Instruments/DryingBox/DryingBox_01/Materials/mdl_0003.mdl

// Copyright 2023 NVIDIA Corporation. All rights reserved.
//
// NVIDIA CORPORATION and its licensors retain all intellectual property
// and proprietary rights in and to this software, related documentation
// and any modifications thereto.  Any use, reproduction, disclosure or
// distribution of this software and related documentation without an express
// license agreement from NVIDIA CORPORATION is strictly prohibited.

mdl 1.6;

import ::anno::*;
import ::df::*;
import ::df::color_weighted_layer;
import ::math::*;
import ::state::*;

// VRay 2-Sided Material
export material VRay2SidedMtl
(
    material frontMtl = material()
    [[
        anno::in_group("Parameters"),
        anno::display_name("Front material")
    ]],
    material backMtl = frontMtl
    [[
        anno::in_group("Parameters"),
        anno::display_name("Back material")
    ]],
    uniform bool use_backMtl = false
    [[
        anno::in_group("Parameters"),
        anno::display_name("Use back material")
    ]],    
    color translucency = color(.5f)
    [[
        anno::in_group("Basic parameters"),
        anno::display_name("Translucency")
    ]],
    color front_tint = color(1.f)
    [[
        anno::in_group("Parameters"),
        anno::display_name("Front tint"),
        anno::hidden()
    ]],
    color back_tint = color(1.f)
    [[
        anno::in_group("Parameters"),
        anno::display_name("Back tint"),
        anno::hidden()
    ]],
    uniform bool multiply_by_front_diffuse = false
    [[
        anno::in_group("Basic parameters"),
        anno::display_name("Multiply by front diffuse"),
        anno::unused(),
        anno::hidden()
    ]]    
)
[[
    anno::author("NVIDIA Corporation")
]]
= let
{
    bsdf transmission_bsdf =
        df::diffuse_transmission_bsdf(tint: (front_tint + back_tint)*0.5f);
        

    bsdf front_bsdf = 
        df::color_weighted_layer
        (
            weight  : translucency,
            layer   : transmission_bsdf,
            base    : frontMtl.surface.scattering
        );

    bsdf back_bsdf = 
        df::color_weighted_layer
        (
            weight  : translucency,
            layer   : transmission_bsdf,
            base    : backMtl.surface.scattering
        );

}
in material
(
    ior: frontMtl.ior,
    thin_walled: true,
    geometry: frontMtl.geometry,
    volume: frontMtl.volume,
    surface: material_surface(scattering: front_bsdf),
    backface: material_surface(scattering: use_backMtl ? back_bsdf : front_bsdf)
);

// VRay Blend - Default clear material for unused coat slots
export material clear_material() 
= material
(
    ior     : color(1.0),
    surface : material_surface(df::specular_bsdf(mode: df::scatter_transmit)),
    geometry: material_geometry(cutout_opacity: 0.0)
);
        
// VRay Blend Material
export material VRayBlendMtl(
    material base_mtl = clear_material()
    [[
        anno::in_group("Parameters"),
        anno::display_name("Base material")
    ]],

    uniform bool enabled1 = false
    [[
        anno::in_group("Parameters"),
        anno::display_name("1: Enable")
    ]],
    material coat_mtl1 = clear_material()
    [[
        anno::in_group("Parameters"),
        anno::display_name("1: Coat material")
    ]],
    color blend_amount1 = color(.5)
    [[
        anno::in_group("Parameters"),
        anno::display_name("1: Blend amount")
    ]],

    uniform bool enabled2 = false
    [[
        anno::in_group("Parameters"),
        anno::display_name("2: Enable")
    ]],
    material coat_mtl2 = clear_material()
    [[
        anno::in_group("Parameters"),
        anno::display_name("2: Coat material")
    ]],
    color blend_amount2 = color(.5)
    [[
        anno::in_group("Parameters"),
        anno::display_name("2: Blend amount")
    ]],

    uniform bool enabled3 = false
    [[
        anno::in_group("Parameters"),
        anno::display_name("3: Enable")
    ]],
    material coat_mtl3 = clear_material()
    [[
        anno::in_group("Parameters"),
        anno::display_name("3: Coat material")
    ]],
    color blend_amount3 = color(.5)
    [[
        anno::in_group("Parameters"),
        anno::display_name("3: Blend amount")
    ]],

    uniform bool enabled4 = false
    [[
        anno::in_group("Parameters"),
        anno::display_name("4: Enable")
    ]],
    material coat_mtl4 = clear_material()
    [[
        anno::in_group("Parameters"),
        anno::display_name("4: Coat material")
    ]],
    color blend_amount4 = color(.5)
    [[
        anno::in_group("Parameters"),
        anno::display_name("4: Blend amount")
    ]],

    uniform bool enabled5 = false
    [[
        anno::in_group("Parameters"),
        anno::display_name("5: Enable")
    ]],
    material coat_mtl5 = clear_material()
    [[
        anno::in_group("Parameters"),
        anno::display_name("5: Coat material")
    ]],
    color blend_amount5 = color(.5)
    [[
        anno::in_group("Parameters"),
        anno::display_name("5: Blend amount")
    ]],
    
    uniform bool enabled6 = false
    [[
        anno::in_group("Parameters"),
        anno::display_name("6: Enable")
    ]],
    material coat_mtl6 = clear_material()
    [[
        anno::in_group("Parameters"),
        anno::display_name("6: Coat material")
    ]],
    color blend_amount6 = color(.5)
    [[
        anno::in_group("Parameters"),
        anno::display_name("6: Blend amount")
    ]],

    uniform bool enabled7 = false
    [[
        anno::in_group("Parameters"),
        anno::display_name("7: Enable")
    ]],
    material coat_mtl7 = clear_material()
    [[
        anno::in_group("Parameters"),
        anno::display_name("7: Coat material")
    ]],
    color blend_amount7 = color(.5)
    [[
        anno::in_group("Parameters"),
        anno::display_name("7: Blend amount")
    ]],

    uniform bool enabled8 = false
    [[
        anno::in_group("Parameters"),
        anno::display_name("8: Enable")
    ]],
    material coat_mtl8 = clear_material()
    [[
        anno::in_group("Parameters"),
        anno::display_name("8: Coat material")
    ]],
    color blend_amount8 = color(.5)
    [[
        anno::in_group("Parameters"),
        anno::display_name("8: Blend amount")
    ]],
    
