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A A A C C unity_FogStart unity_FogEndunity_FogDensity unity_FogColor˙˙˙˙™ę LIGHTMODEMeta RenderTypeOpaqueź6 RenderTypeOpaqueź%Tessellation/Bumped Specular (smooth)Bumped Specular)*ž+#line 24 "" #ifdef DUMMY_PREPROCESSOR_TO_WORK_AROUND_HLSL_COMPILER_LINE_HANDLING #endif // compile directives #pragma vertex tessvert_surf #pragma fragment frag_surf #pragma hull hs_surf #pragma domain ds_surf #pragma multi_compile_fog #pragma multi_compile_fwdbase #include "HLSLSupport.cginc" #include "UnityShaderVariables.cginc" // Surface shader code generated based on: // vertex modifier: 'disp' // writes to per-pixel normal: YES // writes to emission: no // writes to occlusion: no // needs world space reflection vector: no // needs world space normal vector: no // needs screen space position: no // needs world space position: no // needs view direction: no // needs world space view direction: no // needs world space position for lighting: YES // needs world space view direction for lighting: YES // needs world space view direction for lightmaps: no // needs vertex color: no // needs VFACE: no // passes tangent-to-world matrix to pixel shader: YES // reads from normal: no // 2 texcoords actually used // float2 _MainTex // float2 _BumpMap #define UNITY_PASS_FORWARDBASE #include "UnityCG.cginc" #include "Lighting.cginc" #include "AutoLight.cginc" #define INTERNAL_DATA half3 internalSurfaceTtoW0; half3 internalSurfaceTtoW1; half3 internalSurfaceTtoW2; #define WorldReflectionVector(data,normal) reflect (data.worldRefl, half3(dot(data.internalSurfaceTtoW0,normal), dot(data.internalSurfaceTtoW1,normal), dot(data.internalSurfaceTtoW2,normal))) #define WorldNormalVector(data,normal) fixed3(dot(data.internalSurfaceTtoW0,normal), dot(data.internalSurfaceTtoW1,normal), dot(data.internalSurfaceTtoW2,normal)) // Original surface shader snippet: #line 14 "" #ifdef DUMMY_PREPROCESSOR_TO_WORK_AROUND_HLSL_COMPILER_LINE_HANDLING #endif /* UNITY: Original start of shader */ //#pragma surface surf BlinnPhong addshadow vertex:disp tessellate:tessEdge tessphong:_Smoothness #include "Tessellation.cginc" struct appdata { float4 vertex : POSITION; float4 tangent : TANGENT; float3 normal : NORMAL; float2 texcoord : TEXCOORD0; float2 texcoord1 : TEXCOORD1; float2 texcoord2 : TEXCOORD2; }; float _EdgeLength; float _Smoothness; float4 tessEdge (appdata v0, appdata v1, appdata v2) { return UnityEdgeLengthBasedTessCull (v0.vertex, v1.vertex, v2.vertex, _EdgeLength, 0.0); } void disp (inout appdata v) { // do nothing } sampler2D _MainTex; sampler2D _BumpMap; fixed4 _Color; half _Shininess; struct Input { float2 uv_MainTex; float2 uv_BumpMap; }; void surf (Input IN, inout SurfaceOutput o) { fixed4 tex = tex2D(_MainTex, IN.uv_MainTex); o.Albedo = tex.rgb * _Color.rgb; o.Gloss = tex.a; o.Alpha = tex.a * _Color.a; o.Specular = _Shininess; o.Normal = UnpackNormal(tex2D(_BumpMap, IN.uv_BumpMap)); } #ifdef UNITY_CAN_COMPILE_TESSELLATION // tessellation vertex shader struct InternalTessInterp_appdata { float4 vertex : INTERNALTESSPOS; float4 tangent : TANGENT; float3 normal : NORMAL; float2 texcoord : TEXCOORD0; float2 texcoord1 : TEXCOORD1; float2 texcoord2 : TEXCOORD2; }; InternalTessInterp_appdata tessvert_surf (appdata v) { InternalTessInterp_appdata o; o.vertex = v.vertex; o.tangent = v.tangent; o.normal = v.normal; o.texcoord = v.texcoord; o.texcoord1 = v.texcoord1; o.texcoord2 = v.texcoord2; return o; } // tessellation hull constant shader UnityTessellationFactors hsconst_surf (InputPatch v) { UnityTessellationFactors o; float4 tf; appdata vi[3]; vi[0].vertex = v[0].vertex; vi[0].tangent = v[0].tangent; vi[0].normal = v[0].normal; vi[0].texcoord = v[0].texcoord; vi[0].texcoord1 = v[0].texcoord1; vi[0].texcoord2 = v[0].texcoord2; vi[1].vertex = v[1].vertex; vi[1].tangent = v[1].tangent; vi[1].normal = v[1].normal; vi[1].texcoord = v[1].texcoord; vi[1].texcoord1 = v[1].texcoord1; vi[1].texcoord2 = v[1].texcoord2; vi[2].vertex = v[2].vertex; vi[2].tangent = v[2].tangent; vi[2].normal = v[2].normal; vi[2].texcoord = v[2].texcoord; vi[2].texcoord1 = v[2].texcoord1; vi[2].texcoord2 = v[2].texcoord2; tf = tessEdge(vi[0], vi[1], vi[2]); o.edge[0] = tf.x; o.edge[1] = tf.y; o.edge[2] = tf.z; o.inside = tf.w; return o; } // tessellation hull shader [UNITY_domain("tri")] [UNITY_partitioning("fractional_odd")] [UNITY_outputtopology("triangle_cw")] [UNITY_patchconstantfunc("hsconst_surf")] [UNITY_outputcontrolpoints(3)] InternalTessInterp_appdata hs_surf (InputPatch v, uint id : SV_OutputControlPointID) { return v[id]; } #endif // UNITY_CAN_COMPILE_TESSELLATION // vertex-to-fragment interpolation data // no lightmaps: #ifndef LIGHTMAP_ON struct v2f_surf { float4 pos : SV_POSITION; float4 pack0 : TEXCOORD0; // _MainTex _BumpMap float4 tSpace0 : TEXCOORD1; float4 tSpace1 : TEXCOORD2; float4 tSpace2 : TEXCOORD3; #if UNITY_SHOULD_SAMPLE_SH half3 sh : TEXCOORD4; // SH #endif SHADOW_COORDS(5) UNITY_FOG_COORDS(6) #if SHADER_TARGET >= 30 float4 lmap : TEXCOORD7; #endif UNITY_VERTEX_INPUT_INSTANCE_ID UNITY_VERTEX_OUTPUT_STEREO }; #endif // with lightmaps: #ifdef LIGHTMAP_ON struct v2f_surf { float4 pos : SV_POSITION; float4 pack0 : TEXCOORD0; // _MainTex _BumpMap float4 tSpace0 : TEXCOORD1; float4 tSpace1 : TEXCOORD2; float4 tSpace2 : TEXCOORD3; float4 lmap : TEXCOORD4; SHADOW_COORDS(5) UNITY_FOG_COORDS(6) UNITY_VERTEX_INPUT_INSTANCE_ID UNITY_VERTEX_OUTPUT_STEREO }; #endif float4 _MainTex_ST; float4 _BumpMap_ST; // vertex shader v2f_surf vert_surf (appdata v) { UNITY_SETUP_INSTANCE_ID(v); v2f_surf o; UNITY_INITIALIZE_OUTPUT(v2f_surf,o); UNITY_TRANSFER_INSTANCE_ID(v,o); UNITY_INITIALIZE_VERTEX_OUTPUT_STEREO(o); o.pos = UnityObjectToClipPos(v.vertex); o.pack0.xy = TRANSFORM_TEX(v.texcoord, _MainTex); o.pack0.zw = TRANSFORM_TEX(v.texcoord, _BumpMap); float3 worldPos = mul(unity_ObjectToWorld, v.vertex).xyz; fixed3 worldNormal = UnityObjectToWorldNormal(v.normal); fixed3 worldTangent = UnityObjectToWorldDir(v.tangent.xyz); fixed tangentSign = v.tangent.w * unity_WorldTransformParams.w; fixed3 worldBinormal = cross(worldNormal, worldTangent) * tangentSign; o.tSpace0 = float4(worldTangent.x, worldBinormal.x, worldNormal.x, worldPos.x); o.tSpace1 = float4(worldTangent.y, worldBinormal.y, worldNormal.y, worldPos.y); o.tSpace2 = float4(worldTangent.z, worldBinormal.z, worldNormal.z, worldPos.z); #ifdef DYNAMICLIGHTMAP_ON o.lmap.zw = v.texcoord2.xy * unity_DynamicLightmapST.xy + unity_DynamicLightmapST.zw; #endif #ifdef LIGHTMAP_ON o.lmap.xy = v.texcoord1.xy * unity_LightmapST.xy + unity_LightmapST.zw; #endif // SH/ambient and vertex lights #ifndef LIGHTMAP_ON #if UNITY_SHOULD_SAMPLE_SH o.sh = 0; // Approximated illumination from non-important point lights #ifdef VERTEXLIGHT_ON o.sh += Shade4PointLights ( unity_4LightPosX0, unity_4LightPosY0, unity_4LightPosZ0, unity_LightColor[0].rgb, unity_LightColor[1].rgb, unity_LightColor[2].rgb, unity_LightColor[3].rgb, unity_4LightAtten0, worldPos, worldNormal); #endif o.sh = ShadeSHPerVertex (worldNormal, o.sh); #endif #endif // !LIGHTMAP_ON TRANSFER_SHADOW(o); // pass shadow coordinates to pixel shader UNITY_TRANSFER_FOG(o,o.pos); // pass fog coordinates to pixel shader return o; } #ifdef UNITY_CAN_COMPILE_TESSELLATION // tessellation domain shader [UNITY_domain("tri")] v2f_surf ds_surf (UnityTessellationFactors tessFactors, const OutputPatch vi, float3 bary : SV_DomainLocation) { appdata v; v.vertex = vi[0].vertex*bary.x + vi[1].vertex*bary.y + vi[2].vertex*bary.z; float3 pp[3]; for (int i = 0; i < 3; ++i) pp[i] = v.vertex.xyz - vi[i].normal * (dot(v.vertex.xyz, vi[i].normal) - dot(vi[i].vertex.xyz, vi[i].normal)); v.vertex.xyz = _Smoothness * (pp[0]*bary.x + pp[1]*bary.y + pp[2]*bary.z) + (1.0f-_Smoothness) * v.vertex.xyz; v.tangent = vi[0].tangent*bary.x + vi[1].tangent*bary.y + vi[2].tangent*bary.z; v.normal = vi[0].normal*bary.x + vi[1].normal*bary.y + vi[2].normal*bary.z; v.texcoord = vi[0].texcoord*bary.x + vi[1].texcoord*bary.y + vi[2].texcoord*bary.z; v.texcoord1 = vi[0].texcoord1*bary.x + vi[1].texcoord1*bary.y + vi[2].texcoord1*bary.z; v.texcoord2 = vi[0].texcoord2*bary.x + vi[1].texcoord2*bary.y + vi[2].texcoord2*bary.z; disp (v); v2f_surf o = vert_surf (v); return o; } #endif // UNITY_CAN_COMPILE_TESSELLATION // fragment shader fixed4 frag_surf (v2f_surf IN) : SV_Target { UNITY_SETUP_INSTANCE_ID(IN); // prepare and unpack data Input surfIN; UNITY_INITIALIZE_OUTPUT(Input,surfIN); surfIN.uv_MainTex.x = 1.0; surfIN.uv_BumpMap.x = 1.0; surfIN.uv_MainTex = IN.pack0.xy; surfIN.uv_BumpMap = IN.pack0.zw; float3 worldPos = float3(IN.tSpace0.w, IN.tSpace1.w, IN.tSpace2.w); #ifndef USING_DIRECTIONAL_LIGHT fixed3 lightDir = normalize(UnityWorldSpaceLightDir(worldPos)); #else fixed3 lightDir = _WorldSpaceLightPos0.xyz; #endif fixed3 worldViewDir = normalize(UnityWorldSpaceViewDir(worldPos)); #ifdef UNITY_COMPILER_HLSL SurfaceOutput o = (SurfaceOutput)0; #else SurfaceOutput o; #endif o.Albedo = 0.0; o.Emission = 0.0; o.Specular = 0.0; o.Alpha = 0.0; o.Gloss = 0.0; fixed3 normalWorldVertex = fixed3(0,0,1); // call surface function surf (surfIN, o); // compute lighting & shadowing factor UNITY_LIGHT_ATTENUATION(atten, IN, worldPos) fixed4 c = 0; fixed3 worldN; worldN.x = dot(IN.tSpace0.xyz, o.Normal); worldN.y = dot(IN.tSpace1.xyz, o.Normal); worldN.z = dot(IN.tSpace2.xyz, o.Normal); o.Normal = worldN; // Setup lighting environment UnityGI gi; UNITY_INITIALIZE_OUTPUT(UnityGI, gi); gi.indirect.diffuse = 0; gi.indirect.specular = 0; #if !defined(LIGHTMAP_ON) gi.light.color = _LightColor0.rgb; gi.light.dir = lightDir; #endif // Call GI (lightmaps/SH/reflections) lighting function UnityGIInput giInput; UNITY_INITIALIZE_OUTPUT(UnityGIInput, giInput); giInput.light = gi.light; giInput.worldPos = worldPos; giInput.worldViewDir = worldViewDir; giInput.atten = atten; #if defined(LIGHTMAP_ON) || defined(DYNAMICLIGHTMAP_ON) giInput.lightmapUV = IN.lmap; #else giInput.lightmapUV = 0.0; #endif #if UNITY_SHOULD_SAMPLE_SH giInput.ambient = IN.sh; #else giInput.ambient.rgb = 0.0; #endif giInput.probeHDR[0] = unity_SpecCube0_HDR; giInput.probeHDR[1] = unity_SpecCube1_HDR; #if UNITY_SPECCUBE_BLENDING || UNITY_SPECCUBE_BOX_PROJECTION giInput.boxMin[0] = unity_SpecCube0_BoxMin; // .w holds lerp value for blending #endif #if UNITY_SPECCUBE_BOX_PROJECTION giInput.boxMax[0] = unity_SpecCube0_BoxMax; giInput.probePosition[0] = unity_SpecCube0_ProbePosition; giInput.boxMax[1] = unity_SpecCube1_BoxMax; giInput.boxMin[1] = unity_SpecCube1_BoxMin; giInput.probePosition[1] = unity_SpecCube1_ProbePosition; #endif LightingBlinnPhong_GI(o, giInput, gi); // realtime lighting: call lighting function c += LightingBlinnPhong (o, worldViewDir, gi); UNITY_APPLY_FOG(IN.fogCoord, c); // apply fog UNITY_OPAQUE_ALPHA(c.a); return c; } :Assets/Standard Assets/Effects/TessellationShaders/ShadersÚÝôŸÝá*ˇ.eÄp__ FOG_LINEARFOG_EXPFOG_EXP2__ FOG_LINEARFOG_EXPFOG_EXP2__ FOG_LINEARFOG_EXPFOG_EXP2__ FOG_LINEARFOG_EXPFOG_EXP2 DIRECTIONAL DIRECTIONALDYNAMICLIGHTMAP_ON DIRECTIONAL LIGHTMAP_ON DIRECTIONAL LIGHTMAP_ONDYNAMICLIGHTMAP_ON DIRECTIONALDIRLIGHTMAP_COMBINEDDYNAMICLIGHTMAP_ON DIRECTIONAL LIGHTMAP_ONDIRLIGHTMAP_COMBINED DIRECTIONAL LIGHTMAP_ONDIRLIGHTMAP_COMBINEDDYNAMICLIGHTMAP_ON DIRECTIONALDIRLIGHTMAP_SEPARATEDYNAMICLIGHTMAP_ON DIRECTIONAL LIGHTMAP_ONDIRLIGHTMAP_SEPARATE DIRECTIONAL LIGHTMAP_ONDIRLIGHTMAP_SEPARATEDYNAMICLIGHTMAP_ON DIRECTIONALSHADOWS_SCREEN DIRECTIONALDYNAMICLIGHTMAP_ONSHADOWS_SCREEN DIRECTIONAL LIGHTMAP_ONSHADOWS_SCREEN DIRECTIONAL LIGHTMAP_ONDYNAMICLIGHTMAP_ONSHADOWS_SCREEN DIRECTIONALDIRLIGHTMAP_COMBINEDDYNAMICLIGHTMAP_ONSHADOWS_SCREEN DIRECTIONAL LIGHTMAP_ONDIRLIGHTMAP_COMBINEDSHADOWS_SCREEN DIRECTIONAL LIGHTMAP_ONDIRLIGHTMAP_COMBINEDDYNAMICLIGHTMAP_ONSHADOWS_SCREEN DIRECTIONALDIRLIGHTMAP_SEPARATEDYNAMICLIGHTMAP_ONSHADOWS_SCREEN DIRECTIONAL LIGHTMAP_ONDIRLIGHTMAP_SEPARATESHADOWS_SCREEN DIRECTIONAL LIGHTMAP_ONDIRLIGHTMAP_SEPARATEDYNAMICLIGHTMAP_ONSHADOWS_SCREEN DIRECTIONALVERTEXLIGHT_ON DIRECTIONALDYNAMICLIGHTMAP_ONVERTEXLIGHT_ON DIRECTIONALDIRLIGHTMAP_COMBINEDDYNAMICLIGHTMAP_ONVERTEXLIGHT_ON DIRECTIONALDIRLIGHTMAP_SEPARATEDYNAMICLIGHTMAP_ONVERTEXLIGHT_ON DIRECTIONALSHADOWS_SCREENVERTEXLIGHT_ON DIRECTIONALDYNAMICLIGHTMAP_ONSHADOWS_SCREENVERTEXLIGHT_ON DIRECTIONALDIRLIGHTMAP_COMBINEDDYNAMICLIGHTMAP_ONSHADOWS_SCREENVERTEXLIGHT_ON DIRECTIONALDIRLIGHTMAP_SEPARATEDYNAMICLIGHTMAP_ONSHADOWS_SCREENVERTEXLIGHT_ON DIRECTIONAL DIRECTIONALDYNAMICLIGHTMAP_ON DIRECTIONAL LIGHTMAP_ON DIRECTIONAL LIGHTMAP_ONDYNAMICLIGHTMAP_ON DIRECTIONALDIRLIGHTMAP_COMBINEDDYNAMICLIGHTMAP_ON DIRECTIONAL LIGHTMAP_ONDIRLIGHTMAP_COMBINED DIRECTIONAL LIGHTMAP_ONDIRLIGHTMAP_COMBINEDDYNAMICLIGHTMAP_ON DIRECTIONALDIRLIGHTMAP_SEPARATEDYNAMICLIGHTMAP_ON DIRECTIONAL LIGHTMAP_ONDIRLIGHTMAP_SEPARATE DIRECTIONAL LIGHTMAP_ONDIRLIGHTMAP_SEPARATEDYNAMICLIGHTMAP_ON DIRECTIONALSHADOWS_SCREEN DIRECTIONALDYNAMICLIGHTMAP_ONSHADOWS_SCREEN DIRECTIONAL LIGHTMAP_ONSHADOWS_SCREEN DIRECTIONAL LIGHTMAP_ONDYNAMICLIGHTMAP_ONSHADOWS_SCREEN DIRECTIONALDIRLIGHTMAP_COMBINEDDYNAMICLIGHTMAP_ONSHADOWS_SCREEN DIRECTIONAL LIGHTMAP_ONDIRLIGHTMAP_COMBINEDSHADOWS_SCREEN DIRECTIONAL LIGHTMAP_ONDIRLIGHTMAP_COMBINEDDYNAMICLIGHTMAP_ONSHADOWS_SCREEN DIRECTIONALDIRLIGHTMAP_SEPARATEDYNAMICLIGHTMAP_ONSHADOWS_SCREEN DIRECTIONAL LIGHTMAP_ONDIRLIGHTMAP_SEPARATESHADOWS_SCREEN DIRECTIONAL LIGHTMAP_ONDIRLIGHTMAP_SEPARATEDYNAMICLIGHTMAP_ONSHADOWS_SCREEN DIRECTIONAL DIRECTIONALDYNAMICLIGHTMAP_ON DIRECTIONAL LIGHTMAP_ON DIRECTIONAL LIGHTMAP_ONDYNAMICLIGHTMAP_ON DIRECTIONALDIRLIGHTMAP_COMBINEDDYNAMICLIGHTMAP_ON DIRECTIONAL LIGHTMAP_ONDIRLIGHTMAP_COMBINED DIRECTIONAL LIGHTMAP_ONDIRLIGHTMAP_COMBINEDDYNAMICLIGHTMAP_ON DIRECTIONALDIRLIGHTMAP_SEPARATEDYNAMICLIGHTMAP_ON DIRECTIONAL LIGHTMAP_ONDIRLIGHTMAP_SEPARATE DIRECTIONAL LIGHTMAP_ONDIRLIGHTMAP_SEPARATEDYNAMICLIGHTMAP_ON DIRECTIONALSHADOWS_SCREEN DIRECTIONALDYNAMICLIGHTMAP_ONSHADOWS_SCREEN DIRECTIONAL LIGHTMAP_ONSHADOWS_SCREEN DIRECTIONAL LIGHTMAP_ONDYNAMICLIGHTMAP_ONSHADOWS_SCREEN DIRECTIONALDIRLIGHTMAP_COMBINEDDYNAMICLIGHTMAP_ONSHADOWS_SCREEN DIRECTIONAL LIGHTMAP_ONDIRLIGHTMAP_COMBINEDSHADOWS_SCREEN DIRECTIONAL LIGHTMAP_ONDIRLIGHTMAP_COMBINEDDYNAMICLIGHTMAP_ONSHADOWS_SCREEN DIRECTIONALDIRLIGHTMAP_SEPARATEDYNAMICLIGHTMAP_ONSHADOWS_SCREEN DIRECTIONAL LIGHTMAP_ONDIRLIGHTMAP_SEPARATESHADOWS_SCREEN DIRECTIONAL LIGHTMAP_ONDIRLIGHTMAP_SEPARATEDYNAMICLIGHTMAP_ONSHADOWS_SCREEN DIRECTIONAL DIRECTIONALDYNAMICLIGHTMAP_ON DIRECTIONAL LIGHTMAP_ON DIRECTIONAL LIGHTMAP_ONDYNAMICLIGHTMAP_ON DIRECTIONALDIRLIGHTMAP_COMBINEDDYNAMICLIGHTMAP_ON DIRECTIONAL LIGHTMAP_ONDIRLIGHTMAP_COMBINED DIRECTIONAL LIGHTMAP_ONDIRLIGHTMAP_COMBINEDDYNAMICLIGHTMAP_ON DIRECTIONALDIRLIGHTMAP_SEPARATEDYNAMICLIGHTMAP_ON DIRECTIONAL LIGHTMAP_ONDIRLIGHTMAP_SEPARATE DIRECTIONAL LIGHTMAP_ONDIRLIGHTMAP_SEPARATEDYNAMICLIGHTMAP_ON DIRECTIONALSHADOWS_SCREEN DIRECTIONALDYNAMICLIGHTMAP_ONSHADOWS_SCREEN DIRECTIONAL LIGHTMAP_ONSHADOWS_SCREEN DIRECTIONAL LIGHTMAP_ONDYNAMICLIGHTMAP_ONSHADOWS_SCREEN DIRECTIONALDIRLIGHTMAP_COMBINEDDYNAMICLIGHTMAP_ONSHADOWS_SCREEN DIRECTIONAL LIGHTMAP_ONDIRLIGHTMAP_COMBINEDSHADOWS_SCREEN DIRECTIONAL LIGHTMAP_ONDIRLIGHTMAP_COMBINEDDYNAMICLIGHTMAP_ONSHADOWS_SCREEN DIRECTIONALDIRLIGHTMAP_SEPARATEDYNAMICLIGHTMAP_ONSHADOWS_SCREEN DIRECTIONAL LIGHTMAP_ONDIRLIGHTMAP_SEPARATESHADOWS_SCREEN DIRECTIONAL LIGHTMAP_ONDIRLIGHTMAP_SEPARATEDYNAMICLIGHTMAP_ONSHADOWS_SCREEN SHADOWS_SOFTDIRLIGHTMAP_COMBINEDDIRLIGHTMAP_SEPARATEDYNAMICLIGHTMAP_ON INSTANCING_ONFOG_EXP FOG_EXP2 FOG_LINEARrDIRECTIONAL DIRLIGHTMAP_COMBINED DIRLIGHTMAP_SEPARATE DYNAMICLIGHTMAP_ON LIGHTMAP_ON SHADOWS_SCREEN VERTEXLIGHT_ON‘U#line 84 "" #ifdef DUMMY_PREPROCESSOR_TO_WORK_AROUND_HLSL_COMPILER_LINE_HANDLING #endif #include "HLSLSupport.cginc" #include "UnityShaderVariables.cginc" #line 84 "" #ifdef DUMMY_PREPROCESSOR_TO_WORK_AROUND_HLSL_COMPILER_LINE_HANDLING #endif /* UNITY: Original start of shader */ #pragma vertex vert #pragma fragment frag #pragma target 2.0 #pragma multi_compile_shadowcaster #include "UnityCG.cginc" struct v2f { V2F_SHADOW_CASTER; }; v2f vert( appdata_base v ) { v2f o; TRANSFER_SHADOW_CASTER_NORMALOFFSET(o) return o; } float4 frag( v2f i ) : SV_Target { SHADOW_CASTER_FRAGMENT(i) } Assets/DefaultResourcesExtra˙˙˙˙V=(´žçˇ‘Šd{´ěy SHADOWS_DEPTH SHADOWS_CUBE SHADOWS_DEPTH SHADOWS_CUBE SHADOWS_SOFTDIRLIGHTMAP_COMBINEDDIRLIGHTMAP_SEPARATEDYNAMICLIGHTMAP_ON INSTANCING_ONSHADOWS_CUBE SHADOWS_DEPTHŮ×#line 43 "" #ifdef DUMMY_PREPROCESSOR_TO_WORK_AROUND_HLSL_COMPILER_LINE_HANDLING #endif // compile directives #pragma vertex vert_surf #pragma fragment frag_surf #pragma target 3.0 #pragma multi_compile_fog #pragma multi_compile_fwdbase #include "HLSLSupport.cginc" #include "UnityShaderVariables.cginc" // Surface shader code generated based on: // writes to per-pixel normal: YES // writes to emission: no // writes to occlusion: no // needs world space reflection vector: no // needs world space normal vector: no // needs screen space position: no // needs world space position: no // needs view direction: no // needs world space view direction: no // needs world space position for lighting: YES // needs world space view direction for lighting: YES // needs world space view direction for lightmaps: no // needs vertex color: no // needs VFACE: no // passes tangent-to-world matrix to pixel shader: YES // reads from normal: no // 2 texcoords actually used // float2 _MainTex // float2 _BumpMap #define UNITY_PASS_FORWARDBASE #include "UnityCG.cginc" #include "Lighting.cginc" #include "AutoLight.cginc" #define INTERNAL_DATA half3 internalSurfaceTtoW0; half3 internalSurfaceTtoW1; half3 internalSurfaceTtoW2; #define WorldReflectionVector(data,normal) reflect (data.worldRefl, half3(dot(data.internalSurfaceTtoW0,normal), dot(data.internalSurfaceTtoW1,normal), dot(data.internalSurfaceTtoW2,normal))) #define WorldNormalVector(data,normal) fixed3(dot(data.internalSurfaceTtoW0,normal), dot(data.internalSurfaceTtoW1,normal), dot(data.internalSurfaceTtoW2,normal)) // Original surface shader snippet: #line 11 sampler2D _MainTex; sampler2D _BumpMap; fixed4 _Color; half _Shininess; struct Input { float2 uv_MainTex; float2 uv_BumpMap; }; void surf (Input IN, inout SurfaceOutput o) { fixed4 tex = tex2D(_MainTex, IN.uv_MainTex); o.Albedo = tex.rgb * _Color.rgb; o.Gloss = tex.a; o.Alpha = tex.a * _Color.a; o.Specular = _Shininess; o.Normal = UnpackNormal(tex2D(_BumpMap, IN.uv_BumpMap)); } #line 33 "" #ifdef DUMMY_PREPROCESSOR_TO_WORK_AROUND_HLSL_COMPILER_LINE_HANDLING #endif /* UNITY: Original start of shader */ //#pragma surface surf BlinnPhong //#pragma target 3.0 // vertex-to-fragment interpolation data // no lightmaps: #ifndef LIGHTMAP_ON struct v2f_surf { float4 pos : SV_POSITION; float4 pack0 : TEXCOORD0; // _MainTex _BumpMap float4 tSpace0 : TEXCOORD1; float4 tSpace1 : TEXCOORD2; float4 tSpace2 : TEXCOORD3; #if UNITY_SHOULD_SAMPLE_SH half3 sh : TEXCOORD4; // SH #endif SHADOW_COORDS(5) UNITY_FOG_COORDS(6) #if SHADER_TARGET >= 30 float4 lmap : TEXCOORD7; #endif UNITY_VERTEX_INPUT_INSTANCE_ID UNITY_VERTEX_OUTPUT_STEREO }; #endif // with lightmaps: #ifdef LIGHTMAP_ON struct v2f_surf { float4 pos : SV_POSITION; float4 pack0 : TEXCOORD0; // _MainTex _BumpMap float4 tSpace0 : TEXCOORD1; float4 tSpace1 : TEXCOORD2; float4 tSpace2 : TEXCOORD3; float4 lmap : TEXCOORD4; SHADOW_COORDS(5) UNITY_FOG_COORDS(6) UNITY_VERTEX_INPUT_INSTANCE_ID UNITY_VERTEX_OUTPUT_STEREO }; #endif float4 _MainTex_ST; float4 _BumpMap_ST; // vertex shader v2f_surf vert_surf (appdata_full v) { UNITY_SETUP_INSTANCE_ID(v); v2f_surf o; UNITY_INITIALIZE_OUTPUT(v2f_surf,o); UNITY_TRANSFER_INSTANCE_ID(v,o); UNITY_INITIALIZE_VERTEX_OUTPUT_STEREO(o); o.pos = UnityObjectToClipPos(v.vertex); o.pack0.xy = TRANSFORM_TEX(v.texcoord, _MainTex); o.pack0.zw = TRANSFORM_TEX(v.texcoord, _BumpMap); float3 worldPos = mul(unity_ObjectToWorld, v.vertex).xyz; fixed3 worldNormal = UnityObjectToWorldNormal(v.normal); fixed3 worldTangent = UnityObjectToWorldDir(v.tangent.xyz); fixed tangentSign = v.tangent.w * unity_WorldTransformParams.w; fixed3 worldBinormal = cross(worldNormal, worldTangent) * tangentSign; o.tSpace0 = float4(worldTangent.x, worldBinormal.x, worldNormal.x, worldPos.x); o.tSpace1 = float4(worldTangent.y, worldBinormal.y, worldNormal.y, worldPos.y); o.tSpace2 = float4(worldTangent.z, worldBinormal.z, worldNormal.z, worldPos.z); #ifdef DYNAMICLIGHTMAP_ON o.lmap.zw = v.texcoord2.xy * unity_DynamicLightmapST.xy + unity_DynamicLightmapST.zw; #endif #ifdef LIGHTMAP_ON o.lmap.xy = v.texcoord1.xy * unity_LightmapST.xy + unity_LightmapST.zw; #endif // SH/ambient and vertex lights #ifndef LIGHTMAP_ON #if UNITY_SHOULD_SAMPLE_SH o.sh = 0; // Approximated illumination from non-important point lights #ifdef VERTEXLIGHT_ON o.sh += Shade4PointLights ( unity_4LightPosX0, unity_4LightPosY0, unity_4LightPosZ0, unity_LightColor[0].rgb, unity_LightColor[1].rgb, unity_LightColor[2].rgb, unity_LightColor[3].rgb, unity_4LightAtten0, worldPos, worldNormal); #endif o.sh = ShadeSHPerVertex (worldNormal, o.sh); #endif #endif // !LIGHTMAP_ON TRANSFER_SHADOW(o); // pass shadow coordinates to pixel shader UNITY_TRANSFER_FOG(o,o.pos); // pass fog coordinates to pixel shader return o; } // fragment shader fixed4 frag_surf (v2f_surf IN) : SV_Target { UNITY_SETUP_INSTANCE_ID(IN); // prepare and unpack data Input surfIN; UNITY_INITIALIZE_OUTPUT(Input,surfIN); surfIN.uv_MainTex.x = 1.0; surfIN.uv_BumpMap.x = 1.0; surfIN.uv_MainTex = IN.pack0.xy; surfIN.uv_BumpMap = IN.pack0.zw; float3 worldPos = float3(IN.tSpace0.w, IN.tSpace1.w, IN.tSpace2.w); #ifndef USING_DIRECTIONAL_LIGHT fixed3 lightDir = normalize(UnityWorldSpaceLightDir(worldPos)); #else fixed3 lightDir = _WorldSpaceLightPos0.xyz; #endif fixed3 worldViewDir = normalize(UnityWorldSpaceViewDir(worldPos)); #ifdef UNITY_COMPILER_HLSL SurfaceOutput o = (SurfaceOutput)0; #else SurfaceOutput o; #endif o.Albedo = 0.0; o.Emission = 0.0; o.Specular = 0.0; o.Alpha = 0.0; o.Gloss = 0.0; fixed3 normalWorldVertex = fixed3(0,0,1); // call surface function surf (surfIN, o); // compute lighting & shadowing factor UNITY_LIGHT_ATTENUATION(atten, IN, worldPos) fixed4 c = 0; fixed3 worldN; worldN.x = dot(IN.tSpace0.xyz, o.Normal); worldN.y = dot(IN.tSpace1.xyz, o.Normal); worldN.z = dot(IN.tSpace2.xyz, o.Normal); o.Normal = worldN; // Setup lighting environment UnityGI gi; UNITY_INITIALIZE_OUTPUT(UnityGI, gi); gi.indirect.diffuse = 0; gi.indirect.specular = 0; #if !defined(LIGHTMAP_ON) gi.light.color = _LightColor0.rgb; gi.light.dir = lightDir; #endif // Call GI (lightmaps/SH/reflections) lighting function UnityGIInput giInput; UNITY_INITIALIZE_OUTPUT(UnityGIInput, giInput); giInput.light = gi.light; giInput.worldPos = worldPos; giInput.worldViewDir = worldViewDir; giInput.atten = atten; #if defined(LIGHTMAP_ON) || defined(DYNAMICLIGHTMAP_ON) giInput.lightmapUV = IN.lmap; #else giInput.lightmapUV = 0.0; #endif #if UNITY_SHOULD_SAMPLE_SH giInput.ambient = IN.sh; #else giInput.ambient.rgb = 0.0; #endif giInput.probeHDR[0] = unity_SpecCube0_HDR; giInput.probeHDR[1] = unity_SpecCube1_HDR; #if UNITY_SPECCUBE_BLENDING || UNITY_SPECCUBE_BOX_PROJECTION giInput.boxMin[0] = unity_SpecCube0_BoxMin; // .w holds lerp value for blending #endif #if UNITY_SPECCUBE_BOX_PROJECTION giInput.boxMax[0] = unity_SpecCube0_BoxMax; giInput.probePosition[0] = unity_SpecCube0_ProbePosition; giInput.boxMax[1] = unity_SpecCube1_BoxMax; giInput.boxMin[1] = unity_SpecCube1_BoxMin; giInput.probePosition[1] = unity_SpecCube1_ProbePosition; #endif LightingBlinnPhong_GI(o, giInput, gi); // realtime lighting: call lighting function c += LightingBlinnPhong (o, worldViewDir, gi); UNITY_APPLY_FOG(IN.fogCoord, c); // apply fog UNITY_OPAQUE_ALPHA(c.a); return c; } Assets/DefaultResourcesExtra˙˙˙˙-qˆ ­|!bÔż•­NËüĘ__ FOG_LINEARFOG_EXPFOG_EXP2__ FOG_LINEARFOG_EXPFOG_EXP2 DIRECTIONAL DIRECTIONALDYNAMICLIGHTMAP_ON