SW-Wiktor-Bombola/SW-Unity/Library/PackageCache/com.unity.textmeshpro@2.1.6/Scripts/Runtime/TextMeshProUGUI.cs

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2021-12-04 15:15:29 +01:00
using System;
using System.Collections;
using UnityEngine;
using UnityEngine.Rendering;
using UnityEngine.UI;
#pragma warning disable 0414 // Disabled a few warnings related to serialized variables not used in this script but used in the editor.
namespace TMPro
{
[DisallowMultipleComponent]
[RequireComponent(typeof(RectTransform))]
[RequireComponent(typeof(CanvasRenderer))]
[AddComponentMenu("UI/TextMeshPro - Text (UI)", 11)]
[ExecuteAlways]
[HelpURL("https://docs.unity3d.com/Packages/com.unity.textmeshpro@2.1")]
public partial class TextMeshProUGUI : TMP_Text, ILayoutElement
{
/// <summary>
/// Get the material that will be used for rendering.
/// </summary>
public override Material materialForRendering
{
get { return TMP_MaterialManager.GetMaterialForRendering(this, m_sharedMaterial); }
}
/// <summary>
/// Determines if the size of the text container will be adjusted to fit the text object when it is first created.
/// </summary>
public override bool autoSizeTextContainer
{
get { return m_autoSizeTextContainer; }
set { if (m_autoSizeTextContainer == value) return; m_autoSizeTextContainer = value; if (m_autoSizeTextContainer) { CanvasUpdateRegistry.RegisterCanvasElementForLayoutRebuild(this); SetLayoutDirty(); } }
}
/// <summary>
/// Reference to the Mesh used by the text object.
/// </summary>
public override Mesh mesh
{
get { return m_mesh; }
}
/// <summary>
/// Reference to the CanvasRenderer used by the text object.
/// </summary>
public new CanvasRenderer canvasRenderer
{
get
{
if (m_canvasRenderer == null) m_canvasRenderer = GetComponent<CanvasRenderer>();
return m_canvasRenderer;
}
}
/// <summary>
/// Anchor dampening prevents the anchor position from being adjusted unless the positional change exceeds about 40% of the width of the underline character. This essentially stabilizes the anchor position.
/// </summary>
//public bool anchorDampening
//{
// get { return m_anchorDampening; }
// set { if (m_anchorDampening != value) { havePropertiesChanged = true; m_anchorDampening = value; /* ScheduleUpdate(); */ } }
//}
#if !UNITY_2019_3_OR_NEWER
[SerializeField]
private bool m_Maskable = true;
#endif
private bool m_isRebuildingLayout = false;
private Coroutine m_DelayedGraphicRebuild;
private Coroutine m_DelayedMaterialRebuild;
/// <summary>
/// Function called by Unity when the horizontal layout needs to be recalculated.
/// </summary>
public void CalculateLayoutInputHorizontal()
{
//Debug.Log("*** CalculateLayoutHorizontal() on Object ID: " + GetInstanceID() + " at frame: " + Time.frameCount + "***");
}
/// <summary>
/// Function called by Unity when the vertical layout needs to be recalculated.
/// </summary>
public void CalculateLayoutInputVertical()
{
//Debug.Log("*** CalculateLayoutInputVertical() on Object ID: " + GetInstanceID() + " at frame: " + Time.frameCount + "***");
}
public override void SetVerticesDirty()
{
if (this == null || !this.IsActive())
return;
if (CanvasUpdateRegistry.IsRebuildingGraphics())
return;
CanvasUpdateRegistry.RegisterCanvasElementForGraphicRebuild(this);
if (m_OnDirtyVertsCallback != null)
m_OnDirtyVertsCallback();
}
/// <summary>
///
/// </summary>
public override void SetLayoutDirty()
{
m_isPreferredWidthDirty = true;
m_isPreferredHeightDirty = true;
if (this == null || !this.IsActive())
return;
LayoutRebuilder.MarkLayoutForRebuild(this.rectTransform);
m_isLayoutDirty = true;
if (m_OnDirtyLayoutCallback != null)
m_OnDirtyLayoutCallback();
}
/// <summary>
///
/// </summary>
public override void SetMaterialDirty()
{
if (this == null || !this.IsActive())
return;
if (CanvasUpdateRegistry.IsRebuildingGraphics())
return;
m_isMaterialDirty = true;
CanvasUpdateRegistry.RegisterCanvasElementForGraphicRebuild(this);
if (m_OnDirtyMaterialCallback != null)
m_OnDirtyMaterialCallback();
}
/// <summary>
///
/// </summary>
public override void SetAllDirty()
{
SetLayoutDirty();
SetVerticesDirty();
SetMaterialDirty();
}
/// <summary>
/// Delay registration of text object for graphic rebuild by one frame.
