public unsafe static UIRStylePainter.ClosingInfo PaintElement(RenderChain renderChain, VisualElement ve, ref ChainBuilderStats stats)
{
var device = renderChain.device;
var isClippingWithStencil = ve.renderChainData.clipMethod == ClipMethod.Stencil;
var isClippingWithScissors = ve.renderChainData.clipMethod == ClipMethod.Scissor;
var isGroup = (ve.renderHints & RenderHints.GroupTransform) != 0; // Groups need to push view and scissors
if ((UIRUtility.IsElementSelfHidden(ve) && !isClippingWithStencil && !isClippingWithScissors && !isGroup) || ve.renderChainData.isHierarchyHidden)
{
if (ve.renderChainData.data != null)
{
device.Free(ve.renderChainData.data);
ve.renderChainData.data = null;
}
if (ve.renderChainData.firstCommand != null)
{
ResetCommands(renderChain, ve);
}
renderChain.ResetTextures(ve);
return(new UIRStylePainter.ClosingInfo());
}
// Retain our command insertion points if possible, to avoid paying the cost of finding them again
RenderChainCommand oldCmdPrev = ve.renderChainData.firstCommand?.prev;
RenderChainCommand oldCmdNext = ve.renderChainData.lastCommand?.next;
RenderChainCommand oldClosingCmdPrev, oldClosingCmdNext;
bool commandsAndClosingCommandsWereConsecutive = (ve.renderChainData.firstClosingCommand != null) && (oldCmdNext == ve.renderChainData.firstClosingCommand);
if (commandsAndClosingCommandsWereConsecutive)
{
oldCmdNext = ve.renderChainData.lastClosingCommand.next;
oldClosingCmdPrev = oldClosingCmdNext = null;
}
else
{
oldClosingCmdPrev = ve.renderChainData.firstClosingCommand?.prev;
oldClosingCmdNext = ve.renderChainData.lastClosingCommand?.next;
}
Debug.Assert(oldCmdPrev?.owner != ve);
Debug.Assert(oldCmdNext?.owner != ve);
Debug.Assert(oldClosingCmdPrev?.owner != ve);
Debug.Assert(oldClosingCmdNext?.owner != ve);
ResetCommands(renderChain, ve);
renderChain.ResetTextures(ve);
k_GenerateEntries.Begin();
var painter = renderChain.painter;
painter.Begin(ve);
if (ve.visible)
{
painter.DrawVisualElementBackground();
painter.DrawVisualElementBorder();
painter.ApplyVisualElementClipping();
InvokeGenerateVisualContent(ve, painter.meshGenerationContext);
}
else
{
// Even though the element hidden, we still have to push the stencil shape or setup the scissors in case any children are visible.
if (isClippingWithScissors || isClippingWithStencil)
{
painter.ApplyVisualElementClipping();
}
}
k_GenerateEntries.End();
MeshHandle data = ve.renderChainData.data;
if (painter.totalVertices > device.maxVerticesPerPage)
{
Debug.LogError($"A {nameof(VisualElement)} must not allocate more than {device.maxVerticesPerPage } vertices.");
if (data != null)
{
device.Free(data);
data = null;
}
renderChain.ResetTextures(ve);
// Restart without drawing anything.
painter.Reset();
painter.Begin(ve);
}
// Convert entries to commands.
