materials/vMaterials_2/Plastic/Polypropylene_Opaque.mdl

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 *	 Copyright 2024 NVIDIA Corporation. All rights reserved.	 *
 ******************************************************************************
 
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to any person obtaining a copy of the sample definition code that uses our 
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*/


mdl 1.6;

import ::anno::*;
import ::base::*;
import ::df::*;
import ::math::*;
import ::state::*;
import ::tex::*;
import ::nvidia::core_definitions::blend_colors;
import ::nvidia::core_definitions::dimension;


const string COPYRIGHT = 
" Copyright 2024 NVIDIA Corporation. All rights reserved.\n"
" MDL MATERIALS ARE PROVIDED PURSUANT TO AN END USER LICENSE  AGREEMENT,\n"
" WHICH WAS ACCEPTED IN ORDER TO GAIN ACCESS TO THIS FILE.  IN PARTICULAR,\n" 
" THE MDL MATERIALS ARE PROVIDED \"AS IS\", WITHOUT WARRANTY OF ANY KIND,\n"
" EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO ANY WARRANTIES OF\n"
" MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT OF\n" 
" COPYRIGHT, PATENT, TRADEMARK, OR OTHER RIGHT. IN NO EVENT SHALL NVIDIA\n"
" CORPORATION BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, INCLUDING ANY\n"
" GENERAL, SPECIAL,  INDIRECT, INCIDENTAL, OR CONSEQUENTIAL DAMAGES, WHETHER IN\n"
" AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF THE USE OR\n"
" INABILITY TO USE THE MDL MATERIALS OR FROM OTHER DEALINGS IN THE MDL MATERIALS.\n";


export enum unit_scale
[[
	::anno::hidden()
]]
{
	unit_mm = 1,
	unit_cm = 2,
	unit_m = 3
};

struct volume_info
[[
	::anno::hidden()
]]
{
	color absorption_coefficient;
	color scattering_coefficient;
};


// simplified volume coefficients
// This function takes a transmittance value and and albedo and translates it into meaningful
// scattering and volume coefficients that are userfriendly
//
volume_info volume_transmittance_albedo(
	uniform float density_scale = 1.0,
	uniform color transmittance = color(0.5f), // transmittance color after unit distance
	uniform color albedo = color(1.0f)
)
{
	color sigma_t = -::math::log(::math::saturate(transmittance)) * density_scale;
	color sigma_s = sigma_t * ::math::saturate(albedo);
	return volume_info(
		scattering_coefficient: sigma_s,
		absorption_coefficient: sigma_t - sigma_s);
}

// This function calculates the apropriate scattering and volume coefficients
// for a material of a given thickness. 
// The user specifies the thickness of the material, e.g. 3mm and the amount 
// of light passing through. The rest is automatically calculated for the material
// and the material_volume is returned.
volume_info custom_volume_transmittance(
	uniform unit_scale unit_scale_select = unit_mm,
	uniform float absorption_thickness = 3.0f,
	uniform color transmittance = color(0.5f),
	uniform color albedo = color(0.0f)
)
{
	absorption_thickness = (absorption_thickness <= 0.0f) ? 0.00001 : absorption_thickness;
	float scalefactor;
	switch(unit_scale_select){
		case unit_mm: scalefactor = 0.001f; break;
		case unit_cm: scalefactor = 0.01f; break;
		case unit_m: scalefactor = 1.0f; break;
		default: scalefactor = 1.0f;
	}
	
	
	volume_info vol_coefficients = volume_transmittance_albedo(
												density_scale: 1.0f/(absorption_thickness * scalefactor),
												transmittance: transmittance,
												albedo: albedo
	);
	
	return vol_coefficients;
}


::base::texture_coordinate_info transform_coordinate_2(
	float4x4 transform										 
		[[ ::anno::description("A transformation to be applied to the source coordinates. rotation_translation_scale() is a suggested means to compute the transformation matrix.") ]],
	::base::texture_coordinate_info coordinate = ::base::texture_coordinate_info()
		[[ ::anno::description("Coordinate, typically sourced from coordinate_source or coordinate_projection.") ]]
) [[ 
	::anno::description("Transform a texture coordinate by a matrix.") ,
	::anno::noinline()
  ]]
{
	// Version 2
	float4 r_position = transform * float4(coordinate.position.x,coordinate.position.y,coordinate.position.z,1);
	//Try aproximating it for the case that the rotation is only aroud z and assuming the texture layout is nice and z is ~constant.
	//just pretend there is no other rotation happening
	//get rid of scaling and translation. Then extract fields where sin and cos would be in a simple 2d transform around z.
	float4 u = transform[0];
	float3 ru = ::math::normalize(float3(u.x,u.y,u.z));
	float cos =  ru.x; 
	float sin =  -ru.y;
	//TODO: at least also handle sign of z?
	//TODO: handle tangent becoming 0 
	
	
	return ::base::texture_coordinate_info(
		float3(r_position.x,r_position.y,r_position.z),
		::math::normalize(cos * coordinate.tangent_u - sin * coordinate.tangent_v),
		::math::normalize(cos * coordinate.tangent_v + sin * coordinate.tangent_u));
}