/// </summary>
/// <returns></returns>
IEnumerator DelayedGraphicRebuild()
{
yield return null;
CanvasUpdateRegistry.RegisterCanvasElementForGraphicRebuild(this);
if (m_OnDirtyVertsCallback != null)
m_OnDirtyVertsCallback();
m_DelayedGraphicRebuild = null;
}
/// <summary>
/// Delay registration of text object for graphic rebuild by one frame.
/// </summary>
/// <returns></returns>
IEnumerator DelayedMaterialRebuild()
{
yield return null;
m_isMaterialDirty = true;
CanvasUpdateRegistry.RegisterCanvasElementForGraphicRebuild(this);
if (m_OnDirtyMaterialCallback != null)
m_OnDirtyMaterialCallback();
m_DelayedMaterialRebuild = null;
}
/// <summary>
///
/// </summary>
/// <param name="update"></param>
public override void Rebuild(CanvasUpdate update)
{
if (this == null) return;
if (update == CanvasUpdate.Prelayout)
{
if (m_autoSizeTextContainer)
{
m_rectTransform.sizeDelta = GetPreferredValues(Mathf.Infinity, Mathf.Infinity);
}
}
else if (update == CanvasUpdate.PreRender)
{
OnPreRenderCanvas();
if (!m_isMaterialDirty) return;
UpdateMaterial();
m_isMaterialDirty = false;
}
}
/// <summary>
/// Method to keep the pivot of the sub text objects in sync with the parent pivot.
/// </summary>
private void UpdateSubObjectPivot()
{
if (m_textInfo == null) return;
for (int i = 1; i < m_subTextObjects.Length && m_subTextObjects[i] != null; i++)
{
m_subTextObjects[i].SetPivotDirty();
}
//m_isPivotDirty = false;
}
/// <summary>
///
/// </summary>
/// <param name="baseMaterial"></param>
/// <returns></returns>
public override Material GetModifiedMaterial(Material baseMaterial)
{
Material mat = baseMaterial;
if (m_ShouldRecalculateStencil)
{
var rootCanvas = MaskUtilities.FindRootSortOverrideCanvas(transform);
m_StencilValue = maskable ? MaskUtilities.GetStencilDepth(transform, rootCanvas) : 0;
m_ShouldRecalculateStencil = false;
}
if (m_StencilValue > 0)
{
var maskMat = StencilMaterial.Add(mat, (1 << m_StencilValue) - 1, StencilOp.Keep, CompareFunction.Equal, ColorWriteMask.All, (1 << m_StencilValue) - 1, 0);
StencilMaterial.Remove(m_MaskMaterial);
m_MaskMaterial = maskMat;
mat = m_MaskMaterial;
}
return mat;
}
/// <summary>
///
/// </summary>
protected override void UpdateMaterial()
{
//Debug.Log("*** UpdateMaterial() ***");
//if (!this.IsActive())
// return;
if (m_sharedMaterial == null || canvasRenderer == null) return;
m_canvasRenderer.materialCount = 1;
m_canvasRenderer.SetMaterial(materialForRendering, 0);
//m_canvasRenderer.SetTexture(materialForRendering.mainTexture);
}
//public override void OnRebuildRequested()
//{
// //Debug.Log("OnRebuildRequested");
// base.OnRebuildRequested();
//}
//public override bool Raycast(Vector2 sp, Camera eventCamera)
//{
// //Debug.Log("Raycast Event. ScreenPoint: " + sp);
// return base.Raycast(sp, eventCamera);
//}
// MASKING RELATED PROPERTIES
/// <summary>
/// Sets the masking offset from the bounds of the object
/// </summary>
public Vector4 maskOffset
{
get { return m_maskOffset; }
set { m_maskOffset = value; UpdateMask(); m_havePropertiesChanged = true; }
}
//public override Material defaultMaterial
//{
// get { Debug.Log("Default Material called."); return m_sharedMaterial; }
//}
//protected override void OnCanvasHierarchyChanged()
//{
// //Debug.Log("OnCanvasHierarchyChanged...");
//}
// IClippable implementation
/// <summary>
/// Method called when the state of a parent changes.