DIRECTIONAL LIGHTMAP_ON DIRECTIONAL LIGHTMAP_ONDYNAMICLIGHTMAP_ON DIRECTIONALDIRLIGHTMAP_COMBINEDDYNAMICLIGHTMAP_ON DIRECTIONAL LIGHTMAP_ONDIRLIGHTMAP_COMBINED DIRECTIONAL LIGHTMAP_ONDIRLIGHTMAP_COMBINEDDYNAMICLIGHTMAP_ON DIRECTIONALDIRLIGHTMAP_SEPARATEDYNAMICLIGHTMAP_ON DIRECTIONAL LIGHTMAP_ONDIRLIGHTMAP_SEPARATE DIRECTIONAL LIGHTMAP_ONDIRLIGHTMAP_SEPARATEDYNAMICLIGHTMAP_ON DIRECTIONALSHADOWS_SCREEN DIRECTIONALDYNAMICLIGHTMAP_ONSHADOWS_SCREEN DIRECTIONAL LIGHTMAP_ONSHADOWS_SCREEN DIRECTIONAL LIGHTMAP_ONDYNAMICLIGHTMAP_ONSHADOWS_SCREEN DIRECTIONALDIRLIGHTMAP_COMBINEDDYNAMICLIGHTMAP_ONSHADOWS_SCREEN DIRECTIONAL LIGHTMAP_ONDIRLIGHTMAP_COMBINEDSHADOWS_SCREEN DIRECTIONAL LIGHTMAP_ONDIRLIGHTMAP_COMBINEDDYNAMICLIGHTMAP_ONSHADOWS_SCREEN DIRECTIONALDIRLIGHTMAP_SEPARATEDYNAMICLIGHTMAP_ONSHADOWS_SCREEN DIRECTIONAL LIGHTMAP_ONDIRLIGHTMAP_SEPARATESHADOWS_SCREEN DIRECTIONAL LIGHTMAP_ONDIRLIGHTMAP_SEPARATEDYNAMICLIGHTMAP_ONSHADOWS_SCREEN DIRECTIONALVERTEXLIGHT_ON DIRECTIONALDYNAMICLIGHTMAP_ONVERTEXLIGHT_ON DIRECTIONALDIRLIGHTMAP_COMBINEDDYNAMICLIGHTMAP_ONVERTEXLIGHT_ON DIRECTIONALDIRLIGHTMAP_SEPARATEDYNAMICLIGHTMAP_ONVERTEXLIGHT_ON DIRECTIONALSHADOWS_SCREENVERTEXLIGHT_ON DIRECTIONALDYNAMICLIGHTMAP_ONSHADOWS_SCREENVERTEXLIGHT_ON DIRECTIONALDIRLIGHTMAP_COMBINEDDYNAMICLIGHTMAP_ONSHADOWS_SCREENVERTEXLIGHT_ON DIRECTIONALDIRLIGHTMAP_SEPARATEDYNAMICLIGHTMAP_ONSHADOWS_SCREENVERTEXLIGHT_ON DIRECTIONAL DIRECTIONALDYNAMICLIGHTMAP_ON DIRECTIONAL LIGHTMAP_ON DIRECTIONAL LIGHTMAP_ONDYNAMICLIGHTMAP_ON DIRECTIONALDIRLIGHTMAP_COMBINEDDYNAMICLIGHTMAP_ON DIRECTIONAL LIGHTMAP_ONDIRLIGHTMAP_COMBINED DIRECTIONAL LIGHTMAP_ONDIRLIGHTMAP_COMBINEDDYNAMICLIGHTMAP_ON DIRECTIONALDIRLIGHTMAP_SEPARATEDYNAMICLIGHTMAP_ON DIRECTIONAL LIGHTMAP_ONDIRLIGHTMAP_SEPARATE DIRECTIONAL LIGHTMAP_ONDIRLIGHTMAP_SEPARATEDYNAMICLIGHTMAP_ON DIRECTIONALSHADOWS_SCREEN DIRECTIONALDYNAMICLIGHTMAP_ONSHADOWS_SCREEN DIRECTIONAL LIGHTMAP_ONSHADOWS_SCREEN DIRECTIONAL LIGHTMAP_ONDYNAMICLIGHTMAP_ONSHADOWS_SCREEN DIRECTIONALDIRLIGHTMAP_COMBINEDDYNAMICLIGHTMAP_ONSHADOWS_SCREEN DIRECTIONAL LIGHTMAP_ONDIRLIGHTMAP_COMBINEDSHADOWS_SCREEN DIRECTIONAL LIGHTMAP_ONDIRLIGHTMAP_COMBINEDDYNAMICLIGHTMAP_ONSHADOWS_SCREEN DIRECTIONALDIRLIGHTMAP_SEPARATEDYNAMICLIGHTMAP_ONSHADOWS_SCREEN DIRECTIONAL LIGHTMAP_ONDIRLIGHTMAP_SEPARATESHADOWS_SCREEN DIRECTIONAL LIGHTMAP_ONDIRLIGHTMAP_SEPARATEDYNAMICLIGHTMAP_ONSHADOWS_SCREEN SHADOWS_SOFTDIRLIGHTMAP_COMBINEDDIRLIGHTMAP_SEPARATEDYNAMICLIGHTMAP_ON INSTANCING_ONFOG_EXP FOG_EXP2 FOG_LINEARrDIRECTIONAL DIRLIGHTMAP_COMBINED DIRLIGHTMAP_SEPARATE DYNAMICLIGHTMAP_ON LIGHTMAP_ON SHADOWS_SCREEN VERTEXLIGHT_ONŘë#line 21 "" #ifdef DUMMY_PREPROCESSOR_TO_WORK_AROUND_HLSL_COMPILER_LINE_HANDLING #endif // compile directives #pragma vertex vert_surf #pragma fragment frag_surf #pragma multi_compile_fog #pragma multi_compile_fwdbase #include "HLSLSupport.cginc" #include "UnityShaderVariables.cginc" // Surface shader code generated based on: // writes to per-pixel normal: no // writes to emission: no // writes to occlusion: no // needs world space reflection vector: no // needs world space normal vector: no // needs screen space position: no // needs world space position: no // needs view direction: no // needs world space view direction: no // needs world space position for lighting: YES // needs world space view direction for lighting: YES // needs world space view direction for lightmaps: no // needs vertex color: no // needs VFACE: no // passes tangent-to-world matrix to pixel shader: no // reads from normal: no // 1 texcoords actually used // float2 _MainTex #define UNITY_PASS_FORWARDBASE #include "UnityCG.cginc" #include "Lighting.cginc" #include "AutoLight.cginc" #define INTERNAL_DATA #define WorldReflectionVector(data,normal) data.worldRefl #define WorldNormalVector(data,normal) normal // Original surface shader snippet: #line 11 "" #ifdef DUMMY_PREPROCESSOR_TO_WORK_AROUND_HLSL_COMPILER_LINE_HANDLING #endif /* UNITY: Original start of shader */ //#pragma surface surf BlinnPhong sampler2D _MainTex; fixed4 _Color; half _Shininess; struct Input { float2 uv_MainTex; }; void surf (Input IN, inout SurfaceOutput o) { fixed4 tex = tex2D(_MainTex, IN.uv_MainTex); o.Albedo = tex.rgb * _Color.rgb; o.Gloss = tex.a; o.Alpha = tex.a * _Color.a; o.Specular = _Shininess; } // vertex-to-fragment interpolation data // no lightmaps: #ifndef LIGHTMAP_ON struct v2f_surf { float4 pos : SV_POSITION; float2 pack0 : TEXCOORD0; // _MainTex half3 worldNormal : TEXCOORD1; float3 worldPos : TEXCOORD2; #if UNITY_SHOULD_SAMPLE_SH half3 sh : TEXCOORD3; // SH #endif SHADOW_COORDS(4) UNITY_FOG_COORDS(5) #if SHADER_TARGET >= 30 float4 lmap : TEXCOORD6; #endif UNITY_VERTEX_INPUT_INSTANCE_ID UNITY_VERTEX_OUTPUT_STEREO }; #endif // with lightmaps: #ifdef LIGHTMAP_ON struct v2f_surf { float4 pos : SV_POSITION; float2 pack0 : TEXCOORD0; // _MainTex half3 worldNormal : TEXCOORD1; float3 worldPos : TEXCOORD2; float4 lmap : TEXCOORD3; SHADOW_COORDS(4) UNITY_FOG_COORDS(5) #ifdef DIRLIGHTMAP_COMBINED fixed3 tSpace0 : TEXCOORD6; fixed3 tSpace1 : TEXCOORD7; fixed3 tSpace2 : TEXCOORD8; #endif UNITY_VERTEX_INPUT_INSTANCE_ID UNITY_VERTEX_OUTPUT_STEREO }; #endif float4 _MainTex_ST; // vertex shader v2f_surf vert_surf (appdata_full v) { UNITY_SETUP_INSTANCE_ID(v); v2f_surf o; UNITY_INITIALIZE_OUTPUT(v2f_surf,o); UNITY_TRANSFER_INSTANCE_ID(v,o); UNITY_INITIALIZE_VERTEX_OUTPUT_STEREO(o); o.pos = UnityObjectToClipPos(v.vertex); o.pack0.xy = TRANSFORM_TEX(v.texcoord, _MainTex); float3 worldPos = mul(unity_ObjectToWorld, v.vertex).xyz; fixed3 worldNormal = UnityObjectToWorldNormal(v.normal); #if defined(LIGHTMAP_ON) && defined(DIRLIGHTMAP_COMBINED) fixed3 worldTangent = UnityObjectToWorldDir(v.tangent.xyz); fixed tangentSign = v.tangent.w * unity_WorldTransformParams.w; fixed3 worldBinormal = cross(worldNormal, worldTangent) * tangentSign; #endif #if defined(LIGHTMAP_ON) && defined(DIRLIGHTMAP_COMBINED) o.tSpace0 = float4(worldTangent.x, worldBinormal.x, worldNormal.x, worldPos.x); o.tSpace1 = float4(worldTangent.y, worldBinormal.y, worldNormal.y, worldPos.y); o.tSpace2 = float4(worldTangent.z, worldBinormal.z, worldNormal.z, worldPos.z); #endif o.worldPos = worldPos; o.worldNormal = worldNormal; #ifdef DYNAMICLIGHTMAP_ON o.lmap.zw = v.texcoord2.xy * unity_DynamicLightmapST.xy + unity_DynamicLightmapST.zw; #endif #ifdef LIGHTMAP_ON o.lmap.xy = v.texcoord1.xy * unity_LightmapST.xy + unity_LightmapST.zw; #endif // SH/ambient and vertex lights #ifndef LIGHTMAP_ON #if UNITY_SHOULD_SAMPLE_SH o.sh = 0; // Approximated illumination from non-important point lights #ifdef VERTEXLIGHT_ON o.sh += Shade4PointLights ( unity_4LightPosX0, unity_4LightPosY0, unity_4LightPosZ0, unity_LightColor[0].rgb, unity_LightColor[1].rgb, unity_LightColor[2].rgb, unity_LightColor[3].rgb, unity_4LightAtten0, worldPos, worldNormal); #endif o.sh = ShadeSHPerVertex (worldNormal, o.sh); #endif #endif // !LIGHTMAP_ON TRANSFER_SHADOW(o); // pass shadow coordinates to pixel shader UNITY_TRANSFER_FOG(o,o.pos); // pass fog coordinates to pixel shader return o; } // fragment shader fixed4 frag_surf (v2f_surf IN) : SV_Target { UNITY_SETUP_INSTANCE_ID(IN); // prepare and unpack data Input surfIN; UNITY_INITIALIZE_OUTPUT(Input,surfIN); surfIN.uv_MainTex.x = 1.0; surfIN.uv_MainTex = IN.pack0.xy; float3 worldPos = IN.worldPos; #ifndef USING_DIRECTIONAL_LIGHT fixed3 lightDir = normalize(UnityWorldSpaceLightDir(worldPos)); #else fixed3 lightDir = _WorldSpaceLightPos0.xyz; #endif fixed3 worldViewDir = normalize(UnityWorldSpaceViewDir(worldPos)); #ifdef UNITY_COMPILER_HLSL SurfaceOutput o = (SurfaceOutput)0; #else SurfaceOutput o; #endif o.Albedo = 0.0; o.Emission = 0.0; o.Specular = 0.0; o.Alpha = 0.0; o.Gloss = 0.0; fixed3 normalWorldVertex = fixed3(0,0,1); o.Normal = IN.worldNormal; normalWorldVertex = IN.worldNormal; // call surface function surf (surfIN, o); // compute lighting & shadowing factor UNITY_LIGHT_ATTENUATION(atten, IN, worldPos) fixed4 c = 0; // Setup lighting environment UnityGI gi; UNITY_INITIALIZE_OUTPUT(UnityGI, gi); gi.indirect.diffuse = 0; gi.indirect.specular = 0; #if !defined(LIGHTMAP_ON) gi.light.color = _LightColor0.rgb; gi.light.dir = lightDir; #endif // Call GI (lightmaps/SH/reflections) lighting function UnityGIInput giInput; UNITY_INITIALIZE_OUTPUT(UnityGIInput, giInput); giInput.light = gi.light; giInput.worldPos = worldPos; giInput.worldViewDir = worldViewDir; giInput.atten = atten; #if defined(LIGHTMAP_ON) || defined(DYNAMICLIGHTMAP_ON) giInput.lightmapUV = IN.lmap; #else giInput.lightmapUV = 0.0; #endif #if UNITY_SHOULD_SAMPLE_SH giInput.ambient = IN.sh; #else giInput.ambient.rgb = 0.0; #endif giInput.probeHDR[0] = unity_SpecCube0_HDR; giInput.probeHDR[1] = unity_SpecCube1_HDR; #if UNITY_SPECCUBE_BLENDING || UNITY_SPECCUBE_BOX_PROJECTION giInput.boxMin[0] = unity_SpecCube0_BoxMin; // .w holds lerp value for blending #endif #if UNITY_SPECCUBE_BOX_PROJECTION giInput.boxMax[0] = unity_SpecCube0_BoxMax; giInput.probePosition[0] = unity_SpecCube0_ProbePosition; giInput.boxMax[1] = unity_SpecCube1_BoxMax; giInput.boxMin[1] = unity_SpecCube1_BoxMin; giInput.probePosition[1] = unity_SpecCube1_ProbePosition; #endif LightingBlinnPhong_GI(o, giInput, gi); // realtime lighting: call lighting function c += LightingBlinnPhong (o, worldViewDir, gi); UNITY_APPLY_FOG(IN.fogCoord, c); // apply fog UNITY_OPAQUE_ALPHA(c.a); return c; } Assets/DefaultResourcesExtra˙˙˙˙qˆ ­|!bÔż•­NËüĘ__ FOG_LINEARFOG_EXPFOG_EXP2__ FOG_LINEARFOG_EXPFOG_EXP2 DIRECTIONAL DIRECTIONALDYNAMICLIGHTMAP_ON DIRECTIONAL LIGHTMAP_ON DIRECTIONAL LIGHTMAP_ONDYNAMICLIGHTMAP_ON DIRECTIONALDIRLIGHTMAP_COMBINEDDYNAMICLIGHTMAP_ON DIRECTIONAL LIGHTMAP_ONDIRLIGHTMAP_COMBINED DIRECTIONAL LIGHTMAP_ONDIRLIGHTMAP_COMBINEDDYNAMICLIGHTMAP_ON DIRECTIONALDIRLIGHTMAP_SEPARATEDYNAMICLIGHTMAP_ON DIRECTIONAL LIGHTMAP_ONDIRLIGHTMAP_SEPARATE DIRECTIONAL LIGHTMAP_ONDIRLIGHTMAP_SEPARATEDYNAMICLIGHTMAP_ON DIRECTIONALSHADOWS_SCREEN DIRECTIONALDYNAMICLIGHTMAP_ONSHADOWS_SCREEN DIRECTIONAL LIGHTMAP_ONSHADOWS_SCREEN DIRECTIONAL LIGHTMAP_ONDYNAMICLIGHTMAP_ONSHADOWS_SCREEN DIRECTIONALDIRLIGHTMAP_COMBINEDDYNAMICLIGHTMAP_ONSHADOWS_SCREEN DIRECTIONAL LIGHTMAP_ONDIRLIGHTMAP_COMBINEDSHADOWS_SCREEN DIRECTIONAL LIGHTMAP_ONDIRLIGHTMAP_COMBINEDDYNAMICLIGHTMAP_ONSHADOWS_SCREEN DIRECTIONALDIRLIGHTMAP_SEPARATEDYNAMICLIGHTMAP_ONSHADOWS_SCREEN DIRECTIONAL LIGHTMAP_ONDIRLIGHTMAP_SEPARATESHADOWS_SCREEN DIRECTIONAL LIGHTMAP_ONDIRLIGHTMAP_SEPARATEDYNAMICLIGHTMAP_ONSHADOWS_SCREEN DIRECTIONALVERTEXLIGHT_ON DIRECTIONALDYNAMICLIGHTMAP_ONVERTEXLIGHT_ON DIRECTIONALDIRLIGHTMAP_COMBINEDDYNAMICLIGHTMAP_ONVERTEXLIGHT_ON DIRECTIONALDIRLIGHTMAP_SEPARATEDYNAMICLIGHTMAP_ONVERTEXLIGHT_ON DIRECTIONALSHADOWS_SCREENVERTEXLIGHT_ON DIRECTIONALDYNAMICLIGHTMAP_ONSHADOWS_SCREENVERTEXLIGHT_ON DIRECTIONALDIRLIGHTMAP_COMBINEDDYNAMICLIGHTMAP_ONSHADOWS_SCREENVERTEXLIGHT_ON DIRECTIONALDIRLIGHTMAP_SEPARATEDYNAMICLIGHTMAP_ONSHADOWS_SCREENVERTEXLIGHT_ON DIRECTIONAL DIRECTIONALDYNAMICLIGHTMAP_ON DIRECTIONAL LIGHTMAP_ON DIRECTIONAL LIGHTMAP_ONDYNAMICLIGHTMAP_ON DIRECTIONALDIRLIGHTMAP_COMBINEDDYNAMICLIGHTMAP_ON DIRECTIONAL LIGHTMAP_ONDIRLIGHTMAP_COMBINED DIRECTIONAL LIGHTMAP_ONDIRLIGHTMAP_COMBINEDDYNAMICLIGHTMAP_ON DIRECTIONALDIRLIGHTMAP_SEPARATEDYNAMICLIGHTMAP_ON DIRECTIONAL LIGHTMAP_ONDIRLIGHTMAP_SEPARATE DIRECTIONAL LIGHTMAP_ONDIRLIGHTMAP_SEPARATEDYNAMICLIGHTMAP_ON DIRECTIONALSHADOWS_SCREEN DIRECTIONALDYNAMICLIGHTMAP_ONSHADOWS_SCREEN DIRECTIONAL LIGHTMAP_ONSHADOWS_SCREEN DIRECTIONAL LIGHTMAP_ONDYNAMICLIGHTMAP_ONSHADOWS_SCREEN DIRECTIONALDIRLIGHTMAP_COMBINEDDYNAMICLIGHTMAP_ONSHADOWS_SCREEN DIRECTIONAL LIGHTMAP_ONDIRLIGHTMAP_COMBINEDSHADOWS_SCREEN DIRECTIONAL LIGHTMAP_ONDIRLIGHTMAP_COMBINEDDYNAMICLIGHTMAP_ONSHADOWS_SCREEN DIRECTIONALDIRLIGHTMAP_SEPARATEDYNAMICLIGHTMAP_ONSHADOWS_SCREEN DIRECTIONAL LIGHTMAP_ONDIRLIGHTMAP_SEPARATESHADOWS_SCREEN DIRECTIONAL LIGHTMAP_ONDIRLIGHTMAP_SEPARATEDYNAMICLIGHTMAP_ONSHADOWS_SCREEN SHADOWS_SOFTDIRLIGHTMAP_COMBINEDDIRLIGHTMAP_SEPARATEDYNAMICLIGHTMAP_ON INSTANCING_ONFOG_EXP FOG_EXP2 FOG_LINEARrDIRECTIONAL DIRLIGHTMAP_COMBINED DIRLIGHTMAP_SEPARATE DYNAMICLIGHTMAP_ON LIGHTMAP_ON SHADOWS_SCREEN VERTEXLIGHT_ONODT!#line 329 "" #ifdef DUMMY_PREPROCESSOR_TO_WORK_AROUND_HLSL_COMPILER_LINE_HANDLING #endif // compile directives #pragma vertex tessvert_surf #pragma fragment frag_surf #pragma hull hs_surf #pragma domain ds_surf #pragma multi_compile_fog #pragma multi_compile_fwdadd #pragma skip_variants INSTANCING_ON #include "HLSLSupport.cginc" #include "UnityShaderVariables.cginc" // Surface shader code generated based on: // vertex modifier: 'disp' // writes to per-pixel normal: YES // writes to emission: no // writes to occlusion: no // needs world space reflection vector: no // needs world space normal vector: no // needs screen space position: no // needs world space position: no // needs view direction: no // needs world space view direction: no // needs world space position for lighting: YES // needs world space view direction for lighting: YES // needs world space view direction for lightmaps: no // needs vertex color: no // needs VFACE: no // passes tangent-to-world matrix to pixel shader: YES // reads from normal: no // 2 texcoords actually used // float2 _MainTex // float2 _BumpMap #define UNITY_PASS_FORWARDADD #include "UnityCG.cginc" #include "Lighting.cginc" #include "AutoLight.cginc" #define INTERNAL_DATA half3 internalSurfaceTtoW0; half3 internalSurfaceTtoW1; half3 internalSurfaceTtoW2; #define WorldReflectionVector(data,normal) reflect (data.worldRefl, half3(dot(data.internalSurfaceTtoW0,normal), dot(data.internalSurfaceTtoW1,normal), dot(data.internalSurfaceTtoW2,normal))) #define WorldNormalVector(data,normal) fixed3(dot(data.internalSurfaceTtoW0,normal), dot(data.internalSurfaceTtoW1,normal), dot(data.internalSurfaceTtoW2,normal)) // Original surface shader snippet: #line 14 "" #ifdef DUMMY_PREPROCESSOR_TO_WORK_AROUND_HLSL_COMPILER_LINE_HANDLING #endif /* UNITY: Original start of shader */ //#pragma surface surf BlinnPhong addshadow vertex:disp tessellate:tessEdge tessphong:_Smoothness #include "Tessellation.cginc" struct appdata { float4 vertex : POSITION; float4 tangent : TANGENT; float3 normal : NORMAL; float2 texcoord : TEXCOORD0; float2 texcoord1 : TEXCOORD1; float2 texcoord2 : TEXCOORD2; }; float _EdgeLength; float _Smoothness; float4 tessEdge (appdata v0, appdata v1, appdata v2) { return UnityEdgeLengthBasedTessCull (v0.vertex, v1.vertex, v2.vertex, _EdgeLength, 0.0); } void disp (inout appdata v) { // do nothing } sampler2D _MainTex; sampler2D _BumpMap; fixed4 _Color; half _Shininess; struct Input { float2 uv_MainTex; float2 uv_BumpMap; }; void surf (Input IN, inout SurfaceOutput o) { fixed4 tex = tex2D(_MainTex, IN.uv_MainTex); o.Albedo = tex.rgb * _Color.rgb; o.Gloss = tex.a; o.Alpha = tex.a * _Color.a; o.Specular = _Shininess; o.Normal = UnpackNormal(tex2D(_BumpMap, IN.uv_BumpMap)); } #ifdef UNITY_CAN_COMPILE_TESSELLATION // tessellation vertex shader struct InternalTessInterp_appdata { float4 vertex : INTERNALTESSPOS; float4 tangent : TANGENT; float3 normal : NORMAL; float2 texcoord : TEXCOORD0; float2 texcoord1 : TEXCOORD1; float2 texcoord2 : TEXCOORD2; }; InternalTessInterp_appdata tessvert_surf (appdata v) { InternalTessInterp_appdata o; o.vertex = v.vertex; o.tangent = v.tangent; o.normal = v.normal; o.texcoord = v.texcoord; o.texcoord1 = v.texcoord1; o.texcoord2 = v.texcoord2; return o; } // tessellation hull constant shader UnityTessellationFactors hsconst_surf (InputPatch v) { UnityTessellationFactors o; float4 tf; appdata vi[3]; vi[0].vertex = v[0].vertex; vi[0].tangent = v[0].tangent; vi[0].normal = v[0].normal; vi[0].texcoord = v[0].texcoord; vi[0].texcoord1 = v[0].texcoord1; vi[0].texcoord2 = v[0].texcoord2; vi[1].vertex = v[1].vertex; vi[1].tangent = v[1].tangent; vi[1].normal = v[1].normal; vi[1].texcoord = v[1].texcoord; vi[1].texcoord1 = v[1].texcoord1; vi[1].texcoord2 = v[1].texcoord2; vi[2].vertex = v[2].vertex; vi[2].tangent = v[2].tangent; vi[2].normal = v[2].normal; vi[2].texcoord = v[2].texcoord; vi[2].texcoord1 = v[2].texcoord1; vi[2].texcoord2 = v[2].texcoord2; tf = tessEdge(vi[0], vi[1], vi[2]); o.edge[0] = tf.x; o.edge[1] = tf.y; o.edge[2] = tf.z; o.inside = tf.w; return o; } // tessellation hull shader [UNITY_domain("tri")] [UNITY_partitioning("fractional_odd")] [UNITY_outputtopology("triangle_cw")] [UNITY_patchconstantfunc("hsconst_surf")] [UNITY_outputcontrolpoints(3)] InternalTessInterp_appdata hs_surf (InputPatch v, uint id : SV_OutputControlPointID) { return v[id]; } #endif // UNITY_CAN_COMPILE_TESSELLATION // vertex-to-fragment interpolation data struct v2f_surf { float4 pos : SV_POSITION; float4 pack0 : TEXCOORD0; // _MainTex _BumpMap fixed3 tSpace0 : TEXCOORD1; fixed3 tSpace1 : TEXCOORD2; fixed3 tSpace2 : TEXCOORD3; float3 worldPos : TEXCOORD4; SHADOW_COORDS(5) UNITY_FOG_COORDS(6) }; float4 _MainTex_ST; float4 _BumpMap_ST; // vertex shader v2f_surf vert_surf (appdata v) { v2f_surf o; UNITY_INITIALIZE_OUTPUT(v2f_surf,o); o.pos = UnityObjectToClipPos(v.vertex); o.pack0.xy = TRANSFORM_TEX(v.texcoord, _MainTex); o.pack0.zw = TRANSFORM_TEX(v.texcoord, _BumpMap); float3 worldPos = mul(unity_ObjectToWorld, v.vertex).xyz; fixed3 worldNormal = UnityObjectToWorldNormal(v.normal); fixed3 worldTangent = UnityObjectToWorldDir(v.tangent.xyz); fixed tangentSign = v.tangent.w * unity_WorldTransformParams.w; fixed3 worldBinormal = cross(worldNormal, worldTangent) * tangentSign; o.tSpace0 = fixed3(worldTangent.x, worldBinormal.x, worldNormal.x); o.tSpace1 = fixed3(worldTangent.y, worldBinormal.y, worldNormal.y); o.tSpace2 = fixed3(worldTangent.z, worldBinormal.z, worldNormal.z); o.worldPos = worldPos; TRANSFER_SHADOW(o); // pass shadow coordinates to pixel shader UNITY_TRANSFER_FOG(o,o.pos); // pass fog coordinates to pixel shader return o; } #ifdef UNITY_CAN_COMPILE_TESSELLATION // tessellation domain shader [UNITY_domain("tri")] v2f_surf ds_surf (UnityTessellationFactors tessFactors, const OutputPatch vi, float3 bary : SV_DomainLocation) { appdata v; v.vertex = vi[0].vertex*bary.x + vi[1].vertex*bary.y + vi[2].vertex*bary.z; float3 pp[3]; for (int i = 0; i < 3; ++i) pp[i] = v.vertex.xyz - vi[i].normal * (dot(v.vertex.xyz, vi[i].normal) - dot(vi[i].vertex.xyz, vi[i].normal)); v.vertex.xyz = _Smoothness * (pp[0]*bary.x + pp[1]*bary.y + pp[2]*bary.z) + (1.0f-_Smoothness) * v.vertex.xyz; v.tangent = vi[0].tangent*bary.x + vi[1].tangent*bary.y + vi[2].tangent*bary.z; v.normal = vi[0].normal*bary.x + vi[1].normal*bary.y + vi[2].normal*bary.z; v.texcoord = vi[0].texcoord*bary.x + vi[1].texcoord*bary.y + vi[2].texcoord*bary.z; v.texcoord1 = vi[0].texcoord1*bary.x + vi[1].texcoord1*bary.y + vi[2].texcoord1*bary.z; v.texcoord2 = vi[0].texcoord2*bary.x + vi[1].texcoord2*bary.y + vi[2].texcoord2*bary.z; disp (v); v2f_surf o = vert_surf (v); return o; } #endif // UNITY_CAN_COMPILE_TESSELLATION // fragment shader fixed4 frag_surf (v2f_surf IN) : SV_Target { // prepare and unpack data Input surfIN; UNITY_INITIALIZE_OUTPUT(Input,surfIN); surfIN.uv_MainTex.x = 1.0; surfIN.uv_BumpMap.x = 1.0; surfIN.uv_MainTex = IN.pack0.xy; surfIN.uv_BumpMap = IN.pack0.zw; float3 worldPos = IN.worldPos; #ifndef USING_DIRECTIONAL_LIGHT fixed3 lightDir = normalize(UnityWorldSpaceLightDir(worldPos)); #else fixed3 lightDir = _WorldSpaceLightPos0.xyz; #endif fixed3 worldViewDir = normalize(UnityWorldSpaceViewDir(worldPos)); #ifdef UNITY_COMPILER_HLSL SurfaceOutput o = (SurfaceOutput)0; #else SurfaceOutput o; #endif o.Albedo = 0.0; o.Emission = 0.0; o.Specular = 0.0; o.Alpha = 0.0; o.Gloss = 0.0; fixed3 normalWorldVertex = fixed3(0,0,1); // call surface function surf (surfIN, o); UNITY_LIGHT_ATTENUATION(atten, IN, worldPos) fixed4 c = 0; fixed3 worldN; worldN.x = dot(IN.tSpace0.xyz, o.Normal); worldN.y = dot(IN.tSpace1.xyz, o.Normal); worldN.z = dot(IN.tSpace2.xyz, o.Normal); o.Normal = worldN; // Setup lighting environment UnityGI gi; UNITY_INITIALIZE_OUTPUT(UnityGI, gi); gi.indirect.diffuse = 0; gi.indirect.specular = 0; #if !defined(LIGHTMAP_ON) gi.light.color = _LightColor0.rgb; gi.light.dir = lightDir; #endif gi.light.color *= atten; c += LightingBlinnPhong (o, worldViewDir, gi); c.a = 0.0; UNITY_APPLY_FOG(IN.fogCoord, c); // apply fog UNITY_OPAQUE_ALPHA(c.a); return c; } :Assets/Standard Assets/Effects/TessellationShaders/ShadersÚKÝôŸÝá*ˇ.eÄp__ FOG_LINEARFOG_EXPFOG_EXP2__ FOG_LINEARFOG_EXPFOG_EXP2__ FOG_LINEARFOG_EXPFOG_EXP2__ FOG_LINEARFOG_EXPFOG_EXP2POINT DIRECTIONALSPOT POINT_COOKIEDIRECTIONAL_COOKIEPOINT DIRECTIONALSPOT POINT_COOKIEDIRECTIONAL_COOKIEPOINT DIRECTIONALSPOT POINT_COOKIEDIRECTIONAL_COOKIEPOINT DIRECTIONALSPOT POINT_COOKIEDIRECTIONAL_COOKIE SHADOWS_SOFTDIRLIGHTMAP_COMBINEDDIRLIGHTMAP_SEPARATEDYNAMICLIGHTMAP_ON INSTANCING_ONFOG_EXP FOG_EXP2 FOG_LINEAR6DIRECTIONAL DIRECTIONAL_COOKIE POINT POINT_COOKIE SPOTeJĐ#pragma vertex vert #pragma fragment frag #pragma target 2.0 #include "UnityCG.cginc" #pragma multi_compile_fog #define USING_FOG (defined(FOG_LINEAR) || defined(FOG_EXP) || defined(FOG_EXP2)) // ES2.0/WebGL/3DS can not do loops with non-constant-expression iteration counts :( #if defined(SHADER_API_GLES) #define LIGHT_LOOP_LIMIT 8 #elif defined(SHADER_API_N3DS) #define LIGHT_LOOP_LIMIT 4 #else #define LIGHT_LOOP_LIMIT unity_VertexLightParams.x #endif #define ENABLE_SPECULAR (!defined(SHADER_API_N3DS)) // Compile specialized variants for when positional (point/spot) and spot lights are present #pragma multi_compile __ POINT SPOT // Compute illumination from one light, given attenuation half3 computeLighting (int idx, half3 dirToLight, half3 eyeNormal, half3 viewDir, half4 diffuseColor, half shininess, half atten, inout half3 specColor) { half NdotL = max(dot(eyeNormal, dirToLight), 0.0); // diffuse half3 color = NdotL * diffuseColor.rgb * unity_LightColor[idx].rgb; // specular if (NdotL > 0.0) { half3 h = normalize(dirToLight + viewDir); half HdotN = max(dot(eyeNormal, h), 0.0); half sp = saturate(pow(HdotN, shininess)); specColor += (atten * sp) * unity_LightColor[idx].rgb; } return color * atten; } // Compute attenuation & illumination from one light half3 computeOneLight(int idx, float3 eyePosition, half3 eyeNormal, half3 viewDir, half4 diffuseColor, half shininess, inout half3 specColor) { float3 dirToLight = unity_LightPosition[idx].xyz; half att = 1.0; #if defined(POINT) || defined(SPOT) dirToLight -= eyePosition * unity_LightPosition[idx].w; // distance attenuation float distSqr = dot(dirToLight, dirToLight); att /= (1.0 + unity_LightAtten[idx].z * distSqr); if (unity_LightPosition[idx].w != 0 && distSqr > unity_LightAtten[idx].w) att = 0.0; // set to 0 if outside of range distSqr = max(distSqr, 0.000001); // don't produce NaNs if some vertex position overlaps with the light dirToLight *= rsqrt(distSqr); #if defined(SPOT) // spot angle attenuation half rho = max(dot(dirToLight, unity_SpotDirection[idx].xyz), 0.0); half spotAtt = (rho - unity_LightAtten[idx].x) * unity_LightAtten[idx].y; att *= saturate(spotAtt); #endif #endif att *= 0.5; // passed in light colors are 2x brighter than what used to be in FFP return min (computeLighting (idx, dirToLight, eyeNormal, viewDir, diffuseColor, shininess, att, specColor), 1.0); } // uniforms half4 _Color; half4 _SpecColor; half4 _Emission; half _Shininess; int4 unity_VertexLightParams; // x: light count, y: zero, z: one (y/z needed by d3d9 vs loop instruction) float4 _MainTex_ST; // vertex shader input data struct appdata { float3 pos : POSITION; float3 normal : NORMAL; float3 uv0 : TEXCOORD0; UNITY_VERTEX_INPUT_INSTANCE_ID }; // vertex-to-fragment interpolators struct v2f { fixed4 color : COLOR0; #if ENABLE_SPECULAR fixed3 specColor : COLOR1; #endif float2 uv0 : TEXCOORD0; #if USING_FOG fixed fog : TEXCOORD1; #endif float4 pos : SV_POSITION; UNITY_VERTEX_OUTPUT_STEREO }; // vertex shader v2f vert (appdata IN) { v2f