// Takes the standard input that every material has. It combines a couple of
// functions in one convenience function.
::base::texture_coordinate_info vmat_transform(
								float2 translation = float2(0.0, 0.0),
								float rotation	 = 0.0,				// rotation in degrees
								float2 scaling	 = float2(1.0, 1.0),
								uniform ::base::texture_coordinate_system system = ::base::texture_coordinate_uvw,
								uniform int uv_space	   = 0
)
{
	float rotation_rad = (rotation * 3.1415926535897932384626433832f) / 180.f;
	float4x4 scale =
	float4x4(1.0 /scaling.x, 0.			 ,  0. ,	 0.,
			 0.			, 1.0 /scaling.y ,  0. ,	 0.,
			 0.			, 0.			 ,  1.0,	 0.,
			 translation.x , translation.y  ,  0.0,	 1.);

	float s = ::math::sin(rotation_rad);
	float c = ::math::cos(rotation_rad);
	float4x4 rotate =
	float4x4(  c  ,  -s   , 0.0 , 0.0,
			   s  ,   c   , 0.0 , 0.0,
			   0.0,   0.0 , 1.0 , 0.0,
			   0. ,   0.0 , 0.0 , 1.);
	
	return transform_coordinate_2(scale*rotate, ::base::coordinate_source(system, uv_space));
}



float2x2 invert_2x2(float2x2 M)
{
	float det = M[0][0]*M[1][1] - M[0][1]*M[1][0];
	//https://www.chilimath.com/lessons/advanced-algebra/inverse-of-a-2x2-matrix/
	return (1.0 / det) * float2x2(M[1][1], -M[0][1], -M[1][0], M[0][0]);
}

// https://nullprogram.com/blog/2018/07/31/
//bias: 0.17353355999581582 ( very probably the best of its kind )
// NOTE: To turn this back to a float, one must divide the value by 4294967296.f 
// which corresponds to 0xffffffff, however MDL seems to turn this into -1.
int lowbias32(int x)
{
	x ^= x >>> 16;
	x *= 0x7feb352d;
	x ^= x >>> 15;
	x *= 0x846ca68b;
	x ^= x >>> 16;
	return x;
}

float uint2float(int x)
{
	return float(x & 0x7FFFFFFF) + (x < 0 ? 2147483648.0 : 0.0);
}


float2 rnd22(int2 p) {
	float2 ret_val = float2(
		uint2float(lowbias32(p[0] + lowbias32(p[1]))) / 4294967296.f,
		uint2float(lowbias32(p[0] + 32000 + lowbias32(p[1]))) / 4294967296.f
	);
	return ret_val;
}  

float3 srgb2rgb(float3 val) 
{
	return ::math::pow(::math::max(val, float3(0.0f)), 2.2);
}

float3 nonrepeat_lookup(
	uniform texture_2d texture = texture_2d(),
	::base::texture_coordinate_info uvw = ::base::coordinate_source(),
	float texture_scale = 1.0,
	float3 average_color = float3(0.5),
	float patch_size = 8.0
)
{
	float2 uv_in = float2(uvw.position[0], uvw.position[1]) * texture_scale;
	float Z =  patch_size;	 // patch scale inside example texture
	
	float3 O = float3(0.f);
	float2x2 M0 = float2x2(1.f,0.f, 0.5f, ::math::sqrt(3.f)/2.f);
	float2x2 M = invert_2x2(M0); // transform matrix <-> tilted space
	
	float2 U = uv_in;
	float2 V = M * uv_in; //pre-tilted hexa coordinates
	int2 I = int2(::math::floor(V)); // hexa-tile id
	
	// The mean color needs to be determined in Photoshop 
	float3 m = average_color;
	
	float3 F = float3(::math::frac(V)[0], ::math::frac(V)[1], 0.f), W;
	F[2] = 1.0 - F[0] - F[1]; // local hexa coordinates
	
	if( F[2] > 0.f )

		O = (W[0] = F[2]) * (( ::tex::lookup_float3(texture, U/Z-rnd22(I))) - m)
		  + (W[1] = F[1]) * (( ::tex::lookup_float3(texture, U/Z-rnd22(I+int2(0,1)))) - m)
		  + (W[2] = F[0]) * (( ::tex::lookup_float3(texture, U/Z-rnd22(I+int2(1,0)))) - m);
	else
		O = (W[0] =	  -F[2]) * (( ::tex::lookup_float3(texture, U/Z-rnd22(I+int2(1))))   - m)
		  + (W[1] = 1.f - F[1]) * (( ::tex::lookup_float3(texture, U/Z-rnd22(I+int2(1, 0)))) - m)
		  + (W[2] = 1.f - F[0]) * (( ::tex::lookup_float3(texture, U/Z-rnd22(I+int2(0, 1)))) - m);
	O = m + O/::math::length(W);
	O = ::math::clamp( (O), 0.0, 1.0);
	
	return float3(O);
}


// NOTE: tex_resource must be in linear space (ensure that ::tex::gamma_linear is used)
color endless_texture(
	uniform texture_2d texture = texture_2d(),
	::base::texture_coordinate_info uvw = ::base::coordinate_source(),
	float texture_scale = 10.0,
	float3 average_color = float3(0.5, 0.5, 1.0),
	float patch_size = 8.0,
	bool gamma_correct_lookup = true
)
{
	return gamma_correct_lookup ? color(srgb2rgb(
			nonrepeat_lookup (
				texture: texture,
				uvw: uvw,
				texture_scale: texture_scale,
				average_color: average_color,
				patch_size: patch_size
			))
		) : color(nonrepeat_lookup (
			texture: texture,
			uvw: uvw,
			texture_scale: texture_scale,
			average_color: average_color,
			patch_size: patch_size
		));
}


