Difference between revisions of "ShaderDX8simmaterials"
From SimsWiki
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− | + | EP5-SS | |
0xCD7FE87A | 0xCD7FE87A | ||
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endif | endif | ||
− | seti layerToAdd ($simHairFlag ? 3 : | + | seti layerToAdd ($simHairFlag ? 3 : 17) |
− | seti layerNumber ($stdMatLayer * | + | seti layerNumber ($stdMatLayer * 18 + ($alphaBlendingOn ? $layerToAdd : 0)) |
setb localBumpMapFlag false | setb localBumpMapFlag false | ||
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endif | endif | ||
− | seti layerNumber ($stdMatLayer * | + | seti layerNumber ($stdMatLayer * 18 + ($alphaBlendingOn ? 17 : 0)) |
shader -layer $layerNumber | shader -layer $layerNumber |
Latest revision as of 14:52, 10 July 2007
EP5-SS 0xCD7FE87A 0x1C0532FA 0x60F6A4D9 0xFFBE97D0 # dx8simmaterials # lightOffset is for doing 'the next 4 lights' in a pass. define SimMaterialTransformSetupDX8(eyeShifterEnable ambientFlag bumpMapThisPass lightOffset passLightCount passDistantLightCount passPointCount passSpotLightCount) #trace "SimMaterialTransformSetupDX8 for $currentMaterialName" setb cubeMapEnabled false setb transformNormals false create BindsForHardwareVS1Transforms(true $doMorphing) if (&eyeShifterEnable) bindConstants 11 -bindingID immediateData -data @eyeDirection -constantType float bindConstants 11 -bindingID immediateData -data @l_eyeStretch -constantType float -startChannel Z bindConstants 11 -bindingID immediateData -data @r_eyeStretch -constantType float -startChannel W endif if (&passLightCount = 0) set lightingMode $kAmbientOnly else set lightingMode $kFullLighting setb transformNormals true endif # apply the sim lighting fudge factor due to my screwup in dx7 material. see sims.matshad for a history setv3 stdMatDiffCoef (($stdMatDiffCoef.xyz) * $simMaterialLightingScale.xxx) create BindsForLighting($lightingMode) create TransformFragments($doSkinning false false $doMorphing $numPosMorphs $numNormMorphs $transformNormals 1_1) if (&ambientFlag and strcmp("${stdMatEnvCubeMode}","reflection") = 0) if ($transformNormals) setb cubeMapEnabled true endif endif if ($cubeMapEnabled) shaderFragment CreateReflectionVector1_1 shaderFragment TexgenReflectionVectorTex21_1 endif if (&bumpMapThisPass) # create a tangent space matrix to transform our light vectors. if ($doSkinning) shaderFragment TransformTangentSpaceWithCompositeMatrix1_1 else shaderFragment TransformTangentSpaceNoSkinning1_1 endif endif if (&passLightCount) create DX8DiffusePassLightFragments(&ambientFlag &bumpMapThisPass &lightOffset &passLightCount &passDistantLightCount &passPointCount &passSpotLightCount 1_1) else #trace "Dx8 sim xform setup, ambient only" shaderFragment AmbientLighting1_1 endif #trace "SimDx8 xformsetup, pixel lights: $perPixelLightCount" if (&eyeShifterEnable and hasVertexFormat(texcoord,1) ) shaderFragment EyeShifterTexGen1_1 else shaderFragment Copy2DTexcoords1_1 endif enddef define DX8GhostPass() pass fillmode $stdMatFillMode create NonStandardLighting() #colorWriteEnable -red false -green false -blue false -alpha false alphaBlend srcFactor(zero) add dstFactor(one) alphaTest true 128 alphaTestFunction acceptIfGreaterOrEqual shaderProgram -target vertexProgram -method link # sim standard material never has eyes, so false to that modifier. # otherwise pass through all other flags. create BindsForHardwareVS1Transforms($doSkinning $doMorphing) create TransformFragments($doSkinning false false $doMorphing $numPosMorphs $numNormMorphs false 1_1) shaderFragment Copy2DTexcoords1_1 