#region ================== Copyright (c) 2007 Pascal vd Heiden /* * Copyright (c) 2007 Pascal vd Heiden, www.codeimp.com * This program is released under GNU General Public License * * This program is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the * GNU General Public License for more details. * */ #endregion #region ================== Namespaces using System; using System.Collections.Generic; using System.Drawing; using System.Windows.Forms; using CodeImp.DoomBuilder.Actions; using CodeImp.DoomBuilder.Data; using CodeImp.DoomBuilder.Geometry; using CodeImp.DoomBuilder.Map; using CodeImp.DoomBuilder.Rendering; using CodeImp.DoomBuilder.Types; using CodeImp.DoomBuilder.Windows; #endregion namespace CodeImp.DoomBuilder.BuilderModes { public abstract class FlatAlignMode : BaseClassicMode { #region ================== Enums and Structs private enum ModifyMode { None, Dragging, Resizing, Rotating } private enum Grip { None, Main, SizeV, SizeH, RotateRT, RotateLB } protected struct SectorInfo { public double rotation; public Vector2D scale; public Vector2D offset; } #endregion #region ================== Constants private const float GRIP_SIZE = 9.0f; private readonly Cursor[] RESIZE_CURSORS = { Cursors.SizeNS, Cursors.SizeNWSE, Cursors.SizeWE, Cursors.SizeNESW }; private const byte RECTANGLE_ALPHA = 60; private const byte EXTENSION_LINE_ALPHA = 150; #endregion #region ================== Variables private ICollection selection; private Sector editsector; protected IList sectorinfo; private ImageData texture; //private Vector2D selectionoffset; private ModifyMode mode; private bool autopanning; private bool modealreadyswitching; // Modification // NOTE: This offset is in world space. ZDoom's offset is done before // rotation (not my idea) so we will transform this when applying // changes to sectors. private double rotation; private Vector2D scale = new Vector2D(1.0f, 1.0f); private Vector2D offset; // Rectangle components private readonly Vector2D[] corners = new Vector2D[4]; // lefttop, righttop, rightbottom, leftbottom private FlatVertex[] cornerverts = new FlatVertex[6]; private readonly Vector2D[] extends = new Vector2D[2]; // right, bottom private readonly RectangleF[] resizegrips = new RectangleF[2]; // right, bottom private readonly RectangleF[] rotategrips = new RectangleF[2]; // righttop, leftbottom private Line2D extensionline; // Aligning private RectangleF alignrect; private Vector2D alignoffset; private bool showalignoffset; private Vector2D dragoffset; private Vector2D resizevector; private Vector2D resizefilter; private Line2D resizeaxis; private double rotationoffset; private Vector2D rotationcenter; //mxd. View mode private ViewMode prevviewmode; // Options private bool snaptogrid; // SHIFT to toggle private bool snaptonearest; // CTRL to enable #endregion #region ================== Properties protected abstract string XScaleName { get; } protected abstract string YScaleName { get; } protected abstract string XOffsetName { get; } protected abstract string YOffsetName { get; } protected abstract string RotationName { get; } protected abstract string UndoDescription { get; } #endregion #region ================== Methods protected abstract ImageData GetTexture(Sector editsector); // This checks if a point is in a rect private static bool PointInRectF(RectangleF rect, Vector2D point) { return (point.x >= rect.Left) && (point.x <= rect.Right) && (point.y >= rect.Top) && (point.y <= rect.Bottom); } // Transforms p from Texture space into World space private Vector2D TexToWorld(Vector2D p) { return TexToWorld(p, sectorinfo[0]); } // Transforms