    uniform bool enabled9 = false
    [[
        anno::in_group("Parameters"),
        anno::display_name("9: Enable")
    ]],
    material coat_mtl9 = clear_material()
    [[
        anno::in_group("Parameters"),
        anno::display_name("9: Coat material")
    ]],
    color blend_amount9 = color(.5)
    [[
        anno::in_group("Parameters"),
        anno::display_name("9: Blend amount")
    ]],
    
    uniform bool additive = false
    [[
        anno::in_group("Parameters"),
        anno::display_name("Additive mode")
    ]]
)
[[
    anno::author("NVIDIA Corporation")
]]
= let
{
    color white(1.0);
    color black(0.0);
    
    bsdf additive_bsdf = 
        df::color_normalized_mix
        (
			components: df::color_bsdf_component[]
            ( 
				df::color_bsdf_component
                ( 
					weight: white,
					component: base_mtl.surface.scattering
				),
				df::color_bsdf_component
                ( 
					weight: enabled1 ? blend_amount1 * coat_mtl1.geometry.cutout_opacity : black,
					component: coat_mtl1.surface.scattering
				),
				df::color_bsdf_component
                ( 
					weight: enabled2 ? blend_amount2 * coat_mtl2.geometry.cutout_opacity : black,
					component: coat_mtl2.surface.scattering
				),
				df::color_bsdf_component
                ( 
					weight: enabled3 ? blend_amount3 * coat_mtl3.geometry.cutout_opacity : black,
					component: coat_mtl3.surface.scattering
				),
				df::color_bsdf_component
                ( 
					weight: enabled4 ? blend_amount4 * coat_mtl4.geometry.cutout_opacity : black,
					component: coat_mtl4.surface.scattering
				),
				df::color_bsdf_component
                ( 
					weight: enabled5 ? blend_amount5 * coat_mtl5.geometry.cutout_opacity : black,
					component: coat_mtl5.surface.scattering
				),
				df::color_bsdf_component
                ( 
					weight: enabled6 ? blend_amount6 * coat_mtl6.geometry.cutout_opacity : black,
					component: coat_mtl6.surface.scattering
				),
				df::color_bsdf_component
                ( 
					weight: enabled7 ? blend_amount7 * coat_mtl7.geometry.cutout_opacity : black,
					component: coat_mtl7.surface.scattering
				),
				df::color_bsdf_component
                ( 
					weight: enabled8 ? blend_amount8 * coat_mtl8.geometry.cutout_opacity : black,
					component: coat_mtl8.surface.scattering
				),
				df::color_bsdf_component
                ( 
					weight: enabled9 ? blend_amount9 * coat_mtl9.geometry.cutout_opacity : black,
					component: coat_mtl9.surface.scattering
				)
            )
        );

    bsdf blend_bsdf = 
        df::color_weighted_layer
        (
            weight: enabled9 ? blend_amount9 * coat_mtl9.geometry.cutout_opacity : black,
            layer: coat_mtl9.surface.scattering,
            base: df::color_weighted_layer
            (
                weight: enabled8 ? blend_amount8 * coat_mtl8.geometry.cutout_opacity : black,
                layer: coat_mtl8.surface.scattering,
                base: df::color_weighted_layer
                (
                    weight: enabled7 ? blend_amount7 * coat_mtl7.geometry.cutout_opacity : black,
                    layer: coat_mtl7.surface.scattering,
                    base: df::color_weighted_layer
                    (
                        weight: enabled6 ? blend_amount6 * coat_mtl6.geometry.cutout_opacity : black,
                        layer: coat_mtl6.surface.scattering,
                        base: df::color_weighted_layer
                        (
                            weight: enabled5 ? blend_amount5 * coat_mtl5.geometry.cutout_opacity : black,
                            layer: coat_mtl5.surface.scattering,
                            base: df::color_weighted_layer
                            (
                                weight: enabled4 ? blend_amount4 * coat_mtl4.geometry.cutout_opacity : black,
                                layer: coat_mtl4.surface.scattering,
                                base: df::color_weighted_layer
                                (
                                    weight: enabled3 ? blend_amount3 * coat_mtl3.geometry.cutout_opacity : black,
                                    layer: coat_mtl3.surface.scattering,
                                    base: df::color_weighted_layer
                                    (
                                        weight: enabled2 ? blend_amount2 * coat_mtl2.geometry.cutout_opacity : black,
                                        layer: coat_mtl2.surface.scattering,
                                        base: df::color_weighted_layer
                                        (
                                            weight: enabled1 ? blend_amount1 * coat_mtl1.geometry.cutout_opacity : black,
                                            layer: coat_mtl1.surface.scattering,
                                            base: base_mtl.surface.scattering
                                        )
                                    )
                                )
                            )
                        )
                    )
                )
            )
        );
        
    bsdf surface_bsdf = additive ? additive_bsdf : blend_bsdf;
    
} in material
(
    ior     : base_mtl.ior,
    surface : material_surface(scattering: surface_bsdf)
);

// VRay Car Paint

// constants for numerical fitted curve to observed flake noise density behavior
// 1. no jitter, maximum flake diameter
const float4 ABCD = float4(-26.19771808f, 26.39663835f, 85.53857017f, -102.35069432f);
const float2 EF = float2(-101.42634862f, 118.45082288f);
// 2. jitter scale of 0.5f, maximum flake diameter
const float4 ABCD_J = float4(-0.87962159f, 0.91006603f, 0.76088203f, -0.24953308f);
const float2 EF_J = float2(-3.11456809f, 2.63430594f);

//
// flake noise utilities
//
int hash(int seed, int i)
{
    return (i ^ seed) * 1075385539;
}

int rnd_init(int3 pos)
{
    return hash(hash(hash(0, pos.x), pos.y), pos.z);
}

int rnd_next(int seed) 
{
    // xorshift32 using signed int
    seed ^= seed << 13;
    seed ^= seed >>> 17;
    seed ^= seed << 5;
    return seed;
}

float rnd_value(int seed)
{
    return math::abs(float(seed) * 4.6566e-10f);
}

struct flake_noise_value 
{    
    // flake priority (in [0..1], 0: no flake, flakes with higher priority shadow flakes "below" them)
    float priority;

    // current pseudo random number generator seed
    int   rnd_seed;
};

