#include #include "solvespace.h" #define mView (&GraphicsWindow::MenuView) #define mEdit (&GraphicsWindow::MenuEdit) #define mReq (&GraphicsWindow::MenuRequest) #define mCon (&Constraint::MenuConstrain) #define mFile (&SolveSpace::MenuFile) #define mGrp (&Group::MenuGroup) #define S 0x100 #define C 0x200 const GraphicsWindow::MenuEntry GraphicsWindow::menu[] = { { 0, "&File", 0, NULL }, { 1, "&New\tCtrl+N", MNU_NEW, 'N'|C, mFile }, { 1, "&Open...\tCtrl+O", MNU_OPEN, 'O'|C, mFile }, { 1, "&Save\tCtrl+S", MNU_SAVE, 'S'|C, mFile }, { 1, "Save &As...", MNU_SAVE_AS, 0, mFile }, { 1, NULL, 0, 0, NULL }, { 1, "E&xit", MNU_EXIT, 0, mFile }, { 0, "&Edit", 0, NULL }, { 1, "&Undo\tCtrl+Z", 0, NULL }, { 1, "&Redo\tCtrl+Y", 0, NULL }, { 1, NULL, 0, NULL }, { 1, "&Delete\tDel", MNU_DELETE, 127, mEdit }, { 1, NULL, 0, NULL }, { 1, "&Unselect All\tEsc", MNU_UNSELECT_ALL, 27, mEdit }, { 0, "&View", 0, NULL }, { 1, "Zoom &In\t+", MNU_ZOOM_IN, '+', mView }, { 1, "Zoom &Out\t-", MNU_ZOOM_OUT, '-', mView }, { 1, "Zoom To &Fit\tF", MNU_ZOOM_TO_FIT, 'F', mView }, { 1, "Onto Othe&r Side\tCtrl+O", MNU_OTHER_SIDE, 'R'|C, mView }, { 1, NULL, 0, NULL }, { 1, "Show Text &Window\tTab", MNU_SHOW_TEXT_WND, '\t', mView }, { 1, NULL, 0, NULL }, { 1, "Dimensions in &Inches", MNU_UNITS_INCHES, 0, mView }, { 1, "Dimensions in &Millimeters", MNU_UNITS_MM, 0, mView }, { 0, "&Group", 0, 0, NULL }, { 1, "New &Drawing Group\tShift+Ctrl+D", MNU_GROUP_DRAWING, 'D'|S|C,mGrp }, { 1, NULL, 0, NULL }, { 1, "New Step and Repeat &Translating", 0, 0, NULL }, { 1, "New Step and Repeat &Rotating", 0, 0, NULL }, { 1, NULL, 0, 0, NULL }, { 1, "New Extrusion\tShift+Ctrl+X", MNU_GROUP_EXTRUDE, 'X'|S|C,mGrp }, { 1, NULL, 0, 0, NULL }, { 1, "New Boolean Difference", 0, 0, NULL }, { 1, "New Boolean Union", 0, 0, NULL }, { 0, "&Request", 0, NULL }, { 1, "Draw in &Workplane\tW", MNU_SEL_WORKPLANE, 'W', mReq }, { 1, "Draw Anywhere in 3d\tQ", MNU_FREE_IN_3D, 'Q', mReq }, { 1, NULL, 0, NULL }, { 1, "Datum &Point\tP", MNU_DATUM_POINT, 'P', mReq }, { 1, "&Workplane (Coordinate S&ystem)\tY", MNU_WORKPLANE, 'Y', mReq }, { 1, NULL, 0, NULL }, { 1, "Line &Segment\tS", MNU_LINE_SEGMENT, 'S', mReq }, { 1, "&Rectangle\tR", MNU_RECTANGLE, 'R', mReq }, { 1, "&Circle\tC", MNU_CIRCLE, 'C', mReq }, { 1, "&Arc of a Circle\tA", 0, 'A', mReq }, { 1, "&Cubic Segment\t3", MNU_CUBIC, '3', mReq }, { 1, NULL, 0, NULL }, { 1, "Sym&bolic Variable\tB", 0, 'B', mReq }, { 1, "&Import From File...\tI", 0, 'I', mReq }, { 1, NULL, 0, NULL }, { 1, "To&ggle Construction\tG", MNU_CONSTRUCTION, 'G', mReq }, { 0, "&Constrain", 0, NULL }, { 1, "&Distance / Diameter\tShift+D", MNU_DISTANCE_DIA, 'D'|S, mCon }, { 1, "A&ngle\tShift+N", 0, 'N'|S, NULL }, { 1, "Other S&upplementary Angle\tShift+U", 0, 'U'|S, NULL }, { 1, NULL, 0, NULL }, { 1, "&Horizontal\tShift+H", MNU_HORIZONTAL, 'H'|S, mCon }, { 1, "&Vertical\tShift+V", MNU_VERTICAL, 'V'|S, mCon }, { 1, NULL, 0, NULL }, { 1, "&On Point / Curve / Plane\tShift+O", MNU_ON_ENTITY, 'O'|S, mCon }, { 1, "E&qual Length / Radius\tShift+Q", MNU_EQUAL, 'Q'|S, mCon }, { 1, "At &Midpoint\tShift+M", MNU_AT_MIDPOINT, 'M'|S, mCon }, { 1, "S&ymmetric\tShift+Y", MNU_SYMMETRIC, 'Y'|S, mCon }, { 1, NULL, 0, NULL }, { 1, "Sym&bolic Equation\tShift+B", 0, 'B'|S, NULL }, { 1, NULL, 