Create a new class inheriting from GridBrushBase
(or any useful subclasses of GridBrushBase
like GridBrush
). Override any required methods for your new Brush class. The following are the usual methods you would override:
Paint
allows the Brush to add items onto the target Grid.Erase
allows the Brush to remove items from the target Grid.FloodFill
allows the Brush to fill items onto the target Grid.Rotate
rotates the items set in the Brush.Flip
flips the items set in the Brush.Create instances of your new class using ScriptableObject.CreateInstance<(Your Brush Class>()
. You may convert this new instance to an Asset in the Editor in order to use it repeatedly by calling AssetDatabase.CreateAsset()
.
You can also make a custom editor for your brush. This works the same way as custom editors for scriptable objects. The following are the main methods you would want to override when creating a custom editor:
OnPaintInspectorGUI
to have an InspectorA Unity window that displays information about the currently selected GameObject, asset or project settings, allowing you to inspect and edit the values. More infoOnPaintSceneGUI
to add additional behaviours when painting on the SceneView
.validTargets
to have a custom list of targets which the Brush can interact with. This list of targets is shown as a dropdown list in the Palette window.When created, the Scriptable Brush is listed in the Brushes dropdown menu in the Palette window. By default, an instance of the Scriptable Brush script is instantiated and stored in the Library folder of your project. Any modifications to the brush properties are stored in that instance. If you want to have multiple copies of that Brush with different properties, you can instantiate the Brush as Assets in your project. These Brush Assets are listed separately in the Brush dropdown menu.
You can add a CustomGridBrush
attribute to your Scriptable Brush class. This allows you to configure the behavior of the Brush in the Palette window. The CustomGridBrush
attribute has the following properties:
HideAssetInstances
- Set this to true to hide all copies of created Brush Assets in the Palette window. This is useful when you want only the default instance to show up in the Brush dropdown menu in the Tile Palette window.HideDefaultInstances
- Set this to true to hide the default instance of the Brush in the Palette window. This is useful when you want only created Assets to show up in the Brush dropdown menu in the Tile Palette window.DefaultBrush
- Set this to true to set the default instance of the Brush as the default Brush in the project. This makes this Brush the default selected Brush whenever the project starts. Note: Only set one Scriptable Brush as the Default Brush. Setting more than one Default Brush may cause your Scriptable Brushes to behave incorrectly.DefaultName
- Set a name to this to have the Brush dropdown menu use the set name as the name for the Brush instead of the name of the Brush’s class.If you want your Scriptable Brush class to use only certain tools, you can add a BrushTools
attribute to your class with a list of compatible TilemapEditorTools
types. This ensures that your Scriptable Brush only activates with these specific tools from the Tile Palette toolbarA row of buttons and basic controls at the top of the Unity Editor that allows you to interact with the Editor in various ways (e.g. scaling, translation). More info
See in Glossary.
LineBrush
provides the ability to easily draw lines of Tiles onto the TilemapA GameObject that allows you to quickly create 2D levels using tiles and a grid overlay. More info
See in Glossary by specifying the start point and the end point. The Paint method for the LineBrush is overridden to allow the user to specify the start of a line with the first mouse click in Paint mode and draw the line with the second mouse click in Paint mode. The OnPaintSceneGUI
method is overridden to produce the preview of the line to be drawn between the first and second mouse clicks. The following is a script used to create the Brush.
