/* Copyright Torus Knot Software Ltd 2012-2014 Permission is hereby granted, free of charge, to any person obtaining a copy of this software and associated documentation files (the "Software"), to deal in the Software without restriction, including without limitation the rights to use, copy, modify, merge, publish, distribute, sublicense, and/or sell copies of the Software, and to permit persons to whom the Software is furnished to do so, subject to the following conditions: The above copyright notice and this permission notice shall be included in all copies or substantial portions of the Software. THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. */ #include "shadows.cg" #define BIAS 0 struct VS_OUT { float4 pos : POSITION; float3 diffuseUV : TEXCOORD0; // xy = UV, z = fog/depth #if !SHADOWCASTER float3 col : COLOR; #endif #if DEPTH_SHADOWCASTER float depth : TEXCOORD1; #endif #if DEPTH_SHADOWRECEIVER float4 lightSpacePos0 : TEXCOORD2; float4 lightSpacePos1 : TEXCOORD3; float4 lightSpacePos2 : TEXCOORD4; #endif }; VS_OUT main_vp( float4 pos : POSITION, float3 normal : NORMAL, float4 uv0 : TEXCOORD0, uniform float4x4 worldViewProj, uniform float4 lightPosition, uniform float3 lightDiffuse #if FOG , uniform float2 fogParams // x = fog start, y = fog distance #endif #if DEPTH_SHADOWCASTER , uniform float4 depthRange // x = min, y = max, z = range, w = 1/range #elif DEPTH_SHADOWRECEIVER , uniform float4 depthRange0 // x = min, y = max, z = range, w = 1/range , uniform float4 depthRange1 // x = min, y = max, z = range, w = 1/range , uniform float4 depthRange2 // x = min, y = max, z = range, w = 1/range #endif #if DEPTH_SHADOWRECEIVER , uniform float4x4 texWorldViewProjMatrix0 , uniform float4x4 texWorldViewProjMatrix1 , uniform float4x4 texWorldViewProjMatrix2 #endif ) { VS_OUT outp; // project position to the screen outp.pos = mul(worldViewProj, pos); #if !SHADOWCASTER // Get object space light direction float3 lightDir = normalize(lightPosition.xyz - (pos.xyz * lightPosition.w).xyz); outp.col = lightDiffuse.xyz * max(dot(lightDir, normal.xyz), 0.0); # if FOG outp.diffuseUV.z = linearFog(outp.pos.z, fogParams.x, fogParams.y); # endif #endif // pass through other texcoords exactly as they were received outp.diffuseUV.xy = uv0.xy; #if DEPTH_SHADOWCASTER outp.depth = (BIAS + outp.pos.z - depthRange.x) * depthRange.w; #endif #if DEPTH_SHADOWRECEIVER // Calculate the position of vertex in light space outp.lightSpacePos0 = mul(texWorldViewProjMatrix0, pos); outp.lightSpacePos1 = mul(texWorldViewProjMatrix1, pos); outp.lightSpacePos2 = mul(texWorldViewProjMatrix2, pos); // make linear outp.lightSpacePos0.z = (outp.lightSpacePos0.z - depthRange0.x) * depthRange0.w; outp.lightSpacePos1.z = (outp.lightSpacePos1.z - depthRange1.x) * depthRange1.w; outp.lightSpacePos2.z = (outp.lightSpacePos2.z - depthRange2.x) * depthRange2.w; // pass cam depth outp.diffuseUV.z = outp.pos.z; #endif return outp; } float4 main_fp( VS_OUT In, uniform sampler2D diffuseMap : register(s0), #if DEPTH_SHADOWRECEIVER uniform sampler2D shadowMap0 : register(s1), uniform sampler2D shadowMap1 : register(s2), uniform sampler2D shadowMap2 : register(s3), #endif uniform float3 materialAmbient #if SHADOWCASTER , uniform float3 shadowColour #endif #if FOG , uniform float3 fogColour #endif #if DEPTH_SHADOWRECEIVER , uniform float inverseShadowmapSize0 , uniform float inverseShadowmapSize1 , uniform float inverseShadowmapSize2 , uniform float4 pssmSplitPoints #endif ) : COLOR { // look up the diffuse map layer float4 texDiffuse = tex2D(diffuseMap, In.diffuseUV.xy); #if SHADOWCASTER # if DEPTH_SHADOWCASTER // early-out with depth (we still include alpha for those cards that support it) return float4(In.depth.xxx, 1); # else return float4(shadowColour.xyz, texDiffuse.a); # endif #else // compute the ambient contribution (pulled from the diffuse map) float3 vAmbient = texDiffuse.xyz * materialAmbient.xyz; float3 vColor3 = texDiffuse.rgb * In.col.rgb; # if DEPTH_SHADOWRECEIVER float camDepth = In.diffuseUV.z; float shadow = calcPSSMDepthShadow(shadowMap0, shadowMap1, shadowMap2, In.lightSpacePos0, In.lightSpacePos1, In.lightSpacePos2, inverseShadowmapSize0, inverseShadowmapSize1, inverseShadowmapSize2, pssmSplitPoints, camDepth); vColor3 *= shadow; /* vAmbient = float3(0,0,0); vColor3 = calcPSSMDebugShadow(shadowMap0, shadowMap1, shadowMap2, In.lightSpacePos0, In.lightSpacePos1, In.lightSpacePos2, inverseShadowmapSize0, inverseShadowmapSize1, inverseShadowmapSize2, pssmSplitPoints, camDepth); */ # endif float4 vColor; vColor = float4(vColor3 + vAmbient, texDiffuse.a); # if FOG // if fog is active, interpolate between the unfogged color and the fog color // based on vertex shader fog value vColor.rgb = mix(vColor.rgb, fogColour, In.diffuseUV.z).rgb; # endif return vColor; #endif }