0, NULL }, { 1, "Sol&ve Automatically\tShift+Tab", MNU_SOLVE_AUTO, '\t'|S, mCon }, { 1, "Solve Once Now\tSpace", MNU_SOLVE_NOW, ' ', mCon }, { 0, "&Help", 0, NULL }, { 1, "&About\t", 0, NULL }, { -1 }, }; void GraphicsWindow::Init(void) { memset(this, 0, sizeof(*this)); offset.x = offset.y = offset.z = 0; scale = 1; projRight.x = 1; projRight.y = projRight.z = 0; projUp.y = 1; projUp.z = projUp.x = 0; EnsureValidActives(); // Start locked on to the XY plane. hRequest r = Request::HREQUEST_REFERENCE_XY; activeWorkplane = r.entity(0); showWorkplanes = true; showNormals = true; showPoints = true; showConstraints = true; showSolids = true; showHdnLines = false; showSolids = true; solving = SOLVE_ALWAYS; showTextWindow = true; ShowTextWindow(showTextWindow); } void GraphicsWindow::NormalizeProjectionVectors(void) { Vector norm = projRight.Cross(projUp); projUp = norm.Cross(projRight); projUp = projUp.ScaledBy(1/projUp.Magnitude()); projRight = projRight.ScaledBy(1/projRight.Magnitude()); } Point2d GraphicsWindow::ProjectPoint(Vector p) { p = p.Plus(offset); Point2d r; r.x = p.Dot(projRight) * scale; r.y = p.Dot(projUp) * scale; return r; } void GraphicsWindow::AnimateOnto(Quaternion quatf, Vector offsetf) { // Get our initial orientation and translation. Quaternion quat0 = Quaternion::MakeFrom(projRight, projUp); Vector offset0 = offset; // Make sure we take the shorter of the two possible paths. double mp = (quatf.Minus(quat0)).Magnitude(); double mm = (quatf.Plus(quat0)).Magnitude(); if(mp > mm) { quatf = quatf.ScaledBy(-1); mp = mm; } double mo = (offset0.Minus(offsetf)).Magnitude()/scale; // Animate transition, unless it's a tiny move. SDWORD dt = (mp < 0.01 && mo < 10) ? (-20) : (SDWORD)(100 + 1000*mp); SDWORD tn, t0 = GetMilliseconds(); double s = 0; do { offset = (offset0.ScaledBy(1 - s)).Plus(offsetf.ScaledBy(s)); Quaternion quat = (quat0.ScaledBy(1 - s)).Plus(quatf.ScaledBy(s)); quat = quat.WithMagnitude(1); projRight = quat.RotationU(); projUp = quat.RotationV(); PaintGraphics(); tn = GetMilliseconds(); s = (tn - t0)/((double)dt); } while((tn - t0) < dt); projRight = quatf.RotationU(); projUp = quatf.RotationV(); offset = offsetf; InvalidateGraphics(); } void GraphicsWindow::MenuView(int id) { switch(id) { case MNU_ZOOM_IN: SS.GW.scale *= 1.2; break; case MNU_ZOOM_OUT: SS.GW.scale /= 1.2; break; case MNU_ZOOM_TO_FIT: break; case MNU_OTHER_SIDE: { Quaternion quatf = Quaternion::MakeFrom( SS.GW.projRight.ScaledBy(-1), SS.GW.projUp.ScaledBy(1)); Vector ru = quatf.RotationU(); Vector rv = quatf.RotationV(); SS.GW.AnimateOnto(quatf, SS.GW.offset); break; } case MNU_SHOW_TEXT_WND: SS.GW.showTextWindow = !SS.GW.showTextWindow; SS.GW.EnsureValidActives(); break; case MNU_UNITS_MM: SS.GW.viewUnits = UNIT_MM; SS.GW.EnsureValidActives(); break; case MNU_UNITS_INCHES: SS.GW.viewUnits = UNIT_INCHES; SS.GW.EnsureValidActives(); break; default: oops(); } InvalidateGraphics(); } void GraphicsWindow::EnsureValidActives(void) { bool change = false; // The active group must exist, and not be the references. Group *g = SS.group.FindByIdNoOops(activeGroup); if((!g) || (g->h.v == Group::HGROUP_REFERENCES.v)) { int i; for(i = 0; i < SS.group.n; i++) { if(SS.group.elem[i].h.v != Group::HGROUP_REFERENCES.v) { break; } } if(i >= SS.group.n) oops(); activeGroup = SS.group.elem[i].h; change = true; } // The active coordinate system must also exist. if(activeWorkplane.v != Entity::FREE_IN_3D.v && !SS.entity.FindByIdNoOops(activeWorkplane)) { activeWorkplane = Entity::FREE_IN_3D; change = true; } bool in3d = (activeWorkplane.v == Entity::FREE_IN_3D.v); CheckMenuById(MNU_FREE_IN_3D, in3d); CheckMenuById(MNU_SEL_WORKPLANE, !in3d); // And update the checked state for various menus switch(viewUnits) { case UNIT_MM: case UNIT_INCHES: break; default: viewUnits = UNIT_MM; } CheckMenuById(MNU_UNITS_MM, viewUnits == UNIT_MM); CheckMenuById(MNU_UNITS_INCHES, viewUnits == UNIT_INCHES); ShowTextWindow(SS.GW.showTextWindow); CheckMenuById(MNU_SHOW_TEXT_WND, SS.GW.showTextWindow); CheckMenuById(MNU_SOLVE_AUTO, (SS.GW.solving == SOLVE_ALWAYS)); } void GraphicsWindow::MenuEdit(int id) { switch(id) { case MNU_UNSELECT_ALL: HideGraphicsEditControl(); SS.GW.ClearSelection(); SS.GW.ClearPending(); SS.TW.ScreenNavigation('h', 0); SS.TW.Show(); break; case MNU_DELETE: { int i; SS.request.ClearTags(); SS.constraint.ClearTags(); for(i = 0; i < MAX_SELECTED; i++) { Selection *s = &(SS.GW.selection[i]); hRequest r; r.v = 0; if(s->entity.v && s->entity.isFromRequest()) { r = s->entity.request(); } if(r.v && !r.IsFromReferences()) { SS.request.Tag(r, 1); int j; for(j = 0; j < SS.constraint.n; j++) { Constraint *c = &(SS.constraint.elem[j]); if(((c->ptA).request().v == r.v) || ((c->ptB).request().v == r.v) || ((c->ptC).request().v == r.v) || ((c->entityA).request().v == r.v) || ((c->entityB).request().v == r.v)) { SS.constraint.Tag(c->h, 1); } } } if(s->constraint.v) { SS.constraint.Tag(s->constraint, 1); } } SS.request.RemoveTagged(); SS.constraint.RemoveTagged(); SS.GenerateAll(SS.GW.solving == SOLVE_ALWAYS); SS.GW.ClearSelection(); SS.GW.hover.Clear(); break; } default: oops(); } } void GraphicsWindow::MenuRequest(int id) { char *s; switch(id) { case MNU_SEL_WORKPLANE: { SS.GW.GroupSelection(); if(SS.GW.gs.n == 1 && SS.GW.gs.workplanes == 1) { SS.GW.activeWorkplane = SS.GW.gs.entity[0]; SS.GW.ClearSelection(); } if(SS.GW.activeWorkplane.v == Entity::FREE_IN_3D.v) { Error("Select workplane (e.g., the XY plane) " "before locking on."); break; } // Align the view with the selected workplane Entity *e = SS.GetEntity(SS.GW.activeWorkplane); Quaternion quatf = e->Normal()->NormalGetNum(); Vector offsetf = (e->WorkplaneGetOffset()).ScaledBy(-1); SS.GW.AnimateOnto(quatf, offsetf); SS.GW.EnsureValidActives(); SS.TW.Show(); break; } case MNU_FREE_IN_3D: SS.GW.activeWorkplane = Entity::FREE_IN_3D; SS.GW.EnsureValidActives(); SS.TW.Show(); break; case MNU_DATUM_POINT: s = "click to place datum point"; goto c; case MNU_LINE_SEGMENT: s = "click first point of line segment"; goto c; case MNU_CUBIC: s = "click first point of cubic segment"; goto c; case MNU_CIRCLE: s = "click center of circle"; goto c; case MNU_WORKPLANE: s = "click origin of workplane"; goto c; case MNU_RECTANGLE: s = "click one corner of rectangular"; goto c; c: SS.GW.pending.operation = id; SS.GW.pending.description = s; SS.TW.Show(); break; case MNU_CONSTRUCTION: { SS.GW.GroupSelection(); int i; for(i = 0; i < SS.GW.gs.entities; i++) { hEntity he = SS.GW.gs.entity[i]; if(!he.isFromRequest()) continue; Request *r = SS.GetRequest(he.request()); r->construction = !