SAIMA/Assets/TextMesh Pro/Shaders/TMP_SDF Overlay.shader

Shader "TextMeshPro/Distance Field Overlay" {

Properties {
	_FaceTex			("Face Texture", 2D) = "white" {}
	_FaceUVSpeedX		("Face UV Speed X", Range(-5, 5)) = 0.0
	_FaceUVSpeedY		("Face UV Speed Y", Range(-5, 5)) = 0.0
	[HDR]_FaceColor		("Face Color", Color) = (1,1,1,1)
	_FaceDilate			("Face Dilate", Range(-1,1)) = 0

	[HDR]_OutlineColor	("Outline Color", Color) = (0,0,0,1)
	_OutlineTex			("Outline Texture", 2D) = "white" {}
	_OutlineUVSpeedX	("Outline UV Speed X", Range(-5, 5)) = 0.0
	_OutlineUVSpeedY	("Outline UV Speed Y", Range(-5, 5)) = 0.0
	_OutlineWidth		("Outline Thickness", Range(0, 1)) = 0
	_OutlineSoftness	("Outline Softness", Range(0,1)) = 0

	_Bevel				("Bevel", Range(0,1)) = 0.5
	_BevelOffset		("Bevel Offset", Range(-0.5,0.5)) = 0
	_BevelWidth			("Bevel Width", Range(-.5,0.5)) = 0
	_BevelClamp			("Bevel Clamp", Range(0,1)) = 0
	_BevelRoundness		("Bevel Roundness", Range(0,1)) = 0

	_LightAngle			("Light Angle", Range(0.0, 6.2831853)) = 3.1416
	[HDR]_SpecularColor	("Specular", Color) = (1,1,1,1)
	_SpecularPower		("Specular", Range(0,4)) = 2.0
	_Reflectivity		("Reflectivity", Range(5.0,15.0)) = 10
	_Diffuse			("Diffuse", Range(0,1)) = 0.5
	_Ambient			("Ambient", Range(1,0)) = 0.5

	_BumpMap 			("Normal map", 2D) = "bump" {}
	_BumpOutline		("Bump Outline", Range(0,1)) = 0
	_BumpFace			("Bump Face", Range(0,1)) = 0

	_ReflectFaceColor	("Reflection Color", Color) = (0,0,0,1)
	_ReflectOutlineColor("Reflection Color", Color) = (0,0,0,1)
	_Cube 				("Reflection Cubemap", Cube) = "black" { /* TexGen CubeReflect */ }
	_EnvMatrixRotation	("Texture Rotation", vector) = (0, 0, 0, 0)


	[HDR]_UnderlayColor	("Border Color", Color) = (0,0,0, 0.5)
	_UnderlayOffsetX	("Border OffsetX", Range(-1,1)) = 0
	_UnderlayOffsetY	("Border OffsetY", Range(-1,1)) = 0
	_UnderlayDilate		("Border Dilate", Range(-1,1)) = 0
	_UnderlaySoftness	("Border Softness", Range(0,1)) = 0

	[HDR]_GlowColor		("Color", Color) = (0, 1, 0, 0.5)
	_GlowOffset			("Offset", Range(-1,1)) = 0
	_GlowInner			("Inner", Range(0,1)) = 0.05
	_GlowOuter			("Outer", Range(0,1)) = 0.05
	_GlowPower			("Falloff", Range(1, 0)) = 0.75

	_WeightNormal		("Weight Normal", float) = 0
	_WeightBold			("Weight Bold", float) = 0.5

	_ShaderFlags		("Flags", float) = 0
	_ScaleRatioA		("Scale RatioA", float) = 1
	_ScaleRatioB		("Scale RatioB", float) = 1
	_ScaleRatioC		("Scale RatioC", float) = 1

	_MainTex			("Font Atlas", 2D) = "white" {}
	_TextureWidth		("Texture Width", float) = 512
	_TextureHeight		("Texture Height", float) = 512
	_GradientScale		("Gradient Scale", float) = 5.0
	_ScaleX				("Scale X", float) = 1.0
	_ScaleY				("Scale Y", float) = 1.0
	_PerspectiveFilter	("Perspective Correction", Range(0, 1)) = 0.875
	_Sharpness			("Sharpness", Range(-1,1)) = 0

	_VertexOffsetX		("Vertex OffsetX", float) = 0
	_VertexOffsetY		("Vertex OffsetY", float) = 0

	_MaskCoord			("Mask Coordinates", vector) = (0, 0, 32767, 32767)
	_ClipRect			("Clip Rect", vector) = (-32767, -32767, 32767, 32767)
	_MaskSoftnessX		("Mask SoftnessX", float) = 0
	_MaskSoftnessY		("Mask SoftnessY", float) = 0