export material Polypropylene_Opaque(

// Appearance
	uniform bool thin_walled = false [[
		::anno::description("Makes t	he material thin-walled. This changes the behavior of the material in a way that light attenuation is not calculated volumetrically as light travels through the geometry but at the light surface level. Thin walled geometry mustbe modeled as a single sheet without any volume."),
		::anno::display_name("Thin Walled"),
		::anno::in_group("Appearance"),
		::anno::ui_order(0)
	]],
	float IOR = 1.49f [[
		::anno::description("Sets the Index of refraction. For PP the ior is typically 1.49."),
		::anno::display_name("IOR"),
		::anno::in_group("Appearance"),
		::anno::hard_range(1.1f, 3.0f),
		::anno::ui_order(1)
	]],
	float roughness = 0.f [[
		::anno::description("Hight values lead to a blurrier reflection."),
		::anno::display_name("Roughness"),
		::anno::in_group("Appearance"),
		::anno::hard_range(0.f, 1.f),
		::anno::ui_order(2)
	]],
   color diffuse_tint = color(0.752942f) [[
		::anno::description("Adjusts the diffuse color of the surface."),
		::anno::display_name("Diffuse Tint"),
		::anno::in_group("Appearance"),
		::anno::ui_order(3)
	]],
	uniform unit_scale units_absorption_thickness = unit_cm [[
		::anno::description("Chooses the units that are used for setting the absorption thickness. Can be meters, centimeters or millimeters."),
		::anno::display_name("Units Absorption Thickness"),
		::anno::in_group("Appearance"),
		::anno::ui_order(4)
	]],
	uniform float absorption_thickness = 20.f [[
		::anno::description("The thickness for which the transmittance (color) is set. Example: If thickness is set to 3mm and transmittance to 0.8, then 80% of the light will pass through a 3mm thick material."),
		::anno::display_name("Absorption Thickness"),
		::anno::in_group("Appearance"),
		::anno::ui_order(5)
	]],
	uniform color transmissive_tint = color(1.000000f) [[
		::anno::description("Adjusts the transmissive color of the material. The color is influenced by the \"Diffuse Tint\" color parameter."),
		::anno::display_name("Transmissive Tint"),
		::anno::in_group("Appearance"),
		::anno::ui_order(6)
	]],
	
// Smudges
	float smudges = 0.10f [[
		::anno::description("Determines the amount of smudges that appears on the surface of the material."),
		::anno::display_name("Smudges"),
		::anno::in_group("Appearance", "Smudges"),
		::anno::hard_range(0.f, 1.f),
	::anno::ui_order(7)
	]],
	float2 smudge_scale = float2(1.f) [[
		::anno::description("Larger numbers increase the size."),
		::anno::display_name("Smudge Scale"),
		::anno::in_group("Appearance", "Smudges"),
		::anno::soft_range(float2(0.f), float2(2.f)),
		::anno::ui_order(8)
	]],
	
// Transform
	float2 texture_translate = float2(0.f) [[
		::anno::description("Controls the position of the texture."),
		::anno::display_name("Texture Translate"),
		::anno::in_group("Transform"),
		::anno::ui_order(9)
	]],
	float texture_rotate = 0.f [[
		::anno::description("Rotates angle of the texture in degrees."),
		::anno::display_name("Texture Rotate"),
		::anno::in_group("Transform"),
		::anno::soft_range(0.f, 360.f),
		::anno::ui_order(10)
	]],
	float2 texture_scale = float2(1.f) [[
		::anno::description("Larger numbers increase the size."),
		::anno::display_name("Texture Scale"),
		::nvidia::core_definitions::dimension(float2(0.45f, .45f)),
		::anno::in_group("Transform"),
		::anno::soft_range(float2(0.f), float2(2.f)),
		::anno::ui_order(11)
	]],
 
	
// Round Corners
	uniform bool round_corners = true [[
		::anno::description("Enables the round corner effect. Comes at a slight performance cost as additional raytracing calls are required to evaluate the round corner effect."),
		::anno::display_name("Round Corners"),
		::anno::in_group("Round Corners"),
		::anno::ui_order(12)
	]],
	uniform float radius = 0.5f [[
		::anno::description("Radius of the rounded corners."),
		::anno::display_name("Radius mm"),
		::anno::in_group("Round Corners"),
		::anno::soft_range(0.f, 10.f),
		::anno::ui_order(13)
	]],
	uniform bool across_materials = false [[
		::anno::description("Applies the round corner effect across different materials when enabled."),
		::anno::display_name("Across Materials"),
		::anno::in_group("Round Corners"),
		::anno::ui_order(14)
	]],
	
// Advanced
	uniform int uv_space_index = 0 [[
		::anno::description("Uses the selected UV space index."),
		::anno::display_name("UV Space Index"),
		::anno::in_group("Advanced"),
		::anno::soft_range(0, 4),
		::anno::ui_order(15)
	]],
	float3 normal = ::state::normal()  [[
		::anno::description("Override this input to provide a custom normal for the material."),
		::anno::display_name("Normal"),
		::anno::in_group("Advanced"),
		::anno::ui_order(16)
	]])
[[
	::anno::description("A polypropylene plastic material."),
	::anno::display_name("Polypropylene Opaque - White"),
	::anno::author("NVIDIA vMaterials"),
	::anno::contributor("Ruediger Raab"),
	::anno::contributor("Maik Rohland"),
	::anno::description("Diffuse plastic polypropylene material for rendering of diffuse plastic with volumetric exhaustion."),
	::anno::key_words(string[]("plastic", "polypropylene", "PP", "synthetic", "opaque", "design", "packaging", "molded", "smudged", "smudges", "infinite tiling", "smooth")),
	::anno::thumbnail("./.thumbs/Polypropylene_Opaque.Polypropylene_Opaque.png"),
	::anno::copyright_notice(COPYRIGHT)
]]
 = 
	let {
		bool tmp0 = thin_walled;
		
		texture_2d smudges_tex = texture_2d("./textures/plastic_smudges.jpg", ::tex::gamma_linear);
		
		color endless_tex_lookup = endless_texture(smudges_tex, vmat_transform(texture_translate, texture_rotate, texture_scale * smudge_scale, ::base::texture_coordinate_uvw, uv_space_index), 4.f, float3(0.059f, 0.051f, 0.125f), 4.f, false);
		
		float roughness_smudges = (::math::pow(::math::max(float3(endless_tex_lookup)[0] * smudges, float3(endless_tex_lookup)[1] * smudges), ::math::lerp(2.5f, 0.5f, ::math::pow(smudges, 0.25f))) + roughness * 0.5f);
		
		volume_info vol_inf = custom_volume_transmittance(units_absorption_thickness, absorption_thickness, color(0.214f, 0.214f, 0.214f), transmissive_tint);
		
