Shader "MPUI/Basic Procedural Image" { Properties { [PerRendererData] _MainTex ("Sprite Texture", 2D) = "white" { } _Color ("Tint", Color) = (1,1,1,1) _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 _ColorMask ("Color Mask", Float) = 15 /* //SOFTMASK_HANDLE_START [PerRendererData] _SoftMask ("Mask", 2D) = "white" {} */ //SOFTMASK_HANDLE_END [Toggle(UNITY_UI_ALPHACLIP)] _UseUIAlphaClip ("Use Alpha Clip", Float) = 0 } SubShader { Tags { "Queue" = "Transparent" "IgnoreProjector" = "True" "RenderType" = "Transparent" "PreviewType" = "Plane" "CanUseSpriteAtlas" = "True" } Stencil { Ref [_Stencil] Comp [_StencilComp] Pass [_StencilOp] ReadMask [_StencilReadMask] WriteMask [_StencilWriteMask] } Cull Off Lighting Off ZWrite Off ZTest [unity_GUIZTestMode] Blend SrcAlpha OneMinusSrcAlpha ColorMask [_ColorMask] Pass { Name "Default" CGPROGRAM #pragma vertex vert #pragma fragment frag #include "UnityCG.cginc" #include "UnityUI.cginc" #include "2D_SDF.cginc" /* //SOFTMASK_HANDLE_START #include "Assets/SoftMask/Shaders/SoftMask.cginc" //SOFTMASK_INCLUDE_HANDLE */ //SOFTMASK_HANDLE_END #pragma multi_compile_local _ UNITY_UI_CLIP_RECT #pragma multi_compile_local _ UNITY_UI_ALPHACLIP #pragma multi_compile_local _ CIRCLE TRIANGLE RECTANGLE NSTAR_POLYGON #pragma multi_compile_local _ STROKE OUTLINED OUTLINED_STROKE /* //SOFTMASK_HANDLE_START #pragma multi_compile _ SOFTMASK_SIMPLE */ //SOFTMASK_HANDLE_END struct appdata_t { float4 vertex: POSITION; float4 color: COLOR; float2 uv0: TEXCOORD0; float2 uv1: TEXCOORD1; float2 uv2: TEXCOORD2; float2 uv3: TEXCOORD3; float3 normal: NORMAL; float4 tangent: TANGENT; UNITY_VERTEX_INPUT_INSTANCE_ID }; struct v2f { float4 vertex: SV_POSITION; fixed4 color: COLOR; float2 uv0: TEXCOORD0; float4 sizeData: TEXCOORD1; float4 strokeOutlineCornerData: TEXCOORD2; fixed4 outlineColor: COLOR1; float4 shapeData: TEXCOORD3; float4 worldPosition: TEXCOORD4; /* //SOFTMASK_HANDLE_START SOFTMASK_COORDS(5) */ //SOFTMASK_HANDLE_END UNITY_VERTEX_OUTPUT_STEREO }; sampler2D _MainTex; fixed4 _Color; fixed4 _TextureSampleAdd; float4 _ClipRect; float4 _MainTex_ST; #if RECTANGLE half rectangleScene(float4 _sizeData, float4 _shapeData, float _cornerStyle) { float2 _texcoord = _sizeData.xy; float2 _size = float2(_sizeData.z, _sizeData.w); float4 radius = _shapeData; half rect = rectanlge(_texcoord - half2(_size.x / 2.0, _size.y / 2.0), _size.x, _size.y); half cornerCircle = circle(_texcoord - radius.xx, radius.x); rect = _texcoord.x < radius.x && _texcoord.y < radius.x ? cornerCircle: rect; cornerCircle = circle(_texcoord - half2(_size.x - radius.y, radius.y), radius.y); rect = _texcoord.x > _size.x - radius.y && _texcoord.y < radius.y ? cornerCircle: rect; cornerCircle = circle(_texcoord - (half2(_size.x, _size.y) - radius.zz), radius.z); rect = _texcoord.x > _size.x - radius.z && _texcoord.y > _size.y - radius.z ? cornerCircle: rect; cornerCircle = circle(_texcoord - half2(radius.w, _size.y - radius.w), radius.w); rect = _texcoord.x < radius.w && _texcoord.y > _size.y - radius.w ? cornerCircle: rect; return rect; } #endif #if CIRCLE float circleScene(float4 _sizeData, float4 _shapeData) { float2 _texcoord = _sizeData.xy; float2 _size = _sizeData.zw; float width = _size.x; float height = _size.y; float radius = lerp(_shapeData.x, min(width, height) / 2.0, _shapeData.y); float