Difference between revisions of "TEST-STRCMP4CODES"

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		+	# EP5-SS & EP6-BV & EP7 FT
		+	# 0xCD7FE87A
		+	# 0x1C0532FA
		+	# 0x26B3DB7C
		+	# 0xFF3A262A
		+	# neighborhood
		+	#
		+	# Shaders for neighborhood  (Moi's neighbourhoodRouge-EP5-SS & EP6-BV & EP7 FT)
		+	#
		+	# For study or modding, edit --> find or search for "### MODDED"
		+	# "Bolded" terms or values are for emphasis; "Italic" terms or values are customised/customized terms or values; "Bolded & Italic" terms or values are emphasised/emphasized customised/customized terms or values; "Underlined" is show out the altered.
		+	#
−	# ==============================================================================	+	# layers
		+	# normal shadows are layer 2 (after opaques), tree shadows are moved to -2 to make them
		+	#  render to the first buffer.  Tree shadows (-2) do not show up on fields (7).
		+	seti nhoodWaterLayer            1
		+	seti nhoodCanvasLayer          -8
		+	seti nhoodTreeShadowLayer      -2
−	setf swvsWaterlineShift -0.50	+	setf neighborhoodMaterialScaleU 8.0 # defaults for neighborhood materials without these defined
		+	setf  neighborhoodMaterialScaleV 8.0  # defaults for neighborhood materials without these defined
		+	setf  nhoodWaterMap1Scale    7.0
		+	setf  nhoodWaterMap1Speed    0.5
		+	setf  nhoodWaterMap2Scale    5.0
		+	setf  nhoodWaterMap2Speed    0.3
−	define NeighborhoodTerrainPrepWorkSWVS()
−	# this material does nothing but prep the z-buffer, and render black.	+	setv2 baseTexOffset (0.5, 0.5)
		+	setv3 nhoodDiffCoef (0.75, 0.93, 0.75)
−	pass
−	shaderProgram -target vertexProgram -method link	+	setf  nhoodPaintTextureScale  13      #Repeat distance of neighborhood textures in tiles.
		+	#NOTE: There is a related parameter called "TextureVariantGridSize" in
		+	#NeighborhoodTerrain.ini. You would normally (though not necessarily) want it to be
		+	#the same as this number.
		+	setf  waterEdgeTextureScale  250.0  #Repeat distance in meters
		+	setf  terrainEdgeTextureScale 100.0  #Repeat distance in meters
−	create BindsForSoftwareVSTransforms(false false)	+
−	shaderFragment TransformPositionRigidNoLighting2_x	+	### MODDED1 # coloration for water fallbacks without mirror reflection # Just alter the corresponding RGB(Alpha) values
−	shaderFragment NoLighting2_x	+	# Neighbourhood Water Colouration
−	end	+	setv4 nAbahoodWater (0.75, 0.6, 0.45, 0.667)
−		+	# neighbourhood water fallback coloration when without ScreenReflection
−	colorScalar (0.0, 0.0, 0.0, 1.0)	+	setv4 nAbahoodEau (0.75, 0.6, 0.45, 0.667)
−		+	# lotskirt water fallback coloration when without ScreenReflection
−	stage	+
−	textureBlend select(colorScalar) select(colorScalar)	+	### 0.15, 0.045, 0.03
−	end	+	### 0.3, 0.09, 0.06
−	end	+	### 0.8,0.25,0.1
−		+
		+	### MODDED2 # coloration for waters with mirror reflection # Just alter the corresponding RGB(Alpha = reflectivity or relfective strength) values
		+	# Reflective water
		+	setc  nhoodWaterReflColour  (0.75, 0.15, 0.05)
		+	# neighbourhood water coloration RGB when by default with ScreenReflection
		+	setc  lotSkirtWaterReflColour (0.75, 0.15, 0.05)
		+	# in-lot lotskirt water coloration RGB when by default with ScreenReflection
		+	setf  nhoodWaterReflStrength  0.75
		+	# neighbourhood water reflectivity alpha when by default with ScreenReflection
		+	setf  lotSkirtWaterReflStrength 0.75
		+	# in-lot lotskirt water reflectivity alpha when by default with ScreenReflection
		+	setf  nhoodWaterReflOffset    0.0020
		+
		+	# Standard water
		+	setf nhoodWaterbumpMapScale 8.0
		+	### MODDED3 # coloration for neighbourhood water transparency
		+	setf nhoodWaterAlpha        0.333
		+	# neighbourhood water geneal transparency
		+
		+
		+	setb isDay true
		+	setb isTerrainConcrete false
		+
		+	# water clipping plane
		+	setf waterHeight 312.45
		+
		+	# underwater gradient texture
		+	set  waterGradientTexture neighborhood-underwater-gradient
		+	set  waterGradientTextureAdditive neighborhood-underwater-gradient-with-black
		+	# depth at which the gradient starts to take effect
		+	setf waterGradientZoneStart 0
		+	# how far down the gradient goes from that point.
		+	setf waterGradientZoneSize 40
		+
		+	set skyboxCubeMap neighborhood-sky2-envcube
		+
		+	# bump mapping
		+	setv3 nhoodSunDir (-0.5, 1, 0.5)   # default -- should be set by code from the lighting.txt value
		+	# overall kind-of brightness booster for bump map.
		+	setf  bumpMapBoost 1.5
		+
		+
		+	##################################################
		+	set useReflection 0 # default material parameter value
		+
		+	seti poolWaterLayer 5
		+
		+	setf wmTransparency  0.5
		+	#attrdescription Water transparency
		+
		+	setf wmXSpeed        3    # min:0 max:100
		+	#attrdescription Lookup texture for diffuse intensity.
		+	setf wmXRepeat      1    # min:0 max:100
		+	#attrdescription Lookup texture for diffuse intensity.
		+	setf wmXWaveHeight  0.1  # min:0 max:100
		+	#attrdescription Lookup texture for diffuse intensity.
		+
		+	setf wmYSpeed        5    # min:0 max:100
		+	#attrdescription Lookup texture for diffuse intensity.
		+	setf wmYRepeat      1.8  # min:0 max:100
		+	#attrdescription Lookup texture for diffuse intensity.
		+	setf wmYWaveHeight  0.2  # min:0 max:100
		+	#attrdescription Lookup texture for diffuse intensity.
		+
		+	set wmReflectionTexture reflectionoutdoorwater-envcube
		+	#attrdescription Environment cube map texture for reflection
		+
		+	setb wmRefractionEnabled false
		+	#attrdescription Whether refraction is enabled
		+
		+	set wmRefractionTexture swimming_pool-envcube
		+	#attrdescription Environment cube map texture for refraction
		+	##################################################
		+
		+
		+	# ==============================================================================
		+	# derived bump map quantities
		+	define BiasedNormal(n bn)
		+	setf  nLen (sqrt(sqr($&{n}.x) + sqr($&{n}.y) + sqr($&{n}.z)))
		+	setv3 &{bn} ((0.5,0.5,0.5) * (($&{n} / $nLen.xxx) + (1,1,1)))
	enddef		enddef
		+	create BiasedNormal(nhoodSunDir nhoodSunDirBiased)
		+	setv3 nhoodSunDirBiased ($nhoodSunDirBiased * $bumpMapBoost.xxx)
		+
		+	set terrainType "unset"
		+
		+	# defaults off, can be turned on at startup.
		+	setb simpleTerrain false
		+	setb isImposter false
		+
		+	include neighborhoodSWVS.matShad
	# ==============================================================================		# ==============================================================================
−	# Used for those triangles in the canvas which are partially under water.
−	#
−	define NeighborhoodWaterlineStraddleSWVS()
−	vertexFormatPred position      0 true	+	define NeighborhoodCanvas()
−	vertexFormatPred normal        0 true	+
−	vertexFormatPred texcoord      0 true	+
−	viewerRenderTypePred $kRenderTypeReflection	+
−	pass	+	# this material does nothing but prep the z-buffer, and render black.
−	shaderProgram -target vertexProgram -method link	+
−	create BindsForSoftwareVSTransforms(false false)	+
−	bindConstants 11 -bindingID immediateData -data (0,0, 1.0/$waterHeight , -0.25) -constantType float	+
−	create TransformFragments(false false true false 0 0 false 2_x)	+
−	shaderFragment TerrainWaterMaskTexGenUVZero2_x	+
−	end	+
−		+
−	alphaBlend srcFactor(one) add dstFactor(srcAlpha)	+
−	cullmode none # so that reflections don't "creep under" edge of terrain	+
−	#colorScalar (0.0, 1.0, 0.1, 0.0)	+
−	#alphaTest true 128	+	material
−	#alphaTestFunction acceptIfGreater	+	if ($simpleTerrain)
		+	shader
		+	end
		+	endif
−	depthTest true -enableDepthWrite true	+	shader -layer (($nhoodCanvasLayer) * 8)
−	depthTestFunction accept	+
−		+	validateRenderShaderContext -vertexFormat  position      0 required
−	stage	+	validateRenderShaderContext -vertexFormat  normal        0 required
−	# above water -- clip by using depth-based 0/1 texture.	+
−	texture blackWhite	+	if (not $isImposter)
−	textureAddressing clamp clamp	+	validateRenderShaderContext -vertexFormat  texcoord      0 required
−	textureFilterHint point point	+	endif
−	textureMIPFilterHint disabled	+	viewerRenderTypePred viewerRenderType
−		+
−	textureBlend select(texture) select(texture)	+	create DetermineHardwareSupport()
−	end	+
		+	if (strcmp("Concrete", "${terrainType}") = 0)
		+	setb isTerrainConcrete true
		+	endif
−	end	+	if (not $isUnderWater or viewerRenderType != $kRenderTypeReflection)
−		+	if ($useSWVertexShaderPath)
−		+	create NeighborhoodTerrainPrepWorkSWVS()
		+	else
		+	pass -fixedFunction
		+	create LightingStatesNoStdLights()
		+
		+	cullmode none # so that reflections don't "creep under" edge of terrain
		+	colorScalar (0.0, 0.0, 0.0, 1.0)
		+
		+	if ($isImposter and $isTerrainConcrete)
		+	ffDepthOffset -1
		+	endif
		+
		+	stage
		+	if (not $isImposter)
		+	ffTextureCoordsSource fromPosition
		+	endif
		+	textureBlend select(colorScalar) select(outRegister)
		+	end
		+	end
		+	endif
		+
		+	endif
		+
		+	end
		+	end
	enddef		enddef
		+	# ==============================================================================
		+	# Used for those triangles in the canvas which are partially under water.
		+	#
		+	define NeighborhoodCanvasStraddle()
		+	material
−	# used to render black on the straddle piece, so other passes can plop stuff on top.	+	if ($simpleTerrain)
−	define NeighborhoodWaterlineStraddleStandardCameraSWVS()	+	shader
		+	end
		+	endif
		+	# material for reflection camera
−	pass	+	shader -layer (($nhoodCanvasLayer) * 8)
−	shaderProgram -target vertexProgram -method link	+
−	create BindsForSoftwareVSTransforms(false false)	+	validateRenderShaderContext -vertexFormat  position      0 required
−	shaderFragment TransformPositionRigidNoLighting2_x	+	validateRenderShaderContext -vertexFormat  normal        0 required
−	shaderFragment NoLighting2_x	+	validateRenderShaderContext -vertexFormat  texcoord      0 required
		+	viewerRenderTypePred $kRenderTypeReflection
		+
		+	#Render the portion that is above water only
		+
		+	create DetermineHardwareSupport()
		+
		+	if ($useSWVertexShaderPath)
		+
		+	create NeighborhoodWaterlineStraddleSWVS()
		+
		+	else
		+
		+	pass -fixedFunction
		+	create LightingStatesNoStdLights()
		+	alphaBlend srcFactor(one) add dstFactor(zero)
		+	cullmode none # so that reflections don't "creep under" edge of terrain
		+	colorScalar (0.0, 0.0, 0.0, 1.0)
		+
		+	alphaTest true 128
		+	alphaTestFunction acceptIfGreater
		+
		+	stage
		+	# above water -- clip by using depth-based 0/1 texture.
		+	texture blackWhite
		+	textureAddressing clamp clamp
		+	textureFilterHint point point
		+	textureMIPFilterHint disabled
		+
		+	ffTextureMatrix -cameraToGlobal -order zzzw -trans ($waterHeight - 0.5, 0) -invert
		+	ffTextureCoordsSource fromPosition
		+	textureBlend select(colorScalar) select(texture)
		+	end
		+	end
		+	endif
		+
	end		end
−		+
−	#alphaBlend srcFactor(one) add dstFactor(zero)	+
		+
		+	#material for standard camera
		+	#shader -layer (-128)
		+	shader -layer (-128)
−	cullmode none # so that reflections don't "creep under" edge of terrain	+	validateRenderShaderContext -vertexFormat  position      0 required
−	colorScalar (0.0, 0.0, 0.0, 1.0)	+	validateRenderShaderContext -vertexFormat  normal        0 required
−		+	validateRenderShaderContext -vertexFormat  texcoord      0 required
−	stage	+	viewerRenderTypePred $kRenderTypeNormal
−	textureBlend select(colorScalar) select(colorScalar)	+
−	end	+	create DetermineHardwareSupport()
		+
		+	if ($useSWVertexShaderPath)
		+	create NeighborhoodWaterlineStraddleStandardCameraSWVS()
		+	else
		+
		+	#Render the portion that is above water only
		+	pass -fixedFunction
		+	create LightingStatesNoStdLights()
		+	alphaBlend srcFactor(one) add dstFactor(zero)
		+	cullmode none # so that reflections don't "creep under" edge of terrain
		+	colorScalar (0.0, 0.0, 0.0, 1.0)
		+	stage
		+	textureBlend select(colorScalar) select(outRegister)
		+	end
		+	end
		+	endif
		+
		+	end
		+
	end		end
−
−
	enddef		enddef
−
	# ==============================================================================		# ==============================================================================
	# Material for terrain geometry that is partially or completely under water.		# Material for terrain geometry that is partially or completely under water.
−	define NeighborhoodUnderWaterTerrainSWVS()	+	define NeighborhoodWaterTerrain()
		+	material
−		+	if ($simpleTerrain)
−	pass	+	shader
−		+	end
−	shaderProgram -target vertexProgram -method assemble	+	endif
−	create BindsForSoftwareVSTransforms(false false)	+
−		+	shader -layer (($nhoodCanvasLayer + 2) * 8)
−	setf normalizerScale (1.0/($waterHeight))	+	validateRenderShaderContext -vertexFormat  position      0 required
		+	validateRenderShaderContext -vertexFormat  normal        0 required
		+	validateRenderShaderContext -vertexFormat  texcoord      0 required
		+	viewerRenderTypePred viewerRenderType
−	setv4 texgenData ($normalizerScale, 1, $waterHeight, -0.5)	+
−		+	create DetermineHardwareSupport()
−	bindConstants 11 -bindingID immediateData -data $texgenData	+
−		+	if (viewerRenderType != $kRenderTypeReflection)
−	shaderSource	+
−	vs_1_1	+	if ($useSWVertexShaderPath)
		+	create NeighborhoodUnderWaterTerrainSWVS()
−	def c12,0, 0.5 ,1,2	+	else
−	dcl_position v0	+
−		+
−	m4x4 oPos, v0, c4    ; geom to clip	+
−	mad r0.xyz, v0.zzz, -c11.xxx, c11.yy    ; normalize this from 0 to 1.	+	pass -fixedFunction
		+
		+
		+	create LightingStatesNoStdLights()
		+
		+	alphaBlend srcFactor(destColor) add dstFactor(zero)
		+	cullmode none # so that reflections don't "creep under" edge of terrain
		+	# apply depth-based gradient texture to terrain that is under water.
		+	stage
		+	texture $waterGradientTexture
		+
		+	if ($cubeMapSupport)
		+	textureAddressing tile clamp
		+	else
		+	textureAddressing clamp clamp
		+	endif
		+
		+	set d ($waterHeight - $waterGradientZoneStart)
		+	set s (-$waterGradientZoneSize)
		+	ffTextureMatrix -cameraToGlobal -order xzyw -scale $s -trans (0, $d) -invert
		+	ffTextureCoordsSource fromPosition
		+	textureBlend select(texture) select(outRegister)
		+	end
		+	end
		+
		+	endif
−	mov oT0.xy, r0	+	endif
−		+
−	add oT1.xy, r0, -c11.ww    ; shift by 0.5, so that the 'clip texture', ends up at the water level.	+
−		+
−	mov oD0, c12.y	+
−	endShaderSource	+
	end		end
−		+	end
−	alphaBlend srcFactor(zero) add dstFactor(srcColor)	+	enddef
−		+
−	cullmode none # so that reflections don't "creep under" edge of terrain	+
−		+
−	alphaTest true 128	+
−	alphaTestFunction acceptIfGreater	+
−	# apply depth-based gradient texture to terrain that is under water.	+	# ==============================================================================
−		+	define NeighborhoodTerrainPaintShader()
−	stage	+	shader -layer (($nhoodCanvasLayer + 1) * 8)
−	texture $waterGradientTexture	+	validateRenderShaderContext -vertexFormat  position      0 required
−	textureAddressing clamp clamp	+	validateRenderShaderContext -vertexFormat  normal        0 required
−	textureBlend multiply(diffuse texture) select(outRegister)	+
−	end	+	if (not $isImposter)
		+	validateRenderShaderContext -vertexFormat  texcoord      0 required
		+	endif
		+	create DetermineHardwareSupport()
		+
		+	if (strcmp("Concrete", "${terrainType}") = 0)
		+	setb isTerrainConcrete true
		+	endif
		+
		+	if ($useSWVertexShaderPath)
		+	create NeighborhoodMainTerrainShaderSWVS()
		+
		+	else
−	stage	+	pass -fixedFunction
−	texture blackWhite	+
−	textureAddressing clamp clamp	+	create LightingStatesNoStdLights()
−	textureFilterHint point point	+	alphaBlend srcFactor(srcAlpha) add dstFactor(one)
−	textureMIPFilterHint disabled	+	cullmode none # so that reflections don't "creep under" edge of terrain
−	textureBlend select(outRegister) select(texture)	+
−	end	+	if ($isImposter and $isTerrainConcrete)
−		+	ffDepthOffset -1
−	#<	+	endif
−	stage	+
−	textureBlend select(diffuse) select(diffuse)	+	colorScalar $nhoodSunDirBiased
−	end	+
−	#>	+	depthTest true -enableDepthWrite false
		+	depthTestFunction acceptIfEqual
		+
		+	seti snowLevel (tsHasSnow)
		+
		+	if ($snowLevel = 1)
		+	set weatherSuffix "-LSNOW"
		+	elseif ($snowLevel = 2)
		+	set weatherSuffix "-HSNOW"
		+	else
		+	set weatherSuffix ""
		+	endif
		+
		+	stage
		+	texture $alphaMap
		+	textureAddressing clamp clamp
		+
		+	if ($isImposter)
		+	ffTextureMatrix -cameraToGlobal -scalev ((0.1 * $alphaMapScaleU), (0.1 * $alphaMapScaleV))
		+	ffTextureCoordsSource fromPosition
		+	else
		+	ffTextureMatrix -scalev ($alphaMapScaleU, $alphaMapScaleV)
		+	ffTextureCoordsSource 0
		+	endif
		+	textureBlend select(outRegister) select(texture)
		+	end
		+
		+	stage
		+	texture "${paintTexture}${weatherSuffix}"
		+	textureAddressing tile tile
		+	if ($isImposter)
		+	ffTextureMatrix -cameraToGlobal -scalev ((10.0 * $nhoodPaintTextureScale), (10.0 * $nhoodPaintTextureScale)) -invert
		+	ffTextureCoordsSource fromPosition
		+	else
		+	ffTextureMatrix -scalev ($nhoodPaintTextureScale, $nhoodPaintTextureScale) -invert
		+	ffTextureCoordsSource 0
		+	endif
		+	textureBlend select(texture outRegister) select(outRegister)
		+	end
		+	end
		+	endif
		+
		+	end
		+	enddef
−	end	+	define NeighborhoodTerrainPaint()
−		+	material
		+
		+	if ($simpleTerrain)
		+	shader
		+	end
		+	endif
		+
		+	create NeighborhoodTerrainPaintShader()
		+	end
	enddef		enddef
		+
	# ==============================================================================		# ==============================================================================
−	# renders the terrain colors. The geometry is a patchwork 'quilt' of sorts, with overlapping edges
−	# this overlapping is handled by alpha blending
		+	set ratioH 1  # default material parameter value
		+	set ratioW 1  # default material parameter value
		+	set useReflection 1 # default material parameter value
		+	define NeighborhoodWater()
		+	material
		+	# never draw water in its reflection.  Already handled by code.
−	define NeighborhoodMainTerrainShaderSWVS()	+	if ($simpleTerrain)