// apply random rotation (using "Fast Random Rotation Matrices" by James Arvo)
float3 rotate_pos(float3 pos, float3 xi)
{
    float theta = math::PI * 2.0f * xi.x;
    float phi = math::PI * 2.0f * xi.y;
    float z = xi.z * 2.0f;

    float r = math::sqrt(z);
    float[2] sp_cp = math::sincos(phi);
    float Vx = sp_cp[0] * r;
    float Vy = sp_cp[1] * r;
    float Vz = math::sqrt(2.0f - z);

    float[2] st_ct = math::sincos(theta);
    float Sx = Vx * st_ct[1] - Vy * st_ct[0];
    float Sy = Vx * st_ct[0] + Vy * st_ct[1];

    float3x3 M(
        Vx * Sx - st_ct[1], Vx * Sy - st_ct[0], Vx * Vz,
        Vy * Sx + st_ct[0], Vy * Sy - st_ct[1], Vy * Vz,
        Vz * Sx, Vz * Sy, 1.0f - z);

    return M * pos;
}

// create a flake normal by importance sampling the Beckmann distribution with given roughness
float3 flake_normal
(
    flake_noise_value val,
    float spread
)
{
    if (val.priority <= 0.0f)
        return state::normal();

    int seed0 = rnd_next(val.rnd_seed);
    float xi0 = rnd_value(seed0);
    float xi1 = rnd_value(rnd_next(seed0));
    
    float phi = math::PI * 2.0f * xi0;

    float roughness = spread * spread;

    float tantheta = math::sqrt(-roughness * roughness * math::log(1.0f - xi1));
    float sintheta = tantheta / math::sqrt(1.0f + tantheta * tantheta);
    float costheta = math::sqrt(1.0f - sintheta * sintheta);

    float[2] scphi = math::sincos(phi);
    return
        state::texture_tangent_u(0) * scphi[1] * sintheta +
        state::texture_tangent_v(0) * scphi[0] * sintheta +
        state::normal() * costheta;
}

// compute a flake probability for a given flake coverage density x
float density_to_probability
(
    float4 abcd,
    float2 ef,
    float x
)
{
    float xx = x * x;
    return (abcd.x * xx + abcd.y * x) / (abcd.z * xx * x + abcd.w * xx  + ef.x * x + ef.y);
}

// Flake noise function with controllable regularity, flake size, and probability
flake_noise_value flake_noise
(
    float3 pos,
    float jitter_scale = 1.0f,
    float flake_diameter = 0.75f,
    float flake_probability = 1.0f,
    int seed_offset = 1
)
{
    float3 base_pos = math::floor(pos);
    int3 base_pos_i = int3(base_pos);

    // limit the flake size to the allowed maximum (such that looking at all neighbors is sufficient)
    flake_diameter = math::min(flake_diameter, (3.f - 0.5f * jitter_scale) / math::sqrt(3.0f));
    
    flake_noise_value val(0.0f, 0);

    for (int i = -1; i < 2; ++i)
    {
        for (int j = -1; j < 2; ++j)
        {
            for (int k = -1; k < 2; ++k)
            {
                int seed = rnd_init((base_pos_i + int3(i, j, k)) + seed_offset);

                seed = rnd_next(seed);
                if (rnd_value(seed) > flake_probability)
                    continue;

                seed = rnd_next(seed);
                float priority = rnd_value(seed);
                if (priority < val.priority)
                    continue;                

                float3 flake_pos = base_pos + float3(i, j, k) + float3(0.5f);

                if (jitter_scale > 0.0f)
                {
                    seed = rnd_next(seed);
                    flake_pos.x += (rnd_value(seed) - 0.5f) * jitter_scale;
                    seed = rnd_next(seed);
                    flake_pos.y += (rnd_value(seed) - 0.5f) * jitter_scale;
                    seed = rnd_next(seed);
                    flake_pos.z += (rnd_value(seed) - 0.5f) * jitter_scale;
                }

                float3 p = pos - flake_pos;
                if (math::dot(p, p) >= flake_diameter * flake_diameter * 4.0f)
                    continue;

                float3 xi_rot;
                seed = rnd_next(seed);
                xi_rot.x = rnd_value(seed);
                seed = rnd_next(seed);
                xi_rot.y = rnd_value(seed);
                seed = rnd_next(seed);
                xi_rot.z = rnd_value(seed);
                p = rotate_pos(p, xi_rot);
                
                if (math::abs(p.x) <= flake_diameter &&
                    math::abs(p.y) <= flake_diameter &&
                    math::abs(p.z) <= flake_diameter)
                {
                    val.priority = priority;
                    val.rnd_seed = seed;
                }
            }
        }
    }

    return val;
}

// Statistically controlled (area/volume coverage density) flake noise 
flake_noise_value flake_noise
(
    float3 position,
    float diameter,
    float density = 0.5f,
    int seed_offset = 1,
    bool jittered = false
)
{
    float probability = density_to_probability(jittered ? ABCD_J : ABCD, jittered ? EF_J : EF, density);

    return flake_noise
    (
        pos                 : position,
        jitter_scale        : jittered ? 0.5f : 0.0f,
        flake_diameter      : (jittered ? 2.5f*diameter : 3.0f*diameter) / math::sqrt(3.0f),
        flake_probability   : probability,
        seed_offset         : seed_offset
    );
}

export material VRayCarPaintMtl
(
    // Base layer
    color base_color = color(0.3f, 0.4f, 0.5f)
    [[
        anno::in_group("Base layer parameters"),
        anno::display_name("Base color")
    ]],
    float base_reflection = 0.5f
    [[
        anno::in_group("Base layer parameters"),
        anno::display_name("Base reflection"),
        anno::hard_range(0.f, 1.f)
    ]],
    float base_glossiness = 0.6f
    [[
        anno::in_group("Base layer parameters"),
        anno::display_name("Base glossiness"),
        anno::hard_range(0.f, 1.f)
    ]],
    uniform bool base_trace_reflections = true
    [[
        anno::in_group("Base layer parameters"),
        anno::display_name("Base trace reflections"),
        anno::unused(),
        anno::hidden()
    ]],
    