		material_surface tmp1(
			::df::fresnel_layer(
				IOR, 
				1.f, 
				::df::microfacet_ggx_smith_bsdf(
					roughness_smudges * roughness_smudges,
					roughness_smudges * roughness_smudges,
					color(1.f, 1.f, 1.f),
					color(0.f, 0.f, 0.f),
					::state::texture_tangent_u(0),
					::df::scatter_reflect
				),
				::df::weighted_layer(
					0.508f,
					::df::diffuse_reflection_bsdf(
						diffuse_tint, 0.f
					),
					::df::weighted_layer(
						1.f, 
						::df::diffuse_transmission_bsdf(transmissive_tint),
						bsdf(),
						normal),
					normal
				),
				normal
				),
			material_emission(emission: edf(), intensity: color(0.f, 0.f, 0.f), mode: intensity_radiant_exitance)
		);
		material_surface tmp2 = material_surface(scattering: bsdf(), emission: material_emission(emission: edf(), intensity: color(0.f, 0.f, 0.f), mode: intensity_radiant_exitance));
		material_volume tmp4 = thin_walled ? 
				material_volume(
					scattering: vdf(),
					absorption_coefficient: color(0.f, 0.f, 0.f),
					scattering_coefficient: color(0.f, 0.f, 0.f)) :
				material_volume(vdf(),
					vol_inf.absorption_coefficient,
					vol_inf.scattering_coefficient);
		material_geometry tmp5(float3(0.f), 1.f, round_corners ? ::state::rounded_corner_normal(radius * 0.001f, across_materials, 1.f) : ::state::normal());
		hair_bsdf tmp6 = hair_bsdf();
	} in
		material(
			thin_walled: tmp0,
			surface: tmp1,
			backface: tmp2,
			ior: color(1.f, 1.f, 1.f),
			volume: tmp4,
			geometry: tmp5,
			hair: tmp6);


export material Polypropylene_Ivory(*)
[[
	::anno::display_name("Polypropylene Opaque - Ivory"),
	::anno::author("NVIDIA vMaterials"),
	::anno::contributor("Ruediger Raab"),
	::anno::contributor("Maik Rohland"),
	::anno::description("Diffuse plastic polypropylene material for rendering of diffuse plastic with volumetric exhaustion."),
	::anno::key_words(string[]("plastic", "polypropylene", "PP", "synthetic", "opaque", "design", "packaging", "molded", "smudged", "smudges", "infinite tiling", "smooth", "ivory", "white", "light", "neutral")),
	::anno::thumbnail("./.thumbs/Polypropylene_Opaque.Polypropylene_Ivory.png"),
	::anno::copyright_notice(COPYRIGHT)
]] = Polypropylene_Opaque
(
	thin_walled:			false,
	IOR:					1.49f,
	roughness:				0.0f,
	diffuse_tint:			color(0.896269f, 0.838799f, 0.686685f),
	units_absorption_thickness: unit_cm,
	absorption_thickness:	20.0f,
	transmissive_tint:		color(0.955973f, 0.896269f, 0.730461f),
	smudges:				0.1f,
	smudge_scale:			float2(1.0f),
	texture_translate:		float2(0.0f),
	texture_rotate:			0.0f,
	texture_scale:			float2(1.0f),
	round_corners:			false,
	radius:					1.5f,
	across_materials:		false,
	uv_space_index:			0
);

export material Polypropylene_Lemon(*)
[[
	::anno::display_name("Polypropylene Opaque - Lemon"),
	::anno::author("NVIDIA vMaterials"),
	::anno::contributor("Ruediger Raab"),
	::anno::contributor("Maik Rohland"),
	::anno::description("Diffuse plastic polypropylene material for rendering of diffuse plastic with volumetric exhaustion."),
	::anno::key_words(string[]("plastic", "polypropylene", "PP", "synthetic", "opaque", "design", "packaging", "molded", "smudged", "smudges", "infinite tiling", "smooth", "lemon", "yellow", "saturated", "warm", "light")),
	::anno::thumbnail("./.thumbs/Polypropylene_Opaque.Polypropylene_Lemon.png"),
	::anno::copyright_notice(COPYRIGHT)
]] = Polypropylene_Opaque
(
	thin_walled:			false,
	IOR:					1.49f,
	roughness:				0.0f,
	diffuse_tint:			color(0.715694f, 0.715694f, 0.045186f),
	units_absorption_thickness: unit_cm,
	absorption_thickness:	20.0f,
	transmissive_tint:		color(0.964686f, 0.964686f, 0.059511f),
	smudges:				0.1f,
	smudge_scale:			float2(1.0f),
	texture_translate:		float2(0.0f),
	texture_rotate:			0.0f,
	texture_scale:			float2(1.0f),
	round_corners:			false,
	radius:					1.5f,
	across_materials:		false,
	uv_space_index:			0
);


export material Polypropylene_Yellow(*)
[[
	::anno::display_name("Polypropylene Opaque - Yellow"),
	::anno::author("NVIDIA vMaterials"),
	::anno::contributor("Ruediger Raab"),
	::anno::contributor("Maik Rohland"),
	::anno::description("Diffuse plastic polypropylene material for rendering of diffuse plastic with volumetric exhaustion."),
	::anno::key_words(string[]("plastic", "polypropylene", "PP", "synthetic", "opaque", "design", "packaging", "molded", "smudged", "smudges", "infinite tiling", "smooth", "yellow", "warm", "saturated", "light")),
	::anno::thumbnail("./.thumbs/Polypropylene_Opaque.Polypropylene_Yellow.png"),
	::anno::copyright_notice(COPYRIGHT)
]] = Polypropylene_Opaque
(
	thin_walled:			false,
	IOR:					1.49f,
	roughness:				0.0f,
	diffuse_tint:			color(0.871367f, 0.603827f, 0.045186f),
	units_absorption_thickness: unit_cm,
	absorption_thickness:	20.0f,
	transmissive_tint:		color(0.955973f, 0.686685f, 0.049707f),
	smudges:				0.1f,
	smudge_scale:			float2(1.0f),
	texture_translate:		float2(0.0f),
	texture_rotate:			0.0f,
	texture_scale:			float2(1.0f),
	round_corners:			false,
	radius:					1.5f,
	across_materials:		false,
	uv_space_index:			0
);

