private static void TessellateRectInternal(ref MeshGenerationContextUtils.RectangleParams rectParams, float posZ, VertexFlags vertexFlags, NativeSlice <Vertex>?vertices, NativeSlice <UInt16>?indices, ref UInt16 vertexCount, ref UInt16 indexCount, bool countOnly = false)
{
if (!rectParams.HasRadius(kEpsilon))
{
UInt16 indexOffset = 0;
TessellateQuad(rectParams.rect, TessellationType.Content, rectParams.color, posZ, vertexFlags, vertices, indices, ref indexOffset, ref vertexCount, ref indexCount, countOnly);
}
else
{
TessellateRoundedCorners(ref rectParams, posZ, vertexFlags, vertices, indices, ref vertexCount, ref indexCount, countOnly);
}
}
internal static void MakeSolidRect(MeshGenerationContextUtils.RectangleParams rectParams, float posZ, MeshBuilder.AllocMeshData meshAlloc)
{
bool flag = !rectParams.HasRadius(Tessellation.kEpsilon);
if (flag)
{
MeshBuilder.MakeQuad(rectParams.rect, Rect.zero, rectParams.color, posZ, meshAlloc);
}
else
{
Tessellation.TessellateRect(rectParams, posZ, meshAlloc, false);
}
}
public void DrawVisualElementBackground()
{
bool flag = this.currentElement.layout.width <= Mathf.Epsilon || this.currentElement.layout.height <= Mathf.Epsilon;
if (!flag)
{
ComputedStyle computedStyle = this.currentElement.computedStyle;
bool flag2 = computedStyle.backgroundColor != Color.clear;
if (flag2)
{
MeshGenerationContextUtils.RectangleParams rectParams = new MeshGenerationContextUtils.RectangleParams
{
rect = GUIUtility.AlignRectToDevice(this.currentElement.rect),
color = computedStyle.backgroundColor.value,
playmodeTintColor = ((this.currentElement.panel.contextType == ContextType.Editor) ? UIElementsUtility.editorPlayModeTintColor : Color.white)
};
MeshGenerationContextUtils.GetVisualElementRadii(this.currentElement, out rectParams.topLeftRadius, out rectParams.bottomLeftRadius, out rectParams.topRightRadius, out rectParams.bottomRightRadius);
this.DrawRectangle(rectParams);
}
Background value = computedStyle.backgroundImage.value;
bool flag3 = value.texture != null || value.vectorImage != null;
if (flag3)
{
MeshGenerationContextUtils.RectangleParams rectParams2 = default(MeshGenerationContextUtils.RectangleParams);
bool flag4 = value.texture != null;
if (flag4)
{
rectParams2 = MeshGenerationContextUtils.RectangleParams.MakeTextured(GUIUtility.AlignRectToDevice(this.currentElement.rect), new Rect(0f, 0f, 1f, 1f), value.texture, computedStyle.unityBackgroundScaleMode.value, this.currentElement.panel.contextType);
}
else
{
bool flag5 = value.vectorImage != null;
if (flag5)
{
rectParams2 = MeshGenerationContextUtils.RectangleParams.MakeVectorTextured(GUIUtility.AlignRectToDevice(this.currentElement.rect), new Rect(0f, 0f, 1f, 1f), value.vectorImage, computedStyle.unityBackgroundScaleMode.value, this.currentElement.panel.contextType);
}
}
MeshGenerationContextUtils.GetVisualElementRadii(this.currentElement, out rectParams2.topLeftRadius, out rectParams2.bottomLeftRadius, out rectParams2.topRightRadius, out rectParams2.bottomRightRadius);
rectParams2.leftSlice = computedStyle.unitySliceLeft.value;
rectParams2.topSlice = computedStyle.unitySliceTop.value;
rectParams2.rightSlice = computedStyle.unitySliceRight.value;
rectParams2.bottomSlice = computedStyle.unitySliceBottom.value;
bool flag6 = computedStyle.unityBackgroundImageTintColor != Color.clear;
if (flag6)
{
rectParams2.color = computedStyle.unityBackgroundImageTintColor.value;
}
this.DrawRectangle(rectParams2);
}
}
}
private static void TessellateRoundedCorners(ref MeshGenerationContextUtils.RectangleParams rectParams, float posZ, MeshWriteData mesh, ref UInt16 vertexCount, ref UInt16 indexCount, bool countOnly)
{
// To tessellate the 4 corners, the rect is divided in 4 quadrants and every quadrant is computed as if they were the top-left corner.
// The quadrants are then mirrored and the triangles winding flipped as necessary.