		+	shader -layer $nhoodWaterLayer
		+	pass -fixedFunction
		+	### MODDED1a # Neighbourhood water: no-reflection simple point
		+	colorScalar $nAbahoodWater
		+	###              colorScalar (0.3, 0.4,0.8) 1.0
		+	stage
		+	textureBlend select(colorScalar) select(colorScalar)
		+	end
		+	end
		+	end
		+	endif
−	pass	+	# First option: reflection mapped water.
−	if (not $isImposter)	+	if ($useReflection)
−	shaderProgram -target vertexProgram -method link	+
−	create BindsForSoftwareVSTransforms(false false)	+	shader -layer $nhoodWaterLayer
−		+	validateRenderShaderContext -vertexFormat  position      0 required
−	setv4 texgenData (1.0/$nhoodPaintTextureScale, 1.0/$nhoodPaintTextureScale, $alphaMapScaleU, $alphaMapScaleV )	+	validateRenderShaderContext -vertexFormat normal        0 required
−		+	validateRenderShaderContext -vertexFormat  texcoord      0 required
−	bindConstants 11 -bindingID immediateData -data $texgenData -constantType float	+	viewerRenderTypePred viewerRenderType
−	# no morphs, skins or normals	+
−	shaderFragment TransformPositionRigidNoLighting2_x	+
−	shaderFragment TerrainPaintTexGen2_x	+
−	end	+
−	else	+
−	shaderProgram -target vertexProgram -method assemble	+
−	create BindsForSoftwareVSTransforms(false false)	+
−	setv4 texgenData (1.0/$nhoodPaintTextureScale, 1.0/$nhoodPaintTextureScale, $alphaMapScaleU, $alphaMapScaleV )	+	################################################################################
−	bindConstants 11 -bindingID immediateData -data $texgenData	+	# Three pass/2 texture rippled reflection -- does not run on GeF2 only 2 stages (for GeF4+)
−		+	pass -fixedFunction -modifiedEachFrameHint
−	shaderSource	+
−	vs_1_1	+
−		+	alphaBlend srcFactor(srcAlpha) add dstFactor(invSrcAlpha)
−	def c12,0, 0.5 ,1,2	+	colorScalar $nhoodWaterReflColour $nhoodWaterReflStrength
−	def c13, 0.0076923, 0.25, 0, 0	+	depthTest true -enableDepthWrite false
−	dcl_position v0	+
−	m4x4 oPos, v0, c4	+	stage
−		+	ffTextureCoordsSource fromPosition
−	mov oT0.xy, c13.yy	+	ffTextureMatrix -cameraToClip -scalev ((-0.5 * $ratioW), (-0.5 * $ratioH)) -trans (0.5, 0.5)
−	mul oT1.xy, c11.xy, v0.xy	+	textureAddressing clamp clamp
−	endShaderSource	+	texture "ScreenReflection"
−	end	+
−	endif	+	textureBlend multiply(texture colorScalar) select(outRegister) tempRegister
		+	end
		+	stage
		+	ffTextureCoordsSource fromPosition
		+	ffTextureMatrix -cameraToClip -scalev ((-0.5 * $ratioW), (-0.5 * $ratioH)) -trans (0.5 + $nhoodWaterReflOffset, 0.5 + $nhoodWaterReflOffset)
		+	textureAddressing clamp clamp
		+
		+	texture "ScreenReflection"
		+	textureBlend multiply(texture colorScalar) select(outRegister)
		+	end
		+	stage
		+	texture "neighborhood-water-1"
		+	textureAddressing tile tile
		+	# -atrans waveformType cycles/sec offset (startU, startV)  (endU, endV)
		+	textureMatrixAnimation -targetType fixedFunction -atrans sawtooth ($nhoodWaterMap1Speed / $nhoodWaterMap1Scale) 0 (0, 0) ($nhoodWaterMap1Scale, 0) -ascale sawtooth 1 0 ($nhoodWaterMap1Scale, $nhoodWaterMap1Scale)
		+	ffTextureCoordsSource 0
		+	textureBlend lerpTextureAlpha(tempRegister outRegister) select(colorScalar)
		+	end
		+	end
		+	end
		+
		+	shader -layer $nhoodWaterLayer
		+	validateRenderShaderContext -vertexFormat  position      0 required
		+	validateRenderShaderContext -vertexFormat  normal        0 required
		+	validateRenderShaderContext -vertexFormat  texcoord      0 required
		+	viewerRenderTypePred viewerRenderType
		+
		+	################################################################################
		+	# Two stage case since the three stage case above fails on most low end hardware because of its third stage (GF2).
		+	pass -fixedFunction -modifiedEachFrameHint
		+
		+
		+	alphaBlend srcFactor(srcAlpha) add dstFactor(invSrcAlpha)
		+	colorScalar $nhoodWaterReflColour $nhoodWaterReflStrength
		+	depthTest true -enableDepthWrite false
		+
		+	stage
		+	ffTextureCoordsSource fromPosition
		+	ffTextureMatrix -cameraToClip -scalev ((-0.5 * $ratioW), (-0.5 * $ratioH)) -trans (0.5, 0.5)
		+	textureAddressing clamp clamp
		+	texture "ScreenReflection"
		+
		+	textureBlend multiply(texture colorScalar) select(outRegister)
		+	end
		+
		+	stage
		+	texture "neighborhood-water-1"
		+	textureAddressing tile tile
		+	# -atrans waveformType cycles/sec offset (startU, startV)  (endU, endV)
		+	#textureMatrixAnimation -targetType fixedFunction -atrans sawtooth ($nhoodWaterMap1Speed / $nhoodWaterMap1Scale) 0 (0, 0) ($nhoodWaterMap1Scale, 0) -ascale sawtooth 1 0 ($nhoodWaterMap1Scale, $nhoodWaterMap1Scale)
		+	ffTextureCoordsSource 0
		+	textureBlend lerpTextureAlpha(outRegister outRegister) select(colorScalar)
		+	end
		+
		+	end
		+	end
		+
		+	endif
		+
		+	################################################################################
		+	# fallback: no reflection.
		+	shader -layer ($nhoodWaterLayer)
		+	viewerRenderTypePred viewerRenderType
		+
		+	create DetermineHardwareSupport()
		+
		+	pass -fixedFunction
		+	# For now, we are diabling the lighting since we simply want to use the vertex colors.
		+	create LightingStatesNoStdLightsParam(false true)
		+	alphaBlend srcFactor(srcAlpha) add dstFactor(invSrcAlpha)
		+
		+	### MODDED1b # Neighbourhood water: no-reflection fallback point
		+	colorScalar $nAbahoodWater
		+	###            colorScalar (.4, .6, .9, .6)
		+
		+	fillmode $stdMatFillMode
		+	stage
		+	#texture reflectionoutdoorwater-envcube
		+	if ($cubeMapSupport)
		+	texture $skyboxCubeMap
		+	textureMIPFilterHint disabled
		+
		+	ffTextureCoordsSource fromReflectionVector
		+	ffTextureMatrix -orientCameraToGlobal
		+
		+	textureAddressing clamp clamp clamp
		+	textureBlend multiply(texture colorScalar) select(colorScalar)
		+	else
		+	textureBlend select(colorScalar) select(colorScalar)
		+	endif
		+	end
		+	end
		+
		+	end
		+
		+
		+	################################################################################
−	alphaBlend srcFactor(srcAlpha) add dstFactor(one)	+	#       create NeighborhoodWaterSWVS()
−	cullmode none # so that reflections don't "creep under" edge of terrain	+	create NeighborhoodWaterSWVSmoiAg()
−		+
−	#colorScalar $nhoodSunDirBiased	+
−		+
−	depthTest true -enableDepthWrite false	+
−	depthTestFunction acceptIfEqual	+
−		+
−	colorScalar 1.0,1.0,1.0,1.0	+
−		+
−	stage	+
−	texture $alphaMap	+
−	textureAddressing clamp clamp	+
−	textureBlend select(colorScalar) select(texture)	+
−	end	+
−		+
−	stage	+
−	texture $paintTexture	+
−	textureAddressing tile tile	+
−	textureBlend multiply(texture outRegister) select(outRegister)	+
−	end	+
	end		end
Line 237:		Line 595:
−		+	################
−		+	define NeighborhoodWaterSWVSmoiAg()
−	# ==============================================================================	+
−		+
−	define NeighborhoodWaterSWVS()	+
	shader -layer (($waterLayer) * 18 + 17)		shader -layer (($waterLayer) * 18 + 17)
Line 260:		Line 615:
	def c50, 0, 0.5,1,2		def c50, 0, 0.5,1,2
	def c11, 0,0,1,0		def c11, 0,0,1,0
−	def c12, 0.2,0.5,0.7, 0.1	+	### MODDED4  # Neighbourhood water final fallback: Just alter the highlit RGB values (in bold and italic style)
		+	def c12, 0.098, 0.336, 0.469, 0.1
	dcl_position v0		dcl_position v0
	dcl_normal v1		dcl_normal v1
Line 293:		Line 649:
	end		end
	enddef		enddef
		+	####################
		+
		+
		+
	# ==============================================================================		# ==============================================================================
−	# The layer ID for this should be lower than "waterLayer" Id because we want the farther side of the water box should be	+	# The layer ID for this should be lower than "nhoodWaterLayer" Id because we want the farther side of the water box should be
	# drawn as well.		# drawn as well.
	# the layer ID of any under-water objects (so		# the layer ID of any under-water objects (so
−	define NeighborhoodWaterEdgeSWS()	+	define NeighborhoodWaterEdge()
−		+
−	pass	+	material
−		+	if ($simpleTerrain)
−	alphaBlend srcFactor(one) add dstFactor(zero)	+	shader
−	cullmode none # we want to render the father side of the water edge also	+	end
−		+	endif
−	stage	+
−	texture $waterEdgeTexture	+
−	textureAddressing tile tile	+	shader -layer (($nhoodWaterLayer - 1) * 8)
−	#ffTextureMatrix -scalev (1/$waterEdgeTextureScale, 1/$waterEdgeTextureScale)	+	validateRenderShaderContext -vertexFormat  position      0 required
−	#ffTextureCoordsSource 0	+	validateRenderShaderContext -vertexFormat  texcoord      0 required
−	textureBlend select(texture) select(diffuse)	+
−	end	+	pass -fixedFunction
−	end	+	create LightingStates()
−		+	alphaBlend srcFactor(one) add dstFactor(zero)
		+	cullmode cullCounterClockwise
		+
		+	stage
		+	texture $waterEdgeTexture
		+	textureAddressing tile tile
		+	ffTextureMatrix -scalev (1/$waterEdgeTextureScale, 1/$waterEdgeTextureScale)
		+	ffTextureCoordsSource 0
		+	textureBlend select(texture) select(diffuse)
		+	end
		+	end
		+
		+	end
		+	end
		+
	enddef		enddef
	# ==============================================================================		# ==============================================================================
−	# a terrain edge is a 'slice' or 'cover plate' for the terrain when viewed edge-on, since the terrain is not infinite in all directions.	+	define NeighborhoodTerrainEdge()
		+	material
		+
		+	if ($simpleTerrain)
		+	shader
		+	end
		+	endif
		+
		+	shader -layer (($nhoodCanvasLayer + 13) * 8)
		+	validateRenderShaderContext -vertexFormat  position      0 required
		+	validateRenderShaderContext -vertexFormat  normal        0 required
		+	validateRenderShaderContext -vertexFormat  texcoord      0 required
−	define NeighborhoodTerrainEdgeSWVS()	+	pass -fixedFunction
−		+	create LightingStates()
−	pass	+	alphaBlend srcFactor(srcAlpha) add dstFactor(invSrcAlpha)
−	alphaBlend srcFactor(srcAlpha) add dstFactor(invSrcAlpha)	+	stage
		+	texture $terrainEdgeTexture
		+	textureAddressing tile tile
		+	ffTextureMatrix -scalev (1/$terrainEdgeTextureScale, 1/$terrainEdgeTextureScale)
		+	ffTextureCoordsSource 0
		+	textureBlend multiply(texture diffuse) select(texture)
		+	end
		+	end
−	stage	+	end
−	texture $terrainEdgeTexture	+	end
−	textureAddressing tile tile	+	enddef
		+
		+	#==============================================================================
		+	define NHoodTerrainLighting()
		+
		+	set terrainRepresentativeTexture "lottexture-test-01_detail"
		+
		+	material
		+	shader -layer (($nhoodCanvasLayer + 3) * 8)
		+	validateRenderShaderContext -vertexFormat  position      0 required
		+	validateRenderShaderContext -vertexFormat  normal        0 required
		+
		+	if (not $isImposter)
		+	validateRenderShaderContext -vertexFormat  texcoord      0 required
		+	endif
		+
		+
		+	if (strcmp("Concrete", "${terrainType}") = 0)
		+	setb isTerrainConcrete true
		+	endif
		+
		+	if ($simpleTerrain)
		+
		+	if (strcmp("Desert", "${terrainType}") = 0)
		+	set terrainRepresentativeTexture "lottexture-canvas-desert"
		+	endif
		+
		+	shader
		+	pass -fixedFunction
		+	ffDepthOffset -1
		+
		+	stage
		+	texture "nhoodLightMap"
		+	if ($isImposter)
		+	ffTextureMatrix -cameraToGlobal -scalev (1280, 1280) -invert
		+	ffTextureCoordsSource fromPosition
		+	else
		+	ffTextureMatrix -scalev (128, 128) -invert
		+	ffTextureCoordsSource 0
		+	endif
		+
		+	textureBlend select(texture) select(texture)
		+	end
		+
		+	stage
		+	texture $terrainRepresentativeTexture
		+	if ($isImposter)
		+	ffTextureMatrix -cameraToGlobal -scalev (160, 160) -invert
		+	ffTextureCoordsSource fromPosition
		+	else
		+	ffTextureMatrix -scalev (16, 16) -invert
		+	ffTextureCoordsSource 0
		+	endif
		+
		+	#textureBlend multiply(texture outRegister) select(outRegister)
		+	textureBlend select(texture outRegister) select(outRegister)
		+	end
		+	end
		+	end
		+
		+	endif
		+
		+
		+	create DetermineHardwareSupport()
−	#ffTextureMatrix -scalev (1/$terrainEdgeTextureScale, 1/$terrainEdgeTextureScale)	+	if ($useSWVertexShaderPath)
−	#ffTextureCoordsSource 0	+	create NeighborhoodTerrainLightingSWVS()
−		+	else
−	textureBlend multiply(texture diffuse) select(texture)	+	pass -fixedFunction
−		+
−	end	+	create LightingStatesNoStdLights()
		+
		+	# standard Lightmap * dest
		+	alphaBlend srcFactor(destColor) add dstFactor(zero)
		+
		+	# if the outbound 'clip' texture has 0 in it, don't emit those pixels.
		+	alphaTest true 127
		+	alphaTestFunction acceptIfGreater
		+
		+
		+	fillmode $stdMatFillMode
		+
		+	if ($isImposter and $isTerrainConcrete)
		+	ffDepthOffset -1
		+	endif
		+
		+	depthTestFunction acceptIfEqual
		+	# emit the lightmap
		+	stage
		+	texture "nhoodLightMap"
		+	if ($isImposter)
		+	ffTextureMatrix -cameraToGlobal -scalev (1280, 1280) -invert
		+	ffTextureCoordsSource fromPosition
		+	else
		+	ffTextureMatrix -scalev (128, 128) -invert
		+	ffTextureCoordsSource 0
		+	endif
		+
		+	if (tsHasSnow >= 1)
		+	colorScalar (0.3, 0.3, 0.35, 0)
		+	else
		+	colorScalar (0, 0, 0, 0)
		+	endif
		+
		+	textureBlend add(texture colorScalar) select(texture)
		+	end
		+
		+	# modulate by the 'above water' texture, which is a 2x1 texture with black and white in it.
		+
		+	stage
		+	# above water -- clip by using depth-based 0/1 texture.
		+	texture blackWhite
		+	textureAddressing clamp clamp
		+	textureFilterHint point point
		+	textureMIPFilterHint disabled
		+
		+	if ( $isImposter)
		+	ffTextureMatrix -cameraToGlobal -order zzzw -trans ($waterHeight - 10, 0) -invert
		+	else
		+	ffTextureMatrix -cameraToGlobal -order zzzw -trans ($waterHeight - 0.5, 0) -invert
		+	endif
		+	ffTextureCoordsSource fromPosition
		+	textureBlend multiply(texture:alphaReplicate outRegister) select(texture)
		+	end
		+	end
		+	endif
		+	end
	end		end
Line 340:		Line 851:
−	#==============================================================================	+	# ==============================================================================
−	# the last pass that applies the terrain lightmap across the neighborhood, but not underwater	+
		+	define NHoodTerrainHighlightMaterial()
		+	material
		+	shader -layer (($nhoodCanvasLayer + 9) * 8)
		+	validateRenderShaderContext -vertexFormat  position      0 required
		+	validateRenderShaderContext -vertexFormat  normal        0 required
		+	validateRenderShaderContext -vertexFormat  texcoord      0 required
−	define NeighborhoodTerrainLightingSWVS()	+	create DetermineHardwareSupport()
		+
		+	if ($useSWVertexShaderPath)
		+	create NeighborhoodTerrainHighlightSWVS()
		+	else
		+	pass -fixedFunction
		+	create LightingStates()
		+	alphaBlend srcFactor(srcAlpha) add dstFactor(invSrcAlpha)
		+	fillmode $stdMatFillMode
		+	colorScalar (1, 1, 1, $highlightAlpha)
		+
		+	stage
		+	texture $highlightTexture
		+	textureAddressing tile tile
		+	textureBlend select(texture) multiply(texture colorScalar)
		+	end
		+	end
		+	endif
		+
		+	end
		+	end
		+	enddef
−	pass	+	# ==============================================================================
−	shaderProgram -target vertexProgram -method assemble	+	define NHoodTerrainOutlineHighlightMaterial()
−	create BindsForSoftwareVSTransforms(false false)	+	material
		+	shader -layer (($nhoodCanvasLayer + 10) * 8)
		+	validateRenderShaderContext -vertexFormat  position      0 required
		+	validateRenderShaderContext -vertexFormat  normal        0 required
		+	validateRenderShaderContext -vertexFormat  texcoord      0 required
−	setf textureScale (1.0/($waterHeight))	+	pass -fixedFunction
−	setv4 texgenData ($textureScale, 1, $waterHeight, -0.5)	+	create LightingStatesNoStdLights()
−	bindConstants 11 -bindingID immediateData -data $texgenData	+	alphaBlend srcFactor(srcAlpha) add dstFactor(invSrcAlpha)
−		+	fillmode $stdMatFillMode
−	shaderSource	+	depthTest true -enableDepthWrite false
−	vs_1_1	+
−		+	stage
−	def c12,0, 0.5 ,1,2	+	texture $texture
−	def c13, 0.0078125, 0.00078125, 0, 0	+	textureAddressing clamp clamp
−	dcl_position v0	+	ffTextureCoordsSource 0
−	endShaderSource	+	textureBlend select(texture) select(texture)
−		+	end
−	if (not $isImposter)	+	end
−	shaderSource  "dcl_texcoord v1"	+
−	endif	+
−		+
−	shaderSource	+
−	m4x4 oPos, v0, c4	+
−	mad r0.xyz, v0.zzz, -c11.xxx, c11.yy    ; normalize this from 0 to 1.	+	end
−		+	end
−	add oT0.xy, r0, -c11.ww    ; shift by 0.5, so that the 'clip texture', ends up at the water level.	+	enddef
−		+
−	endShaderSource	+
−	if ($isImposter)	+	# ==============================================================================
−	shaderSource	+	setb nhoodIsPartlyUnderwater false
−	mul oT1.xy, v0.xy, c13.yy	+	define PartiallyUnderWaterMaterial()
−	endShaderSource	+
−	else	+	seti vt viewerRenderType
−	shaderSource "mul oT1.xy, v1, c13.xx"	+
		+	## prevents the thumbnails of rocks and such from being 'under water', by punting to standard material.
		+	# thumbnails are rendered at 0,0,0, but water tends to be above them at 312 ft/yards whatever.
		+
		+	if (viewerRenderType = $kRenderTypeThumbnail)
		+	create StandardMaterial()
		+	else
		+	create UnderWaterShadingMaterial()
		+	endif
		+
		+	enddef
		+
		+	define UnderWaterShadingMaterial()
		+
		+	material
		+	shader -layer (($nhoodCanvasLayer + 4) * 8)
		+	validateRenderShaderContext -vertexFormat  position 0 required
		+	validateRenderShaderContext -vertexFormat  normal  0 required
		+	validateRenderShaderContext -viewerRenderType viewerRenderType
		+
		+	if ($stdMatBaseTextureEnabled)
		+	validateRenderShaderContext -vertexFormat  texcoord 0 required
	endif		endif
−		+
		+
		+
		+	pass -fixedFunction
		+
		+	ffMatCoef -amb $stdMatDiffCoef -ambAlpha $stdMatAlphaMultiplier -diff $stdMatDiffCoef  -diffAlpha $stdMatAlphaMultiplier -emit $stdMatEmissiveCoef -emitAlpha $stdMatAlphaMultiplier -spec $stdMatSpecCoef -specPow $stdMatSpecPower
		+
		+	create StandardShaderFBAlphaState($stdMatAlphaBlendMode)
		+	fillmode $stdMatFillMode
		+	cullmode $stdMatCullMode
		+
		+	create LightingStates()
		+
		+	stage
		+	create StandardShaderTextureState(Base)
