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/** 
 * @file materialF.glsl
 *
 * $LicenseInfo:firstyear=2007&license=viewerlgpl$
 * Second Life Viewer Source Code
 * Copyright (C) 2007, Linden Research, Inc.
 * 
 * This library is free software; you can redistribute it and/or
 * modify it under the terms of the GNU Lesser General Public
 * License as published by the Free Software Foundation;
 * version 2.1 of the License only.
 * 
 * This library is distributed in the hope that it will be useful,
 * but WITHOUT ANY WARRANTY; without even the implied warranty of
 * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the GNU
 * Lesser General Public License for more details.
 * 
 * You should have received a copy of the GNU Lesser General Public
 * License along with this library; if not, write to the Free Software
 * Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA  02110-1301  USA
 * 
 * Linden Research, Inc., 945 Battery Street, San Francisco, CA  94111  USA
 * $/LicenseInfo$
 */
 
/*[EXTRA_CODE_HERE]*/

#define DIFFUSE_ALPHA_MODE_IGNORE	0
#define DIFFUSE_ALPHA_MODE_BLEND	1
#define DIFFUSE_ALPHA_MODE_MASK		2
#define DIFFUSE_ALPHA_MODE_EMISSIVE 3

uniform float emissive_brightness;
uniform float display_gamma;

#ifdef WATER_FOG
vec4 applyWaterFogView(vec3 pos, vec4 color);
#endif

vec3 srgb_to_linear(vec3 cs);
vec3 linear_to_srgb(vec3 cl);

vec3 atmosFragAmbient(vec3 l, vec3 ambient);
vec3 atmosFragLighting(vec3 l, vec3 additive, vec3 atten);
vec3 scaleSoftClipFrag(vec3 l);

void calcFragAtmospherics(vec3 inPositionEye, float ambFactor, out vec3 sunlit, out vec3 amblit, out vec3 additive, out vec3 atten);

#if (DIFFUSE_ALPHA_MODE == DIFFUSE_ALPHA_MODE_BLEND)

#ifdef DEFINE_GL_FRAGCOLOR
out vec4 frag_color;
#else
#define frag_color gl_FragColor
#endif

#if HAS_SUN_SHADOW

uniform sampler2DShadow shadowMap0;
uniform sampler2DShadow shadowMap1;
uniform sampler2DShadow shadowMap2;
uniform sampler2DShadow shadowMap3;

uniform mat4 shadow_matrix[6];
uniform vec4 shadow_clip;
uniform vec2 shadow_res;
uniform float shadow_bias;

float pcfShadow(sampler2DShadow shadowMap, vec4 stc)
{
	stc.xyz /= stc.w;
	stc.z += shadow_bias;
		
	stc.x = floor(stc.x*shadow_res.x + fract(stc.y*shadow_res.y*12345))/shadow_res.x; // add some chaotic jitter to X sample pos according to Y to disguise the snapping going on here
	
	float cs = shadow2D(shadowMap, stc.xyz).x;
	float shadow = cs;
	
    shadow += shadow2D(shadowMap, stc.xyz+vec3(2.0/shadow_res.x, 1.5/shadow_res.y, 0.0)).x;
    shadow += shadow2D(shadowMap, stc.xyz+vec3(1.0/shadow_res.x, -1.5/shadow_res.y, 0.0)).x;
    shadow += shadow2D(shadowMap, stc.xyz+vec3(-1.0/shadow_res.x, 1.5/shadow_res.y, 0.0)).x;
    shadow += shadow2D(shadowMap, stc.xyz+vec3(-2.0/shadow_res.x, -1.5/shadow_res.y, 0.0)).x;
                       
    return shadow*0.2;
}

#endif

uniform samplerCube environmentMap;
uniform sampler2D	  lightFunc;

// Inputs
uniform vec4 morphFactor;
uniform vec3 camPosLocal;
//uniform vec4 camPosWorld;
uniform vec4 gamma;
uniform mat3 env_mat;
uniform mat3 ssao_effect_mat;

uniform vec3 sun_dir;
uniform vec3 moon_dir;
VARYING vec2 vary_fragcoord;