p from Texture space into World space protected Vector2D TexToWorld(Vector2D p, SectorInfo s) { p /= scale * s.scale; Vector2D soffset = s.offset.GetRotated(rotation); p -= soffset; p = p.GetRotated(-(rotation + s.rotation)); p -= offset; return p; } // Transforms p from World space into Texture space private Vector2D WorldToTex(Vector2D p) { return WorldToTex(p, sectorinfo[0]); } // Transforms p from World space into Texture space protected Vector2D WorldToTex(Vector2D p, SectorInfo s) { p += offset; p = p.GetRotated(rotation + s.rotation); p += s.offset; p *= scale * s.scale; return p; } // This updates all sectors private void UpdateSectors() { int index = 0; foreach(Sector s in selection) { SectorInfo si = sectorinfo[index]; s.Fields.BeforeFieldsChange(); Vector2D toffset = offset.GetRotated((rotation + si.rotation)); Vector2D soffset = si.offset.GetRotated(rotation); s.Fields[RotationName] = new UniValue(UniversalType.AngleDegreesFloat, Angle2D.RadToDeg(si.rotation + rotation)); s.Fields[XScaleName] = new UniValue(UniversalType.Float, si.scale.x * scale.x); s.Fields[YScaleName] = new UniValue(UniversalType.Float, si.scale.y * scale.y); s.Fields[XOffsetName] = new UniValue(UniversalType.Float, soffset.x + toffset.x); s.Fields[YOffsetName] = new UniValue(UniversalType.Float, -(soffset.y + toffset.y)); s.UpdateNeeded = true; s.UpdateCache(); index++; } } // This restores all sectors to original values private void RestoreSectors() { int index = 0; foreach(Sector s in selection) { SectorInfo si = sectorinfo[index]; s.Fields.BeforeFieldsChange(); s.Fields[RotationName] = new UniValue(UniversalType.AngleDegreesFloat, Angle2D.RadToDeg(si.rotation)); s.Fields[XScaleName] = new UniValue(UniversalType.Float, si.scale.x); s.Fields[YScaleName] = new UniValue(UniversalType.Float, si.scale.y); s.Fields[XOffsetName] = new UniValue(UniversalType.Float, si.offset.x); s.Fields[YOffsetName] = new UniValue(UniversalType.Float, -si.offset.y); s.UpdateNeeded = true; s.UpdateCache(); index++; } } // This updates the selection private void Update() { // Not in any modifying mode? if(mode == ModifyMode.None) { Vector2D prevdragoffset = alignoffset; alignoffset = new Vector2D(double.MinValue, double.MinValue); showalignoffset = false; // Check what grip the mouse is over // and change cursor accordingly Grip mousegrip = CheckMouseGrip(); switch(mousegrip) { case Grip.Main: int closestcorner = -1; double cornerdist = double.MaxValue; for(int i = 0; i < 4; i++) { Vector2D delta = corners[i] - mousemappos; double d = delta.GetLengthSq(); if(d < cornerdist) { closestcorner = i; cornerdist = d; } } switch(closestcorner) { // TODO: case 0: alignoffset = new Vector2D(0f, 0f); break; case 1: alignoffset = new Vector2D(texture.ScaledWidth, 0f); break; case 2: alignoffset = new Vector2D(texture.ScaledWidth, -texture.ScaledHeight); break; case 3: alignoffset = new Vector2D(0f, -texture.ScaledHeight); break; } showalignoffset = true; General.Interface.SetCursor(Cursors.Hand); break; case Grip.RotateLB: case Grip.RotateRT: alignoffset = new Vector2D(0f, 0f); showalignoffset = true; General.Interface.SetCursor(Cursors.Cross); break; case Grip.SizeH: case Grip.SizeV: alignoffset = new Vector2D(0f, 0f); showalignoffset = true; // Pick the best matching cursor depending on rotation and side double resizeangle = -(rotation + sectorinfo[0].rotation); if(mousegrip == Grip.SizeH) resizeangle += Angle2D.PIHALF; resizeangle = Angle2D.Normalized(resizeangle); if(resizeangle > Angle2D.PI) resizeangle -= Angle2D.PI; resizeangle = Math.Abs(resizeangle + Angle2D.PI / 