	_StencilComp		("Stencil Comparison", Float) = 8
	_Stencil			("Stencil ID", Float) = 0
	_StencilOp			("Stencil Operation", Float) = 0
	_StencilWriteMask	("Stencil Write Mask", Float) = 255
	_StencilReadMask	("Stencil Read Mask", Float) = 255

	_CullMode			("Cull Mode", Float) = 0
	_ColorMask			("Color Mask", Float) = 15
}

SubShader {

	Tags
  {
		"Queue"="Overlay"
		"IgnoreProjector"="True"
		"RenderType"="Transparent"
	}

	Stencil
	{
		Ref [_Stencil]
		Comp [_StencilComp]
		Pass [_StencilOp]
		ReadMask [_StencilReadMask]
		WriteMask [_StencilWriteMask]
	}

	Cull [_CullMode]
	ZWrite Off
	Lighting Off
	Fog { Mode Off }
	ZTest Always
	Blend One OneMinusSrcAlpha
	ColorMask [_ColorMask]

	Pass {
		CGPROGRAM
		#pragma target 3.0
		#pragma vertex VertShader
		#pragma fragment PixShader
		#pragma shader_feature __ BEVEL_ON
		#pragma shader_feature __ UNDERLAY_ON UNDERLAY_INNER
		#pragma shader_feature __ GLOW_ON

		#pragma multi_compile __ UNITY_UI_CLIP_RECT
		#pragma multi_compile __ UNITY_UI_ALPHACLIP

		#include "UnityCG.cginc"
		#include "UnityUI.cginc"
		#include "TMPro_Properties.cginc"
		#include "TMPro.cginc"

		struct vertex_t {
			UNITY_VERTEX_INPUT_INSTANCE_ID
			float4	position		: POSITION;
			float3	normal			: NORMAL;
			fixed4	color			: COLOR;
			float2	texcoord0		: TEXCOORD0;
			float2	texcoord1		: TEXCOORD1;
		};


		struct pixel_t {
			UNITY_VERTEX_INPUT_INSTANCE_ID
			UNITY_VERTEX_OUTPUT_STEREO
			float4	position		: SV_POSITION;
			fixed4	color			: COLOR;
			float2	atlas			: TEXCOORD0;		// Atlas
			float4	param			: TEXCOORD1;		// alphaClip, scale, bias, weight
			float4	mask			: TEXCOORD2;		// Position in object space(xy), pixel Size(zw)
			float3	viewDir			: TEXCOORD3;

		#if (UNDERLAY_ON || UNDERLAY_INNER)
			float4	texcoord2		: TEXCOORD4;		// u,v, scale, bias
			fixed4	underlayColor	: COLOR1;
		#endif
			float4 textures			: TEXCOORD5;
		};

		// Used by Unity internally to handle Texture Tiling and Offset.
		float4 _FaceTex_ST;
		float4 _OutlineTex_ST;

		pixel_t VertShader(vertex_t input)
		{
			pixel_t output;

			UNITY_INITIALIZE_OUTPUT(pixel_t, output);
			UNITY_SETUP_INSTANCE_ID(input);
			UNITY_TRANSFER_INSTANCE_ID(input,output);
			UNITY_INITIALIZE_VERTEX_OUTPUT_STEREO(output);

			float bold = step(input.texcoord1.y, 0);

			float4 vert = input.position;
			vert.x += _VertexOffsetX;
			vert.y += _VertexOffsetY;

			float4 vPosition = UnityObjectToClipPos(vert);

			float2 pixelSize = vPosition.w;
			pixelSize /= float2(_ScaleX, _ScaleY) * abs(mul((float2x2)UNITY_MATRIX_P, _ScreenParams.xy));
			float scale = rsqrt(dot(pixelSize, pixelSize));
			scale *= abs(input.texcoord1.y) * _GradientScale * (_Sharpness + 1);
			if (UNITY_MATRIX_P[3][3] == 0) scale = lerp(abs(scale) * (1 - _PerspectiveFilter), scale, abs(dot(UnityObjectToWorldNormal(input.normal.xyz), normalize(WorldSpaceViewDir(vert)))));

			float weight = lerp(_WeightNormal, _WeightBold, bold) / 4.0;
			weight = (weight + _FaceDilate) * _ScaleRatioA * 0.5;

			float bias =(.5 - weight) + (.5 / scale);

			float alphaClip = (1.0 - _OutlineWidth*_ScaleRatioA - _OutlineSoftness*_ScaleRatioA);

		#if GLOW_ON
			alphaClip = min(alphaClip, 1.0 - _GlowOffset * _ScaleRatioB - _GlowOuter * _ScaleRatioB);
		#endif

			alphaClip = alphaClip / 2.0 - ( .5 / scale) - weight;