UInt16 indexOffset = 0;
UInt16 startVc = 0, startIc = 0;
var halfSize = new Vector2(rectParams.rect.width * 0.5f, rectParams.rect.height * 0.5f);
var quarterRect = new Rect(rectParams.rect.x, rectParams.rect.y, halfSize.x, halfSize.y);
// Top-left
TessellateRoundedCorner(quarterRect, rectParams.color, posZ, rectParams.topLeftRadius, mesh, ref indexOffset, ref vertexCount, ref indexCount, countOnly);
// Top-right
startVc = vertexCount;
startIc = indexCount;
TessellateRoundedCorner(quarterRect, rectParams.color, posZ, rectParams.topRightRadius, mesh, ref indexOffset, ref vertexCount, ref indexCount, countOnly);
if (!countOnly)
{
MirrorVertices(quarterRect, mesh.m_Vertices, startVc, vertexCount - startVc, true);
FlipWinding(mesh.m_Indices, startIc, indexCount - startIc);
}
// Bottom-right
startVc = vertexCount;
startIc = indexCount;
TessellateRoundedCorner(quarterRect, rectParams.color, posZ, rectParams.bottomRightRadius, mesh, ref indexOffset, ref vertexCount, ref indexCount, countOnly);
if (!countOnly)
{
MirrorVertices(quarterRect, mesh.m_Vertices, startVc, vertexCount - startVc, true);
MirrorVertices(quarterRect, mesh.m_Vertices, startVc, vertexCount - startVc, false);
}
// Bottom-left
startVc = vertexCount;
startIc = indexCount;
TessellateRoundedCorner(quarterRect, rectParams.color, posZ, rectParams.bottomLeftRadius, mesh, ref indexOffset, ref vertexCount, ref indexCount, countOnly);
if (!countOnly)
{
MirrorVertices(quarterRect, mesh.m_Vertices, startVc, vertexCount - startVc, false);
FlipWinding(mesh.m_Indices, startIc, indexCount - startIc);
}
}
internal static void MakeVectorGraphics(MeshGenerationContextUtils.RectangleParams rectParams, int settingIndexOffset, AllocMeshData meshAlloc, out int finalVertexCount, out int finalIndexCount)
{
var vi = rectParams.vectorImage;
Debug.Assert(vi != null);
finalVertexCount = 0;
finalIndexCount = 0;
if (rectParams.leftSlice <= Mathf.Epsilon &&
rectParams.topSlice <= Mathf.Epsilon &&
rectParams.rightSlice <= Mathf.Epsilon &&
rectParams.bottomSlice <= Mathf.Epsilon)
{
MeshBuilder.MakeVectorGraphicsStretchBackground(vi.vertices, vi.indices, vi.size.x, vi.size.y, rectParams.rect, rectParams.uv, rectParams.scaleMode, rectParams.color, settingIndexOffset, meshAlloc, out finalVertexCount, out finalIndexCount);
}
else
{
var sliceLTRB = new Vector4(rectParams.leftSlice, rectParams.topSlice, rectParams.rightSlice, rectParams.bottomSlice);
MeshBuilder.MakeVectorGraphics9SliceBackground(vi.vertices, vi.indices, vi.size.x, vi.size.y, rectParams.rect, sliceLTRB, true, rectParams.color, settingIndexOffset, meshAlloc);
}
}
internal static void MakeVectorGraphics(MeshGenerationContextUtils.RectangleParams rectParams, int settingIndexOffset, AllocMeshData meshAlloc, out int finalVertexCount, out int finalIndexCount)
{
var vi = rectParams.vectorImage;
Debug.Assert(vi != null);
finalVertexCount = 0;
finalIndexCount = 0;
// Convert the VectorImage's serializable vertices to Vertex instances
int vertexCount = vi.vertices.Length;
var vertices = new Vertex[vertexCount];
for (int i = 0; i < vertexCount; ++i)
{
var v = vi.vertices[i];
vertices[i] = new Vertex()
{
position = v.position,
tint = v.tint,
uv = v.uv,
opacityPageSVGSettingIndex = new Color32(0, 0, (byte)(v.settingIndex >> 8), (byte)v.settingIndex)
};
}
if (rectParams.leftSlice <= Mathf.Epsilon &&
rectParams.topSlice <= Mathf.Epsilon &&
rectParams.rightSlice <= Mathf.Epsilon &&
rectParams.bottomSlice <= Mathf.Epsilon)
{
MeshBuilder.MakeVectorGraphicsStretchBackground(vertices, vi.indices, vi.size.x, vi.size.y, rectParams.rect, rectParams.uv, rectParams.scaleMode, rectParams.color, settingIndexOffset, meshAlloc, out finalVertexCount, out finalIndexCount);
}
else
{
var sliceLTRB = new Vector4(rectParams.leftSlice, rectParams.topSlice, rectParams.rightSlice, rectParams.bottomSlice);
MeshBuilder.MakeVectorGraphics9SliceBackground(vertices, vi.indices, vi.size.x, vi.size.y, rectParams.rect, sliceLTRB, true, rectParams.color, settingIndexOffset, meshAlloc);
}
}
private static void CountRectTriangles(ref MeshGenerationContextUtils.RectangleParams rectParams, ref UInt16 vertexCount, ref UInt16 indexCount)
{
// To count the required triangles, we call the tessellation method with a "countOnly=true" flag, which skips
// tessellation and only update the vertex and index counts.