var entries = painter.entries;
if (entries.Count > 0)
{
NativeSlice <Vertex> verts = new NativeSlice <Vertex>();
NativeSlice <UInt16> indices = new NativeSlice <UInt16>();
UInt16 indexOffset = 0;
if (painter.totalVertices > 0)
{
UpdateOrAllocate(ref data, painter.totalVertices, painter.totalIndices, device, out verts, out indices, out indexOffset, ref stats);
}
int vertsFilled = 0, indicesFilled = 0;
RenderChainCommand cmdPrev = oldCmdPrev, cmdNext = oldCmdNext;
if (oldCmdPrev == null && oldCmdNext == null)
{
FindCommandInsertionPoint(ve, out cmdPrev, out cmdNext);
}
// Vertex data, lazily computed
bool vertexDataComputed = false;
Matrix4x4 transform = Matrix4x4.identity;
Color32 xformClipPages = new Color32(0, 0, 0, 0);
Color32 ids = new Color32(0, 0, 0, 0);
Color32 addFlags = new Color32(0, 0, 0, 0);
Color32 opacityPage = new Color32(0, 0, 0, 0);
Color32 textCoreSettingsPage = new Color32(0, 0, 0, 0);
k_ConvertEntriesToCommandsMarker.Begin();
int firstDisplacementUV = -1, lastDisplacementUVPlus1 = -1;
foreach (var entry in painter.entries)
{
if (entry.vertices.Length > 0 && entry.indices.Length > 0)
{
if (!vertexDataComputed)
{
vertexDataComputed = true;
GetVerticesTransformInfo(ve, out transform);
ve.renderChainData.verticesSpace = transform; // This is the space for the generated vertices below
}
Color32 transformData = renderChain.shaderInfoAllocator.TransformAllocToVertexData(ve.renderChainData.transformID);
Color32 opacityData = renderChain.shaderInfoAllocator.OpacityAllocToVertexData(ve.renderChainData.opacityID);
Color32 textCoreSettingsData = renderChain.shaderInfoAllocator.TextCoreSettingsToVertexData(ve.renderChainData.textCoreSettingsID);
xformClipPages.r = transformData.r;
xformClipPages.g = transformData.g;
ids.r = transformData.b;
opacityPage.r = opacityData.r;
opacityPage.g = opacityData.g;
ids.b = opacityData.b;
if (entry.isTextEntry)
{
// It's important to avoid writing these values when the vertices aren't for text,
// as these settings are shared with the vector graphics gradients.
// The same applies to the CopyTransformVertsPos* methods below.
textCoreSettingsPage.r = textCoreSettingsData.r;
textCoreSettingsPage.g = textCoreSettingsData.g;
ids.a = textCoreSettingsData.b;
}
Color32 clipRectData = renderChain.shaderInfoAllocator.ClipRectAllocToVertexData(entry.clipRectID);
xformClipPages.b = clipRectData.r;
xformClipPages.a = clipRectData.g;
ids.g = clipRectData.b;
addFlags.r = (byte)entry.addFlags;
float textureId = entry.texture.ConvertToGpu();
// Copy vertices, transforming them as necessary
var targetVerticesSlice = verts.Slice(vertsFilled, entry.vertices.Length);
if (entry.uvIsDisplacement)
{
if (firstDisplacementUV < 0)
{
firstDisplacementUV = vertsFilled;
lastDisplacementUVPlus1 = vertsFilled + entry.vertices.Length;
}
else if (lastDisplacementUVPlus1 == vertsFilled)
{
lastDisplacementUVPlus1 += entry.vertices.Length;
}
else
{
ve.renderChainData.disableNudging = true; // Disjoint displacement UV entries, we can't keep track of them, so disable nudging optimization altogether
}
}
int entryIndexCount = entry.indices.Length;
int entryIndexOffset = vertsFilled + indexOffset;
var targetIndicesSlice = indices.Slice(indicesFilled, entryIndexCount);
bool shapeWindingIsClockwise = UIRUtility.ShapeWindingIsClockwise(entry.maskDepth, entry.stencilRef);
bool transformFlipsWinding = ve.renderChainData.worldFlipsWinding;
var job = new ConvertMeshJobData
{
vertSrc = (IntPtr)entry.vertices.GetUnsafePtr(),
vertDst = (IntPtr)targetVerticesSlice.GetUnsafePtr(),
vertCount = targetVerticesSlice.Length,
transform = transform,
transformUVs = entry.uvIsDisplacement ? 1 : 0,
xformClipPages = xformClipPages,
ids = ids,
addFlags = addFlags,
opacityPage = opacityPage,
textCoreSettingsPage = textCoreSettingsPage,