		#if (UNDERLAY_ON || UNDERLAY_INNER)
			float4 underlayColor = _UnderlayColor;
			underlayColor.rgb *= underlayColor.a;

			float bScale = scale;
			bScale /= 1 + ((_UnderlaySoftness*_ScaleRatioC) * bScale);
			float bBias = (0.5 - weight) * bScale - 0.5 - ((_UnderlayDilate * _ScaleRatioC) * 0.5 * bScale);

			float x = -(_UnderlayOffsetX * _ScaleRatioC) * _GradientScale / _TextureWidth;
			float y = -(_UnderlayOffsetY * _ScaleRatioC) * _GradientScale / _TextureHeight;
			float2 bOffset = float2(x, y);
		#endif

			// Generate UV for the Masking Texture
			float4 clampedRect = clamp(_ClipRect, -2e10, 2e10);
			float2 maskUV = (vert.xy - clampedRect.xy) / (clampedRect.zw - clampedRect.xy);

			// Support for texture tiling and offset
			float2 textureUV = UnpackUV(input.texcoord1.x);
			float2 faceUV = TRANSFORM_TEX(textureUV, _FaceTex);
			float2 outlineUV = TRANSFORM_TEX(textureUV, _OutlineTex);


			output.position = vPosition;
			output.color = input.color;
			output.atlas =	input.texcoord0;
			output.param =	float4(alphaClip, scale, bias, weight);
			output.mask = half4(vert.xy * 2 - clampedRect.xy - clampedRect.zw, 0.25 / (0.25 * half2(_MaskSoftnessX, _MaskSoftnessY) + pixelSize.xy));
			output.viewDir =	mul((float3x3)_EnvMatrix, _WorldSpaceCameraPos.xyz - mul(unity_ObjectToWorld, vert).xyz);
			#if (UNDERLAY_ON || UNDERLAY_INNER)
			output.texcoord2 = float4(input.texcoord0 + bOffset, bScale, bBias);
			output.underlayColor =	underlayColor;
			#endif
			output.textures = float4(faceUV, outlineUV);

			return output;
		}


		fixed4 PixShader(pixel_t input) : SV_Target
		{
			UNITY_SETUP_INSTANCE_ID(input);

			float c = tex2D(_MainTex, input.atlas).a;

		#ifndef UNDERLAY_ON
			clip(c - input.param.x);
		#endif

			float	scale	= input.param.y;
			float	bias	= input.param.z;
			float	weight	= input.param.w;
			float	sd = (bias - c) * scale;

			float outline = (_OutlineWidth * _ScaleRatioA) * scale;
			float softness = (_OutlineSoftness * _ScaleRatioA) * scale;

			half4 faceColor = _FaceColor;
			half4 outlineColor = _OutlineColor;

			faceColor.rgb *= input.color.rgb;

			faceColor *= tex2D(_FaceTex, input.textures.xy + float2(_FaceUVSpeedX, _FaceUVSpeedY) * _Time.y);
			outlineColor *= tex2D(_OutlineTex, input.textures.zw + float2(_OutlineUVSpeedX, _OutlineUVSpeedY) * _Time.y);

			faceColor = GetColor(sd, faceColor, outlineColor, outline, softness);

		#if BEVEL_ON
			float3 dxy = float3(0.5 / _TextureWidth, 0.5 / _TextureHeight, 0);
			float3 n = GetSurfaceNormal(input.atlas, weight, dxy);

			float3 bump = UnpackNormal(tex2D(_BumpMap, input.textures.xy + float2(_FaceUVSpeedX, _FaceUVSpeedY) * _Time.y)).xyz;
			bump *= lerp(_BumpFace, _BumpOutline, saturate(sd + outline * 0.5));
			n = normalize(n- bump);

			float3 light = normalize(float3(sin(_LightAngle), cos(_LightAngle), -1.0));

			float3 col = GetSpecular(n, light);
			faceColor.rgb += col*faceColor.a;
			faceColor.rgb *= 1-(dot(n, light)*_Diffuse);
			faceColor.rgb *= lerp(_Ambient, 1, n.z*n.z);

			fixed4 reflcol = texCUBE(_Cube, reflect(input.viewDir, -n));
			faceColor.rgb += reflcol.rgb * lerp(_ReflectFaceColor.rgb, _ReflectOutlineColor.rgb, saturate(sd + outline * 0.5)) * faceColor.a;
		#endif

		#if UNDERLAY_ON
			float d = tex2D(_MainTex, input.texcoord2.xy).a * input.texcoord2.z;
			faceColor += input.underlayColor * saturate(d - input.texcoord2.w) * (1 - faceColor.a);
		#endif

		#if UNDERLAY_INNER
			float d = tex2D(_MainTex, input.texcoord2.xy).a * input.texcoord2.z;
			faceColor += input.underlayColor * (1 - saturate(d - input.texcoord2.w)) * saturate(1 - sd) * (1 - faceColor.a);
		#endif

		#if GLOW_ON
			float4 glowColor = GetGlowColor(sd, scale);
			faceColor.rgb += glowColor.rgb * glowColor.a;
		#endif