export material Polypropylene_Dark_Orange(*)
[[
	::anno::display_name("Polypropylene Opaque - Dark Orange"),
	::anno::author("NVIDIA vMaterials"),
	::anno::contributor("Ruediger Raab"),
	::anno::contributor("Maik Rohland"),
	::anno::description("Diffuse plastic polypropylene material for rendering of diffuse plastic with volumetric exhaustion."),
	::anno::key_words(string[]("plastic", "polypropylene", "PP", "synthetic", "opaque", "design", "packaging", "molded", "smudged", "smudges", "infinite tiling", "smooth", "dark", "orange", "saturated", "warm")),
	::anno::thumbnail("./.thumbs/Polypropylene_Opaque.Polypropylene_Dark_Orange.png"),
	::anno::copyright_notice(COPYRIGHT)
]] = Polypropylene_Opaque
(
	thin_walled:			false,
	IOR:					1.49f,
	roughness:				0.0f,
	diffuse_tint:			color(0.527115f, 0.127438f, 0.026241f),
	units_absorption_thickness: unit_cm,
	absorption_thickness:	20.0f,
	transmissive_tint:		color(0.955973f, 0.514918f, 0.040915f),
	smudges:				0.1f,
	smudge_scale:			float2(1.0f),
	texture_translate:		float2(0.0f),
	texture_rotate:			0.0f,
	texture_scale:			float2(1.0f),
	round_corners:			false,
	radius:					1.5f,
	across_materials:		false,
	uv_space_index:			0
);


export material Polypropylene_Red(*)
[[
	::anno::display_name("Polypropylene Opaque - Red"),
	::anno::author("NVIDIA vMaterials"),
	::anno::contributor("Ruediger Raab"),
	::anno::contributor("Maik Rohland"),
	::anno::description("Diffuse plastic polypropylene material for rendering of diffuse plastic with volumetric exhaustion."),
	::anno::key_words(string[]("plastic", "polypropylene", "PP", "synthetic", "opaque", "design", "packaging", "molded", "smudged", "smudges", "infinite tiling", "smooth", "red", "saturated", "warm")),
	::anno::thumbnail("./.thumbs/Polypropylene_Opaque.Polypropylene_Red.png"),
	::anno::copyright_notice(COPYRIGHT)
]] = Polypropylene_Opaque
(
	thin_walled:			false,
	IOR:					1.49f,
	roughness:				0.0f,
	diffuse_tint:			color(0.644480f, 0.036889f, 0.036889f),
	units_absorption_thickness: unit_cm,
	absorption_thickness:	20.0f,
	transmissive_tint:		color(0.921582f, 0.049707f, 0.049707f),
	smudges:				0.1f,
	smudge_scale:			float2(1.0f),
	texture_translate:		float2(0.0f),
	texture_rotate:			0.0f,
	texture_scale:			float2(1.0f),
	round_corners:			false,
	radius:					1.5f,
	across_materials:		false,
	uv_space_index:			0
);


export material Polypropylene_Magenta(*)
[[
	::anno::display_name("Polypropylene Opaque - Magenta"),
	::anno::author("NVIDIA vMaterials"),
	::anno::contributor("Ruediger Raab"),
	::anno::contributor("Maik Rohland"),
	::anno::description("Diffuse plastic polypropylene material for rendering of diffuse plastic with volumetric exhaustion."),
	::anno::key_words(string[]("plastic", "polypropylene", "PP", "synthetic", "opaque", "design", "packaging", "molded", "smudged", "smudges", "infinite tiling", "smooth", "magenta", "saturated", "warm")),
	::anno::thumbnail("./.thumbs/Polypropylene_Opaque.Polypropylene_Magenta.png"),
	::anno::copyright_notice(COPYRIGHT)
]] = Polypropylene_Opaque
(
	thin_walled:			false,
	IOR:					1.49f,
	roughness:				0.0f,
	diffuse_tint:			color(0.539479f, 0.051269f, 0.545724f),
	units_absorption_thickness: unit_cm,
	absorption_thickness:	20.0f,
	transmissive_tint:		color(0.921582f, 0.049707f, 0.144128f),
	smudges:				0.1f,
	smudge_scale:			float2(1.0f),
	texture_translate:		float2(0.0f),
	texture_rotate:			0.0f,
	texture_scale:			float2(1.0f),
	round_corners:			false,
	radius:					1.5f,
	across_materials:		false,
	uv_space_index:			0
);


export material Polypropylene_Purple(*)
[[
	::anno::display_name("Polypropylene Opaque - Purple"),
	::anno::author("NVIDIA vMaterials"),
	::anno::contributor("Ruediger Raab"),
	::anno::contributor("Maik Rohland"),
	::anno::description("Diffuse plastic polypropylene material for rendering of diffuse plastic with volumetric exhaustion."),
	::anno::key_words(string[]("plastic", "polypropylene", "PP", "synthetic", "opaque", "design", "packaging", "molded", "smudged", "smudges", "infinite tiling", "smooth", "purple", "saturated")),
	::anno::thumbnail("./.thumbs/Polypropylene_Opaque.Polypropylene_Purple.png"),
	::anno::copyright_notice(COPYRIGHT)
]] = Polypropylene_Opaque
(
	thin_walled:			false,
	IOR:					1.49f,
	roughness:				0.0f,
	diffuse_tint:			color(0.191202f, 0.022174f, 0.456411f),
	units_absorption_thickness: unit_cm,
	absorption_thickness:	20.0f,
	transmissive_tint:		color(0.412543f, 0.049707f, 0.921582f),
	smudges:				0.1f,
	smudge_scale:			float2(1.0f),
	texture_translate:		float2(0.0f),
	texture_rotate:			0.0f,
	texture_scale:			float2(1.0f),
	round_corners:			false,
	radius:					1.5f,
	across_materials:		false,
	uv_space_index:			0
);