sdf = circle(_texcoord - float2(width / 2.0, height / 2.0), radius); return sdf; } #endif #if TRIANGLE half triangleScene(float4 _sizeData, float4 _shapeData) { float2 _texcoord = _sizeData.xy; float2 _size = _sizeData.zw; float width = _size.x;//_additionalData.z; float height = _size.y;//_additionalData.w; half sdf = sdTriangleIsosceles(_texcoord - half2(width / 2.0, height), half2(width / 2.0, -height)); //return sdf; float3 _TriangleCornerRadius = max(_shapeData.xyz, float3(0.001, 0.001, 0.001)); // Left Corner half halfWidth = width / 2.0; half m = height / halfWidth; half d = sqrt(1.0 + m * m); half c = 0.0; half k = -_TriangleCornerRadius.x * d + c; half x = (_TriangleCornerRadius.x - k) / m; half2 circlePivot = half2(x, _TriangleCornerRadius.x); half cornerCircle = circle(_texcoord - circlePivot, _TriangleCornerRadius.x); //sdf = sdfDifference(sdf, cornerCircle); //return sdf; x = (circlePivot.y + circlePivot.x / m - c) / (m + 1.0 / m); half y = m * x + c; half fy = map(_texcoord.x, x, circlePivot.x, y, circlePivot.y); sdf = _texcoord.y < fy && _texcoord.x < circlePivot.x ? cornerCircle: sdf; //return sdf; // Right Corner m = -m; c = 2.0 * height; k = -_TriangleCornerRadius.y * d + c; x = (_TriangleCornerRadius.y - k) / m; circlePivot = half2(x, _TriangleCornerRadius.y); cornerCircle = circle(_texcoord - circlePivot, _TriangleCornerRadius.y); x = (circlePivot.y + circlePivot.x / m - c) / (m + 1.0 / m); y = m * x + c; fy = map(_texcoord.x, circlePivot.x, x, circlePivot.y, y); sdf = _texcoord.x > circlePivot.x && _texcoord.y < fy ? cornerCircle: sdf; //Top Corner k = -_TriangleCornerRadius.z * sqrt(1.0 + m * m) + c; y = m * (width / 2.0) + k; circlePivot = half2(halfWidth, y); cornerCircle = circle(_texcoord - circlePivot, _TriangleCornerRadius.z); x = (circlePivot.y + circlePivot.x / m - c) / (m + 1.0 / m); y = m * x + c; fy = map(_texcoord.x, width - x, x, -1.0, 1.0); fy = lerp(circlePivot.y, y, abs(fy)); sdf = _texcoord.y > fy ? cornerCircle: sdf; return sdf; } #endif #if NSTAR_POLYGON half nStarPolygonScene(float4 _sizeData, float4 _shapeData) { float2 _texcoord = _sizeData.xy; float width = _sizeData.z; float height = _sizeData.w; float size = height / 2 - _shapeData.y; half str = sdNStarPolygon(_texcoord - half2(width / 2, height / 2), size, _shapeData.x, _shapeData.z) - _shapeData.y; return str; } #endif float2 rotateUV(float2 uv, float rotation, float2 mid) { return float2( cos(rotation) * (uv.x - mid.x) + sin(rotation) * (uv.y - mid.y) + mid.x, cos(rotation) * (uv.y - mid.y) - sin(rotation) * (uv.x - mid.x) + mid.y ); } float4 decode_0_1_16(float2 input){ float m = 65535.0; float e = 256.0 / 255.0; float n = 1.0 / m; float4 c = float4(input.x, input.x, input.y, input.y); c.yw *= m; c = frac(c); c -= float4(c.y, 0.0, c.w, 0.0) * n; return clamp(c * e, 0.0, 1.0); } v2f vert(appdata_t v) { v2f OUT; UNITY_SETUP_INSTANCE_ID(v); UNITY_INITIALIZE_VERTEX_OUTPUT_STEREO(OUT); OUT.vertex = UnityObjectToClipPos(v.vertex); OUT.worldPosition = v.vertex; OUT.color = v.color * _Color; OUT.uv0 = v.uv0; float2 size = v.uv1; half strokeWidth = v.uv2.x; half falloff = v.uv2.y; float rotationData = v.uv3.x; half cornerStyle = v.uv3.y; half outlineWidth = v.normal.x; half4 outlineColor = v.tangent; float4 shapeData; #if CIRCLE shapeData.xy = v.normal.yz; #else shapeData = decode_0_1_16(v.normal.yz) * min(size.x, size.y); #endif OUT.strokeOutlineCornerData = float4(strokeWidth, falloff, outlineWidth, cornerStyle); OUT.outlineColor = outlineColor; OUT.shapeData = shapeData; // Rotation Values half sign = rotationData > 0.0 ? 