/// </summary>
public override void RecalculateClipping()
{
//Debug.Log("***** RecalculateClipping() *****");
base.RecalculateClipping();
}
// IMaskable Implementation
/// <summary>
/// Method called when Stencil Mask needs to be updated on this element and parents.
/// </summary>
// public override void RecalculateMasking()
// {
// //Debug.Log("***** RecalculateMasking() *****");
//
// this.m_ShouldRecalculateStencil = true;
// SetMaterialDirty();
// }
//public override void SetClipRect(Rect clipRect, bool validRect)
//{
// //Debug.Log("***** SetClipRect (" + clipRect + ", " + validRect + ") *****");
// base.SetClipRect(clipRect, validRect);
//}
/// <summary>
/// Override of the Cull function to provide for the ability to override the culling of the text object.
/// </summary>
/// <param name="clipRect"></param>
/// <param name="validRect"></param>
public override void Cull(Rect clipRect, bool validRect)
{
// Delay culling check in the event the text layout is dirty and geometry has to be updated.
if (m_isLayoutDirty)
{
TMP_UpdateManager.RegisterTextElementForCullingUpdate(this);
m_ClipRect = clipRect;
m_ValidRect = validRect;
return;
}
// Get compound rect for the text object and sub text objects in local canvas space.
Rect rect = GetCanvasSpaceClippingRect();
// No point culling if geometry bounds have no width or height.
if (rect.width == 0 || rect.height == 0)
return;
var cull = !validRect || !clipRect.Overlaps(rect, true);
if (m_canvasRenderer.cull != cull)
{
m_canvasRenderer.cull = cull;
onCullStateChanged.Invoke(cull);
OnCullingChanged();
// Update any potential sub mesh objects
for (int i = 1; i < m_subTextObjects.Length && m_subTextObjects[i] != null; i++)
{
m_subTextObjects[i].canvasRenderer.cull = cull;
}
}
}
private Rect m_ClipRect;
private bool m_ValidRect;
/// <summary>
/// Internal function to allow delay of culling until the text geometry has been updated.
/// </summary>
internal override void UpdateCulling()
{
// Get compound rect for the text object and sub text objects in local canvas space.
Rect rect = GetCanvasSpaceClippingRect();
// No point culling if geometry bounds have no width or height.
if (rect.width == 0 || rect.height == 0)
return;
var cull = !m_ValidRect || !m_ClipRect.Overlaps(rect, true);
if (m_canvasRenderer.cull != cull)
{
m_canvasRenderer.cull = cull;
onCullStateChanged.Invoke(cull);
OnCullingChanged();
// Update any potential sub mesh objects
for (int i = 1; i < m_subTextObjects.Length && m_subTextObjects[i] != null; i++)
{
m_subTextObjects[i].canvasRenderer.cull = cull;
}
}
}
/*
/// <summary>
/// Sets the mask type
/// </summary>
public MaskingTypes mask
{
get { return m_mask; }
set { m_mask = value; havePropertiesChanged = true; isMaskUpdateRequired = true; }
}
/// <summary>
/// Set the masking offset mode (as percentage or pixels)
/// </summary>
public MaskingOffsetMode maskOffsetMode
{
get { return m_maskOffsetMode; }
set { m_maskOffsetMode = value; havePropertiesChanged = true; isMaskUpdateRequired = true; }
}
*/
/*
/// <summary>
/// Sets the softness of the mask
/// </summary>
public Vector2 maskSoftness
{
get { return m_maskSoftness; }
set { m_maskSoftness = value; havePropertiesChanged = true; isMaskUpdateRequired = true; }
}
/// <summary>
/// Allows to move / offset the mesh vertices by a set amount
/// </summary>
public Vector2 vertexOffset
{
get { return m_vertexOffset; }
set { m_vertexOffset = value; havePropertiesChanged = true; isMaskUpdateRequired = true; }
}
*/
/// <summary>
/// Function to be used to force recomputing of character padding when Shader / Material properties have been changed via script.