    // Flake layer
    color flake_color = color(0.3f, 0.4f, 0.8f)
    [[
        anno::in_group("Flake layer parameters"),
        anno::display_name("Flake color")
    ]],
    float flake_glossiness = 0.8f
    [[
        anno::in_group("Flake layer parameters"),
        anno::display_name("Flake glossiness"),
        anno::hard_range(0.f, 1.f)
    ]],
    float flake_orientation = 0.3f
    [[
        anno::in_group("Flake layer parameters"),
        anno::display_name("Flake orientation"),
        anno::hard_range(0.f, 1.f)
    ]],
    uniform float flake_density = 0.5f
    [[
        anno::in_group("Flake layer parameters"),
        anno::display_name("Flake density"),
        anno::hard_range(0.f, 4.f)
    ]],
    uniform float flake_scale = 0.01f
    [[
        anno::in_group("Flake layer parameters"),
        anno::display_name("Flake scale"),
        anno::hard_range(0.f, 1.0e10f)
    ]],
    uniform float flake_size = 0.5f
    [[
        anno::in_group("Flake layer parameters"),
        anno::display_name("Flake size"),
        anno::hard_range(0.f, 1.0e10f)
    ]],
    uniform int flake_seed = 1
    [[
        anno::in_group("Flake layer parameters"),
        anno::display_name("Flake seed"),
        anno::hard_range(1, 65535)
    ]],
    uniform int flake_filtering = 1
    [[
        anno::in_group("Flake layer parameters"),
        anno::display_name("Flake filtering"),
        anno::unused(),
        anno::hidden()        
    ]],
    uniform int flake_map_size = 1024
    [[
        anno::in_group("Flake layer parameters"),
        anno::display_name("Flake map size"),
        anno::unused(),
        anno::hidden()        
    ]],
    uniform int flake_mapping_type = 0
    [[
        anno::in_group("Flake layer parameters"),
        anno::display_name("Flake mapping type")
    ]],
    uniform int flake_map_channel = 1
    [[
        anno::in_group("Flake layer parameters"),
        anno::display_name("Flake map channel")
    ]],
    uniform bool flake_trace_reflections = true
    [[
        anno::in_group("Flake layer parameters"),
        anno::display_name("Flake trace reflections"),
        anno::unused(),
        anno::hidden()        
    ]],


    // Coat layer
    color coat_color = color(1.0f)
    [[
        anno::in_group("Coat layer parameters"),
        anno::display_name("Coat color")
    ]],
    float coat_strength = 0.05f
    [[
        anno::in_group("Coat layer parameters"),
        anno::display_name("Coat strength"),
        anno::hard_range(0.f, 1.f)
    ]],
    float coat_glossiness = 1.0f
    [[
        anno::in_group("Coat layer parameters"),
        anno::display_name("Coat glossiness"),
        anno::hard_range(0.f, 1.f)
    ]],
    uniform bool coat_trace_reflections = true
    [[
        anno::in_group("Coat layer parameters"),
        anno::display_name("Coat trace reflections"),
        anno::unused(),
        anno::hidden()        
    ]],

    // Options
    uniform bool double_sided = true
    [[
        anno::in_group("Options"),
        anno::display_name("Double sided")
    ]],
    
    // Maps
    float3 base_bump_map = state::normal()
    [[
        anno::in_group("Maps"),
        anno::display_name("Bump Map")
    ]],
    float3 coat_bump_map = state::normal()
    [[
        anno::in_group("Maps"),
        anno::display_name("Coat Map")
    ]],
   
    float displacement_map = 0.f
    [[
        anno::in_group("Maps"),
        anno::display_name("Displacement map")
    ]]
    
) 
[[
    anno::author("NVIDIA Corporation")
]]
= let
{
    // sample flake distribution
    flake_noise_value val = (flake_mapping_type == 1) ? 
        flake_noise(state::position() / flake_scale, flake_size*0.5f, flake_density/8.f, flake_seed, true) :
        flake_noise(state::texture_coordinate(flake_map_channel - 1) / flake_scale, flake_size*0.5f, flake_density/2.f, flake_seed, true);

    bool is_flake = (flake_mapping_type == 1) ? 
        flake_density/8.f >= 1.0f || val.priority > 0.0f :
        flake_density/2.f >= 1.0f || val.priority > 0.0f;
    
    // Base layer BSDF
    bsdf base_bsdf =
        df::fresnel_layer
        (
            ior     : 1.5f,
            weight  : base_reflection,
            layer   : df::microfacet_ggx_smith_bsdf
            (
                roughness_u : (1.f - base_glossiness)*(1.f - base_glossiness)
            ),
            base    : df::diffuse_reflection_bsdf
            (
                tint    : base_color
            ),
            normal  : base_bump_map
        );
        
    // Flakes BSDF
    bsdf flake_bsdf = 
        df::microfacet_ggx_smith_bsdf
        (
            tint        : flake_color,
            roughness_u : (1.f - flake_glossiness)*(1.f - flake_glossiness)
        );
        
    bsdf surface_bsdf =
        df::weighted_layer
        (
            weight  : is_flake ? 1.0f : 0.0f,
            normal  : flake_normal(val, flake_orientation*0.5f),
            layer   : flake_bsdf,
            base    : base_bsdf
        );
        
                
    // Coat layer bsdf
    bsdf coat_bsdf =
        df::color_custom_curve_layer
        (
            normal_reflectivity : coat_color*coat_strength,
            grazing_reflectivity: coat_color,
            layer               : df::microfacet_ggx_smith_bsdf
            (
                roughness_u : (1.f - coat_glossiness)*(1.f - coat_glossiness)
            ),
            base                : surface_bsdf,
            normal              : coat_bump_map
        );
    
} in material
(
    thin_walled : double_sided,
    surface     : material_surface(scattering  : coat_bsdf),    
    backface    : double_sided ? material_surface(scattering: coat_bsdf) : material_surface(),
    geometry    : material_geometry(displacement: state::normal()*(displacement_map)) 
);

export material VRayCarPaintMtl2
(
    // Base layer
    color base_color = color(0.3f, 0.4f, 0.5f)
    [[
        anno::in_group("Base layer parameters"),
        anno::display_name("Base color")
    ]],
    float base_reflection = 0.5f
    [[
        anno::in_group("Base layer parameters"),
        anno::display_name("Base reflection"),
        anno::hard_range(0.f, 1.f)
    ]],
    float base_glossiness = 0.4f
    [[
        anno::in_group("Base layer parameters"),
        anno::display_name("Base glossiness"),
        anno::hard_range(0.f, 1.f)
    ]],
    float base_glossiness_tail = 2.0f
    [[
        anno::in_group("Base layer parameters"),
        anno::display_name("Base glossiness tail"),
        anno::hard_range(0.001f, 1000.f),
        anno::unused(),
        anno::hidden()
    ]],
    uniform bool base_trace_reflections = true
    [[
        anno::in_group("Base layer parameters"),
        anno::display_name("Base trace reflections"),
        anno::unused(),
        anno::hidden()
    ]],
    