		// Alternative implementation to UnityGet2DClipping with support for softness.
		#if UNITY_UI_CLIP_RECT
			half2 m = saturate((_ClipRect.zw - _ClipRect.xy - abs(input.mask.xy)) * input.mask.zw);
			faceColor *= m.x * m.y;
		#endif

		#if UNITY_UI_ALPHACLIP
			clip(faceColor.a - 0.001);
		#endif

			return faceColor * input.color.a;
		}

		ENDCG
	}
}

Fallback "TextMeshPro/Mobile/Distance Field"
CustomEditor "TMPro.EditorUtilities.TMP_SDFShaderGUI"
}
Squashed commit of the following: commit 9559cc8882161192a43be22670a8ff69db1ea13a Author: Roman <1325980292@qq.com> Date: Sat Aug 27 19:22:38 2022 +0800 短学期Log 任务：替换和实装美术素材 1.在教程场景布置图标和文字提示内容 DONE 2.制作GamePlay中背景元素的动画并实装 DONE 3.替换拆迁障碍物美术素材 DONE 任务：实装音乐和音效 1.为两个场景添加音乐，并且在GamePlay场景不重开音乐。 DONE 2.实装人摔地音效 DONE 3.实装人跑动音效效果不好 DONE 4.实装人马分离音效 DONE .补充实装人降落到马上的音效 DONE 5.实装创烂障碍物音效 DONE 6.实装圣火点燃音效 DONE 7.实装马磕磕碰碰音效 DONE 8.实装马似音效 DONE 9.实装马着地音效 DONE 10.实装马起跳音效 DONE 11.实装马蹄点地音效效果不好 DONE 任务：实装特效 1.实装后处理 DONE 2.实装日夜更替 DONE 3.实装树叶飘落 DONE 4.实装圣火粒子效果不好 DONE 5.实装破碎灰尘效果不好 DONE 6.实装马蹄灰尘 DONE 7.实装红黑闪特效 DONE 任务：完善没写的零散逻辑 1.在教程场景，若人马分离障碍处没接到人，过一个转场然后复位人和马：仍然存在问题，当如此，人的动画失效。这个问题现在不好修，等待人的死亡动画实装后再修已修复 DONE 2.在教程场景，点燃圣火仅有进入触发器后加载转场然后转移场景的功能，没有点燃圣火的过程，现补充其逻辑 DONE 3.开发GamePlay距离记录和重开系统 DONE 4.策划要在点燃圣火时镜头放大，体现标题感 URP相机不太好做 ABANDON 5.人的死亡动画逻辑之前没做 DONE 任务：测试并修复Bug DONE 修复Bug 1.在教程场景，可破坏障碍物的碎片的层级不对，创烂瞬间会有层级突变的问题。在GamePlay层级，也出现了这个问题。已修复 DONE 2.现在的高障碍实在太高了，基本有80%以上的概率导致马翻，应该调低障碍物、或者调大马的跳跃力度。 DONE 3.跑步动画和跑步音效完全对不上加快跑步动画 DONE 4.原爆破给力范围太大，会导致旧的碎片也被波及已修复 DONE commit cab00851df5e4da70b981c564888c53d86de1f95 Author: Roman <1325980292@qq.com> Date: Sat Aug 27 02:51:21 2022 +0800 短学期Log 任务：替换和实装美术素材 1.在教程场景布置图标和文字提示内容 DONE 2.制作GamePlay中背景元素的动画并实装 DONE 3.替换拆迁障碍物美术素材 DONE 任务：实装音乐和音效 1.为两个场景添加音乐，并且在GamePlay场景不重开音乐。 DONE 2.实装人摔地音效 DONE 3.实装人跑动音效 DONE 4.实装人马分离音效 DONE 5.实装创烂障碍物音效 DOING 6.实装圣火点燃音效 7.实装马磕磕碰碰音效 8.实装马似音效 9.实装马着地音效 10.实装马起跳音效任务：实装特效 …… 任务：完善没写的零散逻辑 1.在教程场景，若人马分离障碍处没接到人，过一个转场然后复位人和马 *：仍然存在问题，当如此，人的动画失效。这个问题现在不好修，等待人的死亡动画实装后再修 WAIT 2.在教程场景，点燃圣火仅有进入触发器后加载转场然后转移场景的功能，没有点燃圣火的过程，现补充其逻辑 DONE 3.开发GamePlay距离记录和重开系统 …… 修复Bug 1.在教程场景，可破坏障碍物的碎片的层级不对，创烂瞬间会有层级突变的问题。在GamePlay层级，也出现了这个问题。 2.现在的高障碍实在太高了，基本有80%以上的概率导致马翻，应该调低障碍物、或者调大马的跳跃力度。 commit 3f0c9dd791c66e7222d6dbb72d8b762b73f06aed Merge: e6888a7 bc74426 Author: Roman <1325980292@qq.com> Date: Fri Aug 26 18:13:00 2022 +0800 Merge branch 'Saipo' of https://e.coding.net/gensokyogroup/saima/SAIMA into Roman # Conflicts: # UserSettings/EditorUserSettings.asset # UserSettings/Layouts/CurrentMaximizeLayout.dwlt # UserSettings/Layouts/default-2021.dwlt commit e6888a748dc7188bd3c2f7ce4bceade7402f8cec Author: Roman <1325980292@qq.com> Date: Fri Aug 26 18:11:05 2022 +0800 任务：编写教程和开始场景分析：分为五个阶段，每个阶段一屏宽。前四个阶段是教程阶段，分别仅放一种障碍（第一个无障碍）和提示，提示参照茶杯头教程关。每个阶段间有明显间断、镜头固定，但当马通过该阶段的障碍后，镜头右移一个阶段。马不能倒退，相机左侧有空气墙。到达最终阶段后，按流程点燃圣火进入游戏设计： 1.搭建核心场景，放置障碍物。 DONE 2.设计教程及开始场景管理器（1.控制相机，使马每通过一个阶段，相机运动到记录的位置 DONE （2.给相机左侧添加空气墙 DONE （3.管理器要明确记录此时玩家处于哪个阶段 DONE （4.当玩家进入点燃圣火触发器，切断操控，等待动画结束或者一些信号，触发从右向左的渐变黑幕遮挡全屏，随后转场到新场景。 DONE 至此，基本逻辑完成，需要补充大量细节、替换大量美术素材。修复问题： 1.人马分离障碍连续出现可能导致致命问题，修复使其不能连续出现 DONE 2.GamePlay中，远处的山需要补充运动逻辑 DONE commit 5d922db6142634cdd20aa7801c0b3c1c4994360c Author: Roman <1325980292@qq.com> Date: Wed Aug 24 17:59:05 2022 +0800 任务：制作人物动画逻辑 1.当人物处于Normal时，重复播放骑在马上的动画 2.当人物被射出，播放一次跳上动画，之后停在最后一帧，等待落到平台上。 3.当人物进入Walk态，开始重复播放跑步动画。 4.当人物开始降落，触发一次跳下动画，停在最后一帧 5.当Recover结束，状态恢复为Normal，重回到骑在马上动画 DONE commit d1fe07492af5ce6ea736ef738eb3e38170a08066 Merge: 436eaf0 5e10767 Author: Roman <1325980292@qq.com> Date: Wed Aug 24 10:42:58 2022 +0800 Merge branch 'Saipo' of https://e.coding.net/gensokyogroup/saima/SAIMA into Roman # Conflicts: # UserSettings/Layouts/default-2021.dwlt commit 436eaf01046248372e887eb8276f38e021915790 Author: Roman <1325980292@qq.com> Date: Wed Aug 24 10:40:51 2022 +0800 为了拉取的提交，少量修改 2022-08-27 21:30:16 +08:00			`Shader "TextMeshPro/Distance Field Overlay" {`