TessellateRectInternal(ref rectParams, 0, null, ref vertexCount, ref indexCount, true);
}
internal static void MakeSlicedQuad(ref MeshGenerationContextUtils.RectangleParams rectParams, float posZ, AllocMeshData meshAlloc)
{
var mesh = meshAlloc.Allocate(16, 9 * 6);
float pixelsPerPoint = 1;
var texture2D = rectParams.texture as Texture2D;
if (texture2D != null)
{
pixelsPerPoint = texture2D.pixelsPerPoint;
}
float texWidth = rectParams.texture.width;
float texHeight = rectParams.texture.height;
float uConversion = pixelsPerPoint / texWidth;
float vConversion = pixelsPerPoint / texHeight;
float leftSlice = Mathf.Max(0.0f, rectParams.leftSlice);
float rightSlice = Mathf.Max(0.0f, rectParams.rightSlice);
float bottomSlice = Mathf.Max(0.0f, rectParams.bottomSlice);
float topSlice = Mathf.Max(0.0f, rectParams.topSlice);
// Clamp UVs in the [0,1] range
float uvLeftSlice = Mathf.Clamp(leftSlice * uConversion, 0.0f, 1.0f);
float uvRightSlice = Mathf.Clamp(rightSlice * uConversion, 0.0f, 1.0f);
float uvBottomSlice = Mathf.Clamp(bottomSlice * vConversion, 0.0f, 1.0f);
float uvTopslice = Mathf.Clamp(topSlice * vConversion, 0.0f, 1.0f);
k_TexCoordSlicesX[0] = rectParams.uv.min.x;
k_TexCoordSlicesX[1] = rectParams.uv.min.x + uvLeftSlice;
k_TexCoordSlicesX[2] = rectParams.uv.max.x - uvRightSlice;
k_TexCoordSlicesX[3] = rectParams.uv.max.x;
k_TexCoordSlicesY[0] = rectParams.uv.max.y;
k_TexCoordSlicesY[1] = rectParams.uv.max.y - uvBottomSlice;
k_TexCoordSlicesY[2] = rectParams.uv.min.y + uvTopslice;
k_TexCoordSlicesY[3] = rectParams.uv.min.y;
var uvRegion = mesh.uvRegion;
for (int i = 0; i < 4; i++)
{
k_TexCoordSlicesX[i] = k_TexCoordSlicesX[i] * uvRegion.width + uvRegion.xMin;
k_TexCoordSlicesY[i] = (rectParams.uv.min.y + rectParams.uv.max.y - k_TexCoordSlicesY[i]) * uvRegion.height + uvRegion.yMin;
}
// Prevent overlapping slices
float sliceWidth = (leftSlice + rightSlice);
if (sliceWidth > rectParams.rect.width)
{
float rescale = rectParams.rect.width / sliceWidth;
leftSlice *= rescale;
rightSlice *= rescale;
}
float sliceHeight = (bottomSlice + topSlice);
if (sliceHeight > rectParams.rect.height)
{
float rescale = rectParams.rect.height / sliceHeight;
bottomSlice *= rescale;
topSlice *= rescale;
}
k_PositionSlicesX[0] = rectParams.rect.x;
k_PositionSlicesX[1] = rectParams.rect.x + leftSlice;
k_PositionSlicesX[2] = rectParams.rect.xMax - rightSlice;
k_PositionSlicesX[3] = rectParams.rect.xMax;
k_PositionSlicesY[0] = rectParams.rect.yMax;
k_PositionSlicesY[1] = rectParams.rect.yMax - bottomSlice;
k_PositionSlicesY[2] = rectParams.rect.y + topSlice;
k_PositionSlicesY[3] = rectParams.rect.y;
for (int i = 0; i < 16; ++i)
{
int x = i % 4;
int y = i / 4;
mesh.SetNextVertex(new Vertex()
{
position = new Vector3(k_PositionSlicesX[x], k_PositionSlicesY[y], posZ),
uv = new Vector2(k_TexCoordSlicesX[x], k_TexCoordSlicesY[y]),
tint = rectParams.color
});
}
mesh.SetAllIndices(slicedQuadIndices);
}