    // Flake layer
    color flake_color = color(0.3f, 0.4f, 0.8f)
    [[
        anno::in_group("Flake layer parameters"),
        anno::display_name("Flake color")
    ]],
    color flake_random_color = color(0.3f, 0.4f, 0.8f)
    [[
        anno::in_group("Flake layer parameters"),
        anno::display_name("Flake random color"),
        anno::unused(),
        anno::hidden()        
    ]],    
    float flake_orientation = 0.05f
    [[
        anno::in_group("Flake layer parameters"),
        anno::display_name("Flake orientation"),
        anno::hard_range(0.f, 1.f)
    ]],
    uniform float flake_orientation_tail = 2.0f
    [[
        anno::in_group("Flake layer parameters"),
        anno::display_name("Flake orientation tail"),
        anno::hard_range(0.01f, 1000.f),
        anno::unused(),
        anno::hidden()        
    ]],
    uniform float flake_glossiness = 0.9f
    [[
        anno::in_group("Flake layer parameters"),
        anno::display_name("Flake glossiness"),
        anno::hard_range(0.f, 1.f)
    ]],
    uniform float flake_density = 4.0f
    [[
        anno::in_group("Flake layer parameters"),
        anno::display_name("Flake density"),
        anno::hard_range(0.f, 7.f)
    ]],
    uniform float flake_uvw_scale = 1.0f
    [[
        anno::in_group("Flake layer parameters"),
        anno::display_name("Flake UVW scale"),
        anno::hard_range(0.f, 1.0e10f),
        anno::enable_if("flake_mapping_type == 0")
    ]],
    uniform float flake_object_xyz_scale = 1.0f
    [[
        anno::in_group("Flake layer parameters"),
        anno::display_name("Flake Object XYZ scale"),
        anno::hard_range(0.f, 1.0e10f),
        anno::enable_if("flake_mapping_type == 1")
    ]],        
    uniform float flake_size = 0.5f
    [[
        anno::in_group("Flake layer parameters"),
        anno::display_name("Flake size"),
        anno::hard_range(0.f, 1.0e10f)
    ]],
    uniform int flake_seed = 1
    [[
        anno::in_group("Flake layer parameters"),
        anno::display_name("Flake seed"),
        anno::hard_range(1, 65535)
    ]],
    uniform int flake_map_size = 2048
    [[
        anno::in_group("Flake layer parameters"),
        anno::display_name("Flake map size"),
        anno::unused(),
        anno::hidden()        
    ]],
    uniform int flake_mapping_type = 0
    [[
        anno::in_group("Flake layer parameters"),
        anno::display_name("Flake mapping type"),
        anno::hard_range(0, 1)
    ]],
    uniform int flake_map_channel = 1
    [[
        anno::in_group("Flake layer parameters"),
        anno::display_name("Flake map channel")
    ]],
    uniform bool flake_trace_reflections = true
    [[
        anno::in_group("Flake layer parameters"),
        anno::display_name("Flake trace reflections"),
        anno::unused(),
        anno::hidden()        
    ]],

    // Coat layer
    color coat_color = color(1.0f)
    [[
        anno::in_group("Coat layer parameters"),
        anno::display_name("Coat color")
    ]],
    float coat_amount = 1.0f
    [[
        anno::in_group("Coat layer parameters"),
        anno::display_name("Coat amount"),
        anno::hard_range(0.f, 1.f)
    ]],
    float coat_ior = 1.5f
    [[
        anno::in_group("Coat layer parameters"),
        anno::display_name("Coat IOR"),
        anno::hard_range(0.f, 100.f)
    ]],
    float coat_glossiness = 1.0f
    [[
        anno::in_group("Coat layer parameters"),
        anno::display_name("Coat glossiness"),
        anno::hard_range(0.f, 1.f)
    ]],
    uniform bool coat_trace_reflections = true
    [[
        anno::in_group("Coat layer parameters"),
        anno::display_name("Coat trace reflections"),
        anno::unused(),
        anno::hidden()        
    ]],

    // Options
    uniform bool double_sided = true
    [[
        anno::in_group("Options"),
        anno::display_name("Double sided")
    ]],
    
    // Maps
    float3 base_bump_map = state::normal()
    [[
        anno::in_group("Maps"),
        anno::display_name("Bump Map")
    ]],
    float3 coat_bump_map = state::normal()
    [[
        anno::in_group("Maps"),
        anno::display_name("Coat Map")
    ]],
   
    float displacement_map = 0.f
    [[
        anno::in_group("Maps"),
        anno::display_name("Displacement map")
    ]]
    
) 
[[
    anno::author("NVIDIA Corporation")
]]
= let
{
    // sample flake distribution
    flake_noise_value val = (flake_mapping_type == 1) ? 
        // Object XYZ
        flake_noise(state::position() / flake_object_xyz_scale*2.f, flake_size*0.8f, flake_density/7.f, flake_seed, true) :
        // UVW
        flake_noise(state::texture_coordinate(flake_map_channel - 1) / flake_uvw_scale*2000.0f, flake_size*0.8f, flake_density/7.f, flake_seed, true);
    
    bool is_flake = flake_density/7.f >= 1.0f || val.priority > 0.0f;
    
    // Base layer BSDF
    bsdf base_bsdf =
        df::fresnel_layer
        (
            ior     : 1.5f,
            weight  : base_reflection,
            layer   : df::microfacet_ggx_smith_bsdf
            (
                roughness_u : (1.f - base_glossiness)*(1.f - base_glossiness)
            ),
            base    : df::diffuse_reflection_bsdf
            (
                tint    : base_color
            ),
            normal  : base_bump_map
        );
        