1 : -1; float f = abs(rotationData); float shapeRotation = frac(f) * 360.0 * sign; // r.xyz -> constrainRotation, flipHorizontal, flipVertical f = floor(f); float p = f / 100.0; float z = round(p); p = frac(p) * 10.0; float y = round(p); p = frac(p) * 10.0; float x = round(p); half constrainRotation = x; half flipHorizontal = y; half flipVertical = z; shapeRotation = radians(shapeRotation); size = constrainRotation > 0.0 && frac(abs(shapeRotation) / 3.14159) > 0.1? float2(size.y, size.x) : size; float2 shapeUv = constrainRotation > 0 ? v.uv0 : v.uv0 * size; shapeUv = rotateUV(shapeUv, shapeRotation, constrainRotation > 0? float2(0.5, 0.5) : size * 0.5); shapeUv*= constrainRotation > 0.0? size : 1.0; shapeUv.x = lerp(shapeUv.x, abs(size.x - shapeUv.x), flipHorizontal); shapeUv.y = lerp(shapeUv.y, abs(size.y - shapeUv.y), flipVertical); OUT.sizeData = float4(shapeUv.x, shapeUv.y, size.x, size.y); #ifdef UNITY_HALF_TEXEL_OFFSET OUT.vertex.xy += (_ScreenParams.zw - 1.0) * float2(-1.0, 1.0); #endif /* //SOFTMASK_HANDLE_START SOFTMASK_CALCULATE_COORDS(OUT, v.vertex); */ //SOFTMASK_HANDLE_END return OUT; } fixed4 frag(v2f IN): SV_Target { half4 color = IN.color; half2 texcoord = IN.uv0; color = (tex2D(_MainTex, texcoord) + _TextureSampleAdd) * color; float4 sizeData = IN.sizeData; float strokeWidth = IN.strokeOutlineCornerData.x; float falloff = IN.strokeOutlineCornerData.y; float outlineWidth = IN.strokeOutlineCornerData.z; half4 outlineColor = IN.outlineColor; float cornerStyle = IN.strokeOutlineCornerData.w; float4 shapeData = IN.shapeData; half pixelScale = clamp(1.0/falloff, 1.0/2048.0, 2048.0); float sdfData = 0; #if RECTANGLE sdfData = rectangleScene(sizeData, shapeData, cornerStyle); #endif #if CIRCLE sdfData = circleScene(sizeData, shapeData); #endif #if TRIANGLE sdfData = triangleScene(sizeData, shapeData); #endif #if NSTAR_POLYGON sdfData = nStarPolygonScene(sizeData, shapeData); #endif #if !OUTLINED && !STROKE && !OUTLINED_STROKE half shape = sampleSdf(sdfData, pixelScale); color.a *= shape; #endif #if STROKE half shape = sampleSdfStrip(sdfData, strokeWidth, pixelScale); color.a *= shape; #endif #if OUTLINED float alpha = sampleSdf(sdfData, pixelScale); float lerpFac = sampleSdf(sdfData + outlineWidth, pixelScale); color = half4(lerp(outlineColor.rgb, color.rgb, lerpFac), lerp(outlineColor.a * color.a, color.a, lerpFac)); color.a *= alpha; #endif #if OUTLINED_STROKE float alpha = sampleSdfStrip(sdfData, outlineWidth + strokeWidth, pixelScale); float lerpFac = sampleSdfStrip(sdfData + outlineWidth, strokeWidth + falloff, pixelScale); lerpFac = clamp(lerpFac, 0, 1); color = half4(lerp(outlineColor.rgb, color.rgb, lerpFac), lerp(outlineColor.a * color.a, color.a, lerpFac)); color.a *= alpha; #endif /* //SOFTMASK_HANDLE_START color.a *= SOFTMASK_GET_MASK(IN); */ //SOFTMASK_HANDLE_END #ifdef UNITY_UI_CLIP_RECT color.a *= UnityGet2DClipping(IN.worldPosition.xy, _ClipRect); #endif #ifdef UNITY_UI_ALPHACLIP clip(color.a - 0.001); #endif return fixed4(color); } ENDCG } } CustomEditor "MPUIKIT.Editor.MPImageShaderGUI" }