end shaderProgram -target pixelProgram -method assemble shaderSource ps_1_1 tex t0 mov r0,t0.a endShaderSource end sampler 0 texture $stdMatBaseTextureName end end enddef define CreateSimStandardMaterialDX8() setb alphaBlendingOn false seti layerNumber 0 #trace "---------------------------" #trace "Starting material: $currentMaterialName" #trace "SimStandard: nmap: $stdMatNormalMapTextureName" #trace "nmapE $stdMatNormalMapTextureEnabled" material if (viewerRenderType = $kRenderTypeShadow) create SimShadowDX8() else create SimsShaderPreCreate() if (strcmp("${stdMatAlphaBlendMode}", "none")) setb alphaBlendingOn true endif if (numLightsOfType(${kShapeColorLight}) > 0) setb alphaBlendingOn true endif seti layerToAdd ($simHairFlag ? 3 : 17) seti layerNumber ($stdMatLayer * 18 + ($alphaBlendingOn ? $layerToAdd : 0)) setb localBumpMapFlag false setf cubeCoefCheck ($stdMatEnvCubeCoef.x + $stdMatEnvCubeCoef.y + $stdMatEnvCubeCoef.z) # force cubemapping off if the coefficient makes no sense. if ($cubeCoefCheck < 0.003) set stdMatEnvCubeMode none endif shader -layer $layerNumber create SimMaterialSetup() #trace "dx8 simstandard: Bumpmapping: $bumpMapping tangents: $hasTangents" # do some sort of per-pixel lighting if bumpmapping flag is on, if there are tangents, and only if the object is opaque. # shapecolor then effectively shuts *off* bumpmapping. if ($bumpMapping and $hasTangents and $alphaBlendingOn = false) setb localBumpMapFlag true else # if no tangents, then turn off the texture loads too #trace "No tangents, disabling normal maps" setb stdMatNormalMapTextureEnabled false endif if ($alphaBlendingOn) create DX8GhostPass() endif create RenderSimStandardDiffuseDX8($localBumpMapFlag) end # end shader endif end #end the material enddef define SimShadowDX8() shader viewerRenderTypePred $kRenderTypeShadow create SimMaterialSetup() pass shaderProgram -method link -target vertexProgram create BindsForHardwareVS1Transforms($doSkinning $doMorphing) create TransformFragments($doSkinning true false $doMorphing $numPosMorphs $numNormMorphs false 1_1) end shaderProgram -method assemble -target pixelProgram bindConstants 0 -bindingID immediateData -data ($stdMatShadowColor) -constantType float shaderSource ps_1_1 mov r0, c0 endShaderSource end end end enddef define RenderSimStandardDiffuseDX8(bumpMapFlag) seti slotsLeft 0 seti totalLights ($distantLightCount + $pointLightCount +$spotLightCount) seti pointSpotCount ($pointLightCount + $spotLightCount) # special case this one, no danger of blowing out instruction count if ($totalLights = 5 and $distantLightCount = 5) create SimStandardDiffusePass(false true false 0 5 5 0 0) seti totalLights 0 else if ($totalLights < 4) if ($totalLights > 0) create SimStandardDiffusePass(false true &bumpMapFlag 0 $totalLights $distantLightCount $pointLightCount $spotLightCount) seti totalLights 0 else # don't add to last, do ambient, no bumpmapping, light offset 0, no lights of any kind... #trace "Ambient only case for sims" create SimStandardDiffusePass(false true false 0 0 0 0 0) endif else seti slotsLeft 4 seti pass1DistantLights 0 seti pass1PointLights 0 seti pass1SpotLights 0 seti pass1PointSpotLights 0 if ($distantLightCount < 4) seti pass1DistantLights $distantLightCount else seti pass1DistantLights 4 endif seti slotsLeft (4 - $pass1DistantLights) if ($pointLightCount > $slotsLeft) # more point lights than slots left. seti pass1PointLights $slotsLeft # pass 1 points then are the rest of the slots. seti slotsLeft 0 # no more slots left. else seti slotsLeft ($slotsLeft - $pointLightCount) # there was