materials/vMaterials_2/Composite/Carbon_Fiber.mdl

/******************************************************************************
 *	 Copyright 2024 NVIDIA Corporation. All rights reserved.	 *
 ******************************************************************************
 
Permission is hereby granted by NVIDIA Corporation ("NVIDIA"), free of charge,
to any person obtaining a copy of the sample definition code that uses our 
Material Definition Language (the "MDL Materials"), to reproduce and distribute
the MDL Materials, including without limitation the rights to use, copy, merge,
publish, distribute, and sell modified and unmodified copies of the MDL 
Materials, and to permit persons to whom the MDL Materials is furnished to do
so, in all cases solely for use with NVIDIA's Material Definition Language,
subject to the following further conditions:

1. The above copyright notices, this list of conditions, and the disclaimer
that follows shall be retained in all copies of one or more of the MDL
Materials, including in any software with which the MDL Materials are bundled,
redistributed, and/or sold, and included either as stand-alone text files,
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within text or binary files as long as those fields can be easily viewed by the
user, as applicable.
2. The name of NVIDIA shall not be used to promote, endorse or advertise any 
Modified Version without specific prior written permission, except a) to comply
 with the notice requirements otherwise contained herein; or b) to acknowledge
the contribution(s) of NVIDIA.

THE MDL MATERIALS ARE PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS
OR IMPLIED, INCLUDING BUT NOT LIMITED TO ANY WARRANTIES OF MERCHANTABILITY,
FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT OF COPYRIGHT, PATENT,
TRADEMARK, OR OTHER RIGHT. IN NO EVENT SHALL NVIDIA CORPORATION BE LIABLE FOR 
ANY CLAIM, DAMAGES OR OTHER LIABILITY, INCLUDING ANY GENERAL, SPECIAL, 
INDIRECT, INCIDENTAL, OR CONSEQUENTIAL DAMAGES, WHETHER IN AN ACTION OF 
CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF THE USE OR INABILITY TO USE
THE MDL MATERIALS OR FROM OTHER DEALINGS IN THE MDL MATERIALS.
*/


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";

const string DESCRIPTION = "A polished brass material with tweakable surface imperfections.";


annotation preview_scale( float f);

// Returns the normal n in tangent space, given n is in internal space.
float3 transform_internal_to_tangent(float3 n)
[[ 
	anno::hidden() 
]]
{
	return
		n.x* float3(state::texture_tangent_u(0).x,state::texture_tangent_v(0).x,state::normal().x)+
		n.y* float3(state::texture_tangent_u(0).y,state::texture_tangent_v(0).y,state::normal().y)+
		n.z* float3(state::texture_tangent_u(0).z,state::texture_tangent_v(0).z,state::normal().z);
}

// Returns the normal n in internal space, given n is in tangent space.
float3 transform_tangent_to_internal(float3 n)
[[ 
	anno::hidden() 
]]
{
	return  state::texture_tangent_u(0) * n.x +
			state::texture_tangent_v(0) * n.y +
			state::normal() * n.z ;
}



// Returns a normal by adding a detail normal to a global normal.
// If detail blending of two normal maps gives visual artifacts, check if texture_2d are loaded
// correctly with tex::gamma_linear
float3 add_detail_normal(float3 nd = state::normal(), float3 n = state::normal())
{
	// http://blog.selfshadow.com/publications/blending-in-detail/
	float3 n_t = transform_internal_to_tangent(n);
	float3 nd_t = transform_internal_to_tangent(nd);

	n_t=n_t + float3(0.,0.,1.);
	nd_t = nd_t *  float3(-1.,-1.,1.);
	n = n_t*math::dot(n_t, nd_t)/n_t.z - nd_t;
	return ::math::normalize(transform_tangent_to_internal(n));
}


float histogram_range(float input, float range = 1.0f, float position = 0.5f)
{	
	float low = ::math::clamp(1.0 - ::math::min(((1.0 - position) + range * 0.5), (1.0 - position) * 2), 0.0, 1.0);
	float high = ::math::clamp(math::min((position + range * 0.5 ), position * 2.0), 0.0, 1.0);
	return ::math::lerp(low, high, input);
}


float remap(float input, float low, float high)
{
	return ::math::lerp(low, high, input);
}

::base::texture_coordinate_info vmat_transform_post_scale(
	::base::texture_coordinate_info uvw,
	float2 scale = float2(1.0f)
)
{
	return ::base::texture_coordinate_info(
		position: float3(uvw.position.x / scale.x,
						uvw.position.y / scale.y,
						uvw.position.z),
		tangent_u: uvw.tangent_u,
		tangent_v: uvw.tangent_v
	);
}

::base::anisotropy_return anisotropy_conversion(
	float roughness = 0.0,
	float anisotropy = 0.0,
	float anisotropy_rotation = 0.0,
	float3 tangent_u = ::state::texture_tangent_u(0)
)
{
	::base::anisotropy_return return_value(
		roughness_u: roughness * roughness,
		roughness_v: roughness * roughness,
		tangent_u: tangent_u
	);

	if (anisotropy > 0.f) {
		// Allows for infinite anisotropy when roughness==0, full roughness when anisotropy==0 (saturated later on)
		return_value.roughness_u += ::math::pow(anisotropy,4);

		if (anisotropy_rotation > 0.f && anisotropy_rotation < 1.f) {
			float3 tangent_v = ::math::cross(::state::normal(), tangent_u);		 // assumed these are normalized already
			float rotation_angle = 2.f * ::math::PI * anisotropy_rotation;
			return_value.tangent_u = tangent_u * ::math::cos(rotation_angle) - tangent_v * ::math::sin(rotation_angle);
		}
	}

	return_value.roughness_u = ::math::min(1.f, return_value.roughness_u);
	return_value.roughness_v = ::math::min(1.f, return_value.roughness_v);
	
	return return_value;
}


::base::texture_coordinate_info vmat_transform(
								uniform float2 translation = float2(0.0, 0.0),
								uniform float rotation	 = 0.0,
								uniform float2 scaling	 = float2(1.0, 1.0),
								uniform ::base::texture_coordinate_system system = ::base::texture_coordinate_uvw,
								uniform int uv_space	   = 0
)
{
	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);
	float c = ::math::cos(rotation);
	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 ::base::transform_coordinate(scale*rotate, ::base::coordinate_source(system, uv_space));
}

float remap_xy_to_0_1(float input, float x, float y)
{
	return (input - x)/(y - x);
}

float histogram_scan_big(float input, float width, float position)
{
	return ::math::clamp(
				remap_xy_to_0_1(input,
					::math::lerp(-width, 1.0, position),
					::math::lerp(0.0, 1.0 + width, position)),
				0.0,
				1.0);
}

