth = mWidth; CurrentTileHeight = mHeight; mContext->SetProjectionMatrix(GetProjectionMatrix()); } mContext->SetLineWidth(Preferences.mLineWidth); mScene->Draw(mContext); if (!mRenderImage.isNull()) { #ifdef LC_USE_QOPENGLWIDGET UnbindRenderFramebuffer(); QImage TileImage = GetRenderFramebufferImage(); BindRenderFramebuffer(); quint8* Buffer = TileImage.bits(); #else quint8* Buffer = (quint8*)malloc(mWidth * mHeight * 4); mContext->GetRenderFramebufferImage(mRenderFramebuffer, Buffer); #endif uchar* ImageBuffer = mRenderImage.bits(); quint32 TileY = 0, SrcY = 0; if (CurrentTileRow != TotalTileRows - 1) TileY = (TotalTileRows - CurrentTileRow - 1) * mHeight - ((mHeight - mRenderImage.height() % mHeight) % mHeight); else if (TotalTileRows > 1) SrcY = (mHeight - mRenderImage.height() % mHeight) % mHeight; quint32 TileStart = ((CurrentTileColumn * mWidth) + (TileY * mRenderImage.width())) * 4; for (int y = 0; y < CurrentTileHeight; y++) { quint8* src = Buffer + (SrcY + y) * mWidth * 4; quint8* dst = ImageBuffer + TileStart + y * mRenderImage.width() * 4; memcpy(dst, src, CurrentTileWidth * 4); } #ifndef LC_USE_QOPENGLWIDGET free(Buffer); #endif } } } if (DrawInterface) mScene->DrawInterfaceObjects(mContext); if (DrawOverlays) DrawAxes(); if (DrawInterface) { lcTool Tool = gMainWindow->GetTool(); lcModel* ActiveModel = GetActiveModel(); if ((Tool == lcTool::Select || Tool == lcTool::Move) && mTrackButton == lcTrackButton::None && ActiveModel->AnyObjectsSelected()) DrawSelectMoveOverlay(); else if (GetCurrentTool() == lcTool::Move && mTrackButton != lcTrackButton::None) DrawSelectMoveOverlay(); else if ((Tool == lcTool::Rotate || (Tool == lcTool::Select && mTrackButton != lcTrackButton::None && mTrackTool >= lcTrackTool::RotateX && mTrackTool <= lcTrackTool::RotateXYZ)) && ActiveModel->AnyPiecesSelected()) DrawRotateOverlay(); else if ((mTrackTool == lcTrackTool::Select || mTrackTool == lcTrackTool::ZoomRegion) && mTrackButton != lcTrackButton::None) DrawSelectZoomRegionOverlay(); else if (Tool == lcTool::RotateView && mTrackButton == lcTrackButton::None) DrawRotateViewOverlay(); } if (DrawOverlays) { mViewSphere->Draw(); DrawViewport(); } mContext->ClearResources(); } void lcView::DrawBackground() const { const lcPreferences& Preferences = lcGetPreferences(); if (!Preferences.mBackgroundGradient) { lcVector4 BackgroundColor(lcVector3FromColor(Preferences.mBackgroundSolidColor), 0.0f); mContext->ClearColorAndDepth(BackgroundColor); return; } mContext->ClearDepth(); mContext->SetDepthWrite(false); glDisable(GL_DEPTH_TEST); float ViewWidth = (float)mWidth; float ViewHeight = (float)mHeight; mContext->SetWorldMatrix(lcMatrix44Identity()); mContext->SetViewMatrix(lcMatrix44Translation(lcVector3(0.375, 0.375, 0.0))); mContext->SetProjectionMatrix(lcMatrix44Ortho(0.0f, ViewWidth, 0.0f, ViewHeight, -1.0f, 1.0f)); mContext->SetSmoothShading(true); const quint32 Color1 = Preferences.mBackgroundGradientColorTop; const quint32 Color2 = Preferences.mBackgroundGradientColorBottom; struct lcBackgroundVertex { float x, y; quint32 Color; }; const lcBackgroundVertex Verts[4] = { { ViewWidth, ViewHeight, Color1 }, { 0.0f, ViewHeight, Color1 }, { 0.0f, 0.0f, Color2 }, { ViewWidth, 0.0f, Color2 } }; mContext->SetMaterial(lcMaterialType::UnlitVertexColor); mContext->SetVertexBufferPointer(Verts); mContext->SetVertexFormat(0, 2, 0, 0, 4, false); mContext->DrawPrimitives(GL_TRIANGLE_FAN, 0, 4); mContext->SetSmoothShading(false); glEnable(GL_DEPTH_TEST); mContext->SetDepthWrite(true); } void lcView::DrawViewport() const { mContext->SetWorldMatrix(lcMatrix44Identity()); mContext->SetViewMatrix(lcMatrix44Translation(lcVector3(0.375, 0.375, 0.0))); mContext->SetProjectionMatrix(lcMatrix44Ortho(0.0f, mWidth, 0.0f, mHeight, -1.0f, 1.0f)); mContext->SetLineWidth(1.0f); mContext->SetDepthWrite(false); glDisable(GL_DEPTH_TEST); mContext->SetMaterial(lcMaterialType::UnlitColor); if (mLastFocusedView == this) mContext->SetColor(lcVector4FromColor(lcGetPreferences().mActiveViewColor)); else mContext->SetColor(lcVector4FromColor(lcGetPreferences().mInactiveViewColor)); float Verts[8] = { 0.0f, 0.0f, mWidth - 1.0f, 0.0f, mWidth - 1.0f, mHeight - 1.0f, 0.0f, mHeight - 1.0f }; mContext->SetVertexBufferPointer(Verts); mContext->SetVertexFormatPosition(2); mContext->DrawPrimitives(GL_LINE_LOOP, 0, 4); QString CameraName = mCamera->GetName(); if (!CameraName.isEmpty()) { mContext->SetMaterial(lcMaterialType::UnlitTextureModulate); mContext->SetColor(lcVector4FromColor(lcGetPreferences().mTextColor)); mContext->BindTexture2D(gTexFont.GetTexture()); glEnable(GL_BLEND); gTexFont.PrintText(mContext, 3.0f, (float)mHeight - 1.0f - 6.0f, 0.0f, CameraName.toLatin1().constData()); glDisable(GL_BLEND); } mContext->SetDepthWrite(true); glEnable(GL_DEPTH_TEST); } void lcView::DrawAxes() const { const lcPreferences& Preferences = lcGetPreferences(); switch (mViewType) { case lcViewType::View: if (!Preferences.mDrawAxes) return; break; case lcViewType::Preview: if (!Preferences.mDrawPreviewAxis) return; break; case lcViewType::Minifig: case lcViewType::PartsList: case lcViewType::Count: return; } // mContext->ClearDepth(); struct lcAxisVertex { float x, y, z; quint32 Color; }; const quint32 Red = LC_RGBA(204, 0, 0, 255); const quint32 Green = LC_RGBA(0, 204, 0, 255); const quint32 Blue = LC_RGBA(0, 0, 204, 255); const lcAxisVertex Verts[30] = { { 0.00f, 0.00f, 0.00f, Red }, { 20.00f, 0.00f, 0.00f, Red }, { 12.00f, 3.00f, 0.00f, Red }, { 12.00f, 2.12f, 2.12f, Red }, { 12.00f, 0.00f, 3.00f, Red }, { 12.00f, -2.12f, 2.12f, Red }, { 12.00f, -3.00f, 0.00f, Red }, { 12.00f, -2.12f, -2.12f, Red }, { 12.00f, 0.00f, -3.00f, Red }, { 12.00f, 2.12f, -2.12f, Red }, { 0.00f, 0.00f, 0.00f, Green }, { 0.00f, 20.00f, 0.00f, Green }, { 3.00f, 12.00f, 0.00f, Green }, { 2.12f, 12.00f, 2.12f, Green }, { 0.00f, 12.00f, 3.00f, Green }, { -2.12f, 12.00f, 2.12f, Green }, { -3.00f, 12.00f, 0.00f, Green }, { -2.12f, 12.00f, -2.12f, Green }, { 0.00f, 12.00f, -3.00f, Green }, { 2.12f, 12.00f, -2.12f, Green }, { 0.00f, 0.00f, 0.00f, Blue }, { 0.00f, 0.00f, 20.00f, Blue }, { 0.00f, 3.00f, 12.00f, Blue }, { 2.12f, 2.12f, 12.00f, Blue }, { 3.00f, 0.00f, 12.00f, Blue }, { 2.12f, -2.12f, 12.00f, Blue }, { 0.00f, -3.00f, 12.00f, Blue }, { -2.12f, -2.12f, 12.00f, Blue }, { -3.00f, 0.00f, 12.00f, Blue }, { -2.12f, 2.12f, 12.00f, Blue } }; const GLushort Indices[78] = { 0, 1, 10, 11, 20, 21, 1, 2, 3, 1, 3, 4, 1, 4, 5, 1, 5, 6, 1, 6, 7, 1, 7, 8, 1, 8, 9, 1, 9, 2, 11, 12, 13, 11, 13, 14, 11, 14, 15, 11, 15, 16, 11, 16, 17, 11, 17, 18, 11, 18, 19, 11, 19, 12, 21, 22, 23, 21, 23, 24, 21, 24, 25, 21, 25, 26, 21, 26, 27, 21, 27, 28, 21, 28, 29, 21, 29, 22 }; lcMatrix44 TranslationMatrix = lcMatrix44Translation(lcVector3(30.375f, 30.375f, 0.0f)); lcMatrix44 WorldViewMatrix = mCamera->mWorldView; WorldViewMatrix.SetTranslation(lcVector3(0, 0, 0)); mContext->SetLineWidth(1.0f); mContext->SetMaterial(lcMaterialType::UnlitVertexColor); mContext->SetWorldMatrix(lcMatrix44Identity()); mContext->SetViewMatrix(lcMul(WorldViewMatrix, TranslationMatrix)); mContext->SetProjectionMatrix(lcMatrix44Ortho(0, mWidth, 0, mHeight, -50, 50)); mContext->SetVertexBufferPointer(Verts); mContext->SetVertexFormat(0, 3, 0, 0, 4, false); mContext->SetIndexBufferPointer(Indices); mContext->DrawIndexedPrimitives(GL_LINES, 6, GL_UNSIGNED_SHORT, 0); mContext->DrawIndexedPrimitives(GL_TRIANGLES, 72, GL_UNSIGNED_SHORT, 6 * 2); mContext->SetMaterial(lcMaterialType::UnlitTextureModulate); mContext->SetViewMatrix(TranslationMatrix); mContext->BindTexture2D(gTexFont.GetTexture()); glEnable(GL_BLEND); float TextBuffer[6 * 5 * 3]; lcVector3 PosX = lcMul30(lcVector3(25.0f, 0.0f, 0.0f), WorldViewMatrix); gTexFont.GetGlyphTriangles(PosX.x, PosX.y, PosX.z, 'X', TextBuffer); lcVector3 PosY = lcMul30(lcVector3(0.0f, 25.0f, 0.0f), WorldViewMatrix); gTexFont.GetGlyphTriangles(PosY.x, PosY.y, PosY.z, 'Y', TextBuffer + 5 * 6); lcVector3 PosZ = lcMul30(lcVector3(0.0f, 0.0f, 25.0f), WorldViewMatrix); gTexFont.GetGlyphTriangles(PosZ.x, PosZ.y, PosZ.z, 'Z', TextBuffer + 5 * 6 * 2); mContext->SetVertexBufferPointer(TextBuffer); mContext->SetVertexFormat(0, 3, 0, 2, 0, false); mContext->SetColor(lcVector4FromColor(lcGetPreferences().mAxesColor)); mContext->DrawPrimitives(GL_TRIANGLES, 0, 6 * 3); glDisable(GL_BLEND); } void lcView::DrawSelectMoveOverlay() { mContext->SetMaterial(lcMaterialType::UnlitColor); mContext->SetViewMatrix(mCamera->mWorldView); mContext->SetProjectionMatrix(GetProjectionMatrix()); glDisable(GL_DEPTH_TEST); lcVector3 OverlayCenter; lcMatrix33 RelativeRotation; lcModel* ActiveModel = GetActiveModel(); ActiveModel->GetMoveRotateTransform(OverlayCenter, RelativeRotation); bool AnyPiecesSelected = ActiveModel->AnyPiecesSelected(); lcMatrix44 WorldMatrix = lcMatrix44(RelativeRotation, OverlayCenter); if (ActiveModel != mModel) WorldMatrix = lcMul(WorldMatrix, mActiveSubmodelTransform); const float OverlayScale = GetOverlayScale(); WorldMatrix = lcMul(lcMatrix44Scale(lcVector3(OverlayScale, OverlayScale, OverlayScale)), WorldMatrix); mContext->SetWorldMatrix(WorldMatrix); mContext->SetLineWidth(1.0f); mContext->SetIndexBuffer(mRotateMoveIndexBuffer); mContext->SetVertexBuffer(mRotateMoveVertexBuffer); mContext->SetVertexFormatPosition(3); lcObject* Focus = ActiveModel->GetFocusObject(); quint32 AllowedTransforms = Focus ? Focus->GetAllowedTransforms() : LC_OBJECT_TRANSFORM_MOVE_X | LC_OBJECT_TRANSFORM_MOVE_Y | LC_OBJECT_TRANSFORM_MOVE_Z | LC_OBJECT_TRANSFORM_ROTATE_X | LC_OBJECT_TRANSFORM_ROTATE_Y | LC_OBJECT_TRANSFORM_ROTATE_Z; if (mTrackButton == lcTrackButton::None || (mTrackTool >= lcTrackTool::MoveX && mTrackTool <= lcTrackTool::MoveXYZ)) { if (AllowedTransforms & LC_OBJECT_TRANSFORM_MOVE_X) { if ((mTrackTool == lcTrackTool::MoveX) || (mTrackTool == lcTrackTool::MoveXY) || (mTrackTool == lcTrackTool::MoveXZ)) { mContext->SetColor(0.8f, 0.8f, 0.0f, 1.0f); mContext->DrawIndexedPrimitives(GL_TRIANGLES, 36, GL_UNSIGNED_SHORT, 0); } else if (mTrackButton == lcTrackButton::None) { mContext->SetColor(0.8f, 0.0f, 0.0f, 1.0f); mContext->DrawIndexedPrimitives(GL_TRIANGLES, 36, GL_UNSIGNED_SHORT, 0); } } if (AllowedTransforms & LC_OBJECT_TRANSFORM_MOVE_Y) { if (((mTrackTool == lcTrackTool::MoveY) || (mTrackTool == lcTrackTool::MoveXY) || (mTrackTool == lcTrackTool::MoveYZ)) && (AllowedTransforms & LC_OBJECT_TRANSFORM_MOVE_Y)) { mContext->SetColor(0.8f, 0.8f, 0.0f, 1.0f); mContext->DrawIndexedPrimitives(GL_TRIANGLES, 36, GL_UNSIGNED_SHORT, 36 * 2); } else if (mTrackButton == lcTrackButton::None) { mContext->SetColor(0.0f, 0.8f, 0.0f, 1.0f); mContext->DrawIndexedPrimitives(GL_TRIANGLES, 36, GL_UNSIGNED_SHORT, 36 * 2); } } if (AllowedTransforms & LC_OBJECT_TRANSFORM_MOVE_Z) { if (((mTrackTool == lcTrackTool::MoveZ) || (mTrackTool == lcTrackTool::MoveXZ) || (mTrackTool == lcTrackTool::MoveYZ)) && (AllowedTransforms & LC_OBJECT_TRANSFORM_MOVE_Z)) { mContext->SetColor(0.8f, 0.8f, 0.0f, 1.0f); mContext->DrawIndexedPrimitives(GL_TRIANGLES, 36, GL_UNSIGNED_SHORT, 72 * 2); } else if (mTrackButton == lcTrackButton::None) { mContext->SetColor(0.0f, 0.0f, 0.8f, 1.0f); mContext->DrawIndexedPrimitives(GL_TRIANGLES, 36, GL_UNSIGNED_SHORT, 72 * 2); } } } if (gMainWindow->GetTool() == lcTool::Select && mTrackButton == lcTrackButton::None && AnyPiecesSelected) { if (AllowedTransforms & LC_OBJECT_TRANSFORM_ROTATE_X) { if (mTrackTool == lcTrackTool::RotateX) mContext->SetColor(0.8f, 0.8f, 0.0f, 1.0f); else mContext->SetColor(0.8f, 0.0f, 0.0f, 1.0f); mContext->DrawIndexedPrimitives(GL_TRIANGLES, 120, GL_UNSIGNED_SHORT, 108 * 2); } if (AllowedTransforms & LC_OBJECT_TRANSFORM_ROTATE_Y) { if (mTrackTool == lcTrackTool::RotateY) mContext->SetColor(0.8f, 0.8f, 0.0f, 1.0f); else mContext->SetColor(0.0f, 0.8f, 0.0f, 1.0f); mContext->DrawIndexedPrimitives(GL_TRIANGLES, 120, GL_UNSIGNED_SHORT, (108 + 120) * 2); } if (AllowedTransforms & LC_OBJECT_TRANSFORM_ROTATE_Z) { if (mTrackTool == lcTrackTool::RotateZ) mContext->SetColor(0.8f, 0.8f, 0.0f, 1.0f); else mContext->SetColor(0.0f, 0.0f, 0.8f, 1.0f); mContext->DrawIndexedPrimitives(GL_TRIANGLES, 120, GL_UNSIGNED_SHORT, (108 + 240) * 2); } } if ((mTrackTool == lcTrackTool::MoveXY) || (mTrackTool == lcTrackTool::MoveXZ) || (mTrackTool == lcTrackTool::MoveYZ)) { glEnable(GL_BLEND); mContext->SetColor(0.8f, 0.8f, 0.0f, 0.3f); if (mTrackTool == lcTrackTool::MoveXY) mContext->DrawIndexedPrimitives(GL_TRIANGLE_FAN, 4, GL_UNSIGNED_SHORT, (108 + 360 + 8) * 2); else if (mTrackTool == lcTrackTool::MoveXZ) mContext->DrawIndexedPrimitives(GL_TRIANGLE_FAN, 4, GL_UNSIGNED_SHORT, (108 + 360 + 4) * 2); else if (mTrackTool == lcTrackTool::MoveYZ) mContext->DrawIndexedPrimitives(GL_TRIANGLE_FAN, 4, GL_UNSIGNED_SHORT, (108 + 360) * 2); glDisable(GL_BLEND); } if (Focus && Focus->IsPiece()) { lcPiece* Piece = (lcPiece*)Focus; quint32 Section = Piece->GetFocusSection(); if (Section >= LC_PIECE_SECTION_CONTROL_POINT_FIRST && Section <= LC_PIECE_SECTION_CONTROL_POINT_LAST && Piece->mPieceInfo->GetSynthInfo() && Piece->mPieceInfo->GetSynthInfo()->IsCurve()) { int ControlPointIndex = Section - LC_PIECE_SECTION_CONTROL_POINT_FIRST; float Strength = Piece->GetControlPoints()[ControlPointIndex].Scale; const float ScaleStart = 2.0f; float Length = ScaleStart + Strength / OverlayScale; const float OverlayScaleInnerRadius = 0.075f; const float OverlayScaleRadius = 0.125f; lcVector3 Verts[38]; int NumVerts = 0; Verts[NumVerts++] = lcVector3(Length - OverlayScaleRadius, 0.0f, 0.0f); Verts[NumVerts++] = lcVector3(OverlayScaleRadius - Length, 0.0f, 0.0f); float SinTable[9], CosTable[9]; for (int Step = 0; Step <= 8; Step++) { SinTable[Step] = sinf((float)Step / 8.0f * LC_2PI); CosTable[Step] = cosf((float)Step / 8.0f * LC_2PI); } for (int Step = 0; Step <= 8; Step++) { float x = CosTable[Step]; float y = SinTable[Step]; Verts[NumVerts++] = lcVector3(Length + x * OverlayScaleInnerRadius, 0.0f, y * OverlayScaleInnerRadius); Verts[NumVerts++] = lcVector3(Length + x * OverlayScaleRadius, 0.0f, y * OverlayScaleRadius); } for (int Step = 0; Step <= 8; Step++) { float x = CosTable[Step]; float y = SinTable[Step]; Verts[NumVerts++] = lcVector3(-Length + x * OverlayScaleInnerRadius, 0.0f, y * OverlayScaleInnerRadius); Verts[NumVerts++] = lcVector3(-Length + x * OverlayScaleRadius, 0.0f, y * OverlayScaleRadius); } if (mTrackTool == lcTrackTool::ScalePlus || mTrackTool == lcTrackTool::ScaleMinus) mContext->SetColor(0.8f, 0.8f, 0.0f, 0.3f); else mContext->SetColor(0.0f, 0.0f, 0.8f, 1.0f); mContext->SetVertexBufferPointer(Verts); mContext->ClearIndexBuffer(); mContext->SetVertexFormatPosition(3); mContext->DrawPrimitives(GL_LINES, 0, 2); mContext->DrawPrimitives(GL_TRIANGLE_STRIP, 2, 18); mContext->DrawPrimitives(GL_TRIANGLE_STRIP, 20, 18); } } glEnable(GL_DEPTH_TEST); } void lcView::DrawRotateOverlay() { const float OverlayScale = GetOverlayScale(); const float OverlayRotateRadius = 2.0f; mContext->SetMaterial(lcMaterialType::UnlitColor); mContext->SetViewMatrix(mCamera->mWorldView); mContext->SetProjectionMatrix(GetProjectionMatrix()); mContext->SetLineWidth(1.0f); glDisable(GL_DEPTH_TEST); int j; lcVector3 OverlayCenter; lcMatrix33 RelativeRotation; lcModel* ActiveModel = GetActiveModel(); ActiveModel->GetMoveRotateTransform(OverlayCenter, RelativeRotation); lcVector3 MouseToolDistance = ActiveModel->SnapRotation(ActiveModel->GetMouseToolDistance()); bool HasAngle = false; // Draw a disc showing the rotation amount. if (MouseToolDistance.LengthSquared() != 0.0f && (mTrackButton != lcTrackButton::None)) { lcVector4 Rotation; float Angle, Step; HasAngle = true; switch (mTrackTool) { case lcTrackTool::RotateX: mContext->SetColor(0.8f, 0.0f, 0.0f, 0.3f); Angle = MouseToolDistance[0]; Rotation = lcVector4(0.0f, 0.0f, 0.0f, 1.0f); break; case lcTrackTool::RotateY: mContext->SetColor(0.0f, 0.8f, 0.0f, 0.3f); Angle = MouseToolDistance[1]; Rotation = lcVector4(90.0f, 0.0f, 0.0f, 1.0f); break; case lcTrackTool::RotateZ: mContext->SetColor(0.0f, 0.0f, 0.8f, 0.3f); Angle = MouseToolDistance[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)) { lcMatrix44 WorldMatrix = lcMatrix44(RelativeRotation, OverlayCenter); WorldMatrix = lcMul(lcMatrix44FromAxisAngle(lcVector3(Rotation[1], Rotation[2], Rotation[3]), Rotation[0] * LC_DTOR), WorldMatrix); mContext->SetWorldMatrix(WorldMatrix); glEnable(GL_BLEND); lcVector3 Verts[33]; Verts[0] = lcVector3(0.0f, 0.0f, 0.0f); int NumVerts = 1; mContext->SetVertexBufferPointer(Verts); mContext->SetVertexFormatPosition(3); 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; Verts[NumVerts++] = lcVector3(0.0f, x, y); if (NumVerts == 33) { mContext->DrawPrimitives(GL_TRIANGLE_FAN, 0, NumVerts); Verts[1] = Verts[32]; NumVerts = 2; } i++; if (Step > 0) Angle -= Step; else Angle += Step; } while (Angle >= 0.0f); if (NumVerts > 2) mContext->DrawPrimitives(GL_TRIANGLE_FAN, 0, NumVerts); glDisable(GL_BLEND); } } // Draw the circles. if (gMainWindow->GetTool() == lcTool::Rotate && !HasAngle && mTrackButton == lcTrackButton::None) { lcMatrix44 Mat = lcMatrix44AffineInverse(mCamera->mWorldView); Mat.SetTranslation(OverlayCenter); lcVector3 Verts[32]; 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; Verts[j] = lcMul31(Pt, Mat); } mContext->SetColor(0.1f, 0.1f, 0.1f, 1.0f); mContext->SetWorldMatrix(lcMatrix44Identity()); mContext->SetVertexBufferPointer(Verts); mContext->SetVertexFormatPosition(3); mContext->DrawPrimitives(GL_LINE_LOOP, 0, 32); } lcVector3 ViewDir = mCamera->mTargetPosition - mCamera->mPosition; ViewDir.Normalize(); // Transform ViewDir to local space. ViewDir = lcMul(ViewDir, lcMatrix33AffineInverse(RelativeRotation)); mContext->SetWorldMatrix(lcMatrix44(RelativeRotation, OverlayCenter)); // Draw each axis circle. for (int i = 0; i < 3; i++) { if (static_cast(mTrackTool) == static_cast(lcTrackTool::RotateX) + i) { mContext->SetColor(0.8f, 0.8f, 0.0f, 1.0f); } else { if (gMainWindow->GetTool() != lcTool::Rotate || HasAngle || mTrackButton != lcTrackButton::None) continue; switch (i) { case 0: mContext->SetColor(0.8f, 0.0f, 0.0f, 1.0f); break; case 1: mContext->SetColor(0.0f, 0.8f, 0.0f, 1.0f); break; case 2: mContext->SetColor(0.0f, 0.0f, 0.8f, 1.0f); break; } } lcVector3 Verts[64]; int NumVerts = 0; for (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 (gMainWindow->GetTool() != lcTool::Rotate || HasAngle || mTrackButton != lcTrackButton::None || lcDot(ViewDir, v1 + v2) <= 0.0f) { Verts[NumVerts++] = v1 * (OverlayRotateRadius * OverlayScale); Verts[NumVerts++] = v2 * (OverlayRotateRadius * OverlayScale); } } mContext->SetVertexBufferPointer(Verts); mContext->SetVertexFormatPosition(3); mContext->DrawPrimitives(GL_LINES, 0, NumVerts); } // Draw tangent vector. if (mTrackButton != lcTrackButton::None && ((mTrackTool == lcTrackTool::RotateX) || (mTrackTool == lcTrackTool::RotateY) || (mTrackTool == lcTrackTool::RotateZ))) { const float OverlayRotateArrowSize = 1.5f; const float OverlayRotateArrowCapSize = 0.25f; lcVector4 Rotation; float Angle; switch (mTrackTool) { case lcTrackTool::RotateX: Angle = MouseToolDistance[0]; Rotation = lcVector4(0.0f, 0.0f, 0.0f, 1.0f); break; case lcTrackTool::RotateY: Angle = MouseToolDistance[1]; Rotation = lcVector4(90.0f, 0.0f, 0.0f, 1.0f); break; case lcTrackTool::RotateZ: Angle = MouseToolDistance[2]; Rotation = lcVector4(90.0f, 0.0f, -1.0f, 0.0f); break; default: Angle = 0.0f; Rotation = lcVector4(0.0f, 0.0f, 1.0f, 0.0f); break; }; lcMatrix44 WorldMatrix = lcMatrix44(RelativeRotation, OverlayCenter); WorldMatrix = lcMul(lcMatrix44FromAxisAngle(lcVector3(Rotation[1], Rotation[2], Rotation[3]), Rotation[0] * LC_DTOR), WorldMatrix); mContext->SetWorldMatrix(WorldMatrix); mContext->SetColor(0.8f, 0.8f, 0.0f, 1.0f); if (HasAngle) { float StartY = OverlayScale * OverlayRotateRadius; float EndZ = (Angle > 0.0f) ? OverlayScale * OverlayRotateArrowSize : -OverlayScale * OverlayRotateArrowSize; float TipZ = (Angle > 0.0f) ? -OverlayScale * OverlayRotateArrowCapSize : OverlayScale * OverlayRotateArrowCapSize; lcVector3 Verts[6]; Verts[0] = lcVector3(0.0f, StartY, 0.0f); Verts[1] = lcVector3(0.0f, StartY, EndZ); Verts[2] = lcVector3(0.0f, StartY, EndZ); Verts[3] = lcVector3(0.0f, StartY + OverlayScale * OverlayRotateArrowCapSize, EndZ + TipZ); Verts[4] = lcVector3(0.0f, StartY, EndZ); Verts[5] = lcVector3(0.0f, StartY - OverlayScale * OverlayRotateArrowCapSize, EndZ + TipZ); mContext->SetVertexBufferPointer(Verts); mContext->SetVertexFormatPosition(3); mContext->DrawPrimitives(GL_LINES, 0, 6); } // Draw text. lcVector3 ScreenPos = ProjectPoint(OverlayCenter); mContext->SetMaterial(lcMaterialType::UnlitTextureModulate); mContext->SetWorldMatrix(lcMatrix44Identity()); mContext->SetViewMatrix(lcMatrix44Translation(lcVector3(0.375, 0.375, 0.0))); mContext->SetProjectionMatrix(lcMatrix44Ortho(0.0f, mWidth, 0.0f, mHeight, -1.0f, 1.0f)); mContext->BindTexture2D(gTexFont.GetTexture()); glEnable(GL_BLEND); char buf[32]; sprintf(buf, "[%.2f]", fabsf(Angle)); int cx, cy; gTexFont.GetStringDimensions(&cx, &cy, buf); mContext->SetColor(0.8f, 0.8f, 0.0f, 1.0f); gTexFont.PrintText(mContext, ScreenPos[0] - (cx / 2), ScreenPos[1] + (cy / 2), 0.0f, buf); glDisable(GL_BLEND); } glEnable(GL_DEPTH_TEST); } void lcView::DrawSelectZoomRegionOverlay() { mContext->SetMaterial(lcMaterialType::UnlitColor); mContext->SetWorldMatrix(lcMatrix44Identity()); mContext->SetViewMatrix(lcMatrix44Translation(lcVector3(0.375, 0.375, 0.0))); mContext->SetProjectionMatrix(lcMatrix44Ortho(0.0f, mWidth, 0.0f, mHeight, -1.0f, 1.0f)); mContext->SetLineWidth(1.0f); glDisable(GL_DEPTH_TEST); float pt1x = (float)mMouseDownX; float pt1y = (float)mMouseDownY; float pt2x = (float)mMouseX; float pt2y = (float)mMouseY; float Left, Right, Bottom, Top; if (pt1x < pt2x) { Left = pt1x; Right = pt2x; } else { Left = pt2x; Right = pt1x; } if (pt1y < pt2y) { Bottom = pt1y; Top = pt2y; } else { Bottom = pt2y; Top = pt1y; } Left = lcMax(Left, 0.0f); Right = lcMin(Right, mWidth - 1.0f); Bottom = lcMax(Bottom, 0.0f); Top = lcMin(Top, mHeight - 1.0f); float BorderX = lcMin(2.0f, Right - Left); float BorderY = lcMin(2.0f, Top - Bottom); float Verts[14][2] = { { Left, Bottom }, { Left + BorderX, Bottom + BorderY }, { Right, Bottom }, { Right - BorderX, Bottom + BorderY }, { Right, Top }, { Right - BorderX, Top - BorderY }, { Left, Top }, { Left + BorderX, Top - BorderY }, { Left, Bottom }, { Left + BorderX, Bottom + BorderY }, { Left + BorderX, Bottom + BorderY }, { Right - BorderX, Bottom + BorderY }, { Left + BorderX, Top - BorderY }, { Right - BorderX, Top - BorderY }, }; mContext->SetVertexBufferPointer(Verts); mContext->SetVertexFormatPosition(2); const lcPreferences& Preferences = lcGetPreferences(); mContext->SetColor(lcVector4FromColor(Preferences.mMarqueeBorderColor)); mContext->DrawPrimitives(GL_TRIANGLE_STRIP, 0, 10); if (LC_RGBA_ALPHA(Preferences.mMarqueeFillColor)) { glEnable(GL_BLEND); mContext->SetColor(lcVector4FromColor(Preferences.mMarqueeFillColor)); mContext->DrawPrimitives(GL_TRIANGLE_STRIP, 10, 4); glDisable(GL_BLEND); } glEnable(GL_DEPTH_TEST); } void lcView::DrawRotateViewOverlay() { int x, y, w, h; x = 0; y = 0; w = mWidth; h = mHeight; mContext->SetMaterial(lcMaterialType::UnlitColor); mContext->SetWorldMatrix(lcMatrix44Identity()); mContext->SetViewMatrix(lcMatrix44Translation(lcVector3(0.375, 0.375, 0.0))); mContext->SetProjectionMatrix(lcMatrix44Ortho(0, w, 0, h, -1, 1)); mContext->SetLineWidth(1.0f); glDisable(GL_DEPTH_TEST); mContext->SetColor(lcVector4FromColor(lcGetPreferences().mOverlayColor)); float Verts[32 * 16 * 2]; float* CurVert = Verts; 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++) { *CurVert++ = cosf((float)i / 32.0f * (2.0f * LC_PI)) * r + cx; *CurVert++ = sinf((float)i / 32.0f * (2.0f * LC_PI)) * r + cy; } const float OverlayCameraSquareSize = lcMax(8.0f, (w + h) / 200.0f); *CurVert++ = cx + OverlayCameraSquareSize; *CurVert++ = cy + r + OverlayCameraSquareSize; *CurVert++ = cx - OverlayCameraSquareSize; *CurVert++ = cy + r + OverlayCameraSquareSize; *CurVert++ = cx - OverlayCameraSquareSize; *CurVert++ = cy + r - OverlayCameraSquareSize; *CurVert++ = cx + OverlayCameraSquareSize; *CurVert++ = cy + r - OverlayCameraSquareSize; *CurVert++ = cx + OverlayCameraSquareSize; *CurVert++ = cy - r + OverlayCameraSquareSize; *CurVert++ = cx - OverlayCameraSquareSize; *CurVert++ = cy - r + OverlayCameraSquareSize; *CurVert++ = cx - OverlayCameraSquareSize; *CurVert++ = cy - r - OverlayCameraSquareSize; *CurVert++ = cx + OverlayCameraSquareSize; *CurVert++ = cy - r - OverlayCameraSquareSize; *CurVert++ = cx + r + OverlayCameraSquareSize; *CurVert++ = cy + OverlayCameraSquareSize; *CurVert++ = cx + r - OverlayCameraSquareSize; *CurVert++ = cy + OverlayCameraSquareSize; *CurVert++ = cx + r - OverlayCameraSquareSize; *CurVert++ = cy - OverlayCameraSquareSize; *CurVert++ = cx + r + OverlayCameraSquareSize; *CurVert++ = cy - OverlayCameraSquareSize; *CurVert++ = cx - r + OverlayCameraSquareSize; *CurVert++ = cy + OverlayCameraSquareSize; *CurVert++ = cx - r - OverlayCameraSquareSize; *CurVert++ = cy + OverlayCameraSquareSize; *CurVert++ = cx - r - OverlayCameraSquareSize; *CurVert++ = cy - OverlayCameraSquareSize; *CurVert++ = cx - r + OverlayCameraSquareSize; *CurVert++ = cy - OverlayCameraSquareSize; mContext->SetVertexBufferPointer(Verts); mContext->SetVertexFormatPosition(2); GLushort Indices[64 + 32] = { 0, 1, 1, 2, 2, 3, 3, 4, 4, 5, 5, 6, 6, 7, 7, 8, 8, 9, 9, 10, 10, 11, 11, 12, 12, 13, 13, 14, 14, 15, 15, 16, 16, 17, 17, 18, 18, 19, 19, 20, 20, 21, 21, 22, 22, 23, 23, 24, 24, 25, 25, 26, 26, 27, 27, 28, 28, 29, 29, 30, 30, 31, 31, 0, 32, 33, 33, 34, 34, 35, 35, 32, 36, 37, 37, 38, 38, 39, 39, 36, 40, 41, 41, 42, 42, 43, 43, 40, 44, 45, 45, 46, 46, 47, 47, 44 }; mContext->SetIndexBufferPointer(Indices); mContext->DrawIndexedPrimitives(GL_LINES, 96, GL_UNSIGNED_SHORT, 0); glEnable(GL_DEPTH_TEST); } void lcView::DrawGrid() { const lcPreferences& Preferences = lcGetPreferences(); if (!Preferences.mDrawGridStuds && !Preferences.mDrawGridLines) return; if (!Preferences.mGridEnabled) return; const int Spacing = lcMax(Preferences.mGridLineSpacing, 1); int MinX, MaxX, MinY, MaxY; lcVector3 Min(FLT_MAX, FLT_MAX, FLT_MAX), Max(-FLT_MAX, -FLT_MAX, -FLT_MAX); bool GridSizeValid = mModel->GetPiecesBoundingBox(Min, Max); if (mTrackTool == lcTrackTool::Insert) { PieceInfo* CurPiece = gMainWindow->GetCurrentPieceInfo(); if (CurPiece) { lcVector3 Points[8]; lcGetBoxCorners(CurPiece->GetBoundingBox(), Points); lcMatrix44 WorldMatrix = GetPieceInsertPosition(false, CurPiece); for (int i = 0; i < 8; i++) { lcVector3 Point = lcMul31(Points[i], WorldMatrix); Min = lcMin(Point, Min); Max = lcMax(Point, Max); } GridSizeValid = true; } } if (GridSizeValid) { MinX = (int)(floorf(Min[0] / (20.0f * Spacing))) - 1; MinY = (int)(floorf(Min[1] / (20.0f * Spacing))) - 1; MaxX = (int)(ceilf(Max[0] / (20.0f * Spacing))) + 1; MaxY = (int)(ceilf(Max[1] / (20.0f * Spacing))) + 1; MinX = lcMin(MinX, -2); MinY = lcMin(MinY, -2); MaxX = lcMax(MaxX, 2); MaxY = lcMax(MaxY, 2); } else { MinX = -2; MinY = -2; MaxX = 2; MaxY = 2; } if (!mGridBuffer.IsValid() || MinX != mGridSettings[0] || MinY != mGridSettings[1] || MaxX != mGridSettings[2] || MaxY != mGridSettings[3] || Spacing != mGridSettings[4] || (Preferences.mDrawGridStuds ? 