using System;
using System.Collections;
using System.Collections.Generic;
using UnityEngine;
using UnityEngine.Tilemaps;
namespace UnityEditor.Tilemaps
{
[CustomGridBrush(true, false, false, "Line Brush")]
public class LineBrush : GridBrush {
public bool lineStartActive = false;
public Vector3Int lineStart = Vector3Int.zero;
public override void Paint(GridLayout grid, GameObject brushTarget, Vector3Int position)
{
if (lineStartActive)
{
Vector2Int startPos = new Vector2Int(lineStart.x, lineStart.y);
Vector2Int endPos = new Vector2Int(position.x, position.y);
if (startPos == endPos)
base.Paint(grid, brushTarget, position);
else
{
foreach (var point in GetPointsOnLine(startPos, endPos))
{
Vector3Int paintPos = new Vector3Int(point.x, point.y, position.z);
base.Paint(grid, brushTarget, paintPos);
}
}
lineStartActive = false;
}
else
{
lineStart = position;
lineStartActive = true;
}
}
[MenuItem("Assets/Create/Line Brush")]
public static void CreateBrush()
{
string path = EditorUtility.SaveFilePanelInProject("Save Line Brush", "New Line Brush", "Asset", "Save Line Brush", "Assets");
if (path == "")
return;
AssetDatabase.CreateAsset(ScriptableObject.CreateInstance<LineBrush>(), path);
}
// http://ericw.ca/notes/bresenhams-line-algorithm-in-csharp.html
public static IEnumerable<Vector2Int> GetPointsOnLine(Vector2Int p1, Vector2Int p2)
{
int x0 = p1.x;
int y0 = p1.y;
int x1 = p2.x;
int y1 = p2.y;
bool steep = Math.Abs(y1 - y0) > Math.Abs(x1 - x0);
if (steep)
{
int t;
t = x0; // swap x0 and y0
x0 = y0;
y0 = t;
t = x1; // swap x1 and y1
x1 = y1;
y1 = t;
}
if (x0 > x1)
{
int t;
t = x0; // swap x0 and x1
x0 = x1;
x1 = t;
t = y0; // swap y0 and y1
y0 = y1;
y1 = t;
}
int dx = x1 - x0;
int dy = Math.Abs(y1 - y0);
int error = dx / 2;
int ystep = (y0 < y1) ? 1 : -1;
int y = y0;
for (int x = x0; x <= x1; x++)
{
yield return new Vector2Int((steep ? y : x), (steep ? x : y));
error = error - dy;
if (error < 0)
{
y += ystep;
error += dx;
}
}
yield break;
}
}
[CustomEditor(typeof(LineBrush))]
public class LineBrushEditor : GridBrushEditor
{
private LineBrush lineBrush { get { return target as LineBrush; } }
public override void OnPaintSceneGUI(GridLayout grid, GameObject brushTarget, BoundsInt position, GridBrushBase.Tool tool, bool executing)
{
base.OnPaintSceneGUI(grid, brushTarget, position, tool, executing);
if (lineBrush.lineStartActive)
{
Tilemap tilemap = brushTarget.GetComponent<Tilemap>();
if (tilemap != null)
tilemap.ClearAllEditorPreviewTiles();
// Draw preview tiles for tilemap
Vector2Int startPos = new Vector2Int(lineBrush.lineStart.x, lineBrush.lineStart.y);
Vector2Int endPos = new Vector2Int(position.x, position.y);
if (startPos == endPos)
PaintPreview(grid, brushTarget, position.min);
else
{
foreach (var point in LineBrush.GetPointsOnLine(startPos, endPos))
{
Vector3Int paintPos = new Vector3Int(point.x, point.y, position.z);
PaintPreview(grid, brushTarget, paintPos);
}
}
if (Event.current.type == EventType.Repaint)
{
var min = lineBrush.lineStart;
var max = lineBrush.lineStart + position.size;
// Draws a box on the picked starting position
GL.PushMatrix();
GL.MultMatrix(GUI.matrix);
GL.Begin(GL.LINES);
Handles.color = Color.blue;
Handles.DrawLine(new Vector3(min.x, min.y, min.z), new Vector3(max.x, min.y, min.z));
Handles.DrawLine(new Vector3(max.x, min.y, min.z), new Vector3(max.x, max.y, min.z));
Handles.DrawLine(new Vector3(max.x, max.y, min.z), new Vector3(min.x, max.y, min.z));
Handles.DrawLine(new Vector3(min.x, max.y, min.z), new Vector3(min.x, min.y, min.z));
GL.End();
GL.PopMatrix();
}
}
}
}
}