isText = entry.isTextEntry ? 1 : 0,
textureId = textureId,
indexSrc = (IntPtr)entry.indices.GetUnsafePtr(),
indexDst = (IntPtr)targetIndicesSlice.GetUnsafePtr(),
indexCount = targetIndicesSlice.Length,
indexOffset = entryIndexOffset,
flipIndices = shapeWindingIsClockwise == transformFlipsWinding ? 1 : 0
};
renderChain.jobManager.Add(ref job);
if (entry.isClipRegisterEntry)
{
painter.LandClipRegisterMesh(targetVerticesSlice, targetIndicesSlice, entryIndexOffset);
}
var cmd = InjectMeshDrawCommand(renderChain, ve, ref cmdPrev, ref cmdNext, data, entryIndexCount, indicesFilled, entry.material, entry.texture, entry.stencilRef);
if (entry.isTextEntry)
{
// Set font atlas texture gradient scale
cmd.state.sdfScale = entry.fontTexSDFScale;
}
vertsFilled += entry.vertices.Length;
indicesFilled += entryIndexCount;
}
else if (entry.customCommand != null)
{
InjectCommandInBetween(renderChain, entry.customCommand, ref cmdPrev, ref cmdNext);
}
else
{
Debug.Assert(false); // Unable to determine what kind of command to generate here
}
}
if (!ve.renderChainData.disableNudging && (firstDisplacementUV >= 0))
{
ve.renderChainData.displacementUVStart = firstDisplacementUV;
ve.renderChainData.displacementUVEnd = lastDisplacementUVPlus1;
}
k_ConvertEntriesToCommandsMarker.End();
}
else if (data != null)
{
device.Free(data);
data = null;
}
ve.renderChainData.data = data;
if (painter.closingInfo.clipperRegisterIndices.Length == 0 && ve.renderChainData.closingData != null)
{
// No more closing data needed, so free it now
device.Free(ve.renderChainData.closingData);
ve.renderChainData.closingData = null;
}
if (painter.closingInfo.needsClosing)
{
k_GenerateClosingCommandsMarker.Begin();
RenderChainCommand cmdPrev = oldClosingCmdPrev, cmdNext = oldClosingCmdNext;
if (commandsAndClosingCommandsWereConsecutive)
{
cmdPrev = ve.renderChainData.lastCommand;
cmdNext = cmdPrev.next;
}
else if (cmdPrev == null && cmdNext == null)
{
FindClosingCommandInsertionPoint(ve, out cmdPrev, out cmdNext);
}
if (painter.closingInfo.PopDefaultMaterial)
{
var cmd = renderChain.AllocCommand();
cmd.type = CommandType.PopDefaultMaterial;
cmd.closing = true;
cmd.owner = ve;
InjectClosingCommandInBetween(renderChain, cmd, ref cmdPrev, ref cmdNext);
}
if (painter.closingInfo.blitAndPopRenderTexture)
{
{
var cmd = renderChain.AllocCommand();
cmd.type = CommandType.BlitToPreviousRT;
cmd.closing = true;
cmd.owner = ve;
cmd.state.material = GetBlitMaterial(ve.subRenderTargetMode);
Debug.Assert(cmd.state.material != null);
InjectClosingCommandInBetween(renderChain, cmd, ref cmdPrev, ref cmdNext);
}
{
var cmd = renderChain.AllocCommand();
cmd.type = CommandType.PopRenderTexture;
cmd.closing = true;
cmd.owner = ve;
InjectClosingCommandInBetween(renderChain, cmd, ref cmdPrev, ref cmdNext);
}
}
if (painter.closingInfo.clipperRegisterIndices.Length > 0)
{
var cmd = InjectClosingMeshDrawCommand(renderChain, ve, ref cmdPrev, ref cmdNext, null, 0, 0, null, TextureId.invalid, painter.closingInfo.maskStencilRef);
painter.LandClipUnregisterMeshDrawCommand(cmd); // Placeholder command that will be filled actually later
}
if (painter.closingInfo.popViewMatrix)
{
var cmd = renderChain.AllocCommand();
cmd.type = CommandType.PopView;
cmd.closing = true;
cmd.owner = ve;
InjectClosingCommandInBetween(renderChain, cmd, ref cmdPrev, ref cmdNext);
}
if (painter.closingInfo.popScissorClip)
{
var cmd = renderChain.AllocCommand();
cmd.type = CommandType.PopScissor;
cmd.closing = true;
cmd.owner = ve;
InjectClosingCommandInBetween(renderChain, cmd, ref cmdPrev, ref cmdNext);
}
k_GenerateClosingCommandsMarker.End();
}
// When we have a closing mesh, we must have an opening mesh. At least we assumed where we decide
// whether we must nudge or not: we only test whether the opening mesh is non-null.
