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/* MIT License | |
Copyright (c) 2022 David Tattersall | |
Permission is hereby granted, free of charge, to any person obtaining a copy | |
of this software and associated documentation files (the "Software"), to deal | |
in the Software without restriction, including without limitation the rights | |
to use, copy, modify, merge, publish, distribute, sublicense, and/or sell | |
copies of the Software, and to permit persons to whom the Software is | |
furnished to do so, subject to the following conditions: | |
The above copyright notice and this permission notice shall be included in all | |
copies or substantial portions of the Software. | |
THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR | |
IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, | |
FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE | |
AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER | |
LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, | |
OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE | |
SOFTWARE. */ | |
using System.Collections.Generic; | |
using UnityEngine; | |
using UnityEngine.UIElements; | |
class Shadow : VisualElement | |
{ | |
private Vertex[] k_Vertices; | |
public int shadowCornerRadius { get; set; } | |
public float shadowScale { get; set; } | |
public int shadowOffsetX { get; set; } | |
public int shadowOffsetY { get; set; } | |
public int shadowCornerSubdivisions => 3; | |
public new class UxmlFactory : UxmlFactory<Shadow, UxmlTraits> { } | |
public new class UxmlTraits : VisualElement.UxmlTraits | |
{ | |
public override IEnumerable<UxmlChildElementDescription> uxmlChildElementsDescription | |
{ | |
get { yield break; } | |
} | |
// Rounded corner radius. Increase to make the shadow "fluffier" | |
UxmlIntAttributeDescription radiusAttr = | |
new UxmlIntAttributeDescription { name = "shadow-corner-radius", defaultValue = 10 }; | |
// Scale. Increase to make the shadow extend farther away from the element. | |
UxmlFloatAttributeDescription scaleAttr = | |
new UxmlFloatAttributeDescription { name = "shadow-scale", defaultValue = 1.1f }; | |
// Offsets. Tweak to have e.g. a shadow below and to the right of an element. | |
UxmlIntAttributeDescription offsetXAttr = | |
new UxmlIntAttributeDescription { name = "shadow-offset-x", defaultValue = 0 }; | |
UxmlIntAttributeDescription offsetYAttr = | |
new UxmlIntAttributeDescription { name = "shadow-offset-y", defaultValue = 0 }; | |
// Buggy right now - always set to 3. | |
/*UxmlIntAttributeDescription subdivisionsAttr = | |
new UxmlIntAttributeDescription { name="shadow-corner-subdivisions", defaultValue = 3};*/ | |
public override void Init(VisualElement ve, IUxmlAttributes bag, CreationContext cc) | |
{ | |
base.Init(ve, bag, cc); | |
var shadow = ve as Shadow; | |
shadow.shadowCornerRadius = radiusAttr.GetValueFromBag(bag, cc); | |
shadow.shadowScale = scaleAttr.GetValueFromBag(bag, cc); | |
shadow.shadowOffsetX = offsetXAttr.GetValueFromBag(bag, cc); | |
shadow.shadowOffsetY = offsetYAttr.GetValueFromBag(bag, cc); | |
//shadow.shadowCornerSubdivisions = subdivisionsAttr.GetValueFromBag(bag, cc); | |
} | |
} | |