float histogram_pos_range(float input, float range, float position)
{
	float range_half = range/2.0;
	float add_high = (position - range_half) < 0.0 ? ::math::abs(position - range_half) : 0.0;
	float subtract_low = (position + range_half) > 1.0 ? ::math::abs((position + range_half)-1.0) : 0.0;
	
	
	float low = (position - range_half) < 0.0 ? 0.0 : (position - range_half - subtract_low);
	float high = (position + range_half) > 1.0 ? 1.0 : (position + range_half + add_high);
	return remap(input, low, high);
}

export material Carbon_Fiber(
	float carbon_fiber_brightness = 0.22f [[
		::anno::description("Adjusts the brightness of the material."),
		::anno::display_name("Brightness"),
		::anno::hard_range(0.f, 1.f),
		::anno::ui_order(0)
	]],
	float fibers_roughness = 0.16f [[
		::anno::description("Afjusts the roughness of the fibers."),
		::anno::display_name("Fibers Roughness"),
		::anno::in_group("Appearance", "Fibers"),
		::anno::hard_range(0.f, 1.f),
		::anno::ui_order(1)
	]],
	float fibers_anisotropy = 0.18f [[
		::anno::description("Adjusts the anisotropy of the fibers. Higher values stretches the reflection of the fibers."),
		::anno::display_name("Fibers Anisotropy"),
		::anno::in_group("Appearance", "Fibers"),
		::anno::hard_range(0.f, 1.f),
		::anno::ui_order(2)
	]],
	uniform float weaving_bump_strength = 1.f [[
		::anno::description("Adjusts the bumpiness of the weaving pattern."),
		::anno::display_name("Weaving Bump Strength"),
		::anno::in_group("Appearance", "Fibers"),
		::anno::hard_range(0.f, 2.f),
		::anno::soft_range(0.f, 1.f),
		::anno::ui_order(3)
	]],
	uniform bool enable_coating = false [[
		::anno::description("When enables, a a transparent coating is applied on top of the carbon fiber."),
		::anno::display_name("Enable Coating"),
		::anno::in_group("Coating"),
		::anno::ui_order(4)
	]],
	float coating_roughness = 0.f [[
		::anno::description("Adjusts the roughness of the coating. Higher values lead to blurrier reflections."),
		::anno::display_name("Coating Roughness"),
		::anno::in_group("Coating"),
		::anno::hard_range(0.f, 1.f),
		::anno::ui_order(5)
	]],
	float coating_roughness_variation = 0.36f [[
		::anno::description("This parameter adds variation to the roughness so that it appears less uniform."),
		::anno::display_name("Coating Roughness Variation"),
		::anno::in_group("Coating"),
		::anno::hard_range(0.f, 1.f),
		::anno::ui_order(6)
	]],
	uniform float coating_damages_intensity = 0.02f [[
		::anno::description("Adds scratches and wear on the coating."),
		::anno::display_name("Coating Damages"),
		::anno::in_group("Coating"),
		::anno::hard_range(0.f, 1.f),
		::anno::ui_order(7)
	]],
	float coating_damages_scale = .75f [[
		::anno::description("Use this parameter to make the damages bigger or smaller, relative to the overall texture scale."),
		::anno::display_name("Damages Scale"),
		::anno::in_group("Coating"),
		::anno::hard_range(0.f, 1.f),
		::anno::ui_order(8)
	]],
	float coating_dust = 0.23f [[
		::anno::description("Adds a thin layer of dust which makes the surface a bit more matte when applied."),
		::anno::display_name("Coating Dust"),
		::anno::in_group("Coating"),
		::anno::hard_range(0.f, 1.f),
		::anno::ui_order(9)
	]],
	uniform 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(10)
	]],
	uniform 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(11)
	]],
	uniform float2 texture_scale = float2(1.f) [[
		::anno::description("Larger numbers increase the size."),
		::anno::display_name("Texture Scale"),
		::anno::in_group("Transform"),
		::nvidia::core_definitions::dimension(float2(.60f, .60f)),
		::preview_scale(2.5f),
		::anno::ui_order(12)
	]],
	uniform bool roundcorners_enable = false [[
		::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("Enable Round Corners"),
		::anno::in_group("Round Corners"),
		::anno::ui_order(13)
	]],
	uniform float roundcorners_radius_mm = 1.5f [[
		::anno::description("Radius of the rounded corners in millimeters."),
		::anno::display_name("Round Corner Radius (mm)"),
		::anno::in_group("Round Corners"),
		::anno::soft_range(0.f, 10.f),
		::anno::ui_order(14)
	]],
	uniform bool roundcorners_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(15)
	]],
	uniform int uv_space_index = 0 [[
		::anno::description("Uses selected UV space for material."),
		::anno::display_name("UV Space Index"),
		::anno::in_group("Advanced"),
		::anno::ui_order(16)
	]])
[[
	::anno::author("NVIDIA vMaterials"),
	::anno::contributor("Rüdiger Raab"),
	::anno::contributor("Maik Rohland"),
	::anno::display_name("Carbon Fiber - Shiny Uncoated"),
	::anno::description(DESCRIPTION),
	::anno::copyright_notice(COPYRIGHT),
	::anno::thumbnail("./.thumbs/Carbon_Fiber.Carbon_Fiber.png"),
	::anno::key_words(string[]("fabric", "composite", "woven", "new", "bumped", "design", "automotive", "black", "dark", "neutral"))
]]
 = 
    let {
        bool tmp0 = true;
        material_surface tmp1(enable_coating ? ::df::custom_curve_layer(0.0399999991f, 1.f, 5.f, 1.f, ::df::microfacet_ggx_smith_bsdf((float3(::base::file_texture(texture_2d("./textures/surface_damages_multi_R_rough_B_rough2.jpg", ::tex::gamma_linear), color(0.f, 0.f, 0.f), color(1.f, 1.f, 1.f), ::base::mono_alpha, vmat_transform_post_scale(vmat_transform(texture_translate, texture_rotate, texture_scale * 0.075000003f, ::base::texture_coordinate_uvw, uv_space_index), float2(coating_damages_scale * 8.f)), float2(0.f, 1.f), float2(0.f, 1.f), ::tex::wrap_repeat, ::tex::wrap_repeat, false, 0.f, int2(0), ::tex::wrap_repeat, 30.f).tint).y * coating_dust + ::math::max(::math::lerp(::math::lerp(0.f, 0.300000012f, coating_roughness), coating_roughness * ::base::file_texture(texture_2d("./textures/generic_surface_rough.jpg", ::tex::gamma_linear), color(0.f, 0.f, 0.f), color(1.f, 1.f, 1.f), ::base::mono_average, vmat_transform_post_scale(vmat_transform(texture_translate, texture_rotate, texture_scale * 0.075000003f, ::base::texture_coordinate_uvw, uv_space_index), float2(coating_damages_scale * 8.f)), float2(0.f, 1.f), float2(0.f, 1.f), ::tex::wrap_repeat, ::tex::wrap_repeat, false, 0.f, int2(0), ::tex::wrap_repeat, 30.f).mono, histogram_range(coating_roughness_variation, 0.229999989f, 0.300000012f)), float3(::base::file_texture(texture_2d("./textures/surface_damages_multi_R_rough_B_rough2.jpg", ::tex::gamma_linear), color(0.f, 0.f, 0.f), color(1.f, 1.f, 1.f), ::base::mono_alpha, vmat_transform_post_scale(vmat_transform(texture_translate, texture_rotate, texture_scale * 0.075000003f, ::base::texture_coordinate_uvw, uv_space_index), float2(coating_damages_scale * 8.f)), float2(0.f, 1.f), float2(0.f, 1.f), ::tex::wrap_repeat, ::tex::wrap_repeat, false, 0.f, int2(0), ::tex::wrap_repeat, 30.f).tint).x * coating_damages_intensity)) * (float3(::base::file_texture(texture_2d("./textures/surface_damages_multi_R_rough_B_rough2.jpg", ::tex::gamma_linear), color(0.f, 0.f, 0.f), color(1.f, 1.f, 1.f), ::base::mono_alpha, vmat_transform_post_scale(vmat_transform(texture_translate, texture_rotate, texture_scale * 0.075000003f, ::base::texture_coordinate_uvw, uv_space_index), float2(coating_damages_scale * 8.f)), float2(0.f, 1.f), float2(0.f, 1.f), ::tex::wrap_repeat, ::tex::wrap_repeat, false, 0.f, int2(0), ::tex::wrap_repeat, 30.f).tint).y * coating_dust + ::math::max(::math::lerp(::math::lerp(0.f, 0.300000012f, coating_roughness), coating_roughness * ::base::file_texture(texture_2d("./textures/generic_surface_rough.jpg", ::tex::gamma_linear), color(0.f, 0.f, 0.f), color(1.f, 1.f, 1.f), ::base::mono_average, vmat_transform_post_scale(vmat_transform(texture_translate, texture_rotate, texture_scale * 0.075000003f, ::base::texture_coordinate_uvw, uv_space_index), float2(coating_damages_scale * 8.f)), float2(0.f, 1.f), float2(0.f, 1.f), ::tex::wrap_repeat, ::tex::wrap_repeat, false, 0.f, int2(0), ::tex::wrap_repeat, 30.f).mono, histogram_range(coating_roughness_variation, 0.229999989f, 0.300000012f)), float3(::base::file_texture(texture_2d("./textures/surface_damages_multi_R_rough_B_rough2.jpg", ::tex::gamma_linear), color(0.f, 0.f, 0.f), color(1.f, 1.f, 1.f), ::base::mono_alpha, vmat_transform_post_scale(vmat_transform(texture_translate, texture_rotate, texture_scale * 0.075000003f, ::base::texture_coordinate_uvw, uv_space_index), float2(coating_damages_scale * 8.f)), float2(0.f, 1.f), float2(0.f, 1.f), ::tex::wrap_repeat, ::tex::wrap_repeat, false, 0.f, int2(0), ::tex::wrap_repeat, 30.f).tint).x * coating_damages_intensity)), (float3(::base::file_texture(texture_2d("./textures/surface_damages_multi_R_rough_B_rough2.jpg", ::tex::gamma_linear), color(0.f, 0.f, 0.f), color(1.f, 1.f, 1.f), ::base::mono_alpha, vmat_transform_post_scale(vmat_transform(texture_translate, texture_rotate, texture_scale * 0.075000003f, ::base::texture_coordinate_uvw, uv_space_index), float2(coating_damages_scale * 8.f)), float2(0.f, 1.f), float2(0.f, 1.f), ::tex::wrap_repeat, ::tex::wrap_repeat, false, 0.f, int2(0), ::tex::wrap_repeat, 30.f).tint).y * coating_dust + ::math::max(::math::lerp(::math::lerp(0.f, 0.300000012f, coating_roughness), coating_roughness * ::base::file_texture(texture_2d("./textures/generic_surface_rough.jpg", ::tex::gamma_linear), color(0.f, 0.f, 0.f), color(1.f, 1.f, 1.f), ::base::mono_average, vmat_transform_post_scale(vmat_transform(texture_translate, texture_rotate, texture_scale * 0.075000003f, ::base::texture_coordinate_uvw, uv_space_index), float2(coating_damages_scale * 8.f)), float2(0.f, 1.f), float2(0.f, 1.f), ::tex::wrap_repeat, ::tex::wrap_repeat, false, 0.f, int2(0), ::tex::wrap_repeat, 30.f).mono, histogram_range(coating_roughness_variation, 0.229999989f, 0.300000012f)), float3(::base::file_texture(texture_2d("./textures/surface_damages_multi_R_rough_B_rough2.jpg", ::tex::gamma_linear), color(0.f, 0.f, 0.f), color(1.f, 1.f, 1.f), ::base::mono_alpha, vmat_transform_post_scale(vmat_transform(texture_translate, texture_rotate, texture_scale * 0.075000003f, ::base::texture_coordinate_uvw, uv_space_index), float2(coating_damages_scale * 8.f)), float2(0.f, 1.f), float2(0.f, 1.f), ::tex::wrap_repeat, ::tex::wrap_repeat, false, 0.f, int2(0), ::tex::wrap_repeat, 30.f).tint).x * coating_damages_intensity)) * (float3(::base::file_texture(texture_2d("./textures/surface_damages_multi_R_rough_B_rough2.jpg", ::tex::gamma_linear), color(0.f, 0.f, 0.f), color(1.f, 1.f, 1.f), ::base::mono_alpha, vmat_transform_post_scale(vmat_transform(texture_translate, texture_rotate, texture_scale * 0.075000003f, ::base::texture_coordinate_uvw, uv_space_index), float2(coating_damages_scale * 8.f)), float2(0.f, 1.f), float2(0.f, 1.f), ::tex::wrap_repeat, ::tex::wrap_repeat, false, 0.f, int2(0), ::tex::wrap_repeat, 30.f).tint).y * coating_dust + ::math::max(::math::lerp(::math::lerp(0.f, 0.300000012f, coating_roughness), coating_roughness * ::base::file_texture(texture_2d("./textures/generic_surface_rough.jpg", ::tex::gamma_linear), color(0.f, 0.f, 0.f), color(1.f, 1.f, 1.f), ::base::mono_average, vmat_transform_post_scale(vmat_transform(texture_translate, texture_rotate, texture_scale * 0.075000003f, ::base::texture_coordinate_uvw, uv_space_index), float2(coating_damages_scale * 8.f)), float2(0.f, 1.f), float2(0.f, 1.f), ::tex::wrap_repeat, ::tex::wrap_repeat, false, 0.f, int2(0), ::tex::wrap_repeat, 30.f).mono, histogram_range(coating_roughness_variation, 0.229999989f, 0.300000012f)), float3(::base::file_texture(texture_2d("./textures/surface_damages_multi_R_rough_B_rough2.jpg", ::tex::gamma_linear), color(0.f, 0.f, 0.f), color(1.f, 1.f, 1.f), ::base::mono_alpha, vmat_transform_post_scale(vmat_transform(texture_translate, texture_rotate, texture_scale * 0.075000003f, ::base::texture_coordinate_uvw, uv_space_index), float2(coating_damages_scale * 8.f)), float2(0.f, 1.f), float2(0.f, 1.f), ::tex::wrap_repeat, ::tex::wrap_repeat, false, 0.f, int2(0), ::tex::wrap_repeat, 30.f).tint).x * coating_damages_intensity)), 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(0.0700000003f, ::df::diffuse_transmission_bsdf(color(::math::pow(histogram_scan_big(float3(::base::file_texture(texture_2d("./textures/carbon_fiber_multi_R_rough_G_cutout_B_patternA.jpg", ::tex::gamma_linear), color(0.f, 0.f, 0.f), color(1.f, 1.f, 1.f), ::base::mono_alpha, vmat_transform(texture_translate, texture_rotate, texture_scale * 0.075000003f, ::base::texture_coordinate_uvw, uv_space_index), float2(0.f, 1.f), float2(0.f, 1.f), ::tex::wrap_repeat, ::tex::wrap_repeat, false, 0.f, int2(0), ::tex::wrap_repeat, 30.f).tint).x, 0.48999998f, 0.560000002f), 2.20000005f))), ::df::custom_curve_layer(carbon_fiber_brightness * 0.300000012f + 0.0199999996f, 1.f, 5.f, 1.f, ::df::microfacet_ggx_smith_bsdf(anisotropy_conversion(histogram_range(float3(::base::file_texture(texture_2d("./textures/carbon_fiber_multi_R_rough_G_cutout_B_patternA.jpg", ::tex::gamma_linear), color(0.f, 0.f, 0.f), color(1.f, 1.f, 1.f), ::base::mono_alpha, vmat_transform(texture_translate, texture_rotate, texture_scale * 0.075000003f, ::base::texture_coordinate_uvw, uv_space_index), float2(0.f, 1.f), float2(0.f, 1.f), ::tex::wrap_repeat, ::tex::wrap_repeat, false, 0.f, int2(0), ::tex::wrap_repeat, 30.f).tint).x, 0.769999981f, ::math::lerp(0.300000012f, 0.550000012f, fibers_roughness)), histogram_range(float3(::base::file_texture(texture_2d("./textures/carbon_fiber_multi_R_rough_G_cutout_B_patternA.jpg", ::tex::gamma_linear), color(0.f, 0.f, 0.f), color(1.f, 1.f, 1.f), ::base::mono_alpha, vmat_transform(texture_translate, texture_rotate, texture_scale * 0.075000003f, ::base::texture_coordinate_uvw, uv_space_index), float2(0.f, 1.f), float2(0.f, 1.f), ::tex::wrap_repeat, ::tex::wrap_repeat, false, 0.f, int2(0), ::tex::wrap_repeat, 30.f).tint).x, 0.789999962f, ::math::lerp(0.599999964f, 0.75f, fibers_anisotropy)), texture_rotate / 360.f + float3(::base::file_texture(texture_2d("./textures/carbon_fiber_multi_R_rough_G_cutout_B_patternA.jpg", ::tex::gamma_linear), color(0.f, 0.f, 0.f), color(1.f, 1.f, 1.f), ::base::mono_alpha, vmat_transform(texture_translate, texture_rotate, texture_scale * 0.075000003f, ::base::texture_coordinate_uvw, uv_space_index), float2(0.f, 1.f), float2(0.f, 1.f), ::tex::wrap_repeat, ::tex::wrap_repeat, false, 0.f, int2(0), ::tex::wrap_repeat, 30.f).tint).z * 0.25f, ::state::texture_tangent_u(0)).roughness_u, anisotropy_conversion(histogram_range(float3(::base::file_texture(texture_2d("./textures/carbon_fiber_multi_R_rough_G_cutout_B_patternA.jpg", ::tex::gamma_linear), color(0.f, 0.f, 0.f), color(1.f, 1.f, 1.f), ::base::mono_alpha, vmat_transform(texture_translate, texture_rotate, texture_scale * 