room, compute new slots left seti pass1PointLights $pointLightCount # consumes all point lights in the first pass. endif if ($spotLightCount > $slotsLeft) # more spot lights than slots left. seti pass1SpotLights $slotsLeft # pass 1 points then are the rest of the slots. seti slotsLeft 0 # no more slots left. else seti slotsLeft ($slotsLeft - $spotLightCount) # there was room, compute new slots left seti pass1SpotLights $spotLightCount # consumes all point lights in the first pass. endif # don't add to back buffer, apply ambient, start at light 0, do 4 lights. create SimStandardDiffusePass(false true &bumpMapFlag 0 4 $pass1DistantLights $pass1PointLights $pass1SpotLights) seti pass2DistantLights ($distantLightCount - $pass1DistantLights) seti pass2PointLights ($pointLightCount - $pass1PointLights) seti pass2SpotLights ($spotLightCount - $pass1SpotLights) seti totalLights ($pass2DistantLights + $pass2PointLights + $pass2SpotLights) if ($totalLights) # add to back buffer, add ambient to final lighting, no bumpmaps on the 2nd pass start at light 4... create SimStandardDiffusePass(true false false 4 $totalLights $pass2DistantLights $pass2PointLights $pass2SpotLights) endif endif endif enddef # single layer, or CPU composited materials end up here define SimStandardDiffusePass(addToLastPass ambientFlag bumpThisPass lightOffset passLightCount passDistantLightCount passPointCount passSpotLightCount) #trace "Pass light counts: D: &passDistantLightCount P: &passPointCount S: &passSpotLightCount" pass fillmode $stdMatFillMode create NonStandardLighting() if (&addToLastPass = false) if ($simHairFlag) create SimHairAlphaState($stdMatAlphaBlendMode) else create StandardShaderFBAlphaState($stdMatAlphaBlendMode) endif else if ($simHairFlag) alphaBlend srcFactor(srcAlpha) add dstFactor(one) else alphaBlend srcFactor(one) add dstFactor(one) endif depthTest true -enableDepthWrite false depthTestFunction acceptIfEqual endif shaderProgram -target vertexProgram -method link # sim standard material never has eyes, so false to that modifier. # otherwise pass through all other flags. create SimMaterialTransformSetupDX8($eyeGizmoEnable &ambientFlag &bumpThisPass &lightOffset &passLightCount &passDistantLightCount &passPointCount &passSpotLightCount) end shaderProgram -target pixelProgram -method assemble if (&bumpThisPass) if ($stdMatNormalMapTextureEnabled) #trace "current normal map: $stdMatNormalMapTextureName" create SimStandardBumpPixelShaderPS1($perPixelLightCount $finalPixelLightMask) else #trace "No normal map, but per pixel is still enabled" create SimStandardPerPixelLightPS1($perPixelLightCount $finalPixelLightMask $cubeMapEnabled) endif else #trace "No Bumpmaping" create SimStandardPixelShaderPS1($cubeMapEnabled) endif end if ($stdMatBaseTextureEnabled) sampler 0 texture $stdMatBaseTextureName end endif if (&bumpThisPass and $stdMatNormalMapTextureEnabled) sampler 1 texture $stdMatNormalMapTextureName end endif if ($cubeMapEnabled) sampler 2 texture $stdMatEnvCubeTextureName textureAddressing clamp clamp clamp end endif end #end the pass enddef ### # SIM MATERIAL PIXEL SHADERS ## # Vertex lit Non-Layered material, can have a cubemap. define SimStandardPixelShaderPS1(cubeMapEnabled) if ($stdMatShapeColorIndex = 0) bindConstants 0 -bindingID shapeColorIndex0 else bindConstants 0 -bindingID immediateData -data (1,1,1,1) endif bindConstants 3 -bindingID immediateData -data ($finalShaderDiffuse, 1) if(&cubeMapEnabled) setv3 cubeCoef (($stdMatEnvCubeCoef).xyz) bindConstants 1 -bindingID immediateData -data ($cubeCoef, 1) shaderSource ps_1_1 