8.000001f); int cursorindex = (int)Math.Floor((resizeangle / Angle2D.PI) * 4.0f) % 4; General.Interface.SetCursor(RESIZE_CURSORS[cursorindex]); break; default: General.Interface.SetCursor(Cursors.Default); break; } if(prevdragoffset != alignoffset) General.Interface.RedrawDisplay(); } else { Vector2D snappedmappos = mousemappos; bool dosnaptogrid = snaptogrid; // Options snaptogrid = General.Interface.ShiftState ^ General.Interface.SnapToGrid; snaptonearest = General.Interface.CtrlState ^ General.Interface.AutoMerge; // Change to crosshair cursor so we can clearly see around the mouse cursor General.Interface.SetCursor(Cursors.Cross); // Check what modifying mode we are in switch(mode) { case ModifyMode.Dragging: offset = -mousemappos - dragoffset; Vector2D transformedpos = TexToWorld(alignoffset); // Snap to nearest vertex? if(snaptonearest) { float vrange = BuilderPlug.Me.StitchRange / renderer.Scale; // Try the nearest vertex Vertex nv = MapSet.NearestVertexSquareRange(General.Map.Map.Vertices, transformedpos, vrange); if(nv != null) { // Change offset to snap to target offset -= nv.Position - transformedpos; dosnaptogrid = false; } else { // Find the nearest line within range Linedef nl = MapSet.NearestLinedefRange(General.Map.Map.Linedefs, transformedpos, vrange); if(nl != null) { // Snap to grid? if(dosnaptogrid) { // Get grid intersection coordinates List coords = nl.GetGridIntersections(General.Map.Grid.GridRotate, General.Map.Grid.GridOriginX, General.Map.Grid.GridOriginY); // Find nearest grid intersection double found_distance = double.MaxValue; Vector2D found_pos = new Vector2D(float.NaN, float.NaN); foreach(Vector2D v in coords) { Vector2D dist = transformedpos - v; if(dist.GetLengthSq() < found_distance) { // Found a better match found_distance = dist.GetLengthSq(); found_pos = v; // Do not snap to grid anymore dosnaptogrid = false; } } // Found something? if(!double.IsNaN(found_pos.x)) { // Change offset to snap to target offset -= found_pos - transformedpos; } } else { // Change offset to snap onto the line offset -= nl.NearestOnLine(transformedpos) - transformedpos; } } } } // Snap to grid? if(dosnaptogrid) { // Change offset to align to grid offset -= General.Map.Grid.SnappedToGrid(transformedpos) - transformedpos; } break; case ModifyMode.Resizing: // Snap to nearest vertex? if(snaptonearest) { float vrange = BuilderPlug.Me.StitchRange / renderer.Scale; // Try the nearest vertex Vertex nv = MapSet.NearestVertexSquareRange(General.Map.Map.Vertices, snappedmappos, vrange); if(nv != null) { snappedmappos = nv.Position; dosnaptogrid = false; } } // Snap to grid? if(dosnaptogrid) { // Aligned to grid snappedmappos = General.Map.Grid.SnappedToGrid(snappedmappos); } double newscale = 1f / resizeaxis.GetNearestOnLine(snappedmappos); if(double.IsInfinity(newscale) || double.IsNaN(newscale)) newscale = 99999f; scale = (newscale * resizefilter) + scale * (1.0f - resizefilter); if(double.IsInfinity(scale.x) || double.IsNaN(scale.x)) scale.x = 99999f; if(double.IsInfinity(scale.y) || double.IsNaN(scale.y)) scale.y = 99999f; // Show the extension line so that the user knows what it is aligning to UpdateRectangleComponents(); Line2D edgeline; if(resizefilter.x > resizefilter.y) edgeline = new Line2D(corners[1], corners[2]); else edgeline = new Line2D(corners[3], corners[2]); double nearestonedge = edgeline.GetNearestOnLine(snappedmappos); if(nearestonedge > 0.5f) extensionline = new Line2D(edgeline.v1, snappedmappos); else extensionline = new Line2D(edgeline.v2, snappedmappos); break; case ModifyMode.Rotating: // Snap to nearest