o; UNITY_SETUP_INSTANCE_ID(IN); UNITY_INITIALIZE_VERTEX_OUTPUT_STEREO(o); half4 color = half4(0,0,0,1.1); float3 eyePos = mul (UNITY_MATRIX_MV, float4(IN.pos,1)).xyz; half3 eyeNormal = normalize (mul ((float3x3)UNITY_MATRIX_IT_MV, IN.normal).xyz); half3 viewDir = 0.0; viewDir = -normalize (eyePos); // lighting half3 lcolor = _Emission.rgb + _Color.rgb * glstate_lightmodel_ambient.rgb; half3 specColor = 0.0; half shininess = _Shininess * 128.0; for (int il = 0; il < LIGHT_LOOP_LIMIT; ++il) { lcolor += computeOneLight(il, eyePos, eyeNormal, viewDir, _Color, shininess, specColor); } color.rgb = lcolor.rgb; color.a = _Color.a; specColor *= _SpecColor.rgb; o.color = saturate(color); #if ENABLE_SPECULAR o.specColor = saturate(specColor); #endif // compute texture coordinates o.uv0 = IN.uv0.xy * _MainTex_ST.xy + _MainTex_ST.zw; // fog #if USING_FOG float fogCoord = length(eyePos.xyz); // radial fog distance UNITY_CALC_FOG_FACTOR_RAW(fogCoord); o.fog = saturate(unityFogFactor); #endif // transform position o.pos = UnityObjectToClipPos(IN.pos); return o; } // textures sampler2D _MainTex; // fragment shader fixed4 frag (v2f IN) : SV_Target { fixed4 col; fixed4 tex, tmp0, tmp1, tmp2; // SetTexture #0 tex = tex2D (_MainTex, IN.uv0.xy); col.rgb = tex * IN.color; col *= 2; col.a = fixed4(1,1,1,1).a; #if ENABLE_SPECULAR // add specular color col.rgb += IN.specColor; #endif // fog #if USING_FOG col.rgb = lerp (unity_FogColor.rgb, col.rgb, IN.fog); #endif return col; } // texenvs //! TexEnv0: 02010103 01060004 [_MainTex] [ffffffff] ˙˙˙˙_ FOG_LINEARFOG_EXPFOG_EXP2_POINTSPOT_ FOG_LINEARFOG_EXPFOG_EXP2_POINTSPOT&FOG_EXP FOG_EXP2 FOG_LINEAR POINT SPOTlV#line 215 "" #ifdef DUMMY_PREPROCESSOR_TO_WORK_AROUND_HLSL_COMPILER_LINE_HANDLING #endif // compile directives #pragma vertex vert_surf #pragma fragment frag_surf #pragma multi_compile_fog #pragma multi_compile_fwdadd #pragma skip_variants INSTANCING_ON #include "HLSLSupport.cginc" #include "UnityShaderVariables.cginc" // Surface shader code generated based on: // writes to per-pixel normal: no // writes to emission: no // writes to occlusion: no // needs world space reflection vector: no // needs world space normal vector: no // needs screen space position: no // needs world space position: no // needs view direction: no // needs world space view direction: no // needs world space position for lighting: YES // needs world space view direction for lighting: YES // needs world space view direction for lightmaps: no // needs vertex color: no // needs VFACE: no // passes tangent-to-world matrix to pixel shader: no // reads from normal: no // 1 texcoords actually used // float2 _MainTex #define UNITY_PASS_FORWARDADD #include "UnityCG.cginc" #include "Lighting.cginc" #include "AutoLight.cginc" #define INTERNAL_DATA #define WorldReflectionVector(data,normal) data.worldRefl #define WorldNormalVector(data,normal) normal // Original surface shader snippet: #line 11 "" #ifdef DUMMY_PREPROCESSOR_TO_WORK_AROUND_HLSL_COMPILER_LINE_HANDLING #endif /* UNITY: Original start of shader */ //#pragma surface surf BlinnPhong sampler2D _MainTex; fixed4 _Color; half _Shininess; struct Input { float2 uv_MainTex; }; void surf (Input IN, inout SurfaceOutput o) { fixed4 tex = tex2D(_MainTex, IN.uv_MainTex); o.Albedo = tex.rgb * _Color.rgb; o.Gloss = tex.a; o.Alpha = tex.a * _Color.a; o.Specular = _Shininess; } // vertex-to-fragment interpolation data struct v2f_surf { float4 pos : SV_POSITION; float2 pack0 : TEXCOORD0; // _MainTex half3 worldNormal : TEXCOORD1; float3 worldPos : TEXCOORD2; SHADOW_COORDS(3) UNITY_FOG_COORDS(4) }; float4 _MainTex_ST; // vertex shader v2f_surf vert_surf (appdata_full v) { v2f_surf o; UNITY_INITIALIZE_OUTPUT(v2f_surf,o); o.pos = UnityObjectToClipPos(v.vertex); o.pack0.xy = TRANSFORM_TEX(v.texcoord, _MainTex); float3 worldPos = mul(unity_ObjectToWorld, v.vertex).xyz; fixed3 worldNormal = UnityObjectToWorldNormal(v.normal); o.worldPos = worldPos; o.worldNormal = worldNormal; TRANSFER_SHADOW(o); // pass shadow coordinates to pixel shader UNITY_TRANSFER_FOG(o,o.pos); // pass fog coordinates to pixel shader return o; } // fragment shader fixed4 frag_surf (v2f_surf IN) : SV_Target { // prepare and unpack data Input surfIN; UNITY_INITIALIZE_OUTPUT(Input,surfIN); surfIN.uv_MainTex.x = 1.0; surfIN.uv_MainTex = IN.pack0.xy; float3 worldPos = IN.worldPos; #ifndef USING_DIRECTIONAL_LIGHT fixed3 lightDir = normalize(UnityWorldSpaceLightDir(worldPos)); #else fixed3 lightDir = _WorldSpaceLightPos0.xyz; #endif fixed3 worldViewDir = normalize(UnityWorldSpaceViewDir(worldPos)); #ifdef UNITY_COMPILER_HLSL SurfaceOutput o = (SurfaceOutput)0; #else SurfaceOutput o; #endif o.Albedo = 0.0; o.Emission = 0.0; o.Specular = 0.0; o.Alpha = 0.0; o.Gloss = 0.0; fixed3 normalWorldVertex = fixed3(0,0,1); o.Normal = IN.worldNormal; normalWorldVertex = IN.worldNormal; // call surface function surf (surfIN, o); UNITY_LIGHT_ATTENUATION(atten, IN, worldPos) fixed4 c = 0; // Setup lighting environment UnityGI gi; UNITY_INITIALIZE_OUTPUT(UnityGI, gi); gi.indirect.diffuse = 0; gi.indirect.specular = 0; #if !defined(LIGHTMAP_ON) gi.light.color = _LightColor0.rgb; gi.light.dir = lightDir; #endif gi.light.color *= atten; c += LightingBlinnPhong (o, worldViewDir, gi); c.a = 0.0; UNITY_APPLY_FOG(IN.fogCoord, c); // apply fog UNITY_OPAQUE_ALPHA(c.a); return c; } Assets/DefaultResourcesExtra˙˙˙˙Ůqˆ ­|!bÔż•­NËüĘ__ FOG_LINEARFOG_EXPFOG_EXP2__ FOG_LINEARFOG_EXPFOG_EXP2POINT DIRECTIONALSPOT POINT_COOKIEDIRECTIONAL_COOKIEPOINT DIRECTIONALSPOT POINT_COOKIEDIRECTIONAL_COOKIE SHADOWS_SOFTDIRLIGHTMAP_COMBINEDDIRLIGHTMAP_SEPARATEDYNAMICLIGHTMAP_ON INSTANCING_ONFOG_EXP FOG_EXP2 FOG_LINEAR6DIRECTIONAL DIRECTIONAL_COOKIE POINT POINT_COOKIE SPOTĺŔ­#line 220 "" #ifdef DUMMY_PREPROCESSOR_TO_WORK_AROUND_HLSL_COMPILER_LINE_HANDLING #endif // compile directives #pragma vertex vert_surf #pragma fragment frag_surf #pragma target 3.0 #pragma multi_compile_fog #pragma multi_compile_fwdadd #pragma skip_variants INSTANCING_ON #include "HLSLSupport.cginc" #include "UnityShaderVariables.cginc" // Surface shader code generated based on: // writes to per-pixel normal: YES // writes to emission: no // writes to occlusion: no // needs world space reflection vector: no // needs world space normal vector: no // needs screen space position: no // needs world space position: no // needs view direction: no // needs world space view direction: no // needs world space position for lighting: YES // needs world space view direction for lighting: YES // needs world space view direction for lightmaps: no // needs vertex color: no // needs VFACE: no // passes tangent-to-world matrix to pixel shader: YES // reads from normal: no // 2 texcoords actually used // float2 _MainTex // float2 _BumpMap #define UNITY_PASS_FORWARDADD #include "UnityCG.cginc" #include "Lighting.cginc" #include "AutoLight.cginc" #define INTERNAL_DATA half3 internalSurfaceTtoW0; half3 internalSurfaceTtoW1; half3 internalSurfaceTtoW2; #define WorldReflectionVector(data,normal) reflect (data.worldRefl, half3(dot(data.internalSurfaceTtoW0,normal), dot(data.internalSurfaceTtoW1,normal), dot(data.internalSurfaceTtoW2,normal))) #define WorldNormalVector(data,normal) fixed3(dot(data.internalSurfaceTtoW0,normal), dot(data.internalSurfaceTtoW1,normal), dot(data.internalSurfaceTtoW2,normal)) // Original surface shader snippet: #line 11 sampler2D _MainTex; sampler2D _BumpMap; fixed4 _Color; half _Shininess; struct Input { float2 uv_MainTex; float2 uv_BumpMap; }; void surf (Input IN, inout SurfaceOutput o) { fixed4 tex = tex2D(_MainTex, IN.uv_MainTex); o.Albedo = tex.rgb * _Color.rgb; o.Gloss = tex.a; o.Alpha = tex.a * _Color.a; o.Specular = _Shininess; o.Normal = UnpackNormal(tex2D(_BumpMap, IN.uv_BumpMap)); } #line 33 "" #ifdef DUMMY_PREPROCESSOR_TO_WORK_AROUND_HLSL_COMPILER_LINE_HANDLING #endif /* UNITY: Original start of shader */ //#pragma surface surf BlinnPhong //#pragma target 3.0 // vertex-to-fragment interpolation data struct v2f_surf { float4 pos : SV_POSITION; float4 pack0 : TEXCOORD0; // _MainTex _BumpMap fixed3 tSpace0 : TEXCOORD1; fixed3 tSpace1 : TEXCOORD2; fixed3 tSpace2 : TEXCOORD3; float3 worldPos : TEXCOORD4; SHADOW_COORDS(5) UNITY_FOG_COORDS(6) }; float4 _MainTex_ST; float4 _BumpMap_ST; // vertex shader v2f_surf vert_surf (appdata_full v) { v2f_surf o; UNITY_INITIALIZE_OUTPUT(v2f_surf,o); o.pos = UnityObjectToClipPos(v.vertex); o.pack0.xy = TRANSFORM_TEX(v.texcoord, _MainTex); o.pack0.zw = TRANSFORM_TEX(v.texcoord, _BumpMap); float3 worldPos = mul(unity_ObjectToWorld, v.vertex).xyz; fixed3 worldNormal = UnityObjectToWorldNormal(v.normal); fixed3 worldTangent = UnityObjectToWorldDir(v.tangent.xyz); fixed tangentSign = v.tangent.w * unity_WorldTransformParams.w; fixed3 worldBinormal = cross(worldNormal, worldTangent) * tangentSign; o.tSpace0 = fixed3(worldTangent.x, worldBinormal.x, worldNormal.x); o.tSpace1 = fixed3(worldTangent.y, worldBinormal.y, worldNormal.y); o.tSpace2 = fixed3(worldTangent.z, worldBinormal.z, worldNormal.z); o.worldPos = worldPos; TRANSFER_SHADOW(o); // pass shadow coordinates to pixel shader UNITY_TRANSFER_FOG(o,o.pos); // pass fog coordinates to pixel shader return o; } // fragment shader fixed4 frag_surf (v2f_surf IN) : SV_Target { // prepare and unpack data Input surfIN; UNITY_INITIALIZE_OUTPUT(Input,surfIN); surfIN.uv_MainTex.x = 1.0; surfIN.uv_BumpMap.x = 1.0; surfIN.uv_MainTex = IN.pack0.xy; surfIN.uv_BumpMap = IN.pack0.zw; float3 worldPos = IN.worldPos; #ifndef USING_DIRECTIONAL_LIGHT fixed3 lightDir = normalize(UnityWorldSpaceLightDir(worldPos)); #else fixed3 lightDir = _WorldSpaceLightPos0.xyz; #endif fixed3 worldViewDir = normalize(UnityWorldSpaceViewDir(worldPos)); #ifdef UNITY_COMPILER_HLSL SurfaceOutput o = (SurfaceOutput)0; #else SurfaceOutput o; #endif o.Albedo = 0.0; o.Emission = 0.0; o.Specular = 0.0; o.Alpha = 0.0; o.Gloss = 0.0; fixed3 normalWorldVertex = fixed3(0,0,1); // call surface function surf (surfIN, o); UNITY_LIGHT_ATTENUATION(atten, IN, worldPos) fixed4 c = 0; fixed3 worldN; worldN.x = dot(IN.tSpace0.xyz, o.Normal); worldN.y = dot(IN.tSpace1.xyz, o.Normal); worldN.z = dot(IN.tSpace2.xyz, o.Normal); o.Normal = worldN; // Setup lighting environment UnityGI gi; UNITY_INITIALIZE_OUTPUT(UnityGI, gi); gi.indirect.diffuse = 0; gi.indirect.specular = 0; #if !defined(LIGHTMAP_ON) gi.light.color = _LightColor0.rgb; gi.light.dir = lightDir; #endif gi.light.color *= atten; c += LightingBlinnPhong (o, worldViewDir, gi); c.a = 0.0; UNITY_APPLY_FOG(IN.fogCoord, c); // apply fog UNITY_OPAQUE_ALPHA(c.a); return c; } Assets/DefaultResourcesExtra˙˙˙˙Ţqˆ ­|!bÔż•­NËüĘ__ FOG_LINEARFOG_EXPFOG_EXP2__ FOG_LINEARFOG_EXPFOG_EXP2POINT DIRECTIONALSPOT POINT_COOKIEDIRECTIONAL_COOKIEPOINT DIRECTIONALSPOT POINT_COOKIEDIRECTIONAL_COOKIE SHADOWS_SOFTDIRLIGHTMAP_COMBINEDDIRLIGHTMAP_SEPARATEDYNAMICLIGHTMAP_ON INSTANCING_ONFOG_EXP FOG_EXP2 FOG_LINEAR6DIRECTIONAL DIRECTIONAL_COOKIE POINT POINT_COOKIE SPOT ÷#line 247 "" #ifdef DUMMY_PREPROCESSOR_TO_WORK_AROUND_HLSL_COMPILER_LINE_HANDLING #endif // compile directives #pragma vertex tessvert_surf #pragma fragment frag_surf #pragma hull hs_surf #pragma domain ds_surf #pragma skip_variants FOG_LINEAR FOG_EXP FOG_EXP2 #include "HLSLSupport.cginc" #include "UnityShaderVariables.cginc" // Surface shader code generated based on: // vertex modifier: 'disp' // writes to per-pixel normal: YES // writes to emission: no // writes to occlusion: no // needs world space reflection vector: no // needs world space normal vector: no // needs screen space position: no // needs world space position: no // needs view direction: no // needs world space view direction: no // needs world space position for lighting: YES // needs world space view direction for lighting: YES // needs world space view direction for lightmaps: no // needs vertex color: no // needs VFACE: no // passes tangent-to-world matrix to pixel shader: YES // reads from normal: no // 1 texcoords actually used // float2 _BumpMap #define UNITY_PASS_PREPASSBASE #include "UnityCG.cginc" #include "Lighting.cginc" #define INTERNAL_DATA half3 internalSurfaceTtoW0; half3 internalSurfaceTtoW1; half3 internalSurfaceTtoW2; #define WorldReflectionVector(data,normal) reflect (data.worldRefl, half3(dot(data.internalSurfaceTtoW0,normal), dot(data.internalSurfaceTtoW1,normal), dot(data.internalSurfaceTtoW2,normal))) #define WorldNormalVector(data,normal) fixed3(dot(data.internalSurfaceTtoW0,normal), dot(data.internalSurfaceTtoW1,normal), dot(data.internalSurfaceTtoW2,normal)) // Original surface shader snippet: #line 14 "" #ifdef DUMMY_PREPROCESSOR_TO_WORK_AROUND_HLSL_COMPILER_LINE_HANDLING #endif /* UNITY: Original start of shader */ //#pragma surface surf BlinnPhong addshadow vertex:disp tessellate:tessEdge tessphong:_Smoothness #include "Tessellation.cginc" struct appdata { float4 vertex : POSITION; float4 tangent : TANGENT; float3 normal : NORMAL; float2 texcoord : TEXCOORD0; float2 texcoord1 : TEXCOORD1; float2 texcoord2 : TEXCOORD2; }; float _EdgeLength; float _Smoothness; float4 tessEdge (appdata v0, appdata v1, appdata v2) { return UnityEdgeLengthBasedTessCull (v0.vertex, v1.vertex, v2.vertex, _EdgeLength, 0.0); } void disp (inout appdata v) { // do nothing } sampler2D _MainTex; sampler2D _BumpMap; fixed4 _Color; half _Shininess; struct Input { float2 uv_MainTex; float2 uv_BumpMap; }; void surf (Input IN, inout SurfaceOutput o) { fixed4 tex = tex2D(_MainTex, IN.uv_MainTex); o.Albedo = tex.rgb * _Color.rgb; o.Gloss = tex.a; o.Alpha = tex.a * _Color.a; o.Specular = _Shininess; o.Normal = UnpackNormal(tex2D(_BumpMap, IN.uv_BumpMap)); } #ifdef UNITY_CAN_COMPILE_TESSELLATION // tessellation vertex shader struct InternalTessInterp_appdata { float4 vertex : INTERNALTESSPOS; float4 tangent : TANGENT; float3 normal : NORMAL; float2 texcoord : TEXCOORD0; float2 texcoord1 : TEXCOORD1; float2 texcoord2 : TEXCOORD2; }; InternalTessInterp_appdata tessvert_surf (appdata v) { InternalTessInterp_appdata o; o.vertex = v.vertex; o.tangent = v.tangent; o.normal = v.normal; o.texcoord = v.texcoord; o.texcoord1 = v.texcoord1; o.texcoord2 = v.texcoord2; return o; } // tessellation hull constant shader UnityTessellationFactors hsconst_surf (InputPatch v) { UnityTessellationFactors o; float4 tf; appdata vi[3]; vi[0].vertex = v[0].vertex; vi[0].tangent = v[0].tangent; vi[0].normal = v[0].normal; vi[0].texcoord = v[0].texcoord; vi[0].texcoord1 = v[0].texcoord1; vi[0].texcoord2 = v[0].texcoord2; vi[1].vertex = v[1].vertex; vi[1].tangent = v[1].tangent; vi[1].normal = v[1].normal; vi[1].texcoord = v[1].texcoord; vi[1].texcoord1 = v[1].texcoord1; vi[1].texcoord2 = v[1].texcoord2; vi[2].vertex = v[2].vertex; vi[2].tangent = v[2].tangent; vi[2].normal = v[2].normal; vi[2].texcoord = v[2].texcoord; vi[2].texcoord1 = v[2].texcoord1; vi[2].texcoord2 = v[2].texcoord2; tf = tessEdge(vi[0], vi[1], vi[2]); o.edge[0] = tf.x; o.edge[1] = tf.y; o.edge[2] = tf.z; o.inside = tf.w; return o; } // tessellation hull shader [UNITY_domain("tri")] [UNITY_partitioning("fractional_odd")] [UNITY_outputtopology("triangle_cw")] [UNITY_patchconstantfunc("hsconst_surf")] [UNITY_outputcontrolpoints(3)] InternalTessInterp_appdata hs_surf (InputPatch v, uint id : SV_OutputControlPointID) { return v[id]; } #endif // UNITY_CAN_COMPILE_TESSELLATION // vertex-to-fragment interpolation data struct v2f_surf { float4 pos : SV_POSITION; float2 pack0 : TEXCOORD0; // _BumpMap float4 tSpace0 : TEXCOORD1; float4 tSpace1 : TEXCOORD2; float4 tSpace2 : TEXCOORD3; UNITY_VERTEX_INPUT_INSTANCE_ID UNITY_VERTEX_OUTPUT_STEREO }; float4 _BumpMap_ST; // vertex shader v2f_surf vert_surf (appdata v) { UNITY_SETUP_INSTANCE_ID(v); v2f_surf o; UNITY_INITIALIZE_OUTPUT(v2f_surf,o); UNITY_TRANSFER_INSTANCE_ID(v,o); UNITY_INITIALIZE_VERTEX_OUTPUT_STEREO(o); o.pos = UnityObjectToClipPos(v.vertex); o.pack0.xy = TRANSFORM_TEX(v.texcoord, _BumpMap); float3 worldPos = mul(unity_ObjectToWorld, v.vertex).xyz; fixed3 worldNormal = UnityObjectToWorldNormal(v.normal); fixed3 worldTangent = UnityObjectToWorldDir(v.tangent.xyz); fixed tangentSign = v.tangent.w * unity_WorldTransformParams.w; fixed3 worldBinormal = cross(worldNormal, worldTangent) * tangentSign; o.tSpace0 = float4(worldTangent.x, worldBinormal.x, worldNormal.x, worldPos.x); o.tSpace1 = float4(worldTangent.y, worldBinormal.y, worldNormal.y, worldPos.y); o.tSpace2 = float4(worldTangent.z, worldBinormal.z, worldNormal.z, worldPos.z); return o; } #ifdef UNITY_CAN_COMPILE_TESSELLATION // tessellation domain shader [UNITY_domain("tri")] v2f_surf ds_surf (UnityTessellationFactors tessFactors, const OutputPatch vi, float3 bary : SV_DomainLocation) { appdata v; v.vertex = vi[0].vertex*bary.x + vi[1].vertex*bary.y + vi[2].vertex*bary.z; float3 pp[3]; for (int i = 0; i < 3; ++i) pp[i] = v.vertex.xyz - vi[i].normal * (dot(v.vertex.xyz, vi[i].normal) - dot(vi[i].vertex.xyz, vi[i].normal)); v.vertex.xyz = _Smoothness * (pp[0]*bary.x + pp[1]*bary.y + pp[2]*bary.z) + (1.0f-_Smoothness) * v.vertex.xyz; v.tangent = vi[0].tangent*bary.x + vi[1].tangent*bary.y + vi[2].tangent*bary.z; v.normal = vi[0].normal*bary.x + vi[1].normal*bary.y + vi[2].normal*bary.z; v.texcoord = vi[0].texcoord*bary.x + vi[1].texcoord*bary.y + vi[2].texcoord*bary.z; v.texcoord1 = vi[0].texcoord1*bary.x + vi[1].texcoord1*bary.y + vi[2].texcoord1*bary.z; v.texcoord2 = vi[0].texcoord2*bary.x + vi[1].texcoord2*bary.y + vi[2].texcoord2*bary.z; disp (v); v2f_surf o = vert_surf (v); return o; } #endif // UNITY_CAN_COMPILE_TESSELLATION // fragment shader fixed4 frag_surf (v2f_surf IN) : SV_Target { UNITY_SETUP_INSTANCE_ID(IN); // prepare and unpack data Input surfIN; UNITY_INITIALIZE_OUTPUT(Input,surfIN); surfIN.uv_MainTex.x = 1.0; surfIN.uv_BumpMap.x = 1.0; surfIN.uv_BumpMap = IN.pack0.xy; float3 worldPos = float3(IN.tSpace0.w, IN.tSpace1.w, IN.tSpace2.w); #ifndef USING_DIRECTIONAL_LIGHT fixed3 lightDir = normalize(UnityWorldSpaceLightDir(worldPos)); #else fixed3 lightDir = _WorldSpaceLightPos0.xyz; #endif #ifdef UNITY_COMPILER_HLSL SurfaceOutput o = (SurfaceOutput)0; #else SurfaceOutput o; #endif o.Albedo = 0.0; o.Emission = 0.0; o.Specular = 0.0; o.Alpha = 0.0; o.Gloss = 0.0; fixed3 normalWorldVertex = fixed3(0,0,1); // call surface function surf (surfIN, o); fixed3 worldN; worldN.x = dot(IN.tSpace0.xyz, o.Normal); worldN.y = dot(IN.tSpace1.xyz, o.Normal); worldN.z = dot(IN.tSpace2.xyz, o.Normal); o.Normal = worldN; // output normal and specular fixed4 res; res.rgb = o.Normal * 0.5 + 0.5; res.a = o.Specular; return res; } :Assets/Standard Assets/Effects/TessellationShaders/ShadersÚů†˜#<ˆ㛓wÇDŘ2K SHADOWS_SOFTDIRLIGHTMAP_COMBINEDDIRLIGHTMAP_SEPARATEDYNAMICLIGHTMAP_ON INSTANCING_ONlP#line 138 "" #ifdef DUMMY_PREPROCESSOR_TO_WORK_AROUND_HLSL_COMPILER_LINE_HANDLING #endif // compile directives #pragma vertex vert_surf #pragma fragment frag_surf #pragma target 3.0 #pragma skip_variants FOG_LINEAR FOG_EXP FOG_EXP2 #include "HLSLSupport.cginc" #include "UnityShaderVariables.cginc" // Surface shader code generated based on: // writes to per-pixel normal: YES // writes to emission: no // writes to occlusion: no // needs world space reflection vector: no // needs world space normal vector: no // needs screen space position: no // needs world space position: no // needs view direction: no // needs world space view direction: no // needs world space position for lighting: YES // needs world space view direction for lighting: YES // needs world space view direction for lightmaps: no // needs vertex color: no // needs VFACE: no // passes tangent-to-world matrix to pixel shader: YES // reads from normal: no // 1 texcoords actually used // float2 _BumpMap #define UNITY_PASS_PREPASSBASE #include "UnityCG.cginc" #include "Lighting.cginc" #define INTERNAL_DATA half3 internalSurfaceTtoW0; half3 internalSurfaceTtoW1; half3 internalSurfaceTtoW2; #define WorldReflectionVector(data,normal) reflect (data.worldRefl, half3(dot(data.internalSurfaceTtoW0,normal), dot(data.internalSurfaceTtoW1,normal), dot(data.internalSurfaceTtoW2,normal))) #define WorldNormalVector(data,normal) fixed3(dot(data.internalSurfaceTtoW0,normal), dot(data.internalSurfaceTtoW1,normal), dot(data.internalSurfaceTtoW2,normal)) // Original surface shader snippet: #line 11 sampler2D _MainTex; sampler2D _BumpMap; fixed4 _Color; half _Shininess; struct Input { float2 uv_MainTex; float2 uv_BumpMap; }; void surf (Input IN, inout SurfaceOutput o) { fixed4 tex = tex2D(_MainTex, IN.uv_MainTex); o.Albedo = tex.rgb * _Color.rgb; o.Gloss = tex.a; o.Alpha = tex.a * _Color.a; o.Specular = _Shininess; o.Normal = UnpackNormal(tex2D(_BumpMap, IN.uv_BumpMap)); } #line 33 "" #ifdef DUMMY_PREPROCESSOR_TO_WORK_AROUND_HLSL_COMPILER_LINE_HANDLING #endif /* UNITY: Original start of shader */ //#pragma surface surf BlinnPhong //#pragma target 3.0 // vertex-to-fragment interpolation data struct v2f_surf { float4 pos : SV_POSITION; float2 pack0 : TEXCOORD0; // _BumpMap float4 tSpace0 : TEXCOORD1; float4 tSpace1 : TEXCOORD2; float4 tSpace2 : TEXCOORD3; UNITY_VERTEX_INPUT_INSTANCE_ID UNITY_VERTEX_OUTPUT_STEREO }; float4 _BumpMap_ST; // vertex shader v2f_surf vert_surf (appdata_full v) { UNITY_SETUP_INSTANCE_ID(v); v2f_surf o; UNITY_INITIALIZE_OUTPUT(v2f_surf,o); UNITY_TRANSFER_INSTANCE_ID(v,o); UNITY_INITIALIZE_VERTEX_OUTPUT_STEREO(o); o.pos = UnityObjectToClipPos(v.vertex); o.pack0.xy = TRANSFORM_TEX(v.texcoord, _BumpMap); float3 worldPos = mul(unity_ObjectToWorld, v.vertex).xyz; fixed3 worldNormal = UnityObjectToWorldNormal(v.normal); fixed3 worldTangent = UnityObjectToWorldDir(v.tangent.xyz); fixed tangentSign = v.tangent.w * unity_WorldTransformParams.w; fixed3 worldBinormal = cross(worldNormal, worldTangent) * tangentSign; o.tSpace0 = float4(worldTangent.x, worldBinormal.x, worldNormal.x, worldPos.x); o.tSpace1 = float4(worldTangent.y, worldBinormal.y, worldNormal.y, worldPos.y); o.tSpace2 = float4(worldTangent.z, worldBinormal.z, worldNormal.z, worldPos.z); return o; } // fragment shader fixed4 frag_surf (v2f_surf IN) : SV_Target { UNITY_SETUP_INSTANCE_ID(IN); // prepare and unpack data Input surfIN; UNITY_INITIALIZE_OUTPUT(Input,surfIN); surfIN.uv_MainTex.x = 1.0; surfIN.uv_BumpMap.x = 1.0; surfIN.uv_BumpMap = IN.pack0.xy; float3 worldPos = float3(IN.tSpace0.w, IN.tSpace1.w, IN.tSpace2.w); #ifndef USING_DIRECTIONAL_LIGHT fixed3 lightDir = normalize(UnityWorldSpaceLightDir(worldPos)); #else fixed3 lightDir = _WorldSpaceLightPos0.xyz; #endif #ifdef UNITY_COMPILER_HLSL SurfaceOutput o = (SurfaceOutput)0; #else SurfaceOutput o; #endif o.Albedo = 0.0; o.Emission = 0.0; o.Specular = 0.0; o.Alpha = 0.0; o.Gloss = 0.0; fixed3 normalWorldVertex = fixed3(0,0,1); // call surface function surf (surfIN, o); fixed3 worldN; worldN.x = dot(IN.tSpace0.xyz, o.Normal); worldN.y = dot(IN.tSpace1.xyz, o.Normal); worldN.z = dot(IN.tSpace2.xyz, o.Normal); o.Normal = worldN; // output normal and specular fixed4 res; res.rgb = o.Normal * 0.5 + 0.5; res.a = o.Specular; return res; } Assets/DefaultResourcesExtra˙˙˙˙Œ•6žhí~Ž$żĘ‘qDg SHADOWS_SOFTDIRLIGHTMAP_COMBINEDDIRLIGHTMAP_SEPARATEDYNAMICLIGHTMAP_ON INSTANCING_ONI­~#pragma vertex vert #pragma fragment frag #pragma target 2.0 #include "UnityCG.cginc" #pragma multi_compile_fog #define USING_FOG (defined(FOG_LINEAR) || defined(FOG_EXP) || defined(FOG_EXP2)) // uniforms float4 _MainTex_ST; // vertex shader input data struct appdata { float3 pos : POSITION; float3 uv1 : TEXCOORD1; float3 uv0 : TEXCOORD0; UNITY_VERTEX_INPUT_INSTANCE_ID }; // vertex-to-fragment interpolators struct v2f { fixed4 color : COLOR0; float2 uv0 : TEXCOORD0; float2 uv1 : TEXCOORD1; #if USING_FOG fixed fog : TEXCOORD2; #endif float4 pos : SV_POSITION; UNITY_VERTEX_OUTPUT_STEREO }; // vertex shader v2f vert (appdata IN) { v2f o; UNITY_SETUP_INSTANCE_ID(IN); UNITY_INITIALIZE_VERTEX_OUTPUT_STEREO(o); half4 color = half4(0,0,0,1.1); float3 