		+	textureBlend multiply(texture outRegister) multiply(texture outRegister)
		+	end
		+
		+	#################################################################
		+	if ($stdMatIsPartlyUnderwater and tsIsInNeighborhood)
		+	if (viewerRenderType = $kRenderTypeReflection)
		+	alphaTest true 128
		+	alphaTestFunction acceptIfGreater
		+	stage
		+	# above water -- clip by using depth-based 0/1 texture.
		+	texture blackWhite
		+	textureAddressing clamp clamp
		+	textureFilterHint point point
		+	textureMIPFilterHint disabled
		+
		+	ffTextureMatrix -cameraToGlobal -order zzzw -trans ($waterHeight - 0.5, 0) -invert
		+	ffTextureCoordsSource fromPosition
		+	textureBlend multiply(texture outRegister) select(texture)
		+	end
		+	else
		+	stage
		+	# would we want to source this from somewhere?
		+	texture $waterGradientTexture
		+	textureAddressing tile clamp
		+
		+	set d ($waterHeight - $waterGradientZoneStart)
		+	set s (-$waterGradientZoneSize)
		+	ffTextureMatrix -cameraToGlobal -order xzyw -scale $s -trans (0, $d) -invert
		+	ffTextureCoordsSource fromPosition
		+	textureBlend multiply(texture outRegister) select(outRegister)
		+	end
		+	endif
		+	else
		+	# if we are in lot mode and we want to fade this shape
		+	if (numLightsOfType(${kShapeColorLight}) != 0)
		+	alphaBlend srcFactor(srcAlpha) add dstFactor(invSrcAlpha)
		+	depthTest true -enableDepthWrite false
		+	colorScalar (1, 1, 1, 1) -applyShapeColor 0
		+	stage
		+	textureBlend select(outRegister) select(colorScalar)
		+	end
		+	endif
		+	endif
		+	#################################################################
		+	end
		+
		+	seti weatherLightCount (numLightsOfType(${kWeatherLight}))
		+
		+	end
		+
		+	# fallback shader, no darken by depth, since "FromPosition" tends to be totally FUBAR  in SWVP.
		+	shader -layer (($nhoodCanvasLayer + 4) * 8)
		+
		+	pass -fixedFunction
		+
		+	ffMatCoef -amb $stdMatDiffCoef -ambAlpha $stdMatAlphaMultiplier -diff $stdMatDiffCoef  -diffAlpha $stdMatAlphaMultiplier -emit $stdMatEmissiveCoef -emitAlpha $stdMatAlphaMultiplier -spec $stdMatSpecCoef -specPow $stdMatSpecPower
		+
		+	create StandardShaderFBAlphaState($stdMatAlphaBlendMode)
		+	fillmode $stdMatFillMode
		+	cullmode $stdMatCullMode
		+
		+	create LightingStates()
		+
		+	stage
		+	create StandardShaderTextureState(Base)
		+	textureBlend multiply(texture outRegister) multiply(texture outRegister)
		+	end
		+
		+	# if we are in lot mode and we want to fade this shape
		+	if (not tsIsInNeighborhood and numLightsOfType(${kShapeColorLight}) != 0)
		+	alphaBlend srcFactor(srcAlpha) add dstFactor(invSrcAlpha)
		+	depthTest true -enableDepthWrite false
		+	colorScalar (1, 1, 1, 1) -applyShapeColor 0
		+	stage
		+	textureBlend select(outRegister) select(colorScalar)
		+	end
		+	endif
		+
	end		end
−	# setup for SRC * DEST, standard lightmap.	+
−		+	end
−	alphaBlend srcFactor(destColor) add dstFactor(zero)	+
−		+
−	alphaTest true 128	+
−	alphaTestFunction acceptIfGreater	+
−	fillmode $stdMatFillMode	+	end
−		+
−	# not really important to do this?	+	enddef
−		+
−	depthTest true -enableDepthWrite false	+
−	depthTestFunction acceptIfEqual	+
−		+
−	colorScalar (1,1,1,1)	+
−	stage
−	# if below water -- get black from this texture.
−	texture blackWhite
−	textureAddressing clamp clamp
−	textureFilterHint point point
−	textureMIPFilterHint disabled
−	textureBlend select(texture:alphaReplicate) select(texture:invert)
−
−	end
−
−	stage
−	texture "nhoodLightMap"
−	textureBlend multiply(texture outRegister:alphaReplicate) select(outRegister)
−	end
−	end
		+	# ===================================================================================
		+	define ImposterArrowMaterial()
		+	material
		+	shader -layer (($nhoodCanvasLayer + 11) * 8)
		+
		+	validateRenderShaderContext -vertexFormat  position      0 required
		+	validateRenderShaderContext -vertexFormat  normal        0 required
		+	validateRenderShaderContext -vertexFormat  texcoord      0 required
		+	pass -fixedFunction
		+	create LightingStatesNoStdLights()
		+	alphaBlend srcFactor(srcAlpha) add dstFactor(invSrcAlpha)
		+	fillmode $stdMatFillMode
		+	# TODO: change this, cannot turn off depth since that is used for dirty rect
		+	depthTest false -enableDepthWrite false
		+
		+	stage
		+	texture $texture
		+	textureAddressing tile tile
		+	ffTextureCoordsSource 0
		+	textureBlend select(texture) select(texture)
		+	end
		+	end
		+	end
		+	end
	enddef		enddef
		+	# ===================================================================================
−	# ==============================================================================	+	define NeighborhoodTreeGUOBMaterial()
−	# for rendering Lots, and when the lot creation tool is being used, this material renders the glowing-gridded rectangles	+
−	define NeighborhoodTerrainHighlightSWVS()	+	# $stdMatTextureName
		+	# $stdMatAlphaMulitplier
−	pass	+	# TODO: fix these so that they are not hardcoded, must be passed through content
−		+	set  textureName      "genericroundsoftguob-alpha"
−	shaderProgram -target vertexProgram -method link	+	setf alphaMultiplier  0.65
−	create BindsForSoftwareVSTransforms(false false)	+
−	#setv4 texgenData (1,  1, 0.0, 0.0)	+	# try using vs_2_sw on the trees since sw vs is not as susceptible to state changes
		+
		+	# this only handles tree GUOBs in the nhood.
		+	material
		+
		+	#the engine will try this shader first..
		+	shader -layer $nhoodTreeShadowLayer
		+	# shadows can never be seen in reflections (they're on the ground)
		+	viewerRenderTypePred $kRenderTypeReflection false
		+
		+	pass
		+	alphaBlend srcFactor(srcAlpha) add dstFactor(invSrcAlpha)
		+	depthTest true -enableDepthWrite false
		+
		+	shaderProgram -target vertexProgram -method assemble
		+	bindConstants 0 -bindingID geomToClip -constantCount 4
		+	shaderSource
		+	vs_1_1
		+	dcl_position v0
		+	dcl_texcoord v1
		+	m4x4 oPos, v0, c0
		+	mov oT0, v1
		+
		+	endShaderSource
		+	end
		+
		+	shaderProgram -target pixelProgram -method assemble
		+	shaderSource
		+	ps_1_1
		+	def c0,1,1,1,$alphaMultiplier
		+	tex t0
		+	mul r0,t0, c0
		+	endShaderSource
		+
		+	end
		+
		+	sampler 0
		+	texture $textureName
		+	textureAddressing clamp clamp clamp
		+	end
		+	end
		+	end
		+
		+	# and fall back to this one if it can't render the above.
		+	shader -layer $nhoodTreeShadowLayer
		+	# shadows can never be seen in reflections (they're on the ground)
		+	viewerRenderTypePred $kRenderTypeReflection false
		+
		+	pass -fixedFunction
		+	alphaBlend srcFactor(srcAlpha) add dstFactor(invSrcAlpha)
		+	depthTest true -enableDepthWrite false
		+
		+	colorScalar (1,1,1, $alphaMultiplier)
		+
		+	stage
		+	texture $textureName
		+	textureAddressing clamp clamp clamp
		+	textureBlend select(texture) multiply(texture colorScalar)
		+	end
		+	end
		+	end
		+
		+	end
		+
		+	enddef
		+
		+	#=======================================================================================
		+	define NeighborhoodBuildingMaterial()
		+	material
		+	shader -layer 0
		+	setb isDay tsIsDay
		+	setb shouldShow (($showOnDay and $isDay) or ((not $showOnDay) and (not $isDay)))
		+	if ($shouldShow)
		+	pass -fixedFunction
		+
		+	if (numLightsOfType(${kShapeColorLight}) > 0)
		+	alphaBlend srcFactor(srcAlpha) add dstFactor(invSrcAlpha)
		+	depthTest true -enableDepthWrite false
		+	colorScalar (1, 1, 1, 1) -applyShapeColor 0
		+	else
		+	colorScalar (1, 1, 1, 1)
		+	endif
		+
		+
		+	if ($isDay) #lighting is only applied at day time
		+	ffLighting -enable true -localViewer false -normalizeNormals false
		+	create NonStandardLighting()
		+	ffMatCoef -amb (0.8,0.8,0.8) -ambAlpha 1.0 -diff (0.8,0.8,0.8) -diffAlpha 1.0 -spec (0,0,0) -specPow 0
		+
		+	stage
		+	ffTextureCoordsSource 0
		+	texture $texMaterial
		+	textureBlend multiply(texture diffuse) multiply(texture colorScalar)
		+	end
		+	else
		+	stage
		+	ffTextureCoordsSource 0
		+	texture $texMaterial
		+	textureBlend select(texture) multiply(texture colorScalar)
		+	end
		+	endif
		+	end
		+	endif
		+	end
		+	end
		+	enddef
		+	#============================================================================================
		+
		+	# make tree shadows render to an opaque (but blended layer) so they drop into the static layer
		+	# this overrides the texture name and alpha blend level.
		+
		+	materialDefinition neighborhood_roundshadow
		+	setDefinition NeighborhoodTreeGUOBMaterial
		+	end
		+
		+	# rectangular shadows are used by the car shadows, until can pass the existing texture name onto the material,
		+	# leave those shadows as transparent layer 7 that will get alpha sorted, etc.
		+	#materialDefinition neighborhood_rectangularshadow
		+	#  setDefinition NeighborhoodTreeGUOBMaterial
		+	#end
		+
		+	# forest
		+	materialDefinition forest_01_shadows
		+	setDefinition NeighborhoodTreeGUOBMaterial
		+	end
		+	materialDefinition forest_02_shadows
		+	setDefinition NeighborhoodTreeGUOBMaterial
		+	end
		+
		+
		+	# oak
		+	materialDefinition treeoak01_shadows
		+	setDefinition NeighborhoodTreeGUOBMaterial
		+	end
		+	materialDefinition treeoak02_shadows
		+	setDefinition NeighborhoodTreeGUOBMaterial
		+	end
		+	materialDefinition treeoak03_shadows
		+	setDefinition NeighborhoodTreeGUOBMaterial
		+	end
		+	materialDefinition treeoak04_shadows
		+	setDefinition NeighborhoodTreeGUOBMaterial
		+	end
		+	materialDefinition treeoak05_shadows
		+	setDefinition NeighborhoodTreeGUOBMaterial
		+	end
		+	materialDefinition treeoak06_shadows
		+	setDefinition NeighborhoodTreeGUOBMaterial
		+	end
		+
		+	# scrub oak
		+	materialDefinition neighborhoodtreescruboak_shadows_alpha
		+	setDefinition NeighborhoodTreeGUOBMaterial
		+	end
		+
		+	# birch
		+	materialDefinition treebirch01_shadows
		+	setDefinition NeighborhoodTreeGUOBMaterial
		+
		+	end
		+	materialDefinition treebirch02_shadows
		+	setDefinition NeighborhoodTreeGUOBMaterial
		+
		+	end
		+	materialDefinition treebirch03_shadows
		+	setDefinition NeighborhoodTreeGUOBMaterial
		+
		+	end
		+	materialDefinition treebirch04_shadows
		+	setDefinition NeighborhoodTreeGUOBMaterial
		+	end
		+	materialDefinition treebirch05_shadows
		+	setDefinition NeighborhoodTreeGUOBMaterial
		+	end
		+	materialDefinition treebirch06_shadows
		+	setDefinition NeighborhoodTreeGUOBMaterial
		+	end
		+
		+	# TODO: need to redefine the tree shaders, at least skip in reflections
		+	#  this is also causing massive batch count for main view (scrolling)
		+	# all trees should be combined into a single part/texture atlas with their shadows
		+	# render them after the terrain
		+	#materialDefinition treeoak01_diffuse
		+	#  setDefinition StandardMaterial
		+	#end
		+
		+
		+	# ===================================================================================
		+
		+	materialDefinition neighborhood-canvas-outOfWater
		+	setDefinition NeighborhoodCanvas
		+	addParam  isUnderWater false
		+	end
		+
		+	materialDefinition neighborhood-canvas-underwater
		+	setDefinition NeighborhoodCanvas
		+	addParam  isUnderWater true
		+	end
		+
		+	materialDefinition neighborhood-canvas-straddle
		+	setDefinition NeighborhoodCanvasStraddle
		+	end
		+
		+	materialDefinition neighborhood-underwater-terrain
		+	setDefinition NeighborhoodWaterTerrain
		+	end
		+
		+	materialDefinition waterEdgeBoxMaterial
		+	setDefinition NeighborhoodWaterEdge
		+	addParam waterEdgeTexture "neighborhood-sides-water"
		+	end
		+
		+	materialDefinition terrainEdgeBoxMaterial
		+	setDefinition NeighborhoodTerrainEdge
		+	addParam terrainEdgeTexture "neighborhood-sides-dirt"
		+	end
		+
		+	materialDefinition nhoodTerrainLightingMaterial
		+	setDefinition NHoodTerrainLighting
		+	end
		+
		+	materialDefinition nhoodTerrainLightingMaterialImposter
		+	setDefinition NHoodTerrainLighting
		+	addParam isImposter true
		+	end
		+
		+	materialDefinition nhoodReflectionSkybox
		+	setDefinition SkyboxCompositionPassMaterial
		+	addParam skyboxCubeTexture $skyboxCubeMap
		+	end
		+
		+	materialDefinition lotSkirtReflectionSkybox
		+	setDefinition SkyboxCompositionPassMaterial
		+	addParam skyboxCubeTexture $skyboxCubeMap
		+	end
		+
		+	materialDefinition lotPlacementArrow
		+	setDefinition ImposterArrowMaterial
		+	addParam texture lot-placement-arrow
		+	end
		+
		+	# Material used in highlighting the terrain to depict a house for which no imposter exists yet.
		+	materialDefinition DefaultResidentialLotImposterMaterial
		+	setDefinition NHoodTerrainHighlightMaterial
		+	addParam highlightTexture "lothighlight-residential"
		+	addParam highlightAlpha 0.5
		+	end
		+
		+	materialDefinition DefaultCommunityLotImposterMaterial
		+	setDefinition NHoodTerrainHighlightMaterial
		+	addParam highlightTexture "lothighlight-community"
		+	addParam highlightAlpha 0.5
		+	end
		+
		+
		+	# Material used in creating a terrain thumbnail for a lot for which no imposter exists yet.
		+	materialDefinition DefaultLotThumbnailMaterial
		+	setDefinition StandardMaterial
		+	addParam stdMatBaseTextureEnabled "true"
		+	addParam stdMatBaseTextureName "lotselection-done"
		+	addParam stdMatLightingEnabled true
		+	addParam stdMatDiffCoef (1, 1, 1)
		+	end
		+
		+	materialDefinition bridge_sides
		+	#  setDefinition StandardMaterial
		+	setDefinition PartiallyUnderWaterMaterial
		+	addParam stdMatAlphaBlendMode none
		+	addParam stdMatBaseTextureEnabled true
		+	addParam stdMatBaseTextureName bridge-sides
		+	addParam stdMatDiffCoef (0.8, 0.8, 0.8)
		+	addParam stdMatIsPartlyUnderwater true
		+	end
		+
		+	materialDefinition cliff_boulder_material
		+	#  setDefinition StandardMaterial
		+	setDefinition PartiallyUnderWaterMaterial
		+	addParam stdMatAlphaBlendMode none
		+	addParam stdMatBaseTextureEnabled true
		+	addParam stdMatBaseTextureName nh-test-cliff
		+	addParam stdMatDiffCoef (0.8, 0.8, 0.8)
		+	addParam stdMatIsPartlyUnderwater true
		+	end
		+
		+	materialDefinition plesiosaur_skin_material
		+	#  setDefinition StandardMaterial
		+	setDefinition PartiallyUnderWaterMaterial
		+	addParam stdMatAlphaBlendMode none
		+	addParam stdMatBaseTextureEnabled true
		+	addParam stdMatBaseTextureName plesiosaur-skin
		+	addParam stdMatDiffCoef (0.8, 0.8, 0.8)
		+	addParam stdMatIsPartlyUnderwater true
		+
		+	# these are mvoing objects, need to be at or above layer 0
		+	addParam nhoodCanvasLayer -4
		+
		+	end
		+
		+	materialDefinition neighborhood_bouyside_material
		+	#  setDefinition StandardMaterial
		+	setDefinition PartiallyUnderWaterMaterial
		+	addParam stdMatAlphaBlendMode none
		+	addParam stdMatBaseTextureEnabled true
		+	addParam stdMatBaseTextureName neighborhood_bouyside
		+	addParam stdMatDiffCoef (0.8, 0.8, 0.8)
		+	addParam stdMatIsPartlyUnderwater true
		+
		+	# these are mvoing objects, need to be at or above layer 0
		+	addParam nhoodCanvasLayer -4
		+	end
		+
		+
		+	materialDefinition RelationshipArchGreen
		+	setDefinition StandardMaterial
		+	addParam  stdMatSpecPower 20
		+	addParam  stdMatDiffCoef (0.3, 1, 0.3)
		+	addParam  stdMatSpecCoef (1, 1, 1)
		+	addParam  stdMatAlphaMultiplier 0.6
		+	addParam  stdMatAlphaBlendMode blend
		+	end
		+
		+	materialDefinition housePlacementOKHighlight
		+	setDefinition NHoodTerrainHighlightMaterial
		+	addParam highlightTexture "lotselection-good"
		+	addParam highlightAlpha 0.15
		+	end
		+
		+	materialDefinition housePlacementNotOKHighlight
		+	setDefinition NHoodTerrainHighlightMaterial
		+	addParam highlightTexture "lotselection-bad"
		+	addParam highlightAlpha 0.15
		+	end
		+
		+	materialDefinition roadIndicatorOK
		+	setDefinition NHoodTerrainHighlightMaterial
		+	addParam highlightTexture "lothighlight-roadghost-good"
		+	addParam highlightAlpha 0.75
		+	end
		+
		+	materialDefinition roadIndicatorNotOK
		+	setDefinition NHoodTerrainHighlightMaterial
		+	addParam highlightTexture "lothighlight-roadghost-bad"
		+	addParam highlightAlpha 0.75
		+	end
		+
		+	materialDefinition DefaultLotHighlight
		+	setDefinition NHoodTerrainHighlightMaterial
		+	addParam highlightTexture "lotselection-good"
		+	addParam highlightAlpha 0.25
		+	end
		+
		+	materialDefinition ResidentialLotHighlight
		+	setDefinition NHoodTerrainHighlightMaterial
		+	addParam highlightTexture "lothighlight-residential"
		+	addParam highlightAlpha 0.40
		+	end
		+
		+	materialDefinition CommunityLotHighlight
		+	setDefinition NHoodTerrainHighlightMaterial
		+	addParam highlightTexture "lothighlight-community"
		+	addParam highlightAlpha 0.40
		+	end
		+
		+	materialDefinition DormLotHighlight
		+	setDefinition NHoodTerrainHighlightMaterial
		+	addParam highlightTexture "lothighlight-dorm"
		+	addParam highlightAlpha 0.40
		+	end
		+
		+	materialDefinition NotOKLotHighlight
		+	setDefinition NHoodTerrainHighlightMaterial
		+	addParam highlightTexture "lotselection-bad"
		+	addParam highlightAlpha 0.40
		+	end
		+
		+	materialDefinition neighborhoodbuildingres1_windows_night
		+	setDefinition NeighborhoodBuildingMaterial
		+	addParam texMaterial neighborhoodbuildingres1_repeat-surface-night
		+	addParam showOnDay false
		+	end
		+
		+	materialDefinition neighborhoodbuildingres1_windows_day
		+	setDefinition NeighborhoodBuildingMaterial
		+	addParam texMaterial neighborhoodbuildingres1_repeat-surface
		+	addParam showOnDay true
		+	end
		+
		+	# this is commented out because the UI renders this without use of the material
		+	#materialDefinition ZoomConePyramid
		+	#  setDefinition ZoomConeMaterial
		+	#  addParam baseColor (1.0, 1.0, 1.0, 0.5)
		+	#end
		+
		+
		+	#######################################
		+
		+	define LotSkirtPSWater()
		+
		+	shader -layer ($nhoodWaterLayer+1)
		+	###    shader -layer ($poolWaterLayer+1)
		+
		+	validateRenderShaderContext -vertexFormat position 0 required
		+	pass -clipAlways -modifiedEachFrameHint
		+	#fillmode wireframe
		+	alphaBlend srcFactor(srcAlpha) add dstFactor(invSrcAlpha)
		+	seti textureLights (numLightsOfType(environmentCube))
		+	depthTest true -enableDepthWrite false
		+
		+	shaderProgram -target vertexProgram -method compile -version 1_1
		+