			`Properties {`
			`_FaceTex ("Face Texture", 2D) = "white" {}`
			`_FaceUVSpeedX ("Face UV Speed X", Range(-5, 5)) = 0.0`
			`_FaceUVSpeedY ("Face UV Speed Y", Range(-5, 5)) = 0.0`
			`[HDR]_FaceColor ("Face Color", Color) = (1,1,1,1)`
			`_FaceDilate ("Face Dilate", Range(-1,1)) = 0`

			`[HDR]_OutlineColor ("Outline Color", Color) = (0,0,0,1)`
			`_OutlineTex ("Outline Texture", 2D) = "white" {}`
			`_OutlineUVSpeedX ("Outline UV Speed X", Range(-5, 5)) = 0.0`
			`_OutlineUVSpeedY ("Outline UV Speed Y", Range(-5, 5)) = 0.0`
			`_OutlineWidth ("Outline Thickness", Range(0, 1)) = 0`
			`_OutlineSoftness ("Outline Softness", Range(0,1)) = 0`

			`_Bevel ("Bevel", Range(0,1)) = 0.5`
			`_BevelOffset ("Bevel Offset", Range(-0.5,0.5)) = 0`
			`_BevelWidth ("Bevel Width", Range(-.5,0.5)) = 0`
			`_BevelClamp ("Bevel Clamp", Range(0,1)) = 0`
			`_BevelRoundness ("Bevel Roundness", Range(0,1)) = 0`

			`_LightAngle ("Light Angle", Range(0.0, 6.2831853)) = 3.1416`
			`[HDR]_SpecularColor ("Specular", Color) = (1,1,1,1)`
			`_SpecularPower ("Specular", Range(0,4)) = 2.0`
			`_Reflectivity ("Reflectivity", Range(5.0,15.0)) = 10`
			`_Diffuse ("Diffuse", Range(0,1)) = 0.5`
			`_Ambient ("Ambient", Range(1,0)) = 0.5`