VARYING vec3 vary_position;

uniform mat4 inv_proj;
uniform vec2 screen_res;

uniform vec4 light_position[8];
uniform vec3 light_direction[8];
uniform vec3 light_attenuation[8]; 
uniform vec3 light_diffuse[8];

vec3 calcPointLightOrSpotLight(vec3 light_col, vec3 npos, vec3 diffuse, vec4 spec, vec3 v, vec3 n, vec4 lp, vec3 ln, float la, float fa, float is_pointlight, inout float glare)
{
	//get light vector
	vec3 lv = lp.xyz-v;
	
	//get distance
	float d = length(lv);
	
	float da = 1.0;

	vec3 col = vec3(0,0,0);

	if (d > 0.0 && la > 0.0 && fa > 0.0)
	{
		//normalize light vector
		lv = normalize(lv);
	
		//distance attenuation
		float dist = d/la;
		float dist_atten = clamp(1.0-(dist-1.0*(1.0-fa))/fa, 0.0, 1.0);
		dist_atten *= dist_atten;
		dist_atten *= 2.0;

		// spotlight coefficient.
		float spot = max(dot(-ln, lv), is_pointlight);
		da *= spot*spot; // GL_SPOT_EXPONENT=2

		//angular attenuation
		da *= max(dot(n, lv), 0.0);		
		
		float lit = max(da * dist_atten, 0.0);

		col = light_col*lit*diffuse;

		if (spec.a > 0.0)
		{
			//vec3 ref = dot(pos+lv, norm);
			vec3 h = normalize(lv+npos);
			float nh = dot(n, h);
			float nv = dot(n, npos);
			float vh = dot(npos, h);
			float sa = nh;
			float fres = pow(1 - dot(h, npos), 5)*0.4+0.5;

			float gtdenom = 2 * nh;
			float gt = max(0, min(gtdenom * nv / vh, gtdenom * da / vh));
								
			if (nh > 0.0)
			{
				float scol = fres*texture2D(lightFunc, vec2(nh, spec.a)).r*gt/(nh*da);
				vec3 speccol = lit*scol*light_col.rgb*spec.rgb;
				col += speccol;

				float cur_glare = max(speccol.r, speccol.g);
				cur_glare = max(cur_glare, speccol.b);
				glare = max(glare, speccol.r);
				glare += max(cur_glare, 0.0);
				//col += spec.rgb;
			}
		}
	}

	return max(col, vec3(0.0,0.0,0.0));	

}

vec4 getPosition_d(vec2 pos_screen, float depth)
{
	vec2 sc = pos_screen.xy*2.0;
	sc /= screen_res;
	sc -= vec2(1.0,1.0);
	vec4 ndc = vec4(sc.x, sc.y, 2.0*depth-1.0, 1.0);
	vec4 pos = inv_proj * ndc;
	pos /= pos.w;
	pos.w = 1.0;
	return pos;
}


#else
#ifdef DEFINE_GL_FRAGCOLOR
out vec4 frag_data[3];
#else
#define frag_data gl_FragData
#endif
#endif

uniform sampler2D diffuseMap;

#if HAS_NORMAL_MAP
uniform sampler2D bumpMap;
#endif

#if HAS_SPECULAR_MAP
uniform sampler2D specularMap;

VARYING vec2 vary_texcoord2;
#endif

uniform float env_intensity;
uniform vec4 specular_color;  // specular color RGB and specular exponent (glossiness) in alpha

#if (DIFFUSE_ALPHA_MODE == DIFFUSE_ALPHA_MODE_MASK)
uniform float minimum_alpha;
#endif

#if HAS_NORMAL_MAP
VARYING vec3 vary_mat0;
VARYING vec3 vary_mat1;
VARYING vec3 vary_mat2;
VARYING vec2 vary_texcoord1;
#else
VARYING vec3 vary_normal;
#endif