1 : 0) != mGridSettings[5] || (Preferences.mDrawGridLines ? 1 : 0) != mGridSettings[6]) { int VertexBufferSize = 0; if (Preferences.mDrawGridStuds) VertexBufferSize += 4 * 5 * sizeof(float); if (Preferences.mDrawGridLines) VertexBufferSize += 2 * (MaxX - MinX + MaxY - MinY + 2) * 3 * sizeof(float); float* Verts = (float*)malloc(VertexBufferSize); if (!Verts) return; float* CurVert = Verts; if (Preferences.mDrawGridStuds) { float Left = MinX * 20.0f * Spacing; float Right = MaxX * 20.0f * Spacing; float Top = MinY * 20.0f * Spacing; float Bottom = MaxY * 20.0f * Spacing; float Z = 0; float U = (MaxX - MinX) * Spacing; float V = (MaxY - MinY) * Spacing; *CurVert++ = Left; *CurVert++ = Top; *CurVert++ = Z; *CurVert++ = 0.0f; *CurVert++ = V; *CurVert++ = Left; *CurVert++ = Bottom; *CurVert++ = Z; *CurVert++ = 0.0f; *CurVert++ = 0.0f; *CurVert++ = Right; *CurVert++ = Top; *CurVert++ = Z; *CurVert++ = U; *CurVert++ = V; *CurVert++ = Right; *CurVert++ = Bottom; *CurVert++ = Z; *CurVert++ = U; *CurVert++ = 0.0f; } if (Preferences.mDrawGridLines) { float LineSpacing = Spacing * 20.0f; for (int Step = MinX; Step < MaxX + 1; Step++) { *CurVert++ = Step * LineSpacing; *CurVert++ = MinY * LineSpacing; *CurVert++ = 0.0f; *CurVert++ = Step * LineSpacing; *CurVert++ = MaxY * LineSpacing; *CurVert++ = 0.0f; } for (int Step = MinY; Step < MaxY + 1; Step++) { *CurVert++ = MinX * LineSpacing; *CurVert++ = Step * LineSpacing; *CurVert++ = 0.0f; *CurVert++ = MaxX * LineSpacing; *CurVert++ = Step * LineSpacing; *CurVert++ = 0.0f; } } mGridSettings[0] = MinX; mGridSettings[1] = MinY; mGridSettings[2] = MaxX; mGridSettings[3] = MaxY; mGridSettings[4] = Spacing; mGridSettings[5] = (Preferences.mDrawGridStuds ? 1 : 0); mGridSettings[6] = (Preferences.mDrawGridLines ? 1 : 0); mContext->DestroyVertexBuffer(mGridBuffer); mGridBuffer = mContext->CreateVertexBuffer(VertexBufferSize, Verts); free(Verts); } int BufferOffset = 0; mContext->SetVertexBuffer(mGridBuffer); mContext->SetWorldMatrix(lcMatrix44Identity()); if (Preferences.mDrawGridStuds) { mContext->BindTexture2D(gGridTexture->mTexture); mContext->SetDepthWrite(false); glEnable(GL_BLEND); mContext->SetMaterial(lcMaterialType::UnlitTextureModulate); mContext->SetColor(lcVector4FromColor(Preferences.mGridStudColor)); mContext->SetVertexFormat(0, 3, 0, 2, 0, false); mContext->DrawPrimitives(GL_TRIANGLE_STRIP, 0, 4); glDisable(GL_BLEND); mContext->SetDepthWrite(true); BufferOffset = 4 * 5 * sizeof(float); } if (Preferences.mDrawGridLines) { mContext->SetLineWidth(1.0f); mContext->SetMaterial(lcMaterialType::UnlitColor); mContext->SetColor(lcVector4FromColor(Preferences.mGridLineColor)); int NumVerts = 2 * (MaxX - MinX + MaxY - MinY + 2); mContext->SetVertexFormat(BufferOffset, 3, 0, 0, 0, false); mContext->DrawPrimitives(GL_LINES, 0, NumVerts); } } lcTrackTool lcView::GetOverrideTrackTool(Qt::MouseButton Button) const { if (mTrackToolFromOverlay) return lcTrackTool::None; lcTool OverrideTool = gMouseShortcuts.GetTool(Button, mMouseModifiers); if (OverrideTool == lcTool::Count) return lcTrackTool::None; constexpr lcTrackTool TrackToolFromTool[] = { lcTrackTool::Insert, // lcTool::Insert lcTrackTool::PointLight, // lcTool::Light lcTrackTool::SpotLight, // lcTool::SpotLight lcTrackTool::Camera, // lcTool::Camera lcTrackTool::Select, // lcTool::Select lcTrackTool::MoveXYZ, // lcTool::Move lcTrackTool::RotateXYZ, // lcTool::Rotate lcTrackTool::Eraser, // lcTool::Eraser lcTrackTool::Paint, // lcTool::Paint lcTrackTool::ColorPicker, // lcTool::ColorPicker lcTrackTool::Zoom, // lcTool::Zoom lcTrackTool::Pan, // lcTool::Pan lcTrackTool::OrbitXY, // lcTool::RotateView lcTrackTool::Roll, // lcTool::Roll lcTrackTool::ZoomRegion // lcTool::ZoomRegion }; LC_ARRAY_SIZE_CHECK(TrackToolFromTool, lcTool::Count); return TrackToolFromTool[static_cast(OverrideTool)]; } float lcView::GetOverlayScale() const { lcVector3 OverlayCenter; lcMatrix33 RelativeRotation; lcModel* ActiveModel = GetActiveModel(); ActiveModel->GetMoveRotateTransform(OverlayCenter, RelativeRotation); lcVector3 ScreenPos = ProjectPoint(OverlayCenter); ScreenPos[0] += 10.0f; lcVector3 Point = UnprojectPoint(ScreenPos); lcVector3 Dist(Point - OverlayCenter); return Dist.Length() * 5.0f; } void lcView::BeginDrag(lcDragState DragState) { mDragState = DragState; UpdateTrackTool(); } void lcView::EndDrag(bool Accept) { lcModel* ActiveModel = GetActiveModel(); if (Accept) { switch (mDragState) { case lcDragState::None: break; case lcDragState::Piece: { PieceInfo* Info = gMainWindow->GetCurrentPieceInfo(); if (Info) ActiveModel->InsertPieceToolClicked(GetPieceInsertPosition(false, Info)); } break; case lcDragState::Color: ActiveModel->PaintToolClicked(FindObjectUnderPointer(true, false).Object); break; } } mDragState = lcDragState::None; UpdateTrackTool(); ActiveModel->UpdateAllViews(); } void lcView::SetViewpoint(lcViewpoint Viewpoint) { if (!mCamera || !mCamera->IsSimple()) { lcCamera* OldCamera = mCamera; mCamera = new lcCamera(true); if (OldCamera) mCamera->CopySettings(OldCamera); } mCamera->SetViewpoint(Viewpoint); ZoomExtents(); Redraw(); emit CameraChanged(); } void lcView::SetViewpoint(const lcVector3& Position) { if (!mCamera || !mCamera->IsSimple()) { lcCamera* OldCamera = mCamera; mCamera = new lcCamera(true); if (OldCamera) mCamera->CopySettings(OldCamera); } mCamera->SetViewpoint(Position); ZoomExtents(); Redraw(); emit CameraChanged(); } void lcView::SetViewpoint(const lcVector3& Position, const lcVector3& Target, const lcVector3& Up) { if (!mCamera || !mCamera->IsSimple()) { lcCamera* OldCamera = mCamera; mCamera = new lcCamera(true); if (OldCamera) mCamera->CopySettings(OldCamera); } mCamera->SetViewpoint(Position, Target, Up); Redraw(); emit CameraChanged(); } void lcView::SetCameraAngles(float Latitude, float Longitude) { if (!mCamera || !mCamera->IsSimple()) { lcCamera* OldCamera = mCamera; mCamera = new lcCamera(true); if (OldCamera) mCamera->CopySettings(OldCamera); } mCamera->SetAngles(Latitude, Longitude, 1.0f); ZoomExtents(); Redraw(); } void lcView::SetDefaultCamera() { if (!mCamera || !mCamera->IsSimple()) mCamera = new lcCamera(true); mCamera->SetViewpoint(lcViewpoint::Home); emit CameraChanged(); } void lcView::SetCamera(lcCamera* Camera, bool ForceCopy) { if (Camera->IsSimple() || ForceCopy) { if (!mCamera || !mCamera->IsSimple()) mCamera = new lcCamera(true); mCamera->CopyPosition(Camera); } else { if (mCamera && mCamera->IsSimple()) delete mCamera; mCamera = Camera; } } void lcView::SetCamera(const QString& CameraName) { const lcArray& Cameras = mModel->GetCameras(); for (int CameraIdx = 0; CameraIdx < Cameras.GetSize(); CameraIdx++) { if (CameraName.compare(Cameras[CameraIdx]->GetName(), Qt::CaseInsensitive) == 0) { SetCameraIndex(CameraIdx); return; } } } void lcView::SetCameraIndex(int Index) { const lcArray& Cameras = mModel->GetCameras(); if (Index >= Cameras.GetSize()) return; lcCamera* Camera = Cameras[Index]; SetCamera(Camera, false); emit CameraChanged(); Redraw(); } void lcView::SetProjection(bool Ortho) { if (mCamera->IsSimple()) { mCamera->SetOrtho(Ortho); Redraw(); if (gMainWindow) gMainWindow->UpdatePerspective(); } else { lcModel* ActiveModel = GetActiveModel(); if (ActiveModel) ActiveModel->SetCameraOrthographic(mCamera, Ortho); } } void lcView::LookAt() { lcModel* ActiveModel = GetActiveModel(); if (ActiveModel) ActiveModel->LookAt(mCamera); } void lcView::MoveCamera(const lcVector3& Direction) { lcModel* ActiveModel = GetActiveModel(); if (ActiveModel) ActiveModel->MoveCamera(mCamera, Direction); } void lcView::Zoom(float Amount) { lcModel* ActiveModel = GetActiveModel(); if (ActiveModel) ActiveModel->Zoom(mCamera, Amount); } void lcView::ZoomExtents() { lcModel* ActiveModel = GetActiveModel(); if (ActiveModel) ActiveModel->ZoomExtents(mCamera, (float)mWidth / (float)mHeight); } lcCursor lcView::GetCursor() const { if (mTrackButton != lcTrackButton::None) return lcCursor::Hidden; if (mTrackTool == lcTrackTool::Select) { if (mMouseModifiers & Qt::ControlModifier) return lcCursor::SelectAdd; if (mMouseModifiers & Qt::ShiftModifier) return lcCursor::SelectRemove; } constexpr lcCursor CursorFromTrackTool[] = { lcCursor::Select, // lcTrackTool::None lcCursor::Brick, // lcTrackTool::Insert lcCursor::Light, // lcTrackTool::PointLight lcCursor::Spotlight, // lcTrackTool::SpotLight lcCursor::Camera, // lcTrackTool::Camera lcCursor::Select, // lcTrackTool::Select lcCursor::Move, // lcTrackTool::MoveX lcCursor::Move, // lcTrackTool::MoveY lcCursor::Move, // lcTrackTool::MoveZ lcCursor::Move, // lcTrackTool::MoveXY lcCursor::Move, // lcTrackTool::MoveXZ lcCursor::Move, // lcTrackTool::MoveYZ lcCursor::Move, // lcTrackTool::MoveXYZ lcCursor::Rotate, // lcTrackTool::RotateX lcCursor::Rotate, // lcTrackTool::RotateY lcCursor::Rotate, // lcTrackTool::RotateZ lcCursor::Rotate, // lcTrackTool::RotateXY lcCursor::Rotate, // lcTrackTool::RotateXYZ lcCursor::Move, // lcTrackTool::ScalePlus lcCursor::Move, // lcTrackTool::ScaleMinus lcCursor::Delete, // lcTrackTool::Eraser lcCursor::Paint, // lcTrackTool::Paint lcCursor::ColorPicker, // lcTrackTool::ColorPicker lcCursor::Zoom, // lcTrackTool::Zoom lcCursor::Pan, // lcTrackTool::Pan lcCursor::RotateX, // lcTrackTool::OrbitX lcCursor::RotateY, // lcTrackTool::OrbitY lcCursor::RotateView, // lcTrackTool::OrbitXY lcCursor::Roll, // lcTrackTool::Roll lcCursor::ZoomRegion // lcTrackTool::ZoomRegion }; LC_ARRAY_SIZE_CHECK(CursorFromTrackTool, lcTrackTool::Count); if (mTrackTool >= lcTrackTool::None && mTrackTool < lcTrackTool::Count) return CursorFromTrackTool[static_cast(mTrackTool)]; return lcCursor::Select; } void lcView::SetCursor(lcCursor CursorType) { if (mCursor == CursorType) return; struct lcCursorInfo { int x, y; const char* Name; }; constexpr lcCursorInfo Cursors[] = { { 0, 0, "" }, // lcCursor::Hidden { 0, 0, "" }, // lcCursor::Default { 8, 3, ":/resources/cursor_insert" }, // lcCursor::Brick { 15, 15, ":/resources/cursor_light" }, // lcCursor::Light { 7, 10, ":/resources/cursor_spotlight" }, // lcCursor::Spotlight { 15, 9, ":/resources/cursor_camera" }, // lcCursor::Camera { 0, 2, ":/resources/cursor_select" }, // lcCursor::Select { 0, 2, ":/resources/cursor_select_add" }, // lcCursor::SelectAdd { 0, 2, ":/resources/cursor_select_remove" }, // lcCursor::SelectRemove { 15, 15, ":/resources/cursor_move" }, // lcCursor::Move { 15, 15, ":/resources/cursor_rotate" }, // lcCursor::Rotate { 15, 15, ":/resources/cursor_rotatex" }, // lcCursor::RotateX { 15, 15, ":/resources/cursor_rotatey" }, // lcCursor::RotateY { 0, 10, ":/resources/cursor_delete" }, // lcCursor::Delete { 14, 14, ":/resources/cursor_paint" }, // lcCursor::Paint { 1, 13, ":/resources/cursor_color_picker" }, // lcCursor::ColorPicker { 15, 15, ":/resources/cursor_zoom" }, // lcCursor::Zoom { 9, 9, ":/resources/cursor_zoom_region" }, // lcCursor::ZoomRegion { 15, 15, ":/resources/cursor_pan" }, // lcCursor::Pan { 15, 15, ":/resources/cursor_roll" }, // lcCursor::Roll { 15, 15, ":/resources/cursor_rotate_view" }, // lcCursor::RotateView }; LC_ARRAY_SIZE_CHECK(Cursors, lcCursor::Count); if (CursorType == lcCursor::Hidden) { mWidget->setCursor(Qt::BlankCursor); mCursor = CursorType; } else if (CursorType >= lcCursor::First && CursorType < lcCursor::Count) { const lcCursorInfo& Cursor = Cursors[static_cast(CursorType)]; mWidget->setCursor(QCursor(QPixmap(Cursor.Name), Cursor.x, Cursor.y)); mCursor = CursorType; } else { mWidget->unsetCursor(); mCursor = lcCursor::Default; } } void lcView::UpdateCursor() { SetCursor(GetCursor()); } lcTool lcView::GetCurrentTool() const { constexpr lcTool ToolFromTrackTool[] = { lcTool::Select, // lcTrackTool::None lcTool::Insert, // lcTrackTool::Insert lcTool::Light, // lcTrackTool::PointLight lcTool::SpotLight, // lcTrackTool::SpotLight lcTool::Camera, // lcTrackTool::Camera lcTool::Select, // lcTrackTool::Select lcTool::Move, // lcTrackTool::MoveX lcTool::Move, // lcTrackTool::MoveY lcTool::Move, // lcTrackTool::MoveZ lcTool::Move, // lcTrackTool::MoveXY lcTool::Move, // lcTrackTool::MoveXZ lcTool::Move, // lcTrackTool::MoveYZ lcTool::Move, // lcTrackTool::MoveXYZ lcTool::Rotate, // lcTrackTool::RotateX lcTool::Rotate, // lcTrackTool::RotateY lcTool::Rotate, // lcTrackTool::RotateZ lcTool::Rotate, // lcTrackTool::RotateXY lcTool::Rotate, // lcTrackTool::RotateXYZ lcTool::Move, // lcTrackTool::ScalePlus lcTool::Move, // lcTrackTool::ScaleMinus lcTool::Eraser, // lcTrackTool::Eraser lcTool::Paint, // lcTrackTool::Paint lcTool::ColorPicker, // lcTrackTool::ColorPicker lcTool::Zoom, // lcTrackTool::Zoom lcTool::Pan, // lcTrackTool::Pan lcTool::RotateView, // lcTrackTool::OrbitX lcTool::RotateView, // lcTrackTool::OrbitY lcTool::RotateView, // lcTrackTool::OrbitXY lcTool::Roll, // lcTrackTool::Roll lcTool::ZoomRegion // lcTrackTool::ZoomRegion }; LC_ARRAY_SIZE_CHECK(ToolFromTrackTool, lcTrackTool::Count); if (mTrackTool >= lcTrackTool::None && mTrackTool < lcTrackTool::Count) return ToolFromTrackTool[static_cast(mTrackTool)]; return lcTool::Select; } void lcView::UpdateTrackTool() { if (mViewType != lcViewType::View) { mTrackTool = lcTrackTool::None; UpdateCursor(); return; } lcTool CurrentTool = gMainWindow->GetTool(); lcTrackTool NewTrackTool = mTrackTool; int x = mMouseX; int y = mMouseY; bool Redraw = false; mTrackToolFromOverlay = false; lcModel* ActiveModel = GetActiveModel(); switch (CurrentTool) { case lcTool::Insert: NewTrackTool = lcTrackTool::Insert; break; case lcTool::Light: NewTrackTool = lcTrackTool::PointLight; break; case lcTool::SpotLight: NewTrackTool = lcTrackTool::SpotLight; break; case lcTool::Camera: NewTrackTool = lcTrackTool::Camera; break; case lcTool::Select: case lcTool::Move: { const float OverlayScale = GetOverlayScale(); const float OverlayMovePlaneSize = 0.5f * OverlayScale; const float OverlayMoveArrowSize = 1.5f * OverlayScale; const float OverlayMoveArrowCapRadius = 0.1f * OverlayScale; const float OverlayRotateArrowStart = 1.0f * OverlayScale; const float OverlayRotateArrowEnd = 1.5f * OverlayScale; const float OverlayScaleRadius = 0.125f; NewTrackTool = (CurrentTool == lcTool::Move) ? lcTrackTool::MoveXYZ : lcTrackTool::Select; mMouseDownPiece = nullptr; lcVector3 OverlayCenter; lcMatrix33 RelativeRotation; if (!ActiveModel->GetMoveRotateTransform(OverlayCenter, RelativeRotation)) break; lcMatrix44 WorldMatrix = lcMatrix44(RelativeRotation, OverlayCenter); if (ActiveModel != mModel) WorldMatrix = lcMul(WorldMatrix, mActiveSubmodelTransform); OverlayCenter = WorldMatrix.GetTranslation(); lcVector3 PlaneNormals[3] = { lcVector3(1.0f, 0.0f, 0.0f), lcVector3(0.0f, 1.0f, 0.0f), lcVector3(0.0f, 0.0f, 1.0f), }; for (int i = 0; i < 3; i++) PlaneNormals[i] = lcMul30(PlaneNormals[i], WorldMatrix); lcVector3 StartEnd[2] = { lcVector3((float)x, (float)y, 0.0f), lcVector3((float)x, (float)y, 1.0f) }; UnprojectPoints(StartEnd, 2); const lcVector3& Start = StartEnd[0]; const lcVector3& End = StartEnd[1]; float ClosestIntersectionDistance = FLT_MAX; lcObject* Focus = ActiveModel->GetFocusObject(); int ControlPointIndex = -1; if (Focus && Focus->IsPiece()) { lcPiece* Piece = (lcPiece*)Focus; quint32 Section = Piece->GetFocusSection(); if (Section >= LC_PIECE_SECTION_CONTROL_POINT_FIRST && Section <= LC_PIECE_SECTION_CONTROL_POINT_LAST) ControlPointIndex = Section - LC_PIECE_SECTION_CONTROL_POINT_1; } quint32 AllowedTransforms = Focus ? Focus->GetAllowedTransforms() : LC_OBJECT_TRANSFORM_MOVE_X | LC_OBJECT_TRANSFORM_MOVE_Y | LC_OBJECT_TRANSFORM_MOVE_Z | LC_OBJECT_TRANSFORM_ROTATE_X | LC_OBJECT_TRANSFORM_ROTATE_Y | LC_OBJECT_TRANSFORM_ROTATE_Z; for (int AxisIndex = 0; AxisIndex < 3; AxisIndex++) { lcVector4 Plane(PlaneNormals[AxisIndex], -lcDot(PlaneNormals[AxisIndex], OverlayCenter)); lcVector3 Intersection; if (!lcLineSegmentPlaneIntersection(&Intersection, Start, End, Plane)) continue; float IntersectionDistance = lcLengthSquared(Intersection - Start); if (IntersectionDistance > ClosestIntersectionDistance) continue; lcVector3 Dir(Intersection - 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) { lcTrackTool PlaneModes[] = { lcTrackTool::MoveYZ, lcTrackTool::MoveXZ, lcTrackTool::MoveXY }; if (IsTrackToolAllowed(PlaneModes[AxisIndex], AllowedTransforms)) { NewTrackTool = PlaneModes[AxisIndex]; ClosestIntersectionDistance = IntersectionDistance; } } if (CurrentTool == lcTool::Select && Proj1 > OverlayRotateArrowStart && Proj1 < OverlayRotateArrowEnd && Proj2 > OverlayRotateArrowStart && Proj2 < OverlayRotateArrowEnd && ActiveModel->AnyPiecesSelected()) { lcTrackTool PlaneModes[] = { lcTrackTool::RotateX, lcTrackTool::RotateY, lcTrackTool::RotateZ }; if (IsTrackToolAllowed(PlaneModes[AxisIndex], AllowedTransforms)) { NewTrackTool = PlaneModes[AxisIndex]; ClosestIntersectionDistance = IntersectionDistance; } } if (fabs(Proj1) < OverlayMoveArrowCapRadius && Proj2 > 0.0f && Proj2 < OverlayMoveArrowSize) { lcTrackTool DirModes[] = { lcTrackTool::MoveZ, lcTrackTool::MoveX, lcTrackTool::MoveY }; if (IsTrackToolAllowed(DirModes[AxisIndex], AllowedTransforms)) { NewTrackTool = DirModes[AxisIndex]; ClosestIntersectionDistance = IntersectionDistance; } } if (fabs(Proj2) < OverlayMoveArrowCapRadius && Proj1 > 0.0f && Proj1 < OverlayMoveArrowSize) { lcTrackTool DirModes[] = { lcTrackTool::MoveY, lcTrackTool::MoveZ, lcTrackTool::MoveX }; if (IsTrackToolAllowed(DirModes[AxisIndex], AllowedTransforms)) { NewTrackTool = DirModes[AxisIndex]; ClosestIntersectionDistance = IntersectionDistance; } } lcPiece* Piece = (lcPiece*)Focus; if (ControlPointIndex != -1 && Piece->mPieceInfo->GetSynthInfo() && Piece->mPieceInfo->GetSynthInfo()->IsCurve()) { float Strength = Piece->GetControlPoints()[ControlPointIndex].Scale; const float ScaleStart = (2.0f - OverlayScaleRadius) * OverlayScale + Strength; const float ScaleEnd = (2.0f + OverlayScaleRadius) * OverlayScale + Strength; if (AxisIndex == 1 && fabs(Proj1) < OverlayScaleRadius * OverlayScale) { if (Proj2 > ScaleStart && Proj2 < ScaleEnd) { if (IsTrackToolAllowed(lcTrackTool::ScalePlus, AllowedTransforms)) { NewTrackTool = lcTrackTool::ScalePlus; ClosestIntersectionDistance = IntersectionDistance; } } else if (Proj2 < -ScaleStart && Proj2 > -ScaleEnd) { if (IsTrackToolAllowed(lcTrackTool::ScaleMinus, AllowedTransforms)) { NewTrackTool = lcTrackTool::ScaleMinus; ClosestIntersectionDistance = IntersectionDistance; } } } else if (AxisIndex == 2 && fabs(Proj2) < OverlayScaleRadius * OverlayScale) { if (Proj1 > ScaleStart && Proj1 < ScaleEnd) { if (IsTrackToolAllowed(lcTrackTool::ScalePlus, AllowedTransforms)) { NewTrackTool = lcTrackTool::ScalePlus; ClosestIntersectionDistance = IntersectionDistance; } } else if (Proj1 < -ScaleStart && Proj1 > -ScaleEnd) { if (IsTrackToolAllowed(lcTrackTool::ScaleMinus, AllowedTransforms)) { NewTrackTool = lcTrackTool::ScaleMinus; ClosestIntersectionDistance = IntersectionDistance; } } } } } if (CurrentTool == lcTool::Select && NewTrackTool == lcTrackTool::Select && mMouseModifiers == Qt::NoModifier) { lcObjectSection ObjectSection = FindObjectUnderPointer(false, false); lcObject* Object = ObjectSection.Object; if (Object && Object->IsPiece() && ObjectSection.Section == LC_PIECE_SECTION_POSITION && Object->IsSelected()) { lcPiece* Piece = (lcPiece*)Object; mMouseDownPosition = Piece->mModelWorld.GetTranslation(); mMouseDownPiece = Piece->mPieceInfo; NewTrackTool = lcTrackTool::MoveXYZ; } } mTrackToolFromOverlay = NewTrackTool != lcTrackTool::MoveXYZ && NewTrackTool != lcTrackTool::Select; Redraw = true; } break; case lcTool::Rotate: { const float OverlayScale = GetOverlayScale(); const float OverlayRotateRadius = 2.0f; NewTrackTool = lcTrackTool::RotateXYZ; lcVector3 OverlayCenter; lcMatrix33 RelativeRotation; if (!ActiveModel->GetMoveRotateTransform(OverlayCenter, RelativeRotation)) break; // Calculate the distance from the mouse pointer to the center of the sphere. lcVector3 StartEnd[2] = { lcVector3((float)x, (float)y, 0.0f), lcVector3((float)x, (float)y, 1.0f) }; UnprojectPoints(StartEnd, 2); const lcVector3& SegStart = StartEnd[0]; const lcVector3& SegEnd = StartEnd[1]; lcVector3 Line = SegEnd - SegStart; lcVector3 Vec = OverlayCenter - SegStart; float u = lcDot(Vec, Line) / Line.LengthSquared(); // Closest point in the line to the mouse. lcVector3 Closest = SegStart + Line * u; float Distance = (Closest - OverlayCenter).Length(); const float Epsilon = 0.25f * OverlayScale; if (Distance > (OverlayRotateRadius * OverlayScale + Epsilon)) { NewTrackTool = lcTrackTool::RotateXYZ; } else if (Distance < (OverlayRotateRadius * OverlayScale + Epsilon)) { // 3D rotation unless we're over one of the axis circles. NewTrackTool = lcTrackTool::RotateXYZ; // 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 = OverlayCenter[0], y3 = OverlayCenter[1], z3 = 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) { lcVector3 ViewDir(mCamera->mTargetPosition - mCamera->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] - OverlayCenter; if (lcDot(ViewDir, Dist) > 0.0f) continue; Dist = lcMul(Dist, RelativeRotation); // 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) NewTrackTool = lcTrackTool::RotateX; } else { if (dz < Epsilon) NewTrackTool = lcTrackTool::RotateZ; } } else { if (dy < dz) { if (dy < Epsilon) NewTrackTool = lcTrackTool::RotateY; } else { if (dz < Epsilon) NewTrackTool = lcTrackTool::RotateZ; } } if (NewTrackTool != lcTrackTool::RotateXYZ) { switch (NewTrackTool) { case lcTrackTool::RotateX: Dist[0] = 0.0f; break; case lcTrackTool::RotateY: Dist[1] = 0.0f; break; case lcTrackTool::RotateZ: Dist[2] = 0.0f; break; default: break; } mTrackToolFromOverlay = true; Dist *= r; break; } } } } Redraw = true; } break; case lcTool::Eraser: NewTrackTool = lcTrackTool::Eraser; break; case lcTool::Paint: NewTrackTool = lcTrackTool::Paint; break; case lcTool::ColorPicker: NewTrackTool = lcTrackTool::ColorPicker; break; case lcTool::Zoom: NewTrackTool = lcTrackTool::Zoom; break; case lcTool::Pan: NewTrackTool = lcTrackTool::Pan; break; case lcTool::RotateView: { int vx, vy, vw, vh; vx = 0; vy = 0; vw = mWidth; vh = mHeight; 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) / 200.0f); if ((d < r + SquareSize) && (d > r - SquareSize)) { if ((cx - x < SquareSize) && (cx - x > -SquareSize)) { NewTrackTool = lcTrackTool::OrbitY; mTrackToolFromOverlay = true; } if ((cy - y < SquareSize) && (cy - y > -SquareSize)) { NewTrackTool = lcTrackTool::OrbitX; mTrackToolFromOverlay = true; } } else { if (d < r) NewTrackTool = lcTrackTool::OrbitXY; else NewTrackTool = lcTrackTool::Roll; } } break; case lcTool::Roll: NewTrackTool = lcTrackTool::Roll; break; case lcTool::ZoomRegion: NewTrackTool = lcTrackTool::ZoomRegion; break; case lcTool::Count: break; } switch (mDragState) { case lcDragState::None: break; case lcDragState::Piece: NewTrackTool = lcTrackTool::Insert; Redraw = true; break; case lcDragState::Color: NewTrackTool = lcTrackTool::Paint; break; } mTrackTool = NewTrackTool; UpdateCursor(); if (Redraw) ActiveModel->UpdateAllViews(); } bool lcView::IsTrackToolAllowed(lcTrackTool TrackTool, quint32 AllowedTransforms) const { switch (TrackTool) { case lcTrackTool::None: case lcTrackTool::Insert: case lcTrackTool::PointLight: case lcTrackTool::SpotLight: case lcTrackTool::Camera: case lcTrackTool::Select: return true; case lcTrackTool::MoveX: return AllowedTransforms & LC_OBJECT_TRANSFORM_MOVE_X; case lcTrackTool::MoveY: return AllowedTransforms & LC_OBJECT_TRANSFORM_MOVE_Y; case lcTrackTool::MoveZ: return AllowedTransforms & LC_OBJECT_TRANSFORM_MOVE_Z; case lcTrackTool::MoveXY: return (AllowedTransforms & (LC_OBJECT_TRANSFORM_MOVE_X | LC_OBJECT_TRANSFORM_MOVE_Y)) == (LC_OBJECT_TRANSFORM_MOVE_X | LC_OBJECT_TRANSFORM_MOVE_Y); case lcTrackTool::MoveXZ: return (AllowedTransforms & (LC_OBJECT_TRANSFORM_MOVE_X | LC_OBJECT_TRANSFORM_MOVE_Z)) == (LC_OBJECT_TRANSFORM_MOVE_X | LC_OBJECT_TRANSFORM_MOVE_Z); case lcTrackTool::MoveYZ: return (AllowedTransforms & (LC_OBJECT_TRANSFORM_MOVE_Y | LC_OBJECT_TRANSFORM_MOVE_Z)) == (LC_OBJECT_TRANSFORM_MOVE_Y | LC_OBJECT_TRANSFORM_MOVE_Z); case lcTrackTool::MoveXYZ: return (AllowedTransforms & (LC_OBJECT_TRANSFORM_MOVE_X | LC_OBJECT_TRANSFORM_MOVE_Y | LC_OBJECT_TRANSFORM_MOVE_Z)) == (LC_OBJECT_TRANSFORM_MOVE_X | LC_OBJECT_TRANSFORM_MOVE_Y | LC_OBJECT_TRANSFORM_MOVE_Z); case lcTrackTool::RotateX: return AllowedTransforms & LC_OBJECT_TRANSFORM_ROTATE_X; case lcTrackTool::RotateY: return AllowedTransforms & LC_OBJECT_TRANSFORM_ROTATE_Y; case lcTrackTool::RotateZ: return AllowedTransforms & LC_OBJECT_TRANSFORM_ROTATE_Z; case lcTrackTool::RotateXY: return (AllowedTransforms & (LC_OBJECT_TRANSFORM_ROTATE_X | LC_OBJECT_TRANSFORM_ROTATE_Y)) == (LC_OBJECT_TRANSFORM_ROTATE_X | LC_OBJECT_TRANSFORM_ROTATE_Y); case lcTrackTool::RotateXYZ: return (AllowedTransforms & (LC_OBJECT_TRANSFORM_ROTATE_X | LC_OBJECT_TRANSFORM_ROTATE_Y | LC_OBJECT_TRANSFORM_ROTATE_Z)) == (LC_OBJECT_TRANSFORM_ROTATE_X | LC_OBJECT_TRANSFORM_ROTATE_Y | LC_OBJECT_TRANSFORM_ROTATE_Z); case lcTrackTool::ScalePlus: case lcTrackTool::ScaleMinus: return AllowedTransforms & (LC_OBJECT_TRANSFORM_SCALE_X | LC_OBJECT_TRANSFORM_SCALE_Y | LC_OBJECT_TRANSFORM_SCALE_Z); case lcTrackTool::Eraser: case lcTrackTool::Paint: case lcTrackTool::ColorPicker: case lcTrackTool::Zoom: case lcTrackTool::Pan: case lcTrackTool::OrbitX: case lcTrackTool::OrbitY: case lcTrackTool::OrbitXY: case lcTrackTool::Roll: case lcTrackTool::ZoomRegion: return true; case lcTrackTool::Count: return false; } return false; } void lcView::StartOrbitTracking() { mTrackTool = lcTrackTool::OrbitXY; UpdateCursor(); OnButtonDown(lcTrackButton::Left); } void lcView::StartTracking(lcTrackButton TrackButton) { mTrackButton = TrackButton; mTrackUpdated = false; mMouseDownX = mMouseX; mMouseDownY = mMouseY; lcTool Tool = GetCurrentTool(); lcModel* ActiveModel = GetActiveModel(); switch (Tool) { case lcTool::Insert: case lcTool::Light: break; case lcTool::SpotLight: { lcVector3 Position = GetCameraLightInsertPosition(); lcVector3 Target = Position + lcVector3(0.1f, 0.1f, 0.1f); ActiveModel->BeginSpotLightTool(Position, Target); } break; case lcTool::Camera: { lcVector3 Position = GetCameraLightInsertPosition(); lcVector3 Target = Position + lcVector3(0.1f, 0.1f, 0.1f); ActiveModel->BeginCameraTool(Position, Target); } break; case lcTool::Select: break; case lcTool::Move: case lcTool::Rotate: ActiveModel->BeginMouseTool(); break; case lcTool::Eraser: case lcTool::Paint: case lcTool::ColorPicker: break; case lcTool::Zoom: case lcTool::Pan: case lcTool::RotateView: case lcTool::Roll: ActiveModel->BeginMouseTool(); break; case lcTool::ZoomRegion: break; case lcTool::Count: break; } UpdateCursor(); } void lcView::StopTracking(bool Accept) { if (mTrackButton == lcTrackButton::None) return; lcTool Tool = GetCurrentTool(); lcModel* ActiveModel = GetActiveModel(); switch (Tool) { case lcTool::Insert: case lcTool::Light: break; case lcTool::SpotLight: case lcTool::Camera: ActiveModel->EndMouseTool(Tool, Accept); break; case lcTool::Select: if (Accept && mMouseDownX != mMouseX && mMouseDownY != mMouseY) { lcArray Objects = FindObjectsInBox(mMouseDownX, mMouseDownY, mMouseX, mMouseY); if (mMouseModifiers & Qt::ControlModifier) ActiveModel->AddToSelection(Objects, true, true); else if (mMouseModifiers & Qt::ShiftModifier) ActiveModel->RemoveFromSelection(Objects); else ActiveModel->SetSelectionAndFocus(Objects, nullptr, 0, true); } break; case lcTool::Move: case lcTool::Rotate: ActiveModel->EndMouseTool(Tool, Accept); break; case lcTool::Eraser: case lcTool::Paint: case lcTool::ColorPicker: break; case lcTool::Zoom: case lcTool::Pan: case lcTool::RotateView: case lcTool::Roll: ActiveModel->EndMouseTool(Tool, Accept); break; case lcTool::ZoomRegion: { if (mMouseX == mMouseDownX || mMouseY == mMouseDownY) break; lcVector3 Points[6] = { lcVector3((mMouseDownX + lcMin(mMouseX, mWidth - 1)) / 2, (mMouseDownY + lcMin(mMouseY, mHeight - 1)) / 2, 0.0f), lcVector3((mMouseDownX + lcMin(mMouseX, mWidth - 1)) / 2, (mMouseDownY + lcMin(mMouseY, mHeight - 1)) / 2, 1.0f), lcVector3((float)mMouseX, (float)mMouseY, 0.0f), lcVector3((float)mMouseX, (float)mMouseY, 1.0f), lcVector3(mMouseDownX, mMouseDownY, 0.0f), lcVector3(mMouseDownX, mMouseDownY, 1.0f) }; UnprojectPoints(Points, 5); lcVector3 Center = ActiveModel->GetSelectionOrModelCenter(); lcVector3 PlaneNormal(mCamera->mPosition - mCamera->mTargetPosition); lcVector4 Plane(PlaneNormal, -lcDot(PlaneNormal, Center)); lcVector3 Target, Corners[2]; if (lcLineSegmentPlaneIntersection(&Target, Points[0], Points[1], Plane) && lcLineSegmentPlaneIntersection(&Corners[0], Points[2], Points[3], Plane) && lcLineSegmentPlaneIntersection(&Corners[1], Points[3], Points[4], Plane)) { float AspectRatio = (float)mWidth / (float)mHeight; ActiveModel->ZoomRegionToolClicked(mCamera, AspectRatio, Points[0], Target, Corners); } } break; case lcTool::Count: break; } mTrackButton = lcTrackButton::None; UpdateTrackTool(); ActiveModel->UpdateAllViews(); } void lcView::CancelTrackingOrClearSelection() { if (mTrackButton != lcTrackButton::None) StopTracking(false); else { lcModel* ActiveModel = GetActiveModel(); if (ActiveModel) ActiveModel->ClearSelection(true); } } void lcView::OnButtonDown(lcTrackButton TrackButton) { lcModel* ActiveModel = GetActiveModel(); mToolClicked = false; switch (mTrackTool) { case lcTrackTool::None: break; case lcTrackTool::Insert: { PieceInfo* CurPiece = gMainWindow->GetCurrentPieceInfo(); if (!CurPiece) break; ActiveModel->InsertPieceToolClicked(GetPieceInsertPosition(false, gMainWindow->GetCurrentPieceInfo())); if ((mMouseModifiers & Qt::ControlModifier) == 0) gMainWindow->SetTool(lcTool::Select); mToolClicked = true; UpdateTrackTool(); } break; case lcTrackTool::PointLight: { ActiveModel->PointLightToolClicked(GetCameraLightInsertPosition()); if ((mMouseModifiers & Qt::ControlModifier) == 0) gMainWindow->SetTool(lcTool::Select); mToolClicked = true; UpdateTrackTool(); } break; case lcTrackTool::SpotLight: case lcTrackTool::Camera: StartTracking(TrackButton); break; case lcTrackTool::Select: { lcObjectSection ObjectSection = FindObjectUnderPointer(false, false); if (mMouseModifiers & Qt::ControlModifier) ActiveModel->FocusOrDeselectObject(ObjectSection); else if (mMouseModifiers & Qt::ShiftModifier) ActiveModel->RemoveFromSelection(ObjectSection); else ActiveModel->ClearSelectionAndSetFocus(ObjectSection, true); StartTracking(TrackButton); } break; case lcTrackTool::MoveX: case lcTrackTool::MoveY: case lcTrackTool::MoveZ: case lcTrackTool::MoveXY: case lcTrackTool::MoveXZ: case lcTrackTool::MoveYZ: case lcTrackTool::MoveXYZ: if (ActiveModel->AnyObjectsSelected()) StartTracking(TrackButton); break; case lcTrackTool::RotateX: case lcTrackTool::RotateY: case lcTrackTool::RotateZ: case lcTrackTool::RotateXY: case lcTrackTool::RotateXYZ: if (ActiveModel->AnyPiecesSelected()) StartTracking(TrackButton); break; case lcTrackTool::ScalePlus: case lcTrackTool::ScaleMinus: if (ActiveModel->AnyPiecesSelected()) StartTracking(TrackButton); break; case lcTrackTool::Eraser: ActiveModel->EraserToolClicked(FindObjectUnderPointer(false, false).Object); mToolClicked = true; break; case lcTrackTool::Paint: ActiveModel->PaintToolClicked(FindObjectUnderPointer(true, false).Object); mToolClicked = true; break; case lcTrackTool::ColorPicker: ActiveModel->ColorPickerToolClicked(FindObjectUnderPointer(true, false).Object); mToolClicked = true; break; case lcTrackTool::Zoom: case lcTrackTool::Pan: case lcTrackTool::OrbitX: case lcTrackTool::OrbitY: case lcTrackTool::OrbitXY: case lcTrackTool::Roll: case lcTrackTool::ZoomRegion: StartTracking(TrackButton); break; case lcTrackTool::Count: break; } } void lcView::OnLeftButtonDown() { if (mTrackButton != lcTrackButton::None) { StopTracking(false); return; } if (mViewSphere->OnLeftButtonDown()) return; lcTrackTool OverrideTool = GetOverrideTrackTool(Qt::LeftButton); if (OverrideTool != lcTrackTool::None) { mTrackTool = OverrideTool; UpdateCursor(); } OnButtonDown(lcTrackButton::Left); } void lcView::OnLeftButtonUp() { StopTracking(mTrackButton == lcTrackButton::Left); if (mViewSphere->OnLeftButtonUp()) return; } void lcView::OnLeftButtonDoubleClick() { if (mViewType != lcViewType::View) { ZoomExtents(); return; } lcObjectSection ObjectSection = FindObjectUnderPointer(false, false); lcModel* ActiveModel = GetActiveModel(); if (mMouseModifiers & Qt::ControlModifier) ActiveModel->FocusOrDeselectObject(ObjectSection); else if (mMouseModifiers & Qt::ShiftModifier) ActiveModel->RemoveFromSelection(ObjectSection); else ActiveModel->ClearSelectionAndSetFocus(ObjectSection, true); } void lcView::OnMiddleButtonDown() { if (mTrackButton != lcTrackButton::None) { StopTracking(false); return; } #if (QT_VERSION >= QT_VERSION_CHECK(4, 7, 0)) lcTrackTool OverrideTool = GetOverrideTrackTool(Qt::MiddleButton); if (OverrideTool != lcTrackTool::None) { mTrackTool = OverrideTool; UpdateCursor(); } #endif OnButtonDown(lcTrackButton::Middle); } void lcView::OnMiddleButtonUp() { StopTracking(mTrackButton == lcTrackButton::Middle); } void lcView::OnRightButtonDown() { if (mTrackButton != lcTrackButton::None) { StopTracking(false); return; } lcTrackTool OverrideTool = GetOverrideTrackTool(Qt::RightButton); if (OverrideTool != lcTrackTool::None) { mTrackTool = OverrideTool; UpdateCursor(); } OnButtonDown(lcTrackButton::Right); } void lcView::OnRightButtonUp() { bool ShowMenu = !mToolClicked && (mTrackButton == lcTrackButton::None || !mTrackUpdated); if (mTrackButton != lcTrackButton::None) StopTracking(mTrackButton == lcTrackButton::Right); if (ShowMenu) ShowContextMenu(); } void lcView::OnBackButtonDown() { } void lcView::OnBackButtonUp() { gMainWindow->HandleCommand(LC_VIEW_TIME_PREVIOUS); } void lcView::OnForwardButtonDown() { } void lcView::OnForwardButtonUp() { gMainWindow->HandleCommand(LC_VIEW_TIME_NEXT); } void lcView::OnMouseMove() { lcModel* ActiveModel = GetActiveModel(); if (!ActiveModel) return; if (mTrackButton == lcTrackButton::None) { if (mViewSphere->OnMouseMove()) { lcTrackTool NewTrackTool = mViewSphere->IsDragging() ? lcTrackTool::OrbitXY : lcTrackTool::None; if (NewTrackTool != mTrackTool) { mTrackTool = NewTrackTool; UpdateCursor(); } return; } UpdateTrackTool(); if (mTrackTool == lcTrackTool::Insert) ActiveModel->UpdateAllViews(); return; } mTrackUpdated = true; const float MouseSensitivity = 0.5f / (21.0f - lcGetPreferences().mMouseSensitivity); switch (mTrackTool) { case lcTrackTool::None: case lcTrackTool::Insert: case lcTrackTool::PointLight: break; case lcTrackTool::SpotLight: ActiveModel->UpdateSpotLightTool(GetCameraLightInsertPosition()); break; case lcTrackTool::Camera: ActiveModel->UpdateCameraTool(GetCameraLightInsertPosition()); break; case lcTrackTool::Select: Redraw(); break; case lcTrackTool::MoveX: case lcTrackTool::MoveY: case lcTrackTool::MoveZ: case lcTrackTool::MoveXY: case lcTrackTool::MoveXZ: case lcTrackTool::MoveYZ: case lcTrackTool::MoveXYZ: case lcTrackTool::ScalePlus: case lcTrackTool::ScaleMinus: { lcVector3 Points[4] = { lcVector3((float)mMouseX, (float)mMouseY, 0.0f), lcVector3((float)mMouseX, (float)mMouseY, 1.0f), lcVector3(mMouseDownX, mMouseDownY, 0.0f), lcVector3(mMouseDownX, mMouseDownY, 1.0f) }; UnprojectPoints(Points, 4); const lcVector3& CurrentStart = Points[0]; const lcVector3& CurrentEnd = Points[1]; const lcVector3& MouseDownStart = Points[2]; const lcVector3& MouseDownEnd = Points[3]; lcVector3 Center; lcMatrix33 RelativeRotation; ActiveModel->GetMoveRotateTransform(Center, RelativeRotation); if (mTrackTool == lcTrackTool::MoveX || mTrackTool == lcTrackTool::MoveY || mTrackTool == lcTrackTool::MoveZ) { lcVector3 Direction; if (mTrackTool == lcTrackTool::MoveX) Direction = lcVector3(1.0f, 0.0f, 0.0f); else if (mTrackTool == lcTrackTool::MoveY) Direction = lcVector3(0.0f, 1.0f, 0.0f); else Direction = lcVector3(0.0f, 0.0f, 1.0f); Direction = lcMul(Direction, RelativeRotation); lcVector3 Intersection; lcClosestPointsBetweenLines(Center, Center + Direction, CurrentStart, CurrentEnd, &Intersection, nullptr); lcVector3 MoveStart; lcClosestPointsBetweenLines(Center, Center + Direction, MouseDownStart, MouseDownEnd, &MoveStart, nullptr); lcVector3 Distance = Intersection - MoveStart; Distance = lcMul(Distance, lcMatrix33AffineInverse(RelativeRotation)); ActiveModel->UpdateMoveTool(Distance, mTrackButton != lcTrackButton::Left); } else if (mTrackTool == lcTrackTool::MoveXY || mTrackTool == lcTrackTool::MoveXZ || mTrackTool == lcTrackTool::MoveYZ) { lcVector3 PlaneNormal; if (mTrackTool == lcTrackTool::MoveXY) PlaneNormal = lcVector3(0.0f, 0.0f, 1.0f); else if (mTrackTool == lcTrackTool::MoveXZ) PlaneNormal = lcVector3(0.0f, 1.0f, 0.0f); else PlaneNormal = lcVector3(1.0f, 0.0f, 0.0f); PlaneNormal = lcMul(PlaneNormal, RelativeRotation); lcVector4 Plane(PlaneNormal, -lcDot(PlaneNormal, Center)); lcVector3 Intersection; if (lcLineSegmentPlaneIntersection(&Intersection, CurrentStart, CurrentEnd, Plane)) { lcVector3 MoveStart; if (lcLineSegmentPlaneIntersection(&MoveStart, MouseDownStart, MouseDownEnd, Plane)) { lcVector3 Distance = Intersection - MoveStart; Distance = lcMul(Distance, lcMatrix33AffineInverse(RelativeRotation)); ActiveModel->UpdateMoveTool(Distance, mTrackButton != lcTrackButton::Left); } } } else if (mTrackTool == lcTrackTool::MoveXYZ && mMouseDownPiece) { lcMatrix44 NewPosition = GetPieceInsertPosition(true, mMouseDownPiece); lcVector3 Distance = NewPosition.GetTranslation() - mMouseDownPosition; ActiveModel->UpdateMoveTool(Distance, mTrackButton != lcTrackButton::Left); } else if (mTrackTool == lcTrackTool::ScalePlus || mTrackTool == lcTrackTool::ScaleMinus) { lcVector3 Direction; if (mTrackTool == lcTrackTool::ScalePlus) Direction = lcVector3(1.0f, 0.0f, 0.0f); else Direction = lcVector3(-1.0f, 0.0f, 0.0f); Direction = lcMul(Direction, RelativeRotation); lcVector3 Intersection; lcClosestPointsBetweenLines(Center, Center + Direction, CurrentStart, CurrentEnd, &Intersection, nullptr); lcObject* Focus = ActiveModel->GetFocusObject(); if (Focus && Focus->IsPiece()) { lcPiece* Piece = (lcPiece*)Focus; quint32 Section = Piece->GetFocusSection(); if (Section >= LC_PIECE_SECTION_CONTROL_POINT_FIRST && Section <= LC_PIECE_SECTION_CONTROL_POINT_LAST) { const float ScaleMax = 200.0f; const float OverlayScale = GetOverlayScale(); const float ScaleStart = 2.0f * OverlayScale; lcVector3 Position = Piece->GetSectionPosition(Section); lcVector3 Start = Position + Direction * ScaleStart; float Distance = lcLength(Intersection - Start); if (lcDot(Direction, Intersection - Start) < 0.0f) Distance = 0.0f; float Scale = lcClamp(Distance, 0.1f, ScaleMax); ActiveModel->UpdateScaleTool(Scale); } } } else { lcVector3 PlaneNormal = lcNormalize(mCamera->mTargetPosition - mCamera->mPosition); lcVector4 Plane(PlaneNormal, -lcDot(PlaneNormal, Center)); lcVector3 Intersection; if (lcLineSegmentPlaneIntersection(&Intersection, CurrentStart, CurrentEnd, Plane)) { lcVector3 MoveStart; if (lcLineSegmentPlaneIntersection(&MoveStart, MouseDownStart, MouseDownEnd, Plane)) { lcVector3 Distance = Intersection - MoveStart; ActiveModel->UpdateMoveTool(Distance, mTrackButton != lcTrackButton::Left); } } } } break; case lcTrackTool::RotateX: case lcTrackTool::RotateY: case lcTrackTool::RotateZ: { lcVector3 ScreenX = lcNormalize(lcCross(mCamera->mTargetPosition - mCamera->mPosition, mCamera->mUpVector)); lcVector3 ScreenY = mCamera->mUpVector; lcVector3 Dir1; switch (mTrackTool) { case lcTrackTool::RotateX: Dir1 = lcVector3(1.0f, 0.0f, 0.0f); break; case lcTrackTool::RotateY: Dir1 = lcVector3(0.0f, 1.0f, 0.0f); break; case lcTrackTool::RotateZ: Dir1 = lcVector3(0.0f, 0.0f, 1.0f); break; default: Dir1 = lcVector3(0.0f, 0.0f, 1.0f); break; } lcVector3 MoveX, MoveY; 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; } MoveX *= 36.0f * (float)(mMouseX - mMouseDownX) * MouseSensitivity; MoveY *= 36.0f * (float)(mMouseY - mMouseDownY) * MouseSensitivity; ActiveModel->UpdateRotateTool(MoveX + MoveY, mTrackButton != lcTrackButton::Left); } break; case lcTrackTool::RotateXY: { lcVector3 ScreenZ = lcNormalize(mCamera->mTargetPosition - mCamera->mPosition); lcVector3 ScreenX = lcCross(ScreenZ, mCamera->mUpVector); lcVector3 ScreenY = mCamera->mUpVector; lcVector3 MoveX = 36.0f * (float)(mMouseX - mMouseDownX) * MouseSensitivity * ScreenX; lcVector3 MoveY = 36.0f * (float)(mMouseY - mMouseDownY) * MouseSensitivity * ScreenY; ActiveModel->UpdateRotateTool(MoveX + MoveY, mTrackButton != lcTrackButton::Left); } break; case lcTrackTool::RotateXYZ: { lcVector3 ScreenZ = lcNormalize(mCamera->mTargetPosition - mCamera->mPosition); ActiveModel->UpdateRotateTool(36.0f * (float)(mMouseY - mMouseDownY) * MouseSensitivity * ScreenZ, mTrackButton != lcTrackButton::Left); } break; case lcTrackTool::Eraser: case lcTrackTool::Paint: case lcTrackTool::ColorPicker: break; case lcTrackTool::Zoom: ActiveModel->UpdateZoomTool(mCamera, 2.0f * MouseSensitivity * (mMouseY - mMouseDownY)); break; case lcTrackTool::Pan: { lcVector3 Points[4] = { lcVector3((float)mMouseX, (float)mMouseY, 0.0f), lcVector3((float)mMouseX, (float)mMouseY, 1.0f), lcVector3(mMouseDownX, mMouseDownY, 0.0f), lcVector3(mMouseDownX, mMouseDownY, 1.0f) }; UnprojectPoints(Points, 4); const lcVector3& CurrentStart = Points[0]; const lcVector3& CurrentEnd = Points[1]; const lcVector3& MouseDownStart = Points[2]; const lcVector3& MouseDownEnd = Points[3]; lcVector3 Center = ActiveModel->GetSelectionOrModelCenter(); lcVector3 PlaneNormal(mCamera->mPosition - mCamera->mTargetPosition); lcVector4 Plane(PlaneNormal, -lcDot(PlaneNormal, Center)); lcVector3 Intersection, MoveStart; if (!lcLineSegmentPlaneIntersection(&Intersection, CurrentStart, CurrentEnd, Plane) || !lcLineSegmentPlaneIntersection(&MoveStart, MouseDownStart, MouseDownEnd, Plane)) { Center = MouseDownStart + lcNormalize(MouseDownEnd - MouseDownStart) * 10.0f; Plane = lcVector4(PlaneNormal, -lcDot(PlaneNormal, Center)); if (!lcLineSegmentPlaneIntersection(&Intersection, CurrentStart, CurrentEnd, Plane) || !lcLineSegmentPlaneIntersection(&MoveStart, MouseDownStart, MouseDownEnd, Plane)) break; } ActiveModel->UpdatePanTool(mCamera, MoveStart - Intersection); } break; case lcTrackTool::OrbitX: ActiveModel->UpdateOrbitTool(mCamera, 0.1f * MouseSensitivity * (mMouseX - mMouseDownX), 0.0f); break; case lcTrackTool::OrbitY: ActiveModel->UpdateOrbitTool(mCamera, 0.0f, 0.1f * MouseSensitivity * (mMouseY - mMouseDownY)); break; case lcTrackTool::OrbitXY: ActiveModel->UpdateOrbitTool(mCamera, 0.1f * MouseSensitivity * (mMouseX - mMouseDownX), 0.1f * MouseSensitivity * (mMouseY - mMouseDownY)); break; case lcTrackTool::Roll: ActiveModel->UpdateRollTool(mCamera, 2.0f * MouseSensitivity * (mMouseX - mMouseDownX) * LC_DTOR); break; case lcTrackTool::ZoomRegion: Redraw(); break; case lcTrackTool::Count: break; } } void lcView::OnMouseWheel(float Direction) { mModel->Zoom(mCamera, (int)(((mMouseModifiers & Qt::ControlModifier) ? 100 : 10) * Direction)); }