    // Flakes BSDF
    bsdf flake_bsdf = 
        df::microfacet_ggx_smith_bsdf
        (
            tint        : flake_color,
            roughness_u : (1.f - flake_glossiness)*(1.f - flake_glossiness)
        );
        
    bsdf surface_bsdf =
        df::weighted_layer
        (
            weight  : is_flake ? 1.0f : 0.0f,
            normal  : flake_normal(val, flake_orientation*0.5f),
            layer   : flake_bsdf,
            base    : base_bsdf
        );
                
    bsdf coat_bsdf =
        df::fresnel_layer
        (
            ior     : coat_ior,
            // ior     : invert_coat_ior ? 1.f/(coat_ior + 0.01f) : coat_ior,
            weight  : coat_amount,
            layer   : df::simple_glossy_bsdf
            (
                tint        : color(1.0f),
                roughness_u : (1.f - coat_glossiness)*(1.f - coat_glossiness),
                mode        : df::scatter_reflect
            ),
            //base    : surface_bsdf,
            base    : df::tint
            (
                tint    : coat_color,//math::lerp(color(1.f), coat_color, coat_amount),
                base    : surface_bsdf
            ),
            normal  : coat_bump_map
        );
        
} in material
(
    thin_walled : double_sided,
    surface     : material_surface(scattering  : coat_bsdf),    
    backface    : double_sided ? material_surface(scattering: coat_bsdf) : material_surface(),
    geometry    : material_geometry(displacement: state::normal()*(displacement_map)) 
);

// VRay Light Material
export material VRayLightMtl
(
    color emission = color(1.0)
    [[
        anno::in_group("Parameters"),
        anno::display_name("Emission")
    ]],
    uniform float emission_mult = 1.0
    [[
        anno::in_group("Parameters"),
        anno::display_name("Mutliplier")
    ]],
    color opacity = color(1.0)
    [[
        anno::in_group("Parameters"),
        anno::display_name("Opacity")
    ]],
    uniform bool emit_on_backside = false
    [[
        anno::in_group("Parameters"),
        anno::display_name("Emit light on back side")
    ]],
    uniform bool mult_emission_by_opacity = false
    [[
        anno::in_group("Parameters"),
        anno::display_name("Mutliply emission by opacity")
    ]],
    float displacement = 0.f
    [[
        anno::in_group("Parameters"),
        anno::display_name("Displacement")
    ]],
    uniform float displace_amnt = 1.f
    [[
        anno::in_group("Parameters"),
        anno::display_name("Displacement amount")
    ]]
) 
[[
    anno::author("NVIDIA Corporation")
]]
= let
{
    color emission_color = mult_emission_by_opacity ?
        (emission*opacity*opacity)*emission_mult :
        (emission*opacity)*emission_mult;
    
    bsdf surface_bsdf  = 
        df::simple_glossy_bsdf
        (
            mode: df::scatter_transmit,
            tint: color(1.f) - opacity,
            roughness_u: 0
        );
    
    material_surface emit_surface = material_surface(
        scattering: surface_bsdf,
        emission: material_emission(
            emission: df::diffuse_edf(),
            intensity: emission_color));
} in material
(
    ior         : color(1.0),
    thin_walled : emit_on_backside,
    surface     : emit_surface,
    backface    : emit_on_backside ? emit_surface : material_surface(),
    geometry    : material_geometry(
        displacement: state::normal()*(displacement*displace_amnt)) 
);

// VRay Material - Translucency Mode
export enum VRay_translucency_mode
[[
    anno::hidden()
]]
{
    translucency_none,
    translucency_hard,//all modes will likely trigger the same mdl code but value might be usefull for other means
    translucency_soft,
    translucency_hybrid
};

// VRay Material - BRDF Mode
export enum VRay_brdf_mode
[[
    anno::hidden()
]]
{
    brdf_phong,
    brdf_blinn,
    brdf_ward,
    brdf_ggx
};

// VRay Material - Glossy Mode
export enum VRay_brdf_glossy_mode
[[
    anno::hidden()
]]
{
    brdf_roughness,
    brdf_glossiness
};

// VRay Material
export material VRayMtl(
    color Diffuse = color(0.5f)
    [[
        anno::in_group("Diffuse Parameters"),
        anno::display_name("Diffuse")
    ]],
    uniform float diffuse_roughness = 0.f
    [[
        anno::in_group("Diffuse Parameters"),
        anno::display_name("Roughness"),
        anno::hard_range(0.f, 1.f)
    ]],

    color Reflection = color(0.f)
    [[
        anno::in_group("Reflections"),
        anno::display_name("Reflect")
    ]],
    float reflection_glossiness = 1.f
    [[
        anno::in_group("Reflections"),
        anno::display_name("Glossiness"),
        anno::hard_range(0.f, 1.f)
    ]],
    uniform bool reflection_fresnel = true
    [[
        anno::in_group("Reflections"),
        anno::display_name("Fresnel reflections")
    ]],
    float reflection_ior = 1.6f
    [[
        anno::in_group("Reflections"),
        anno::display_name("Fresnel IOR"),
        anno::soft_range(0.2f, 5.f),
        anno::hard_range(1.e-6f, 100.f)
    ]],
    uniform bool reflection_lockIOR = true
    [[
        anno::in_group("Reflections"),
        anno::display_name("Lock IOR")
    ]],
    uniform bool invert_reflection_ior = false
    [[
        anno::in_group("Reflections"),
        anno::hidden()
    ]],
    float reflection_metalness = 0.f
    [[
        anno::in_group("Reflections"),
        anno::display_name("Metalness"),
        anno::hard_range(0.f, 1.f)
    ]],

    color Refraction = color(0.f)
    [[
        anno::in_group("Refractions"),
        anno::display_name("Refract")
    ]],
    float refraction_glossiness = 1.f
    [[
        anno::in_group("Refractions"),
        anno::display_name("Glossiness"),
        anno::hard_range(0.f, 1.f)
    ]],
    uniform float refraction_ior = 1.6f // not textureable to be physically plausible
    [[
        anno::in_group("Refractions"),
        anno::display_name("IOR"),
        anno::soft_range(0.2,5.),
        anno::hard_range(1.e-6f, 100.f)
    ]],
    uniform bool invert_refraction_ior = false
    [[
        anno::in_group("Refractions"),
        anno::hidden()
    ]],
    uniform bool refraction_dispersion_on = false
    [[
        anno::in_group("Refractions"),
        anno::display_name("Enable dispersion"),
        anno::unused(),
        anno::hidden()
    ]],
    uniform float refraction_dispersion = 50.f
    [[
        anno::in_group("Refractions"),
        anno::display_name("Abbe number"),
        anno::soft_range(10.f, 100.f),
        anno::hard_range(1.f, 150.f),
        anno::unused(),        
        anno::hidden()
    ]],