VARYING vec4 vertex_color;
VARYING vec2 vary_texcoord0;

vec2 encode_normal(vec3 n);
vec3 decode_normal (vec2 enc);

void main() 
{
	vec4 diffcol = texture2D(diffuseMap, vary_texcoord0.xy);
	diffcol.rgb *= vertex_color.rgb;

#if (DIFFUSE_ALPHA_MODE == DIFFUSE_ALPHA_MODE_MASK)
	if (diffcol.a < minimum_alpha)
	{
		discard;
	}
#endif

#if (DIFFUSE_ALPHA_MODE == DIFFUSE_ALPHA_MODE_BLEND)
	vec3 gamma_diff = diffcol.rgb;
	diffcol.rgb = srgb_to_linear(diffcol.rgb);
#endif

#if HAS_SPECULAR_MAP
	vec4 spec = texture2D(specularMap, vary_texcoord2.xy);
	spec.rgb *= specular_color.rgb;
#else
	vec4 spec = vec4(specular_color.rgb, 1.0);
#endif

#if HAS_NORMAL_MAP
	vec4 norm = texture2D(bumpMap, vary_texcoord1.xy);

	norm.xyz = norm.xyz * 2 - 1;

	vec3 tnorm = vec3(dot(norm.xyz,vary_mat0),
			  dot(norm.xyz,vary_mat1),
			  dot(norm.xyz,vary_mat2));
#else
	vec4 norm = vec4(0,0,0,1.0);
	vec3 tnorm = vary_normal;
#endif

    norm.xyz = tnorm;
    norm.xyz = normalize(norm.xyz);

	vec2 abnormal	= encode_normal(norm.xyz);
		 norm.xyz   = decode_normal(abnormal.xy);

	vec4 final_color = diffcol;
	
#if (DIFFUSE_ALPHA_MODE != DIFFUSE_ALPHA_MODE_EMISSIVE)
	final_color.a = emissive_brightness;
#else
	final_color.a = max(final_color.a, emissive_brightness);
#endif

	vec4 final_specular = spec;
#if HAS_SPECULAR_MAP
	vec4 final_normal = vec4(encode_normal(normalize(tnorm)), env_intensity * spec.a, 0.0);
	final_specular.a = specular_color.a * norm.a;
#else
	vec4 final_normal = vec4(encode_normal(normalize(tnorm)), env_intensity, 0.0);
	final_specular.a = specular_color.a;
#endif
	

#if (DIFFUSE_ALPHA_MODE == DIFFUSE_ALPHA_MODE_BLEND)
		//forward rendering, output just lit RGBA
	vec3 pos = vary_position;

#if HAS_SUN_SHADOW
	float shadow = 0.0;
	
	vec4 spos = vec4(pos,1.0);
		
	if (spos.z > -shadow_clip.w)
	{	
		vec4 lpos;
		
		vec4 near_split = shadow_clip*-0.75;
		vec4 far_split = shadow_clip*-1.25;
		vec4 transition_domain = near_split-far_split;
		float weight = 0.0;

		if (spos.z < near_split.z)
		{
			lpos = shadow_matrix[3]*spos;
			
			float w = 1.0;
			w -= max(spos.z-far_split.z, 0.0)/transition_domain.z;
			shadow += pcfShadow(shadowMap3, lpos)*w;
			weight += w;
			shadow += max((pos.z+shadow_clip.z)/(shadow_clip.z-shadow_clip.w)*2.0-1.0, 0.0);
		}

		if (spos.z < near_split.y && spos.z > far_split.z)
		{
			lpos = shadow_matrix[2]*spos;
			
			float w = 1.0;
			w -= max(spos.z-far_split.y, 0.0)/transition_domain.y;
			w -= max(near_split.z-spos.z, 0.0)/transition_domain.z;
			shadow += pcfShadow(shadowMap2, lpos)*w;
			weight += w;
		}

		if (spos.z < near_split.x && spos.z > far_split.y)
		{
			lpos = shadow_matrix[1]*spos;
			