			`_BumpMap ("Normal map", 2D) = "bump" {}`
			`_BumpOutline ("Bump Outline", Range(0,1)) = 0`
			`_BumpFace ("Bump Face", Range(0,1)) = 0`

			`_ReflectFaceColor ("Reflection Color", Color) = (0,0,0,1)`
			`_ReflectOutlineColor("Reflection Color", Color) = (0,0,0,1)`
			`_Cube ("Reflection Cubemap", Cube) = "black" { /* TexGen CubeReflect */ }`
			`_EnvMatrixRotation ("Texture Rotation", vector) = (0, 0, 0, 0)`


			`[HDR]_UnderlayColor ("Border Color", Color) = (0,0,0, 0.5)`
			`_UnderlayOffsetX ("Border OffsetX", Range(-1,1)) = 0`
			`_UnderlayOffsetY ("Border OffsetY", Range(-1,1)) = 0`
			`_UnderlayDilate ("Border Dilate", Range(-1,1)) = 0`
			`_UnderlaySoftness ("Border Softness", Range(0,1)) = 0`

			`[HDR]_GlowColor ("Color", Color) = (0, 1, 0, 0.5)`
			`_GlowOffset ("Offset", Range(-1,1)) = 0`
			`_GlowInner ("Inner", Range(0,1)) = 0.05`
			`_GlowOuter ("Outer", Range(0,1)) = 0.05`
			`_GlowPower ("Falloff", Range(1, 0)) = 0.75`

			`_WeightNormal ("Weight Normal", float) = 0`
			`_WeightBold ("Weight Bold", float) = 0.5`

			`_ShaderFlags ("Flags", float) = 0`
			`_ScaleRatioA ("Scale RatioA", float) = 1`
			`_ScaleRatioB ("Scale RatioB", float) = 1`
			`_ScaleRatioC ("Scale RatioC", float) = 1`

			`_MainTex ("Font Atlas", 2D) = "white" {}`
			`_TextureWidth ("Texture Width", float) = 512`
			`_TextureHeight ("Texture Height", float) = 512`
			`_GradientScale ("Gradient Scale", float) = 5.0`
			`_ScaleX ("Scale X", float) = 1.0`
			`_ScaleY ("Scale Y", float) = 1.0`
			`_PerspectiveFilter ("Perspective Correction", Range(0, 1)) = 0.875`
			`_Sharpness ("Sharpness", Range(-1,1)) = 0`

			`_VertexOffsetX ("Vertex OffsetX", float) = 0`
			`_VertexOffsetY ("Vertex OffsetY", float) = 0`

			`_MaskCoord ("Mask Coordinates", vector) = (0, 0, 32767, 32767)`
			`_ClipRect ("Clip Rect", vector) = (-32767, -32767, 32767, 32767)`
			`_MaskSoftnessX ("Mask SoftnessX", float) = 0`
			`_MaskSoftnessY ("Mask SoftnessY", float) = 0`

			`_StencilComp ("Stencil Comparison", Float) = 8`
			`_Stencil ("Stencil ID", Float) = 0`
			`_StencilOp ("Stencil Operation", Float) = 0`
			`_StencilWriteMask ("Stencil Write Mask", Float) = 255`
			`_StencilReadMask ("Stencil Read Mask", Float) = 255`

			`_CullMode ("Cull Mode", Float) = 0`
			`_ColorMask ("Color Mask", Float) = 15`
			`}`

			`SubShader {`

			`Tags`
			`{`
			`"Queue"="Overlay"`
			`"IgnoreProjector"="True"`
			`"RenderType"="Transparent"`
			`}`

			`Stencil`
			`{`
			`Ref [_Stencil]`
			`Comp [_StencilComp]`
			`Pass [_StencilOp]`
			`ReadMask [_StencilReadMask]`
			`WriteMask [_StencilWriteMask]`
			`}`

			`Cull [_CullMode]`
			`ZWrite Off`
			`Lighting Off`
			`Fog { Mode Off }`
			`ZTest Always`
			`Blend One OneMinusSrcAlpha`
			`ColorMask [_ColorMask]`

			`Pass {`
			`CGPROGRAM`
			`#pragma target 3.0`
			`#pragma vertex VertShader`
			`#pragma fragment PixShader`
			`#pragma shader_feature __ BEVEL_ON`
			`#pragma shader_feature __ UNDERLAY_ON UNDERLAY_INNER`
			`#pragma shader_feature __ GLOW_ON`

			`#pragma multi_compile __ UNITY_UI_CLIP_RECT`
			`#pragma multi_compile __ UNITY_UI_ALPHACLIP`