		+	bindConstants 0 -bindingID geomToClip -constantCount 4
		+	bindConstants 4 -bindingID geomToCamera -constantCount 3
		+
		+	bindConstants 7 -bindingID frameInfo
		+
		+	bindConstants 11 -bindingID immediateData -data ($wmXRepeat, 0, $wmXWaveHeight, $wmXSpeed)
		+	bindConstants 12 -bindingID immediateData -data (0, $wmYRepeat, $wmYWaveHeight, $wmYSpeed)
		+
		+	# pre-evaluate these
		+	setf xscale (-$wmXRepeat * $wmXWaveHeight)
		+	setf yscale (-$wmYRepeat * $wmYWaveHeight)
		+	bindConstants 13 -bindingID immediateData -data ($xscale,$yscale, 1,0)
		+	bindConstants 14 -bindingID allStandardLightData -constantCount 4 -constantType float
		+	bindConstants 18 -bindingID cameraToGlobal -constantCount 3
		+	bindConstants 21 -bindingID cameraToGeom -constantCount 3
		+
		+	if (tsIsDay)
		+	bindConstants 25 -bindingID immediateData -data (0.75, 0.75, 0.75, 1)
		+	bindConstants 28 -bindingID immediateData -data (-0.3, 0.1, 0.1, 0.0)
		+	else
		+	bindConstants 25 -bindingID immediateData -data (0.2, 0.2, 0.2, 1)
		+	bindConstants 28 -bindingID immediateData -data (-0.3, -0.2, -0.1, 0.0)
		+	endif
		+
		+	shaderSource
		+
		+	float4 frameInfo : register(c7);
		+	float4 waveDataX : register(c11);
		+	float4 waveDataY : register(c12);
		+	float4 waveDataHelper : register(c13);
		+	float4x4 clipSpaceMatrix : register(c0);
		+	float4x3 cameraSpaceMatrix : register(c4);
		+	float4x3 cameraToGlobalMatrix : register(c18);
		+	float4x3 cameraToGeomMatrix : register(c21);
		+
		+	float4 nightColor: register(c25);
		+	float4 waterTint: register(c28);
		+
		+	float4 lightDirection : register(c14);
		+	float4 lightColor : register(c15);
		+	float4 lightSpecular : register(c16);
		+
		+	const static float4 refractionWeights={1,1,2,0};
		+	### MODDED5 # in-lot lotskirt water: Just alter the highlit RGB values (in bold style)
		+	const static float4 layerBlue={1.8, 0.25, 0.1, 1.0};
		+	1.0};
		+
		+	struct InputVertex
		+	{
		+	float3 position: POSITION0;
		+	float3 normal : NORMAL0;
		+	float2 alpha  : TEXCOORD1;
		+	};
		+
		+	struct OutputVertex
		+	{
		+	float4 clipPosition : POSITION;
		+	float4 sPos        : TEXCOORD0;
		+	float2 Wave0        : TEXCOORD1;
		+	float2 Wave1        : TEXCOORD2;
		+	float2 Wave2        : TEXCOORD3;
		+	float2 Wave3        : TEXCOORD4;
		+	float3 Eye          : TEXCOORD5;
		+	float4 specular    : COLOR0;
		+	float4 colorTint    : COLOR1;
		+	};
		+
		+
		+
		+	OutputVertex VertexMain( InputVertex inputVertex)
		+	{
		+	// Do Y-direction waves
		+	// r0 = (x, y, z, t)
−	#bindConstants 11 -bindingID immediateData -data $texgenData	+	OutputVertex outputVertex;
−	shaderFragment TransformPositionRigidNoLighting2_x	+	float4 posAndTime;
−	shaderFragment NoTextureMagic2_x	+	posAndTime.xyz = inputVertex.position;
		+	posAndTime.w = frameInfo.w;
−	end	+	float temp = dot(posAndTime, waveDataX);
−		+	float z = sin(temp) * waveDataX.z + inputVertex.position.z;
−	alphaBlend srcFactor(srcAlpha) add dstFactor(invSrcAlpha)	+	temp = dot(posAndTime, waveDataY);
−	fillmode $stdMatFillMode	+	posAndTime.z =  z + sin(temp) * waveDataY.z ;//-0.1f; //The -.01 is a fudge factor to remove some of the edge creep associated with moving the height of the wave. -tom
−	colorScalar (1, 1, 1, $highlightAlpha)	+	posAndTime.w = 1.0f;
		+
		+	outputVertex.clipPosition = mul( posAndTime, clipSpaceMatrix);
		+	outputVertex.sPos = float4(0.5f*(outputVertex.clipPosition.ww - outputVertex.clipPosition.xy), outputVertex.clipPosition.ww);
		+
		+	float3 waveNormal = normalize(inputVertex.normal + float3(cos(temp)*waveDataHelper.xy, 0));
		+	float3 cameraSpaceNormal = normalize(mul(waveNormal, cameraSpaceMatrix));
		+	float3 cameraSpacePosition = mul( posAndTime, cameraSpaceMatrix);
		+	float3 viewVector = normalize(-cameraSpacePosition);
		+
		+	float3 halfVector = normalize(viewVector + lightDirection);
		+	outputVertex.specular = lightSpecular*pow(dot(cameraSpaceNormal, halfVector), 50)*nightColor*lightColor*0.5;
		+
		+
		+	float2 fTranslation=float2(fmod(frameInfo.w, 100)*0.005, fmod(frameInfo.w, 100)*0.005);
		+	float2 vTexCoords = posAndTime.xy*0.05;
		+
		+	// Output bump layers texture coordinates
		+	float fSinTranslation=sin(fTranslation*100)*0.005;
		+	float2 vTranslation0=fTranslation+fSinTranslation;
		+	float2 vTranslation1=fTranslation-fSinTranslation;
		+	float2 vTranslation2=fTranslation;
		+
		+	// Scale texture coordinates to get mix of low/high frequency details
		+	outputVertex.Wave0.xy = vTexCoords.xy*0.01+fTranslation*2.0;
		+	outputVertex.Wave1.xy = vTexCoords.xy+fTranslation*2.5;
		+	outputVertex.Wave2.xy = vTexCoords.xy+fTranslation*-2.3;
		+	outputVertex.Wave3.xy = vTexCoords.xy*0.1+fTranslation*1.5;
		+
		+	// compute binormal
		+	float3 binormal = normalize(cross(waveNormal, float3(1.0f, 0.0f, 0.0f)));
		+	float3 tangent = normalize(cross(binormal, waveNormal));
		+
		+	// tangent space matrix
		+	float3x3 objToTangentSpace = float3x3(tangent, binormal, waveNormal);
		+
		+	float3 viewVectorInObjSpace = mul(viewVector, (float3x3)cameraToGeomMatrix);
		+
		+	outputVertex.Eye.xyz = mul(objToTangentSpace, viewVectorInObjSpace);
		+	outputVertex.colorTint = waterTint;
		+	outputVertex.colorTint.a = inputVertex.alpha.xxxx;
		+	// outputVertex.color = waterTint.xxxx;
		+
		+	return(outputVertex);
		+	}
		+
		+	endShaderSource
		+	end # shaderProgram
		+
		+	shaderProgram -target pixelProgram -method compile -version 2_0
		+	shaderSource
		+	sampler reflect;
		+	sampler bump;
		+	struct cInputPixel
		+	{
		+	float4 sPos        : TEXCOORD0;
		+	float2 Wave0        : TEXCOORD1;
		+	float2 Wave1        : TEXCOORD2;
		+	float2 Wave2        : TEXCOORD3;
		+	float2 Wave3        : TEXCOORD4;
		+	float3 Eye          : TEXCOORD5;
		+	float4 specular    : COLOR0;
		+	float4 colorTint    : COLOR1;
		+	};
		+
		+	float Fresnel(float NdotL, float fresnelBias, float fresnelPow, float facing)
		+	{
		+	return max(fresnelBias + (1.0f - fresnelBias)*pow(facing, fresnelPow), 0.0);
		+	}
		+
		+	float4 PixelMain(cInputPixel pi) : COLOR
		+	{
		+	float3 vEye = normalize(pi.Eye);
−	stage	+	// Get bump layers
−	texture $highlightTexture	+	float3 vBumpTexA = tex2D(bump, pi.Wave0.xy).xyz;
		+	float3 vBumpTexB = tex2D(bump, pi.Wave1.xy).xyz;
		+	float3 vBumpTexC = tex2D(bump, pi.Wave2.xy).xyz;
		+	float3 vBumpTexD = tex2D(bump, pi.Wave3.xy).xyz;
		+
		+	// Average bump layers
		+	float3 vBumpTex=normalize(2.0 * (vBumpTexA.xyz + vBumpTexB.xyz + vBumpTexC.xyz + vBumpTexD.xyz)-4.0);
		+
		+	// Apply individual bump scale for refraction and reflection
		+	float3 vReflBump = vBumpTex.xyz ;
		+	float4 vReflection = tex2Dproj(reflect, pi.sPos + float4(vReflBump.xy, 0.0f, 0.0f));//*0.001 + float4(2.0*vBumpTexD-1.0f.xxx, 1);
		+
		+	// Compute Fresnel term
		+	float NdotL = max(dot(vEye, vReflBump), 0);
		+	float facing = (1.0 - NdotL);
		+	float fresnel = Fresnel(NdotL, 0.1, 0.5, facing);
		+
		+	vReflection.a = fresnel * 0.5;
		+
		+	return saturate(vReflection + pi.colorTint);
		+	}
		+	endShaderSource
		+	end
		+
		+	sampler reflect
		+	texture "OceanReflection"
		+	textureAddressing clamp clamp
		+	end
		+
		+	sampler bump
		+	texture "poolShape-body-bump"
	textureAddressing tile tile		textureAddressing tile tile
		+	end
		+
		+	end # end pass
		+	end # end shader
		+	enddef # shader() LotSkirtPSWater()
−	textureBlend select(texture) multiply(texture colorScalar)	+	#######################################
−	end	+
−	end	+	define LotSkirtPSWaterHLSL()
−		+	### conmbo of PS2 1st PS1 shader progrmme and old HLSL stage
−	enddef	+
		+	shader -layer ($nhoodWaterLayer+1)
		+	###    shader -layer ($poolWaterLayer+1)
		+
		+	validateRenderShaderContext -vertexFormat position 0 required
		+	pass -clipAlways -modifiedEachFrameHint
		+	#fillmode wireframe
		+	alphaBlend srcFactor(srcAlpha) add dstFactor(invSrcAlpha)
		+	seti textureLights (numLightsOfType(environmentCube))
		+	depthTest true -enableDepthWrite false
		+
		+	shaderProgram -target vertexProgram -method compile -version 1_1
		+
		+	bindConstants 0 -bindingID geomToClip -constantCount 4
		+	bindConstants 4 -bindingID geomToCamera -constantCount 3
		+
		+	bindConstants 7 -bindingID frameInfo
		+
		+	bindConstants 11 -bindingID immediateData -data ($wmXRepeat, 0, $wmXWaveHeight, $wmXSpeed)
		+	bindConstants 12 -bindingID immediateData -data (0, $wmYRepeat, $wmYWaveHeight, $wmYSpeed)
		+
		+	# pre-evaluate these
		+	setf xscale (-$wmXRepeat * $wmXWaveHeight)
		+	setf yscale (-$wmYRepeat * $wmYWaveHeight)
		+	bindConstants 13 -bindingID immediateData -data ($xscale,$yscale, 1,0)
		+	bindConstants 14 -bindingID allStandardLightData -constantCount 4 -constantType float
		+	bindConstants 18 -bindingID cameraToGlobal -constantCount 3
		+	bindConstants 21 -bindingID cameraToGeom -constantCount 3
		+
		+	if (tsIsDay)
		+	bindConstants 25 -bindingID immediateData -data (0.75, 0.75, 0.75, 1)
		+	bindConstants 28 -bindingID immediateData -data (-0.3, 0.1, 0.1, 0.0)
		+	else
		+	bindConstants 25 -bindingID immediateData -data (0.2, 0.2, 0.2, 1)
		+	bindConstants 28 -bindingID immediateData -data (-0.3, -0.2, -0.1, 0.0)
		+	endif
		+
		+	shaderSource
		+
		+	float4 frameInfo : register(c7);
		+	float4 waveDataX : register(c11);
		+	float4 waveDataY : register(c12);
		+	float4 waveDataHelper : register(c13);
		+	float4x4 clipSpaceMatrix : register(c0);
		+	float4x3 cameraSpaceMatrix : register(c4);
		+	float4x3 cameraToGlobalMatrix : register(c18);
		+	float4x3 cameraToGeomMatrix : register(c21);
		+
		+	float4 nightColor: register(c25);
		+	float4 waterTint: register(c28);
		+
		+	float4 lightDirection : register(c14);
		+	float4 lightColor : register(c15);
		+	float4 lightSpecular : register(c16);
		+
		+	const static float4 refractionWeights={1,1,2,0};
		+	### MODDED6  # in-lot lotskirt water: Just alter the highlit RGB values (in bold style)
		+	const static float4 layerBlue={1.8, 0.25, 0.1, 1.0};
		+	1.0};
		+
		+	struct InputVertex
		+	{
		+	float3 position: POSITION0;
		+	float3 normal : NORMAL0;
		+	float2 alpha  : TEXCOORD1;
		+	};
		+
		+	struct OutputVertex
		+	{
		+	float4 clipPosition : POSITION;
		+	float4 sPos        : TEXCOORD0;
		+	float2 Wave0        : TEXCOORD1;
		+	float2 Wave1        : TEXCOORD2;
		+	float2 Wave2        : TEXCOORD3;
		+	float2 Wave3        : TEXCOORD4;
		+	float3 Eye          : TEXCOORD5;
		+	float4 specular    : COLOR0;
		+	float4 colorTint    : COLOR1;
		+	};
		+
		+
		+
		+	OutputVertex VertexMain( InputVertex inputVertex)
		+	{
		+	// Do Y-direction waves
		+	// r0 = (x, y, z, t)
		+
		+	OutputVertex outputVertex;
		+
		+	float4 posAndTime;
		+	posAndTime.xyz = inputVertex.position;
		+	posAndTime.w = frameInfo.w;
		+
		+	float temp = dot(posAndTime, waveDataX);
		+	float z = sin(temp) * waveDataX.z + inputVertex.position.z;
		+	temp = dot(posAndTime, waveDataY);
		+	posAndTime.z =  z + sin(temp) * waveDataY.z ;//-0.1f; //The -.01 is a fudge factor to remove some of the edge creep associated with moving the height of the wave. -tom
		+	posAndTime.w = 1.0f;
		+
		+	outputVertex.clipPosition = mul( posAndTime, clipSpaceMatrix);
		+	outputVertex.sPos = float4(0.5f*(outputVertex.clipPosition.ww - outputVertex.clipPosition.xy), outputVertex.clipPosition.ww);
		+
		+	float3 waveNormal = normalize(inputVertex.normal + float3(cos(temp)*waveDataHelper.xy, 0));
		+	float3 cameraSpaceNormal = normalize(mul(waveNormal, cameraSpaceMatrix));
		+	float3 cameraSpacePosition = mul( posAndTime, cameraSpaceMatrix);
		+	float3 viewVector = normalize(-cameraSpacePosition);
		+
		+	float3 halfVector = normalize(viewVector + lightDirection);
		+	outputVertex.specular = lightSpecular*pow(dot(cameraSpaceNormal, halfVector), 50)*nightColor*lightColor*0.5;
		+
		+
		+	float2 fTranslation=float2(fmod(frameInfo.w, 100)*0.005, fmod(frameInfo.w, 100)*0.005);
		+	float2 vTexCoords = posAndTime.xy*0.05;
		+
		+	// Output bump layers texture coordinates
		+	float fSinTranslation=sin(fTranslation*100)*0.005;
		+	float2 vTranslation0=fTranslation+fSinTranslation;
		+	float2 vTranslation1=fTranslation-fSinTranslation;
		+	float2 vTranslation2=fTranslation;
		+
		+	// Scale texture coordinates to get mix of low/high frequency details
		+	outputVertex.Wave0.xy = vTexCoords.xy*0.01+fTranslation*2.0;
		+	outputVertex.Wave1.xy = vTexCoords.xy+fTranslation*2.5;
		+	outputVertex.Wave2.xy = vTexCoords.xy+fTranslation*-2.3;
		+	outputVertex.Wave3.xy = vTexCoords.xy*0.1+fTranslation*1.5;
		+
		+	// compute binormal
		+	float3 binormal = normalize(cross(waveNormal, float3(1.0f, 0.0f, 0.0f)));
		+	float3 tangent = normalize(cross(binormal, waveNormal));
		+
		+	// tangent space matrix
		+	float3x3 objToTangentSpace = float3x3(tangent, binormal, waveNormal);
		+
		+	float3 viewVectorInObjSpace = mul(viewVector, (float3x3)cameraToGeomMatrix);
		+
		+	outputVertex.Eye.xyz = mul(objToTangentSpace, viewVectorInObjSpace);
		+	outputVertex.colorTint = waterTint;
		+	outputVertex.colorTint.a = inputVertex.alpha.xxxx;
		+	// outputVertex.color = waterTint.xxxx;
		+
		+	return(outputVertex);
		+	}
		+
		+	endShaderSource
		+	end # shaderProgram
		+
		+	stage
		+	texture $wmReflectionTexture
		+	textureAddressing clamp clamp clamp
		+	textureBlend multiply(texture diffuse) select(diffuse)
		+	end
		+
		+
		+	addSpecular true
		+
		+	end # end pass
		+	end # end shader
		+	enddef # shader() LotSkirtPSWaterHLSL()
		+
		+	#######################################
		+
		+	define LotSkirtWaterR1()
		+	shader -layer $nhoodWaterLayer
		+	validateRenderShaderContext -vertexFormat  position      0 required
		+	validateRenderShaderContext -vertexFormat  normal        0 required
		+	validateRenderShaderContext -vertexFormat  texcoord      0 required
		+	viewerRenderTypePred viewerRenderType
		+
		+	pass -fixedFunction
		+
		+	alphaBlend srcFactor(srcAlpha) add dstFactor(invSrcAlpha)
		+	### MODDED2a  # in-lot lotskirt water fallback reflection: Just a check point
		+	colorScalar $lotSkirtWaterReflColour $lotSkirtWaterReflStrength
		+	### colorScalar $lotSkirtWaterReflColour 0.50
		+	depthTest true -enableDepthWrite false
		+
		+	#tring to remove warble I think it may be caused by depth bias.
		+	#ffDepthOffset -2
		+
		+	stage
		+	ffTextureCoordsSource fromPosition
		+	ffTextureMatrix -cameraToClip -scalev ((-0.5 * $ratioW), (-0.5 * $ratioH)) -trans (0.5, 0.5)
		+	textureAddressing clamp clamp
		+	texture "ScreenReflection"
		+
		+	textureBlend multiply(texture colorScalar) multiply(diffuse colorScalar)
		+	end    # stage
		+
		+	end # pass
		+	end    # shader
		+	enddef # shader() LotSkirtWaterR1()
		+
		+	#######################################
		+
		+	define LotSkirtWaterR2()
		+	shader -layer ($nhoodWaterLayer)
		+	viewerRenderTypePred viewerRenderType
		+
		+	###        create DetermineHardwareSupport()
		+
		+	pass -fixedFunction
		+	# For now, we are diabling the lighting since we simply want to use the vertex colors.
		+	create LightingStatesNoStdLightsParam(false true)
		+	alphaBlend srcFactor(srcAlpha) add dstFactor(invSrcAlpha)
		+
		+	### MODDED1c  # in-lot lotskirt water fallback reflection: Just a check point
		+	colorScalar $nAbahoodEau
		+	###            colorScalar (.4, .6, .9, .4)
		+
		+	#tring to remove warble I think it may be caused by depth bias.
		+	#ffDepthOffset -2
		+
		+	fillmode $stdMatFillMode
		+
		+	stage
		+	#texture reflectionoutdoorwater-envcube
		+	if ($cubeMapSupport)
		+	texture $skyboxCubeMap
		+	textureMIPFilterHint disabled
		+
		+	ffTextureCoordsSource fromReflectionVector
		+	ffTextureMatrix -orientCameraToGlobal
		+
		+	textureAddressing clamp clamp clamp
		+	textureBlend multiply(texture colorScalar) select(colorScalar)
		+	else
		+	textureBlend select(colorScalar) multiply(diffuse colorScalar)
		+	endif
		+	end  # stage
		+
		+	end  # pass()
		+	end # shader()
		+	enddef # shader() LotSkirtWaterR2()
		+
		+	#######################################
		+
		+
		+	define LotSkirtWater()
		+
		+	material
		+	create DetermineHardwareSupport()
		+
		+	if ($useHWShader2Path)
		+	create LotSkirtPSWater()
		+	else
		+	create LotSkirtWaterR1()
		+	endif # PS2
		+
		+	### basic Fallback
		+	if ($useSWVertexShaderPath or $useFixedFunctionPath)
		+	create LotSkirtWaterR2()
		+	else
		+	create LotSkirtPSWaterHLSL()
		+	endif # SWV or FF
		+
		+	end # end material
		+
		+	enddef # material() LotSkirtWater()
		+
		+
		+	#######################################
		+
		+	define LotSkirtWaterNoReflection()
		+
		+	set useReflection 0 # default material parameter value
		+
		+	material
		+	# fallback: no reflection.
		+	create DetermineHardwareSupport()
		+
		+	if ($useSWVertexShaderPath or $useFixedFunctionPath)
		+	create LotSkirtWaterR2()
		+	else
		+	create LotSkirtPSWaterHLSL()
		+	endif # SWV or FF
		+
		+	### basic Fallback
		+	create LotSkirtWaterR2()
		+
		+	end    # material
		+	enddef # material() LotSkirtWaterNoReflection()
		+
		+
		+	#######################################
		+
		+
		+	materialDefinition lotSkirtSea
		+	setDefinition LotSkirtWater
		+	addParam stdMatLightingEnabled false
		+	addParam stdMatLayer 0
		+	addParam stdMatDiffCoef (1.8, 0.25, 0.1)
		+
		+	addParam wmRefractionEnabled true
		+
		+
		+	addParam wmReflectionTexture swimming_pool-envcube
		+	addParam wmTransparency 0.4
		+	addParam wmXSpeed        3
		+	addParam wmXRepeat      5
		+	addParam wmXWaveHeight  0.001
		+	addParam wmYSpeed        3
		+	addParam wmYRepeat      6
		+	addParam wmYWaveHeight  0.001
		+	end
		+
		+	materialDefinition lotSkirtSeaNoReflection
		+	setDefinition LotSkirtWaterNoReflection
		+
		+	addParam stdMatLightingEnabled false
		+	addParam stdMatLayer 0
		+	addParam stdMatDiffCoef (1.8, 0.25, 0.1)
		+
		+	addParam wmRefractionEnabled true
		+
		+
		+	addParam wmReflectionTexture swimming_pool-envcube
		+	addParam wmTransparency 0.4
		+	addParam wmXSpeed        3
		+	addParam wmXRepeat      5
		+	addParam wmXWaveHeight  0.001
		+	addParam wmYSpeed        3
		+	addParam wmYRepeat      6
		+	addParam wmYWaveHeight  0.001
		+
		+	end