Debug.Assert(ve.renderChainData.closingData == null || ve.renderChainData.data != null);
var closingInfo = painter.closingInfo;
painter.Reset();
return(closingInfo);
}
internal static uint DepthFirstOnChildRemoving(RenderChain renderChain, VisualElement ve)
{
// Recurse on children
int childrenCount = ve.hierarchy.childCount - 1;
uint deepCount = 0;
while (childrenCount >= 0)
{
deepCount += DepthFirstOnChildRemoving(renderChain, ve.hierarchy[childrenCount--]);
}
if (ve.renderChainData.isInChain)
{
renderChain.ChildWillBeRemoved(ve);
CommandGenerator.ResetCommands(renderChain, ve);
renderChain.ResetTextures(ve);
ve.renderChainData.isInChain = false;
ve.renderChainData.clipMethod = ClipMethod.Undetermined;
if (ve.renderChainData.next != null)
{
ve.renderChainData.next.renderChainData.prev = ve.renderChainData.prev;
}
if (ve.renderChainData.prev != null)
{
ve.renderChainData.prev.renderChainData.next = ve.renderChainData.next;
}
if (RenderChainVEData.AllocatesID(ve.renderChainData.textCoreSettingsID))
{
renderChain.shaderInfoAllocator.FreeTextCoreSettings(ve.renderChainData.textCoreSettingsID);
ve.renderChainData.textCoreSettingsID = UIRVEShaderInfoAllocator.defaultTextCoreSettings;
}
if (RenderChainVEData.AllocatesID(ve.renderChainData.opacityID))
{
renderChain.shaderInfoAllocator.FreeOpacity(ve.renderChainData.opacityID);
ve.renderChainData.opacityID = UIRVEShaderInfoAllocator.fullOpacity;
}
if (RenderChainVEData.AllocatesID(ve.renderChainData.colorID))
{
renderChain.shaderInfoAllocator.FreeColor(ve.renderChainData.colorID);
ve.renderChainData.colorID = BMPAlloc.Invalid;
}
if (RenderChainVEData.AllocatesID(ve.renderChainData.backgroundColorID))
{
renderChain.shaderInfoAllocator.FreeColor(ve.renderChainData.backgroundColorID);
ve.renderChainData.backgroundColorID = BMPAlloc.Invalid;
}
if (RenderChainVEData.AllocatesID(ve.renderChainData.borderLeftColorID))
{
renderChain.shaderInfoAllocator.FreeColor(ve.renderChainData.borderLeftColorID);
ve.renderChainData.borderLeftColorID = BMPAlloc.Invalid;
}
if (RenderChainVEData.AllocatesID(ve.renderChainData.borderTopColorID))
{
renderChain.shaderInfoAllocator.FreeColor(ve.renderChainData.borderTopColorID);
ve.renderChainData.borderTopColorID = BMPAlloc.Invalid;
}
if (RenderChainVEData.AllocatesID(ve.renderChainData.borderRightColorID))
{
renderChain.shaderInfoAllocator.FreeColor(ve.renderChainData.borderRightColorID);
ve.renderChainData.borderRightColorID = BMPAlloc.Invalid;
}
if (RenderChainVEData.AllocatesID(ve.renderChainData.borderBottomColorID))
{
renderChain.shaderInfoAllocator.FreeColor(ve.renderChainData.borderBottomColorID);
ve.renderChainData.borderBottomColorID = BMPAlloc.Invalid;
}
if (RenderChainVEData.AllocatesID(ve.renderChainData.tintColorID))
{
renderChain.shaderInfoAllocator.FreeColor(ve.renderChainData.tintColorID);
ve.renderChainData.tintColorID = BMPAlloc.Invalid;
}
if (RenderChainVEData.AllocatesID(ve.renderChainData.clipRectID))
{
renderChain.shaderInfoAllocator.FreeClipRect(ve.renderChainData.clipRectID);
ve.renderChainData.clipRectID = UIRVEShaderInfoAllocator.infiniteClipRect;
}
if (RenderChainVEData.AllocatesID(ve.renderChainData.transformID))
{
renderChain.shaderInfoAllocator.FreeTransform(ve.renderChainData.transformID);
ve.renderChainData.transformID = UIRVEShaderInfoAllocator.identityTransform;
}
ve.renderChainData.boneTransformAncestor = ve.renderChainData.groupTransformAncestor = null;
if (ve.renderChainData.closingData != null)
{
renderChain.device.Free(ve.renderChainData.closingData);
ve.renderChainData.closingData = null;
}
if (ve.renderChainData.data != null)
{
renderChain.device.Free(ve.renderChainData.data);
ve.renderChainData.data = null;
}
}
return(deepCount + 1);
}