    color refraction_fogColor = color(1.f)
    [[
        anno::in_group("Fog"),
        anno::display_name("Color"),
        anno::unused(),        
        anno::hidden()
    ]],
    uniform float refraction_fogBias = 0.f
    [[
        anno::in_group("Fog"),
        anno::display_name("Bias"),
        anno::unused(),        
        anno::hidden()
    ]],
    uniform float refraction_fogMult = 1.f
    [[
        anno::in_group("Fog"),
        anno::display_name("Multiplier"),
        anno::unused(),        
        anno::hidden()
    ]],

    uniform VRay_translucency_mode translucency_on = translucency_none
    [[
        anno::in_group("Translucency"),
        anno::display_name("Enable translucency"),
        anno::unused(),        
        anno::hidden()
    ]],
    uniform float translucency_scatterCoeff = 0.f
    [[
        anno::in_group("Translucency"),
        anno::display_name("Scatter coeff"),
        anno::unused(),        
        anno::hidden()
    ]],
    uniform float translucency_fbCoeff = 1.f
    [[
        anno::in_group("Translucency"),
        anno::display_name("Fwd/Bck coeff"),
        anno::unused(),        
        anno::hidden()
    ]],
    uniform color translucency_color = color(1.f)
    [[
        anno::in_group("Translucency"),
        anno::display_name("Back-side color"),
        anno::unused(),        
        anno::hidden()
    ]],

    color self_illumination = color(0.f)
    [[
        anno::in_group("Self-Illumination"),
        anno::display_name("Self-illumination")
    ]],
    uniform float self_illumination_multiplier = 1.f
    [[
        anno::in_group("Self-Illumination"),
        anno::display_name("Multiplier")
    ]],

    float coat_amount = 0.f
    [[
        anno::in_group("Coat Parameters"),
        anno::display_name("Coat amount"),
        anno::hard_range(0.f, 1.f)
    ]],
    color coat_color = color(1.f)
    [[
        anno::in_group("Coat Parameters"),
        anno::display_name("Coat color")
    ]],
    float coat_glossiness = 1.f
    [[
        anno::in_group("Coat Parameters"),
        anno::display_name("Coat glossiness"),
        anno::hard_range(0.f, 1.f)
    ]],    
    float coat_ior = 1.6f
    [[
        anno::in_group("Coat Parameters"),
        anno::display_name("Coat IOR"),
        anno::soft_range(0.2,5.),
        anno::hard_range(1.e-6f, 100.f)
    ]],
    uniform bool invert_coat_ior = false
    [[
        anno::in_group("Coat Parameters"),
        anno::hidden()
    ]],    
    bool coat_bump_lock = false
    [[
        anno::in_group("Coat Parameters"),
        anno::display_name("lock coat bump to base bump")
    ]],    

    color sheen_color = color(0.f)
    [[
        anno::in_group("Sheen Parameters"),
        anno::display_name("Sheen color"),
        anno::unused(),        
        anno::hidden()
    ]],
    float sheen_glossiness = 0.8f
    [[
        anno::in_group("Sheen Parameters"),
        anno::display_name("Sheen glossiness"),
        anno::hard_range(0.f, 1.f),
        anno::unused(),        
        anno::hidden()
    ]],    

    uniform VRay_brdf_mode brdf_type = brdf_ggx
    [[
        anno::in_group("BRDF"),
        anno::display_name("BRDF type"),
        anno::unused(),        
        anno::hidden()
    ]],
    uniform VRay_brdf_glossy_mode brdf_useRoughness = brdf_glossiness
    [[
        anno::in_group("BRDF"),
        anno::display_name("BRDF glossiness"),
        anno::hidden()
    ]],
    float anisotropy = 0.f
    [[
        anno::in_group("BRDF"),
        anno::display_name("Anisotropy"),
        anno::hard_range(-1.f, 1.f),
        anno::unused(),        
        anno::hidden()
    ]],
    float anisotropy_rotation = 0.f
    [[
        anno::in_group("BRDF"),
        anno::display_name("Rotation"),
        anno::hard_range(-10000.f, 10000.f),
        anno::unused(),        
        anno::hidden()
    ]],
    uniform int anisotropy_channel = 0 //=1 in max
    [[
        anno::in_group("BRDF"),
        anno::display_name("Map channel"),
        anno::unused(),        
        anno::hidden()
    ]],

    float3 texmap_bump = state::normal()
    [[
        anno::in_group("Maps"),
        anno::display_name("Bump Map")
    ]],
    float3 texmap_coat_bump = state::normal()
    [[
        anno::in_group("Maps"),
        anno::display_name("Coat Map")
    ]],
    float texmap_opacity = 1.0f
    [[
        anno::in_group("Maps"),
        anno::display_name("Opacity Map")
    ]],

    uniform bool thin_walled = false
    [[
        anno::in_group("Options"),
        anno::hidden()
    ]]
)
[[
    anno::author("NVIDIA Corporation")
]]
 = let
 {
    float reflection_roughness =  brdf_useRoughness == brdf_roughness ? 
        reflection_glossiness : math::pow((1.f - reflection_glossiness), 2.f);

    float refraction_roughness =  brdf_useRoughness == brdf_roughness ?
        refraction_glossiness : math::pow((1.f - refraction_glossiness), 2.f);
    
    
    float refl_ior = invert_reflection_ior ? 1.f/(reflection_ior + 0.01f) : reflection_ior;
    float refr_ior = invert_refraction_ior ? 1.f/(refraction_ior + 0.01f) : refraction_ior;
        
    float fresnel_ior = reflection_lockIOR ? refr_ior : refl_ior;
    float R0 = math::pow((1.f - fresnel_ior)/(1.f + fresnel_ior), 2.f);
    
    // diffuse
    bsdf diffuse_bsdf  = 
        df::weighted_layer
        (
            weight  : 1.f,
            layer   : df::diffuse_reflection_bsdf
            (
                tint      : Diffuse,
                roughness : diffuse_roughness
            ),
            normal  : texmap_bump
        );
        
    // transmission
    bsdf glossy_transmission_bsdf = 
        df::simple_glossy_bsdf(
            mode: df::scatter_transmit,
            tint: color(1.f),
            roughness_u: refraction_roughness
        );
        
    // reflection    
    bsdf glossy_reflection_bsdf =
        df::simple_glossy_bsdf(
            mode: df::scatter_reflect,
            tint: reflection_fresnel ? Reflection : color(1.f),
            roughness_u: reflection_roughness
        );
        