def c2,1,1,1,1 endShaderSource if ($stdMatBaseTextureEnabled) shaderSource tex t0 tex t2 ; cubemap mul_x2 r0.rgb, t0, v0 endShaderSource else shaderSource tex t2 ; cubemap mul_x2 r0.rgb, c2, v0 endShaderSource endif if ($simSkinFlag or $stdMatBaseTextureEnabled = false) shaderSource "+mov r0.a, c2.a" else shaderSource "+mov r0.a, t0.a" endif shaderSource mad r0.rgb, t2, c1, r0 ; add cubemap on top. mul r0, r0, c0 ; apply shape color and emit. endShaderSource else shaderSource ps_1_1 def c2,1,1,1,1 endShaderSource if ($stdMatBaseTextureEnabled) shaderSource tex t0 mul_x2 r0.rgb, t0, v0 endShaderSource else shaderSource "mul_x2 r0.rgb, c3, v0" endif if ($simSkinFlag or $stdMatBaseTextureEnabled = false) shaderSource "+mov r0.a, c2.a" else shaderSource "+mov r0.a, t0.a" endif if ($stdMatShapeColorIndex = 0) shaderSource mul r0, r0, c0 ; apply shape color and emit. endShaderSource endif endif enddef # Non-layered material, no bumpmap, but per-pixel lighting. With Cubemap. define SimStandardPerPixelLightPS1(pixelLightCount pixelLightMask cubeMapEnabled) bindConstants 0 -bindingID immediateData -data ($finalShaderDiffuse, 1) bindConstants 1 -bindingID allStandardLightColorsHalf -constantCount 4 setv3 cubeCoef (($stdMatEnvCubeCoef).xyz) bindConstants 6 -bindingID immediateData -data ($cubeCoef, 1) bindConstants 7 -bindingID immediateData -data (0,0,0,$simMaterialLightingScale) if (&pixelLightMask = 1) # X set lightColor1 "c1" set lightColor2 "c1" endif if (&pixelLightMask = 3) # XY set lightColor1 "c1" set lightColor2 "c2" endif if (&pixelLightMask = 5) #XZ set lightColor1 "c1" set lightColor2 "c3" endif if (&pixelLightMask = 9) #XW set lightColor1 "c1" set lightColor2 "c4" endif if (&pixelLightCount = 2) shaderSource ps_1_1 def c5,0,0,1,0 endShaderSource if ($stdMatBaseTextureEnabled) shaderSource "tex t0" endif if (&cubeMapEnabled) shaderSource "tex t2" endif shaderSource texcoord t3 dp3_sat r1, c5, v1_bx2 dp3_sat r1.rgb, c5, t3_bx2 mul r0.rgb, r1.a,$lightColor1 mad r0.rgb, r1, $lightColor2, r0 mul r0.rgb, r0, c7.a ; apply the simMaterialLightingScale add r0.rgb, r0, v0 ; add ambient endShaderSource if ($stdMatBaseTextureEnabled) shaderSource "mul_x2 r0.rgb, r0, t0" else # shaderSource "mul_x2 r0.rgb, r0, c0.a" shaderSource "mov r0.rgb, c0.a" endif if ($simSkinFlag) shaderSource " +mov r0.a, c5.b" else shaderSource " +mov r0.a, t0.a" endif if (&cubeMapEnabled) shaderSource "mad r0.rgb, t2, c4,r0" endif endif if (&pixelLightCount = 1) shaderSource ps_1_1 def c5,0,0,1,0 endShaderSource if ($stdMatBaseTextureEnabled) shaderSource "tex t0" endif if (&cubeMapEnabled) shaderSource "tex t2" endif shaderSource dp3_sat r1, c5, v1_bx2 mul r0.rgb, r1, $lightColor1 mul r0.rgb, r0, c7.a ; apply the simMaterialLightingScale add r0.rgb, r0, v0 ; add ambient endShaderSource if ($stdMatBaseTextureEnabled) shaderSource "mul_x2 r0.rgb, r0, t0" else #shaderSource "mul_x2 r0.rgb, r0, c0.a" shaderSource "mov r0.rgb, c0.a" endif if ($simSkinFlag) shaderSource " +mov r0.a, c5.b" else shaderSource " +mov r0.a, t0.a" endif if (&cubeMapEnabled) shaderSource "mad r0.rgb, t2, c4, r0" endif endif enddef # Non-layered material with bumpmap. # SimSkin with CPU compositing will use this PS. define SimStandardBumpPixelShaderPS1(pixelLightCount pixelLightMask) bindConstants 1 -bindingID allStandardLightColorsHalf -constantCount 4 bindConstants 7 -bindingID immediateData -data (0,0,0,$simMaterialLightingScale) #trace "SimStandard BumpSHader: PLC: &pixelLightCount SS: $simSkinFlag" if (&pixelLightMask = 1) # X set lightColor1 "c1" set lightColor2 "c1" endif if (&pixelLightMask = 3) # XY set lightColor1 "c1" set lightColor2 "c2" endif if (&pixelLightMask = 5) #XZ set lightColor1 "c1" set lightColor2 "c3" endif if (&pixelLightMask = 9) #XW set lightColor1 "c1" set lightColor2 "c4" endif if (&pixelLightCount = 2) if ($simSkinFlag) shaderSource ps_1_1 def c5,1,1,1,1 tex t0 tex t1 texcoord t3 dp3_sat r1, t1_bx2, v1_bx2 dp3_sat r1.rgb, t1_bx2, t3_bx2 mul r0.rgb, r1.a, $lightColor1 mad r0.rgb, r1, $lightColor2, r0 mul r0.rgb, r0, c7.a ; apply the simMaterialLightingScale add r0.rgb, r0, v0 ; add ambient mul_x2 r0.rgb, r0, t0 +mov r0.a, c5.a ; force alpha to 1.0 for compositing into thumbnails. endShaderSource else shaderSource ps_1_1 tex t0 tex t1 texcoord t2 texcoord t3 dp3_sat r1, t1_bx2, v1_bx2 dp3_sat r1.rgb, t1_bx2, t3_bx2 mul r0.rgb, r1.a, $lightColor1 mad r0.rgb, r1, $lightColor2, r0 mul r0.rgb, r0, c7.a ; apply the simMaterialLightingScale add r0.rgb, r0, v0 ; add ambient mul_x2 r0.rgb, r0, t0 +mov r0.a, t0.a endShaderSource endif endif if (&pixelLightCount = 1) if ($simSkinFlag) shaderSource ps_1_1 def c5,1,1,1,1 tex t0 tex t1 texcoord t2 dp3_sat r1, t1_bx2, v1_bx2 mul r0.rgb, r1, $lightColor1 mul r0.rgb, r0, c7.a ; apply the simMaterialLightingScale add r0.rgb, r0, v0 ; add ambient mul_x2 r0.rgb, r0, t0 +mov r0.a, c5.a ; force 'opaque' alpha. endShaderSource else shaderSource ps_1_1 tex t0 tex t1 texcoord t2 dp3_sat r1, t1_bx2, v1_bx2 mul r0.rgb, r1, $lightColor1 mul r0.rgb, r0, c7.a ; apply the simMaterialLightingScale add r0.rgb, r0, v0 ; add ambient mul_x2 r0.rgb, r0, t0 +mov r0.a, t0.a endShaderSource endif endif enddef define CreateSimSkinPerPixelCompositingMaterialPS1() material # original # 0 = eyes # 1 = lips # 2 = brows # 3 = skin # num to composite = 4 seti totalLights 0 seti slotsLeft 0 seti pointSpotCount 0 setb alphaBlendingOn false seti layerNumber 0 seti pass1DistantLights 0 seti slotsLeft 4 seti pass1DistantLights 0 seti pass1PointLights 0 seti pass1SpotLights 0 seti pass1PointSpotLights 0 seti pass2DistantLights 0 seti pass2PointLights 0 seti pass2SpotLights 0 seti pass2PointSpotLights 0 seti bumpTextureCount 0 if (viewerRenderType = $kRenderTypeShadow) create SimShadowDX8() else if (strcmp("${stdMatAlphaBlendMode}", "none")) setb alphaBlendingOn true endif if (numLightsOfType(${kShapeColorLight}) > 0) setb alphaBlendingOn true endif seti layerNumber ($stdMatLayer * 18 + ($alphaBlendingOn ? 17 : 0)) shader -layer $layerNumber create SimMaterialSetup() if ($numTexturesToComposite < 5) # ie, 4 or less, composite in one go create SimSkinCompositingPassDX8($numTexturesToComposite false baseTexture simSkinCompositedBaseTexture) else # more than 4, do 4 at a time, then alpha blend the next batch in. create SimSkinCompositingPassDX8(4 false baseTexture simSkinCompositedBaseTexture) seti layersLeft ($numTexturesToComposite-4) create SimSkinCompositingPassDX8($layersLeft true baseTexture simSkinCompositedBaseTexture) endif seti totalLights ($distantLightCount + $pointLightCount +$spotLightCount) setb localBumpMapFlag false create BumpTextureCount() if ($bumpTextureCount) if ($numTexturesToComposite = 2) if (strcmp("${bumpTexture1}", "") != 0) create SimSkinBumpCompositingPassDX8( simSkinCompositedBumpTexture) setb localBumpMapFlag true endif endif else if ($bumpMapping and $hasTangents) # permission to use per-pixel lighting (no bumpmap texture required) setb localBumpMapFlag true endif endif # special case this one, no danger of blowing out instruction count if ($totalLights = 5 and $distantLightCount = 5) ##trace "5 light special case, DX8" create SimSkinPass(false