public Shadow() | |
{ | |
generateVisualContent += OnGenerateVisualContent; | |
} | |
private void OnGenerateVisualContent(MeshGenerationContext ctx) | |
{ | |
Rect r = contentRect; | |
float left = 0; | |
float right = r.width; | |
float top = 0; | |
float bottom = r.height; | |
float halfSpread = (shadowCornerRadius / 2f); | |
int curveSubdivisions = this.shadowCornerSubdivisions; | |
int totalVertices = 12 + ((curveSubdivisions - 1) * 4); | |
/* | |
4/5/6/7 = inset rectangle (rect-shadowInsetAmount) | |
0/1/2/3/8/9/10/11 = outset rectangle (rect+shadowSpread) | |
1 2 12 => 12+(subdivisions-1) | |
\| / | |
10 - 5========6 - 11 | |
| | | |
| | | |
| | | |
| | | |
9 - 4========7 - 8 | |
/ \ | |
0 3 (12+subdivisions-1)+1 => 12 + 2*(subdivisions-1) + 1 | |
*/ | |
// Outside edge | |
k_Vertices = new Vertex[totalVertices]; | |
k_Vertices[0].position = new Vector3(left + halfSpread, bottom + halfSpread, Vertex.nearZ); | |
k_Vertices[1].position = new Vector3(left + halfSpread, top - halfSpread, Vertex.nearZ); | |
k_Vertices[2].position = new Vector3(right - halfSpread, top - halfSpread, Vertex.nearZ); | |
k_Vertices[3].position = new Vector3(right - halfSpread, bottom + halfSpread, Vertex.nearZ); | |
k_Vertices[0].tint = Color.clear; | |
k_Vertices[1].tint = Color.clear; | |
k_Vertices[2].tint = Color.clear; | |
k_Vertices[3].tint = Color.clear; | |
k_Vertices[8].position = new Vector3(right + halfSpread, bottom - halfSpread, Vertex.nearZ); | |
k_Vertices[9].position = new Vector3(left - halfSpread, bottom - halfSpread, Vertex.nearZ); | |
k_Vertices[10].position = new Vector3(left - halfSpread, top + halfSpread, Vertex.nearZ); | |
k_Vertices[11].position = new Vector3(right + halfSpread, top + halfSpread, Vertex.nearZ); | |
k_Vertices[8].tint = Color.clear; | |
k_Vertices[9].tint = Color.clear; | |
k_Vertices[10].tint = Color.clear; | |
k_Vertices[11].tint = Color.clear; | |
// Inside rectangle | |
k_Vertices[4].position = new Vector3(0 + halfSpread, r.height - halfSpread, Vertex.nearZ); | |
k_Vertices[5].position = new Vector3(0 + halfSpread, 0 + halfSpread, Vertex.nearZ); | |
k_Vertices[6].position = new Vector3(r.width - halfSpread, 0 + halfSpread, Vertex.nearZ); | |
k_Vertices[7].position = new Vector3(r.width - halfSpread, r.height - halfSpread, Vertex.nearZ); | |
k_Vertices[4].tint = resolvedStyle.color; | |
k_Vertices[5].tint = resolvedStyle.color; | |
k_Vertices[6].tint = resolvedStyle.color; | |
k_Vertices[7].tint = resolvedStyle.color; | |
// Top right corner | |
for (int i = 0; i < curveSubdivisions - 1; i++) | |
{ | |
int vertexId = 12 + i; | |
float angle = (Mathf.PI * 0.5f / curveSubdivisions) + (Mathf.PI * 0.5f / curveSubdivisions) * i; | |
k_Vertices[vertexId].position = new Vector3(r.width - halfSpread + Mathf.Sin(angle) * shadowCornerRadius, 0 + halfSpread + (-Mathf.Cos(angle) * shadowCornerRadius), Vertex.nearZ); | |
k_Vertices[vertexId].tint = Color.clear; | |
} | |
// Bottom right corner | |
for (int i = 0; i < curveSubdivisions - 1; i++) | |
{ | |
int vertexId = 12 + i + (curveSubdivisions - 1); | |
float angle = (Mathf.PI * 0.5f) + (Mathf.PI * 0.5f / curveSubdivisions) + (Mathf.PI * 0.5f / curveSubdivisions) * i; | |