---

Revision as of 10:55, 24 March 2008

1. EP5-SS & EP6-BV & EP7 FT
2. 0xCD7FE87A
3. 0x1C0532FA
4. 0x26B3DB7C
5. 0xFF3A262A
6. neighborhood

2. Shaders for neighborhood (Moi's neighbourhoodRouge-EP5-SS & EP6-BV & EP7 FT)
4. For study or modding, edit --> find or search for "### MODDED"
5. "Bolded" terms or values are for emphasis; "Italic" terms or values are customised/customized terms or values; "Bolded & Italic" terms or values are emphasised/emphasized customised/customized terms or values; "Underlined" is show out the altered.

1. layers
2. normal shadows are layer 2 (after opaques), tree shadows are moved to -2 to make them
3. render to the first buffer. Tree shadows (-2) do not show up on fields (7).

seti nhoodWaterLayer 1 seti nhoodCanvasLayer -8 seti nhoodTreeShadowLayer -2

setf neighborhoodMaterialScaleU 8.0 # defaults for neighborhood materials without these defined setf neighborhoodMaterialScaleV 8.0 # defaults for neighborhood materials without these defined

setf nhoodWaterMap1Scale 7.0 setf nhoodWaterMap1Speed 0.5 setf nhoodWaterMap2Scale 5.0 setf nhoodWaterMap2Speed 0.3

setv2 baseTexOffset (0.5, 0.5) setv3 nhoodDiffCoef (0.75, 0.93, 0.75)

setf nhoodPaintTextureScale 13 #Repeat distance of neighborhood textures in tiles.

                                    #NOTE: There is a related parameter called "TextureVariantGridSize" in 
                                    #NeighborhoodTerrain.ini. You would normally (though not necessarily) want it to be
                                    #the same as this number.

setf waterEdgeTextureScale 250.0 #Repeat distance in meters setf terrainEdgeTextureScale 100.0 #Repeat distance in meters

1. 1. 1. MODDED1 # coloration for water fallbacks without mirror reflection # Just alter the corresponding RGB(Alpha) values
2. Neighbourhood Water Colouration

setv4 nAbahoodWater (0.75, 0.6, 0.45, 0.667)

1. neighbourhood water fallback coloration when without ScreenReflection

setv4 nAbahoodEau (0.75, 0.6, 0.45, 0.667)

1. lotskirt water fallback coloration when without ScreenReflection

1. 1. 1. 0.15, 0.045, 0.03
      2. 0.3, 0.09, 0.06
      3. 0.8,0.25,0.1

1. 1. 1. MODDED2 # coloration for waters with mirror reflection # Just alter the corresponding RGB(Alpha = reflectivity or relfective strength) values
2. Reflective water

setc nhoodWaterReflColour (0.75, 0.15, 0.05)

1. neighbourhood water coloration RGB when by default with ScreenReflection

setc lotSkirtWaterReflColour (0.75, 0.15, 0.05)

1. in-lot lotskirt water coloration RGB when by default with ScreenReflection

setf nhoodWaterReflStrength 0.75

1. neighbourhood water reflectivity alpha when by default with ScreenReflection

setf lotSkirtWaterReflStrength 0.75

1. in-lot lotskirt water reflectivity alpha when by default with ScreenReflection

setf nhoodWaterReflOffset 0.0020

1. Standard water

setf nhoodWaterbumpMapScale 8.0

1. 1. 1. MODDED3 # coloration for neighbourhood water transparency

setf nhoodWaterAlpha 0.333

1. neighbourhood water geneal transparency

setb isDay true setb isTerrainConcrete false

1. water clipping plane

setf waterHeight 312.45

1. underwater gradient texture

set waterGradientTexture neighborhood-underwater-gradient set waterGradientTextureAdditive neighborhood-underwater-gradient-with-black

1. depth at which the gradient starts to take effect

setf waterGradientZoneStart 0

1. how far down the gradient goes from that point.

setf waterGradientZoneSize 40

set skyboxCubeMap neighborhood-sky2-envcube

1. bump mapping

setv3 nhoodSunDir (-0.5, 1, 0.5) # default -- should be set by code from the lighting.txt value

1. overall kind-of brightness booster for bump map.

setf bumpMapBoost 1.5

set useReflection 0 # default material parameter value

seti poolWaterLayer 5

setf wmTransparency 0.5

1. attrdescription Water transparency

setf wmXSpeed 3 # min:0 max:100

1. attrdescription Lookup texture for diffuse intensity.

setf wmXRepeat 1 # min:0 max:100

1. attrdescription Lookup texture for diffuse intensity.

setf wmXWaveHeight 0.1 # min:0 max:100

1. attrdescription Lookup texture for diffuse intensity.

setf wmYSpeed 5 # min:0 max:100

1. attrdescription Lookup texture for diffuse intensity.

setf wmYRepeat 1.8 # min:0 max:100

1. attrdescription Lookup texture for diffuse intensity.

setf wmYWaveHeight 0.2 # min:0 max:100

1. attrdescription Lookup texture for diffuse intensity.

set wmReflectionTexture reflectionoutdoorwater-envcube

1. attrdescription Environment cube map texture for reflection

setb wmRefractionEnabled false

1. attrdescription Whether refraction is enabled

set wmRefractionTexture swimming_pool-envcube

1. attrdescription Environment cube map texture for refraction

1. ==============================================================================
2. derived bump map quantities

define BiasedNormal(n bn)

  setf  nLen (sqrt(sqr($&{n}.x) + sqr($&{n}.y) + sqr($&{n}.z)))
  setv3 &{bn} ((0.5,0.5,0.5) * (($&{n} / $nLen.xxx) + (1,1,1)))

enddef

create BiasedNormal(nhoodSunDir nhoodSunDirBiased) setv3 nhoodSunDirBiased ($nhoodSunDirBiased * $bumpMapBoost.xxx)

set terrainType "unset"

1. defaults off, can be turned on at startup.

setb simpleTerrain false setb isImposter false

include neighborhoodSWVS.matShad

1. ==============================================================================

define NeighborhoodCanvas()

1. this material does nothing but prep the z-buffer, and render black.

material

     if ($simpleTerrain)
        shader
        end
     endif

     shader -layer (($nhoodCanvasLayer) * 8)
        
        validateRenderShaderContext -vertexFormat  position      0 required
        validateRenderShaderContext -vertexFormat  normal        0 required
        
        if (not $isImposter)         
           validateRenderShaderContext -vertexFormat  texcoord      0 required
        endif
        viewerRenderTypePred viewerRenderType
           
        create DetermineHardwareSupport()
        
        if (strcmp("Concrete", "${terrainType}") = 0)
           setb isTerrainConcrete true
        endif

        if (not $isUnderWater or viewerRenderType != $kRenderTypeReflection)
           if ($useSWVertexShaderPath)
              create NeighborhoodTerrainPrepWorkSWVS()
           else
              pass -fixedFunction
                 create LightingStatesNoStdLights()
                 
                 cullmode none # so that reflections don't "creep under" edge of terrain
                 colorScalar (0.0, 0.0, 0.0, 1.0)
                                   
                 if ($isImposter and $isTerrainConcrete)
                    ffDepthOffset -1
                 endif

                 stage
                    if (not $isImposter)
                       ffTextureCoordsSource fromPosition
                    endif
                    textureBlend select(colorScalar) select(outRegister)
                 end 
              end
           endif
           
        endif
        
     end
  end

enddef

1. ==============================================================================
2. Used for those triangles in the canvas which are partially under water.

define NeighborhoodCanvasStraddle() material

     if ($simpleTerrain)
        shader
        end
     endif

1. material for reflection camera

     shader -layer (($nhoodCanvasLayer) * 8)
     

validateRenderShaderContext -vertexFormat position 0 required validateRenderShaderContext -vertexFormat normal 0 required validateRenderShaderContext -vertexFormat texcoord 0 required viewerRenderTypePred $kRenderTypeReflection

#Render the portion that is above water only

create DetermineHardwareSupport()

if ($useSWVertexShaderPath)

create NeighborhoodWaterlineStraddleSWVS()

else

pass -fixedFunction create LightingStatesNoStdLights() alphaBlend srcFactor(one) add dstFactor(zero) cullmode none # so that reflections don't "creep under" edge of terrain colorScalar (0.0, 0.0, 0.0, 1.0)

alphaTest true 128 alphaTestFunction acceptIfGreater

stage # above water -- clip by using depth-based 0/1 texture. texture blackWhite textureAddressing clamp clamp textureFilterHint point point textureMIPFilterHint disabled

ffTextureMatrix -cameraToGlobal -order zzzw -trans ($waterHeight - 0.5, 0) -invert ffTextureCoordsSource fromPosition textureBlend select(colorScalar) select(texture) end end endif

end

     #material for standard camera   
     #shader -layer (-128)      

shader -layer (-128)

validateRenderShaderContext -vertexFormat position 0 required validateRenderShaderContext -vertexFormat normal 0 required validateRenderShaderContext -vertexFormat texcoord 0 required viewerRenderTypePred $kRenderTypeNormal

create DetermineHardwareSupport()

if ($useSWVertexShaderPath) create NeighborhoodWaterlineStraddleStandardCameraSWVS() else

#Render the portion that is above water only pass -fixedFunction create LightingStatesNoStdLights() alphaBlend srcFactor(one) add dstFactor(zero) cullmode none # so that reflections don't "creep under" edge of terrain colorScalar (0.0, 0.0, 0.0, 1.0)

stage textureBlend select(colorScalar) select(outRegister) end end endif

end

end enddef

1. ==============================================================================
2. Material for terrain geometry that is partially or completely under water.

define NeighborhoodWaterTerrain() material

     if ($simpleTerrain)
        shader
        end
     endif
     

shader -layer (($nhoodCanvasLayer + 2) * 8) validateRenderShaderContext -vertexFormat position 0 required validateRenderShaderContext -vertexFormat normal 0 required validateRenderShaderContext -vertexFormat texcoord 0 required viewerRenderTypePred viewerRenderType

create DetermineHardwareSupport()

if (viewerRenderType != $kRenderTypeReflection)

if ($useSWVertexShaderPath) create NeighborhoodUnderWaterTerrainSWVS()

else

pass -fixedFunction

create LightingStatesNoStdLights()

alphaBlend srcFactor(destColor) add dstFactor(zero) cullmode none # so that reflections don't "creep under" edge of terrain # apply depth-based gradient texture to terrain that is under water. stage texture $waterGradientTexture

if ($cubeMapSupport) textureAddressing tile clamp else textureAddressing clamp clamp endif

set d ($waterHeight - $waterGradientZoneStart) set s (-$waterGradientZoneSize) ffTextureMatrix -cameraToGlobal -order xzyw -scale $s -trans (0, $d) -invert ffTextureCoordsSource fromPosition textureBlend select(texture) select(outRegister) end end

endif

endif

end end enddef

1. ==============================================================================

define NeighborhoodTerrainPaintShader()

  shader -layer (($nhoodCanvasLayer + 1) * 8)
     validateRenderShaderContext -vertexFormat  position      0 required
     validateRenderShaderContext -vertexFormat  normal        0 required
           
        if (not $isImposter)
           validateRenderShaderContext -vertexFormat  texcoord      0 required
        endif

create DetermineHardwareSupport()

if (strcmp("Concrete", "${terrainType}") = 0)

           setb isTerrainConcrete true
        endif
  		

if ($useSWVertexShaderPath) create NeighborhoodMainTerrainShaderSWVS()

else

pass -fixedFunction

create LightingStatesNoStdLights() alphaBlend srcFactor(srcAlpha) add dstFactor(one) cullmode none # so that reflections don't "creep under" edge of terrain

if ($isImposter and $isTerrainConcrete)

                 ffDepthOffset -1
              endif
  		                     

colorScalar $nhoodSunDirBiased

depthTest true -enableDepthWrite false depthTestFunction acceptIfEqual

seti snowLevel (tsHasSnow)

if ($snowLevel = 1) set weatherSuffix "-LSNOW" elseif ($snowLevel = 2)

                 set weatherSuffix "-HSNOW"
              else
                 set weatherSuffix ""
              endif
              

stage texture $alphaMap textureAddressing clamp clamp

                 if ($isImposter)

ffTextureMatrix -cameraToGlobal -scalev ((0.1 * $alphaMapScaleU), (0.1 * $alphaMapScaleV)) ffTextureCoordsSource fromPosition else ffTextureMatrix -scalev ($alphaMapScaleU, $alphaMapScaleV) ffTextureCoordsSource 0 endif textureBlend select(outRegister) select(texture) end

stage texture "${paintTexture}${weatherSuffix}" textureAddressing tile tile if ($isImposter) ffTextureMatrix -cameraToGlobal -scalev ((10.0 * $nhoodPaintTextureScale), (10.0 * $nhoodPaintTextureScale)) -invert ffTextureCoordsSource fromPosition else ffTextureMatrix -scalev ($nhoodPaintTextureScale, $nhoodPaintTextureScale) -invert ffTextureCoordsSource 0 endif textureBlend select(texture outRegister) select(outRegister) end end

        endif		

end enddef

define NeighborhoodTerrainPaint()

  material
     
     if ($simpleTerrain)
        shader
        end
     endif
     
     create NeighborhoodTerrainPaintShader()
  end

enddef

1. ==============================================================================

set ratioH 1 # default material parameter value set ratioW 1 # default material parameter value set useReflection 1 # default material parameter value define NeighborhoodWater()

  material
     # never draw water in its reflection.  Already handled by code.				

     if ($simpleTerrain)
        shader -layer $nhoodWaterLayer
           pass -fixedFunction 

1. 1. 1. MODDED1a # Neighbourhood water: no-reflection simple point

colorScalar $nAbahoodWater

1. 1. 1. colorScalar (0.3, 0.4,0.8) 1.0

              stage 
                 textureBlend select(colorScalar) select(colorScalar)
              end
           end
        end
     endif

     # First option: reflection mapped water.
     if ($useReflection)

        shader -layer $nhoodWaterLayer
           validateRenderShaderContext -vertexFormat  position      0 required
           validateRenderShaderContext -vertexFormat  normal        0 required
           validateRenderShaderContext -vertexFormat  texcoord      0 required
           viewerRenderTypePred viewerRenderType

           ################################################################################
           # Three pass/2 texture rippled reflection -- does not run on GeF2 only 2 stages (for GeF4+)
           pass -fixedFunction -modifiedEachFrameHint
           
           
              alphaBlend srcFactor(srcAlpha) add dstFactor(invSrcAlpha)
              colorScalar $nhoodWaterReflColour $nhoodWaterReflStrength
              depthTest true -enableDepthWrite false
              
              stage
                 ffTextureCoordsSource fromPosition
                 ffTextureMatrix -cameraToClip -scalev ((-0.5 * $ratioW), (-0.5 * $ratioH)) -trans (0.5, 0.5)
                 textureAddressing clamp clamp
                 texture "ScreenReflection"
                 
                 textureBlend multiply(texture colorScalar) select(outRegister) tempRegister
              end 
              stage
                 ffTextureCoordsSource fromPosition
                 ffTextureMatrix -cameraToClip -scalev ((-0.5 * $ratioW), (-0.5 * $ratioH)) -trans (0.5 + $nhoodWaterReflOffset, 0.5 + $nhoodWaterReflOffset)
                 textureAddressing clamp clamp
                 
                 texture "ScreenReflection"
                 textureBlend multiply(texture colorScalar) select(outRegister)
              end             
              stage
                 texture "neighborhood-water-1"
                 textureAddressing tile tile
                 # -atrans waveformType cycles/sec offset (startU, startV)  (endU, endV)
                 textureMatrixAnimation -targetType fixedFunction -atrans sawtooth ($nhoodWaterMap1Speed / $nhoodWaterMap1Scale) 0 (0, 0) ($nhoodWaterMap1Scale, 0) -ascale sawtooth 1 0 ($nhoodWaterMap1Scale, $nhoodWaterMap1Scale)
                 ffTextureCoordsSource 0
                 textureBlend lerpTextureAlpha(tempRegister outRegister) select(colorScalar)
              end 
           end
        end
       
        shader -layer $nhoodWaterLayer
           validateRenderShaderContext -vertexFormat  position      0 required
           validateRenderShaderContext -vertexFormat  normal        0 required
           validateRenderShaderContext -vertexFormat  texcoord      0 required
           viewerRenderTypePred viewerRenderType

           ################################################################################
           # Two stage case since the three stage case above fails on most low end hardware because of its third stage (GF2).
           pass -fixedFunction -modifiedEachFrameHint
           
           
              alphaBlend srcFactor(srcAlpha) add dstFactor(invSrcAlpha)
              colorScalar $nhoodWaterReflColour $nhoodWaterReflStrength
              depthTest true -enableDepthWrite false
              
              stage
                 ffTextureCoordsSource fromPosition
                 ffTextureMatrix -cameraToClip -scalev ((-0.5 * $ratioW), (-0.5 * $ratioH)) -trans (0.5, 0.5)
                 textureAddressing clamp clamp
                 texture "ScreenReflection"
                 
                 textureBlend multiply(texture colorScalar) select(outRegister)
              end 
              
              stage
                 texture "neighborhood-water-1"
                 textureAddressing tile tile
                 # -atrans waveformType cycles/sec offset (startU, startV)  (endU, endV)
                 #textureMatrixAnimation -targetType fixedFunction -atrans sawtooth ($nhoodWaterMap1Speed / $nhoodWaterMap1Scale) 0 (0, 0) ($nhoodWaterMap1Scale, 0) -ascale sawtooth 1 0 ($nhoodWaterMap1Scale, $nhoodWaterMap1Scale)
                 ffTextureCoordsSource 0
                 textureBlend lerpTextureAlpha(outRegister outRegister) select(colorScalar)
              end
              
           end
        end
        
     endif
     
     ################################################################################
     # fallback: no reflection.
     shader -layer ($nhoodWaterLayer)
        viewerRenderTypePred viewerRenderType
        
        create DetermineHardwareSupport()
        
        pass -fixedFunction

# For now, we are diabling the lighting since we simply want to use the vertex colors. create LightingStatesNoStdLightsParam(false true) alphaBlend srcFactor(srcAlpha) add dstFactor(invSrcAlpha)

1. 1. 1. MODDED1b # Neighbourhood water: no-reflection fallback point

colorScalar $nAbahoodWater

1. 1. 1. colorScalar (.4, .6, .9, .6)

           fillmode $stdMatFillMode
           stage
              #texture reflectionoutdoorwater-envcube
              if ($cubeMapSupport)
                 texture $skyboxCubeMap
                 textureMIPFilterHint disabled

                 ffTextureCoordsSource fromReflectionVector
                 ffTextureMatrix -orientCameraToGlobal

                 textureAddressing clamp clamp clamp
                 textureBlend multiply(texture colorScalar) select(colorScalar)
              else
                 textureBlend select(colorScalar) select(colorScalar)
              endif
           end  
        end   

     end

     ################################################################################

1. create NeighborhoodWaterSWVS()

       create NeighborhoodWaterSWVSmoiAg()           

end

enddef

define NeighborhoodWaterSWVSmoiAg() shader -layer (($waterLayer) * 18 + 17)

validateRenderShaderContext -viewerRenderType viewerRenderType

pass

fillmode $stdMatFillMode

alphaBlend srcFactor(one) add dstFactor(srcAlpha)

shaderProgram -target vertexProgram -method assemble create BindsForSoftwareVSTransforms(false false) shaderSource

vs_1_1

def c50, 0, 0.5,1,2 def c11, 0,0,1,0

1. 1. 1. MODDED4 # Neighbourhood water final fallback: Just alter the highlit RGB values (in bold and italic style)

def c12, 0.098, 0.336, 0.469, 0.1 dcl_position v0 dcl_normal v1 m4x3 r0.xyz, v0, c8  ; to camera space m3x3 r3.xyz, v1, c8

mov r0.w, c50.z m4x4 oPos, r0, c0  ; camera to clip

dp3 r1.w, r0, r0 rsq r1, r1.w mul r1, r1.w, r0 ; r1= view vector.

dp3 r2, r3, -r1 ; view dot normal max r2, r2, c50.x

add r3, c50.z, -r2

mul oD0.xyz, r3, c12 mov oD0.w, r2

endShaderSource end

stage textureBlend select(diffuse) select(diffuse) end end

end enddef

1. ==============================================================================
2. The layer ID for this should be lower than "nhoodWaterLayer" Id because we want the farther side of the water box should be
3. drawn as well.
4. the layer ID of any under-water objects (so

define NeighborhoodWaterEdge()

  material
     if ($simpleTerrain)
        shader
        end
     endif
     
     
     shader -layer (($nhoodWaterLayer - 1) * 8)
        validateRenderShaderContext -vertexFormat  position      0 required
        validateRenderShaderContext -vertexFormat  texcoord      0 required
        
        pass -fixedFunction
           create LightingStates()
           alphaBlend srcFactor(one) add dstFactor(zero)
           cullmode cullCounterClockwise

           stage
              texture $waterEdgeTexture
              textureAddressing tile tile
              ffTextureMatrix -scalev (1/$waterEdgeTextureScale, 1/$waterEdgeTextureScale)
              ffTextureCoordsSource 0
              textureBlend select(texture) select(diffuse)
           end 
        end    
          
     end
  end
 

enddef

1. ==============================================================================

define NeighborhoodTerrainEdge()

  material
  
     if ($simpleTerrain)
        shader
        end
     endif
     
     shader -layer (($nhoodCanvasLayer + 13) * 8)
        validateRenderShaderContext -vertexFormat  position      0 required
        validateRenderShaderContext -vertexFormat  normal        0 required
        validateRenderShaderContext -vertexFormat  texcoord      0 required

        pass -fixedFunction
           create LightingStates()
           alphaBlend srcFactor(srcAlpha) add dstFactor(invSrcAlpha)
           stage
              texture $terrainEdgeTexture
              textureAddressing tile tile
              ffTextureMatrix -scalev (1/$terrainEdgeTextureScale, 1/$terrainEdgeTextureScale)
              ffTextureCoordsSource 0
              textureBlend multiply(texture diffuse) select(texture)
           end 
        end       
       
     end
  end

enddef

1. ==============================================================================

define NHoodTerrainLighting()

  set terrainRepresentativeTexture "lottexture-test-01_detail"

material shader -layer (($nhoodCanvasLayer + 3) * 8) validateRenderShaderContext -vertexFormat position 0 required validateRenderShaderContext -vertexFormat normal 0 required

if (not $isImposter) validateRenderShaderContext -vertexFormat texcoord 0 required endif

        if (strcmp("Concrete", "${terrainType}") = 0)
           setb isTerrainConcrete true
        endif
     
        if ($simpleTerrain)
        
           if (strcmp("Desert", "${terrainType}") = 0)
              set terrainRepresentativeTexture "lottexture-canvas-desert"
           endif
        
           shader
              pass -fixedFunction                  

ffDepthOffset -1

                 stage
    						texture "nhoodLightMap"     						
    						if ($isImposter)

ffTextureMatrix -cameraToGlobal -scalev (1280, 1280) -invert ffTextureCoordsSource fromPosition else ffTextureMatrix -scalev (128, 128) -invert ffTextureCoordsSource 0 endif

                    textureBlend select(texture) select(texture)
                 end 
                 
                 stage 
   						texture $terrainRepresentativeTexture    						
   						if ($isImposter)

ffTextureMatrix -cameraToGlobal -scalev (160, 160) -invert ffTextureCoordsSource fromPosition else ffTextureMatrix -scalev (16, 16) -invert ffTextureCoordsSource 0 endif

                    #textureBlend multiply(texture outRegister) select(outRegister)
                    textureBlend select(texture outRegister) select(outRegister)
                 end
              end
           end
           
        endif
     

create DetermineHardwareSupport()

if ($useSWVertexShaderPath) create NeighborhoodTerrainLightingSWVS() else pass -fixedFunction

create LightingStatesNoStdLights()

# standard Lightmap * dest alphaBlend srcFactor(destColor) add dstFactor(zero)

# if the outbound 'clip' texture has 0 in it, don't emit those pixels. alphaTest true 127 alphaTestFunction acceptIfGreater

fillmode $stdMatFillMode

if ($isImposter and $isTerrainConcrete) ffDepthOffset -1 endif

depthTestFunction acceptIfEqual # emit the lightmap stage texture "nhoodLightMap" if ($isImposter) ffTextureMatrix -cameraToGlobal -scalev (1280, 1280) -invert ffTextureCoordsSource fromPosition else ffTextureMatrix -scalev (128, 128) -invert ffTextureCoordsSource 0 endif

if (tsHasSnow >= 1) colorScalar (0.3, 0.3, 0.35, 0) else colorScalar (0, 0, 0, 0) endif

textureBlend add(texture colorScalar) select(texture) end

# modulate by the 'above water' texture, which is a 2x1 texture with black and white in it.

stage # above water -- clip by using depth-based 0/1 texture. texture blackWhite textureAddressing clamp clamp textureFilterHint point point textureMIPFilterHint disabled

if ( $isImposter) ffTextureMatrix -cameraToGlobal -order zzzw -trans ($waterHeight - 10, 0) -invert else ffTextureMatrix -cameraToGlobal -order zzzw -trans ($waterHeight - 0.5, 0) -invert endif ffTextureCoordsSource fromPosition textureBlend multiply(texture:alphaReplicate outRegister) select(texture) end end endif end end

enddef

1. ==============================================================================

define NHoodTerrainHighlightMaterial()

  material
     shader -layer (($nhoodCanvasLayer + 9) * 8)
        validateRenderShaderContext -vertexFormat  position      0 required
        validateRenderShaderContext -vertexFormat  normal        0 required
        validateRenderShaderContext -vertexFormat  texcoord      0 required

create DetermineHardwareSupport()

if ($useSWVertexShaderPath) create NeighborhoodTerrainHighlightSWVS() else pass -fixedFunction create LightingStates() alphaBlend srcFactor(srcAlpha) add dstFactor(invSrcAlpha) fillmode $stdMatFillMode

 				colorScalar (1, 1, 1, $highlightAlpha)

stage texture $highlightTexture textureAddressing tile tile textureBlend select(texture) multiply(texture colorScalar) end end endif

     end
  end

enddef

1. ==============================================================================

define NHoodTerrainOutlineHighlightMaterial()

  material
     shader -layer (($nhoodCanvasLayer + 10) * 8)
        validateRenderShaderContext -vertexFormat  position      0 required
        validateRenderShaderContext -vertexFormat  normal        0 required
        validateRenderShaderContext -vertexFormat  texcoord      0 required

pass -fixedFunction create LightingStatesNoStdLights() alphaBlend srcFactor(srcAlpha) add dstFactor(invSrcAlpha) fillmode $stdMatFillMode depthTest true -enableDepthWrite false

stage texture $texture textureAddressing clamp clamp ffTextureCoordsSource 0 textureBlend select(texture) select(texture) end end

     end
  end

enddef

1. ==============================================================================

setb nhoodIsPartlyUnderwater false define PartiallyUnderWaterMaterial()

  seti vt viewerRenderType
  

## prevents the thumbnails of rocks and such from being 'under water', by punting to standard material.

  # thumbnails are rendered at 0,0,0, but water tends to be above them at 312 ft/yards whatever.
  

if (viewerRenderType = $kRenderTypeThumbnail) create StandardMaterial()

   else
   	create UnderWaterShadingMaterial()

endif

enddef

define UnderWaterShadingMaterial()

  material
     shader -layer (($nhoodCanvasLayer + 4) * 8)
        validateRenderShaderContext -vertexFormat  position 0 required
        validateRenderShaderContext -vertexFormat  normal   0 required
        validateRenderShaderContext -viewerRenderType viewerRenderType
  
        if ($stdMatBaseTextureEnabled)
           validateRenderShaderContext -vertexFormat  texcoord 0 required
        endif
  

        pass -fixedFunction
  
           ffMatCoef -amb $stdMatDiffCoef -ambAlpha $stdMatAlphaMultiplier -diff $stdMatDiffCoef  -diffAlpha $stdMatAlphaMultiplier -emit $stdMatEmissiveCoef -emitAlpha $stdMatAlphaMultiplier -spec $stdMatSpecCoef -specPow $stdMatSpecPower
  
           create StandardShaderFBAlphaState($stdMatAlphaBlendMode)
           fillmode $stdMatFillMode
           cullmode $stdMatCullMode
  
           create LightingStates()                        
                       
           stage
              create StandardShaderTextureState(Base)               
              textureBlend multiply(texture outRegister) multiply(texture outRegister)               
           end
           