			`#include "UnityCG.cginc"`
			`#include "UnityUI.cginc"`
			`#include "TMPro_Properties.cginc"`
			`#include "TMPro.cginc"`

			`struct vertex_t {`
			`UNITY_VERTEX_INPUT_INSTANCE_ID`
			`float4 position : POSITION;`
			`float3 normal : NORMAL;`
			`fixed4 color : COLOR;`
			`float2 texcoord0 : TEXCOORD0;`
			`float2 texcoord1 : TEXCOORD1;`
			`};`


			`struct pixel_t {`
			`UNITY_VERTEX_INPUT_INSTANCE_ID`
			`UNITY_VERTEX_OUTPUT_STEREO`
			`float4 position : SV_POSITION;`
			`fixed4 color : COLOR;`
			`float2 atlas : TEXCOORD0; // Atlas`
			`float4 param : TEXCOORD1; // alphaClip, scale, bias, weight`
			`float4 mask : TEXCOORD2; // Position in object space(xy), pixel Size(zw)`
			`float3 viewDir : TEXCOORD3;`

			`#if (UNDERLAY_ON \|\| UNDERLAY_INNER)`
			`float4 texcoord2 : TEXCOORD4; // u,v, scale, bias`
			`fixed4 underlayColor : COLOR1;`
			`#endif`
			`float4 textures : TEXCOORD5;`
			`};`

			`// Used by Unity internally to handle Texture Tiling and Offset.`
			`float4 _FaceTex_ST;`
			`float4 _OutlineTex_ST;`

			`pixel_t VertShader(vertex_t input)`
			`{`
			`pixel_t output;`

			`UNITY_INITIALIZE_OUTPUT(pixel_t, output);`
			`UNITY_SETUP_INSTANCE_ID(input);`
			`UNITY_TRANSFER_INSTANCE_ID(input,output);`
			`UNITY_INITIALIZE_VERTEX_OUTPUT_STEREO(output);`

			`float bold = step(input.texcoord1.y, 0);`

			`float4 vert = input.position;`
			`vert.x += _VertexOffsetX;`
			`vert.y += _VertexOffsetY;`

			`float4 vPosition = UnityObjectToClipPos(vert);`

			`float2 pixelSize = vPosition.w;`
			`pixelSize /= float2(_ScaleX, _ScaleY) * abs(mul((float2x2)UNITY_MATRIX_P, _ScreenParams.xy));`
			`float scale = rsqrt(dot(pixelSize, pixelSize));`
			`scale = abs(input.texcoord1.y) _GradientScale * (_Sharpness + 1);`
			`if (UNITY_MATRIX_P[3][3] == 0) scale = lerp(abs(scale) * (1 - _PerspectiveFilter), scale, abs(dot(UnityObjectToWorldNormal(input.normal.xyz), normalize(WorldSpaceViewDir(vert)))));`

			`float weight = lerp(_WeightNormal, _WeightBold, bold) / 4.0;`
			`weight = (weight + _FaceDilate) * _ScaleRatioA * 0.5;`

			`float bias =(.5 - weight) + (.5 / scale);`

			`float alphaClip = (1.0 - _OutlineWidth_ScaleRatioA - _OutlineSoftness_ScaleRatioA);`

			`#if GLOW_ON`
			`alphaClip = min(alphaClip, 1.0 - _GlowOffset * _ScaleRatioB - _GlowOuter * _ScaleRatioB);`
			`#endif`

			`alphaClip = alphaClip / 2.0 - ( .5 / scale) - weight;`

			`#if (UNDERLAY_ON \|\| UNDERLAY_INNER)`
			`float4 underlayColor = _UnderlayColor;`
			`underlayColor.rgb *= underlayColor.a;`

			`float bScale = scale;`
			`bScale /= 1 + ((_UnderlaySoftness_ScaleRatioC) bScale);`
			`float bBias = (0.5 - weight) * bScale - 0.5 - ((_UnderlayDilate * _ScaleRatioC) * 0.5 * bScale);`

			`float x = -(_UnderlayOffsetX * _ScaleRatioC) * _GradientScale / _TextureWidth;`
			`float y = -(_UnderlayOffsetY * _ScaleRatioC) * _GradientScale / _TextureHeight;`
			`float2 bOffset = float2(x, y);`
			`#endif`

			`// Generate UV for the Masking Texture`
			`float4 clampedRect = clamp(_ClipRect, -2e10, 2e10);`
			`float2 maskUV = (vert.xy - clampedRect.xy) / (clampedRect.zw - clampedRect.xy);`

			`// Support for texture tiling and offset`
			`float2 textureUV = UnpackUV(input.texcoord1.x);`
			`float2 faceUV = TRANSFORM_TEX(textureUV, _FaceTex);`
			`float2 outlineUV = TRANSFORM_TEX(textureUV, _OutlineTex);`