    // diffuse glossy reflection
    bsdf diffuse_glossy_reflection_bsdf =
        df::simple_glossy_bsdf(
            mode: df::scatter_reflect,
            tint: Diffuse,
            roughness_u: reflection_roughness
        );
    
    // surface
    bsdf surface_bsdf =
        df::color_custom_curve_layer
        (
            normal_reflectivity : reflection_fresnel ? color(R0) : Reflection,
            grazing_reflectivity: reflection_fresnel ? color(1.f) : Reflection,
            layer               : glossy_reflection_bsdf,
            base                : 
                df::weighted_layer
                (
                    weight  : reflection_metalness,
                    layer   : diffuse_glossy_reflection_bsdf,
                    base    :
                        df::color_weighted_layer
                        (
                            weight  : Refraction,
                            layer   : glossy_transmission_bsdf,
                            base    : diffuse_bsdf,
                            normal  : texmap_bump
                        ),
                    normal  : texmap_bump
                ),
            normal              : texmap_bump
        );
    
    // coat
    bsdf coat_bsdf =
        df::fresnel_layer
        (
            ior     : invert_coat_ior ? 1.f/(coat_ior + 0.01f) : coat_ior,
            weight  : coat_amount,
            layer   : df::simple_glossy_bsdf
            (
                tint        : color(1.f),
                roughness_u : math::pow((1.f - coat_glossiness), 2.f),
                mode        : df::scatter_reflect
            ),
            base    : df::tint
            (
                tint    : math::lerp(color(1.f), coat_color, coat_amount),
                base    : surface_bsdf
            ),
            normal  : coat_bump_lock ? texmap_bump : texmap_coat_bump
        );
            
} 
in material
(
        ior         : color(refr_ior),
        thin_walled : thin_walled,
        surface     : material_surface
        (
            scattering  : coat_bsdf, 
            emission    : material_emission
            (
                emission  : df::diffuse_edf(),
                intensity : self_illumination*self_illumination_multiplier
            )
        ),
        geometry    : material_geometry
        (
            cutout_opacity: texmap_opacity
        )
);

// VRay-Fast-SSS-2 Material
export material VRayFastSSS2
(
    // General parameters
    uniform float scale = 1.f
    [[
        anno::in_group("General Parameters"),
        anno::display_name("Scale"),
        anno::hard_range(0.f, 10000.f)
    ]],
    uniform float ior = 1.3f
    [[
        anno::in_group("General Parameters"),
        anno::display_name("IOR"),
        anno::hard_range(0.f, 100.f)
    ]],
    
    // Diffuse and SSS Layers
    color overall_color = color(1.f) 
    [[
        anno::in_group("Diffuse and SSS Layers"),
        anno::display_name("Overall color")
    ]],
    color diffuse_color = color(0.5f) 
    [[
        anno::in_group("Diffuse and SSS Layers"),
        anno::display_name("Diffuse color")
    ]],
    float diffuse_amnt = 0.f
    [[
        anno::in_group("Diffuse and SSS Layers"),
        anno::display_name("Diffuse amount"),
        anno::hard_range(0.f, 1.f)
    ]],
    uniform int color_mode = 0
    [[
        anno::in_group("Diffuse and SSS Layers"),
        anno::display_name("Color mode"),
        anno::unused(),
        anno::hidden()
    ]],
    color sub_surface_color = color(0.5f) 
    [[
        anno::in_group("Diffuse and SSS Layers"),
        anno::display_name("Sub-surface color")
    ]],
    color scatter_color = color(0.5f) 
    [[
        anno::in_group("Diffuse and SSS Layers"),
        anno::display_name("Scatter color")
    ]],
    float scatter_radius = 1.f
    [[
        anno::in_group("Diffuse and SSS Layers"),
        anno::display_name("Scatter radius")
    ]],
    uniform float phase_function = 0.f
    [[
        anno::in_group("Diffuse and SSS Layers"),
        anno::display_name("Phase function"),
        anno::hard_range(-1.f, 1.f)
    ]],
    
    // Specular Layer
    color specular_color = color(1.f) 
    [[
        anno::in_group("Specular Layer"),
        anno::display_name("Specular color")
    ]],
    float specular_amnt = 1.f
    [[
        anno::in_group("Specular Layer"),
        anno::display_name("Specular color"),
        anno::hard_range(0.f, 1.f)
    ]],
    float specular_glossiness = 0.6f
    [[
        anno::in_group("Specular Layer"),
        anno::display_name("Specular glossiness"),
        anno::hard_range(0.f, 1.f)
    ]],
    
    // Bump
    float3 texmap_bump = state::normal()
    [[
        anno::in_group("Maps"),
        anno::display_name("Bump Map")
    ]]
)
[[
    anno::author("NVIDIA Corporation")
]]
= let
{
    float inv_radius = -100.f/(scatter_radius*scale);
	float inv_div = 1.f/(1.f + math::max_value(scatter_color));
    color extinction = math::log(sub_surface_color*inv_div)*inv_radius;
    color s = color(4.09712f) + 4.20863f*scatter_color - math::sqrt(9.59217f + 41.6808f*scatter_color + 17.7126f*scatter_color*scatter_color);
    color ss_albedo = s*s;
    
    color absorption = extinction*ss_albedo;
    color scattering = extinction - absorption;    
    
    bsdf diffuse_sss_bsdf = df::weighted_layer
    (
        weight  : diffuse_amnt,
        layer   : df::diffuse_reflection_bsdf
        (
            tint      : diffuse_color
        ),
        base    : df::diffuse_transmission_bsdf()
    );

    bsdf specular_bsdf = df::simple_glossy_bsdf
    (
        mode        : df::scatter_reflect,
        tint        : specular_color*specular_amnt,
        roughness_u : 1.f - specular_glossiness
    );
    
    bsdf overall_bsdf = df::tint
    (
        tint : overall_color,
        base : df::fresnel_layer
        (
            ior     : ior,
            layer   : specular_bsdf,
            base    : diffuse_sss_bsdf
        )

    );

}
in material
(
    ior     : color(ior),
    surface : material_surface
    (
        scattering  : overall_bsdf 
    ),
    volume  : material_volume
    (
        scattering              : df::anisotropic_vdf(phase_function),
        absorption_coefficient  : absorption,
        scattering_coefficient  : scattering
    ),
    geometry: material_geometry
    (
        normal: texmap_bump
    )
    
);