/// </summary>
public override void UpdateMeshPadding()
{
m_padding = ShaderUtilities.GetPadding(m_sharedMaterial, m_enableExtraPadding, m_isUsingBold);
m_isMaskingEnabled = ShaderUtilities.IsMaskingEnabled(m_sharedMaterial);
m_havePropertiesChanged = true;
checkPaddingRequired = false;
// Return if text object is not awake yet.
if (m_textInfo == null) return;
// Update sub text objects
for (int i = 1; i < m_textInfo.materialCount; i++)
m_subTextObjects[i].UpdateMeshPadding(m_enableExtraPadding, m_isUsingBold);
}
/// <summary>
/// Tweens the CanvasRenderer color associated with this Graphic.
/// </summary>
/// <param name="targetColor">Target color.</param>
/// <param name="duration">Tween duration.</param>
/// <param name="ignoreTimeScale">Should ignore Time.scale?</param>
/// <param name="useAlpha">Should also Tween the alpha channel?</param>
protected override void InternalCrossFadeColor(Color targetColor, float duration, bool ignoreTimeScale, bool useAlpha)
{
if (m_textInfo == null)
return;
int materialCount = m_textInfo.materialCount;
for (int i = 1; i < materialCount; i++)
{
m_subTextObjects[i].CrossFadeColor(targetColor, duration, ignoreTimeScale, useAlpha);
}
}
/// <summary>
/// Tweens the alpha of the CanvasRenderer color associated with this Graphic.
/// </summary>
/// <param name="alpha">Target alpha.</param>
/// <param name="duration">Duration of the tween in seconds.</param>
/// <param name="ignoreTimeScale">Should ignore Time.scale?</param>
protected override void InternalCrossFadeAlpha(float alpha, float duration, bool ignoreTimeScale)
{
if (m_textInfo == null)
return;
int materialCount = m_textInfo.materialCount;
for (int i = 1; i < materialCount; i++)
{
m_subTextObjects[i].CrossFadeAlpha(alpha, duration, ignoreTimeScale);
}
}
/// <summary>
/// Function to force regeneration of the text object before its normal process time. This is useful when changes to the text object properties need to be applied immediately.
/// </summary>
/// <param name="ignoreActiveState">Ignore Active State of text objects. Inactive objects are ignored by default.</param>
/// <param name="forceTextReparsing">Force re-parsing of the text.</param>
public override void ForceMeshUpdate(bool ignoreActiveState = false, bool forceTextReparsing = false)
{
m_havePropertiesChanged = true;
m_ignoreActiveState = ignoreActiveState;
// Special handling in the event the Canvas is only disabled
if (m_canvas == null)
m_canvas = GetComponentInParent<Canvas>();
OnPreRenderCanvas();
}
/// <summary>
/// Function used to evaluate the length of a text string.
/// </summary>
/// <param name="text"></param>
/// <returns></returns>
public override TMP_TextInfo GetTextInfo(string text)
{
SetText(text);
SetArraySizes(m_TextProcessingArray);
m_renderMode = TextRenderFlags.DontRender;
ComputeMarginSize();
// Need to make sure we have a valid reference to a Canvas.
if (m_canvas == null) m_canvas = this.canvas;
GenerateTextMesh();
m_renderMode = TextRenderFlags.Render;
return this.textInfo;
}
/// <summary>
/// Function to clear the geometry of the Primary and Sub Text objects.