true false 0 5 5 0 0) seti totalLights 0 endif if ($totalLights < 5) if ($totalLights > 0) create SimSkinPass(false true $localBumpMapFlag 0 $totalLights $distantLightCount $pointLightCount $spotLightCount) seti totalLights 0 endif else if ($distantLightCount < 4) seti pass1DistantLights $distantLightCount else seti pass1DistantLights 4 endif seti slotsLeft (4 - $pass1DistantLights) if ($pointLightCount > $slotsLeft) # more point lights than slots left. seti pass1PointLights $slotsLeft # pass 1 points then are the rest of the slots. seti slotsLeft 0 # no more slots left. else seti slotsLeft ($slotsLeft - $pointLightCount) # there was room, compute new slots left seti pass1PointLights $pointLightCount # consumes all point lights in the first pass. endif if ($spotLightCount > $slotsLeft) # more spot lights than slots left. seti pass1SpotLights $slotsLeft # pass 1 points then are the rest of the slots. seti slotsLeft 0 # no more slots left. else seti slotsLeft ($slotsLeft - $spotLightCount) # there was room, compute new slots left seti pass1SpotLights $spotLightCount # consumes all point lights in the first pass. endif # don't add to back buffer, apply ambient, bumpmaps if called for, start at light 0, do 4 lights. create SimSkinPass(false true $localBumpMapFlag 0 4 $pass1DistantLights $pass1PointLights $pass1SpotLights) seti pass2DistantLights ($distantLightCount - $pass1DistantLights) seti pass2PointLights ($pointLightCount - $pass1PointLights) seti pass2SpotLights ($spotLightCount - $pass1SpotLights) seti totalLights ($pass2DistantLights + $pass2PointLights + $pass2SpotLights) if ($totalLights) # add to back buffer, add ambient to final lighting, sno bumpmaps tart at light 4... create SimSkinPass(true false false 4 $totalLights $pass2DistantLights $pass2PointLights $pass2SpotLights) endif endif end #shader endif end #end material enddef define SimSkinPass(addToLastPass ambientFlag bumpMapThisPass lightOffset passLightCount passDistantLightCount passPointCount passSpotLightCount) #trace "SimSkinPass $currentMaterialName, add: &addToLastPass, Bump &bumpMapThisPass lights this time: &passLightCount D:&passDistantLightCount P: &passPointCount S: &passSpotLightCount" pass fillmode $stdMatFillMode # always return to the 'true' RT, since the previous passes (probably) were compositing textures. # if we are doing a second batch of lights or other stuff, set up for alpha blending to the back buffer if (&addToLastPass) alphaBlend srcFactor(one) add dstFactor(one) depthTest true -enableDepthWrite false depthTestFunction acceptIfEqual else renderTarget viewerRenderTarget if (strcmp("${stdMatAlphaBlendMode}", "blend") = 0) alphaBlend srcFactor(srcAlpha) add dstFactor(invSrcAlpha) depthTest true -enableDepthWrite false endif endif if ($eyeGizmoEnable) if (hasVertexFormat(texcoord,1) = false) #trace "Eye Movement desired, but no 2nd texcoord channel exists!!" setb eyeGizmoEnable false endif endif shaderProgram -target vertexProgram -method link if ($eyeGizmoEnable) #trace "$currentMaterialName constants bound for eyemotion" bindConstants 7 -bindingID immediateData -data @eyeAnimation -constantType float endif create SimMaterialTransformSetupDX8($eyeGizmoEnable &ambientFlag &bumpMapThisPass &lightOffset &passLightCount &passDistantLightCount &passPointCount &passSpotLightCount) end if (&bumpMapThisPass) if ($bumpTextureCount) create SimSkinBumpPixelShaderPS1(2) else create SimSkinPerPixelLightingPS1(2) endif else create SimSkinPixelShaderPS1() endif # use the RTT we just filled in with the composited layers. sampler 0 texture "simSkinCompositedBaseTexture" end if ($bumpTextureCount) sampler 1 texture "simSkinCompositedBumpTexture" end endif end # pass enddef define SimSkinCompositingPassDX8(layerCount secondSet sourceTextureName destTextureName) pass renderClipSpaceRect renderTarget &{destTextureName} -fixed (512, 512) -bppHint 32 -alphaBitsHint 8 -allocateDepthBuffer false depthTest false -enableDepthWrite false depthTestFunction accept if (&secondSet) alphaBlend srcFactor(srcAlpha) add dstFactor(invSrcAlpha) endif shaderProgram -target vertexProgram -method assemble shaderSource vs_1_1 dcl_position v0 dcl_texcoord v1 mov oPos, v0 ; clip space quad, no transforms needed. mov oT0.xy, v1 mov oT1.xy, v1 mov oT2.xy, v1 mov oT3.xy, v1 endShaderSource end # always check 'baseTexture0', if that fails, NO names are set if (strcmp("${baseTexture0}", "") != 0) shaderProgram -target pixelProgram -method assemble shaderSource ps_1_1 def c0, 1,1,1,1 tex t0 endShaderSource if (&layerCount > 1) shaderSource "tex t1" # usually 2 layers, but we might be on layer 5, with all previous layers composited. endif if (&layerCount > 2) shaderSource "tex t2" endif if (&layerCount > 3) shaderSource "tex t3" endif if (&layerCount = 1) # problem... any more than 4 layers, and dest alpha will be fubar shaderSource "mov r0, t0" # let post blender do the blending, or maybe there is only one layer. else shaderSource "lrp r0.rgb, t1.a, t1, t0" shaderSource "+add r0.a, t1.a, t0.a" # adding alphas means to occlude more of the background. if (&layerCount > 2) shaderSource "lrp r0.rgb, t2.a, t2, r0" shaderSource "+add r0.a, r0.a, t2.a" endif if (&layerCount > 3) shaderSource "lrp r0.rgb, t3.a, t3, r0" shaderSource "+add r0.a, r0.a, t2.a" endif endif end # shader pixel program if (strcmp("&{sourceTextureName}", "baseTexture")= 0) if (&secondSet) create CompositingSamplersLastFourBase( &layerCount) else create CompositingSamplersFirstFourBase(&layerCount) endif endif # have bumpmap case here # bump can only do 2 layers at a time, since I have to load the original base texture to get the alpha for blending the bump. #(probably never more than 2 layers though...) if (strcmp("&{sourceTextureName}", "bumpTexture")= 0) create CompositingSamplersBump(&layerCount ) endif else # if baseTex 0 is invalid... shaderProgram -target pixelProgram -method assemble shaderSource ps_1_1 def c0, 1,1,1,1 mov r0, c0 endShaderSource end endif end # pass enddef define SimSkinBumpCompositingPassDX8(destTextureName) pass renderClipSpaceRect renderTarget &{destTextureName} -fixed (512, 512) -bppHint 32 -alphaBitsHint 8 -allocateDepthBuffer false depthTest false -enableDepthWrite false depthTestFunction accept shaderProgram -target vertexProgram -method assemble shaderSource vs_1_1 dcl_position v0 dcl_texcoord v1 mov oPos, v0 ; clip space quad, no transforms needed. mov oT0.xy, v1 mov oT1.xy, v1 mov oT2.xy, v1 mov oT3.xy, v1 endShaderSource end shaderProgram -target pixelProgram -method assemble shaderSource ps_1_1 def c0, 0.5,0.5,1,0 tex t0 ; the baseTexture1 ,(base 0 is 'the skin', and doesn't need compositing tex t1 ; the first layer bumpmap lrp r0, t0.a, t1, c0 ; LRP between 0,0,1 (skin) or the normal map normal, based on the 'clothing' alpha. endShaderSource end # shader pixel program sampler 0 texture $baseTexture1 textureFilterHint point point end sampler 1 texture $bumpTexture1 textureFilterHint point point end end # pass enddef define CompositingSamplersFirstFourBase(layerCount) sampler 0 texture $baseTexture0 textureFilterHint point point end if (&layerCount > 1) sampler 1 texture $baseTexture1 textureFilterHint