vertex? extensionline = new Line2D(); if(snaptonearest) { float vrange = BuilderPlug.Me.StitchRange / renderer.Scale; // Try the nearest vertex Vertex nv = MapSet.NearestVertexSquareRange(General.Map.Map.Vertices, snappedmappos, vrange); if(nv != null) { snappedmappos = nv.Position; dosnaptogrid = false; // Show the extension line so that the user knows what it is aligning to extensionline = new Line2D(corners[0], snappedmappos); } } Vector2D delta = snappedmappos - rotationcenter; double deltaangle = -delta.GetAngle(); // Snap to grid? if(dosnaptogrid) { // We make 24 vectors that the rotation can snap to double founddistance = double.MaxValue; double foundrotation = rotation; Vector3D rotvec = Vector2D.FromAngle(deltaangle + rotationoffset); for(int i = 0; i < 24; i++) { // Make the vectors double angle = i * Angle2D.PI * 0.08333333333f; //mxd. 15-degree increments Vector2D gridvec = Vector2D.FromAngle(angle); // Check distance double dist = 2.0f - Vector2D.DotProduct(gridvec, rotvec); if(dist < founddistance) { foundrotation = angle; founddistance = dist; } } // Keep rotation rotation = foundrotation - sectorinfo[0].rotation; } else { rotation = deltaangle + rotationoffset - sectorinfo[0].rotation; } break; } UpdateSectors(); General.Interface.RedrawDisplay(); } } // This updates the selection rectangle components private void UpdateRectangleComponents() { float gripsize = GRIP_SIZE / renderer.Scale; PixelColor rectcolor = General.Colors.Highlight.WithAlpha(RECTANGLE_ALPHA); // Corners in world space corners[0] = TexToWorld(new Vector2D(0f, 0f)); corners[1] = TexToWorld(new Vector2D(texture.ScaledWidth, 0f)); corners[2] = TexToWorld(new Vector2D(texture.ScaledWidth, -texture.ScaledHeight)); corners[3] = TexToWorld(new Vector2D(0f, -texture.ScaledHeight)); // Vertices cornerverts = new FlatVertex[6]; for(int i = 0; i < 6; i++) { cornerverts[i] = new FlatVertex(); cornerverts[i].z = 1.0f; cornerverts[i].c = rectcolor.ToInt(); } cornerverts[0].x = (float)corners[0].x; cornerverts[0].y = (float)corners[0].y; cornerverts[1].x = (float)corners[1].x; cornerverts[1].y = (float)corners[1].y; cornerverts[2].x = (float)corners[2].x; cornerverts[2].y = (float)corners[2].y; cornerverts[3].x = (float)corners[0].x; cornerverts[3].y = (float)corners[0].y; cornerverts[4].x = (float)corners[2].x; cornerverts[4].y = (float)corners[2].y; cornerverts[5].x = (float)corners[3].x; cornerverts[5].y = (float)corners[3].y; // Extended points for rotation corners extends[0] = TexToWorld(new Vector2D(texture.ScaledWidth + (20f * Math.Sign(scale.x * sectorinfo[0].scale.x)) / renderer.Scale * (scale.x * sectorinfo[0].scale.x), 0f)); extends[1] = TexToWorld(new Vector2D(0f, -texture.ScaledHeight + (-20f * Math.Sign(scale.y * sectorinfo[0].scale.y)) / renderer.Scale * (scale.y * sectorinfo[0].scale.y))); // Middle points between corners Vector2D middle12 = corners[1] + (corners[2] - corners[1]) * 0.5f; Vector2D middle23 = corners[2] + (corners[3] - corners[2]) * 0.5f; // Resize grips resizegrips[0] = new RectangleF((float)(middle12.x - gripsize * 0.5f), (float)(middle12.y - gripsize * 0.5f), gripsize, gripsize); resizegrips[1] = new RectangleF((float)(middle23.x - gripsize * 0.5f), (float)(middle23.y - gripsize * 0.5f), gripsize, gripsize); // Rotate grips rotategrips[0] = new RectangleF((float)(extends[0].x - gripsize * 0.5f), (float)(extends[0].y - gripsize * 0.5f), gripsize, gripsize); rotategrips[1] = new RectangleF((float)(extends[1].x - gripsize * 0.5f), (float)(extends[1].y - gripsize * 0.5f), gripsize, gripsize); if(showalignoffset) { Vector2D worldalignoffset = TexToWorld(alignoffset); alignrect = new RectangleF((float)(worldalignoffset.x - gripsize * 0.5f), (float)(worldalignoffset.y - gripsize * 0.5f), gripsize, gripsize); } } // This checks and returns the grip the mouse pointer is in private Grip CheckMouseGrip() { if(PointInRectF(resizegrips[0], mousemappos)) return Grip.SizeH; if(PointInRectF(resizegrips[1], mousemappos)) return Grip.SizeV; if(PointInRectF(rotategrips[0], mousemappos)) return Grip.RotateRT; if(PointInRectF(rotategrips[1], mousemappos)) return Grip.RotateLB; if(Tools.PointInPolygon(corners, mousemappos)) return Grip.Main; return Grip.None; } #endregion #region ================== Events // Mode engages public override void OnEngage() { prevviewmode = General.Map.Renderer2D.ViewMode; //mxd base.OnEngage(); // We don't want to record this for undoing while we move the geometry around. // This will be set back to normal when we're done. General.Map.UndoRedo.IgnorePropChanges = true; // Presentation renderer.SetPresentation(Presentation.Standard); // Selection General.Map.Map.ConvertSelection(SelectionType.Sectors); General.Map.Map.SelectionType = SelectionType.Sectors; if(General.Map.Map.SelectedSectorsCount == 0) { // Find the nearest linedef within highlight range Linedef l = General.Map.Map.NearestLinedef(mousemappos); if(l != null) { Sector selectsector = null; // Check on which side of the linedef the mouse is and which sector there is double side = l.SideOfLine(mousemappos); if((side > 0) && (l.Back != null)) selectsector = l.Back.Sector; else if((side <= 0) && (l.Front != null)) selectsector = l.Front.Sector; // Select the sector! if(selectsector != null) { selectsector.Selected = true; foreach(Sidedef sd in selectsector.Sidedefs) sd.Line.Selected = true; } } } // Get sector selection selection = General.Map.Map.GetSelectedSectors(true); if(selection.Count == 0) { General.Interface.MessageBeep(MessageBeepType.Default); General.Interface.DisplayStatus(StatusType.Action, "A selected sector is required for this action."); General.Editing.CancelMode(); return; } editsector = General.GetByIndex(selection, 0); // Get the texture texture = GetTexture(editsector); if((texture == null) || (texture == General.Map.Data.WhiteTexture) || (texture.Width <= 0) || (texture.Height <= 0) || !texture.IsImageLoaded) { General.Interface.MessageBeep(MessageBeepType.Default); General.Interface.DisplayStatus(StatusType.Action, "The selected sector must have a loaded texture to align."); General.Editing.CancelMode(); return; } // Cache the transformation values sectorinfo = new List(selection.Count); foreach(Sector s in selection) { SectorInfo si; si.rotation = Angle2D.DegToRad(s.Fields.GetValue(RotationName, 0.0)); si.scale.x = s.Fields.GetValue(XScaleName, 1.0); si.scale.y = s.Fields.GetValue(YScaleName, 1.0); si.offset.x = s.Fields.GetValue(XOffsetName, 0.0); si.offset.y = -s.Fields.GetValue(YOffsetName, 0.0); sectorinfo.Add(si); } // We want the texture corner nearest to the center of the sector Vector2D fp; fp.x = (editsector.BBox.Left + editsector.BBox.Right) / 2; fp.y = (editsector.BBox.Top + editsector.BBox.Bottom) / 2; // Transform the point into texture space fp = WorldToTex(fp); // Snap to the nearest left-top corner fp.x = Math.Floor(fp.x / texture.ScaledWidth) * texture.ScaledWidth; fp.y = Math.Ceiling(fp.y / texture.ScaledHeight) * texture.ScaledHeight; // Now move the offset so that the 0,0 point is at this location // We want to work with the 0,0 location because it makes things easier. SectorInfo si0 = sectorinfo[0]; si0.offset -= fp / si0.scale; sectorinfo[0] = si0; UpdateRectangleComponents(); UpdateSectors(); } // Mode