eyePos = mul (UNITY_MATRIX_MV, float4(IN.pos,1)).xyz; half3 viewDir = 0.0; o.color = saturate(color); // compute texture coordinates o.uv0 = IN.uv1.xy * unity_LightmapST.xy + unity_LightmapST.zw; o.uv1 = IN.uv0.xy * _MainTex_ST.xy + _MainTex_ST.zw; // fog #if USING_FOG float fogCoord = length(eyePos.xyz); // radial fog distance UNITY_CALC_FOG_FACTOR_RAW(fogCoord); o.fog = saturate(unityFogFactor); #endif // transform position o.pos = UnityObjectToClipPos(IN.pos); return o; } // textures sampler2D _MainTex; fixed4 _Color; // fragment shader fixed4 frag (v2f IN) : SV_Target { fixed4 col; fixed4 tex, tmp0, tmp1, tmp2; // SetTexture #0 tex = UNITY_SAMPLE_TEX2D (unity_Lightmap, IN.uv0.xy); col = tex * _Color; // SetTexture #1 tex = tex2D (_MainTex, IN.uv1.xy); col.rgb = tex * col; col *= 2; col.a = fixed4(1,1,1,1).a; // fog #if USING_FOG col.rgb = lerp (unity_FogColor.rgb, col.rgb, IN.fog); #endif return col; } // texenvs //! TexEnv0: 01010102 01010102 [unity_Lightmap] [_Color] usesLightmapST //! TexEnv1: 02010100 01060004 [_MainTex] [ffffffff] ˙˙˙˙_ FOG_LINEARFOG_EXPFOG_EXP2_ FOG_LINEARFOG_EXPFOG_EXP2FOG_EXP FOG_EXP2 FOG_LINEARŕăx #line 117 "" #ifdef DUMMY_PREPROCESSOR_TO_WORK_AROUND_HLSL_COMPILER_LINE_HANDLING #endif // compile directives #pragma vertex vert_surf #pragma fragment frag_surf #pragma skip_variants FOG_LINEAR FOG_EXP FOG_EXP2 #include "HLSLSupport.cginc" #include "UnityShaderVariables.cginc" // Surface shader code generated based on: // writes to per-pixel normal: no // writes to emission: no // writes to occlusion: no // needs world space reflection vector: no // needs world space normal vector: no // needs screen space position: no // needs world space position: no // needs view direction: no // needs world space view direction: no // needs world space position for lighting: YES // needs world space view direction for lighting: YES // needs world space view direction for lightmaps: no // needs vertex color: no // needs VFACE: no // passes tangent-to-world matrix to pixel shader: no // reads from normal: YES // 0 texcoords actually used #define UNITY_PASS_PREPASSBASE #include "UnityCG.cginc" #include "Lighting.cginc" #define INTERNAL_DATA #define WorldReflectionVector(data,normal) data.worldRefl #define WorldNormalVector(data,normal) normal // Original surface shader snippet: #line 11 "" #ifdef DUMMY_PREPROCESSOR_TO_WORK_AROUND_HLSL_COMPILER_LINE_HANDLING #endif /* UNITY: Original start of shader */ //#pragma surface surf BlinnPhong sampler2D _MainTex; fixed4 _Color; half _Shininess; struct Input { float2 uv_MainTex; }; void surf (Input IN, inout SurfaceOutput o) { fixed4 tex = tex2D(_MainTex, IN.uv_MainTex); o.Albedo = tex.rgb * _Color.rgb; o.Gloss = tex.a; o.Alpha = tex.a * _Color.a; o.Specular = _Shininess; } // vertex-to-fragment interpolation data struct v2f_surf { float4 pos : SV_POSITION; half3 worldNormal : TEXCOORD0; float3 worldPos : TEXCOORD1; UNITY_VERTEX_INPUT_INSTANCE_ID UNITY_VERTEX_OUTPUT_STEREO }; // vertex shader v2f_surf vert_surf (appdata_full v) { UNITY_SETUP_INSTANCE_ID(v); v2f_surf o; UNITY_INITIALIZE_OUTPUT(v2f_surf,o); UNITY_TRANSFER_INSTANCE_ID(v,o); UNITY_INITIALIZE_VERTEX_OUTPUT_STEREO(o); o.pos = UnityObjectToClipPos(v.vertex); float3 worldPos = mul(unity_ObjectToWorld, v.vertex).xyz; fixed3 worldNormal = UnityObjectToWorldNormal(v.normal); o.worldPos = worldPos; o.worldNormal = worldNormal; return o; } // fragment shader fixed4 frag_surf (v2f_surf IN) : SV_Target { UNITY_SETUP_INSTANCE_ID(IN); // prepare and unpack data Input surfIN; UNITY_INITIALIZE_OUTPUT(Input,surfIN); surfIN.uv_MainTex.x = 1.0; float3 worldPos = IN.worldPos; #ifndef USING_DIRECTIONAL_LIGHT fixed3 lightDir = normalize(UnityWorldSpaceLightDir(worldPos)); #else fixed3 lightDir = _WorldSpaceLightPos0.xyz; #endif #ifdef UNITY_COMPILER_HLSL SurfaceOutput o = (SurfaceOutput)0; #else SurfaceOutput o; #endif o.Albedo = 0.0; o.Emission = 0.0; o.Specular = 0.0; o.Alpha = 0.0; o.Gloss = 0.0; fixed3 normalWorldVertex = fixed3(0,0,1); o.Normal = IN.worldNormal; normalWorldVertex = IN.worldNormal; // call surface function surf (surfIN, o); // output normal and specular fixed4 res; res.rgb = o.Normal * 0.5 + 0.5; res.a = o.Specular; return res; } Assets/DefaultResourcesExtra˙˙˙˙w•6žhí~Ž$żĘ‘qDg SHADOWS_SOFTDIRLIGHTMAP_COMBINEDDIRLIGHTMAP_SEPARATEDYNAMICLIGHTMAP_ON INSTANCING_ON2,‘#pragma vertex vert #pragma fragment frag #pragma target 2.0 #include "UnityCG.cginc" #pragma multi_compile_fog #define USING_FOG (defined(FOG_LINEAR) || defined(FOG_EXP) || defined(FOG_EXP2)) // uniforms float4 unity_Lightmap_ST; float4 _MainTex_ST; // vertex shader input data struct appdata { float3 pos : POSITION; float3 uv1 : TEXCOORD1; float3 uv0 : TEXCOORD0; UNITY_VERTEX_INPUT_INSTANCE_ID }; // vertex-to-fragment interpolators struct v2f { fixed4 color : COLOR0; float2 uv0 : TEXCOORD0; float2 uv1 : TEXCOORD1; float2 uv2 : TEXCOORD2; #if USING_FOG fixed fog : TEXCOORD3; #endif float4 pos : SV_POSITION; UNITY_VERTEX_OUTPUT_STEREO }; // vertex shader v2f vert (appdata IN) { v2f o; UNITY_SETUP_INSTANCE_ID(IN); UNITY_INITIALIZE_VERTEX_OUTPUT_STEREO(o); half4 color = half4(0,0,0,1.1); float3 eyePos = mul (UNITY_MATRIX_MV, float4(IN.pos,1)).xyz; half3 viewDir = 0.0; o.color = saturate(color); // compute texture coordinates o.uv0 = IN.uv1.xy * unity_LightmapST.xy + unity_LightmapST.zw; o.uv1 = IN.uv1.xy * unity_Lightmap_ST.xy + unity_Lightmap_ST.zw; o.uv2 = IN.uv0.xy * _MainTex_ST.xy + _MainTex_ST.zw; // fog #if USING_FOG float fogCoord = length(eyePos.xyz); // radial fog distance UNITY_CALC_FOG_FACTOR_RAW(fogCoord); o.fog = saturate(unityFogFactor); #endif // transform position o.pos = UnityObjectToClipPos(IN.pos); return o; } // textures sampler2D _MainTex; fixed4 _Color; // fragment shader fixed4 frag (v2f IN) : SV_Target { fixed4 col; fixed4 tex, tmp0, tmp1, tmp2; // SetTexture #0 tex = UNITY_SAMPLE_TEX2D (unity_Lightmap, IN.uv0.xy); col = tex * tex.a; col *= 2; // SetTexture #1 tex = UNITY_SAMPLE_TEX2D (unity_Lightmap, IN.uv1.xy); col = col * _Color; // SetTexture #2 tex = tex2D (_MainTex, IN.uv2.xy); col.rgb = tex * col; col *= 4; col.a = fixed4(1,1,1,1).a; // fog #if USING_FOG col.rgb = lerp (unity_FogColor.rgb, col.rgb, IN.fog); #endif return col; } // texenvs //! TexEnv0: 02010105 02010105 [unity_Lightmap] usesLightmapST //! TexEnv1: 01000102 01000102 [unity_Lightmap] [_Color] //! TexEnv2: 04010100 01060004 [_MainTex] [ffffffff] ˙˙˙˙_ FOG_LINEARFOG_EXPFOG_EXP2_ FOG_LINEARFOG_EXPFOG_EXP2FOG_EXP FOG_EXP2 FOG_LINEAR9R†#line 122 "" #ifdef DUMMY_PREPROCESSOR_TO_WORK_AROUND_HLSL_COMPILER_LINE_HANDLING #endif // compile directives #pragma vertex vert_surf #pragma fragment frag_surf #pragma target 3.0 #pragma multi_compile_fog #pragma multi_compile_prepassfinal #include "HLSLSupport.cginc" #include "UnityShaderVariables.cginc" // Surface shader code generated based on: // writes to per-pixel normal: YES // writes to emission: no // writes to occlusion: no // needs world space reflection vector: no // needs world space normal vector: no // needs screen space position: no // needs world space position: no // needs view direction: no // needs world space view direction: no // needs world space position for lighting: YES // needs world space view direction for lighting: YES // needs world space view direction for lightmaps: no // needs vertex color: no // needs VFACE: no // passes tangent-to-world matrix to pixel shader: YES // reads from normal: no // 1 texcoords actually used // float2 _MainTex #define UNITY_PASS_PREPASSFINAL #include "UnityCG.cginc" #include "Lighting.cginc" #define INTERNAL_DATA #define WorldReflectionVector(data,normal) data.worldRefl #define WorldNormalVector(data,normal) normal // Original surface shader snippet: #line 11 sampler2D _MainTex; sampler2D _BumpMap; fixed4 _Color; half _Shininess; struct Input { float2 uv_MainTex; float2 uv_BumpMap; }; void surf (Input IN, inout SurfaceOutput o) { fixed4 tex = tex2D(_MainTex, IN.uv_MainTex); o.Albedo = tex.rgb * _Color.rgb; o.Gloss = tex.a; o.Alpha = tex.a * _Color.a; o.Specular = _Shininess; o.Normal = UnpackNormal(tex2D(_BumpMap, IN.uv_BumpMap)); } #line 33 "" #ifdef DUMMY_PREPROCESSOR_TO_WORK_AROUND_HLSL_COMPILER_LINE_HANDLING #endif /* UNITY: Original start of shader */ //#pragma surface surf BlinnPhong //#pragma target 3.0 // vertex-to-fragment interpolation data struct v2f_surf { float4 pos : SV_POSITION; float2 pack0 : TEXCOORD0; // _MainTex float3 worldPos : TEXCOORD1; float4 screen : TEXCOORD2; float4 lmap : TEXCOORD3; #ifndef LIGHTMAP_ON float3 vlight : TEXCOORD4; #else #ifdef DIRLIGHTMAP_OFF float4 lmapFadePos : TEXCOORD4; #endif #endif UNITY_FOG_COORDS(5) #if defined(LIGHTMAP_ON) && defined(DIRLIGHTMAP_COMBINED) fixed3 tSpace0 : TEXCOORD6; fixed3 tSpace1 : TEXCOORD7; fixed3 tSpace2 : TEXCOORD8; #endif UNITY_VERTEX_INPUT_INSTANCE_ID UNITY_VERTEX_OUTPUT_STEREO }; float4 _MainTex_ST; // vertex shader v2f_surf vert_surf (appdata_full v) { UNITY_SETUP_INSTANCE_ID(v); v2f_surf o; UNITY_INITIALIZE_OUTPUT(v2f_surf,o); UNITY_TRANSFER_INSTANCE_ID(v,o); UNITY_INITIALIZE_VERTEX_OUTPUT_STEREO(o); o.pos = UnityObjectToClipPos(v.vertex); o.pack0.xy = TRANSFORM_TEX(v.texcoord, _MainTex); float3 worldPos = mul(unity_ObjectToWorld, v.vertex).xyz; fixed3 worldNormal = UnityObjectToWorldNormal(v.normal); #if defined(LIGHTMAP_ON) && defined(DIRLIGHTMAP_COMBINED) fixed3 worldTangent = UnityObjectToWorldDir(v.tangent.xyz); fixed tangentSign = v.tangent.w * unity_WorldTransformParams.w; fixed3 worldBinormal = cross(worldNormal, worldTangent) * tangentSign; #endif #if defined(LIGHTMAP_ON) && defined(DIRLIGHTMAP_COMBINED) o.tSpace0 = float4(worldTangent.x, worldBinormal.x, worldNormal.x, worldPos.x); o.tSpace1 = float4(worldTangent.y, worldBinormal.y, worldNormal.y, worldPos.y); o.tSpace2 = float4(worldTangent.z, worldBinormal.z, worldNormal.z, worldPos.z); #endif o.worldPos = worldPos; o.screen = ComputeScreenPos (o.pos); #ifdef DYNAMICLIGHTMAP_ON o.lmap.zw = v.texcoord2.xy * unity_DynamicLightmapST.xy + unity_DynamicLightmapST.zw; #else o.lmap.zw = 0; #endif #ifdef LIGHTMAP_ON o.lmap.xy = v.texcoord1.xy * unity_LightmapST.xy + unity_LightmapST.zw; #ifdef DIRLIGHTMAP_OFF o.lmapFadePos.xyz = (mul(unity_ObjectToWorld, v.vertex).xyz - unity_ShadowFadeCenterAndType.xyz) * unity_ShadowFadeCenterAndType.w; o.lmapFadePos.w = (-UnityObjectToViewPos(v.vertex).z) * (1.0 - unity_ShadowFadeCenterAndType.w); #endif #else o.lmap.xy = 0; float3 worldN = UnityObjectToWorldNormal(v.normal); o.vlight = ShadeSH9 (float4(worldN,1.0)); #endif UNITY_TRANSFER_FOG(o,o.pos); // pass fog coordinates to pixel shader return o; } sampler2D _LightBuffer; sampler2D _CameraNormalsTexture; #ifdef LIGHTMAP_ON float4 unity_LightmapFade; #endif fixed4 unity_Ambient; // fragment shader fixed4 frag_surf (v2f_surf IN) : SV_Target { UNITY_SETUP_INSTANCE_ID(IN); // prepare and unpack data Input surfIN; UNITY_INITIALIZE_OUTPUT(Input,surfIN); surfIN.uv_MainTex.x = 1.0; surfIN.uv_BumpMap.x = 1.0; surfIN.uv_MainTex = IN.pack0.xy; float3 worldPos = IN.worldPos; #ifndef USING_DIRECTIONAL_LIGHT fixed3 lightDir = normalize(UnityWorldSpaceLightDir(worldPos)); #else fixed3 lightDir = _WorldSpaceLightPos0.xyz; #endif #ifdef UNITY_COMPILER_HLSL SurfaceOutput o = (SurfaceOutput)0; #else SurfaceOutput o; #endif o.Albedo = 0.0; o.Emission = 0.0; o.Specular = 0.0; o.Alpha = 0.0; o.Gloss = 0.0; fixed3 normalWorldVertex = fixed3(0,0,1); // call surface function surf (surfIN, o); half4 light = tex2Dproj (_LightBuffer, UNITY_PROJ_COORD(IN.screen)); #if defined (SHADER_API_MOBILE) light = max(light, half4(0.001, 0.001, 0.001, 0.001)); #endif #ifndef UNITY_HDR_ON light = -log2(light); #endif #ifdef LIGHTMAP_ON #ifdef DIRLIGHTMAP_OFF // single lightmap fixed4 lmtex = UNITY_SAMPLE_TEX2D(unity_Lightmap, IN.lmap.xy); fixed3 lm = DecodeLightmap (lmtex); light.rgb += lm; #elif DIRLIGHTMAP_COMBINED half4 nspec = tex2Dproj (_CameraNormalsTexture, UNITY_PROJ_COORD(IN.screen)); half3 normal = nspec.rgb * 2 - 1; o.Normal = normalize(normal); // directional lightmaps fixed4 lmtex = UNITY_SAMPLE_TEX2D(unity_Lightmap, IN.lmap.xy); fixed4 lmIndTex = UNITY_SAMPLE_TEX2D_SAMPLER(unity_LightmapInd, unity_Lightmap, IN.lmap.xy); half4 lm = half4(DecodeDirectionalLightmap (DecodeLightmap(lmtex), lmIndTex, o.Normal), 0); light += lm; #elif DIRLIGHTMAP_SEPARATE // directional with specular - no support #endif // DIRLIGHTMAP_OFF #else light.rgb += IN.vlight; #endif // LIGHTMAP_ON #ifdef DYNAMICLIGHTMAP_ON fixed4 dynlmtex = UNITY_SAMPLE_TEX2D(unity_DynamicLightmap, IN.lmap.zw); light.rgb += DecodeRealtimeLightmap (dynlmtex); #endif half4 c = LightingBlinnPhong_PrePass (o, light); UNITY_APPLY_FOG(IN.fogCoord, c); // apply fog UNITY_OPAQUE_ALPHA(c.a); return c; } Assets/DefaultResourcesExtra˙˙˙˙|•6žhí~Ž$żĘ‘qDg__ FOG_LINEARFOG_EXPFOG_EXP2__ FOG_LINEARFOG_EXPFOG_EXP2DYNAMICLIGHTMAP_ON LIGHTMAP_ON LIGHTMAP_ONDYNAMICLIGHTMAP_ONDIRLIGHTMAP_COMBINEDDYNAMICLIGHTMAP_ON LIGHTMAP_ONDIRLIGHTMAP_COMBINED LIGHTMAP_ONDIRLIGHTMAP_COMBINEDDYNAMICLIGHTMAP_ONDIRLIGHTMAP_SEPARATEDYNAMICLIGHTMAP_ON LIGHTMAP_ONDIRLIGHTMAP_SEPARATE LIGHTMAP_ONDIRLIGHTMAP_SEPARATEDYNAMICLIGHTMAP_ON UNITY_HDR_ONDYNAMICLIGHTMAP_ON UNITY_HDR_ON LIGHTMAP_ON UNITY_HDR_ON LIGHTMAP_ONDYNAMICLIGHTMAP_ON UNITY_HDR_ONDIRLIGHTMAP_COMBINEDDYNAMICLIGHTMAP_ON UNITY_HDR_ON LIGHTMAP_ONDIRLIGHTMAP_COMBINED UNITY_HDR_ON LIGHTMAP_ONDIRLIGHTMAP_COMBINEDDYNAMICLIGHTMAP_ON UNITY_HDR_ONDIRLIGHTMAP_SEPARATEDYNAMICLIGHTMAP_ON UNITY_HDR_ON LIGHTMAP_ONDIRLIGHTMAP_SEPARATE UNITY_HDR_ON LIGHTMAP_ONDIRLIGHTMAP_SEPARATEDYNAMICLIGHTMAP_ON UNITY_HDR_ONDYNAMICLIGHTMAP_ON LIGHTMAP_ON LIGHTMAP_ONDYNAMICLIGHTMAP_ONDIRLIGHTMAP_COMBINEDDYNAMICLIGHTMAP_ON LIGHTMAP_ONDIRLIGHTMAP_COMBINED LIGHTMAP_ONDIRLIGHTMAP_COMBINEDDYNAMICLIGHTMAP_ONDIRLIGHTMAP_SEPARATEDYNAMICLIGHTMAP_ON LIGHTMAP_ONDIRLIGHTMAP_SEPARATE LIGHTMAP_ONDIRLIGHTMAP_SEPARATEDYNAMICLIGHTMAP_ON UNITY_HDR_ONDYNAMICLIGHTMAP_ON UNITY_HDR_ON LIGHTMAP_ON UNITY_HDR_ON LIGHTMAP_ONDYNAMICLIGHTMAP_ON UNITY_HDR_ONDIRLIGHTMAP_COMBINEDDYNAMICLIGHTMAP_ON UNITY_HDR_ON LIGHTMAP_ONDIRLIGHTMAP_COMBINED UNITY_HDR_ON LIGHTMAP_ONDIRLIGHTMAP_COMBINEDDYNAMICLIGHTMAP_ON UNITY_HDR_ONDIRLIGHTMAP_SEPARATEDYNAMICLIGHTMAP_ON UNITY_HDR_ON LIGHTMAP_ONDIRLIGHTMAP_SEPARATE UNITY_HDR_ON LIGHTMAP_ONDIRLIGHTMAP_SEPARATEDYNAMICLIGHTMAP_ON UNITY_HDR_ON SHADOWS_SOFTDIRLIGHTMAP_COMBINEDDIRLIGHTMAP_SEPARATEDYNAMICLIGHTMAP_ON INSTANCING_ONFOG_EXP FOG_EXP2 FOG_LINEARUDIRLIGHTMAP_COMBINED DIRLIGHTMAP_SEPARATE DYNAMICLIGHTMAP_ON LIGHTMAP_ON UNITY_HDR_ONź>#line 102 "" #ifdef DUMMY_PREPROCESSOR_TO_WORK_AROUND_HLSL_COMPILER_LINE_HANDLING #endif // compile directives #pragma vertex vert_surf #pragma fragment frag_surf #pragma multi_compile_fog #pragma multi_compile_prepassfinal #include "HLSLSupport.cginc" #include "UnityShaderVariables.cginc" // Surface shader code generated based on: // writes to per-pixel normal: no // writes to emission: no // writes to occlusion: no // needs world space reflection vector: no // needs world space normal vector: no // needs screen space position: no // needs world space position: no // needs view direction: no // needs world space view direction: no // needs world space position for lighting: YES // needs world space view direction for lighting: YES // needs world space view direction for lightmaps: no // needs vertex color: no // needs VFACE: no // passes tangent-to-world matrix to pixel shader: no // reads from normal: no // 1 texcoords actually used // float2 _MainTex #define UNITY_PASS_PREPASSFINAL #include "UnityCG.cginc" #include "Lighting.cginc" #define INTERNAL_DATA #define WorldReflectionVector(data,normal) data.worldRefl #define WorldNormalVector(data,normal) normal // Original surface shader snippet: #line 11 "" #ifdef DUMMY_PREPROCESSOR_TO_WORK_AROUND_HLSL_COMPILER_LINE_HANDLING #endif /* UNITY: Original start of shader */ //#pragma surface surf BlinnPhong sampler2D _MainTex; fixed4 _Color; half _Shininess; struct Input { float2 uv_MainTex; }; void surf (Input IN, inout SurfaceOutput o) { fixed4 tex = tex2D(_MainTex, IN.uv_MainTex); o.Albedo = tex.rgb * _Color.rgb; o.Gloss = tex.a; o.Alpha = tex.a * _Color.a; o.Specular = _Shininess; } // vertex-to-fragment interpolation data struct v2f_surf { float4 pos : SV_POSITION; float2 pack0 : TEXCOORD0; // _MainTex float3 worldPos : TEXCOORD1; float4 screen : TEXCOORD2; float4 lmap : TEXCOORD3; #ifndef LIGHTMAP_ON float3 vlight : TEXCOORD4; #else #ifdef DIRLIGHTMAP_OFF float4 lmapFadePos : TEXCOORD4; #endif #endif UNITY_FOG_COORDS(5) #if defined(LIGHTMAP_ON) && defined(DIRLIGHTMAP_COMBINED) fixed3 tSpace0 : TEXCOORD6; fixed3 tSpace1 : TEXCOORD7; fixed3 tSpace2 : TEXCOORD8; #endif UNITY_VERTEX_INPUT_INSTANCE_ID UNITY_VERTEX_OUTPUT_STEREO }; float4 _MainTex_ST; // vertex shader v2f_surf vert_surf (appdata_full v) { UNITY_SETUP_INSTANCE_ID(v); v2f_surf o; UNITY_INITIALIZE_OUTPUT(v2f_surf,o); UNITY_TRANSFER_INSTANCE_ID(v,o); UNITY_INITIALIZE_VERTEX_OUTPUT_STEREO(o); o.pos = UnityObjectToClipPos(v.vertex); o.pack0.xy = TRANSFORM_TEX(v.texcoord, _MainTex); float3 worldPos = mul(unity_ObjectToWorld, v.vertex).xyz; fixed3 worldNormal = UnityObjectToWorldNormal(v.normal); #if defined(LIGHTMAP_ON) && defined(DIRLIGHTMAP_COMBINED) fixed3 worldTangent = UnityObjectToWorldDir(v.tangent.xyz); fixed tangentSign = v.tangent.w * unity_WorldTransformParams.w; fixed3 worldBinormal = cross(worldNormal, worldTangent) * tangentSign; #endif #if defined(LIGHTMAP_ON) && defined(DIRLIGHTMAP_COMBINED) o.tSpace0 = float4(worldTangent.x, worldBinormal.x, worldNormal.x, worldPos.x); o.tSpace1 = float4(worldTangent.y, worldBinormal.y, worldNormal.y, worldPos.y); o.tSpace2 = float4(worldTangent.z, worldBinormal.z, worldNormal.z, worldPos.z); #endif o.worldPos = worldPos; o.screen = ComputeScreenPos (o.pos); #ifdef DYNAMICLIGHTMAP_ON o.lmap.zw = v.texcoord2.xy * unity_DynamicLightmapST.xy + unity_DynamicLightmapST.zw; #else o.lmap.zw = 0; #endif #ifdef LIGHTMAP_ON o.lmap.xy = v.texcoord1.xy * unity_LightmapST.xy + unity_LightmapST.zw; #ifdef DIRLIGHTMAP_OFF o.lmapFadePos.xyz = (mul(unity_ObjectToWorld, v.vertex).xyz - unity_ShadowFadeCenterAndType.xyz) * unity_ShadowFadeCenterAndType.w; o.lmapFadePos.w = (-UnityObjectToViewPos(v.vertex).z) * (1.0 - unity_ShadowFadeCenterAndType.w); #endif #else o.lmap.xy = 0; float3 worldN = UnityObjectToWorldNormal(v.normal); o.vlight = ShadeSH9 (float4(worldN,1.0)); #endif UNITY_TRANSFER_FOG(o,o.pos); // pass fog coordinates to pixel shader return o; } sampler2D _LightBuffer; sampler2D _CameraNormalsTexture; #ifdef LIGHTMAP_ON float4 unity_LightmapFade; #endif fixed4 unity_Ambient; // fragment shader fixed4 frag_surf (v2f_surf IN) : SV_Target { UNITY_SETUP_INSTANCE_ID(IN); // prepare and unpack data Input surfIN; UNITY_INITIALIZE_OUTPUT(Input,surfIN); surfIN.uv_MainTex.x = 1.0; surfIN.uv_MainTex = IN.pack0.xy; float3 worldPos = IN.worldPos; #ifndef USING_DIRECTIONAL_LIGHT fixed3 lightDir = normalize(UnityWorldSpaceLightDir(worldPos)); #else fixed3 lightDir = _WorldSpaceLightPos0.xyz; #endif #ifdef UNITY_COMPILER_HLSL SurfaceOutput o = (SurfaceOutput)0; #else SurfaceOutput o; #endif o.Albedo = 0.0; o.Emission = 0.0; o.Specular = 0.0; o.Alpha = 0.0; o.Gloss = 0.0; fixed3 normalWorldVertex = fixed3(0,0,1); // call surface function surf (surfIN, o); half4 light = tex2Dproj (_LightBuffer, UNITY_PROJ_COORD(IN.screen)); #if defined (SHADER_API_MOBILE) light = max(light, half4(0.001, 0.001, 0.001, 0.001)); #endif #ifndef UNITY_HDR_ON light = -log2(light); #endif #ifdef LIGHTMAP_ON #ifdef DIRLIGHTMAP_OFF // single lightmap fixed4 lmtex = UNITY_SAMPLE_TEX2D(unity_Lightmap, IN.lmap.xy); fixed3 lm = DecodeLightmap (lmtex); light.rgb += lm; #elif DIRLIGHTMAP_COMBINED half4 nspec = tex2Dproj (_CameraNormalsTexture, UNITY_PROJ_COORD(IN.screen)); half3 normal = nspec.rgb * 2 - 1; o.Normal = normalize(normal); // directional lightmaps fixed4 lmtex = UNITY_SAMPLE_TEX2D(unity_Lightmap, IN.lmap.xy); half4 lm = half4(DecodeLightmap(lmtex), 0); light += lm; #elif DIRLIGHTMAP_SEPARATE // directional with specular - no support #endif // DIRLIGHTMAP_OFF #else light.rgb += IN.vlight; #endif // LIGHTMAP_ON #ifdef DYNAMICLIGHTMAP_ON fixed4 dynlmtex = UNITY_SAMPLE_TEX2D(unity_DynamicLightmap, IN.lmap.zw); light.rgb += DecodeRealtimeLightmap (dynlmtex); #endif half4 c = LightingBlinnPhong_PrePass (o, light); UNITY_APPLY_FOG(IN.fogCoord, c); // apply fog UNITY_OPAQUE_ALPHA(c.a); return c; } Assets/DefaultResourcesExtra˙˙˙˙h•6žhí~Ž$żĘ‘qDg__ FOG_LINEARFOG_EXPFOG_EXP2__ FOG_LINEARFOG_EXPFOG_EXP2DYNAMICLIGHTMAP_ON LIGHTMAP_ON LIGHTMAP_ONDYNAMICLIGHTMAP_ONDIRLIGHTMAP_COMBINEDDYNAMICLIGHTMAP_ON LIGHTMAP_ONDIRLIGHTMAP_COMBINED LIGHTMAP_ONDIRLIGHTMAP_COMBINEDDYNAMICLIGHTMAP_ONDIRLIGHTMAP_SEPARATEDYNAMICLIGHTMAP_ON LIGHTMAP_ONDIRLIGHTMAP_SEPARATE LIGHTMAP_ONDIRLIGHTMAP_SEPARATEDYNAMICLIGHTMAP_ON UNITY_HDR_ONDYNAMICLIGHTMAP_ON UNITY_HDR_ON LIGHTMAP_ON UNITY_HDR_ON LIGHTMAP_ONDYNAMICLIGHTMAP_ON UNITY_HDR_ONDIRLIGHTMAP_COMBINEDDYNAMICLIGHTMAP_ON UNITY_HDR_ON LIGHTMAP_ONDIRLIGHTMAP_COMBINED UNITY_HDR_ON LIGHTMAP_ONDIRLIGHTMAP_COMBINEDDYNAMICLIGHTMAP_ON UNITY_HDR_ONDIRLIGHTMAP_SEPARATEDYNAMICLIGHTMAP_ON UNITY_HDR_ON LIGHTMAP_ONDIRLIGHTMAP_SEPARATE UNITY_HDR_ON LIGHTMAP_ONDIRLIGHTMAP_SEPARATEDYNAMICLIGHTMAP_ON UNITY_HDR_ONDYNAMICLIGHTMAP_ON LIGHTMAP_ON LIGHTMAP_ONDYNAMICLIGHTMAP_ONDIRLIGHTMAP_COMBINEDDYNAMICLIGHTMAP_ON LIGHTMAP_ONDIRLIGHTMAP_COMBINED LIGHTMAP_ONDIRLIGHTMAP_COMBINEDDYNAMICLIGHTMAP_ONDIRLIGHTMAP_SEPARATEDYNAMICLIGHTMAP_ON LIGHTMAP_ONDIRLIGHTMAP_SEPARATE LIGHTMAP_ONDIRLIGHTMAP_SEPARATEDYNAMICLIGHTMAP_ON UNITY_HDR_ONDYNAMICLIGHTMAP_ON UNITY_HDR_ON LIGHTMAP_ON UNITY_HDR_ON LIGHTMAP_ONDYNAMICLIGHTMAP_ON UNITY_HDR_ONDIRLIGHTMAP_COMBINEDDYNAMICLIGHTMAP_ON UNITY_HDR_ON LIGHTMAP_ONDIRLIGHTMAP_COMBINED UNITY_HDR_ON LIGHTMAP_ONDIRLIGHTMAP_COMBINEDDYNAMICLIGHTMAP_ON UNITY_HDR_ONDIRLIGHTMAP_SEPARATEDYNAMICLIGHTMAP_ON UNITY_HDR_ON LIGHTMAP_ONDIRLIGHTMAP_SEPARATE UNITY_HDR_ON LIGHTMAP_ONDIRLIGHTMAP_SEPARATEDYNAMICLIGHTMAP_ON UNITY_HDR_ON SHADOWS_SOFTDIRLIGHTMAP_COMBINEDDIRLIGHTMAP_SEPARATEDYNAMICLIGHTMAP_ON INSTANCING_ONFOG_EXP FOG_EXP2 FOG_LINEARUDIRLIGHTMAP_COMBINED DIRLIGHTMAP_SEPARATE DYNAMICLIGHTMAP_ON LIGHTMAP_ON UNITY_HDR_ONÍę-'#line 231 "" #ifdef DUMMY_PREPROCESSOR_TO_WORK_AROUND_HLSL_COMPILER_LINE_HANDLING #endif // compile directives #pragma vertex tessvert_surf #pragma fragment frag_surf #pragma hull hs_surf #pragma domain ds_surf #pragma multi_compile_fog #pragma multi_compile_prepassfinal #include "HLSLSupport.cginc" #include "UnityShaderVariables.cginc" // Surface shader code generated based on: // vertex modifier: 'disp' // writes to per-pixel normal: YES // writes to emission: no // writes to occlusion: no // needs world space reflection vector: no // needs world space normal vector: no // needs screen space position: no // needs world space position: no // needs view direction: no // needs world space view direction: no // needs world space position for lighting: YES // needs world space view direction for lighting: YES // needs world space view direction for lightmaps: no // needs vertex color: no // needs VFACE: no // passes tangent-to-world matrix to pixel shader: YES // reads from normal: no // 1 texcoords actually used // float2 _MainTex #define UNITY_PASS_PREPASSFINAL #include "UnityCG.cginc" #include "Lighting.cginc" #define INTERNAL_DATA #define WorldReflectionVector(data,normal) data.worldRefl #define WorldNormalVector(data,normal) normal // Original surface shader snippet: #line 14 "" #ifdef DUMMY_PREPROCESSOR_TO_WORK_AROUND_HLSL_COMPILER_LINE_HANDLING #endif /* UNITY: Original start of shader */ //#pragma surface surf BlinnPhong addshadow vertex:disp tessellate:tessEdge tessphong:_Smoothness #include "Tessellation.cginc" struct appdata { float4 vertex : POSITION; float4 tangent : TANGENT; float3 normal : NORMAL; float2 