			`output.position = vPosition;`
			`output.color = input.color;`
			`output.atlas = input.texcoord0;`
			`output.param = float4(alphaClip, scale, bias, weight);`
			`output.mask = half4(vert.xy * 2 - clampedRect.xy - clampedRect.zw, 0.25 / (0.25 * half2(_MaskSoftnessX, _MaskSoftnessY) + pixelSize.xy));`
			`output.viewDir = mul((float3x3)_EnvMatrix, _WorldSpaceCameraPos.xyz - mul(unity_ObjectToWorld, vert).xyz);`
			`#if (UNDERLAY_ON \|\| UNDERLAY_INNER)`
			`output.texcoord2 = float4(input.texcoord0 + bOffset, bScale, bBias);`
			`output.underlayColor = underlayColor;`
			`#endif`
			`output.textures = float4(faceUV, outlineUV);`

			`return output;`
			`}`


			`fixed4 PixShader(pixel_t input) : SV_Target`
			`{`
			`UNITY_SETUP_INSTANCE_ID(input);`

			`float c = tex2D(_MainTex, input.atlas).a;`

			`#ifndef UNDERLAY_ON`
			`clip(c - input.param.x);`
			`#endif`

			`float scale = input.param.y;`
			`float bias = input.param.z;`
			`float weight = input.param.w;`
			`float sd = (bias - c) * scale;`

			`float outline = (_OutlineWidth * _ScaleRatioA) * scale;`
			`float softness = (_OutlineSoftness * _ScaleRatioA) * scale;`

			`half4 faceColor = _FaceColor;`
			`half4 outlineColor = _OutlineColor;`

			`faceColor.rgb *= input.color.rgb;`

			`faceColor = tex2D(_FaceTex, input.textures.xy + float2(_FaceUVSpeedX, _FaceUVSpeedY) _Time.y);`
			`outlineColor = tex2D(_OutlineTex, input.textures.zw + float2(_OutlineUVSpeedX, _OutlineUVSpeedY) _Time.y);`

			`faceColor = GetColor(sd, faceColor, outlineColor, outline, softness);`

			`#if BEVEL_ON`
			`float3 dxy = float3(0.5 / _TextureWidth, 0.5 / _TextureHeight, 0);`
			`float3 n = GetSurfaceNormal(input.atlas, weight, dxy);`

			`float3 bump = UnpackNormal(tex2D(_BumpMap, input.textures.xy + float2(_FaceUVSpeedX, _FaceUVSpeedY) * _Time.y)).xyz;`
			`bump = lerp(_BumpFace, _BumpOutline, saturate(sd + outline 0.5));`
			`n = normalize(n- bump);`

			`float3 light = normalize(float3(sin(_LightAngle), cos(_LightAngle), -1.0));`

			`float3 col = GetSpecular(n, light);`
			`faceColor.rgb += col*faceColor.a;`
			`faceColor.rgb = 1-(dot(n, light)_Diffuse);`
			`faceColor.rgb = lerp(_Ambient, 1, n.zn.z);`

			`fixed4 reflcol = texCUBE(_Cube, reflect(input.viewDir, -n));`
			`faceColor.rgb += reflcol.rgb * lerp(_ReflectFaceColor.rgb, _ReflectOutlineColor.rgb, saturate(sd + outline * 0.5)) * faceColor.a;`
			`#endif`

			`#if UNDERLAY_ON`
			`float d = tex2D(_MainTex, input.texcoord2.xy).a * input.texcoord2.z;`
			`faceColor += input.underlayColor * saturate(d - input.texcoord2.w) * (1 - faceColor.a);`
			`#endif`

			`#if UNDERLAY_INNER`
			`float d = tex2D(_MainTex, input.texcoord2.xy).a * input.texcoord2.z;`
			`faceColor += input.underlayColor * (1 - saturate(d - input.texcoord2.w)) * saturate(1 - sd) * (1 - faceColor.a);`
			`#endif`

			`#if GLOW_ON`
			`float4 glowColor = GetGlowColor(sd, scale);`
			`faceColor.rgb += glowColor.rgb * glowColor.a;`
			`#endif`

			`// Alternative implementation to UnityGet2DClipping with support for softness.`
			`#if UNITY_UI_CLIP_RECT`
			`half2 m = saturate((_ClipRect.zw - _ClipRect.xy - abs(input.mask.xy)) * input.mask.zw);`
			`faceColor = m.x m.y;`
			`#endif`

			`#if UNITY_UI_ALPHACLIP`
			`clip(faceColor.a - 0.001);`
			`#endif`

			`return faceColor * input.color.a;`
			`}`

			`ENDCG`
			`}`
			`}`

			`Fallback "TextMeshPro/Mobile/Distance Field"`
			`CustomEditor "TMPro.EditorUtilities.TMP_SDFShaderGUI"`
			`}`