point point end endif if (&layerCount > 2) sampler 2 texture $baseTexture2 textureFilterHint point point end endif if (&layerCount > 3) sampler 3 texture $baseTexture3 textureFilterHint point point end endif enddef define CompositingSamplersBump(layerCount) sampler 0 texture $baseTexture0 textureFilterHint point point end sampler 1 texture $bumpTexture0 textureFilterHint point point end if (&layerCount = 2) sampler 2 texture $baseTexture1 textureFilterHint point point end sampler 3 texture $bumpTexture1 textureFilterHint point point end endif enddef define CompositingSamplersLastFourBase(layerCount) sampler 0 texture $baseTexture4 textureFilterHint point point end if (&layerCount > 1) sampler 1 texture $baseTexture5 textureFilterHint point point end endif if (&layerCount > 2) sampler 2 texture $baseTexture6 textureFilterHint point point end endif if (&layerCount > 3) sampler 3 texture $baseTexture7 textureFilterHint point point end endif enddef # Renders a GPU composited SimSkin, vertex lit define SimSkinPixelShaderPS1() #trace "$currentMaterialName : simskinpixel shader dx8" shaderProgram -target pixelProgram -method assemble if ($stdMatShapeColorIndex !=-1) bindConstants 0 -bindingID shapeColorIndex0 shaderSource ps_1_1 tex t0 mul_x2 r0, t0, v0 ; *2 to recover 'HDR" lights, (0.5 = "1.0 brightness" before this mul) mul r0.rgb,r0,c0 + mov r0.a, c0.a endShaderSource else shaderSource ps_1_1 tex t0 mul_x2 r0, t0, v0 endShaderSource endif end enddef # Renders a GPU composited SimSkin, bumpmapping and vertex lit. define SimSkinBumpPixelShaderPS1(lightCount) #trace "$currentMaterialName : SimSkin BUMP shader dx8" shaderProgram -target pixelProgram -method assemble bindConstants 0 -bindingID allStandardLightColorsHalf -constantCount 3 if (&lightCount = 2) shaderSource ps_1_1 tex t0 tex t1 texcoord t2 texcoord t3 dp3_sat r1, t1_bx2, t2_bx2 ; light 1 N.L dp3_sat r1.rgb, t1_bx2, t3_bx2 ; light 2 N.L mul r0.rgb, r1.a, c0 ; light 1 color mad r0.rgb, r1, c2, r0 ; light 2 color add r0.rgb, r0, v0 ; add ambient, and vertex light mul_x2 r0.rgb, r0, t0 ; base texture * light result. +mov r0.a, t0.a endShaderSource endif if (&lightCount = 3) shaderSource ps_1_1 tex t0 tex t1 texcoord t2 texcoord t3 dp3_sat r1, t1_bx2, t2_bx2 dp3_sat r1.rgb, t1_bx2, t3_bx2 dp3_sat r0, t1_bx2, v1_bx2 ; 3rd light mul r0.rgb, r1.a, c0 mad r0.rgb, r1, c1, r0 mad r0.rgb, r0.a, c2, r0 add r0.rgb, r0, v0 ; add any ambient or vertex lighting. mul_x2 r0.rgb, r0, t0 +mov r0.a, t0.a endShaderSource endif end #end shader program enddef # Uses default 0,0,1 normal for per-pixel lighting. define SimSkinPerPixelLightingPS1(lightCount) #trace "$currentMaterialName : SimSkin PPL shader dx8" shaderProgram -target pixelProgram -method assemble bindConstants 0 -bindingID allStandardLightColorsHalf -constantCount 3 if (&lightCount = 2) shaderSource ps_1_1 def c5,0,0,1,0 tex t0 texcoord t2 texcoord t3 dp3_sat r1, c5, t2_bx2 ; light 1 N.L dp3_sat r1.rgb, c5, t3_bx2 ; light 2 N.L mul r0.rgb, r1.a, c0 ; light 1 color mad r0.rgb, r1, c2, r0 ; light 2 color add r0.rgb, r0, v0 ; add ambient, and vertex light mul_x2 r0.rgb, r0, t0 ; base texture * light result. +mov r0.a, t0.a endShaderSource endif if (&lightCount = 3) shaderSource ps_1_1 def c5,0,0,1,0 tex t0 texcoord t2 texcoord t3 dp3_sat r1, c5, t2_bx2 dp3_sat r1.rgb, c5, t3_bx2 dp3_sat r0, c5, v1_bx2 ; 3rd light mul r0.rgb, r1.a, c0 mad r0.rgb, r1, c1, r0 mad r0.rgb, r0.a, c2, r0 add r0.rgb, r0, v0 ; add any ambient or vertex lighting. mul_x2 r0.rgb, r0, t0 +mov r0.a, t0.a endShaderSource endif end #end shader program enddef