/// </summary>
public override void ClearMesh()
{
m_canvasRenderer.SetMesh(null);
for (int i = 1; i < m_subTextObjects.Length && m_subTextObjects[i] != null; i++)
m_subTextObjects[i].canvasRenderer.SetMesh(null);
}
/// <summary>
/// Event to allow users to modify the content of the text info before the text is rendered.
/// </summary>
public override event Action<TMP_TextInfo> OnPreRenderText;
/// <summary>
/// Function to update the geometry of the main and sub text objects.
/// </summary>
/// <param name="mesh"></param>
/// <param name="index"></param>
public override void UpdateGeometry(Mesh mesh, int index)
{
mesh.RecalculateBounds();
if (index == 0)
{
m_canvasRenderer.SetMesh(mesh);
}
else
{
m_subTextObjects[index].canvasRenderer.SetMesh(mesh);
}
}
/// <summary>
/// Function to upload the updated vertex data and renderer.
/// </summary>
public override void UpdateVertexData(TMP_VertexDataUpdateFlags flags)
{
int materialCount = m_textInfo.materialCount;
for (int i = 0; i < materialCount; i++)
{
Mesh mesh;
if (i == 0)
mesh = m_mesh;
else
{
// Clear unused vertices
// TODO: Causes issues when sorting geometry as last vertex data attribute get wiped out.
//m_textInfo.meshInfo[i].ClearUnusedVertices();
mesh = m_subTextObjects[i].mesh;
}
if ((flags & TMP_VertexDataUpdateFlags.Vertices) == TMP_VertexDataUpdateFlags.Vertices)
mesh.vertices = m_textInfo.meshInfo[i].vertices;
if ((flags & TMP_VertexDataUpdateFlags.Uv0) == TMP_VertexDataUpdateFlags.Uv0)
mesh.uv = m_textInfo.meshInfo[i].uvs0;
if ((flags & TMP_VertexDataUpdateFlags.Uv2) == TMP_VertexDataUpdateFlags.Uv2)
mesh.uv2 = m_textInfo.meshInfo[i].uvs2;
//if ((flags & TMP_VertexDataUpdateFlags.Uv4) == TMP_VertexDataUpdateFlags.Uv4)
// mesh.uv4 = m_textInfo.meshInfo[i].uvs4;
if ((flags & TMP_VertexDataUpdateFlags.Colors32) == TMP_VertexDataUpdateFlags.Colors32)
mesh.colors32 = m_textInfo.meshInfo[i].colors32;
mesh.RecalculateBounds();
if (i == 0)
m_canvasRenderer.SetMesh(mesh);
else
m_subTextObjects[i].canvasRenderer.SetMesh(mesh);
}
}
/// <summary>
/// Function to upload the updated vertex data and renderer.
/// </summary>
public override void UpdateVertexData()
{
int materialCount = m_textInfo.materialCount;
for (int i = 0; i < materialCount; i++)
{
Mesh mesh;
if (i == 0)
mesh = m_mesh;
else
{
// Clear unused vertices
m_textInfo.meshInfo[i].ClearUnusedVertices();
mesh = m_subTextObjects[i].mesh;
}
//mesh.MarkDynamic();
mesh.vertices = m_textInfo.meshInfo[i].vertices;
mesh.uv = m_textInfo.meshInfo[i].uvs0;
mesh.uv2 = m_textInfo.meshInfo[i].uvs2;
//mesh.uv4 = m_textInfo.meshInfo[i].uvs4;
mesh.colors32 = m_textInfo.meshInfo[i].colors32;
mesh.RecalculateBounds();
if (i == 0)
m_canvasRenderer.SetMesh(mesh);
else
m_subTextObjects[i].canvasRenderer.SetMesh(mesh);
}
}
public void UpdateFontAsset()
{
LoadFontAsset();
}
}
}