public void DrawRectangle(MeshGenerationContextUtils.RectangleParams rectParams)
{
}
internal static void MakeSlicedQuad(ref MeshGenerationContextUtils.RectangleParams rectParams, float posZ, MeshBuilder.AllocMeshData meshAlloc)
{
MeshWriteData meshWriteData = meshAlloc.Allocate(16u, 54u);
float num = 1f;
Texture2D texture2D = rectParams.texture as Texture2D;
bool flag = texture2D != null;
if (flag)
{
num = texture2D.pixelsPerPoint;
}
float num2 = (float)rectParams.texture.width;
float num3 = (float)rectParams.texture.height;
float num4 = num / num2;
float num5 = num / num3;
float num6 = Mathf.Max(0f, (float)rectParams.leftSlice);
float num7 = Mathf.Max(0f, (float)rectParams.rightSlice);
float num8 = Mathf.Max(0f, (float)rectParams.bottomSlice);
float num9 = Mathf.Max(0f, (float)rectParams.topSlice);
float num10 = Mathf.Clamp(num6 * num4, 0f, 1f);
float num11 = Mathf.Clamp(num7 * num4, 0f, 1f);
float num12 = Mathf.Clamp(num8 * num5, 0f, 1f);
float num13 = Mathf.Clamp(num9 * num5, 0f, 1f);
MeshBuilder.k_TexCoordSlicesX[0] = rectParams.uv.min.x;
MeshBuilder.k_TexCoordSlicesX[1] = rectParams.uv.min.x + num10;
MeshBuilder.k_TexCoordSlicesX[2] = rectParams.uv.max.x - num11;
MeshBuilder.k_TexCoordSlicesX[3] = rectParams.uv.max.x;
MeshBuilder.k_TexCoordSlicesY[0] = rectParams.uv.max.y;
MeshBuilder.k_TexCoordSlicesY[1] = rectParams.uv.max.y - num12;
MeshBuilder.k_TexCoordSlicesY[2] = rectParams.uv.min.y + num13;
MeshBuilder.k_TexCoordSlicesY[3] = rectParams.uv.min.y;
Rect uvRegion = meshWriteData.uvRegion;
for (int i = 0; i < 4; i++)
{
MeshBuilder.k_TexCoordSlicesX[i] = MeshBuilder.k_TexCoordSlicesX[i] * uvRegion.width + uvRegion.xMin;
MeshBuilder.k_TexCoordSlicesY[i] = (rectParams.uv.min.y + rectParams.uv.max.y - MeshBuilder.k_TexCoordSlicesY[i]) * uvRegion.height + uvRegion.yMin;
}
float num14 = num6 + num7;
bool flag2 = num14 > rectParams.rect.width;
if (flag2)
{
float num15 = rectParams.rect.width / num14;
num6 *= num15;
num7 *= num15;
}
float num16 = num8 + num9;
bool flag3 = num16 > rectParams.rect.height;
if (flag3)
{
float num17 = rectParams.rect.height / num16;
num8 *= num17;
num9 *= num17;
}
MeshBuilder.k_PositionSlicesX[0] = rectParams.rect.x;
MeshBuilder.k_PositionSlicesX[1] = rectParams.rect.x + num6;
MeshBuilder.k_PositionSlicesX[2] = rectParams.rect.xMax - num7;
MeshBuilder.k_PositionSlicesX[3] = rectParams.rect.xMax;
MeshBuilder.k_PositionSlicesY[0] = rectParams.rect.yMax;
MeshBuilder.k_PositionSlicesY[1] = rectParams.rect.yMax - num8;
MeshBuilder.k_PositionSlicesY[2] = rectParams.rect.y + num9;
MeshBuilder.k_PositionSlicesY[3] = rectParams.rect.y;
for (int j = 0; j < 16; j++)
{
int num18 = j % 4;
int num19 = j / 4;
meshWriteData.SetNextVertex(new Vertex
{
position = new Vector3(MeshBuilder.k_PositionSlicesX[num18], MeshBuilder.k_PositionSlicesY[num19], posZ),
uv = new Vector2(MeshBuilder.k_TexCoordSlicesX[num18], MeshBuilder.k_TexCoordSlicesY[num19]),
tint = rectParams.color
});
}
meshWriteData.SetAllIndices(MeshBuilder.slicedQuadIndices);
}