texcoord : TEXCOORD0; float2 texcoord1 : TEXCOORD1; float2 texcoord2 : TEXCOORD2; }; float _EdgeLength; float _Smoothness; float4 tessEdge (appdata v0, appdata v1, appdata v2) { return UnityEdgeLengthBasedTessCull (v0.vertex, v1.vertex, v2.vertex, _EdgeLength, 0.0); } void disp (inout appdata v) { // do nothing } sampler2D _MainTex; sampler2D _BumpMap; fixed4 _Color; half _Shininess; struct Input { float2 uv_MainTex; float2 uv_BumpMap; }; void surf (Input IN, inout SurfaceOutput o) { fixed4 tex = tex2D(_MainTex, IN.uv_MainTex); o.Albedo = tex.rgb * _Color.rgb; o.Gloss = tex.a; o.Alpha = tex.a * _Color.a; o.Specular = _Shininess; o.Normal = UnpackNormal(tex2D(_BumpMap, IN.uv_BumpMap)); } #ifdef UNITY_CAN_COMPILE_TESSELLATION // tessellation vertex shader struct InternalTessInterp_appdata { float4 vertex : INTERNALTESSPOS; float4 tangent : TANGENT; float3 normal : NORMAL; float2 texcoord : TEXCOORD0; float2 texcoord1 : TEXCOORD1; float2 texcoord2 : TEXCOORD2; }; InternalTessInterp_appdata tessvert_surf (appdata v) { InternalTessInterp_appdata o; o.vertex = v.vertex; o.tangent = v.tangent; o.normal = v.normal; o.texcoord = v.texcoord; o.texcoord1 = v.texcoord1; o.texcoord2 = v.texcoord2; return o; } // tessellation hull constant shader UnityTessellationFactors hsconst_surf (InputPatch v) { UnityTessellationFactors o; float4 tf; appdata vi[3]; vi[0].vertex = v[0].vertex; vi[0].tangent = v[0].tangent; vi[0].normal = v[0].normal; vi[0].texcoord = v[0].texcoord; vi[0].texcoord1 = v[0].texcoord1; vi[0].texcoord2 = v[0].texcoord2; vi[1].vertex = v[1].vertex; vi[1].tangent = v[1].tangent; vi[1].normal = v[1].normal; vi[1].texcoord = v[1].texcoord; vi[1].texcoord1 = v[1].texcoord1; vi[1].texcoord2 = v[1].texcoord2; vi[2].vertex = v[2].vertex; vi[2].tangent = v[2].tangent; vi[2].normal = v[2].normal; vi[2].texcoord = v[2].texcoord; vi[2].texcoord1 = v[2].texcoord1; vi[2].texcoord2 = v[2].texcoord2; tf = tessEdge(vi[0], vi[1], vi[2]); o.edge[0] = tf.x; o.edge[1] = tf.y; o.edge[2] = tf.z; o.inside = tf.w; return o; } // tessellation hull shader [UNITY_domain("tri")] [UNITY_partitioning("fractional_odd")] [UNITY_outputtopology("triangle_cw")] [UNITY_patchconstantfunc("hsconst_surf")] [UNITY_outputcontrolpoints(3)] InternalTessInterp_appdata hs_surf (InputPatch v, uint id : SV_OutputControlPointID) { return v[id]; } #endif // UNITY_CAN_COMPILE_TESSELLATION // vertex-to-fragment interpolation data struct v2f_surf { float4 pos : SV_POSITION; float2 pack0 : TEXCOORD0; // _MainTex float3 worldPos : TEXCOORD1; float4 screen : TEXCOORD2; float4 lmap : TEXCOORD3; #ifndef LIGHTMAP_ON float3 vlight : TEXCOORD4; #else #ifdef DIRLIGHTMAP_OFF float4 lmapFadePos : TEXCOORD4; #endif #endif UNITY_FOG_COORDS(5) #if defined(LIGHTMAP_ON) && defined(DIRLIGHTMAP_COMBINED) fixed3 tSpace0 : TEXCOORD6; fixed3 tSpace1 : TEXCOORD7; fixed3 tSpace2 : TEXCOORD8; #endif UNITY_VERTEX_INPUT_INSTANCE_ID UNITY_VERTEX_OUTPUT_STEREO }; float4 _MainTex_ST; // vertex shader v2f_surf vert_surf (appdata v) { UNITY_SETUP_INSTANCE_ID(v); v2f_surf o; UNITY_INITIALIZE_OUTPUT(v2f_surf,o); UNITY_TRANSFER_INSTANCE_ID(v,o); UNITY_INITIALIZE_VERTEX_OUTPUT_STEREO(o); o.pos = UnityObjectToClipPos(v.vertex); o.pack0.xy = TRANSFORM_TEX(v.texcoord, _MainTex); float3 worldPos = mul(unity_ObjectToWorld, v.vertex).xyz; fixed3 worldNormal = UnityObjectToWorldNormal(v.normal); #if defined(LIGHTMAP_ON) && defined(DIRLIGHTMAP_COMBINED) fixed3 worldTangent = UnityObjectToWorldDir(v.tangent.xyz); fixed tangentSign = v.tangent.w * unity_WorldTransformParams.w; fixed3 worldBinormal = cross(worldNormal, worldTangent) * tangentSign; #endif #if defined(LIGHTMAP_ON) && defined(DIRLIGHTMAP_COMBINED) o.tSpace0 = float4(worldTangent.x, worldBinormal.x, worldNormal.x, worldPos.x); o.tSpace1 = float4(worldTangent.y, worldBinormal.y, worldNormal.y, worldPos.y); o.tSpace2 = float4(worldTangent.z, worldBinormal.z, worldNormal.z, worldPos.z); #endif o.worldPos = worldPos; o.screen = ComputeScreenPos (o.pos); #ifdef DYNAMICLIGHTMAP_ON o.lmap.zw = v.texcoord2.xy * unity_DynamicLightmapST.xy + unity_DynamicLightmapST.zw; #else o.lmap.zw = 0; #endif #ifdef LIGHTMAP_ON o.lmap.xy = v.texcoord1.xy * unity_LightmapST.xy + unity_LightmapST.zw; #ifdef DIRLIGHTMAP_OFF o.lmapFadePos.xyz = (mul(unity_ObjectToWorld, v.vertex).xyz - unity_ShadowFadeCenterAndType.xyz) * unity_ShadowFadeCenterAndType.w; o.lmapFadePos.w = (-UnityObjectToViewPos(v.vertex).z) * (1.0 - unity_ShadowFadeCenterAndType.w); #endif #else o.lmap.xy = 0; float3 worldN = UnityObjectToWorldNormal(v.normal); o.vlight = ShadeSH9 (float4(worldN,1.0)); #endif UNITY_TRANSFER_FOG(o,o.pos); // pass fog coordinates to pixel shader return o; } #ifdef UNITY_CAN_COMPILE_TESSELLATION // tessellation domain shader [UNITY_domain("tri")] v2f_surf ds_surf (UnityTessellationFactors tessFactors, const OutputPatch vi, float3 bary : SV_DomainLocation) { appdata v; v.vertex = vi[0].vertex*bary.x + vi[1].vertex*bary.y + vi[2].vertex*bary.z; float3 pp[3]; for (int i = 0; i < 3; ++i) pp[i] = v.vertex.xyz - vi[i].normal * (dot(v.vertex.xyz, vi[i].normal) - dot(vi[i].vertex.xyz, vi[i].normal)); v.vertex.xyz = _Smoothness * (pp[0]*bary.x + pp[1]*bary.y + pp[2]*bary.z) + (1.0f-_Smoothness) * v.vertex.xyz; v.tangent = vi[0].tangent*bary.x + vi[1].tangent*bary.y + vi[2].tangent*bary.z; v.normal = vi[0].normal*bary.x + vi[1].normal*bary.y + vi[2].normal*bary.z; v.texcoord = vi[0].texcoord*bary.x + vi[1].texcoord*bary.y + vi[2].texcoord*bary.z; v.texcoord1 = vi[0].texcoord1*bary.x + vi[1].texcoord1*bary.y + vi[2].texcoord1*bary.z; v.texcoord2 = vi[0].texcoord2*bary.x + vi[1].texcoord2*bary.y + vi[2].texcoord2*bary.z; disp (v); v2f_surf o = vert_surf (v); return o; } #endif // UNITY_CAN_COMPILE_TESSELLATION sampler2D _LightBuffer; sampler2D _CameraNormalsTexture; #ifdef LIGHTMAP_ON float4 unity_LightmapFade; #endif fixed4 unity_Ambient; // fragment shader fixed4 frag_surf (v2f_surf IN) : SV_Target { UNITY_SETUP_INSTANCE_ID(IN); // prepare and unpack data Input surfIN; UNITY_INITIALIZE_OUTPUT(Input,surfIN); surfIN.uv_MainTex.x = 1.0; surfIN.uv_BumpMap.x = 1.0; surfIN.uv_MainTex = IN.pack0.xy; float3 worldPos = IN.worldPos; #ifndef USING_DIRECTIONAL_LIGHT fixed3 lightDir = normalize(UnityWorldSpaceLightDir(worldPos)); #else fixed3 lightDir = _WorldSpaceLightPos0.xyz; #endif #ifdef UNITY_COMPILER_HLSL SurfaceOutput o = (SurfaceOutput)0; #else SurfaceOutput o; #endif o.Albedo = 0.0; o.Emission = 0.0; o.Specular = 0.0; o.Alpha = 0.0; o.Gloss = 0.0; fixed3 normalWorldVertex = fixed3(0,0,1); // call surface function surf (surfIN, o); half4 light = tex2Dproj (_LightBuffer, UNITY_PROJ_COORD(IN.screen)); #if defined (SHADER_API_MOBILE) light = max(light, half4(0.001, 0.001, 0.001, 0.001)); #endif #ifndef UNITY_HDR_ON light = -log2(light); #endif #ifdef LIGHTMAP_ON #ifdef DIRLIGHTMAP_OFF // single lightmap fixed4 lmtex = UNITY_SAMPLE_TEX2D(unity_Lightmap, IN.lmap.xy); fixed3 lm = DecodeLightmap (lmtex); light.rgb += lm; #elif DIRLIGHTMAP_COMBINED half4 nspec = tex2Dproj (_CameraNormalsTexture, UNITY_PROJ_COORD(IN.screen)); half3 normal = nspec.rgb * 2 - 1; o.Normal = normalize(normal); // directional lightmaps fixed4 lmtex = UNITY_SAMPLE_TEX2D(unity_Lightmap, IN.lmap.xy); fixed4 lmIndTex = UNITY_SAMPLE_TEX2D_SAMPLER(unity_LightmapInd, unity_Lightmap, IN.lmap.xy); half4 lm = half4(DecodeDirectionalLightmap (DecodeLightmap(lmtex), lmIndTex, o.Normal), 0); light += lm; #elif DIRLIGHTMAP_SEPARATE // directional with specular - no support #endif // DIRLIGHTMAP_OFF #else light.rgb += IN.vlight; #endif // LIGHTMAP_ON #ifdef DYNAMICLIGHTMAP_ON fixed4 dynlmtex = UNITY_SAMPLE_TEX2D(unity_DynamicLightmap, IN.lmap.zw); light.rgb += DecodeRealtimeLightmap (dynlmtex); #endif half4 c = LightingBlinnPhong_PrePass (o, light); UNITY_APPLY_FOG(IN.fogCoord, c); // apply fog UNITY_OPAQUE_ALPHA(c.a); return c; } :Assets/Standard Assets/Effects/TessellationShaders/ShadersÚ醘#<ˆ㛓wÇDŘ2K__ FOG_LINEARFOG_EXPFOG_EXP2__ FOG_LINEARFOG_EXPFOG_EXP2__ FOG_LINEARFOG_EXPFOG_EXP2__ FOG_LINEARFOG_EXPFOG_EXP2DYNAMICLIGHTMAP_ON LIGHTMAP_ON LIGHTMAP_ONDYNAMICLIGHTMAP_ONDIRLIGHTMAP_COMBINEDDYNAMICLIGHTMAP_ON LIGHTMAP_ONDIRLIGHTMAP_COMBINED LIGHTMAP_ONDIRLIGHTMAP_COMBINEDDYNAMICLIGHTMAP_ONDIRLIGHTMAP_SEPARATEDYNAMICLIGHTMAP_ON LIGHTMAP_ONDIRLIGHTMAP_SEPARATE LIGHTMAP_ONDIRLIGHTMAP_SEPARATEDYNAMICLIGHTMAP_ON UNITY_HDR_ONDYNAMICLIGHTMAP_ON UNITY_HDR_ON LIGHTMAP_ON UNITY_HDR_ON 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LIGHTMAP_ONDIRLIGHTMAP_COMBINEDDYNAMICLIGHTMAP_ONDIRLIGHTMAP_SEPARATEDYNAMICLIGHTMAP_ON LIGHTMAP_ONDIRLIGHTMAP_SEPARATE LIGHTMAP_ONDIRLIGHTMAP_SEPARATEDYNAMICLIGHTMAP_ON UNITY_HDR_ONDYNAMICLIGHTMAP_ON UNITY_HDR_ON LIGHTMAP_ON UNITY_HDR_ON LIGHTMAP_ONDYNAMICLIGHTMAP_ON UNITY_HDR_ONDIRLIGHTMAP_COMBINEDDYNAMICLIGHTMAP_ON UNITY_HDR_ON LIGHTMAP_ONDIRLIGHTMAP_COMBINED UNITY_HDR_ON LIGHTMAP_ONDIRLIGHTMAP_COMBINEDDYNAMICLIGHTMAP_ON UNITY_HDR_ONDIRLIGHTMAP_SEPARATEDYNAMICLIGHTMAP_ON UNITY_HDR_ON LIGHTMAP_ONDIRLIGHTMAP_SEPARATE UNITY_HDR_ON LIGHTMAP_ONDIRLIGHTMAP_SEPARATEDYNAMICLIGHTMAP_ON UNITY_HDR_ON SHADOWS_SOFTDIRLIGHTMAP_COMBINEDDIRLIGHTMAP_SEPARATEDYNAMICLIGHTMAP_ON INSTANCING_ONFOG_EXP FOG_EXP2 FOG_LINEARUDIRLIGHTMAP_COMBINED DIRLIGHTMAP_SEPARATE DYNAMICLIGHTMAP_ON LIGHTMAP_ON UNITY_HDR_ON5=ĺ)#line 299 "" #ifdef DUMMY_PREPROCESSOR_TO_WORK_AROUND_HLSL_COMPILER_LINE_HANDLING #endif // compile directives #pragma vertex tessvert_surf #pragma fragment frag_surf #pragma hull hs_surf #pragma domain ds_surf #pragma exclude_renderers nomrt #pragma multi_compile_prepassfinal #pragma skip_variants FOG_LINEAR FOG_EXP FOG_EXP2 #include "HLSLSupport.cginc" #include "UnityShaderVariables.cginc" // Surface shader code generated based on: // vertex modifier: 'disp' // writes to per-pixel normal: YES // writes to emission: no // writes to occlusion: no // needs world space reflection vector: no // needs world space normal vector: no // needs screen space position: no // needs world space position: no // needs view direction: no // needs world space view direction: no // needs world space position for lighting: YES // needs world space view direction for lighting: YES // needs world space view direction for lightmaps: no // needs vertex color: no // needs VFACE: no // passes tangent-to-world matrix to pixel shader: YES // reads from normal: no // 2 texcoords actually used // float2 _MainTex // float2 _BumpMap #define UNITY_PASS_DEFERRED #include "UnityCG.cginc" #include "Lighting.cginc" #define INTERNAL_DATA half3 internalSurfaceTtoW0; half3 internalSurfaceTtoW1; half3 internalSurfaceTtoW2; #define WorldReflectionVector(data,normal) reflect (data.worldRefl, half3(dot(data.internalSurfaceTtoW0,normal), dot(data.internalSurfaceTtoW1,normal), dot(data.internalSurfaceTtoW2,normal))) #define WorldNormalVector(data,normal) fixed3(dot(data.internalSurfaceTtoW0,normal), dot(data.internalSurfaceTtoW1,normal), dot(data.internalSurfaceTtoW2,normal)) // Original surface shader snippet: #line 14 "" #ifdef DUMMY_PREPROCESSOR_TO_WORK_AROUND_HLSL_COMPILER_LINE_HANDLING #endif /* UNITY: Original start of shader */ //#pragma surface surf BlinnPhong addshadow vertex:disp tessellate:tessEdge tessphong:_Smoothness #include "Tessellation.cginc" struct appdata { float4 vertex : POSITION; float4 tangent : TANGENT; float3 normal : NORMAL; float2 texcoord : TEXCOORD0; float2 texcoord1 : TEXCOORD1; float2 texcoord2 : TEXCOORD2; }; float _EdgeLength; float _Smoothness; float4 tessEdge (appdata v0, appdata v1, appdata v2) { return UnityEdgeLengthBasedTessCull (v0.vertex, v1.vertex, v2.vertex, _EdgeLength, 0.0); } void disp (inout appdata v) { // do nothing } sampler2D _MainTex; sampler2D _BumpMap; fixed4 _Color; half _Shininess; struct Input { float2 uv_MainTex; float2 uv_BumpMap; }; void surf (Input IN, inout SurfaceOutput o) { fixed4 tex = tex2D(_MainTex, IN.uv_MainTex); o.Albedo = tex.rgb * _Color.rgb; o.Gloss = tex.a; o.Alpha = tex.a * _Color.a; o.Specular = _Shininess; o.Normal = UnpackNormal(tex2D(_BumpMap, IN.uv_BumpMap)); } #ifdef UNITY_CAN_COMPILE_TESSELLATION // tessellation vertex shader struct InternalTessInterp_appdata { float4 vertex : INTERNALTESSPOS; float4 tangent : TANGENT; float3 normal : NORMAL; float2 texcoord : TEXCOORD0; float2 texcoord1 : TEXCOORD1; float2 texcoord2 : TEXCOORD2; }; InternalTessInterp_appdata tessvert_surf (appdata v) { InternalTessInterp_appdata o; o.vertex = v.vertex; o.tangent = v.tangent; o.normal = v.normal; o.texcoord = v.texcoord; o.texcoord1 = v.texcoord1; o.texcoord2 = v.texcoord2; return o; } // tessellation hull constant shader UnityTessellationFactors hsconst_surf (InputPatch v) { UnityTessellationFactors o; float4 tf; appdata vi[3]; vi[0].vertex = v[0].vertex; vi[0].tangent = v[0].tangent; vi[0].normal = v[0].normal; vi[0].texcoord = v[0].texcoord; vi[0].texcoord1 = v[0].texcoord1; vi[0].texcoord2 = v[0].texcoord2; vi[1].vertex = v[1].vertex; vi[1].tangent = v[1].tangent; vi[1].normal = v[1].normal; vi[1].texcoord = v[1].texcoord; vi[1].texcoord1 = v[1].texcoord1; vi[1].texcoord2 = v[1].texcoord2; vi[2].vertex = v[2].vertex; vi[2].tangent = v[2].tangent; vi[2].normal = v[2].normal; vi[2].texcoord = v[2].texcoord; vi[2].texcoord1 = v[2].texcoord1; vi[2].texcoord2 = v[2].texcoord2; tf = tessEdge(vi[0], vi[1], vi[2]); o.edge[0] = tf.x; o.edge[1] = tf.y; o.edge[2] = tf.z; o.inside = tf.w; return o; } // tessellation hull shader [UNITY_domain("tri")] [UNITY_partitioning("fractional_odd")] [UNITY_outputtopology("triangle_cw")] [UNITY_patchconstantfunc("hsconst_surf")] [UNITY_outputcontrolpoints(3)] InternalTessInterp_appdata hs_surf (InputPatch v, uint id : SV_OutputControlPointID) { return v[id]; } #endif // UNITY_CAN_COMPILE_TESSELLATION // vertex-to-fragment interpolation data struct v2f_surf { float4 pos : SV_POSITION; float4 pack0 : TEXCOORD0; // _MainTex _BumpMap float4 tSpace0 : TEXCOORD1; float4 tSpace1 : TEXCOORD2; float4 tSpace2 : TEXCOORD3; float4 lmap : TEXCOORD4; #ifndef LIGHTMAP_ON #if UNITY_SHOULD_SAMPLE_SH half3 sh : TEXCOORD5; // SH #endif #else #ifdef DIRLIGHTMAP_OFF float4 lmapFadePos : TEXCOORD5; #endif #endif UNITY_VERTEX_INPUT_INSTANCE_ID UNITY_VERTEX_OUTPUT_STEREO }; float4 _MainTex_ST; float4 _BumpMap_ST; // vertex shader v2f_surf vert_surf (appdata v) { UNITY_SETUP_INSTANCE_ID(v); v2f_surf o; UNITY_INITIALIZE_OUTPUT(v2f_surf,o); UNITY_TRANSFER_INSTANCE_ID(v,o); UNITY_INITIALIZE_VERTEX_OUTPUT_STEREO(o); o.pos = UnityObjectToClipPos(v.vertex); o.pack0.xy = TRANSFORM_TEX(v.texcoord, _MainTex); o.pack0.zw = TRANSFORM_TEX(v.texcoord, _BumpMap); float3 worldPos = mul(unity_ObjectToWorld, v.vertex).xyz; fixed3 worldNormal = UnityObjectToWorldNormal(v.normal); fixed3 worldTangent = UnityObjectToWorldDir(v.tangent.xyz); fixed tangentSign = v.tangent.w * unity_WorldTransformParams.w; fixed3 worldBinormal = cross(worldNormal, worldTangent) * tangentSign; o.tSpace0 = float4(worldTangent.x, worldBinormal.x, worldNormal.x, worldPos.x); o.tSpace1 = float4(worldTangent.y, worldBinormal.y, worldNormal.y, worldPos.y); o.tSpace2 = float4(worldTangent.z, worldBinormal.z, worldNormal.z, worldPos.z); #ifdef DYNAMICLIGHTMAP_ON o.lmap.zw = v.texcoord2.xy * unity_DynamicLightmapST.xy + unity_DynamicLightmapST.zw; #else o.lmap.zw = 0; #endif #ifdef LIGHTMAP_ON o.lmap.xy = v.texcoord1.xy * unity_LightmapST.xy + unity_LightmapST.zw; #ifdef DIRLIGHTMAP_OFF o.lmapFadePos.xyz = (mul(unity_ObjectToWorld, v.vertex).xyz - unity_ShadowFadeCenterAndType.xyz) * unity_ShadowFadeCenterAndType.w; o.lmapFadePos.w = (-UnityObjectToViewPos(v.vertex).z) * (1.0 - unity_ShadowFadeCenterAndType.w); #endif #else o.lmap.xy = 0; #if UNITY_SHOULD_SAMPLE_SH o.sh = 0; o.sh = ShadeSHPerVertex (worldNormal, o.sh); #endif #endif return o; } #ifdef UNITY_CAN_COMPILE_TESSELLATION // tessellation domain shader [UNITY_domain("tri")] v2f_surf ds_surf (UnityTessellationFactors tessFactors, const OutputPatch vi, float3 bary : SV_DomainLocation) { appdata v; v.vertex = vi[0].vertex*bary.x + vi[1].vertex*bary.y + vi[2].vertex*bary.z; float3 pp[3]; for (int i = 0; i < 3; ++i) pp[i] = v.vertex.xyz - vi[i].normal * (dot(v.vertex.xyz, vi[i].normal) - dot(vi[i].vertex.xyz, vi[i].normal)); v.vertex.xyz = _Smoothness * (pp[0]*bary.x + pp[1]*bary.y + pp[2]*bary.z) + (1.0f-_Smoothness) * v.vertex.xyz; v.tangent = vi[0].tangent*bary.x + vi[1].tangent*bary.y + vi[2].tangent*bary.z; v.normal = vi[0].normal*bary.x + vi[1].normal*bary.y + vi[2].normal*bary.z; v.texcoord = vi[0].texcoord*bary.x + vi[1].texcoord*bary.y + vi[2].texcoord*bary.z; v.texcoord1 = vi[0].texcoord1*bary.x + vi[1].texcoord1*bary.y + vi[2].texcoord1*bary.z; v.texcoord2 = vi[0].texcoord2*bary.x + vi[1].texcoord2*bary.y + vi[2].texcoord2*bary.z; disp (v); v2f_surf o = vert_surf (v); return o; } #endif // UNITY_CAN_COMPILE_TESSELLATION #ifdef LIGHTMAP_ON float4 unity_LightmapFade; #endif fixed4 unity_Ambient; // fragment shader void frag_surf (v2f_surf IN, out half4 outGBuffer0 : SV_Target0, out half4 outGBuffer1 : SV_Target1, out half4 outGBuffer2 : SV_Target2, out half4 outEmission : SV_Target3) { UNITY_SETUP_INSTANCE_ID(IN); // prepare and unpack data Input surfIN; UNITY_INITIALIZE_OUTPUT(Input,surfIN); surfIN.uv_MainTex.x = 1.0; surfIN.uv_BumpMap.x = 1.0; surfIN.uv_MainTex = IN.pack0.xy; surfIN.uv_BumpMap = IN.pack0.zw; float3 worldPos = float3(IN.tSpace0.w, IN.tSpace1.w, IN.tSpace2.w); #ifndef USING_DIRECTIONAL_LIGHT fixed3 lightDir = normalize(UnityWorldSpaceLightDir(worldPos)); #else fixed3 lightDir = _WorldSpaceLightPos0.xyz; #endif fixed3 worldViewDir = normalize(UnityWorldSpaceViewDir(worldPos)); #ifdef UNITY_COMPILER_HLSL SurfaceOutput o = (SurfaceOutput)0; #else SurfaceOutput o; #endif o.Albedo = 0.0; o.Emission = 0.0; o.Specular = 0.0; o.Alpha = 0.0; o.Gloss = 0.0; fixed3 normalWorldVertex = fixed3(0,0,1); // call surface function surf (surfIN, o); fixed3 originalNormal = o.Normal; fixed3 worldN; worldN.x = dot(IN.tSpace0.xyz, o.Normal); worldN.y = dot(IN.tSpace1.xyz, o.Normal); worldN.z = dot(IN.tSpace2.xyz, o.Normal); o.Normal = worldN; half atten = 1; // Setup lighting environment UnityGI gi; UNITY_INITIALIZE_OUTPUT(UnityGI, gi); gi.indirect.diffuse = 0; gi.indirect.specular = 0; gi.light.color = 0; gi.light.dir = half3(0,1,0); // Call GI (lightmaps/SH/reflections) lighting function UnityGIInput giInput; UNITY_INITIALIZE_OUTPUT(UnityGIInput, giInput); giInput.light = gi.light; giInput.worldPos = worldPos; giInput.worldViewDir = worldViewDir; giInput.atten = atten; #if defined(LIGHTMAP_ON) || defined(DYNAMICLIGHTMAP_ON) giInput.lightmapUV = IN.lmap; #else giInput.lightmapUV = 0.0; #endif #if UNITY_SHOULD_SAMPLE_SH giInput.ambient = IN.sh; #else giInput.ambient.rgb = 0.0; #endif giInput.probeHDR[0] = unity_SpecCube0_HDR; giInput.probeHDR[1] = unity_SpecCube1_HDR; #if UNITY_SPECCUBE_BLENDING || UNITY_SPECCUBE_BOX_PROJECTION giInput.boxMin[0] = unity_SpecCube0_BoxMin; // .w holds lerp value for blending #endif #if UNITY_SPECCUBE_BOX_PROJECTION giInput.boxMax[0] = unity_SpecCube0_BoxMax; giInput.probePosition[0] = unity_SpecCube0_ProbePosition; giInput.boxMax[1] = unity_SpecCube1_BoxMax; giInput.boxMin[1] = unity_SpecCube1_BoxMin; giInput.probePosition[1] = unity_SpecCube1_ProbePosition; #endif LightingBlinnPhong_GI(o, giInput, gi); // call lighting function to output g-buffer outEmission = LightingBlinnPhong_Deferred (o, worldViewDir, gi, outGBuffer0, outGBuffer1, outGBuffer2); #ifndef UNITY_HDR_ON outEmission.rgb = exp2(-outEmission.rgb); #endif } :Assets/Standard Assets/Effects/TessellationShaders/ShadersÚ-†˜#<ˆ㛓wÇDŘ2KDYNAMICLIGHTMAP_ON LIGHTMAP_ON LIGHTMAP_ONDYNAMICLIGHTMAP_ONDIRLIGHTMAP_COMBINEDDYNAMICLIGHTMAP_ON LIGHTMAP_ONDIRLIGHTMAP_COMBINED LIGHTMAP_ONDIRLIGHTMAP_COMBINEDDYNAMICLIGHTMAP_ONDIRLIGHTMAP_SEPARATEDYNAMICLIGHTMAP_ON LIGHTMAP_ONDIRLIGHTMAP_SEPARATE LIGHTMAP_ONDIRLIGHTMAP_SEPARATEDYNAMICLIGHTMAP_ON UNITY_HDR_ONDYNAMICLIGHTMAP_ON UNITY_HDR_ON LIGHTMAP_ON UNITY_HDR_ON LIGHTMAP_ONDYNAMICLIGHTMAP_ON UNITY_HDR_ONDIRLIGHTMAP_COMBINEDDYNAMICLIGHTMAP_ON UNITY_HDR_ON LIGHTMAP_ONDIRLIGHTMAP_COMBINED UNITY_HDR_ON LIGHTMAP_ONDIRLIGHTMAP_COMBINEDDYNAMICLIGHTMAP_ON UNITY_HDR_ONDIRLIGHTMAP_SEPARATEDYNAMICLIGHTMAP_ON UNITY_HDR_ON LIGHTMAP_ONDIRLIGHTMAP_SEPARATE UNITY_HDR_ON LIGHTMAP_ONDIRLIGHTMAP_SEPARATEDYNAMICLIGHTMAP_ON UNITY_HDR_ONDYNAMICLIGHTMAP_ON LIGHTMAP_ON LIGHTMAP_ONDYNAMICLIGHTMAP_ONDIRLIGHTMAP_COMBINEDDYNAMICLIGHTMAP_ON LIGHTMAP_ONDIRLIGHTMAP_COMBINED 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UNITY_HDR_ONDIRLIGHTMAP_COMBINEDDYNAMICLIGHTMAP_ON UNITY_HDR_ON LIGHTMAP_ONDIRLIGHTMAP_COMBINED UNITY_HDR_ON LIGHTMAP_ONDIRLIGHTMAP_COMBINEDDYNAMICLIGHTMAP_ON UNITY_HDR_ONDIRLIGHTMAP_SEPARATEDYNAMICLIGHTMAP_ON UNITY_HDR_ON LIGHTMAP_ONDIRLIGHTMAP_SEPARATE UNITY_HDR_ON LIGHTMAP_ONDIRLIGHTMAP_SEPARATEDYNAMICLIGHTMAP_ON UNITY_HDR_ONDYNAMICLIGHTMAP_ON LIGHTMAP_ON LIGHTMAP_ONDYNAMICLIGHTMAP_ONDIRLIGHTMAP_COMBINEDDYNAMICLIGHTMAP_ON LIGHTMAP_ONDIRLIGHTMAP_COMBINED LIGHTMAP_ONDIRLIGHTMAP_COMBINEDDYNAMICLIGHTMAP_ONDIRLIGHTMAP_SEPARATEDYNAMICLIGHTMAP_ON LIGHTMAP_ONDIRLIGHTMAP_SEPARATE LIGHTMAP_ONDIRLIGHTMAP_SEPARATEDYNAMICLIGHTMAP_ON UNITY_HDR_ONDYNAMICLIGHTMAP_ON UNITY_HDR_ON LIGHTMAP_ON UNITY_HDR_ON LIGHTMAP_ONDYNAMICLIGHTMAP_ON UNITY_HDR_ONDIRLIGHTMAP_COMBINEDDYNAMICLIGHTMAP_ON UNITY_HDR_ON LIGHTMAP_ONDIRLIGHTMAP_COMBINED UNITY_HDR_ON LIGHTMAP_ONDIRLIGHTMAP_COMBINEDDYNAMICLIGHTMAP_ON UNITY_HDR_ONDIRLIGHTMAP_SEPARATEDYNAMICLIGHTMAP_ON UNITY_HDR_ON LIGHTMAP_ONDIRLIGHTMAP_SEPARATE UNITY_HDR_ON LIGHTMAP_ONDIRLIGHTMAP_SEPARATEDYNAMICLIGHTMAP_ON UNITY_HDR_ON SHADOWS_SOFTDIRLIGHTMAP_COMBINEDDIRLIGHTMAP_SEPARATEDYNAMICLIGHTMAP_ON INSTANCING_ONUDIRLIGHTMAP_COMBINED DIRLIGHTMAP_SEPARATE DYNAMICLIGHTMAP_ON LIGHTMAP_ON UNITY_HDR_ON˜D…#line 181 "" #ifdef DUMMY_PREPROCESSOR_TO_WORK_AROUND_HLSL_COMPILER_LINE_HANDLING #endif // compile directives #pragma vertex vert_surf #pragma fragment frag_surf #pragma exclude_renderers nomrt #pragma multi_compile_prepassfinal #pragma skip_variants FOG_LINEAR FOG_EXP FOG_EXP2 #include "HLSLSupport.cginc" #include "UnityShaderVariables.cginc" // Surface shader code generated based on: // writes to per-pixel normal: no // writes to emission: no // writes to occlusion: no // needs world space reflection vector: no // needs world space normal vector: no // needs screen space position: no // needs world space position: no // needs view direction: no // needs world space view direction: no // needs world space position for lighting: YES // needs world space view direction for lighting: YES // needs world space view direction for lightmaps: no // needs vertex color: no // needs VFACE: no // passes tangent-to-world matrix to pixel shader: no // reads from normal: YES // 1 texcoords actually used // float2 _MainTex #define UNITY_PASS_DEFERRED #include "UnityCG.cginc" #include "Lighting.cginc" #define INTERNAL_DATA #define WorldReflectionVector(data,normal) data.worldRefl #define WorldNormalVector(data,normal) normal // Original surface shader snippet: #line 11 "" #ifdef DUMMY_PREPROCESSOR_TO_WORK_AROUND_HLSL_COMPILER_LINE_HANDLING #endif /* UNITY: Original start of shader */ //#pragma surface surf BlinnPhong sampler2D _MainTex; fixed4 _Color; half _Shininess; struct Input { float2 uv_MainTex; }; void surf (Input IN, inout SurfaceOutput o) { fixed4 tex = tex2D(_MainTex, IN.uv_MainTex); o.Albedo = tex.rgb * _Color.rgb; o.Gloss = tex.a; o.Alpha = tex.a * _Color.a; o.Specular = _Shininess; } // vertex-to-fragment interpolation data struct v2f_surf { float4 pos : SV_POSITION; float2 pack0 : TEXCOORD0; // _MainTex half3 worldNormal : TEXCOORD1; float3 worldPos : TEXCOORD2; float4 lmap : TEXCOORD3; #ifndef LIGHTMAP_ON #if UNITY_SHOULD_SAMPLE_SH half3 sh : TEXCOORD4; // SH #endif #else #ifdef DIRLIGHTMAP_OFF float4 lmapFadePos : TEXCOORD4; #endif #endif UNITY_VERTEX_INPUT_INSTANCE_ID UNITY_VERTEX_OUTPUT_STEREO }; float4 _MainTex_ST; // vertex