export material Polypropylene_Dark_Blue(*)
[[
	::anno::display_name("Polypropylene Opaque - Dark Blue"),
	::anno::author("NVIDIA vMaterials"),
	::anno::contributor("Ruediger Raab"),
	::anno::contributor("Maik Rohland"),
	::anno::description("Diffuse plastic polypropylene material for rendering of diffuse plastic with volumetric exhaustion."),
	::anno::key_words(string[]("plastic", "polypropylene", "PP", "synthetic", "opaque", "design", "packaging", "molded", "smudged", "smudges", "infinite tiling", "smooth", "blue", "saturated", "cool", "dark")),
	::anno::thumbnail("./.thumbs/Polypropylene_Opaque.Polypropylene_Dark_Blue.png"),
	::anno::copyright_notice(COPYRIGHT)
]] = Polypropylene_Opaque
(
	thin_walled:			false,
	IOR:					1.49f,
	roughness:				0.0f,
	diffuse_tint:			color(0.031896f, 0.061246f, 0.304987f),
	units_absorption_thickness: unit_cm,
	absorption_thickness:	20.0f,
	transmissive_tint:		color(0.056128f, 0.135633f, 0.955973f),
	smudges:				0.1f,
	smudge_scale:			float2(1.0f),
	texture_translate:		float2(0.0f),
	texture_rotate:			0.0f,
	texture_scale:			float2(1.0f),
	round_corners:			false,
	radius:					1.5f,
	across_materials:		false,
	uv_space_index:			0
);


export material Polypropylene_Blue(*)
[[
	::anno::display_name("Polypropylene Opaque - Blue"),
	::anno::author("NVIDIA vMaterials"),
	::anno::contributor("Ruediger Raab"),
	::anno::contributor("Maik Rohland"),
	::anno::description("Diffuse plastic polypropylene material for rendering of diffuse plastic with volumetric exhaustion."),
	::anno::key_words(string[]("plastic", "polypropylene", "PP", "synthetic", "opaque", "design", "packaging", "molded", "smudged", "smudges", "infinite tiling", "smooth", "blue", "saturated", "cool")),
	::anno::thumbnail("./.thumbs/Polypropylene_Opaque.Polypropylene_Blue.png"),
	::anno::copyright_notice(COPYRIGHT)
]] = Polypropylene_Opaque
(
	thin_walled:			false,
	IOR:					1.49f,
	roughness:				0.0f,
	diffuse_tint:			color(0.038204f, 0.171441f, 0.838799f),
	units_absorption_thickness: unit_cm,
	absorption_thickness:	20.0f,
	transmissive_tint:		color(0.042311f, 0.194618f, 0.955973f),
	smudges:				0.1f,
	smudge_scale:			float2(1.0f),
	texture_translate:		float2(0.0f),
	texture_rotate:			0.0f,
	texture_scale:			float2(1.0f),
	round_corners:			false,
	radius:					1.5f,
	across_materials:		false,
	uv_space_index:			0
);


export material Polypropylene_Sky_Blue(*)
[[
	::anno::display_name("Polypropylene Opaque - Sky Blue"),
	::anno::author("NVIDIA vMaterials"),
	::anno::contributor("Ruediger Raab"),
	::anno::contributor("Maik Rohland"),
	::anno::description("Diffuse plastic polypropylene material for rendering of diffuse plastic with volumetric exhaustion."),
	::anno::key_words(string[]("plastic", "polypropylene", "PP", "synthetic", "opaque", "design", "packaging", "molded", "smudged", "smudges", "infinite tiling", "smooth", "blue", "sky", "light", "cool")),
	::anno::thumbnail("./.thumbs/Polypropylene_Opaque.Polypropylene_Sky_Blue.png"),
	::anno::copyright_notice(COPYRIGHT)
]] = Polypropylene_Opaque
(
	thin_walled:			false,
	IOR:					1.49f,
	roughness:				0.0f,
	diffuse_tint:			color(0.135633f, 0.356400f, 0.871367f),
	units_absorption_thickness: unit_cm,
	absorption_thickness:	20.0f,
	transmissive_tint:		color(0.070360f, 0.346704f, 0.964686f),
	smudges:				0.1f,
	smudge_scale:			float2(1.0f),
	texture_translate:		float2(0.0f),
	texture_rotate:			0.0f,
	texture_scale:			float2(1.0f),
	round_corners:			false,
	radius:					1.5f,
	across_materials:		false,
	uv_space_index:			0
);


export material Polypropylene_Light_Blue(*)
[[
	::anno::display_name("Polypropylene Opaque - Light Blue"),
	::anno::author("NVIDIA vMaterials"),
	::anno::contributor("Ruediger Raab"),
	::anno::contributor("Maik Rohland"),
	::anno::description("Diffuse plastic polypropylene material for rendering of diffuse plastic with volumetric exhaustion."),
	::anno::key_words(string[]("plastic", "polypropylene", "PP", "synthetic", "opaque", "design", "packaging", "molded", "smudged", "smudges", "infinite tiling", "smooth", "blue", "light", "cool")),
	::anno::thumbnail("./.thumbs/Polypropylene_Opaque.Polypropylene_Sky_Blue.png"),
	::anno::copyright_notice(COPYRIGHT)
]] = Polypropylene_Opaque
(
	thin_walled:			false,
	IOR:					1.49f,
	roughness:				0.0f,
	diffuse_tint:			color(0.258183f, 0.768151f, 0.822786f),
	units_absorption_thickness: unit_cm,
	absorption_thickness:	20.0f,
	transmissive_tint:		color(0.300544f, 0.896269f, 0.955973f),
	smudges:				0.1f,
	smudge_scale:			float2(1.0f),
	texture_translate:		float2(0.0f),
	texture_rotate:			0.0f,
	texture_scale:			float2(1.0f),
	round_corners:			false,
	radius:					1.5f,
	across_materials:		false,
	uv_space_index:			0
);


