#include "solvespace.h" void Entity::LineDrawOrGetDistance(Vector a, Vector b) { if(dogd.drawing) { // glPolygonOffset works only on polys, not lines, so do it myself Vector adj = SS.GW.projRight.Cross(SS.GW.projUp); // Draw lines from active group in front of those from previous int delta = (group.v == SS.GW.activeGroup.v) ? 10 : 5; adj = adj.ScaledBy(delta/SS.GW.scale); glBegin(GL_LINES); glxVertex3v(a.Plus(adj)); glxVertex3v(b.Plus(adj)); glEnd(); } else { Point2d ap = SS.GW.ProjectPoint(a); Point2d bp = SS.GW.ProjectPoint(b); double d = dogd.mp.DistanceToLine(ap, bp.Minus(ap), true); // A little bit easier to select in the active group if(group.v == SS.GW.activeGroup.v) d -= 1; dogd.dmin = min(dogd.dmin, d); } dogd.refp = (a.Plus(b)).ScaledBy(0.5); } void Entity::LineDrawOrGetDistanceOrEdge(Vector a, Vector b) { LineDrawOrGetDistance(a, b); if(dogd.edges && !construction) { dogd.edges->AddEdge(a, b); } } void Entity::DrawAll(void) { // This handles points and line segments as a special case, because I // seem to be able to get a huge speedup that way, by consolidating // stuff to gl. int i; if(SS.GW.showPoints) { double s = 3.5/SS.GW.scale; Vector r = SS.GW.projRight.ScaledBy(s); Vector d = SS.GW.projUp.ScaledBy(s); glxColor3d(0, 0.8, 0); glPolygonOffset(-10, -10); glBegin(GL_QUADS); for(i = 0; i < SS.entity.n; i++) { Entity *e = &(SS.entity.elem[i]); if(!e->IsPoint()) continue; if(!(SS.GetGroup(e->group)->visible)) continue; if(SS.GroupsInOrder(SS.GW.activeGroup, e->group)) continue; if(e->forceHidden) continue; Vector v = e->PointGetNum(); glxVertex3v(v.Plus (r).Plus (d)); glxVertex3v(v.Plus (r).Minus(d)); glxVertex3v(v.Minus(r).Minus(d)); glxVertex3v(v.Minus(r).Plus (d)); } glEnd(); glPolygonOffset(0, 0); } glLineWidth(1.5); for(i = 0; i < SS.entity.n; i++) { Entity *e = &(SS.entity.elem[i]); if(e->IsPoint()) { continue; // already handled } e->Draw(); } glLineWidth(1); } void Entity::Draw(void) { dogd.drawing = true; dogd.edges = NULL; DrawOrGetDistance(); } void Entity::GenerateEdges(SEdgeList *el) { dogd.drawing = false; dogd.edges = el; DrawOrGetDistance(); dogd.edges = NULL; } double Entity::GetDistance(Point2d mp) { dogd.drawing = false; dogd.edges = NULL; dogd.mp = mp; dogd.dmin = 1e12; DrawOrGetDistance(); return dogd.dmin; } Vector Entity::GetReferencePos(void) { dogd.drawing = false; dogd.edges = NULL; dogd.refp = SS.GW.offset.ScaledBy(-1); DrawOrGetDistance(); return dogd.refp; } bool Entity::IsVisible(void) { Group *g = SS.GetGroup(group); if(g->h.v == Group::HGROUP_REFERENCES.v && IsNormal()) { // The reference normals are always shown return true; } if(!g->visible) return false; if(SS.GroupsInOrder(SS.GW.activeGroup, group)) return false; // Don't check if points are hidden; this gets called only for // selected or hovered points, and those should always be shown. if(IsWorkplane() && !SS.GW.showWorkplanes) return false; if(IsNormal() && !SS.GW.showNormals) return false; if(IsWorkplane() && !h.isFromRequest()) { // The group-associated