shader v2f_surf vert_surf (appdata_full v) { UNITY_SETUP_INSTANCE_ID(v); v2f_surf o; UNITY_INITIALIZE_OUTPUT(v2f_surf,o); UNITY_TRANSFER_INSTANCE_ID(v,o); UNITY_INITIALIZE_VERTEX_OUTPUT_STEREO(o); o.pos = UnityObjectToClipPos(v.vertex); o.pack0.xy = TRANSFORM_TEX(v.texcoord, _MainTex); float3 worldPos = mul(unity_ObjectToWorld, v.vertex).xyz; fixed3 worldNormal = UnityObjectToWorldNormal(v.normal); o.worldPos = worldPos; o.worldNormal = worldNormal; #ifdef DYNAMICLIGHTMAP_ON o.lmap.zw = v.texcoord2.xy * unity_DynamicLightmapST.xy + unity_DynamicLightmapST.zw; #else o.lmap.zw = 0; #endif #ifdef LIGHTMAP_ON o.lmap.xy = v.texcoord1.xy * unity_LightmapST.xy + unity_LightmapST.zw; #ifdef DIRLIGHTMAP_OFF o.lmapFadePos.xyz = (mul(unity_ObjectToWorld, v.vertex).xyz - unity_ShadowFadeCenterAndType.xyz) * unity_ShadowFadeCenterAndType.w; o.lmapFadePos.w = (-UnityObjectToViewPos(v.vertex).z) * (1.0 - unity_ShadowFadeCenterAndType.w); #endif #else o.lmap.xy = 0; #if UNITY_SHOULD_SAMPLE_SH o.sh = 0; o.sh = ShadeSHPerVertex (worldNormal, o.sh); #endif #endif return o; } #ifdef LIGHTMAP_ON float4 unity_LightmapFade; #endif fixed4 unity_Ambient; // fragment shader void frag_surf (v2f_surf IN, out half4 outGBuffer0 : SV_Target0, out half4 outGBuffer1 : SV_Target1, out half4 outGBuffer2 : SV_Target2, out half4 outEmission : SV_Target3) { UNITY_SETUP_INSTANCE_ID(IN); // prepare and unpack data Input surfIN; UNITY_INITIALIZE_OUTPUT(Input,surfIN); surfIN.uv_MainTex.x = 1.0; surfIN.uv_MainTex = IN.pack0.xy; float3 worldPos = IN.worldPos; #ifndef USING_DIRECTIONAL_LIGHT fixed3 lightDir = normalize(UnityWorldSpaceLightDir(worldPos)); #else fixed3 lightDir = _WorldSpaceLightPos0.xyz; #endif fixed3 worldViewDir = normalize(UnityWorldSpaceViewDir(worldPos)); #ifdef UNITY_COMPILER_HLSL SurfaceOutput o = (SurfaceOutput)0; #else SurfaceOutput o; #endif o.Albedo = 0.0; o.Emission = 0.0; o.Specular = 0.0; o.Alpha = 0.0; o.Gloss = 0.0; fixed3 normalWorldVertex = fixed3(0,0,1); o.Normal = IN.worldNormal; normalWorldVertex = IN.worldNormal; // call surface function surf (surfIN, o); fixed3 originalNormal = o.Normal; half atten = 1; // Setup lighting environment UnityGI gi; UNITY_INITIALIZE_OUTPUT(UnityGI, gi); gi.indirect.diffuse = 0; gi.indirect.specular = 0; gi.light.color = 0; gi.light.dir = half3(0,1,0); // Call GI (lightmaps/SH/reflections) lighting function UnityGIInput giInput; UNITY_INITIALIZE_OUTPUT(UnityGIInput, giInput); giInput.light = gi.light; giInput.worldPos = worldPos; giInput.worldViewDir = worldViewDir; giInput.atten = atten; #if defined(LIGHTMAP_ON) || defined(DYNAMICLIGHTMAP_ON) giInput.lightmapUV = IN.lmap; #else giInput.lightmapUV = 0.0; #endif #if UNITY_SHOULD_SAMPLE_SH giInput.ambient = IN.sh; #else giInput.ambient.rgb = 0.0; #endif giInput.probeHDR[0] = unity_SpecCube0_HDR; giInput.probeHDR[1] = unity_SpecCube1_HDR; #if UNITY_SPECCUBE_BLENDING || UNITY_SPECCUBE_BOX_PROJECTION giInput.boxMin[0] = unity_SpecCube0_BoxMin; // .w holds lerp value for blending #endif #if UNITY_SPECCUBE_BOX_PROJECTION giInput.boxMax[0] = unity_SpecCube0_BoxMax; giInput.probePosition[0] = unity_SpecCube0_ProbePosition; giInput.boxMax[1] = unity_SpecCube1_BoxMax; giInput.boxMin[1] = unity_SpecCube1_BoxMin; giInput.probePosition[1] = unity_SpecCube1_ProbePosition; #endif LightingBlinnPhong_GI(o, giInput, gi); // call lighting function to output g-buffer outEmission = LightingBlinnPhong_Deferred (o, worldViewDir, gi, outGBuffer0, outGBuffer1, outGBuffer2); #ifndef UNITY_HDR_ON outEmission.rgb = exp2(-outEmission.rgb); #endif } Assets/DefaultResourcesExtra˙Ű˙˙ˇ•6žhí~Ž$żĘ‘qDgDYNAMICLIGHTMAP_ON LIGHTMAP_ON LIGHTMAP_ONDYNAMICLIGHTMAP_ONDIRLIGHTMAP_COMBINEDDYNAMICLIGHTMAP_ON LIGHTMAP_ONDIRLIGHTMAP_COMBINED LIGHTMAP_ONDIRLIGHTMAP_COMBINEDDYNAMICLIGHTMAP_ONDIRLIGHTMAP_SEPARATEDYNAMICLIGHTMAP_ON LIGHTMAP_ONDIRLIGHTMAP_SEPARATE LIGHTMAP_ONDIRLIGHTMAP_SEPARATEDYNAMICLIGHTMAP_ON UNITY_HDR_ONDYNAMICLIGHTMAP_ON UNITY_HDR_ON LIGHTMAP_ON UNITY_HDR_ON LIGHTMAP_ONDYNAMICLIGHTMAP_ON UNITY_HDR_ONDIRLIGHTMAP_COMBINEDDYNAMICLIGHTMAP_ON UNITY_HDR_ON LIGHTMAP_ONDIRLIGHTMAP_COMBINED UNITY_HDR_ON LIGHTMAP_ONDIRLIGHTMAP_COMBINEDDYNAMICLIGHTMAP_ON UNITY_HDR_ONDIRLIGHTMAP_SEPARATEDYNAMICLIGHTMAP_ON UNITY_HDR_ON LIGHTMAP_ONDIRLIGHTMAP_SEPARATE UNITY_HDR_ON LIGHTMAP_ONDIRLIGHTMAP_SEPARATEDYNAMICLIGHTMAP_ON UNITY_HDR_ONDYNAMICLIGHTMAP_ON LIGHTMAP_ON LIGHTMAP_ONDYNAMICLIGHTMAP_ONDIRLIGHTMAP_COMBINEDDYNAMICLIGHTMAP_ON LIGHTMAP_ONDIRLIGHTMAP_COMBINED LIGHTMAP_ONDIRLIGHTMAP_COMBINEDDYNAMICLIGHTMAP_ONDIRLIGHTMAP_SEPARATEDYNAMICLIGHTMAP_ON LIGHTMAP_ONDIRLIGHTMAP_SEPARATE LIGHTMAP_ONDIRLIGHTMAP_SEPARATEDYNAMICLIGHTMAP_ON UNITY_HDR_ONDYNAMICLIGHTMAP_ON UNITY_HDR_ON LIGHTMAP_ON UNITY_HDR_ON LIGHTMAP_ONDYNAMICLIGHTMAP_ON UNITY_HDR_ONDIRLIGHTMAP_COMBINEDDYNAMICLIGHTMAP_ON UNITY_HDR_ON LIGHTMAP_ONDIRLIGHTMAP_COMBINED UNITY_HDR_ON LIGHTMAP_ONDIRLIGHTMAP_COMBINEDDYNAMICLIGHTMAP_ON UNITY_HDR_ONDIRLIGHTMAP_SEPARATEDYNAMICLIGHTMAP_ON UNITY_HDR_ON LIGHTMAP_ONDIRLIGHTMAP_SEPARATE UNITY_HDR_ON LIGHTMAP_ONDIRLIGHTMAP_SEPARATEDYNAMICLIGHTMAP_ON UNITY_HDR_ON SHADOWS_SOFTDIRLIGHTMAP_COMBINEDDIRLIGHTMAP_SEPARATEDYNAMICLIGHTMAP_ON INSTANCING_ONUDIRLIGHTMAP_COMBINED DIRLIGHTMAP_SEPARATE DYNAMICLIGHTMAP_ON LIGHTMAP_ON UNITY_HDR_ONŔt>#line 190 "" #ifdef DUMMY_PREPROCESSOR_TO_WORK_AROUND_HLSL_COMPILER_LINE_HANDLING #endif // compile directives #pragma vertex vert_surf #pragma fragment frag_surf #pragma target 3.0 #pragma exclude_renderers nomrt #pragma multi_compile_prepassfinal #pragma skip_variants FOG_LINEAR FOG_EXP FOG_EXP2 #include "HLSLSupport.cginc" #include "UnityShaderVariables.cginc" // Surface shader code generated based on: // writes to per-pixel normal: YES // writes to emission: no // writes to occlusion: no // needs world space reflection vector: no // needs world space normal vector: no // needs screen space position: no // needs world space position: no // needs view direction: no // needs world space view direction: no // needs world space position for lighting: YES // needs world space view direction for lighting: YES // needs world space view direction for lightmaps: no // needs vertex color: no // needs VFACE: no // passes tangent-to-world matrix to pixel shader: YES // reads from normal: no // 2 texcoords actually used // float2 _MainTex // float2 _BumpMap #define UNITY_PASS_DEFERRED #include "UnityCG.cginc" #include "Lighting.cginc" #define INTERNAL_DATA half3 internalSurfaceTtoW0; half3 internalSurfaceTtoW1; half3 internalSurfaceTtoW2; #define WorldReflectionVector(data,normal) reflect (data.worldRefl, half3(dot(data.internalSurfaceTtoW0,normal), dot(data.internalSurfaceTtoW1,normal), dot(data.internalSurfaceTtoW2,normal))) #define WorldNormalVector(data,normal) fixed3(dot(data.internalSurfaceTtoW0,normal), dot(data.internalSurfaceTtoW1,normal), dot(data.internalSurfaceTtoW2,normal)) // Original surface shader snippet: #line 11 sampler2D _MainTex; sampler2D _BumpMap; fixed4 _Color; half _Shininess; struct Input { float2 uv_MainTex; float2 uv_BumpMap; }; void surf (Input IN, inout SurfaceOutput o) { fixed4 tex = tex2D(_MainTex, IN.uv_MainTex); o.Albedo = tex.rgb * _Color.rgb; o.Gloss = tex.a; o.Alpha = tex.a * _Color.a; o.Specular = _Shininess; o.Normal = UnpackNormal(tex2D(_BumpMap, IN.uv_BumpMap)); } #line 33 "" #ifdef DUMMY_PREPROCESSOR_TO_WORK_AROUND_HLSL_COMPILER_LINE_HANDLING #endif /* UNITY: Original start of shader */ //#pragma surface surf BlinnPhong //#pragma target 3.0 // vertex-to-fragment interpolation data struct v2f_surf { float4 pos : SV_POSITION; float4 pack0 : TEXCOORD0; // _MainTex _BumpMap float4 tSpace0 : TEXCOORD1; float4 tSpace1 : TEXCOORD2; float4 tSpace2 : TEXCOORD3; float4 lmap : TEXCOORD4; #ifndef LIGHTMAP_ON #if UNITY_SHOULD_SAMPLE_SH half3 sh : TEXCOORD5; // SH #endif #else #ifdef DIRLIGHTMAP_OFF float4 lmapFadePos : TEXCOORD5; #endif #endif UNITY_VERTEX_INPUT_INSTANCE_ID UNITY_VERTEX_OUTPUT_STEREO }; float4 _MainTex_ST; float4 _BumpMap_ST; // vertex shader v2f_surf vert_surf (appdata_full v) { UNITY_SETUP_INSTANCE_ID(v); v2f_surf o; UNITY_INITIALIZE_OUTPUT(v2f_surf,o); UNITY_TRANSFER_INSTANCE_ID(v,o); UNITY_INITIALIZE_VERTEX_OUTPUT_STEREO(o); o.pos = UnityObjectToClipPos(v.vertex); o.pack0.xy = TRANSFORM_TEX(v.texcoord, _MainTex); o.pack0.zw = TRANSFORM_TEX(v.texcoord, _BumpMap); float3 worldPos = mul(unity_ObjectToWorld, v.vertex).xyz; fixed3 worldNormal = UnityObjectToWorldNormal(v.normal); fixed3 worldTangent = UnityObjectToWorldDir(v.tangent.xyz); fixed tangentSign = v.tangent.w * unity_WorldTransformParams.w; fixed3 worldBinormal = cross(worldNormal, worldTangent) * tangentSign; o.tSpace0 = float4(worldTangent.x, worldBinormal.x, worldNormal.x, worldPos.x); o.tSpace1 = float4(worldTangent.y, worldBinormal.y, worldNormal.y, worldPos.y); o.tSpace2 = float4(worldTangent.z, worldBinormal.z, worldNormal.z, worldPos.z); #ifdef DYNAMICLIGHTMAP_ON o.lmap.zw = v.texcoord2.xy * unity_DynamicLightmapST.xy + unity_DynamicLightmapST.zw; #else o.lmap.zw = 0; #endif #ifdef LIGHTMAP_ON o.lmap.xy = v.texcoord1.xy * unity_LightmapST.xy + unity_LightmapST.zw; #ifdef DIRLIGHTMAP_OFF o.lmapFadePos.xyz = (mul(unity_ObjectToWorld, v.vertex).xyz - unity_ShadowFadeCenterAndType.xyz) * unity_ShadowFadeCenterAndType.w; o.lmapFadePos.w = (-UnityObjectToViewPos(v.vertex).z) * (1.0 - unity_ShadowFadeCenterAndType.w); #endif #else o.lmap.xy = 0; #if UNITY_SHOULD_SAMPLE_SH o.sh = 0; o.sh = ShadeSHPerVertex (worldNormal, o.sh); #endif #endif return o; } #ifdef LIGHTMAP_ON float4 unity_LightmapFade; #endif fixed4 unity_Ambient; // fragment shader void frag_surf (v2f_surf IN, out half4 outGBuffer0 : SV_Target0, out half4 outGBuffer1 : SV_Target1, out half4 outGBuffer2 : SV_Target2, out half4 outEmission : SV_Target3) { UNITY_SETUP_INSTANCE_ID(IN); // prepare and unpack data Input surfIN; UNITY_INITIALIZE_OUTPUT(Input,surfIN); surfIN.uv_MainTex.x = 1.0; surfIN.uv_BumpMap.x = 1.0; surfIN.uv_MainTex = IN.pack0.xy; surfIN.uv_BumpMap = IN.pack0.zw; float3 worldPos = float3(IN.tSpace0.w, IN.tSpace1.w, IN.tSpace2.w); #ifndef USING_DIRECTIONAL_LIGHT fixed3 lightDir = normalize(UnityWorldSpaceLightDir(worldPos)); #else fixed3 lightDir = _WorldSpaceLightPos0.xyz; #endif fixed3 worldViewDir = normalize(UnityWorldSpaceViewDir(worldPos)); #ifdef UNITY_COMPILER_HLSL SurfaceOutput o = (SurfaceOutput)0; #else SurfaceOutput o; #endif o.Albedo = 0.0; o.Emission = 0.0; o.Specular = 0.0; o.Alpha = 0.0; o.Gloss = 0.0; fixed3 normalWorldVertex = fixed3(0,0,1); // call surface function surf (surfIN, o); fixed3 originalNormal = o.Normal; fixed3 worldN; worldN.x = dot(IN.tSpace0.xyz, o.Normal); worldN.y = dot(IN.tSpace1.xyz, o.Normal); worldN.z = dot(IN.tSpace2.xyz, o.Normal); o.Normal = worldN; half atten = 1; // Setup lighting environment UnityGI gi; UNITY_INITIALIZE_OUTPUT(UnityGI, gi); gi.indirect.diffuse = 0; gi.indirect.specular = 0; gi.light.color = 0; gi.light.dir = half3(0,1,0); // Call GI (lightmaps/SH/reflections) lighting function UnityGIInput giInput; UNITY_INITIALIZE_OUTPUT(UnityGIInput, giInput); giInput.light = gi.light; giInput.worldPos = worldPos; giInput.worldViewDir = worldViewDir; giInput.atten = atten; #if defined(LIGHTMAP_ON) || defined(DYNAMICLIGHTMAP_ON) giInput.lightmapUV = IN.lmap; #else giInput.lightmapUV = 0.0; #endif #if UNITY_SHOULD_SAMPLE_SH giInput.ambient = IN.sh; #else giInput.ambient.rgb = 0.0; #endif giInput.probeHDR[0] = unity_SpecCube0_HDR; giInput.probeHDR[1] = unity_SpecCube1_HDR; #if UNITY_SPECCUBE_BLENDING || UNITY_SPECCUBE_BOX_PROJECTION giInput.boxMin[0] = unity_SpecCube0_BoxMin; // .w holds lerp value for blending #endif #if UNITY_SPECCUBE_BOX_PROJECTION giInput.boxMax[0] = unity_SpecCube0_BoxMax; giInput.probePosition[0] = unity_SpecCube0_ProbePosition; giInput.boxMax[1] = unity_SpecCube1_BoxMax; giInput.boxMin[1] = unity_SpecCube1_BoxMin; giInput.probePosition[1] = unity_SpecCube1_ProbePosition; #endif LightingBlinnPhong_GI(o, giInput, gi); // call lighting function to output g-buffer outEmission = LightingBlinnPhong_Deferred (o, worldViewDir, gi, outGBuffer0, outGBuffer1, outGBuffer2); #ifndef UNITY_HDR_ON outEmission.rgb = exp2(-outEmission.rgb); #endif } Assets/DefaultResourcesExtra˙Ű˙˙Ŕ•6žhí~Ž$żĘ‘qDgDYNAMICLIGHTMAP_ON LIGHTMAP_ON LIGHTMAP_ONDYNAMICLIGHTMAP_ONDIRLIGHTMAP_COMBINEDDYNAMICLIGHTMAP_ON LIGHTMAP_ONDIRLIGHTMAP_COMBINED LIGHTMAP_ONDIRLIGHTMAP_COMBINEDDYNAMICLIGHTMAP_ONDIRLIGHTMAP_SEPARATEDYNAMICLIGHTMAP_ON LIGHTMAP_ONDIRLIGHTMAP_SEPARATE LIGHTMAP_ONDIRLIGHTMAP_SEPARATEDYNAMICLIGHTMAP_ON UNITY_HDR_ONDYNAMICLIGHTMAP_ON UNITY_HDR_ON LIGHTMAP_ON UNITY_HDR_ON LIGHTMAP_ONDYNAMICLIGHTMAP_ON UNITY_HDR_ONDIRLIGHTMAP_COMBINEDDYNAMICLIGHTMAP_ON UNITY_HDR_ON LIGHTMAP_ONDIRLIGHTMAP_COMBINED UNITY_HDR_ON LIGHTMAP_ONDIRLIGHTMAP_COMBINEDDYNAMICLIGHTMAP_ON UNITY_HDR_ONDIRLIGHTMAP_SEPARATEDYNAMICLIGHTMAP_ON UNITY_HDR_ON LIGHTMAP_ONDIRLIGHTMAP_SEPARATE UNITY_HDR_ON LIGHTMAP_ONDIRLIGHTMAP_SEPARATEDYNAMICLIGHTMAP_ON UNITY_HDR_ONDYNAMICLIGHTMAP_ON LIGHTMAP_ON LIGHTMAP_ONDYNAMICLIGHTMAP_ONDIRLIGHTMAP_COMBINEDDYNAMICLIGHTMAP_ON LIGHTMAP_ONDIRLIGHTMAP_COMBINED LIGHTMAP_ONDIRLIGHTMAP_COMBINEDDYNAMICLIGHTMAP_ONDIRLIGHTMAP_SEPARATEDYNAMICLIGHTMAP_ON LIGHTMAP_ONDIRLIGHTMAP_SEPARATE LIGHTMAP_ONDIRLIGHTMAP_SEPARATEDYNAMICLIGHTMAP_ON UNITY_HDR_ONDYNAMICLIGHTMAP_ON UNITY_HDR_ON LIGHTMAP_ON UNITY_HDR_ON LIGHTMAP_ONDYNAMICLIGHTMAP_ON UNITY_HDR_ONDIRLIGHTMAP_COMBINEDDYNAMICLIGHTMAP_ON UNITY_HDR_ON LIGHTMAP_ONDIRLIGHTMAP_COMBINED UNITY_HDR_ON LIGHTMAP_ONDIRLIGHTMAP_COMBINEDDYNAMICLIGHTMAP_ON UNITY_HDR_ONDIRLIGHTMAP_SEPARATEDYNAMICLIGHTMAP_ON UNITY_HDR_ON LIGHTMAP_ONDIRLIGHTMAP_SEPARATE UNITY_HDR_ON LIGHTMAP_ONDIRLIGHTMAP_SEPARATEDYNAMICLIGHTMAP_ON UNITY_HDR_ON SHADOWS_SOFTDIRLIGHTMAP_COMBINEDDIRLIGHTMAP_SEPARATEDYNAMICLIGHTMAP_ON INSTANCING_ONUDIRLIGHTMAP_COMBINED DIRLIGHTMAP_SEPARATE DYNAMICLIGHTMAP_ON LIGHTMAP_ON UNITY_HDR_ONr]#line 311 "" #ifdef DUMMY_PREPROCESSOR_TO_WORK_AROUND_HLSL_COMPILER_LINE_HANDLING #endif // compile directives #pragma vertex tessvert_surf #pragma fragment frag_surf #pragma hull hs_surf #pragma domain ds_surf #pragma multi_compile_shadowcaster #pragma skip_variants FOG_LINEAR FOG_EXP FOG_EXP2 #include "HLSLSupport.cginc" #include "UnityShaderVariables.cginc" // Surface shader code generated based on: // vertex modifier: 'disp' // writes to per-pixel normal: YES // writes to emission: no // writes to occlusion: no // needs world space reflection vector: no // needs world space normal vector: no // needs screen space position: no // needs world space position: no // needs view direction: no // needs world space view direction: no // needs world space position for lighting: YES // needs world space view direction for lighting: YES // needs world space view direction for lightmaps: no // needs vertex color: no // needs VFACE: no // passes tangent-to-world matrix to pixel shader: YES // reads from normal: no // 0 texcoords actually used #define UNITY_PASS_SHADOWCASTER #include "UnityCG.cginc" #include "Lighting.cginc" #define INTERNAL_DATA #define WorldReflectionVector(data,normal) data.worldRefl #define WorldNormalVector(data,normal) normal // Original surface shader snippet: #line 14 "" #ifdef DUMMY_PREPROCESSOR_TO_WORK_AROUND_HLSL_COMPILER_LINE_HANDLING #endif /* UNITY: Original start of shader */ //#pragma surface surf BlinnPhong addshadow vertex:disp tessellate:tessEdge tessphong:_Smoothness #include "Tessellation.cginc" struct appdata { float4 vertex : POSITION; float4 tangent : TANGENT; float3 normal : NORMAL; float2 texcoord : TEXCOORD0; float2 texcoord1 : TEXCOORD1; float2 texcoord2 : TEXCOORD2; }; float _EdgeLength; float _Smoothness; float4 tessEdge (appdata v0, appdata v1, appdata v2) { return UnityEdgeLengthBasedTessCull (v0.vertex, v1.vertex, v2.vertex, _EdgeLength, 0.0); } void disp (inout appdata v) { // do nothing } sampler2D _MainTex; sampler2D _BumpMap; fixed4 _Color; half _Shininess; struct Input { float2 uv_MainTex; float2 uv_BumpMap; }; void surf (Input IN, inout SurfaceOutput o) { fixed4 tex = tex2D(_MainTex, IN.uv_MainTex); o.Albedo = tex.rgb * _Color.rgb; o.Gloss = tex.a; o.Alpha = tex.a * _Color.a; o.Specular = _Shininess; o.Normal = UnpackNormal(tex2D(_BumpMap, IN.uv_BumpMap)); } #ifdef UNITY_CAN_COMPILE_TESSELLATION // tessellation vertex shader struct InternalTessInterp_appdata { float4 vertex : INTERNALTESSPOS; float4 tangent : TANGENT; float3 normal : NORMAL; float2 texcoord : TEXCOORD0; float2 texcoord1 : TEXCOORD1; float2 texcoord2 : TEXCOORD2; }; InternalTessInterp_appdata tessvert_surf (appdata v) { InternalTessInterp_appdata o; o.vertex = v.vertex; o.tangent = v.tangent; o.normal = v.normal; o.texcoord = v.texcoord; o.texcoord1 = v.texcoord1; o.texcoord2 = v.texcoord2; return o; } // tessellation hull constant shader UnityTessellationFactors hsconst_surf (InputPatch v) { UnityTessellationFactors o; float4 tf; appdata vi[3]; vi[0].vertex = v[0].vertex; vi[0].tangent = v[0].tangent; vi[0].normal = v[0].normal; vi[0].texcoord = v[0].texcoord; vi[0].texcoord1 = v[0].texcoord1; vi[0].texcoord2 = v[0].texcoord2; vi[1].vertex = v[1].vertex; vi[1].tangent = v[1].tangent; vi[1].normal = v[1].normal; vi[1].texcoord = v[1].texcoord; vi[1].texcoord1 = v[1].texcoord1; vi[1].texcoord2 = v[1].texcoord2; vi[2].vertex = v[2].vertex; vi[2].tangent = v[2].tangent; vi[2].normal = v[2].normal; vi[2].texcoord = v[2].texcoord; vi[2].texcoord1 = v[2].texcoord1; vi[2].texcoord2 = v[2].texcoord2; tf = tessEdge(vi[0], vi[1], vi[2]); o.edge[0] = tf.x; o.edge[1] = tf.y; o.edge[2] = tf.z; o.inside = tf.w; return o; } // tessellation hull shader [UNITY_domain("tri")] [UNITY_partitioning("fractional_odd")] [UNITY_outputtopology("triangle_cw")] [UNITY_patchconstantfunc("hsconst_surf")] [UNITY_outputcontrolpoints(3)] InternalTessInterp_appdata hs_surf (InputPatch v, uint id : SV_OutputControlPointID) { return v[id]; } #endif // UNITY_CAN_COMPILE_TESSELLATION // vertex-to-fragment interpolation data struct v2f_surf { V2F_SHADOW_CASTER; float3 worldPos : TEXCOORD1; UNITY_VERTEX_INPUT_INSTANCE_ID UNITY_VERTEX_OUTPUT_STEREO }; // vertex shader v2f_surf vert_surf (appdata v) { UNITY_SETUP_INSTANCE_ID(v); v2f_surf o; UNITY_INITIALIZE_OUTPUT(v2f_surf,o); UNITY_TRANSFER_INSTANCE_ID(v,o); UNITY_INITIALIZE_VERTEX_OUTPUT_STEREO(o); float3 worldPos = mul(unity_ObjectToWorld, v.vertex).xyz; fixed3 worldNormal = UnityObjectToWorldNormal(v.normal); o.worldPos = worldPos; TRANSFER_SHADOW_CASTER_NORMALOFFSET(o) return o; } #ifdef UNITY_CAN_COMPILE_TESSELLATION // tessellation domain shader [UNITY_domain("tri")] v2f_surf ds_surf (UnityTessellationFactors tessFactors, const OutputPatch vi, float3 bary : SV_DomainLocation) { appdata v; v.vertex = vi[0].vertex*bary.x + vi[1].vertex*bary.y + vi[2].vertex*bary.z; float3 pp[3]; for (int i = 0; i < 3; ++i) pp[i] = v.vertex.xyz - vi[i].normal * (dot(v.vertex.xyz, vi[i].normal) - dot(vi[i].vertex.xyz, vi[i].normal)); v.vertex.xyz = _Smoothness * (pp[0]*bary.x + pp[1]*bary.y + pp[2]*bary.z) + (1.0f-_Smoothness) * v.vertex.xyz; v.tangent = vi[0].tangent*bary.x + vi[1].tangent*bary.y + vi[2].tangent*bary.z; v.normal = vi[0].normal*bary.x + vi[1].normal*bary.y + vi[2].normal*bary.z; v.texcoord = vi[0].texcoord*bary.x + vi[1].texcoord*bary.y + vi[2].texcoord*bary.z; v.texcoord1 = vi[0].texcoord1*bary.x + vi[1].texcoord1*bary.y + vi[2].texcoord1*bary.z; v.texcoord2 = vi[0].texcoord2*bary.x + vi[1].texcoord2*bary.y + vi[2].texcoord2*bary.z; disp (v); v2f_surf o = vert_surf (v); return o; } #endif // UNITY_CAN_COMPILE_TESSELLATION // fragment shader fixed4 frag_surf (v2f_surf IN) : SV_Target { UNITY_SETUP_INSTANCE_ID(IN); // prepare and unpack data Input surfIN; UNITY_INITIALIZE_OUTPUT(Input,surfIN); surfIN.uv_MainTex.x = 1.0; surfIN.uv_BumpMap.x = 1.0; float3 worldPos = IN.worldPos; #ifndef USING_DIRECTIONAL_LIGHT fixed3 lightDir = normalize(UnityWorldSpaceLightDir(worldPos)); #else fixed3 lightDir = _WorldSpaceLightPos0.xyz; #endif #ifdef UNITY_COMPILER_HLSL SurfaceOutput o = (SurfaceOutput)0; #else SurfaceOutput o; #endif o.Albedo = 0.0; o.Emission = 0.0; o.Specular = 0.0; o.Alpha = 0.0; o.Gloss = 0.0; fixed3 normalWorldVertex = fixed3(0,0,1); // call surface function surf (surfIN, o); SHADOW_CASTER_FRAGMENT(IN) } :Assets/Standard Assets/Effects/TessellationShaders/ShadersÚ9†˜#<ˆ㛓wÇDŘ2K SHADOWS_DEPTH SHADOWS_CUBE SHADOWS_DEPTH SHADOWS_CUBE SHADOWS_DEPTH SHADOWS_CUBE SHADOWS_DEPTH SHADOWS_CUBE SHADOWS_SOFTDIRLIGHTMAP_COMBINEDDIRLIGHTMAP_SEPARATEDYNAMICLIGHTMAP_ON INSTANCING_ONSHADOWS_CUBE SHADOWS_DEPTHř“ #line 183 "" #ifdef DUMMY_PREPROCESSOR_TO_WORK_AROUND_HLSL_COMPILER_LINE_HANDLING #endif // compile directives #pragma vertex vert_surf #pragma fragment frag_surf #pragma skip_variants FOG_LINEAR FOG_EXP FOG_EXP2 #pragma skip_variants INSTANCING_ON #include "HLSLSupport.cginc" #include "UnityShaderVariables.cginc" // Surface shader code generated based on: // writes to per-pixel normal: no // writes to emission: no // writes to occlusion: no // needs world space reflection vector: no // needs world space normal vector: no // needs screen space position: no // needs world space position: no // needs view direction: no // needs world space view direction: no // needs world space position for lighting: YES // needs world space view direction for lighting: YES // needs world space view direction for lightmaps: no // needs vertex color: no // needs VFACE: no // passes tangent-to-world matrix to pixel shader: no // reads from normal: no // 1 texcoords actually used // float2 _MainTex #define UNITY_PASS_META #include "UnityCG.cginc" #include "Lighting.cginc" #define INTERNAL_DATA #define WorldReflectionVector(data,normal) data.worldRefl #define WorldNormalVector(data,normal) normal // Original surface shader snippet: #line 11 "" #ifdef DUMMY_PREPROCESSOR_TO_WORK_AROUND_HLSL_COMPILER_LINE_HANDLING #endif /* UNITY: Original start of shader */ //#pragma surface surf BlinnPhong sampler2D _MainTex; fixed4 _Color; half _Shininess; struct Input { float2 uv_MainTex; }; void surf (Input IN, inout SurfaceOutput o) { fixed4 tex = tex2D(_MainTex, IN.uv_MainTex); o.Albedo = tex.rgb * _Color.rgb; o.Gloss = tex.a; o.Alpha = tex.a * _Color.a; o.Specular = _Shininess; } #include "UnityMetaPass.cginc" // vertex-to-fragment interpolation data struct v2f_surf { float4 pos : SV_POSITION; float2 pack0 : TEXCOORD0; // _MainTex float3 worldPos : TEXCOORD1; }; float4 _MainTex_ST; // vertex shader v2f_surf vert_surf (appdata_full v) { v2f_surf o; UNITY_INITIALIZE_OUTPUT(v2f_surf,o); o.pos = UnityMetaVertexPosition(v.vertex, v.texcoord1.xy, v.texcoord2.xy, unity_LightmapST, unity_DynamicLightmapST); o.pack0.xy = TRANSFORM_TEX(v.texcoord, _MainTex); float3 worldPos = mul(unity_ObjectToWorld, v.vertex).xyz; fixed3 worldNormal = UnityObjectToWorldNormal(v.normal); o.worldPos = worldPos; return o; } // fragment shader fixed4 frag_surf (v2f_surf IN) : SV_Target { // prepare and unpack data Input surfIN; UNITY_INITIALIZE_OUTPUT(Input,surfIN); surfIN.uv_MainTex.x = 1.0; surfIN.uv_MainTex = IN.pack0.xy; float3 worldPos = IN.worldPos; #ifndef USING_DIRECTIONAL_LIGHT fixed3 lightDir = normalize(UnityWorldSpaceLightDir(worldPos)); #else fixed3 lightDir = _WorldSpaceLightPos0.xyz; #endif #ifdef UNITY_COMPILER_HLSL SurfaceOutput o = (SurfaceOutput)0; #else SurfaceOutput o; #endif o.Albedo = 0.0; o.Emission = 0.0; o.Specular = 0.0; o.Alpha = 0.0; o.Gloss = 0.0; fixed3 normalWorldVertex = fixed3(0,0,1); // call surface function surf (surfIN, o); UnityMetaInput metaIN; UNITY_INITIALIZE_OUTPUT(UnityMetaInput, metaIN); metaIN.Albedo = o.Albedo; metaIN.Emission = o.Emission; return UnityMetaFragment(metaIN); } Assets/DefaultResourcesExtra˙˙˙˙špTŸH­`÷SGšň> SHADOWS_SOFTDIRLIGHTMAP_COMBINEDDIRLIGHTMAP_SEPARATEDYNAMICLIGHTMAP_ON INSTANCING_ONšü#line 202 "" #ifdef DUMMY_PREPROCESSOR_TO_WORK_AROUND_HLSL_COMPILER_LINE_HANDLING #endif // compile directives #pragma vertex vert_surf #pragma fragment frag_surf #pragma target 3.0 #pragma skip_variants FOG_LINEAR FOG_EXP FOG_EXP2 #pragma skip_variants INSTANCING_ON #include "HLSLSupport.cginc" #include "UnityShaderVariables.cginc" // Surface shader code generated based on: // writes to per-pixel normal: YES // writes to emission: no // writes to occlusion: no // needs world space reflection vector: no // needs world space normal vector: no // needs screen space position: no // needs world space position: no // needs view direction: no // needs world space view direction: no // needs world space position for lighting: YES // needs world space view direction for lighting: YES // needs world space view direction for lightmaps: no // needs vertex color: no // needs VFACE: no // passes tangent-to-world matrix to pixel shader: YES // reads from normal: no // 1 texcoords actually used // float2 _MainTex #define UNITY_PASS_META #include "UnityCG.cginc" #include "Lighting.cginc" #define INTERNAL_DATA half3 internalSurfaceTtoW0; half3 internalSurfaceTtoW1; half3 internalSurfaceTtoW2; #define WorldReflectionVector(data,normal) reflect (data.worldRefl, half3(dot(data.internalSurfaceTtoW0,normal), dot(data.internalSurfaceTtoW1,normal), dot(data.internalSurfaceTtoW2,normal))) #define WorldNormalVector(data,normal) fixed3(dot(data.internalSurfaceTtoW0,normal), dot(data.internalSurfaceTtoW1,normal), dot(data.internalSurfaceTtoW2,normal)) // Original surface shader snippet: #line 11 sampler2D _MainTex; sampler2D _BumpMap; fixed4 _Color; half _Shininess; struct Input { float2 uv_MainTex; float2 uv_BumpMap; }; void surf (Input IN, inout SurfaceOutput o) { fixed4 tex = tex2D(_MainTex, IN.uv_MainTex); o.Albedo = tex.rgb * _Color.rgb; o.Gloss = tex.a; o.Alpha = tex.a * _Color.a; o.Specular = _Shininess; o.Normal = UnpackNormal(tex2D(_BumpMap, IN.uv_BumpMap)); } #line 33 "" #ifdef DUMMY_PREPROCESSOR_TO_WORK_AROUND_HLSL_COMPILER_LINE_HANDLING #endif /* UNITY: Original start of shader */ //#pragma surface surf BlinnPhong //#pragma target 3.0 #include "UnityMetaPass.cginc" // vertex-to-fragment interpolation data struct v2f_surf { float4 pos : SV_POSITION; float2 pack0 : TEXCOORD0; // _MainTex float4 tSpace0 : TEXCOORD1; float4 tSpace1 : TEXCOORD2; float4 tSpace2 : TEXCOORD3; }; float4 _MainTex_ST; // vertex shader v2f_surf vert_surf (appdata_full v) { v2f_surf o; UNITY_INITIALIZE_OUTPUT(v2f_surf,o); o.pos = UnityMetaVertexPosition(v.vertex, v.texcoord1.xy, v.texcoord2.xy, unity_LightmapST, unity_DynamicLightmapST); o.pack0.xy = TRANSFORM_TEX(v.texcoord, _MainTex); float3 worldPos = mul(unity_ObjectToWorld, v.vertex).xyz; fixed3 worldNormal = UnityObjectToWorldNormal(v.normal); fixed3 worldTangent = UnityObjectToWorldDir(v.tangent.xyz); fixed tangentSign = v.tangent.w * unity_WorldTransformParams.w; fixed3 worldBinormal = cross(worldNormal, worldTangent) * tangentSign; o.tSpace0 = float4(worldTangent.x, worldBinormal.x, worldNormal.x, worldPos.x); o.tSpace1 = float4(worldTangent.y, worldBinormal.y, worldNormal.y, worldPos.y); o.tSpace2 = float4(worldTangent.z, worldBinormal.z, worldNormal.z, worldPos.z); return o; } // fragment shader fixed4 frag_surf (v2f_surf IN) : SV_Target { // prepare and unpack data Input surfIN; UNITY_INITIALIZE_OUTPUT(Input,surfIN); surfIN.uv_MainTex.x = 1.0; surfIN.uv_BumpMap.x = 1.0; surfIN.uv_MainTex = IN.pack0.xy; float3 worldPos = float3(IN.tSpace0.w, IN.tSpace1.w, IN.tSpace2.w); #ifndef USING_DIRECTIONAL_LIGHT fixed3 lightDir = normalize(UnityWorldSpaceLightDir(worldPos)); #else fixed3 lightDir = _WorldSpaceLightPos0.xyz; #endif #ifdef UNITY_COMPILER_HLSL SurfaceOutput o = (SurfaceOutput)0; #else SurfaceOutput o; #endif o.Albedo = 0.0; o.Emission = 0.0; o.Specular = 0.0; o.Alpha = 0.0; o.Gloss = 0.0; fixed3 normalWorldVertex = fixed3(0,0,1); // call surface function surf (surfIN, o); UnityMetaInput metaIN; UNITY_INITIALIZE_OUTPUT(UnityMetaInput, metaIN); metaIN.Albedo = o.Albedo; metaIN.Emission = o.Emission; return UnityMetaFragment(metaIN); } Assets/DefaultResourcesExtra˙˙˙˙ĚpTŸH­`÷SGšň> SHADOWS_SOFTDIRLIGHTMAP_COMBINEDDIRLIGHTMAP_SEPARATEDYNAMICLIGHTMAP_ON INSTANCING_ONŒvO#line 53 "" #ifdef DUMMY_PREPROCESSOR_TO_WORK_AROUND_HLSL_COMPILER_LINE_HANDLING #endif // compile directives #pragma vertex vert_surf #pragma fragment frag_surf #pragma multi_compile_fog #pragma multi_compile_fwdbase nodynlightmap #include "HLSLSupport.cginc" #include "UnityShaderVariables.cginc" // Surface shader code generated based on: // writes to per-pixel normal: YES // writes to emission: no // writes to occlusion: no // needs world space reflection vector: no // needs world space normal vector: no // needs screen space position: no // needs world space position: no // needs view direction: no // needs world space view direction: no // needs world space position for lighting: YES // needs world space view direction for lighting: YES // needs world space view direction for lightmaps: no // needs vertex color: no // needs VFACE: no // passes tangent-to-world matrix to pixel shader: YES // reads from normal: no // 2 texcoords actually used // float2 _MainTex // float2 _BumpMap #define UNITY_PASS_FORWARDBASE #include "UnityCG.cginc" #include "Lighting.cginc" #include "AutoLight.cginc" #define INTERNAL_DATA half3 internalSurfaceTtoW0; half3 internalSurfaceTtoW1; half3 internalSurfaceTtoW2; #define WorldReflectionVector(data,normal) reflect (data.worldRefl, half3(dot(data.internalSurfaceTtoW0,normal), dot(data.internalSurfaceTtoW1,normal), dot(data.internalSurfaceTtoW2,normal))) #define WorldNormalVector(data,normal) fixed3(dot(data.internalSurfaceTtoW0,normal), dot(data.internalSurfaceTtoW1,normal), dot(data.internalSurfaceTtoW2,normal)) // Original surface shader snippet: #line 11 sampler2D _MainTex; sampler2D _BumpMap; fixed4 _Color; half _Shininess; struct Input { float2 uv_MainTex; float2 uv_BumpMap; }; void surf (Input IN, inout SurfaceOutput o) { fixed4 tex = tex2D(_MainTex, IN.uv_MainTex); o.Albedo = tex.rgb * _Color.rgb; o.Gloss = tex.a; o.Alpha = tex.a * _Color.a; o.Specular = _Shininess; o.Normal = UnpackNormal(tex2D(_BumpMap, IN.uv_BumpMap)); } #line 43 "" #ifdef DUMMY_PREPROCESSOR_TO_WORK_AROUND_HLSL_COMPILER_LINE_HANDLING #endif /* UNITY: Original start of shader */ //#pragma surface surf BlinnPhong nodynlightmap // vertex-to-fragment interpolation data // no lightmaps: #ifndef LIGHTMAP_ON struct v2f_surf { float4 pos : SV_POSITION; float4 pack0 : TEXCOORD0; // _MainTex _BumpMap float4 tSpace0 : TEXCOORD1; float4 tSpace1 : TEXCOORD2; float4 tSpace2 : TEXCOORD3; #if UNITY_SHOULD_SAMPLE_SH half3 sh : TEXCOORD4; // SH #endif SHADOW_COORDS(5) UNITY_FOG_COORDS(6) UNITY_VERTEX_INPUT_INSTANCE_ID UNITY_VERTEX_OUTPUT_STEREO }; #endif // with lightmaps: #ifdef LIGHTMAP_ON struct v2f_surf { float4 pos : SV_POSITION; float4 pack0 : TEXCOORD0; // _MainTex _BumpMap float4 tSpace0 : TEXCOORD1; float4 tSpace1 : TEXCOORD2; float4 tSpace2 : TEXCOORD3; float4 lmap : TEXCOORD4; SHADOW_COORDS(5) UNITY_FOG_COORDS(6) UNITY_VERTEX_INPUT_INSTANCE_ID UNITY_VERTEX_OUTPUT_STEREO }; #endif float4 _MainTex_ST; float4 _BumpMap_ST; // vertex shader v2f_surf vert_surf (appdata_full v) { UNITY_SETUP_INSTANCE_ID(v); v2f_surf o; UNITY_INITIALIZE_OUTPUT(v2f_surf,o); UNITY_TRANSFER_INSTANCE_ID(v,o); UNITY_INITIALIZE_VERTEX_OUTPUT_STEREO(o); o.pos = UnityObjectToClipPos(v.vertex); o.pack0.xy = TRANSFORM_TEX(v.texcoord, _MainTex); o.pack0.zw = TRANSFORM_TEX(v.texcoord, _BumpMap); float3 worldPos = mul(unity_ObjectToWorld, v.vertex).xyz; fixed3 worldNormal = UnityObjectToWorldNormal(v.normal); fixed3 worldTangent = UnityObjectToWorldDir(v.tangent.xyz); fixed tangentSign = v.tangent.w * unity_WorldTransformParams.w; fixed3 worldBinormal = cross(worldNormal, worldTangent) * tangentSign; o.tSpace0 = float4(worldTangent.x, worldBinormal.x, worldNormal.x, worldPos.x); o.tSpace1 = float4(worldTangent.y, worldBinormal.y, worldNormal.y, worldPos.y); o.tSpace2 = float4(worldTangent.z, worldBinormal.z, worldNormal.z, worldPos.z); #ifdef LIGHTMAP_ON o.lmap.xy = v.texcoord1.xy * unity_LightmapST.xy + unity_LightmapST.zw; #endif // SH/ambient and vertex lights #ifndef LIGHTMAP_ON #if UNITY_SHOULD_SAMPLE_SH o.sh = 0; // Approximated illumination from non-important point lights #ifdef VERTEXLIGHT_ON o.sh += Shade4PointLights ( unity_4LightPosX0, unity_4LightPosY0, unity_4LightPosZ0, unity_LightColor[0].rgb, unity_LightColor[1].rgb, unity_LightColor[2].rgb, unity_LightColor[3].rgb, unity_4LightAtten0, worldPos, worldNormal); #endif o.sh = ShadeSHPerVertex (worldNormal, o.sh); #endif #endif // !LIGHTMAP_ON TRANSFER_SHADOW(o); // pass shadow coordinates to pixel shader UNITY_TRANSFER_FOG(o,o.pos); // pass fog coordinates to pixel shader return o; } // fragment shader fixed4 frag_surf (v2f_surf IN) : SV_Target { UNITY_SETUP_INSTANCE_ID(IN); // prepare and unpack data Input surfIN; UNITY_INITIALIZE_OUTPUT(Input,surfIN); surfIN.uv_MainTex.x = 1.0; surfIN.uv_BumpMap.x = 1.0; surfIN.uv_MainTex = IN.pack0.xy; surfIN.uv_BumpMap = IN.pack0.zw; float3 worldPos = float3(IN.tSpace0.w, IN.tSpace1.w, IN.tSpace2.w); #ifndef USING_DIRECTIONAL_LIGHT fixed3 lightDir = normalize(UnityWorldSpaceLightDir(worldPos)); #else fixed3 lightDir = _WorldSpaceLightPos0.xyz; #endif fixed3 worldViewDir = normalize(UnityWorldSpaceViewDir(worldPos)); #ifdef UNITY_COMPILER_HLSL SurfaceOutput o = (SurfaceOutput)0; #else SurfaceOutput o; #endif o.Albedo = 0.0; o.Emission = 0.0; o.Specular = 0.0; o.Alpha = 0.0; o.Gloss = 0.0; fixed3 normalWorldVertex = fixed3(0,0,1); // call surface function surf (surfIN, o); // compute lighting & shadowing factor UNITY_LIGHT_ATTENUATION(atten, IN, worldPos) fixed4 c = 0; fixed3 worldN; worldN.x = dot(IN.tSpace0.xyz, o.Normal); worldN.y = dot(IN.tSpace1.xyz, o.Normal); worldN.z = dot(IN.tSpace2.xyz, o.Normal); o.Normal = worldN; // Setup lighting environment UnityGI gi; UNITY_INITIALIZE_OUTPUT(UnityGI, gi); gi.indirect.diffuse = 0; gi.indirect.specular = 0; #if !defined(LIGHTMAP_ON) gi.light.color = _LightColor0.rgb; gi.light.dir = lightDir; #endif // Call GI (lightmaps/SH/reflections) lighting function UnityGIInput giInput; UNITY_INITIALIZE_OUTPUT(UnityGIInput, giInput); giInput.light = gi.light; giInput.worldPos = worldPos; giInput.worldViewDir = worldViewDir; giInput.atten = atten; #if defined(LIGHTMAP_ON) || defined(DYNAMICLIGHTMAP_ON) giInput.lightmapUV = IN.lmap; #else giInput.lightmapUV = 0.0; #endif #if UNITY_SHOULD_SAMPLE_SH giInput.ambient = IN.sh; #else giInput.ambient.rgb = 0.0; #endif giInput.probeHDR[0] = unity_SpecCube0_HDR; giInput.probeHDR[1] = unity_SpecCube1_HDR; #if UNITY_SPECCUBE_BLENDING || UNITY_SPECCUBE_BOX_PROJECTION giInput.boxMin[0] = unity_SpecCube0_BoxMin; // .w holds lerp value for blending #endif #if UNITY_SPECCUBE_BOX_PROJECTION giInput.boxMax[0] = unity_SpecCube0_BoxMax; giInput.probePosition[0] = unity_SpecCube0_ProbePosition; giInput.boxMax[1] = unity_SpecCube1_BoxMax; giInput.boxMin[1] = unity_SpecCube1_BoxMin; giInput.probePosition[1] = unity_SpecCube1_ProbePosition; #endif LightingBlinnPhong_GI(o, giInput, gi); // realtime lighting: call lighting function c += LightingBlinnPhong (o, worldViewDir, gi); UNITY_APPLY_FOG(IN.fogCoord, c); // apply fog UNITY_OPAQUE_ALPHA(c.a); return c; } Assets/DefaultResourcesExtra˙˙˙˙7qˆ ­|!bÔż•­NËüĘ__ FOG_LINEARFOG_EXPFOG_EXP2__ FOG_LINEARFOG_EXPFOG_EXP2  DIRECTIONAL DIRECTIONAL LIGHTMAP_ON DIRECTIONAL LIGHTMAP_ONDIRLIGHTMAP_COMBINED DIRECTIONAL LIGHTMAP_ONDIRLIGHTMAP_SEPARATE DIRECTIONALSHADOWS_SCREEN DIRECTIONAL LIGHTMAP_ONSHADOWS_SCREEN DIRECTIONAL LIGHTMAP_ONDIRLIGHTMAP_COMBINEDSHADOWS_SCREEN DIRECTIONAL LIGHTMAP_ONDIRLIGHTMAP_SEPARATESHADOWS_SCREEN DIRECTIONALVERTEXLIGHT_ON DIRECTIONALSHADOWS_SCREENVERTEXLIGHT_ON DIRECTIONAL DIRECTIONAL LIGHTMAP_ON DIRECTIONAL LIGHTMAP_ONDIRLIGHTMAP_COMBINED DIRECTIONAL LIGHTMAP_ONDIRLIGHTMAP_SEPARATE DIRECTIONALSHADOWS_SCREEN DIRECTIONAL LIGHTMAP_ONSHADOWS_SCREEN DIRECTIONAL LIGHTMAP_ONDIRLIGHTMAP_COMBINEDSHADOWS_SCREEN DIRECTIONAL LIGHTMAP_ONDIRLIGHTMAP_SEPARATESHADOWS_SCREEN SHADOWS_SOFTDIRLIGHTMAP_COMBINEDDIRLIGHTMAP_SEPARATEDYNAMICLIGHTMAP_ON INSTANCING_ONFOG_EXP FOG_EXP2 FOG_LINEAR_DIRECTIONAL DIRLIGHTMAP_COMBINED DIRLIGHTMAP_SEPARATE LIGHTMAP_ON SHADOWS_SCREEN VERTEXLIGHT_ON™ęD#line 210 "" #ifdef DUMMY_PREPROCESSOR_TO_WORK_AROUND_HLSL_COMPILER_LINE_HANDLING #endif // compile directives #pragma vertex tessvert_surf #pragma fragment frag_surf #pragma hull hs_surf #pragma domain ds_surf #pragma skip_variants FOG_LINEAR FOG_EXP FOG_EXP2 #pragma skip_variants INSTANCING_ON #include "HLSLSupport.cginc" #include "UnityShaderVariables.cginc" // Surface shader code generated based on: // vertex modifier: 'disp' // writes to per-pixel normal: YES // writes to emission: no // writes to occlusion: no // needs world space reflection vector: no // needs world space normal vector: no // needs screen space position: no // needs world space position: no // needs view direction: no // needs world space view direction: no // needs world space position for lighting: YES // needs world space view direction for lighting: YES // needs world space view direction for lightmaps: no // needs vertex color: no // needs VFACE: no // passes tangent-to-world matrix to pixel shader: YES // reads from normal: no // 1 texcoords actually used // float2 _MainTex #define UNITY_PASS_META #include "UnityCG.cginc" #include "Lighting.cginc" #define INTERNAL_DATA half3 internalSurfaceTtoW0; half3 internalSurfaceTtoW1; half3 internalSurfaceTtoW2; #define WorldReflectionVector(data,normal) reflect (data.worldRefl, half3(dot(data.internalSurfaceTtoW0,normal), dot(data.internalSurfaceTtoW1,normal), dot(data.internalSurfaceTtoW2,normal))) #define WorldNormalVector(data,normal) fixed3(dot(data.internalSurfaceTtoW0,normal), dot(data.internalSurfaceTtoW1,normal), dot(data.internalSurfaceTtoW2,normal)) // Original surface shader snippet: #line 14 "" #ifdef DUMMY_PREPROCESSOR_TO_WORK_AROUND_HLSL_COMPILER_LINE_HANDLING #endif /* UNITY: Original start of shader */ //#pragma surface surf BlinnPhong addshadow vertex:disp tessellate:tessEdge tessphong:_Smoothness #include "Tessellation.cginc" struct appdata { float4 vertex : POSITION; float4 tangent : TANGENT; float3 normal : NORMAL; float2 texcoord : TEXCOORD0; float2 texcoord1 : TEXCOORD1; float2 texcoord2 : TEXCOORD2; }; float _EdgeLength; float _Smoothness; float4 tessEdge (appdata v0, appdata v1, appdata v2) { return UnityEdgeLengthBasedTessCull (v0.vertex, v1.vertex, v2.vertex, _EdgeLength, 0.0); } void disp (inout appdata v) { // do nothing } sampler2D _MainTex; sampler2D _BumpMap; fixed4 _Color; half _Shininess; struct Input { float2 uv_MainTex; float2 uv_BumpMap; }; void surf (Input IN, inout SurfaceOutput o) { fixed4 tex = tex2D(_MainTex, IN.uv_MainTex); o.Albedo = tex.rgb * _Color.rgb; o.Gloss = tex.a; o.Alpha = tex.a * _Color.a; o.Specular = _Shininess; o.Normal = UnpackNormal(tex2D(_BumpMap, IN.uv_BumpMap)); } #ifdef UNITY_CAN_COMPILE_TESSELLATION // tessellation vertex shader struct InternalTessInterp_appdata { float4 vertex : INTERNALTESSPOS; float4 tangent : TANGENT; float3 normal : NORMAL; float2 texcoord : TEXCOORD0; float2 texcoord1 : TEXCOORD1; float2 texcoord2 : TEXCOORD2; }; InternalTessInterp_appdata tessvert_surf (appdata v) { InternalTessInterp_appdata o; o.vertex = v.vertex; o.tangent = v.tangent; o.normal = v.normal; o.texcoord = v.texcoord; o.texcoord1 = v.texcoord1; o.texcoord2 = v.texcoord2; return o; } // tessellation hull constant shader UnityTessellationFactors hsconst_surf (InputPatch v) { UnityTessellationFactors o; float4 tf; appdata vi[3]; vi[0].vertex = v[0].vertex; vi[0].tangent = v[0].tangent; vi[0].normal = v[0].normal; vi[0].texcoord = v[0].texcoord; vi[0].texcoord1 = v[0].texcoord1; vi[0].texcoord2 = v[0].texcoord2; vi[1].vertex = v[1].vertex; vi[1].tangent = v[1].tangent; vi[1].normal = v[1].normal; vi[1].texcoord = v[1].texcoord; vi[1].texcoord1 = v[1].texcoord1; vi[1].texcoord2 = v[1].texcoord2; vi[2].vertex = v[2].vertex; vi[2].tangent = v[2].tangent; vi[2].normal = v[2].normal; vi[2].texcoord = v[2].texcoord; vi[2].texcoord1 = v[2].texcoord1; vi[2].texcoord2 = v[2].texcoord2; tf = tessEdge(vi[0], vi[1], vi[2]); o.edge[0] = tf.x; o.edge[1] = tf.y; o.edge[2] = tf.z; o.inside = tf.w; return o; } // tessellation hull shader [UNITY_domain("tri")] [UNITY_partitioning("fractional_odd")] [UNITY_outputtopology("triangle_cw")] [UNITY_patchconstantfunc("hsconst_surf")] [UNITY_outputcontrolpoints(3)] InternalTessInterp_appdata hs_surf (InputPatch v, uint id : SV_OutputControlPointID) { return v[id]; } #endif // UNITY_CAN_COMPILE_TESSELLATION #include "UnityMetaPass.cginc" // vertex-to-fragment interpolation data struct v2f_surf { float4 pos : SV_POSITION; float2 pack0 : TEXCOORD0; // _MainTex float4 tSpace0 : TEXCOORD1; float4 tSpace1 : TEXCOORD2; float4 tSpace2 : TEXCOORD3; }; float4 _MainTex_ST; // vertex shader v2f_surf vert_surf (appdata v) { v2f_surf o; UNITY_INITIALIZE_OUTPUT(v2f_surf,o); o.pos = UnityMetaVertexPosition(v.vertex, v.texcoord1.xy, v.texcoord2.xy, unity_LightmapST, unity_DynamicLightmapST); o.pack0.xy = TRANSFORM_TEX(v.texcoord, _MainTex); float3 worldPos = mul(unity_ObjectToWorld, v.vertex).xyz; fixed3 worldNormal = UnityObjectToWorldNormal(v.normal); fixed3 worldTangent = UnityObjectToWorldDir(v.tangent.xyz); fixed tangentSign = v.tangent.w * unity_WorldTransformParams.w; fixed3 worldBinormal = cross(worldNormal, worldTangent) * tangentSign; o.tSpace0 = float4(worldTangent.x, worldBinormal.x, worldNormal.x, worldPos.x); o.tSpace1 = float4(worldTangent.y, worldBinormal.y, worldNormal.y, worldPos.y); o.tSpace2 = float4(worldTangent.z, worldBinormal.z, worldNormal.z, worldPos.z); return o; } #ifdef UNITY_CAN_COMPILE_TESSELLATION // tessellation domain shader [UNITY_domain("tri")] v2f_surf ds_surf (UnityTessellationFactors tessFactors, const OutputPatch vi, float3 bary : SV_DomainLocation) { appdata v; v.vertex = vi[0].vertex*bary.x + vi[1].vertex*bary.y + vi[2].vertex*bary.z; float3 pp[3]; for (int i = 0; i < 3; ++i) pp[i] = v.vertex.xyz - vi[i].normal * (dot(v.vertex.xyz, vi[i].normal) - dot(vi[i].vertex.xyz, vi[i].normal)); v.vertex.xyz = _Smoothness * (pp[0]*bary.x + pp[1]*bary.y + pp[2]*bary.z) + (1.0f-_Smoothness) * v.vertex.xyz; v.tangent = vi[0].tangent*bary.x + vi[1].tangent*bary.y + vi[2].tangent*bary.z; v.normal = vi[0].normal*bary.x + vi[1].normal*bary.y + vi[2].normal*bary.z; v.texcoord = vi[0].texcoord*bary.x + vi[1].texcoord*bary.y + vi[2].texcoord*bary.z; v.texcoord1 = vi[0].texcoord1*bary.x + vi[1].texcoord1*bary.y + vi[2].texcoord1*bary.z; v.texcoord2 = vi[0].texcoord2*bary.x + vi[1].texcoord2*bary.y + vi[2].texcoord2*bary.z; disp (v); v2f_surf o = vert_surf (v); return o; } #endif // UNITY_CAN_COMPILE_TESSELLATION // fragment shader fixed4 frag_surf (v2f_surf IN) : SV_Target { // prepare and unpack data Input surfIN; UNITY_INITIALIZE_OUTPUT(Input,surfIN); surfIN.uv_MainTex.x = 1.0; surfIN.uv_BumpMap.x = 1.0; surfIN.uv_MainTex = IN.pack0.xy; float3 worldPos = float3(IN.tSpace0.w, IN.tSpace1.w, IN.tSpace2.w); #ifndef USING_DIRECTIONAL_LIGHT fixed3 lightDir = normalize(UnityWorldSpaceLightDir(worldPos)); #else fixed3 lightDir = _WorldSpaceLightPos0.xyz; #endif #ifdef UNITY_COMPILER_HLSL SurfaceOutput o = (SurfaceOutput)0; #else SurfaceOutput o; #endif o.Albedo = 0.0; o.Emission = 0.0; o.Specular = 0.0; o.Alpha = 0.0; o.Gloss = 0.0; fixed3 normalWorldVertex = fixed3(0,0,1); // call surface function surf (surfIN, o); UnityMetaInput metaIN; UNITY_INITIALIZE_OUTPUT(UnityMetaInput, metaIN); metaIN.Albedo = o.Albedo; metaIN.Emission = o.Emission; return UnityMetaFragment(metaIN); } :Assets/Standard Assets/Effects/TessellationShaders/ShadersÚÔ=šŠ^Ť~Öş ƒfEĽ# SHADOWS_SOFTDIRLIGHTMAP_COMBINEDDIRLIGHTMAP_SEPARATEDYNAMICLIGHTMAP_ON INSTANCING_ON%ň #line 223 "" #ifdef DUMMY_PREPROCESSOR_TO_WORK_AROUND_HLSL_COMPILER_LINE_HANDLING #endif // compile directives #pragma vertex vert_surf #pragma fragment frag_surf #pragma multi_compile_fog #pragma multi_compile_fwdadd nodynlightmap #pragma skip_variants INSTANCING_ON #include "HLSLSupport.cginc" #include "UnityShaderVariables.cginc" // Surface shader code generated based on: // writes to per-pixel normal: YES // writes to emission: no // writes to occlusion: no // needs world space reflection vector: no // needs world space normal vector: no // needs screen space position: no // needs world space position: no // needs view direction: no // needs world space view direction: no // needs world space position for lighting: YES // needs world space view direction for lighting: YES // needs world space view direction for lightmaps: no // needs vertex color: no // needs VFACE: no // passes tangent-to-world matrix to pixel shader: YES // reads from normal: no // 2 texcoords actually used // float2 _MainTex // float2 _BumpMap #define UNITY_PASS_FORWARDADD #include "UnityCG.cginc" #include "Lighting.cginc" #include "AutoLight.cginc" #define INTERNAL_DATA half3 internalSurfaceTtoW0; half3 internalSurfaceTtoW1; half3 internalSurfaceTtoW2; #define WorldReflectionVector(data,normal) reflect (data.worldRefl, half3(dot(data.internalSurfaceTtoW0,normal), dot(data.internalSurfaceTtoW1,normal), dot(data.internalSurfaceTtoW2,normal))) #define WorldNormalVector(data,normal) fixed3(dot(data.internalSurfaceTtoW0,normal), dot(data.internalSurfaceTtoW1,normal), dot(data.internalSurfaceTtoW2,normal)) // Original surface shader snippet: #line 11 sampler2D _MainTex; sampler2D _BumpMap; fixed4 _Color; half _Shininess; struct Input { float2 uv_MainTex; float2 uv_BumpMap; }; void surf (Input IN, inout SurfaceOutput o) { fixed4 tex = tex2D(_MainTex, IN.uv_MainTex); o.Albedo = tex.rgb * _Color.rgb; o.Gloss = tex.a; o.Alpha = tex.a * _Color.a; o.Specular = _Shininess; o.Normal = UnpackNormal(tex2D(_BumpMap, IN.uv_BumpMap)); } #line 43 "" #ifdef DUMMY_PREPROCESSOR_TO_WORK_AROUND_HLSL_COMPILER_LINE_HANDLING #endif /* UNITY: Original start of shader */ //#pragma surface surf BlinnPhong nodynlightmap // vertex-to-fragment interpolation data struct v2f_surf { float4 pos : SV_POSITION; float4 pack0 : TEXCOORD0; // _MainTex _BumpMap fixed3 tSpace0 : TEXCOORD1; fixed3 tSpace1 : TEXCOORD2; fixed3 tSpace2 : TEXCOORD3; float3 worldPos : TEXCOORD4; SHADOW_COORDS(5) UNITY_FOG_COORDS(6) }; float4 _MainTex_ST; float4 _BumpMap_ST; // vertex shader v2f_surf vert_surf (appdata_full v) { v2f_surf o; UNITY_INITIALIZE_OUTPUT(v2f_surf,o); o.pos = UnityObjectToClipPos(v.vertex); o.pack0.xy = TRANSFORM_TEX(v.texcoord, _MainTex); o.pack0.zw = TRANSFORM_TEX(v.texcoord, _BumpMap); float3 worldPos = mul(unity_ObjectToWorld, v.vertex).xyz; fixed3 worldNormal = UnityObjectToWorldNormal(v.normal); fixed3 worldTangent = UnityObjectToWorldDir(v.tangent.xyz); fixed tangentSign = v.tangent.w * unity_WorldTransformParams.w; fixed3 worldBinormal = cross(worldNormal, worldTangent) * tangentSign; o.tSpace0 = fixed3(worldTangent.x, worldBinormal.x, worldNormal.x); o.tSpace1 = fixed3(worldTangent.y, worldBinormal.y, worldNormal.y); o.tSpace2 = fixed3(worldTangent.z, worldBinormal.z, worldNormal.z); o.worldPos = worldPos; TRANSFER_SHADOW(o); // pass shadow coordinates to pixel shader UNITY_TRANSFER_FOG(o,o.pos); // pass fog coordinates to pixel shader return o; } // fragment shader fixed4 frag_surf (v2f_surf IN) : SV_Target { // prepare and unpack data Input surfIN; UNITY_INITIALIZE_OUTPUT(Input,surfIN); surfIN.uv_MainTex.x = 1.0; surfIN.uv_BumpMap.x = 1.0; surfIN.uv_MainTex = IN.pack0.xy; surfIN.uv_BumpMap = IN.pack0.zw; float3 worldPos = IN.worldPos; #ifndef USING_DIRECTIONAL_LIGHT fixed3 lightDir = normalize(UnityWorldSpaceLightDir(worldPos)); #else fixed3 lightDir = _WorldSpaceLightPos0.xyz; #endif fixed3 worldViewDir = normalize(UnityWorldSpaceViewDir(worldPos)); #ifdef UNITY_COMPILER_HLSL SurfaceOutput o = (SurfaceOutput)0; #else SurfaceOutput o; #endif o.Albedo = 0.0; o.Emission = 0.0; o.Specular = 0.0; o.Alpha = 0.0; o.Gloss = 0.0; fixed3 normalWorldVertex = fixed3(0,0,1); // call surface function surf (surfIN, o); UNITY_LIGHT_ATTENUATION(atten, IN, worldPos) fixed4 c = 0; fixed3 worldN; worldN.x = dot(IN.tSpace0.xyz, o.Normal); worldN.y = dot(IN.tSpace1.xyz, o.Normal); worldN.z = dot(IN.tSpace2.xyz, o.Normal); o.Normal = worldN; // Setup lighting environment UnityGI gi; UNITY_INITIALIZE_OUTPUT(UnityGI, gi); gi.indirect.diffuse = 0; gi.indirect.specular = 0; #if !defined(LIGHTMAP_ON) gi.light.color = _LightColor0.rgb; gi.light.dir = lightDir; #endif gi.light.color *= atten; c += LightingBlinnPhong (o, worldViewDir, gi); c.a = 0.0; UNITY_APPLY_FOG(IN.fogCoord, c); // apply fog UNITY_OPAQUE_ALPHA(c.a); return c; } Assets/DefaultResourcesExtra˙˙˙˙áqˆ ­|!bÔż•­NËüĘ__ FOG_LINEARFOG_EXPFOG_EXP2__ FOG_LINEARFOG_EXPFOG_EXP2POINT DIRECTIONALSPOT POINT_COOKIEDIRECTIONAL_COOKIEPOINT DIRECTIONALSPOT POINT_COOKIEDIRECTIONAL_COOKIE SHADOWS_SOFTDIRLIGHTMAP_COMBINEDDIRLIGHTMAP_SEPARATEDYNAMICLIGHTMAP_ON INSTANCING_ONFOG_EXP FOG_EXP2 FOG_LINEAR6DIRECTIONAL DIRECTIONAL_COOKIE POINT POINT_COOKIE SPOT‹x5#line 147 "" #ifdef DUMMY_PREPROCESSOR_TO_WORK_AROUND_HLSL_COMPILER_LINE_HANDLING #endif // compile directives #pragma vertex vert_surf #pragma fragment frag_surf #pragma skip_variants FOG_LINEAR FOG_EXP FOG_EXP2 #include "HLSLSupport.cginc" #include "UnityShaderVariables.cginc" // Surface shader code generated based on: // writes to per-pixel normal: YES // writes to emission: no // writes to occlusion: no // needs world space reflection vector: no // needs world space normal vector: no // needs screen space position: no // needs world space position: no // needs view direction: no // needs world space view direction: no // needs world space position for lighting: YES // needs world space view direction for lighting: YES // needs world space view direction for lightmaps: no // needs vertex color: no // needs VFACE: no // passes tangent-to-world matrix to pixel shader: YES // reads from normal: no // 1 texcoords actually used // float2 _BumpMap #define UNITY_PASS_PREPASSBASE #include "UnityCG.cginc" #include "Lighting.cginc" #define INTERNAL_DATA half3 internalSurfaceTtoW0; half3 internalSurfaceTtoW1; half3 internalSurfaceTtoW2; #define WorldReflectionVector(data,normal) reflect (data.worldRefl, half3(dot(data.internalSurfaceTtoW0,normal), dot(data.internalSurfaceTtoW1,normal), dot(data.internalSurfaceTtoW2,normal))) #define WorldNormalVector(data,normal) fixed3(dot(data.internalSurfaceTtoW0,normal), dot(data.internalSurfaceTtoW1,normal), dot(data.internalSurfaceTtoW2,normal)) // Original surface shader snippet: #line 11 sampler2D _MainTex; sampler2D _BumpMap; fixed4 _Color; half _Shininess; struct Input { float2 uv_MainTex; float2 uv_BumpMap; }; void surf (Input IN, inout SurfaceOutput o) { fixed4 tex = tex2D(_MainTex, IN.uv_MainTex); o.Albedo = tex.rgb * _Color.rgb; o.Gloss = tex.a; o.Alpha = tex.a * _Color.a; o.Specular = _Shininess; o.Normal = UnpackNormal(tex2D(_BumpMap, IN.uv_BumpMap)); } #line 43 "" #ifdef DUMMY_PREPROCESSOR_TO_WORK_AROUND_HLSL_COMPILER_LINE_HANDLING #endif /* UNITY: Original start of shader */ //#pragma surface surf BlinnPhong nodynlightmap // vertex-to-fragment interpolation data struct v2f_surf { float4 pos : SV_POSITION; float2 pack0 : TEXCOORD0; // _BumpMap float4 tSpace0 : TEXCOORD1; float4 tSpace1 : TEXCOORD2; float4 tSpace2 : TEXCOORD3; UNITY_VERTEX_INPUT_INSTANCE_ID UNITY_VERTEX_OUTPUT_STEREO }; float4 _BumpMap_ST; // vertex shader v2f_surf vert_surf (appdata_full v) { UNITY_SETUP_INSTANCE_ID(v); v2f_surf o; UNITY_INITIALIZE_OUTPUT(v2f_surf,o); UNITY_TRANSFER_INSTANCE_ID(v,o); UNITY_INITIALIZE_VERTEX_OUTPUT_STEREO(o); o.pos = UnityObjectToClipPos(v.vertex); o.pack0.xy = TRANSFORM_TEX(v.texcoord, _BumpMap); float3 worldPos = mul(unity_ObjectToWorld, v.vertex).xyz; fixed3 worldNormal = UnityObjectToWorldNormal(v.normal); fixed3 worldTangent = UnityObjectToWorldDir(v.tangent.xyz); fixed tangentSign = v.tangent.w * unity_WorldTransformParams.w; fixed3 worldBinormal = cross(worldNormal, worldTangent) * tangentSign; o.tSpace0 = float4(worldTangent.x, worldBinormal.x, worldNormal.x, worldPos.x); o.tSpace1 = float4(worldTangent.y, worldBinormal.y, worldNormal.y, worldPos.y); o.tSpace2 = float4(worldTangent.z, worldBinormal.z, worldNormal.z, worldPos.z); return o; } // fragment shader fixed4 frag_surf (v2f_surf IN) : SV_Target { UNITY_SETUP_INSTANCE_ID(IN); // prepare and unpack data Input surfIN; UNITY_INITIALIZE_OUTPUT(Input,surfIN); surfIN.uv_MainTex.x = 1.0; surfIN.uv_BumpMap.x = 1.0; surfIN.uv_BumpMap = IN.pack0.xy; float3 worldPos = float3(IN.tSpace0.w, IN.tSpace1.w, IN.tSpace2.w); #ifndef USING_DIRECTIONAL_LIGHT fixed3 lightDir = normalize(UnityWorldSpaceLightDir(worldPos)); #else fixed3 lightDir = _WorldSpaceLightPos0.xyz; #endif #ifdef UNITY_COMPILER_HLSL SurfaceOutput o = (SurfaceOutput)0; #else SurfaceOutput o; #endif o.Albedo = 0.0; o.Emission = 0.0; o.Specular = 0.0; o.Alpha = 0.0; o.Gloss = 0.0; fixed3 normalWorldVertex = fixed3(0,0,1); // call surface function surf (surfIN, o); fixed3 worldN; worldN.x = dot(IN.tSpace0.xyz, o.Normal); worldN.y = dot(IN.tSpace1.xyz, o.Normal); worldN.z = dot(IN.tSpace2.xyz, o.Normal); o.Normal = worldN; // output normal and specular fixed4 res; res.rgb = o.Normal * 0.5 + 0.5; res.a = o.Specular; return res; } Assets/DefaultResourcesExtra˙˙˙˙••6žhí~Ž$żĘ‘qDg SHADOWS_SOFTDIRLIGHTMAP_COMBINEDDIRLIGHTMAP_SEPARATEDYNAMICLIGHTMAP_ON INSTANCING_ONŻ. W#line 131 "" #ifdef DUMMY_PREPROCESSOR_TO_WORK_AROUND_HLSL_COMPILER_LINE_HANDLING #endif // compile directives #pragma vertex vert_surf #pragma fragment frag_surf #pragma multi_compile_fog #pragma multi_compile_prepassfinal nodynlightmap #include "HLSLSupport.cginc" #include "UnityShaderVariables.cginc" // Surface shader code generated based on: // writes to per-pixel normal: YES // writes to emission: no // writes to occlusion: no // needs world space reflection vector: no // needs world space normal vector: no // needs screen space position: no // needs world space position: no // needs view direction: no // needs world space view direction: no // needs world space position for lighting: YES // needs world space view direction for lighting: YES // needs world space view direction for lightmaps: no // needs vertex color: no // needs VFACE: no // passes tangent-to-world matrix to pixel shader: YES // reads from normal: no // 1 texcoords actually used // float2 _MainTex #define UNITY_PASS_PREPASSFINAL #include "UnityCG.cginc" #include "Lighting.cginc" #define INTERNAL_DATA #define WorldReflectionVector(data,normal) data.worldRefl #define WorldNormalVector(data,normal) normal // Original surface shader snippet: #line 11 sampler2D _MainTex; sampler2D _BumpMap; fixed4 _Color; half _Shininess; struct Input { float2 uv_MainTex; float2 uv_BumpMap; }; void surf (Input IN, inout SurfaceOutput o) { fixed4 tex = tex2D(_MainTex, IN.uv_MainTex); o.Albedo = tex.rgb * _Color.rgb; o.Gloss = tex.a; o.Alpha = tex.a * _Color.a; o.Specular = _Shininess; o.Normal = UnpackNormal(tex2D(_BumpMap, IN.uv_BumpMap)); } #line 43 "" #ifdef DUMMY_PREPROCESSOR_TO_WORK_AROUND_HLSL_COMPILER_LINE_HANDLING #endif /* UNITY: Original start of shader */ //#pragma surface surf BlinnPhong nodynlightmap // vertex-to-fragment interpolation data struct v2f_surf { float4 pos : SV_POSITION; float2 pack0 : TEXCOORD0; // _MainTex float3 worldPos : TEXCOORD1; float4 screen : TEXCOORD2; float4 lmap : TEXCOORD3; #ifndef LIGHTMAP_ON float3 vlight : TEXCOORD4; #else #ifdef DIRLIGHTMAP_OFF float4 lmapFadePos : TEXCOORD4; #endif #endif UNITY_FOG_COORDS(5) #if defined(LIGHTMAP_ON) && defined(DIRLIGHTMAP_COMBINED) fixed3 tSpace0 : TEXCOORD6; fixed3 tSpace1 : TEXCOORD7; fixed3 tSpace2 : TEXCOORD8; #endif UNITY_VERTEX_INPUT_INSTANCE_ID UNITY_VERTEX_OUTPUT_STEREO }; float4 _MainTex_ST; // vertex shader v2f_surf vert_surf (appdata_full v) { UNITY_SETUP_INSTANCE_ID(v); v2f_surf o; UNITY_INITIALIZE_OUTPUT(v2f_surf,o); UNITY_TRANSFER_INSTANCE_ID(v,o); UNITY_INITIALIZE_VERTEX_OUTPUT_STEREO(o); o.pos = UnityObjectToClipPos(v.vertex); o.pack0.xy = TRANSFORM_TEX(v.texcoord, _MainTex); float3 worldPos = mul(unity_ObjectToWorld, v.vertex).xyz; fixed3 worldNormal = UnityObjectToWorldNormal(v.normal); #if defined(LIGHTMAP_ON) && defined(DIRLIGHTMAP_COMBINED) fixed3 worldTangent = UnityObjectToWorldDir(v.tangent.xyz); fixed tangentSign = v.tangent.w * unity_WorldTransformParams.w; fixed3 worldBinormal = cross(worldNormal, worldTangent) * tangentSign; #endif #if defined(LIGHTMAP_ON) && defined(DIRLIGHTMAP_COMBINED) o.tSpace0 = float4(worldTangent.x, worldBinormal.x, worldNormal.x, worldPos.x); o.tSpace1 = float4(worldTangent.y, worldBinormal.y, worldNormal.y, worldPos.y); o.tSpace2 = float4(worldTangent.z, worldBinormal.z, worldNormal.z, worldPos.z); #endif o.worldPos = worldPos; o.screen = ComputeScreenPos (o.pos); o.lmap.zw = 0; #ifdef LIGHTMAP_ON o.lmap.xy = v.texcoord1.xy * unity_LightmapST.xy + unity_LightmapST.zw; #ifdef DIRLIGHTMAP_OFF o.lmapFadePos.xyz = (mul(unity_ObjectToWorld, v.vertex).xyz - unity_ShadowFadeCenterAndType.xyz) * unity_ShadowFadeCenterAndType.w; o.lmapFadePos.w = (-UnityObjectToViewPos(v.vertex).z) * (1.0 - unity_ShadowFadeCenterAndType.w); #endif #else o.lmap.xy = 0; float3 worldN = UnityObjectToWorldNormal(v.normal); o.vlight = ShadeSH9 (float4(worldN,1.0)); #endif UNITY_TRANSFER_FOG(o,o.pos); // pass fog coordinates to pixel shader return o; } sampler2D _LightBuffer; sampler2D _CameraNormalsTexture; #ifdef LIGHTMAP_ON float4 unity_LightmapFade; #endif fixed4 unity_Ambient; // fragment shader fixed4 frag_surf (v2f_surf IN) : SV_Target { UNITY_SETUP_INSTANCE_ID(IN); // prepare and unpack data Input surfIN; UNITY_INITIALIZE_OUTPUT(Input,surfIN); surfIN.uv_MainTex.x = 1.0; surfIN.uv_BumpMap.x = 1.0; surfIN.uv_MainTex = IN.pack0.xy; float3 worldPos = IN.worldPos; #ifndef USING_DIRECTIONAL_LIGHT fixed3 lightDir = normalize(UnityWorldSpaceLightDir(worldPos)); #else fixed3 lightDir = _WorldSpaceLightPos0.xyz; #endif #ifdef UNITY_COMPILER_HLSL SurfaceOutput o = (SurfaceOutput)0; #else SurfaceOutput o; #endif o.Albedo = 0.0; o.Emission = 0.0; o.Specular = 0.0; o.Alpha = 0.0; o.Gloss = 0.0; fixed3 normalWorldVertex = fixed3(0,0,1); // call surface function surf (surfIN, o); half4 light = tex2Dproj (_LightBuffer, UNITY_PROJ_COORD(IN.screen)); #if defined (SHADER_API_MOBILE) light = max(light, half4(0.001, 0.001, 0.001, 0.001)); #endif #ifndef UNITY_HDR_ON light = -log2(light); #endif #ifdef LIGHTMAP_ON #ifdef DIRLIGHTMAP_OFF // single lightmap fixed4 lmtex = UNITY_SAMPLE_TEX2D(unity_Lightmap, IN.lmap.xy); fixed3 lm = DecodeLightmap (lmtex); light.rgb += lm; #elif DIRLIGHTMAP_COMBINED half4 nspec = tex2Dproj (_CameraNormalsTexture, UNITY_PROJ_COORD(IN.screen)); half3 normal = nspec.rgb * 2 - 1; o.Normal = normalize(normal); // directional lightmaps fixed4 lmtex = UNITY_SAMPLE_TEX2D(unity_Lightmap, IN.lmap.xy); fixed4 lmIndTex = UNITY_SAMPLE_TEX2D_SAMPLER(unity_LightmapInd, unity_Lightmap, IN.lmap.xy); half4 lm = half4(DecodeDirectionalLightmap (DecodeLightmap(lmtex), lmIndTex, o.Normal), 0); light += lm; #elif DIRLIGHTMAP_SEPARATE // directional with specular - no support #endif // DIRLIGHTMAP_OFF #else light.rgb += IN.vlight; #endif // LIGHTMAP_ON half4 c = LightingBlinnPhong_PrePass (o, light); UNITY_APPLY_FOG(IN.fogCoord, c); // apply fog UNITY_OPAQUE_ALPHA(c.a); return c; } Assets/DefaultResourcesExtra˙˙˙˙…•6žhí~Ž$żĘ‘qDg__ FOG_LINEARFOG_EXPFOG_EXP2__ FOG_LINEARFOG_EXPFOG_EXP2 LIGHTMAP_ON LIGHTMAP_ONDIRLIGHTMAP_COMBINED LIGHTMAP_ONDIRLIGHTMAP_SEPARATE UNITY_HDR_ON LIGHTMAP_ON UNITY_HDR_ON LIGHTMAP_ONDIRLIGHTMAP_COMBINED UNITY_HDR_ON LIGHTMAP_ONDIRLIGHTMAP_SEPARATE UNITY_HDR_ON LIGHTMAP_ON LIGHTMAP_ONDIRLIGHTMAP_COMBINED LIGHTMAP_ONDIRLIGHTMAP_SEPARATE UNITY_HDR_ON LIGHTMAP_ON UNITY_HDR_ON LIGHTMAP_ONDIRLIGHTMAP_COMBINED UNITY_HDR_ON LIGHTMAP_ONDIRLIGHTMAP_SEPARATE UNITY_HDR_ON SHADOWS_SOFTDIRLIGHTMAP_COMBINEDDIRLIGHTMAP_SEPARATEDYNAMICLIGHTMAP_ON INSTANCING_ONFOG_EXP FOG_EXP2 FOG_LINEARBDIRLIGHTMAP_COMBINED DIRLIGHTMAP_SEPARATE LIGHTMAP_ON UNITY_HDR_ONŁă ˛#line 190 "" #ifdef DUMMY_PREPROCESSOR_TO_WORK_AROUND_HLSL_COMPILER_LINE_HANDLING #endif // compile directives #pragma vertex vert_surf #pragma fragment frag_surf #pragma exclude_renderers nomrt #pragma multi_compile_prepassfinal nodynlightmap #pragma skip_variants FOG_LINEAR FOG_EXP FOG_EXP2 #include "HLSLSupport.cginc" #include "UnityShaderVariables.cginc" // Surface shader code generated based on: // writes to per-pixel normal: YES // writes to emission: no // writes to occlusion: no // needs world space reflection vector: no // needs world space normal vector: no // needs screen space position: no // needs world space position: no // needs view direction: no // needs world space view direction: no // needs world space position for lighting: YES // needs world space view direction for lighting: YES // needs world space view direction for lightmaps: no // needs vertex color: no // needs VFACE: no // passes tangent-to-world matrix to pixel shader: YES // reads from normal: no // 2 texcoords actually used // float2 _MainTex // float2 _BumpMap #define UNITY_PASS_DEFERRED #include "UnityCG.cginc" #include "Lighting.cginc" #define INTERNAL_DATA half3 internalSurfaceTtoW0; half3 internalSurfaceTtoW1; half3 internalSurfaceTtoW2; #define WorldReflectionVector(data,normal) reflect (data.worldRefl, half3(dot(data.internalSurfaceTtoW0,normal), dot(data.internalSurfaceTtoW1,normal), dot(data.internalSurfaceTtoW2,normal))) #define WorldNormalVector(data,normal) fixed3(dot(data.internalSurfaceTtoW0,normal), dot(data.internalSurfaceTtoW1,normal), dot(data.internalSurfaceTtoW2,normal)) // Original surface shader snippet: #line 11 sampler2D _MainTex; sampler2D _BumpMap; fixed4 _Color; half _Shininess; struct Input { float2 uv_MainTex; float2 uv_BumpMap; }; void surf (Input IN, inout SurfaceOutput o) { fixed4 tex = tex2D(_MainTex, IN.uv_MainTex); o.Albedo = tex.rgb * _Color.rgb; o.Gloss = tex.a; o.Alpha = tex.a * _Color.a; o.Specular = _Shininess; o.Normal = UnpackNormal(tex2D(_BumpMap, IN.uv_BumpMap)); } #line 43 "" #ifdef DUMMY_PREPROCESSOR_TO_WORK_AROUND_HLSL_COMPILER_LINE_HANDLING #endif /* UNITY: Original start of shader */ //#pragma surface surf BlinnPhong nodynlightmap // vertex-to-fragment interpolation data struct v2f_surf { float4 pos : SV_POSITION; float4 pack0 : TEXCOORD0; // _MainTex _BumpMap float4 tSpace0 : TEXCOORD1; float4 tSpace1 : TEXCOORD2; float4 tSpace2 : TEXCOORD3; float4 lmap : TEXCOORD4; #ifndef LIGHTMAP_ON #if UNITY_SHOULD_SAMPLE_SH half3 sh : TEXCOORD5; // SH #endif #else #ifdef DIRLIGHTMAP_OFF float4 lmapFadePos : TEXCOORD5; #endif #endif UNITY_VERTEX_INPUT_INSTANCE_ID UNITY_VERTEX_OUTPUT_STEREO }; float4 _MainTex_ST; float4 _BumpMap_ST; // vertex shader v2f_surf vert_surf (appdata_full v) { UNITY_SETUP_INSTANCE_ID(v); v2f_surf o; UNITY_INITIALIZE_OUTPUT(v2f_surf,o); UNITY_TRANSFER_INSTANCE_ID(v,o); UNITY_INITIALIZE_VERTEX_OUTPUT_STEREO(o); o.pos = UnityObjectToClipPos(v.vertex); o.pack0.xy = TRANSFORM_TEX(v.texcoord, _MainTex); o.pack0.zw = TRANSFORM_TEX(v.texcoord, _BumpMap); float3 worldPos = mul(unity_ObjectToWorld, v.vertex).xyz; fixed3 worldNormal = UnityObjectToWorldNormal(v.normal); fixed3 worldTangent = UnityObjectToWorldDir(v.tangent.xyz); fixed tangentSign = v.tangent.w * unity_WorldTransformParams.w; fixed3 worldBinormal = cross(worldNormal, worldTangent) * tangentSign; o.tSpace0 = float4(worldTangent.x, worldBinormal.x, worldNormal.x, worldPos.x); o.tSpace1 = float4(worldTangent.y, worldBinormal.y, worldNormal.y, worldPos.y); o.tSpace2 = float4(worldTangent.z, worldBinormal.z, worldNormal.z, worldPos.z); o.lmap.zw = 0; #ifdef LIGHTMAP_ON o.lmap.xy = v.texcoord1.xy * unity_LightmapST.xy + unity_LightmapST.zw; #ifdef DIRLIGHTMAP_OFF o.lmapFadePos.xyz = (mul(unity_ObjectToWorld, v.vertex).xyz - unity_ShadowFadeCenterAndType.xyz) * unity_ShadowFadeCenterAndType.w; o.lmapFadePos.w = (-UnityObjectToViewPos(v.vertex).z) * (1.0 - unity_ShadowFadeCenterAndType.w); #endif #else o.lmap.xy = 0; #if UNITY_SHOULD_SAMPLE_SH o.sh = 0; o.sh = ShadeSHPerVertex (worldNormal, o.sh); #endif #endif return o; } #ifdef LIGHTMAP_ON float4 unity_LightmapFade; #endif fixed4 unity_Ambient; // fragment shader void frag_surf (v2f_surf IN, out half4 outGBuffer0 : SV_Target0, out half4 outGBuffer1 : SV_Target1, out half4 outGBuffer2 : SV_Target2, out half4 outEmission : SV_Target3) { UNITY_SETUP_INSTANCE_ID(IN); // prepare and unpack data Input surfIN; UNITY_INITIALIZE_OUTPUT(Input,surfIN); surfIN.uv_MainTex.x = 1.0; surfIN.uv_BumpMap.x = 1.0; surfIN.uv_MainTex = IN.pack0.xy; surfIN.uv_BumpMap = IN.pack0.zw; float3 worldPos = float3(IN.tSpace0.w, IN.tSpace1.w, IN.tSpace2.w); #ifndef USING_DIRECTIONAL_LIGHT fixed3 lightDir = normalize(UnityWorldSpaceLightDir(worldPos)); #else fixed3 lightDir = _WorldSpaceLightPos0.xyz; #endif fixed3 worldViewDir = normalize(UnityWorldSpaceViewDir(worldPos)); #ifdef UNITY_COMPILER_HLSL SurfaceOutput o = (SurfaceOutput)0; #else SurfaceOutput o; #endif o.Albedo = 0.0; o.Emission = 0.0; o.Specular = 0.0; o.Alpha = 0.0; o.Gloss = 0.0; fixed3 normalWorldVertex = fixed3(0,0,1); // call surface function surf (surfIN, o); fixed3 originalNormal = o.Normal; fixed3 worldN; worldN.x = dot(IN.tSpace0.xyz, o.Normal); worldN.y = dot(IN.tSpace1.xyz, o.Normal); worldN.z = dot(IN.tSpace2.xyz, o.Normal); o.Normal = worldN; half atten = 1; // Setup lighting environment UnityGI gi; UNITY_INITIALIZE_OUTPUT(UnityGI, gi); gi.indirect.diffuse = 0; gi.indirect.specular = 0; gi.light.color = 0; gi.light.dir = half3(0,1,0); // Call GI (lightmaps/SH/reflections) lighting function UnityGIInput giInput; UNITY_INITIALIZE_OUTPUT(UnityGIInput, giInput); giInput.light = gi.light; giInput.worldPos = worldPos; giInput.worldViewDir = worldViewDir; giInput.atten = atten; #if defined(LIGHTMAP_ON) || defined(DYNAMICLIGHTMAP_ON) giInput.lightmapUV = IN.lmap; #else giInput.lightmapUV = 0.0; #endif #if UNITY_SHOULD_SAMPLE_SH giInput.ambient = IN.sh; #else giInput.ambient.rgb = 0.0; #endif giInput.probeHDR[0] = unity_SpecCube0_HDR; giInput.probeHDR[1] = unity_SpecCube1_HDR; #if UNITY_SPECCUBE_BLENDING || UNITY_SPECCUBE_BOX_PROJECTION giInput.boxMin[0] = unity_SpecCube0_BoxMin; // .w holds lerp value for blending #endif #if UNITY_SPECCUBE_BOX_PROJECTION giInput.boxMax[0] = unity_SpecCube0_BoxMax; giInput.probePosition[0] = unity_SpecCube0_ProbePosition; giInput.boxMax[1] = unity_SpecCube1_BoxMax; giInput.boxMin[1] = unity_SpecCube1_BoxMin; giInput.probePosition[1] = unity_SpecCube1_ProbePosition; #endif LightingBlinnPhong_GI(o, giInput, gi); // call lighting function to output g-buffer outEmission = LightingBlinnPhong_Deferred (o, worldViewDir, gi, outGBuffer0, outGBuffer1, outGBuffer2); #ifndef UNITY_HDR_ON outEmission.rgb = exp2(-outEmission.rgb); #endif } Assets/DefaultResourcesExtra˙Ű˙˙Ŕ•6žhí~Ž$żĘ‘qDg LIGHTMAP_ON LIGHTMAP_ONDIRLIGHTMAP_COMBINED LIGHTMAP_ONDIRLIGHTMAP_SEPARATE UNITY_HDR_ON LIGHTMAP_ON UNITY_HDR_ON LIGHTMAP_ONDIRLIGHTMAP_COMBINED UNITY_HDR_ON LIGHTMAP_ONDIRLIGHTMAP_SEPARATE UNITY_HDR_ON LIGHTMAP_ON LIGHTMAP_ONDIRLIGHTMAP_COMBINED LIGHTMAP_ONDIRLIGHTMAP_SEPARATE UNITY_HDR_ON LIGHTMAP_ON UNITY_HDR_ON LIGHTMAP_ONDIRLIGHTMAP_COMBINED UNITY_HDR_ON LIGHTMAP_ONDIRLIGHTMAP_SEPARATE UNITY_HDR_ON SHADOWS_SOFTDIRLIGHTMAP_COMBINEDDIRLIGHTMAP_SEPARATEDYNAMICLIGHTMAP_ON INSTANCING_ONBDIRLIGHTMAP_COMBINED DIRLIGHTMAP_SEPARATE LIGHTMAP_ON UNITY_HDR_ONÚě ‚#line 207 "" #ifdef DUMMY_PREPROCESSOR_TO_WORK_AROUND_HLSL_COMPILER_LINE_HANDLING #endif // compile directives #pragma vertex vert_surf #pragma fragment frag_surf #pragma skip_variants FOG_LINEAR FOG_EXP FOG_EXP2 #pragma skip_variants INSTANCING_ON #include "HLSLSupport.cginc" #include "UnityShaderVariables.cginc" // Surface shader code generated based on: // writes to per-pixel normal: YES // writes to emission: no // writes to occlusion: no // needs world space reflection vector: no // needs world space normal vector: no // needs screen space position: no // needs world space position: no // needs view direction: no // needs world space view direction: no // needs world space position for lighting: YES // needs world space view direction for lighting: YES // needs world space view direction for lightmaps: no // needs vertex color: no // needs VFACE: no // passes tangent-to-world matrix to pixel shader: YES // reads from normal: no // 1 texcoords actually used // float2 _MainTex #define UNITY_PASS_META #include "UnityCG.cginc" #include "Lighting.cginc" #define INTERNAL_DATA half3 internalSurfaceTtoW0; half3 internalSurfaceTtoW1; half3 internalSurfaceTtoW2; #define WorldReflectionVector(data,normal) reflect (data.worldRefl, half3(dot(data.internalSurfaceTtoW0,normal), dot(data.internalSurfaceTtoW1,normal), dot(data.internalSurfaceTtoW2,normal))) #define WorldNormalVector(data,normal) fixed3(dot(data.internalSurfaceTtoW0,normal), dot(data.internalSurfaceTtoW1,normal), dot(data.internalSurfaceTtoW2,normal)) // Original surface shader snippet: #line 11 sampler2D _MainTex; sampler2D _BumpMap; fixed4 _Color; half _Shininess; struct Input { float2 uv_MainTex; float2 uv_BumpMap; }; void surf (Input IN, inout SurfaceOutput o) { fixed4 tex = tex2D(_MainTex, IN.uv_MainTex); o.Albedo = tex.rgb * _Color.rgb; o.Gloss = tex.a; o.Alpha = tex.a * _Color.a; o.Specular = _Shininess; o.Normal = UnpackNormal(tex2D(_BumpMap, IN.uv_BumpMap)); } #line 43 "" #ifdef DUMMY_PREPROCESSOR_TO_WORK_AROUND_HLSL_COMPILER_LINE_HANDLING #endif /* UNITY: Original start of shader */ //#pragma surface surf BlinnPhong nodynlightmap #include "UnityMetaPass.cginc" // vertex-to-fragment interpolation data struct v2f_surf { float4 pos : SV_POSITION; float2 pack0 : TEXCOORD0; // _MainTex float4 tSpace0 : TEXCOORD1; float4 tSpace1 : TEXCOORD2; float4 tSpace2 : TEXCOORD3; }; float4 _MainTex_ST; // vertex shader v2f_surf vert_surf (appdata_full v) { v2f_surf o; UNITY_INITIALIZE_OUTPUT(v2f_surf,o); o.pos = UnityMetaVertexPosition(v.vertex, v.texcoord1.xy, v.texcoord2.xy, unity_LightmapST, unity_DynamicLightmapST); o.pack0.xy = TRANSFORM_TEX(v.texcoord, _MainTex); float3 worldPos = mul(unity_ObjectToWorld, v.vertex).xyz; fixed3 worldNormal = UnityObjectToWorldNormal(v.normal); fixed3 worldTangent = UnityObjectToWorldDir(v.tangent.xyz); fixed tangentSign = v.tangent.w * unity_WorldTransformParams.w; fixed3 worldBinormal = cross(worldNormal, worldTangent) * tangentSign; o.tSpace0 = float4(worldTangent.x, worldBinormal.x, worldNormal.x, worldPos.x); o.tSpace1 = float4(worldTangent.y, worldBinormal.y, worldNormal.y, worldPos.y); o.tSpace2 = float4(worldTangent.z, worldBinormal.z, worldNormal.z, worldPos.z); return o; } // fragment shader fixed4 frag_surf (v2f_surf IN) : SV_Target { // prepare and unpack data Input surfIN; UNITY_INITIALIZE_OUTPUT(Input,surfIN); surfIN.uv_MainTex.x = 1.0; surfIN.uv_BumpMap.x = 1.0; surfIN.uv_MainTex = IN.pack0.xy; float3 worldPos = float3(IN.tSpace0.w, IN.tSpace1.w, IN.tSpace2.w); #ifndef USING_DIRECTIONAL_LIGHT fixed3 lightDir = normalize(UnityWorldSpaceLightDir(worldPos)); #else fixed3 lightDir = _WorldSpaceLightPos0.xyz; #endif #ifdef UNITY_COMPILER_HLSL SurfaceOutput o = (SurfaceOutput)0; #else SurfaceOutput o; #endif o.Albedo = 0.0; o.Emission = 0.0; o.Specular = 0.0; o.Alpha = 0.0; o.Gloss = 0.0; fixed3 normalWorldVertex = fixed3(0,0,1); // call surface function surf (surfIN, o); UnityMetaInput metaIN; UNITY_INITIALIZE_OUTPUT(UnityMetaInput, metaIN); metaIN.Albedo = o.Albedo; metaIN.Emission = o.Emission; return UnityMetaFragment(metaIN); } Assets/DefaultResourcesExtra˙˙˙˙ŃpTŸH­`÷SGšň> SHADOWS_SOFTDIRLIGHTMAP_COMBINEDDIRLIGHTMAP_SEPARATEDYNAMICLIGHTMAP_ON INSTANCING_ON