export material Polypropylene_Teal(*)
[[
	::anno::display_name("Polypropylene Opaque - Teal"),
	::anno::author("NVIDIA vMaterials"),
	::anno::contributor("Ruediger Raab"),
	::anno::contributor("Maik Rohland"),
	::anno::description("Diffuse plastic polypropylene material for rendering of diffuse plastic with volumetric exhaustion."),
	::anno::key_words(string[]("plastic", "polypropylene", "PP", "synthetic", "opaque", "design", "packaging", "molded", "smudged", "smudges", "infinite tiling", "smooth", "teal", "saturated", "cool")),
	::anno::thumbnail("./.thumbs/Polypropylene_Opaque.Polypropylene_Teal.png"),
	::anno::copyright_notice(COPYRIGHT)
]] = Polypropylene_Opaque
(
	thin_walled:			false,
	IOR:					1.49f,
	roughness:				0.0f,
	diffuse_tint:			color(0.040915f, 0.571125f, 0.323143f),
	units_absorption_thickness: unit_cm,
	absorption_thickness:	20.0f,
	transmissive_tint:		color(0.064803f, 0.955973f, 0.332452f),
	smudges:				0.1f,
	smudge_scale:			float2(1.0f),
	texture_translate:		float2(0.0f),
	texture_rotate:			0.0f,
	texture_scale:			float2(1.0f),
	round_corners:			false,
	radius:					1.5f,
	across_materials:		false,
	uv_space_index:			0
);


export material Polypropylene_Dark_Green(*)
[[
	::anno::display_name("Polypropylene Opaque - Dark Green"),
	::anno::author("NVIDIA vMaterials"),
	::anno::contributor("Ruediger Raab"),
	::anno::contributor("Maik Rohland"),
	::anno::description("Diffuse plastic polypropylene material for rendering of diffuse plastic with volumetric exhaustion."),
	::anno::key_words(string[]("plastic", "polypropylene", "PP", "synthetic", "opaque", "design", "packaging", "molded", "smudged", "smudges", "infinite tiling", "smooth", "green", "saturated", "dark")),
	::anno::thumbnail("./.thumbs/Polypropylene_Opaque.Polypropylene_Dark_Green.png"),
	::anno::copyright_notice(COPYRIGHT)
]] = Polypropylene_Opaque
(
	thin_walled:			false,
	IOR:					1.49f,
	roughness:				0.0f,
	diffuse_tint:			color(0.026241f, 0.141263f, 0.026241f),
	units_absorption_thickness: unit_cm,
	absorption_thickness:	20.0f,
	transmissive_tint:		color(0.086500f, 0.854993f, 0.086500f),
	smudges:				0.1f,
	smudge_scale:			float2(1.0f),
	texture_translate:		float2(0.0f),
	texture_rotate:			0.0f,
	texture_scale:			float2(1.0f),
	round_corners:			false,
	radius:					1.5f,
	across_materials:		false,
	uv_space_index:			0
);


export material Polypropylene_Green(*)
[[
	::anno::display_name("Polypropylene Opaque - Green"),
	::anno::author("NVIDIA vMaterials"),
	::anno::contributor("Ruediger Raab"),
	::anno::contributor("Maik Rohland"),
	::anno::description("Diffuse plastic polypropylene material for rendering of diffuse plastic with volumetric exhaustion."),
	::anno::key_words(string[]("plastic", "polypropylene", "PP", "synthetic", "opaque", "design", "packaging", "molded", "smudged", "smudges", "infinite tiling", "smooth", "green", "saturated")),
	::anno::thumbnail("./.thumbs/Polypropylene_Opaque.Polypropylene_Green.png"),
	::anno::copyright_notice(COPYRIGHT)
]] = Polypropylene_Opaque
(
	thin_walled:			false,
	IOR:					1.49f,
	roughness:				0.0f,
	diffuse_tint:			color(0.023153f, 0.346704f, 0.023153f),
	units_absorption_thickness: unit_cm,
	absorption_thickness:	20.0f,
	transmissive_tint:		color(0.054480f, 0.938686f, 0.054480f),
	smudges:				0.1f,
	smudge_scale:			float2(1.0f),
	texture_translate:		float2(0.0f),
	texture_rotate:			0.0f,
	texture_scale:			float2(1.0f),
	round_corners:			false,
	radius:					1.5f,
	across_materials:		false,
	uv_space_index:			0
);


export material Polypropylene_Light_Green(*)
[[
	::anno::display_name("Polypropylene Opaque - Light Green"),
	::anno::author("NVIDIA vMaterials"),
	::anno::contributor("Ruediger Raab"),
	::anno::contributor("Maik Rohland"),
	::anno::description("Diffuse plastic polypropylene material for rendering of diffuse plastic with volumetric exhaustion."),
	::anno::key_words(string[]("plastic", "polypropylene", "PP", "synthetic", "opaque", "design", "packaging", "molded", "smudged", "smudges", "infinite tiling", "smooth", "green", "saturated", "light")),
	::anno::thumbnail("./.thumbs/Polypropylene_Opaque.Polypropylene_Light_Green.png"),
	::anno::copyright_notice(COPYRIGHT)
]] = Polypropylene_Opaque
(
	thin_walled:			false,
	IOR:					1.49f,
	roughness:				0.0f,
	diffuse_tint:			color(0.034340f, 0.679542f, 0.031896f),
	units_absorption_thickness: unit_cm,
	absorption_thickness:	20.0f,
	transmissive_tint:		color(0.054480f, 0.930111f, 0.054480f),
	smudges:				0.1f,
	smudge_scale:			float2(1.0f),
	texture_translate:		float2(0.0f),
	texture_rotate:			0.0f,
	texture_scale:			float2(1.0f),
	round_corners:			false,
	radius:					1.5f,
	across_materials:		false,
	uv_space_index:			0
);