0.075000003f, ::base::texture_coordinate_uvw, uv_space_index), float2(0.f, 1.f), float2(0.f, 1.f), ::tex::wrap_repeat, ::tex::wrap_repeat, false, 0.f, int2(0), ::tex::wrap_repeat, 30.f).tint).x, 0.769999981f, ::math::lerp(0.300000012f, 0.550000012f, fibers_roughness)), histogram_range(float3(::base::file_texture(texture_2d("./textures/carbon_fiber_multi_R_rough_G_cutout_B_patternA.jpg", ::tex::gamma_linear), color(0.f, 0.f, 0.f), color(1.f, 1.f, 1.f), ::base::mono_alpha, vmat_transform(texture_translate, texture_rotate, texture_scale * 0.075000003f, ::base::texture_coordinate_uvw, uv_space_index), float2(0.f, 1.f), float2(0.f, 1.f), ::tex::wrap_repeat, ::tex::wrap_repeat, false, 0.f, int2(0), ::tex::wrap_repeat, 30.f).tint).x, 0.789999962f, ::math::lerp(0.599999964f, 0.75f, fibers_anisotropy)), texture_rotate / 360.f + float3(::base::file_texture(texture_2d("./textures/carbon_fiber_multi_R_rough_G_cutout_B_patternA.jpg", ::tex::gamma_linear), color(0.f, 0.f, 0.f), color(1.f, 1.f, 1.f), ::base::mono_alpha, vmat_transform(texture_translate, texture_rotate, texture_scale * 0.075000003f, ::base::texture_coordinate_uvw, uv_space_index), float2(0.f, 1.f), float2(0.f, 1.f), ::tex::wrap_repeat, ::tex::wrap_repeat, false, 0.f, int2(0), ::tex::wrap_repeat, 30.f).tint).z * 0.25f, ::state::texture_tangent_u(0)).roughness_v, color(1.f, 1.f, 1.f), color(0.737910986f, 0.737910986f, 0.737910986f), anisotropy_conversion(histogram_range(float3(::base::file_texture(texture_2d("./textures/carbon_fiber_multi_R_rough_G_cutout_B_patternA.jpg", ::tex::gamma_linear), color(0.f, 0.f, 0.f), color(1.f, 1.f, 1.f), ::base::mono_alpha, vmat_transform(texture_translate, texture_rotate, texture_scale * 0.075000003f, ::base::texture_coordinate_uvw, uv_space_index), float2(0.f, 1.f), float2(0.f, 1.f), ::tex::wrap_repeat, ::tex::wrap_repeat, false, 0.f, int2(0), ::tex::wrap_repeat, 30.f).tint).x, 0.769999981f, ::math::lerp(0.300000012f, 0.550000012f, fibers_roughness)), histogram_range(float3(::base::file_texture(texture_2d("./textures/carbon_fiber_multi_R_rough_G_cutout_B_patternA.jpg", ::tex::gamma_linear), color(0.f, 0.f, 0.f), color(1.f, 1.f, 1.f), ::base::mono_alpha, vmat_transform(texture_translate, texture_rotate, texture_scale * 0.075000003f, ::base::texture_coordinate_uvw, uv_space_index), float2(0.f, 1.f), float2(0.f, 1.f), ::tex::wrap_repeat, ::tex::wrap_repeat, false, 0.f, int2(0), ::tex::wrap_repeat, 30.f).tint).x, 0.789999962f, ::math::lerp(0.599999964f, 0.75f, fibers_anisotropy)), texture_rotate / 360.f + float3(::base::file_texture(texture_2d("./textures/carbon_fiber_multi_R_rough_G_cutout_B_patternA.jpg", ::tex::gamma_linear), color(0.f, 0.f, 0.f), color(1.f, 1.f, 1.f), ::base::mono_alpha, vmat_transform(texture_translate, texture_rotate, texture_scale * 0.075000003f, ::base::texture_coordinate_uvw, uv_space_index), float2(0.f, 1.f), float2(0.f, 1.f), ::tex::wrap_repeat, ::tex::wrap_repeat, false, 0.f, int2(0), ::tex::wrap_repeat, 30.f).tint).z * 0.25f, ::state::texture_tangent_u(0)).tangent_u, ::df::scatter_reflect), ::df::weighted_layer(0.219999999f, ::df::diffuse_reflection_bsdf(color(::math::pow(histogram_pos_range(float3(::base::file_texture(texture_2d("./textures/carbon_fiber_multi_R_rough_G_cutout_B_patternA.jpg", ::tex::gamma_linear), color(0.f, 0.f, 0.f), color(1.f, 1.f, 1.f), ::base::mono_alpha, vmat_transform(texture_translate, texture_rotate, texture_scale * 0.075000003f, ::base::texture_coordinate_uvw, uv_space_index), float2(0.f, 1.f), float2(0.f, 1.f), ::tex::wrap_repeat, ::tex::wrap_repeat, false, 0.f, int2(0), ::tex::wrap_repeat, 30.f).tint).x, 0.469999999f, 0.149999991f), 2.20000005f)), 0.f), bsdf(), ::state::normal()), add_detail_normal(::base::tangent_space_normal_texture(texture_2d("./textures/carbon_fiber_fibers_norm.jpg", ::tex::gamma_linear), 1.f, false, false, vmat_transform(texture_translate, texture_rotate, texture_scale * 0.075000003f, ::base::texture_coordinate_uvw, uv_space_index), float2(0.f, 1.f), float2(0.f, 1.f), ::tex::wrap_repeat, ::tex::wrap_repeat, false, 1.f, 0.f, 0.f, int2(0), ::tex::wrap_repeat, 30.f), ::base::tangent_space_normal_texture(texture_2d("./textures/carbon_fiber_weaving_norm.png", ::tex::gamma_linear), weaving_bump_strength, false, false, vmat_transform_post_scale(vmat_transform(texture_translate, texture_rotate, texture_scale * 0.075000003f, ::base::texture_coordinate_uvw, uv_space_index), float2(0.25f)), float2(0.f, 1.f), float2(0.f, 1.f), ::tex::wrap_repeat, ::tex::wrap_repeat, false, 1.f, 0.f, 0.f, int2(0), ::tex::wrap_repeat, 30.f))), add_detail_normal(::base::tangent_space_normal_texture(texture_2d("./textures/carbon_fiber_fibers_norm.jpg", ::tex::gamma_linear), 1.f, false, false, vmat_transform(texture_translate, texture_rotate, texture_scale * 0.075000003f, ::base::texture_coordinate_uvw, uv_space_index), float2(0.f, 1.f), float2(0.f, 1.f), ::tex::wrap_repeat, ::tex::wrap_repeat, false, 1.f, 0.f, 0.f, int2(0), ::tex::wrap_repeat, 30.f), ::base::tangent_space_normal_texture(texture_2d("./textures/carbon_fiber_weaving_norm.png", ::tex::gamma_linear), weaving_bump_strength, false, false, vmat_transform_post_scale(vmat_transform(texture_translate, texture_rotate, texture_scale * 0.075000003f, ::base::texture_coordinate_uvw, uv_space_index), float2(0.25f)), float2(0.f, 1.f), float2(0.f, 1.f), ::tex::wrap_repeat, ::tex::wrap_repeat, false, 1.f, 0.f, 0.f, int2(0), ::tex::wrap_repeat, 30.f))), ::base::tangent_space_normal_texture(texture_2d("./textures/surface_damages_norm.jpg", ::tex::gamma_linear), coating_damages_intensity * 0.5f, false, false, vmat_transform_post_scale(vmat_transform(texture_translate, texture_rotate, texture_scale * 0.075000003f, ::base::texture_coordinate_uvw, uv_space_index), float2(coating_damages_scale * 8.f)), float2(0.f, 1.f), float2(0.f, 1.f), ::tex::wrap_repeat, ::tex::wrap_repeat, false, 1.f, 0.f, 0.f, int2(0), ::tex::wrap_repeat, 30.f)) : ::df::weighted_layer(0.0700000003f, ::df::diffuse_transmission_bsdf(color(::math::pow(histogram_scan_big(float3(::base::file_texture(texture_2d("./textures/carbon_fiber_multi_R_rough_G_cutout_B_patternA.jpg", ::tex::gamma_linear), color(0.f, 0.f, 0.f), color(1.f, 1.f, 1.f), ::base::mono_alpha, vmat_transform(texture_translate, texture_rotate, texture_scale * 0.075000003f, ::base::texture_coordinate_uvw, uv_space_index), float2(0.f, 1.f), float2(0.f, 1.f), ::tex::wrap_repeat, ::tex::wrap_repeat, false, 0.f, int2(0), ::tex::wrap_repeat, 30.f).tint).x, 0.48999998f, 0.560000002f), 2.20000005f))), ::df::custom_curve_layer(carbon_fiber_brightness * 0.300000012f + 0.0199999996f, 1.f, 5.f, 1.f, ::df::microfacet_ggx_smith_bsdf(anisotropy_conversion(histogram_range(float3(::base::file_texture(texture_2d("./textures/carbon_fiber_multi_R_rough_G_cutout_B_patternA.jpg", ::tex::gamma_linear), color(0.f, 0.f, 0.f), color(1.f, 1.f, 1.f), ::base::mono_alpha, vmat_transform(texture_translate, texture_rotate, texture_scale * 0.075000003f, ::base::texture_coordinate_uvw, uv_space_index), float2(0.f, 1.f), float2(0.f, 1.f), ::tex::wrap_repeat, ::tex::wrap_repeat, false, 0.f, int2(0), ::tex::wrap_repeat, 30.f).tint).x, 0.769999981f, ::math::lerp(0.300000012f, 0.550000012f, fibers_roughness)), histogram_range(float3(::base::file_texture(texture_2d("./textures/carbon_fiber_multi_R_rough_G_cutout_B_patternA.jpg", ::tex::gamma_linear), color(0.f, 0.f, 0.f), color(1.f, 1.f, 1.f), ::base::mono_alpha, vmat_transform(texture_translate, texture_rotate, texture_scale * 0.075000003f, ::base::texture_coordinate_uvw, uv_space_index), float2(0.f, 1.f), float2(0.f, 1.f), ::tex::wrap_repeat, ::tex::wrap_repeat, false, 0.f, int2(0), ::tex::wrap_repeat, 30.f).tint).x, 0.789999962f, ::math::lerp(0.599999964f, 0.75f, fibers_anisotropy)), texture_rotate / 360.f + float3(::base::file_texture(texture_2d("./textures/carbon_fiber_multi_R_rough_G_cutout_B_patternA.jpg", ::tex::gamma_linear), color(0.f, 0.f, 0.f), color(1.f, 1.f, 1.f), ::base::mono_alpha, vmat_transform(texture_translate, texture_rotate, texture_scale * 0.075000003f, ::base::texture_coordinate_uvw, uv_space_index), float2(0.f, 1.f), float2(0.f, 1.f), ::tex::wrap_repeat, ::tex::wrap_repeat, false, 0.f, int2(0), ::tex::wrap_repeat, 30.f).tint).z * 0.25f, ::state::texture_tangent_u(0)).roughness_u, anisotropy_conversion(histogram_range(float3(::base::file_texture(texture_2d("./textures/carbon_fiber_multi_R_rough_G_cutout_B_patternA.jpg", ::tex::gamma_linear), color(0.f, 0.f, 0.f), color(1.f, 1.f, 1.f), ::base::mono_alpha, vmat_transform(texture_translate, texture_rotate, texture_scale * 0.075000003f, ::base::texture_coordinate_uvw, uv_space_index), float2(0.f, 1.f), float2(0.f, 1.f), ::tex::wrap_repeat, ::tex::wrap_repeat, false, 0.f, int2(0), ::tex::wrap_repeat, 30.f).tint).x, 0.769999981f, ::math::lerp(0.300000012f, 0.550000012f, fibers_roughness)), histogram_range(float3(::base::file_texture(texture_2d("./textures/carbon_fiber_multi_R_rough_G_cutout_B_patternA.jpg", ::tex::gamma_linear), color(0.f, 0.f, 0.f), color(1.f, 1.f, 1.f), ::base::mono_alpha, vmat_transform(texture_translate, texture_rotate, texture_scale * 0.075000003f, ::base::texture_coordinate_uvw, uv_space_index), float2(0.f, 1.f), float2(0.f, 1.f), ::tex::wrap_repeat, ::tex::wrap_repeat, false, 0.f, int2(0), ::tex::wrap_repeat, 30.f).tint).x, 0.789999962f, ::math::lerp(0.599999964f, 0.75f, fibers_anisotropy)), texture_rotate / 360.f + float3(::base::file_texture(texture_2d("./textures/carbon_fiber_multi_R_rough_G_cutout_B_patternA.jpg", ::tex::gamma_linear), color(0.f, 0.f, 0.f), color(1.f, 1.f, 1.f), ::base::mono_alpha, vmat_transform(texture_translate, texture_rotate, texture_scale * 0.075000003f, ::base::texture_coordinate_uvw, uv_space_index), float2(0.f, 1.f), float2(0.f, 1.f), ::tex::wrap_repeat, ::tex::wrap_repeat, false, 0.f, int2(0), ::tex::wrap_repeat, 30.f).tint).z * 0.25f, ::state::texture_tangent_u(0)).roughness_v, color(1.f, 1.f, 1.f), color(0.737910986f, 0.737910986f, 0.737910986f), anisotropy_conversion(histogram_range(float3(::base::file_texture(texture_2d("./textures/carbon_fiber_multi_R_rough_G_cutout_B_patternA.jpg", ::tex::gamma_linear), color(0.f, 0.f, 0.f), color(1.f, 1.f, 1.f), ::base::mono_alpha, vmat_transform(texture_translate, texture_rotate, texture_scale * 0.075000003f, ::base::texture_coordinate_uvw, uv_space_index), float2(0.f, 1.f), float2(0.f, 1.f), ::tex::wrap_repeat, ::tex::wrap_repeat, false, 0.f, int2(0), ::tex::wrap_repeat, 30.f).tint).x, 0.769999981f, ::math::lerp(0.300000012f, 0.550000012f, fibers_roughness)), histogram_range(float3(::base::file_texture(texture_2d("./textures/carbon_fiber_multi_R_rough_G_cutout_B_patternA.jpg", ::tex::gamma_linear), color(0.f, 0.f, 0.f), color(1.f, 1.f, 1.f), ::base::mono_alpha, vmat_transform(texture_translate, texture_rotate, texture_scale * 0.075000003f, ::base::texture_coordinate_uvw, uv_space_index), float2(0.f, 1.f), float2(0.f, 1.f), ::tex::wrap_repeat, ::tex::wrap_repeat, false, 0.f, int2(0), ::tex::wrap_repeat, 30.f).tint).x, 0.789999962f, ::math::lerp(0.599999964f, 0.75f, fibers_anisotropy)), texture_rotate / 360.f + float3(::base::file_texture(texture_2d("./textures/carbon_fiber_multi_R_rough_G_cutout_B_patternA.jpg", ::tex::gamma_linear), color(0.f, 0.f, 0.f), color(1.f, 1.f, 1.f), ::base::mono_alpha, vmat_transform(texture_translate, texture_rotate, texture_scale * 0.075000003f, ::base::texture_coordinate_uvw, uv_space_index), float2(0.f, 1.f), float2(0.f, 1.f), ::tex::wrap_repeat, ::tex::wrap_repeat, false, 0.f, int2(0), ::tex::wrap_repeat, 30.f).tint).z * 0.25f, ::state::texture_tangent_u(0)).tangent_u, ::df::scatter_reflect), ::df::weighted_layer(0.219999999f, ::df::diffuse_reflection_bsdf(color(::math::pow(histogram_pos_range(float3(::base::file_texture(texture_2d("./textures/carbon_fiber_multi_R_rough_G_cutout_B_patternA.jpg", ::tex::gamma_linear), color(0.f, 0.f, 0.f), color(1.f, 1.f, 1.f), ::base::mono_alpha, vmat_transform(texture_translate, texture_rotate, texture_scale * 0.075000003f, ::base::texture_coordinate_uvw, uv_space_index), float2(0.f, 1.f), float2(0.f, 1.f), ::tex::wrap_repeat, ::tex::wrap_repeat, false, 0.f, int2(0), ::tex::wrap_repeat, 30.f).tint).x, 0.469999999f, 0.149999991f), 2.20000005f)), 0.f), bsdf(), ::state::normal()), add_detail_normal(::base::tangent_space_normal_texture(texture_2d("./textures/carbon_fiber_fibers_norm.jpg", ::tex::gamma_linear), 1.f, false, false, vmat_transform(texture_translate, texture_rotate, texture_scale * 0.075000003f, ::base::texture_coordinate_uvw, uv_space_index), float2(0.f, 1.f), float2(0.f, 1.f), ::tex::wrap_repeat, ::tex::wrap_repeat, false, 1.f, 0.f, 0.f, int2(0), ::tex::wrap_repeat, 30.f), ::base::tangent_space_normal_texture(texture_2d("./textures/carbon_fiber_weaving_norm.png", ::tex::gamma_linear), weaving_bump_strength, false, false, vmat_transform_post_scale(vmat_transform(texture_translate, texture_rotate, texture_scale * 0.075000003f, ::base::texture_coordinate_uvw, uv_space_index), float2(0.25f)), float2(0.f, 1.f), float2(0.f, 1.f), ::tex::wrap_repeat, ::tex::wrap_repeat, false, 1.f, 0.f, 0.f, int2(0), ::tex::wrap_repeat, 30.f))), add_detail_normal(::base::tangent_space_normal_texture(texture_2d("./textures/carbon_fiber_fibers_norm.jpg", ::tex::gamma_linear), 1.f, false, false, vmat_transform(texture_translate, texture_rotate, texture_scale * 0.075000003f, ::base::texture_coordinate_uvw, uv_space_index), float2(0.f, 1.f), float2(0.f, 1.f), ::tex::wrap_repeat, ::tex::wrap_repeat, false, 1.f, 0.f, 0.f, int2(0), ::tex::wrap_repeat, 30.f), ::base::tangent_space_normal_texture(texture_2d("./textures/carbon_fiber_weaving_norm.png", ::tex::gamma_linear), weaving_bump_strength, false, false, vmat_transform_post_scale(vmat_transform(texture_translate, texture_rotate, texture_scale * 0.075000003f, ::base::texture_coordinate_uvw, uv_space_index), float2(0.25f)), float2(0.f, 1.f), float2(0.f, 1.f), ::tex::wrap_repeat, ::tex::wrap_repeat, false, 1.f, 0.f, 0.f, int2(0), ::tex::wrap_repeat, 30.f))), 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));
        color tmp3 = color(1.f, 1.f, 1.f);
        material_volume tmp4 = material_volume(scattering: vdf(), absorption_coefficient: color(0.f, 0.f, 0.f), scattering_coefficient: color(0.f, 0.f, 0.f));
        material_geometry tmp5(float3(0.f), 1.f, roundcorners_enable ? ::state::rounded_corner_normal(roundcorners_radius_mm * 0.00100000005f, true, float(roundcorners_across_materials)) : ::state::normal());
    } in
		material(
			thin_walled: tmp0,
			surface: tmp1,
			backface: tmp2,
			ior: tmp3,
			volume: tmp4,
			geometry: tmp5,
			hair: hair_bsdf());