k_Vertices[vertexId].position = new Vector3(r.width - halfSpread + Mathf.Sin(angle) * shadowCornerRadius, r.height - halfSpread + (-Mathf.Cos(angle) * shadowCornerRadius), Vertex.nearZ); | |
k_Vertices[vertexId].tint = Color.clear; | |
} | |
// Bottom left corner | |
for (int i = 0; i < curveSubdivisions - 1; i++) | |
{ | |
int vertexId = 12 + i + (curveSubdivisions - 1) * 2; | |
float angle = (Mathf.PI) + (Mathf.PI * 0.5f / curveSubdivisions) + (Mathf.PI * 0.5f / curveSubdivisions) * i; | |
k_Vertices[vertexId].position = new Vector3(0 + halfSpread + Mathf.Sin(angle) * shadowCornerRadius, r.height - halfSpread + (-Mathf.Cos(angle) * shadowCornerRadius), Vertex.nearZ); | |
k_Vertices[vertexId].tint = Color.clear; | |
} | |
// Top left corner | |
for (int i = 0; i < curveSubdivisions - 1; i++) | |
{ | |
int vertexId = 12 + i + (curveSubdivisions - 1) * 3; | |
float angle = (Mathf.PI * 1.5f) + (Mathf.PI * 0.5f / curveSubdivisions) + (Mathf.PI * 0.5f / curveSubdivisions) * i; | |
k_Vertices[vertexId].position = new Vector3(0 + halfSpread + Mathf.Sin(angle) * shadowCornerRadius, 0 + halfSpread + (-Mathf.Cos(angle) * shadowCornerRadius), Vertex.nearZ); | |
k_Vertices[vertexId].tint = Color.clear; | |
} | |
Vector3 dimensions = new Vector3(r.width, r.height, Vertex.nearZ); | |
for (int i = 0; i < k_Vertices.Length; i++) | |
{ | |
// Do not scale the inner rectangle | |
Vector3 newPos = k_Vertices[i].position; | |
newPos = newPos + new Vector3(shadowOffsetX, shadowOffsetY, 0); | |
if (i >= 4 && i <= 7) | |
{ | |
// Do nothing | |
} | |
else | |
{ | |
newPos = ((newPos - (dimensions * 0.5f)) * shadowScale) + (dimensions * 0.5f); | |
} | |
// Scale verticles using scale factor | |
k_Vertices[i].position = newPos; | |
} | |
List<ushort> tris = new List<ushort>(); | |
tris.AddRange(new ushort[]{ | |
1,6,5, | |
2,6,1, | |
6,11,8, | |
6,8,7, | |
4,7,3, | |
4,3,0, | |
10,5,4, | |
10,4,9, | |
5,6,4, | |
6,7,4, | |
}); | |
for (ushort i = 0; i < curveSubdivisions; i++) | |
{ | |
if (i == 0) | |
{ | |
tris.AddRange(new ushort[] { 2, 12, 6 }); | |
} | |
else if (i == curveSubdivisions - 1) | |
{ | |
tris.AddRange(new ushort[] { (ushort)(12 + i - 1), 11, 6 }); | |
} | |
else | |
{ | |
tris.AddRange(new ushort[] { (ushort)(12 + i - 1), (ushort)(12 + i), 6 }); | |
} | |
} | |
for (ushort i = 0; i < curveSubdivisions; i++) | |
{ | |
if (i == 0) | |
{ | |
tris.AddRange(new ushort[] { 7, 8, 14 }); | |
} | |
else if (i == curveSubdivisions - 1) | |
{ | |
tris.AddRange(new ushort[] { (ushort)(12 + i - 1 + (curveSubdivisions - 1)), 3, 7 }); | |
} | |
else | |
{ | |
tris.AddRange(new ushort[] { (ushort)(12 + i - 1 + (curveSubdivisions - 1)), (ushort)(12 + i + (curveSubdivisions - 1)), 7 }); | |
} | |
} | |
for (ushort i = 0; i < curveSubdivisions; i++) | |
{ | |
if (i == 0) | |
{ | |
tris.AddRange(new ushort[] { 4, 0, 16 }); | |
} | |
else if (i == curveSubdivisions - 1) | |
{ | |
tris.AddRange(new ushort[] { (ushort)(12 + i - 1 + 2 * (curveSubdivisions - 1)), 9, 4 }); | |
} | |
else | |
{ | |
tris.AddRange(new ushort[] { (ushort)(12 + i - 1 + 2 * (curveSubdivisions - 1)), (ushort)(12 + i + (2 * (curveSubdivisions - 1))), 4 }); | |
} | |
} | |