           #################################################################
           if ($stdMatIsPartlyUnderwater and tsIsInNeighborhood)
              if (viewerRenderType = $kRenderTypeReflection)
                 alphaTest true 128
                 alphaTestFunction acceptIfGreater
                 stage
                    # above water -- clip by using depth-based 0/1 texture.
                    texture blackWhite
                    textureAddressing clamp clamp
                    textureFilterHint point point
                    textureMIPFilterHint disabled
                       
                    ffTextureMatrix -cameraToGlobal -order zzzw -trans ($waterHeight - 0.5, 0) -invert
                    ffTextureCoordsSource fromPosition
                    textureBlend multiply(texture outRegister) select(texture)
                 end 
              else
                 stage
                    # would we want to source this from somewhere?
                    texture $waterGradientTexture
                    textureAddressing tile clamp
                    
                    set d ($waterHeight - $waterGradientZoneStart) 
                    set s (-$waterGradientZoneSize)
                    ffTextureMatrix -cameraToGlobal -order xzyw -scale $s -trans (0, $d) -invert
                    ffTextureCoordsSource fromPosition
                    textureBlend multiply(texture outRegister) select(outRegister)
                 end         
              endif
           else
              # if we are in lot mode and we want to fade this shape
              if (numLightsOfType(${kShapeColorLight}) != 0) 
                 alphaBlend srcFactor(srcAlpha) add dstFactor(invSrcAlpha)
                 depthTest true -enableDepthWrite false
                 colorScalar (1, 1, 1, 1) -applyShapeColor 0 
                 stage
                    textureBlend select(outRegister) select(colorScalar)
                 end
              endif
           endif
           #################################################################
        end
        
        seti weatherLightCount (numLightsOfType(${kWeatherLight}))
  	      
     end
     
     # fallback shader, no darken by depth, since "FromPosition" tends to be totally FUBAR  in SWVP.
     shader -layer (($nhoodCanvasLayer + 4) * 8)
     

pass -fixedFunction

           ffMatCoef -amb $stdMatDiffCoef -ambAlpha $stdMatAlphaMultiplier -diff $stdMatDiffCoef  -diffAlpha $stdMatAlphaMultiplier -emit $stdMatEmissiveCoef -emitAlpha $stdMatAlphaMultiplier -spec $stdMatSpecCoef -specPow $stdMatSpecPower
  
           create StandardShaderFBAlphaState($stdMatAlphaBlendMode)
           fillmode $stdMatFillMode
           cullmode $stdMatCullMode
  
           create LightingStates()
           
           stage
              create StandardShaderTextureState(Base)               
              textureBlend multiply(texture outRegister) multiply(texture outRegister)
           end
           
           # if we are in lot mode and we want to fade this shape
           if (not tsIsInNeighborhood and numLightsOfType(${kShapeColorLight}) != 0) 
              alphaBlend srcFactor(srcAlpha) add dstFactor(invSrcAlpha)
              depthTest true -enableDepthWrite false
              colorScalar (1, 1, 1, 1) -applyShapeColor 0 
              stage
                 textureBlend select(outRegister) select(colorScalar)
              end
           endif
           

end

     end

  end

enddef

1. ===================================================================================

define ImposterArrowMaterial()

  material
     shader -layer (($nhoodCanvasLayer + 11) * 8)
        
        validateRenderShaderContext -vertexFormat  position      0 required
        validateRenderShaderContext -vertexFormat  normal        0 required
        validateRenderShaderContext -vertexFormat  texcoord      0 required

pass -fixedFunction create LightingStatesNoStdLights() alphaBlend srcFactor(srcAlpha) add dstFactor(invSrcAlpha) fillmode $stdMatFillMode

           # TODO: change this, cannot turn off depth since that is used for dirty rect

depthTest false -enableDepthWrite false

stage texture $texture textureAddressing tile tile ffTextureCoordsSource 0 textureBlend select(texture) select(texture) end end

     end
  end

enddef

1. ===================================================================================

define NeighborhoodTreeGUOBMaterial()

1. $stdMatTextureName
2. $stdMatAlphaMulitplier

 # TODO: fix these so that they are not hardcoded, must be passed through content
 set  textureName      "genericroundsoftguob-alpha"
 setf alphaMultiplier  0.65

 # try using vs_2_sw on the trees since sw vs is not as susceptible to state changes

 # this only handles tree GUOBs in the nhood.
 material
  
     #the engine will try this shader first..
     shader -layer $nhoodTreeShadowLayer
       # shadows can never be seen in reflections (they're on the ground)
       viewerRenderTypePred $kRenderTypeReflection false

       pass
          alphaBlend srcFactor(srcAlpha) add dstFactor(invSrcAlpha)
          depthTest true -enableDepthWrite false
          
           shaderProgram -target vertexProgram -method assemble
             bindConstants 0 -bindingID geomToClip -constantCount 4
             shaderSource
                vs_1_1
                dcl_position v0
                dcl_texcoord v1
                m4x4 oPos, v0, c0
                mov oT0, v1
                
             endShaderSource
           end
          
           shaderProgram -target pixelProgram -method assemble
              shaderSource
                 ps_1_1
                 def c0,1,1,1,$alphaMultiplier
                 tex t0
                 mul r0,t0, c0
              endShaderSource
              
           end
           
           sampler 0
             texture $textureName
             textureAddressing clamp clamp clamp
           end
       end
     end
     
  # and fall back to this one if it can't render the above.
  shader -layer $nhoodTreeShadowLayer
       # shadows can never be seen in reflections (they're on the ground)
       viewerRenderTypePred $kRenderTypeReflection false

       pass -fixedFunction
          alphaBlend srcFactor(srcAlpha) add dstFactor(invSrcAlpha)
          depthTest true -enableDepthWrite false
          
          colorScalar (1,1,1, $alphaMultiplier)
          
          stage
             texture $textureName
             textureAddressing clamp clamp clamp
             textureBlend select(texture) multiply(texture colorScalar)
          end
       end
  end
   
 end

enddef

1. =======================================================================================

define NeighborhoodBuildingMaterial()

  material  
     shader -layer 0  
        setb isDay tsIsDay
        setb shouldShow (($showOnDay and $isDay) or ((not $showOnDay) and (not $isDay)))
        if ($shouldShow)
           pass -fixedFunction    
              
              if (numLightsOfType(${kShapeColorLight}) > 0)               
                 alphaBlend srcFactor(srcAlpha) add dstFactor(invSrcAlpha)
                 depthTest true -enableDepthWrite false               
                 colorScalar (1, 1, 1, 1) -applyShapeColor 0 
              else
                 colorScalar (1, 1, 1, 1)
              endif     
              
              
              if ($isDay) #lighting is only applied at day time
                 ffLighting -enable true -localViewer false -normalizeNormals false
                 create NonStandardLighting()            
                 ffMatCoef -amb (0.8,0.8,0.8) -ambAlpha 1.0 -diff (0.8,0.8,0.8) -diffAlpha 1.0	-spec (0,0,0) -specPow 0
              
                 stage
                    ffTextureCoordsSource 0
                    texture $texMaterial
                    textureBlend multiply(texture diffuse) multiply(texture colorScalar)
                 end
              else
                 stage
                    ffTextureCoordsSource 0
                    texture $texMaterial
                    textureBlend select(texture) multiply(texture colorScalar)
                 end
              endif
           end            
        endif
     end
  end   

enddef

1. ============================================================================================

1. make tree shadows render to an opaque (but blended layer) so they drop into the static layer
2. this overrides the texture name and alpha blend level.

materialDefinition neighborhood_roundshadow

  setDefinition NeighborhoodTreeGUOBMaterial

end

1. rectangular shadows are used by the car shadows, until can pass the existing texture name onto the material,
2. leave those shadows as transparent layer 7 that will get alpha sorted, etc.
3. materialDefinition neighborhood_rectangularshadow
4. setDefinition NeighborhoodTreeGUOBMaterial
5. end

1. forest

materialDefinition forest_01_shadows

  setDefinition NeighborhoodTreeGUOBMaterial

end materialDefinition forest_02_shadows

  setDefinition NeighborhoodTreeGUOBMaterial

end

1. oak

materialDefinition treeoak01_shadows

  setDefinition NeighborhoodTreeGUOBMaterial

end materialDefinition treeoak02_shadows

  setDefinition NeighborhoodTreeGUOBMaterial

end materialDefinition treeoak03_shadows

  setDefinition NeighborhoodTreeGUOBMaterial

end materialDefinition treeoak04_shadows

  setDefinition NeighborhoodTreeGUOBMaterial

end materialDefinition treeoak05_shadows

  setDefinition NeighborhoodTreeGUOBMaterial

end materialDefinition treeoak06_shadows

  setDefinition NeighborhoodTreeGUOBMaterial

end

1. scrub oak

materialDefinition neighborhoodtreescruboak_shadows_alpha

  setDefinition NeighborhoodTreeGUOBMaterial

end

1. birch

materialDefinition treebirch01_shadows

  setDefinition NeighborhoodTreeGUOBMaterial
 

end materialDefinition treebirch02_shadows

  setDefinition NeighborhoodTreeGUOBMaterial
  

end materialDefinition treebirch03_shadows

  setDefinition NeighborhoodTreeGUOBMaterial

end materialDefinition treebirch04_shadows

  setDefinition NeighborhoodTreeGUOBMaterial

end materialDefinition treebirch05_shadows

  setDefinition NeighborhoodTreeGUOBMaterial

end materialDefinition treebirch06_shadows

  setDefinition NeighborhoodTreeGUOBMaterial

end

1. TODO: need to redefine the tree shaders, at least skip in reflections
2. this is also causing massive batch count for main view (scrolling)
3. all trees should be combined into a single part/texture atlas with their shadows
4. render them after the terrain
5. materialDefinition treeoak01_diffuse
6. setDefinition StandardMaterial
7. end

1. ===================================================================================

materialDefinition neighborhood-canvas-outOfWater

  setDefinition NeighborhoodCanvas
  addParam   isUnderWater false

end

materialDefinition neighborhood-canvas-underwater

  setDefinition NeighborhoodCanvas
  addParam   isUnderWater true

end

materialDefinition neighborhood-canvas-straddle

  setDefinition NeighborhoodCanvasStraddle

end

materialDefinition neighborhood-underwater-terrain

  setDefinition NeighborhoodWaterTerrain

end

materialDefinition waterEdgeBoxMaterial

  setDefinition NeighborhoodWaterEdge
  addParam waterEdgeTexture "neighborhood-sides-water"

end

materialDefinition terrainEdgeBoxMaterial

  setDefinition NeighborhoodTerrainEdge
  addParam terrainEdgeTexture "neighborhood-sides-dirt"

end

materialDefinition nhoodTerrainLightingMaterial

  setDefinition NHoodTerrainLighting

end

materialDefinition nhoodTerrainLightingMaterialImposter

  setDefinition NHoodTerrainLighting
  addParam isImposter true

end

materialDefinition nhoodReflectionSkybox

  setDefinition SkyboxCompositionPassMaterial
  addParam skyboxCubeTexture $skyboxCubeMap

end

materialDefinition lotSkirtReflectionSkybox

  setDefinition SkyboxCompositionPassMaterial
  addParam skyboxCubeTexture $skyboxCubeMap

end

materialDefinition lotPlacementArrow

  setDefinition ImposterArrowMaterial
  addParam texture lot-placement-arrow

end

1. Material used in highlighting the terrain to depict a house for which no imposter exists yet.

materialDefinition DefaultResidentialLotImposterMaterial

  setDefinition NHoodTerrainHighlightMaterial
  addParam highlightTexture "lothighlight-residential"
  addParam highlightAlpha 0.5

end

materialDefinition DefaultCommunityLotImposterMaterial

  setDefinition NHoodTerrainHighlightMaterial
  addParam highlightTexture "lothighlight-community"
  addParam highlightAlpha 0.5

end

1. Material used in creating a terrain thumbnail for a lot for which no imposter exists yet.

materialDefinition DefaultLotThumbnailMaterial

  setDefinition StandardMaterial
  addParam stdMatBaseTextureEnabled "true"
  addParam stdMatBaseTextureName "lotselection-done"
  addParam stdMatLightingEnabled true
  addParam stdMatDiffCoef (1, 1, 1)

end

materialDefinition bridge_sides

1. setDefinition StandardMaterial

  setDefinition PartiallyUnderWaterMaterial
  addParam stdMatAlphaBlendMode none
  addParam stdMatBaseTextureEnabled true
  addParam stdMatBaseTextureName bridge-sides
  addParam stdMatDiffCoef (0.8, 0.8, 0.8)
  addParam stdMatIsPartlyUnderwater true

end

materialDefinition cliff_boulder_material

1. setDefinition StandardMaterial

  setDefinition PartiallyUnderWaterMaterial
  addParam stdMatAlphaBlendMode none
  addParam stdMatBaseTextureEnabled true
  addParam stdMatBaseTextureName nh-test-cliff
  addParam stdMatDiffCoef (0.8, 0.8, 0.8)
  addParam stdMatIsPartlyUnderwater true

end

materialDefinition plesiosaur_skin_material

1. setDefinition StandardMaterial

  setDefinition PartiallyUnderWaterMaterial
  addParam stdMatAlphaBlendMode none
  addParam stdMatBaseTextureEnabled true
  addParam stdMatBaseTextureName plesiosaur-skin
  addParam stdMatDiffCoef (0.8, 0.8, 0.8)
  addParam stdMatIsPartlyUnderwater true
  
  # these are mvoing objects, need to be at or above layer 0
  addParam nhoodCanvasLayer -4
  

end

materialDefinition neighborhood_bouyside_material

1. setDefinition StandardMaterial

  setDefinition PartiallyUnderWaterMaterial
  addParam stdMatAlphaBlendMode none
  addParam stdMatBaseTextureEnabled true
  addParam stdMatBaseTextureName neighborhood_bouyside
  addParam stdMatDiffCoef (0.8, 0.8, 0.8)
  addParam stdMatIsPartlyUnderwater true
  
  # these are mvoing objects, need to be at or above layer 0
  addParam nhoodCanvasLayer -4

end

materialDefinition RelationshipArchGreen

  setDefinition StandardMaterial
  addParam   stdMatSpecPower 20
  addParam   stdMatDiffCoef (0.3, 1, 0.3)
  addParam   stdMatSpecCoef (1, 1, 1)
  addParam   stdMatAlphaMultiplier 0.6
  addParam   stdMatAlphaBlendMode blend

end

materialDefinition housePlacementOKHighlight

  setDefinition NHoodTerrainHighlightMaterial
  addParam highlightTexture "lotselection-good"
  addParam highlightAlpha 0.15

end

materialDefinition housePlacementNotOKHighlight

  setDefinition NHoodTerrainHighlightMaterial
  addParam highlightTexture "lotselection-bad"
  addParam highlightAlpha 0.15

end

materialDefinition roadIndicatorOK

  setDefinition NHoodTerrainHighlightMaterial
  addParam highlightTexture "lothighlight-roadghost-good"
  addParam highlightAlpha 0.75

end

materialDefinition roadIndicatorNotOK

  setDefinition NHoodTerrainHighlightMaterial
  addParam highlightTexture "lothighlight-roadghost-bad"
  addParam highlightAlpha 0.75

end

materialDefinition DefaultLotHighlight

  setDefinition NHoodTerrainHighlightMaterial
  addParam highlightTexture "lotselection-good"
  addParam highlightAlpha 0.25

end

materialDefinition ResidentialLotHighlight

  setDefinition NHoodTerrainHighlightMaterial
  addParam highlightTexture "lothighlight-residential"
  addParam highlightAlpha 0.40

end

materialDefinition CommunityLotHighlight

  setDefinition NHoodTerrainHighlightMaterial
  addParam highlightTexture "lothighlight-community"
  addParam highlightAlpha 0.40

end

materialDefinition DormLotHighlight

  setDefinition NHoodTerrainHighlightMaterial
  addParam highlightTexture "lothighlight-dorm"
  addParam highlightAlpha 0.40

end

materialDefinition NotOKLotHighlight

  setDefinition NHoodTerrainHighlightMaterial
  addParam highlightTexture "lotselection-bad"
  addParam highlightAlpha 0.40

end

materialDefinition neighborhoodbuildingres1_windows_night

  setDefinition NeighborhoodBuildingMaterial
  addParam texMaterial neighborhoodbuildingres1_repeat-surface-night
  addParam showOnDay false

end

materialDefinition neighborhoodbuildingres1_windows_day

  setDefinition NeighborhoodBuildingMaterial
  addParam texMaterial neighborhoodbuildingres1_repeat-surface 
  addParam showOnDay true

end

1. this is commented out because the UI renders this without use of the material
2. materialDefinition ZoomConePyramid
3. setDefinition ZoomConeMaterial
4. addParam baseColor (1.0, 1.0, 1.0, 0.5)
5. end

define LotSkirtPSWater()

     shader -layer ($nhoodWaterLayer+1)