// 2
export material Carbon_Fiber_Matte_Uncoated(*)
[[
	::anno::author("NVIDIA vMaterials"),
	::anno::contributor("Rüdiger Raab"),
	::anno::contributor("Maik Rohland"),
	::anno::display_name("Carbon Fiber - Matte Uncoated"),
	::anno::description(DESCRIPTION),
	::anno::copyright_notice(COPYRIGHT),
	::anno::thumbnail("./.thumbs/Carbon_Fiber.Carbon_Fiber_Matte_Uncoated.png"),
	::anno::key_words(string[]("fabric", "composite", "woven", "new", "matte", "bumped", "design", "automotive", "black", "dark", "neutral"))
]] = Carbon_Fiber(
	carbon_fiber_brightness:		0.22f,
	fibers_roughness:				0.75f,
	fibers_anisotropy:				0.18f,
	weaving_bump_strength:			1.0f,
	enable_coating:					false,
	coating_roughness:				0.0f,
	coating_roughness_variation:	0.36f,
	coating_damages_intensity:		0.0f,
	coating_damages_scale:			1.00f,
	coating_dust:					0.23f,
	texture_translate:				float2(0.0f),
	texture_rotate:					0.0f,
	texture_scale:					float2(1.0f),
	roundcorners_enable:			false,
	roundcorners_radius_mm:			1.5f,
	roundcorners_across_materials:	false,
	uv_space_index:					0
);