export material Polypropylene_Lime_Green(*)
[[
	::anno::display_name("Polypropylene Opaque - Lime Green"),
	::anno::author("NVIDIA vMaterials"),
	::anno::contributor("Ruediger Raab"),
	::anno::contributor("Maik Rohland"),
	::anno::description("Diffuse plastic polypropylene material for rendering of diffuse plastic with volumetric exhaustion."),
	::anno::key_words(string[]("plastic", "polypropylene", "PP", "synthetic", "opaque", "design", "packaging", "molded", "smudged", "smudges", "infinite tiling", "smooth", "green", "lime", "saturated", "light")),
	::anno::thumbnail("./.thumbs/Polypropylene_Opaque.Polypropylene_Lime_Green.png"),
	::anno::copyright_notice(COPYRIGHT)
]] = Polypropylene_Opaque
(
	thin_walled:			false,
	IOR:					1.49f,
	roughness:				0.0f,
	diffuse_tint:			color(0.208637f, 0.597202f, 0.031896f),
	units_absorption_thickness: unit_cm,
	absorption_thickness:	20.0f,
	transmissive_tint:		color(0.300544f, 0.879622f, 0.043735f),
	smudges:				0.1f,
	smudge_scale:			float2(1.0f),
	texture_translate:		float2(0.0f),
	texture_rotate:			0.0f,
	texture_scale:			float2(1.0f),
	round_corners:			false,
	radius:					1.5f,
	across_materials:		false,
	uv_space_index:			0
);


export material Polypropylene_Black(*)
[[
	::anno::display_name("Polypropylene Opaque - Black"),
	::anno::author("NVIDIA vMaterials"),
	::anno::contributor("Ruediger Raab"),
	::anno::contributor("Maik Rohland"),
	::anno::description("Diffuse plastic polypropylene material for rendering of diffuse plastic with volumetric exhaustion."),
	::anno::key_words(string[]("plastic", "polypropylene", "PP", "synthetic", "opaque", "design", "packaging", "molded", "smudged", "smudges", "infinite tiling", "smooth", "black", "dark", "neutral")),
	::anno::thumbnail("./.thumbs/Polypropylene_Opaque.Polypropylene_Black.png"),
	::anno::copyright_notice(COPYRIGHT)
]] = Polypropylene_Opaque
(
	thin_walled:			false,
	IOR:					1.49f,
	roughness:				0.0f,
	diffuse_tint:			color(0.038204f, 0.038204f, 0.038204f),
	units_absorption_thickness: unit_cm,
	absorption_thickness:	20.0f,
	transmissive_tint:		color(0.038204f, 0.038204f, 0.038204f),
	smudges:				0.1f,
	smudge_scale:			float2(1.0f),
	texture_translate:		float2(0.0f),
	texture_rotate:			0.0f,
	texture_scale:			float2(1.0f),
	round_corners:			false,
	radius:					1.5f,
	across_materials:		false,
	uv_space_index:			0
);


export material Polypropylene_Dark_Gray(*)
[[
	::anno::display_name("Polypropylene Opaque - Dark Gray"),
	::anno::author("NVIDIA vMaterials"),
	::anno::contributor("Ruediger Raab"),
	::anno::contributor("Maik Rohland"),
	::anno::description("Diffuse plastic polypropylene material for rendering of diffuse plastic with volumetric exhaustion."),
	::anno::key_words(string[]("plastic", "polypropylene", "PP", "synthetic", "opaque", "design", "packaging", "molded", "smudged", "smudges", "infinite tiling", "smooth", "gray", "dark", "neutral")),
	::anno::thumbnail("./.thumbs/Polypropylene_Opaque.Polypropylene_Dark_Gray.png"),
	::anno::copyright_notice(COPYRIGHT)
]] = Polypropylene_Opaque
(
	thin_walled:			false,
	IOR:					1.49f,
	roughness:				0.0f,
	diffuse_tint:			color(0.127438f, 0.127438f, 0.127438f),
	units_absorption_thickness: unit_cm,
	absorption_thickness:	20.0f,
	transmissive_tint:		color(0.822786f, 0.822786f, 0.822786f),
	smudges:				0.1f,
	smudge_scale:			float2(1.0f),
	texture_translate:		float2(0.0f),
	texture_rotate:			0.0f,
	texture_scale:			float2(1.0f),
	round_corners:			false,
	radius:					1.5f,
	across_materials:		false,
	uv_space_index:			0
);


export material Polypropylene_Light_Gray(*)
[[
	::anno::display_name("Polypropylene Opaque - Light Gray"),
	::anno::author("NVIDIA vMaterials"),
	::anno::contributor("Ruediger Raab"),
	::anno::contributor("Maik Rohland"),
	::anno::description("Diffuse plastic polypropylene material for rendering of diffuse plastic with volumetric exhaustion."),
	::anno::key_words(string[]("plastic", "polypropylene", "PP", "synthetic", "opaque", "design", "packaging", "molded", "smudged", "smudges", "infinite tiling", "smooth", "gray", "light", "neutral")),
	::anno::thumbnail("./.thumbs/Polypropylene_Opaque.Polypropylene_Light_Gray.png"),
	::anno::copyright_notice(COPYRIGHT)
]] = Polypropylene_Opaque
(
	thin_walled:			false,
	IOR:					1.49f,
	roughness:				0.0f,
	diffuse_tint:			color(0.456411f, 0.456411f, 0.456411f),
	units_absorption_thickness: unit_cm,
	absorption_thickness:	20.0f,
	transmissive_tint:		color(0.991102f, 0.991102f, 0.991102f),
	smudges:				0.1f,
	smudge_scale:			float2(1.0f),
	texture_translate:		float2(0.0f),
	texture_rotate:			0.0f,
	texture_scale:			float2(1.0f),
	round_corners:			false,
	radius:					1.5f,
	across_materials:		false,
	uv_space_index:			0
);