(r->construction); } SS.GW.ClearSelection(); SS.GenerateAll(SS.GW.solving == GraphicsWindow::SOLVE_ALWAYS); break; } default: oops(); } } void GraphicsWindow::UpdateDraggedPoint(hEntity hp, double mx, double my) { Entity *p = SS.GetEntity(hp); Vector pos = p->PointGetNum(); UpdateDraggedNum(&pos, mx, my); p->PointForceTo(pos); } void GraphicsWindow::UpdateDraggedNum(Vector *pos, double mx, double my) { *pos = pos->Plus(projRight.ScaledBy((mx - orig.mouse.x)/scale)); *pos = pos->Plus(projUp.ScaledBy((my - orig.mouse.y)/scale)); orig.mouse.x = mx; orig.mouse.y = my; InvalidateGraphics(); } void GraphicsWindow::MouseMoved(double x, double y, bool leftDown, bool middleDown, bool rightDown, bool shiftDown, bool ctrlDown) { if(GraphicsEditControlIsVisible()) return; Point2d mp = { x, y }; // If the middle button is down, then mouse movement is used to pan and // rotate our view. This wins over everything else. if(middleDown) { hover.Clear(); double dx = (x - orig.mouse.x) / scale; double dy = (y - orig.mouse.y) / scale; // When the view is locked, permit only translation (pan). if(!(shiftDown || ctrlDown)) { offset.x = orig.offset.x + dx*projRight.x + dy*projUp.x; offset.y = orig.offset.y + dx*projRight.y + dy*projUp.y; offset.z = orig.offset.z + dx*projRight.z + dy*projUp.z; } else if(ctrlDown) { double theta = atan2(orig.mouse.y, orig.mouse.x); theta -= atan2(y, x); Vector normal = orig.projRight.Cross(orig.projUp); projRight = orig.projRight.RotatedAbout(normal, theta); projUp = orig.projUp.RotatedAbout(normal, theta); NormalizeProjectionVectors(); } else { double s = 0.3*(PI/180)*scale; // degrees per pixel projRight = orig.projRight.RotatedAbout(orig.projUp, -s*dx); projUp = orig.projUp.RotatedAbout(orig.projRight, s*dy); NormalizeProjectionVectors(); } orig.projRight = projRight; orig.projUp = projUp; orig.offset = offset; orig.mouse.x = x; orig.mouse.y = y; InvalidateGraphics(); return; } if(pending.operation == 0) { double dm = orig.mouse.DistanceTo(mp); // If we're currently not doing anything, then see if we should // start dragging something. if(leftDown && dm > 3) { if(hover.entity.v) { Entity *e = SS.GetEntity(hover.entity); if(e->IsPoint()) { // Start dragging this point. ClearSelection(); pending.point = hover.entity; pending.operation = DRAGGING_POINT; } else if(e->type == Entity::CIRCLE) { // Drag the radius. ClearSelection(); pending.circle = hover.entity; pending.operation = DRAGGING_RADIUS; } else if(e->IsNormal()) { ClearSelection(); pending.normal = hover.entity; pending.operation = DRAGGING_NORMAL; } } else if(hover.constraint.v && SS.GetConstraint(hover.constraint)->HasLabel()) { ClearSelection(); pending.constraint = hover.constraint; pending.operation = DRAGGING_CONSTRAINT; } } else { // Otherwise, just hit test and give up HitTestMakeSelection(mp); } return; } // If the user has started an operation from the menu, but not // completed it, then just do the selection. if(pending.operation < FIRST_PENDING) { HitTestMakeSelection(mp); return; } // We're currently dragging something; so do that. But if we haven't // painted since the last time we solved, do nothing, because there's // no sense solving a frame and not displaying