// 3
export material Carbon_Fiber_Shiny_Coating(*)
[[
	::anno::author("NVIDIA vMaterials"),
	::anno::contributor("Rüdiger Raab"),
	::anno::contributor("Maik Rohland"),
	::anno::display_name("Carbon Fiber - Shiny Coating"),
	::anno::description(DESCRIPTION),
	::anno::copyright_notice(COPYRIGHT),
	::anno::thumbnail("./.thumbs/Carbon_Fiber.Carbon_Fiber_Shiny_Coating.png"),
	::anno::key_words(string[]("fabric", "composite", "woven", "new", "coated", "smooth", "design", "automotive", "coated", "black", "dark", "neutral"))
]] = Carbon_Fiber(
	carbon_fiber_brightness:		0.22f,
	fibers_roughness:				0.41f,
	fibers_anisotropy:				0.22f,
	weaving_bump_strength:			1.0f,
	enable_coating:					true,
	coating_roughness:				0.0f,
	coating_roughness_variation:	0.36f,
	coating_damages_intensity:		0.0f,
	coating_damages_scale:			1.00f,
	coating_dust:					0.15f,
	texture_translate:				float2(0.0f),
	texture_rotate:					0.0f,
	texture_scale:					float2(1.0f),
	roundcorners_enable:			false,
	roundcorners_radius_mm:			1.5f,
	roundcorners_across_materials:	false,
	uv_space_index:					0
);