1. 1. 1. shader -layer ($poolWaterLayer+1)

       validateRenderShaderContext -vertexFormat position 0 required

pass -clipAlways -modifiedEachFrameHint #fillmode wireframe alphaBlend srcFactor(srcAlpha) add dstFactor(invSrcAlpha) seti textureLights (numLightsOfType(environmentCube)) depthTest true -enableDepthWrite false

shaderProgram -target vertexProgram -method compile -version 1_1

bindConstants 0 -bindingID geomToClip -constantCount 4 bindConstants 4 -bindingID geomToCamera -constantCount 3

bindConstants 7 -bindingID frameInfo

bindConstants 11 -bindingID immediateData -data ($wmXRepeat, 0, $wmXWaveHeight, $wmXSpeed) bindConstants 12 -bindingID immediateData -data (0, $wmYRepeat, $wmYWaveHeight, $wmYSpeed)

# pre-evaluate these setf xscale (-$wmXRepeat * $wmXWaveHeight) setf yscale (-$wmYRepeat * $wmYWaveHeight) bindConstants 13 -bindingID immediateData -data ($xscale,$yscale, 1,0) bindConstants 14 -bindingID allStandardLightData -constantCount 4 -constantType float bindConstants 18 -bindingID cameraToGlobal -constantCount 3 bindConstants 21 -bindingID cameraToGeom -constantCount 3

if (tsIsDay) bindConstants 25 -bindingID immediateData -data (0.75, 0.75, 0.75, 1) bindConstants 28 -bindingID immediateData -data (-0.3, 0.1, 0.1, 0.0) else bindConstants 25 -bindingID immediateData -data (0.2, 0.2, 0.2, 1) bindConstants 28 -bindingID immediateData -data (-0.3, -0.2, -0.1, 0.0) endif

shaderSource

float4 frameInfo : register(c7); float4 waveDataX : register(c11); float4 waveDataY : register(c12); float4 waveDataHelper : register(c13); float4x4 clipSpaceMatrix : register(c0); float4x3 cameraSpaceMatrix : register(c4); float4x3 cameraToGlobalMatrix : register(c18); float4x3 cameraToGeomMatrix : register(c21);

float4 nightColor: register(c25); float4 waterTint: register(c28);

float4 lightDirection : register(c14); float4 lightColor : register(c15); float4 lightSpecular : register(c16);

const static float4 refractionWeights={1,1,2,0};

1. 1. 1. MODDED5 # in-lot lotskirt water: Just alter the highlit RGB values (in bold style)

const static float4 layerBlue={1.8, 0.25, 0.1, 1.0}; 1.0};

struct InputVertex { float3 position: POSITION0; float3 normal : NORMAL0; float2 alpha  : TEXCOORD1; };

struct OutputVertex { float4 clipPosition : POSITION; float4 sPos  : TEXCOORD0; float2 Wave0  : TEXCOORD1; float2 Wave1  : TEXCOORD2; float2 Wave2  : TEXCOORD3; float2 Wave3  : TEXCOORD4; float3 Eye  : TEXCOORD5; float4 specular  : COLOR0; float4 colorTint  : COLOR1; };

OutputVertex VertexMain( InputVertex inputVertex) { // Do Y-direction waves // r0 = (x, y, z, t)

OutputVertex outputVertex;

float4 posAndTime; posAndTime.xyz = inputVertex.position; posAndTime.w = frameInfo.w;

float temp = dot(posAndTime, waveDataX); float z = sin(temp) * waveDataX.z + inputVertex.position.z; temp = dot(posAndTime, waveDataY); posAndTime.z = z + sin(temp) * waveDataY.z ;//-0.1f; //The -.01 is a fudge factor to remove some of the edge creep associated with moving the height of the wave. -tom posAndTime.w = 1.0f;

outputVertex.clipPosition = mul( posAndTime, clipSpaceMatrix); outputVertex.sPos = float4(0.5f*(outputVertex.clipPosition.ww - outputVertex.clipPosition.xy), outputVertex.clipPosition.ww);

float3 waveNormal = normalize(inputVertex.normal + float3(cos(temp)*waveDataHelper.xy, 0)); float3 cameraSpaceNormal = normalize(mul(waveNormal, cameraSpaceMatrix)); float3 cameraSpacePosition = mul( posAndTime, cameraSpaceMatrix); float3 viewVector = normalize(-cameraSpacePosition);

float3 halfVector = normalize(viewVector + lightDirection); outputVertex.specular = lightSpecular*pow(dot(cameraSpaceNormal, halfVector), 50)*nightColor*lightColor*0.5;

float2 fTranslation=float2(fmod(frameInfo.w, 100)*0.005, fmod(frameInfo.w, 100)*0.005); float2 vTexCoords = posAndTime.xy*0.05;

// Output bump layers texture coordinates float fSinTranslation=sin(fTranslation*100)*0.005; float2 vTranslation0=fTranslation+fSinTranslation; float2 vTranslation1=fTranslation-fSinTranslation; float2 vTranslation2=fTranslation;

// Scale texture coordinates to get mix of low/high frequency details outputVertex.Wave0.xy = vTexCoords.xy*0.01+fTranslation*2.0; outputVertex.Wave1.xy = vTexCoords.xy+fTranslation*2.5; outputVertex.Wave2.xy = vTexCoords.xy+fTranslation*-2.3; outputVertex.Wave3.xy = vTexCoords.xy*0.1+fTranslation*1.5;

// compute binormal float3 binormal = normalize(cross(waveNormal, float3(1.0f, 0.0f, 0.0f))); float3 tangent = normalize(cross(binormal, waveNormal));

// tangent space matrix float3x3 objToTangentSpace = float3x3(tangent, binormal, waveNormal);

float3 viewVectorInObjSpace = mul(viewVector, (float3x3)cameraToGeomMatrix);

outputVertex.Eye.xyz = mul(objToTangentSpace, viewVectorInObjSpace); outputVertex.colorTint = waterTint; outputVertex.colorTint.a = inputVertex.alpha.xxxx; // outputVertex.color = waterTint.xxxx;

return(outputVertex); }

endShaderSource end # shaderProgram

shaderProgram -target pixelProgram -method compile -version 2_0 shaderSource sampler reflect; sampler bump; struct cInputPixel { float4 sPos  : TEXCOORD0; float2 Wave0  : TEXCOORD1; float2 Wave1  : TEXCOORD2; float2 Wave2  : TEXCOORD3; float2 Wave3  : TEXCOORD4; float3 Eye  : TEXCOORD5; float4 specular  : COLOR0; float4 colorTint  : COLOR1; };

float Fresnel(float NdotL, float fresnelBias, float fresnelPow, float facing) { return max(fresnelBias + (1.0f - fresnelBias)*pow(facing, fresnelPow), 0.0); }

float4 PixelMain(cInputPixel pi) : COLOR { float3 vEye = normalize(pi.Eye);

// Get bump layers float3 vBumpTexA = tex2D(bump, pi.Wave0.xy).xyz; float3 vBumpTexB = tex2D(bump, pi.Wave1.xy).xyz; float3 vBumpTexC = tex2D(bump, pi.Wave2.xy).xyz; float3 vBumpTexD = tex2D(bump, pi.Wave3.xy).xyz;

// Average bump layers float3 vBumpTex=normalize(2.0 * (vBumpTexA.xyz + vBumpTexB.xyz + vBumpTexC.xyz + vBumpTexD.xyz)-4.0);

// Apply individual bump scale for refraction and reflection float3 vReflBump = vBumpTex.xyz ; float4 vReflection = tex2Dproj(reflect, pi.sPos + float4(vReflBump.xy, 0.0f, 0.0f));//*0.001 + float4(2.0*vBumpTexD-1.0f.xxx, 1);

// Compute Fresnel term float NdotL = max(dot(vEye, vReflBump), 0); float facing = (1.0 - NdotL); float fresnel = Fresnel(NdotL, 0.1, 0.5, facing);

vReflection.a = fresnel * 0.5;

return saturate(vReflection + pi.colorTint); } endShaderSource end

sampler reflect texture "OceanReflection" textureAddressing clamp clamp end

sampler bump texture "poolShape-body-bump" textureAddressing tile tile end

end # end pass end # end shader enddef # shader() LotSkirtPSWater()

define LotSkirtPSWaterHLSL()

1. 1. 1. conmbo of PS2 1st PS1 shader progrmme and old HLSL stage

     shader -layer ($nhoodWaterLayer+1)

1. 1. 1. shader -layer ($poolWaterLayer+1)

       validateRenderShaderContext -vertexFormat position 0 required

pass -clipAlways -modifiedEachFrameHint #fillmode wireframe alphaBlend srcFactor(srcAlpha) add dstFactor(invSrcAlpha) seti textureLights (numLightsOfType(environmentCube)) depthTest true -enableDepthWrite false

shaderProgram -target vertexProgram -method compile -version 1_1

bindConstants 0 -bindingID geomToClip -constantCount 4 bindConstants 4 -bindingID geomToCamera -constantCount 3

bindConstants 7 -bindingID frameInfo

bindConstants 11 -bindingID immediateData -data ($wmXRepeat, 0, $wmXWaveHeight, $wmXSpeed) bindConstants 12 -bindingID immediateData -data (0, $wmYRepeat, $wmYWaveHeight, $wmYSpeed)

# pre-evaluate these setf xscale (-$wmXRepeat * $wmXWaveHeight) setf yscale (-$wmYRepeat * $wmYWaveHeight) bindConstants 13 -bindingID immediateData -data ($xscale,$yscale, 1,0) bindConstants 14 -bindingID allStandardLightData -constantCount 4 -constantType float bindConstants 18 -bindingID cameraToGlobal -constantCount 3 bindConstants 21 -bindingID cameraToGeom -constantCount 3

if (tsIsDay) bindConstants 25 -bindingID immediateData -data (0.75, 0.75, 0.75, 1) bindConstants 28 -bindingID immediateData -data (-0.3, 0.1, 0.1, 0.0) else bindConstants 25 -bindingID immediateData -data (0.2, 0.2, 0.2, 1) bindConstants 28 -bindingID immediateData -data (-0.3, -0.2, -0.1, 0.0) endif

shaderSource

float4 frameInfo : register(c7); float4 waveDataX : register(c11); float4 waveDataY : register(c12); float4 waveDataHelper : register(c13); float4x4 clipSpaceMatrix : register(c0); float4x3 cameraSpaceMatrix : register(c4); float4x3 cameraToGlobalMatrix : register(c18); float4x3 cameraToGeomMatrix : register(c21);

float4 nightColor: register(c25); float4 waterTint: register(c28);

float4 lightDirection : register(c14); float4 lightColor : register(c15); float4 lightSpecular : register(c16);

const static float4 refractionWeights={1,1,2,0};

1. 1. 1. MODDED6 # in-lot lotskirt water: Just alter the highlit RGB values (in bold style)

const static float4 layerBlue={1.8, 0.25, 0.1, 1.0}; 1.0};

struct InputVertex { float3 position: POSITION0; float3 normal : NORMAL0; float2 alpha  : TEXCOORD1; };

struct OutputVertex { float4 clipPosition : POSITION; float4 sPos  : TEXCOORD0; float2 Wave0  : TEXCOORD1; float2 Wave1  : TEXCOORD2; float2 Wave2  : TEXCOORD3; float2 Wave3  : TEXCOORD4; float3 Eye  : TEXCOORD5; float4 specular  : COLOR0; float4 colorTint  : COLOR1; };

OutputVertex VertexMain( InputVertex inputVertex) { // Do Y-direction waves // r0 = (x, y, z, t)

OutputVertex outputVertex;

float4 posAndTime; posAndTime.xyz = inputVertex.position; posAndTime.w = frameInfo.w;

float temp = dot(posAndTime, waveDataX); float z = sin(temp) * waveDataX.z + inputVertex.position.z; temp = dot(posAndTime, waveDataY); posAndTime.z = z + sin(temp) * waveDataY.z ;//-0.1f; //The -.01 is a fudge factor to remove some of the edge creep associated with moving the height of the wave. -tom posAndTime.w = 1.0f;

outputVertex.clipPosition = mul( posAndTime, clipSpaceMatrix); outputVertex.sPos = float4(0.5f*(outputVertex.clipPosition.ww - outputVertex.clipPosition.xy), outputVertex.clipPosition.ww);

float3 waveNormal = normalize(inputVertex.normal + float3(cos(temp)*waveDataHelper.xy, 0)); float3 cameraSpaceNormal = normalize(mul(waveNormal, cameraSpaceMatrix)); float3 cameraSpacePosition = mul( posAndTime, cameraSpaceMatrix); float3 viewVector = normalize(-cameraSpacePosition);

float3 halfVector = normalize(viewVector + lightDirection); outputVertex.specular = lightSpecular*pow(dot(cameraSpaceNormal, halfVector), 50)*nightColor*lightColor*0.5;

float2 fTranslation=float2(fmod(frameInfo.w, 100)*0.005, fmod(frameInfo.w, 100)*0.005); float2 vTexCoords = posAndTime.xy*0.05;

// Output bump layers texture coordinates float fSinTranslation=sin(fTranslation*100)*0.005; float2 vTranslation0=fTranslation+fSinTranslation; float2 vTranslation1=fTranslation-fSinTranslation; float2 vTranslation2=fTranslation;

// Scale texture coordinates to get mix of low/high frequency details outputVertex.Wave0.xy = vTexCoords.xy*0.01+fTranslation*2.0; outputVertex.Wave1.xy = vTexCoords.xy+fTranslation*2.5; outputVertex.Wave2.xy = vTexCoords.xy+fTranslation*-2.3; outputVertex.Wave3.xy = vTexCoords.xy*0.1+fTranslation*1.5;

// compute binormal float3 binormal = normalize(cross(waveNormal, float3(1.0f, 0.0f, 0.0f))); float3 tangent = normalize(cross(binormal, waveNormal));

// tangent space matrix float3x3 objToTangentSpace = float3x3(tangent, binormal, waveNormal);

float3 viewVectorInObjSpace = mul(viewVector, (float3x3)cameraToGeomMatrix);

outputVertex.Eye.xyz = mul(objToTangentSpace, viewVectorInObjSpace); outputVertex.colorTint = waterTint; outputVertex.colorTint.a = inputVertex.alpha.xxxx; // outputVertex.color = waterTint.xxxx;

return(outputVertex); }

endShaderSource end # shaderProgram

stage texture $wmReflectionTexture textureAddressing clamp clamp clamp textureBlend multiply(texture diffuse) select(diffuse) end

addSpecular true

end # end pass end # end shader enddef # shader() LotSkirtPSWaterHLSL()

define LotSkirtWaterR1() shader -layer $nhoodWaterLayer validateRenderShaderContext -vertexFormat position 0 required validateRenderShaderContext -vertexFormat normal 0 required validateRenderShaderContext -vertexFormat texcoord 0 required viewerRenderTypePred viewerRenderType

pass -fixedFunction

alphaBlend srcFactor(srcAlpha) add dstFactor(invSrcAlpha)

1. 1. 1. MODDED2a # in-lot lotskirt water fallback reflection: Just a check point

colorScalar $lotSkirtWaterReflColour $lotSkirtWaterReflStrength

1. 1. 1. colorScalar $lotSkirtWaterReflColour 0.50

depthTest true -enableDepthWrite false

#tring to remove warble I think it may be caused by depth bias. #ffDepthOffset -2

stage ffTextureCoordsSource fromPosition ffTextureMatrix -cameraToClip -scalev ((-0.5 * $ratioW), (-0.5 * $ratioH)) -trans (0.5, 0.5) textureAddressing clamp clamp texture "ScreenReflection"

textureBlend multiply(texture colorScalar) multiply(diffuse colorScalar) end # stage

end # pass end # shader enddef # shader() LotSkirtWaterR1()

define LotSkirtWaterR2()

     shader -layer ($nhoodWaterLayer)
        viewerRenderTypePred viewerRenderType
        

1. 1. 1. create DetermineHardwareSupport()

        pass -fixedFunction

# For now, we are diabling the lighting since we simply want to use the vertex colors. create LightingStatesNoStdLightsParam(false true) alphaBlend srcFactor(srcAlpha) add dstFactor(invSrcAlpha)

1. 1. 1. MODDED1c # in-lot lotskirt water fallback reflection: Just a check point

colorScalar $nAbahoodEau

1. 1. 1. colorScalar (.4, .6, .9, .4)

           #tring to remove warble I think it may be caused by depth bias.
           #ffDepthOffset -2                              
           
           fillmode $stdMatFillMode

           stage
              #texture reflectionoutdoorwater-envcube
              if ($cubeMapSupport)
                 texture $skyboxCubeMap
                 textureMIPFilterHint disabled

                 ffTextureCoordsSource fromReflectionVector
                 ffTextureMatrix -orientCameraToGlobal

                 textureAddressing clamp clamp clamp
                 textureBlend multiply(texture colorScalar) select(colorScalar)
              else
                 textureBlend select(colorScalar) multiply(diffuse colorScalar)
              endif
           end  # stage

        end   # pass()
     end # shader()

enddef # shader() LotSkirtWaterR2()

define LotSkirtWater()

material create DetermineHardwareSupport()

if ($useHWShader2Path) create LotSkirtPSWater() else create LotSkirtWaterR1()

     			endif # PS2

1. 1. 1. basic Fallback

        		if ($useSWVertexShaderPath or $useFixedFunctionPath)

create LotSkirtWaterR2() else create LotSkirtPSWaterHLSL() endif # SWV or FF

  	end # end material

enddef # material() LotSkirtWater()

define LotSkirtWaterNoReflection()

set useReflection 0 # default material parameter value

  material
     # fallback: no reflection.
        create DetermineHardwareSupport()

        		if ($useSWVertexShaderPath or $useFixedFunctionPath)

create LotSkirtWaterR2() else create LotSkirtPSWaterHLSL() endif # SWV or FF

1. 1. 1. basic Fallback

create LotSkirtWaterR2()

  end     # material          

enddef # material() LotSkirtWaterNoReflection()

materialDefinition lotSkirtSea

  setDefinition LotSkirtWater  
  addParam stdMatLightingEnabled false
  addParam stdMatLayer 0
  addParam stdMatDiffCoef (1.8, 0.25, 0.1)   

  addParam wmRefractionEnabled true

  addParam wmReflectionTexture swimming_pool-envcube
  addParam wmTransparency 0.4
  addParam wmXSpeed        3
  addParam wmXRepeat       5
  addParam wmXWaveHeight   0.001 
  addParam wmYSpeed        3
  addParam wmYRepeat       6
  addParam wmYWaveHeight   0.001 

end

materialDefinition lotSkirtSeaNoReflection

  setDefinition LotSkirtWaterNoReflection   

  addParam stdMatLightingEnabled false
  addParam stdMatLayer 0
  addParam stdMatDiffCoef (1.8, 0.25, 0.1)   

  addParam wmRefractionEnabled true

  addParam wmReflectionTexture swimming_pool-envcube
  addParam wmTransparency 0.4
  addParam wmXSpeed        3
  addParam wmXRepeat       5
  addParam wmXWaveHeight   0.001 
  addParam wmYSpeed        3
  addParam wmYRepeat       6
  addParam wmYWaveHeight   0.001 

end