it. if(!havePainted) return; switch(pending.operation) { case DRAGGING_CONSTRAINT: { Constraint *c = SS.constraint.FindById(pending.constraint); UpdateDraggedNum(&(c->disp.offset), x, y); break; } case DRAGGING_NEW_LINE_POINT: HitTestMakeSelection(mp); // and fall through case DRAGGING_NEW_POINT: case DRAGGING_POINT: UpdateDraggedPoint(pending.point, x, y); break; case DRAGGING_NEW_CUBIC_POINT: { UpdateDraggedPoint(pending.point, x, y); HitTestMakeSelection(mp); hRequest hr = pending.point.request(); Vector p0 = SS.GetEntity(hr.entity(1))->PointGetNum(); Vector p3 = SS.GetEntity(hr.entity(4))->PointGetNum(); Vector p1 = p0.ScaledBy(2.0/3).Plus(p3.ScaledBy(1.0/3)); SS.GetEntity(hr.entity(2))->PointForceTo(p1); Vector p2 = p0.ScaledBy(1.0/3).Plus(p3.ScaledBy(2.0/3)); SS.GetEntity(hr.entity(3))->PointForceTo(p2); break; } case DRAGGING_NEW_RADIUS: case DRAGGING_RADIUS: { Entity *circle = SS.GetEntity(pending.circle); Vector center = SS.GetEntity(circle->point[0])->PointGetNum(); Point2d c2 = ProjectPoint(center); double r = c2.DistanceTo(mp)*scale; SS.GetEntity(circle->distance)->DistanceForceTo(r); break; } case DRAGGING_NORMAL: { Entity *normal = SS.GetEntity(pending.normal); Vector p = SS.GetEntity(normal->point[0])->PointGetNum(); Point2d p2 = ProjectPoint(p); Quaternion q = normal->NormalGetNum(); Vector u = q.RotationU(), v = q.RotationV(); if(ctrlDown) { double theta = atan2(orig.mouse.y-p2.y, orig.mouse.x-p2.x); theta -= atan2(y-p2.y, x-p2.x); Vector normal = orig.projRight.Cross(orig.projUp); u = u.RotatedAbout(normal, -theta); v = v.RotatedAbout(normal, -theta); } else { double dx = -(x - orig.mouse.x); double dy = -(y - orig.mouse.y); double s = 0.3*(PI/180); // degrees per pixel u = u.RotatedAbout(orig.projUp, -s*dx); u = u.RotatedAbout(orig.projRight, s*dy); v = v.RotatedAbout(orig.projUp, -s*dx); v = v.RotatedAbout(orig.projRight, s*dy); } orig.mouse = mp; normal->NormalForceTo(Quaternion::MakeFrom(u, v)); break; } default: oops(); } SS.GenerateAll(solving == SOLVE_ALWAYS); havePainted = false; } bool GraphicsWindow::Selection::Equals(Selection *b) { if(entity.v != b->entity.v) return false; if(constraint.v != b->constraint.v) return false; return true; } bool GraphicsWindow::Selection::IsEmpty(void) { if(entity.v) return false; if(constraint.v) return false; return true; } void GraphicsWindow::Selection::Clear(void) { entity.v = constraint.v = 0; } void GraphicsWindow::Selection::Draw(void) { if(entity.v) SS.GetEntity (entity )->Draw(-1); if(constraint.v) SS.GetConstraint(constraint)->Draw(); } void GraphicsWindow::ClearPending(void) { memset(&pending, 0, sizeof(pending)); } void GraphicsWindow::HitTestMakeSelection(Point2d mp) { int i; double d, dmin = 1e12; Selection s; memset(&s, 0, sizeof(s)); // Do the entities for(i = 0; i < SS.entity.n; i++) { Entity *e = &(SS.entity.elem[i]); // Don't hover whatever's being dragged. if(e->h.request().v == pending.point.request().v) continue; d = e->GetDistance(mp); if(d < 10 && d < dmin) { memset(&s, 0, sizeof(s)); s.entity = e->h; dmin = d; } } // Constraints for(i = 0; i < SS.constraint.n; i++) { d = SS.constraint.elem[i].GetDistance(mp); if(d < 10 && d < dmin) { memset(&s, 0, sizeof(s)); s.constraint = SS.constraint.elem[i].h; dmin = d; } } if(!s.Equals(&hover)) { hover = s; InvalidateGraphics(); } } void GraphicsWindow::ClearSelection(void) { for(int i = 0; i < MAX_SELECTED; i++) { selection[i].Clear(); } InvalidateGraphics(); } void GraphicsWindow::GroupSelection(void) { memset(&gs, 0, sizeof(gs)); int i; for(i = 0; i < MAX_SELECTED; i++) { Selection *s = &(selection[i]); if(s->entity.v) { (gs.n)++; Entity *e = SS.entity.FindById(s->entity); if(e->IsPoint()) { gs.point[(gs.points)++] = s->entity; } else { gs.entity[(gs.entities)++] = s->entity; } switch(e->type) { case Entity::WORKPLANE: (gs.workplanes)++; break; case Entity::LINE_SEGMENT: (gs.lineSegments)++; break; case Entity::CIRCLE: (gs.circlesOrArcs)++; break; } } } } void GraphicsWindow::MouseMiddleDown(double x, double y) { if(GraphicsEditControlIsVisible()) return; orig.offset = offset; orig.projUp = projUp; orig.projRight = projRight; orig.mouse.x = x; orig.mouse.y = y; } hRequest GraphicsWindow::AddRequest(int type) { Request r; memset(&r, 0, sizeof(r)); r.group = activeGroup; r.workplane = activeWorkplane; r.type = type; SS.request.AddAndAssignId(&r); SS.GenerateAll(solving == SOLVE_ALWAYS); return r.h; } void GraphicsWindow::MouseLeftDown(double mx, double my) { if(GraphicsEditControlIsVisible()) return; // Make sure the hover is up to date. MouseMoved(mx, my, false, false, false, false, false); orig.mouse.x = mx; orig.mouse.y = my; // The current mouse location Vector v = offset.ScaledBy(-1); v = v.Plus(projRight.ScaledBy(mx/scale)); v = v.Plus(projUp.ScaledBy(my/scale)); #define MAYBE_PLACE(p) \ if(hover.entity.v && SS.GetEntity((p))->IsPoint()) { \ Constraint::ConstrainCoincident(hover.entity, (p)); \ } hRequest hr; switch(pending.operation) { case MNU_DATUM_POINT: hr = AddRequest(Request::DATUM_POINT); SS.GetEntity(hr.entity(0))->PointForceTo(v); ClearSelection(); hover.Clear(); pending.operation = 0; break; case MNU_LINE_SEGMENT: hr = AddRequest(Request::LINE_SEGMENT); SS.GetEntity(hr.entity(1))->PointForceTo(v); MAYBE_PLACE(hr.entity(1)); ClearSelection(); hover.Clear(); pending.operation = DRAGGING_NEW_LINE_POINT; pending.point = hr.entity(2); pending.description = "click to place next point of line"; SS.GetEntity(pending.point)->PointForceTo(v); break; case MNU_RECTANGLE: { hRequest lns[4]; int i; for(i = 0; i < 4; i++) { lns[i] = AddRequest(Request::LINE_SEGMENT); } for(i = 0; i < 4; i++) { Constraint::ConstrainCoincident( lns[i].entity(1), lns[(i+1)%4].entity(2)); SS.GetEntity(lns[i].entity(1))->PointForceTo(v); SS.GetEntity(lns[i].entity(2))->PointForceTo(v); } for(i = 0; i < 4; i++) { Constraint::ConstrainHorizVert((i % 2)==0, lns[i].entity(0)); } pending.operation = DRAGGING_NEW_POINT; pending.point = lns[1].entity(2); pending.description = "click to place other corner of rectangle"; break; } case MNU_CIRCLE: hr = AddRequest(Request::CIRCLE); SS.GetEntity(hr.entity(1))->PointForceTo(v); SS.GetEntity(hr.entity(32))->NormalForceTo( Quaternion::MakeFrom(SS.GW.projRight, SS.GW.projUp)); MAYBE_PLACE(hr.entity(1)); ClearSelection(); hover.Clear(); ClearPending(); pending.operation = DRAGGING_NEW_RADIUS; pending.circle = hr.entity(0); pending.description = "click to set radius"; SS.GetParam(hr.param(0))->val = 0; break; case MNU_CUBIC: hr = AddRequest(Request::CUBIC); SS.GetEntity(hr.entity(1))->PointForceTo(v); SS.GetEntity(hr.entity(2))->PointForceTo(v); SS.GetEntity(hr.entity(3))->PointForceTo(v); SS.GetEntity(hr.entity(4))->PointForceTo(v); MAYBE_PLACE(hr.entity(1)); ClearSelection(); hover.Clear(); pending.operation = DRAGGING_NEW_CUBIC_POINT; pending.point = hr.entity(4); pending.description = "click to place next point of cubic"; break; case MNU_WORKPLANE: hr = AddRequest(Request::WORKPLANE); SS.GetEntity(hr.entity(1))->PointForceTo(v); SS.GetEntity(hr.entity(32))->NormalForceTo( Quaternion::MakeFrom(SS.GW.projRight, SS.GW.projUp)); MAYBE_PLACE(hr.entity(1)); ClearSelection(); hover.Clear(); ClearPending(); break; case DRAGGING_RADIUS: case DRAGGING_NEW_POINT: // The MouseMoved event has already dragged it as desired. ClearPending(); break; case DRAGGING_NEW_CUBIC_POINT: if(hover.entity.v && SS.GetEntity(hover.entity)->IsPoint()) { Constraint::ConstrainCoincident(pending.point, hover.entity); } ClearPending(); break; case DRAGGING_NEW_LINE_POINT: { if(hover.entity.v && SS.GetEntity(hover.entity)->IsPoint()) { Constraint::ConstrainCoincident(pending.point, hover.entity); ClearPending(); break; } // Create a new line segment, so that we continue drawing. hRequest hr = AddRequest(Request::LINE_SEGMENT); SS.GetEntity(hr.entity(1))->PointForceTo(v); // Constrain the line segments to share an endpoint Constraint::ConstrainCoincident(pending.point, hr.entity(1)); // And drag an endpoint of the new line segment pending.operation = DRAGGING_NEW_LINE_POINT; pending.point = hr.entity(2); pending.description = "click to place next point of next line"; SS.GetEntity(pending.point)->PointForceTo(v); break; } case 0: default: { ClearPending(); if(hover.IsEmpty()) break; // If an item is hovered, then by clicking on it, we toggle its // selection state. int i; for(i = 0; i < MAX_SELECTED; i++) { if(selection[i].Equals(&hover)) { selection[i].Clear(); break; } } if(i != MAX_SELECTED) break; for(i = 0; i < MAX_SELECTED; i++) { if(selection[i].IsEmpty()) { selection[i] = hover; break; } } break; } } SS.GenerateAll(SS.GW.solving == SOLVE_ALWAYS); SS.TW.Show(); InvalidateGraphics(); } void GraphicsWindow::MouseLeftUp(double mx, double my) { switch(pending.operation) { case DRAGGING_POINT: case DRAGGING_CONSTRAINT: case DRAGGING_NORMAL: case DRAGGING_RADIUS: ClearPending(); break; default: break; // do nothing } } void GraphicsWindow::MouseLeftDoubleClick(double mx, double my) { if(GraphicsEditControlIsVisible()) return; if(hover.constraint.v) { ClearSelection(); Constraint *c = SS.GetConstraint(hover.constraint); Vector p3 = c->GetLabelPos(); Point2d p2 = ProjectPoint(p3); ShowGraphicsEditControl((int)p2.x, (int)p2.y, c->exprA->Print()); constraintBeingEdited = hover.constraint; } } void GraphicsWindow::EditControlDone(char *s) { Expr *e = Expr::FromString(s); if(e) { Constraint *c = SS.GetConstraint(constraintBeingEdited); Expr::FreeKeep(&(c->exprA)); c->exprA = e->DeepCopyKeep(); HideGraphicsEditControl(); SS.GenerateAll(solving == SOLVE_ALWAYS); } else { Error("Not a valid number or expression: '%s'", s); } } void GraphicsWindow::MouseScroll(double x, double y, int delta) { double offsetRight = offset.Dot(projRight); double offsetUp = offset.Dot(projUp); double righti = x/scale - offsetRight; double upi = y/scale - offsetUp; if(delta > 0) { scale *= 1.2; } else { scale /= 1.2; } double rightf = x/scale - offsetRight; double upf = y/scale - offsetUp; offset = offset.Plus(projRight.ScaledBy(rightf - righti)); offset = offset.Plus(projUp.ScaledBy(upf - upi)); InvalidateGraphics(); } void GraphicsWindow::ToggleBool(int link, DWORD v) { bool *vb = (bool *)v; *vb = !