// 4
export material Carbon_Fiber_Worn_Coating(*)
[[
	::anno::author("NVIDIA vMaterials"),
	::anno::contributor("Rüdiger Raab"),
	::anno::contributor("Maik Rohland"),
	::anno::display_name("Carbon Fiber - Worn Coating"),
	::anno::description(DESCRIPTION),
	::anno::copyright_notice(COPYRIGHT),
	::anno::thumbnail("./.thumbs/Carbon_Fiber.Carbon_Fiber_Worn_Coating.png"),
	::anno::key_words(string[]("fabric", "composite", "woven", "worn", "used", "old", "scratched", "shiny", "bumped", "design", "automotive", "coated", "black", "dark", "neutral"))
]] = Carbon_Fiber(
	carbon_fiber_brightness:		0.22f,
	fibers_roughness:				0.41f,
	fibers_anisotropy:				0.18f,
	weaving_bump_strength:			1.0f,
	enable_coating:					true,
	coating_roughness:				0.0f,
	coating_roughness_variation:	0.96f,
	coating_damages_intensity:		0.97f,
	coating_damages_scale:			1.00f,
	coating_dust:					0.73f,
	texture_translate:				float2(0.0f),
	texture_rotate:					0.0f,
	texture_scale:					float2(1.0f),
	roundcorners_enable:			false,
	roundcorners_radius_mm:			1.5f,
	roundcorners_across_materials:	false,
	uv_space_index:					0
);