workplanes are hidden outside their group. if(g->h.v != SS.GW.activeGroup.v) return false; } if(forceHidden) return false; return true; } void Entity::DrawOrGetDistance(void) { // If an entity is invisible, then it doesn't get shown, and it doesn't // contribute a distance for the selection, but it still generates edges. if(!dogd.edges) { if(!IsVisible()) return; } Group *g = SS.GetGroup(group); if(group.v != SS.GW.activeGroup.v) { glxColor3d(0.5, 0.3, 0.0); } else if(construction) { glxColor3d(0.1, 0.7, 0.1); } else { glxColor3d(1, 1, 1); } switch(type) { case POINT_N_COPY: case POINT_N_TRANS: case POINT_N_ROT_TRANS: case POINT_N_ROT_AA: case POINT_IN_3D: case POINT_IN_2D: { Vector v = PointGetNum(); dogd.refp = v; if(dogd.drawing) { double s = 3.5; Vector r = SS.GW.projRight.ScaledBy(s/SS.GW.scale); Vector d = SS.GW.projUp.ScaledBy(s/SS.GW.scale); glxColor3d(0, 0.8, 0); glPolygonOffset(-10, -10); glBegin(GL_QUADS); glxVertex3v(v.Plus (r).Plus (d)); glxVertex3v(v.Plus (r).Minus(d)); glxVertex3v(v.Minus(r).Minus(d)); glxVertex3v(v.Minus(r).Plus (d)); glEnd(); glPolygonOffset(0, 0); } else { Point2d pp = SS.GW.ProjectPoint(v); dogd.dmin = pp.DistanceTo(dogd.mp) - 6; } break; } case NORMAL_N_COPY: case NORMAL_N_ROT: case NORMAL_N_ROT_AA: case NORMAL_IN_3D: case NORMAL_IN_2D: { int i; for(i = 0; i < 2; i++) { hRequest hr = h.request(); double f = (i == 0 ? 0.4 : 1); if(hr.v == Request::HREQUEST_REFERENCE_XY.v) { glxColor3d(0, 0, f); } else if(hr.v == Request::HREQUEST_REFERENCE_YZ.v) { glxColor3d(f, 0, 0); } else if(hr.v == Request::HREQUEST_REFERENCE_ZX.v) { glxColor3d(0, f, 0); } else { glxColor3d(0, 0.4, 0.4); if(i > 0) break; } Quaternion q = NormalGetNum(); Vector tail; if(i == 0) { tail = SS.GetEntity(point[0])->PointGetNum(); glLineWidth(1); } else { // Draw an extra copy of the x, y, and z axes, that's // always in the corner of the view and at the front. // So those are always available, perhaps useful. double s = SS.GW.scale; double h = 60 - SS.GW.height/2; double w = 60 - SS.GW.width/2; Vector gn = SS.GW.projRight.Cross(SS.GW.projUp); tail = SS.GW.projRight.ScaledBy(w/s).Plus( SS.GW.projUp. ScaledBy(h/s)).Plus( gn.ScaledBy(-4*w/s)).Minus(SS.GW.offset); glLineWidth(2); } Vector v = (q.RotationN()).WithMagnitude(50/SS.GW.scale); Vector tip = tail.Plus(v); LineDrawOrGetDistance(tail, tip); v = v.WithMagnitude(12/SS.GW.scale); Vector axis = q.RotationV(); LineDrawOrGetDistance(tip,tip.Minus(v.RotatedAbout(axis, 0.6))); LineDrawOrGetDistance(tip,tip.Minus(v.RotatedAbout(axis,-0.6))); } glLineWidth(1.5); break; } case DISTANCE: case DISTANCE_N_COPY: // These are used only as data structures, nothing to display. break; case WORKPLANE: { Vector p; p = SS.GetEntity(point[0])->PointGetNum(); Vector u = Normal()->NormalU(); Vector v = Normal()->NormalV(); double s = (min(SS.GW.width, SS.GW.height))*0.45/SS.GW.scale; Vector us = u.ScaledBy(s); Vector vs = v.ScaledBy(s); Vector pp = p.Plus (us).Plus (vs); Vector pm = p.Plus (us).Minus(vs); Vector mm = p.Minus(us).Minus(vs), mm2 = mm; Vector mp = p.Minus(us).Plus (vs); glLineWidth(1); glxColor3d(0, 0.3, 0.3); glEnable(GL_LINE_STIPPLE); glLineStipple(3, 0x1111); if(!h.isFromRequest()) { mm = mm.Plus(v.ScaledBy(60/SS.GW.scale)); mm2 = mm2.Plus(u.ScaledBy(60/SS.GW.scale)); LineDrawOrGetDistance(mm2, mm); } LineDrawOrGetDistance(pp, pm); LineDrawOrGetDistance(pm, mm2); LineDrawOrGetDistance(mm, mp); LineDrawOrGetDistance(mp, pp); glDisable(GL_LINE_STIPPLE); glLineWidth(1.5); char *str = DescriptionString()+5; if(dogd.drawing) { glPushMatrix(); glxTranslatev(mm2); glxOntoWorkplane(u, v); glxWriteText(str); glPopMatrix(); } else { Vector pos = mm2.Plus(u.ScaledBy(glxStrWidth(str)/2)).Plus( v.ScaledBy(glxStrHeight()/2)); Point2d pp = SS.GW.ProjectPoint(pos); dogd.dmin = min(dogd.dmin, pp.DistanceTo(dogd.mp) - 10); // If a line lies in a plane, then select the line, not // the plane. dogd.dmin += 3; } break; } case LINE_SEGMENT: { Vector a = SS.GetEntity(point[0])->PointGetNum(); Vector b = SS.GetEntity(point[1])->PointGetNum(); LineDrawOrGetDistanceOrEdge(a, b); break; } case CUBIC: { Vector p0 = SS.GetEntity(point[0])->PointGetNum(); Vector p1 = SS.GetEntity(point[1])->PointGetNum(); Vector p2 = SS.GetEntity(point[2])->PointGetNum(); Vector p3 = SS.GetEntity(point[3])->PointGetNum(); int i, n = (int)(15/sqrt(SS.meshTol)); Vector prev = p0; for(i = 1; i <= n; i++) { double t = ((double)i)/n; Vector p = (p0.ScaledBy((1 - t)*(1 - t)*(1 - t))).Plus( (p1.ScaledBy(3*t*(1 - t)*(1 - t))).Plus( (p2.ScaledBy(3*t*t*(1 - t))).Plus( (p3.ScaledBy(t*t*t))))); LineDrawOrGetDistanceOrEdge(prev, p); prev = p; } break; } case ARC_OF_CIRCLE: { Vector c = SS.GetEntity(point[0])->PointGetNum(); Vector pa = SS.GetEntity(point[1])->PointGetNum(); Vector pb = SS.GetEntity(point[2])->PointGetNum(); Quaternion q = SS.GetEntity(normal)->NormalGetNum(); Vector u = q.RotationU(), v = q.RotationV(); double ra = (pa.Minus(c)).Magnitude(); double rb = (pb.Minus(c)).Magnitude(); double thetaa, thetab, dtheta; ArcGetAngles(&thetaa, &thetab, &dtheta); int i, n = 3 + (int)(SS.CircleSides(ra)*dtheta/(2*PI)); Vector prev = pa; for(i = 1; i <= n; i++) { double theta = thetaa + (dtheta*i)/n; double r = ra + ((rb - ra)*i)/n; Vector d = u.ScaledBy(cos(theta)).Plus(v.ScaledBy(sin(theta))); Vector p = c.Plus(d.ScaledBy(r)); LineDrawOrGetDistanceOrEdge(prev, p); prev = p; } break; } case CIRCLE: { Quaternion q = SS.GetEntity(normal)->NormalGetNum(); double r = SS.GetEntity(distance)->DistanceGetNum(); Vector center = SS.GetEntity(point[0])->PointGetNum(); Vector u = q.RotationU(), v = q.RotationV(); int i, c = SS.CircleSides(r); Vector prev = u.ScaledBy(r).Plus(center); for(i = 1; i <= c; i++) { double phi = (2*PI*i)/c; Vector p = (u.ScaledBy(r*cos(phi))).Plus( v.ScaledBy(r*sin(phi))); p = p.Plus(center); LineDrawOrGetDistanceOrEdge(prev, p); prev = p; } break; } case FACE_NORMAL_PT: case FACE_XPROD: case FACE_N_ROT_TRANS: // Do nothing; these are drawn with the triangle mesh break; default: oops(); } }