*vb; SS.GenerateAll(SS.GW.solving == SOLVE_ALWAYS); InvalidateGraphics(); SS.TW.Show(); } void GraphicsWindow::ToggleAnyDatumShown(int link, DWORD v) { bool t = !(SS.GW.showWorkplanes && SS.GW.showNormals && SS.GW.showPoints); SS.GW.showWorkplanes = t; SS.GW.showNormals = t; SS.GW.showPoints = t; SS.GenerateAll(SS.GW.solving == SOLVE_ALWAYS); InvalidateGraphics(); SS.TW.Show(); } Vector GraphicsWindow::VectorFromProjs(double right, double up, double fwd) { Vector n = projRight.Cross(projUp); Vector r = offset.ScaledBy(-1); r = r.Plus(projRight.ScaledBy(right)); r = r.Plus(projUp.ScaledBy(up)); r = r.Plus(n.ScaledBy(fwd)); return r; } void GraphicsWindow::Paint(int w, int h) { havePainted = true; width = w; height = h; glViewport(0, 0, w, h); glMatrixMode(GL_PROJECTION); glLoadIdentity(); glScaled(scale*2.0/w, scale*2.0/h, scale*1.0/50000); double tx = projRight.Dot(offset); double ty = projUp.Dot(offset); Vector n = projUp.Cross(projRight); double tz = n.Dot(offset); double mat[16]; MakeMatrix(mat, projRight.x, projRight.y, projRight.z, tx, projUp.x, projUp.y, projUp.z, ty, n.x, n.y, n.z, tz, 0, 0, 0, 1); glMultMatrixd(mat); glMatrixMode(GL_MODELVIEW); glLoadIdentity(); glShadeModel(GL_SMOOTH); glBlendFunc(GL_SRC_ALPHA, GL_ONE_MINUS_SRC_ALPHA); glEnable(GL_BLEND); glEnable(GL_LINE_SMOOTH); glEnable(GL_DEPTH_TEST); glHint(GL_LINE_SMOOTH_HINT, GL_NICEST); glEnable(GL_NORMALIZE); glClearDepth(1.0); glClear(GL_COLOR_BUFFER_BIT | GL_DEPTH_BUFFER_BIT); Vector light = VectorFromProjs(-0.49*w/scale, 0.49*h/scale, 0); GLfloat lightPos[4] = { (GLfloat)light.x, (GLfloat)light.y, (GLfloat)light.z, 0 }; glLightfv(GL_LIGHT0, GL_POSITION, lightPos); glEnable(GL_LIGHT0); glLightModelf(GL_LIGHT_MODEL_TWO_SIDE, 1); GLfloat ambient[4] = { 0.4f, 0.4f, 0.4f, 1.0f }; glLightModelfv(GL_LIGHT_MODEL_AMBIENT, ambient); glxUnlockColor(); int i, a; // Draw the groups; this fills the polygons, if requested. if(showSolids) { for(i = 0; i < SS.group.n; i++) { SS.group.elem[i].Draw(); } } // First, draw the entire scene. We don't necessarily want to draw // things with normal z-buffering behaviour; e.g. we always want to // draw a line segment in front of a reference. So we have three draw // levels, and only the first gets normal depth testing. for(a = 0; a <= 2; a++) { // Three levels: 0 least prominent (e.g. a reference workplane), 1 is // middle (e.g. line segment), 2 is always in front (e.g. point). if(a >= 1 && showHdnLines) glDisable(GL_DEPTH_TEST); for(i = 0; i < SS.entity.n; i++) { SS.entity.elem[i].Draw(a); } } glDisable(GL_DEPTH_TEST); // Draw the constraints for(i = 0; i < SS.constraint.n; i++) { SS.constraint.elem[i].Draw(); } // Then redraw whatever the mouse is hovering over, highlighted. glDisable(GL_DEPTH_TEST); glxLockColorTo(1, 1, 0); hover.Draw(); // And finally draw the selection, same mechanism. glxLockColorTo(1, 0, 0); for(i = 0; i < MAX_SELECTED; i++) { selection[i].Draw(); } }