// 5
export material Carbon_Fiber_Matte_Coating(*)
[[
	::anno::author("NVIDIA vMaterials"),
	::anno::contributor("Rüdiger Raab"),
	::anno::contributor("Maik Rohland"),
	::anno::display_name("Carbon Fiber - Matte Coating"),
	::anno::description(DESCRIPTION),
	::anno::copyright_notice(COPYRIGHT),
	::anno::thumbnail("./.thumbs/Carbon_Fiber.Carbon_Fiber_Matte_Coating.png"),
	::anno::key_words(string[]("fabric", "composite", "woven", "new", "matte", "design", "automotive", "coated", "black", "dark", "neutral"))
]] = Carbon_Fiber(
	carbon_fiber_brightness:		0.22f,
	fibers_roughness:				0.41f,
	fibers_anisotropy:				0.18f,
	weaving_bump_strength:			1.0f,
	enable_coating:					true,
	coating_roughness:				0.74f,
	coating_roughness_variation:	0.36f,
	coating_damages_intensity:		0.0f,
	coating_damages_scale:			1.0f,
	coating_dust:					0.23f,
	texture_translate:				float2(0.0f),
	texture_rotate:					0.0f,
	texture_scale:					float2(1.0f),
	roundcorners_enable:			false,
	roundcorners_radius_mm:			1.5f,
	roundcorners_across_materials:	false,
	uv_space_index:					0
);