for (ushort i = 0; i < curveSubdivisions; i++) | |
{ | |
if (i == 0) | |
{ | |
tris.AddRange(new ushort[] { 5, 10, 18 }); | |
} | |
else if (i == curveSubdivisions - 1) | |
{ | |
tris.AddRange(new ushort[] { (ushort)(12 + i - 1 + 3 * (curveSubdivisions - 1)), 1, 5 }); | |
} | |
else | |
{ | |
tris.AddRange(new ushort[] { (ushort)(12 + i - 1 + 3 * (curveSubdivisions - 1)), (ushort)(12 + i + 3 * (curveSubdivisions - 1)), 5 }); | |
} | |
} | |
MeshWriteData mwd = ctx.Allocate(k_Vertices.Length, tris.Count); | |
mwd.SetAllVertices(k_Vertices); | |
mwd.SetAllIndices(tris.ToArray()); | |
} | |
} |
Usage description at https://forum.unity.com/threads/soft-shadows-my-custom-component.1300653/
You, sir, are a hero — many thanks.
Usage description at https://forum.unity.com/threads/soft-shadows-my-custom-component.1300653/
You, sir, are a hero — many thanks.
I'm glad it's helpful! :D
This is great thank you so much!
A feature I hope they will build into later UI toolkit versions.
I've made a minor change to the transparent color so it doens't darken: https://gist.github.com/MartinCox86/5566584602282cf49ff0736d17f7ac0f
private Color clearColor;
clearColor = new(resolvedStyle.color.r, resolvedStyle.color.g, resolvedStyle.color.b, 0);
//Used instead of Color.clear
k_Vertices[0].tint = clearColor;
It seems like that you need to have attribute [UnityEngine.Scripting.Preserve]
over the UxmlFactory
to have the editor recognize the component. (I am using Unity 2022.3.5.f1) For those unable to see the component inside the Ui Builder after importing the script, try to add [UnityEngine.Scripting.Preserve]
above public new class UxmlFactory : UxmlFactory<Shadow, UxmlTraits> { }
. In a short, replace
public new class UxmlFactory : UxmlFactory<Shadow, UxmlTraits> { }
with
[UnityEngine.Scripting.Preserve]
public new class UxmlFactory : UxmlFactory<Shadow, UxmlTraits> { }
If you want, you can get rid of all your GC allocs (new ushort[]
, new Vertex[]
, new List<ushort>
, ToArray
). GC allocs can cause Garbage Collection spikes and create stutter.
In Unity 2021.x and 2022.x, consider using temporary NativeArrays to store your vertices and indices. Call the NativeArray constructor with Allocator.Temp
. Then, when you're done, you can call SetAllVertices
and SetAllIndices
with a NativeSlice, which can be obtained from the NativeArray.
Starting from Unity 2023.x, a better alternative would be to use MeshGenerationContext.AllocateTempMesh and MeshGenerationContext.DrawMesh.
I was inspired by this Gist to create an "outer glow effect" custom control, which is also useful for creating drop shadows, so I want to thank you for the inspiration and head start 😀
@alexandret-unity Good suggestion. You can pass a the NativeArray directly to SetAllVertices
method, there is no need to get a NativeSlice. I have tested it here:
https://gist.github.com/edap/304781e090392068f767c4901aef1449
For anyone who uses Unity 2023.2 and later versions, UxmlFactory
and UxmlTrait
is deprecated and Unity suggests using UxmlElementAttribute
for custom control creation. I have made a minor change based on @edap version:
https://gist.github.com/PhamQuangHung-UIT/f06e9c0076ee8df1715256ffa7c8f11f
Thanks a lot :)