disengages public override void OnDisengage() { switch(prevviewmode) { case ViewMode.Normal: General.Actions.InvokeAction("builder_viewmodenormal"); break; case ViewMode.FloorTextures: General.Actions.InvokeAction("builder_viewmodefloors"); break; case ViewMode.CeilingTextures: General.Actions.InvokeAction("builder_viewmodeceilings"); break; case ViewMode.Brightness: General.Actions.InvokeAction("builder_viewmodebrightness"); break; } base.OnDisengage(); // When not cancelled manually, we assume it is accepted if(!cancelled) { modealreadyswitching = true; General.Editing.AcceptMode(); } // Hide highlight info General.Interface.SetCursor(Cursors.Default); General.Interface.HideInfo(); General.Interface.RedrawDisplay(); } // When accepted public override void OnAccept() { base.OnAccept(); if(!modealreadyswitching) { modealreadyswitching = true; // Restore original values RestoreSectors(); General.Map.Map.Update(); // Make undo General.Map.UndoRedo.CreateUndo(UndoDescription); // Resume normal undo/redo recording General.Map.UndoRedo.IgnorePropChanges = false; // Apply changes UpdateSectors(); General.Map.Map.Update(); // Clear selection if(selection.Count == 1) General.Map.Map.ClearAllSelected(); // Done General.Map.IsChanged = true; selection = null; sectorinfo = null; // Return to previous stable mode General.Editing.ChangeMode(General.Editing.PreviousStableMode.Name); } } // Cancel mode public override void OnCancel() { base.OnCancel(); modealreadyswitching = true; // Restore original values RestoreSectors(); General.Map.Map.Update(); // Resume normal undo/redo recording General.Map.UndoRedo.IgnorePropChanges = false; // Return to previous stable mode General.Editing.ChangeMode(General.Editing.PreviousStableMode.Name); } // Mouse moves public override void OnMouseMove(MouseEventArgs e) { base.OnMouseMove(e); if(panning) return; //mxd. Skip all this jazz while panning Update(); } // Mouse leaves the display public override void OnMouseLeave(EventArgs e) { base.OnMouseLeave(e); // Reset cursor General.Interface.SetCursor(Cursors.Default); } // When edit button is pressed protected override void OnEditBegin() { base.OnEditBegin(); OnSelectBegin(); } // When edit button is released protected override void OnEditEnd() { base.OnEditEnd(); OnSelectEnd(); } // When select button is pressed protected override void OnSelectBegin() { base.OnSelectBegin(); if(mode != ModifyMode.None) return; // Check what grip the mouse is over switch(CheckMouseGrip()) { // Drag main rectangle case Grip.Main: dragoffset = -mousemappos - offset; mode = ModifyMode.Dragging; EnableAutoPanning(); autopanning = true; break; // Scale case Grip.SizeH: // The resize vector is a unit vector in the direction of the resize. // We multiply this with the sign of the current size, because the // corners may be reversed when the selection is flipped. resizevector = corners[1] - corners[0]; resizevector = resizevector.GetNormal() * Math.Sign(scale.x); // Make the resize axis. This is a line with the length and direction // of basesize used to calculate the resize percentage. resizeaxis = new Line2D(corners[0], corners[0] + resizevector * texture.ScaledWidth / Math.Abs(sectorinfo[0].scale.x)); // Original axis filter resizefilter = new Vector2D(1.0f, 0.0f); mode = ModifyMode.Resizing; break; // Scale case Grip.SizeV: // See description above resizevector = corners[2] - corners[1]; resizevector = resizevector.GetNormal() * Math.Sign(scale.y); resizeaxis = new Line2D(corners[1], corners[1] + resizevector * texture.ScaledHeight / Math.Abs(sectorinfo[0].scale.y)); resizefilter = new Vector2D(0.0f, 1.0f); mode = ModifyMode.Resizing; break; // Rotate case Grip.RotateRT: rotationoffset = Angle2D.PIHALF; if(Math.Sign(scale.x * sectorinfo[0].scale.x) < 0) rotationoffset += Angle2D.PI; rotationcenter = corners[0]; mode = ModifyMode.Rotating; break; // Rotate case Grip.RotateLB: rotationoffset = 0f; if(Math.Sign(scale.y * sectorinfo[0].scale.y) < 0) rotationoffset += Angle2D.PI; rotationcenter = corners[0]; mode = ModifyMode.Rotating; break; // Outside the selection? default: // Accept and be done with it General.Editing.AcceptMode(); break; } } // When selected button is released protected override void OnSelectEnd() { base.OnSelectEnd(); // Remove extension line extensionline = new Line2D(); if(autopanning) { DisableAutoPanning(); autopanning = false; } // No modifying mode mode = ModifyMode.None; // Redraw General.Map.Map.Update(); General.Interface.RedrawDisplay(); } // This redraws the display public override void OnRedrawDisplay() { if(sectorinfo != null) UpdateRectangleComponents(); renderer.RedrawSurface(); // Render lines if(renderer.StartPlotter(true)) { renderer.PlotLinedefSet(General.Map.Map.Linedefs); renderer.PlotVerticesSet(General.Map.Map.Vertices); renderer.Finish(); } // Render things if(renderer.StartThings(true)) { renderer.RenderThingSet(General.Map.ThingsFilter.HiddenThings, General.Settings.HiddenThingsAlpha); renderer.RenderThingSet(General.Map.ThingsFilter.VisibleThings, General.Settings.ActiveThingsAlpha); renderer.Finish(); } // Render overlay if(sectorinfo != null) { if(renderer.StartOverlay(true)) { // Rectangle PixelColor rectcolor = General.Colors.Highlight.WithAlpha(RECTANGLE_ALPHA); renderer.RenderGeometry(cornerverts, null, true); if(extensionline.GetLengthSq() > 0.0f) renderer.RenderLine(extensionline.v1, extensionline.v2, 1, General.Colors.Indication.WithAlpha(EXTENSION_LINE_ALPHA), true); renderer.RenderLine(corners[0], corners[1], 4, rectcolor, true); renderer.RenderLine(corners[1], corners[2], 4, rectcolor, true); renderer.RenderLine(corners[2], corners[3], 4, rectcolor, true); renderer.RenderLine(corners[3], corners[0], 4, rectcolor, true); // Lines renderer.RenderLine(corners[0], extends[0], 1f, General.Colors.Highlight, true); renderer.RenderLine(corners[0], extends[1], 1f, General.Colors.Highlight, true); renderer.RenderLine(corners[1], corners[2], 0.5f, General.Colors.Highlight, true); renderer.RenderLine(corners[2], corners[3], 0.5f, General.Colors.Highlight, true); // Handles renderer.RenderRectangleFilled(rotategrips[0], General.Colors.Background, true); renderer.RenderRectangleFilled(rotategrips[1], General.Colors.Background, true); renderer.RenderRectangle(rotategrips[0], 2f, General.Colors.Indication, true); renderer.RenderRectangle(rotategrips[1], 2f, General.Colors.Indication, true); renderer.RenderRectangleFilled(resizegrips[0], General.Colors.Background, true); renderer.RenderRectangleFilled(resizegrips[1], General.Colors.Background, true); renderer.RenderRectangle(resizegrips[0], 2f, General.Colors.Highlight, true); renderer.RenderRectangle(resizegrips[1], 2f, General.Colors.Highlight, true); // Rotate/align point if(showalignoffset) renderer.RenderRectangleFilled(alignrect, General.Colors.Selection, true); renderer.Finish(); } } renderer.Present(); } #endregion #region ================== Actions // This clears the selection [BeginAction("clearselection", BaseAction = true)] public void ClearSelection() { // Accept changes General.Editing.AcceptMode(); General.Map.Map.ClearAllSelected(); General.Interface.RedrawDisplay(); } #endregion } }