//6
export material Carbon_Fiber_Dusty_Coating(*)
[[
	::anno::author("NVIDIA vMaterials"),
	::anno::contributor("Rüdiger Raab"),
	::anno::contributor("Maik Rohland"),
	::anno::display_name("Carbon Fiber - Dusty Coating"),
	::anno::description(DESCRIPTION),
	::anno::copyright_notice(COPYRIGHT),
	::anno::thumbnail("./.thumbs/Carbon_Fiber.Carbon_Fiber_Dusty_Coating.png"),
	::anno::key_words(string[]("fabric", "composite", "woven", "shiny", "bumped", "design", "automotive", "coated", "black", "dark", "neutral"))
]] = Carbon_Fiber(
	carbon_fiber_brightness:		0.22f,
	fibers_roughness:				0.41f,
	fibers_anisotropy:				0.18f,
	weaving_bump_strength:			1.0f,
	enable_coating:					true,
	coating_roughness:				0.08f,
	coating_roughness_variation:	0.5f,
	coating_damages_intensity:		0.12f,
	coating_damages_scale:			0.65f,
	coating_dust:					1.0f,
	texture_translate:				float2(0.0f),
	texture_rotate:					0.0f,
	texture_scale:					float2(1.0f),
	roundcorners_enable:			false,
	roundcorners_radius_mm:			1.5f,
	roundcorners_across_materials:	false,
	uv_space_index:					0
);

//7
export material Carbon_Fiber_Aluminized(*)
[[
	::anno::author("NVIDIA vMaterials"),
	::anno::contributor("Rüdiger Raab"),
	::anno::contributor("Maik Rohland"),
	::anno::display_name("Carbon Fiber - Aluminized"),
	::anno::description(DESCRIPTION),
	::anno::copyright_notice(COPYRIGHT),
	::anno::thumbnail("./.thumbs/Carbon_Fiber.Carbon_Fiber_Aluminized.png"),
	::anno::key_words(string[]("fabric", "composite", "woven", "shiny", "bumped", "design", "automotive", "aluminum", "gray", "neutral"))
]] = Carbon_Fiber(
	carbon_fiber_brightness:		0.58f,
	fibers_roughness:				0.41f,
	fibers_anisotropy:				0.18f,
	weaving_bump_strength:			1.3f,
	enable_coating:					false,
	coating_roughness:				0.08f,
	coating_roughness_variation:	0.5f,
	coating_damages_intensity:		0.08f,
	coating_damages_scale:			0.65f,
	coating_dust:					0.05f,
	texture_translate:				float2(0.0f),
	texture_rotate:					0.0f,
	texture_scale:					float2(1.0f),
	roundcorners_enable:			false,
	roundcorners_radius_mm:			1.5f,
	roundcorners_across_materials:	false,
	uv_space_index:					0
);


//8
export material Carbon_Fiber_Aluminized_Coated(*)
[[
	::anno::author("NVIDIA vMaterials"),
	::anno::contributor("Rüdiger Raab"),
	::anno::contributor("Maik Rohland"),
	::anno::display_name("Carbon Fiber - Aluminized Coated"),
	::anno::description(DESCRIPTION),
	::anno::copyright_notice(COPYRIGHT),
	::anno::thumbnail("./.thumbs/Carbon_Fiber.Carbon_Fiber_Aluminized_Coated.png"),
	::anno::key_words(string[]("fabric", "composite", "woven", "shiny", "bumped", "design", "automotive", "aluminum", "coated", "gray", "neutral"))
]] = Carbon_Fiber(
	carbon_fiber_brightness:		0.58f,
	fibers_roughness:				0.41f,
	fibers_anisotropy:				0.18f,
	weaving_bump_strength:			1.3f,
	enable_coating:					true,
	coating_roughness:				0.08f,
	coating_roughness_variation:	0.5f,
	coating_damages_intensity:		0.08f,
	coating_damages_scale:			0.65f,
	coating_dust:					0.05f,
	texture_translate:				float2(0.0f),
	texture_rotate:					0.0f,
	texture_scale:					float2(1.0f),
	roundcorners_enable:			false,
	roundcorners_radius_mm:			1.5f,
	roundcorners_across_materials:	false,
	uv_space_index:					0
);