			float w = 1.0;
			w -= max(spos.z-far_split.x, 0.0)/transition_domain.x;
			w -= max(near_split.y-spos.z, 0.0)/transition_domain.y;
			shadow += pcfShadow(shadowMap1, lpos)*w;
			weight += w;
		}

		if (spos.z > far_split.x)
		{
			lpos = shadow_matrix[0]*spos;
							
			float w = 1.0;
			w -= max(near_split.x-spos.z, 0.0)/transition_domain.x;
				
			shadow += pcfShadow(shadowMap0, lpos)*w;
			weight += w;
		}
		

		shadow /= weight;
	}
	else
	{
		shadow = 1.0;
	}
#else
	float shadow = 1.0;
#endif

	spec = final_specular;
	vec4 diffuse = final_color;
	float envIntensity = final_normal.z;

    vec3 col = vec3(0.0f,0.0f,0.0f);

	float bloom = 0.0;
        vec3 sunlit;
        vec3 amblit;
        vec3 additive;
        vec3 atten;

	calcFragAtmospherics(pos.xyz, 1.0, sunlit, amblit, additive, atten);
	
	vec3 refnormpersp = normalize(reflect(pos.xyz, norm.xyz));

	float sun_da  = dot(norm.xyz, sun_dir.xyz);
	float moon_da = dot(norm.xyz, moon_dir.xyz);

    float final_da = max(sun_da,moon_da);
          final_da = min(final_da, shadow);
          //final_da = max(final_da, diffuse.a);
          final_da = max(final_da, 0.0f);
		  final_da = min(final_da, 1.0f);
		  final_da = pow(final_da, 1.0/1.3);

	col.rgb = atmosFragAmbient(col, amblit);
	
	float ambient = min(abs(final_da), 1.0);
	ambient *= 0.5;
	ambient *= ambient;
	ambient = (1.0-ambient);

	col.rgb *= ambient;

	col.rgb = col.rgb + (final_da * sunlit);

	col.rgb *= gamma_diff.rgb;
	

	float glare = 0.0;

	if (spec.a > 0.0) // specular reflection
	{
		// the old infinite-sky shiny reflection
		//
				
        float sa = dot(refnormpersp, sun_dir.xyz);

		vec3 dumbshiny = sunlit*shadow*(texture2D(lightFunc, vec2(sa, spec.a)).r);
							
		// add the two types of shiny together
		vec3 spec_contrib = dumbshiny * spec.rgb;
		bloom = dot(spec_contrib, spec_contrib) / 6;

		glare = max(spec_contrib.r, spec_contrib.g);
		glare = max(glare, spec_contrib.b);

		col += spec_contrib;
	}


	col = mix(col.rgb, diffcol.rgb, diffuse.a);

	if (envIntensity > 0.0)
	{
		//add environmentmap
		vec3 env_vec = env_mat * refnormpersp;
		
		vec3 refcol = textureCube(environmentMap, env_vec).rgb;

		col = mix(col.rgb, refcol, 
			envIntensity);  

		float cur_glare = max(refcol.r, refcol.g);
		cur_glare = max(cur_glare, refcol.b);
		cur_glare *= envIntensity*4.0;
		glare += cur_glare;
	}

	//col = mix(atmosLighting(col), fullbrightAtmosTransport(col), diffuse.a);
	//col = mix(scaleSoftClip(col), fullbrightScaleSoftClip(col),  diffuse.a);

	col = atmosFragLighting(col, additive, atten);
	col = scaleSoftClipFrag(col);

	//convert to linear space before adding local lights
	col = srgb_to_linear(col);

	vec3 npos = normalize(-pos.xyz);
			
	vec3 light = vec3(0,0,0);

 #define LIGHT_LOOP(i) light.rgb += calcPointLightOrSpotLight(light_diffuse[i].rgb, npos, diffuse.rgb, final_specular, pos.xyz, norm.xyz, light_position[i], light_direction[i].xyz, light_attenuation[i].x, light_attenuation[i].y, light_attenuation[i].z, glare);

		LIGHT_LOOP(1)
		LIGHT_LOOP(2)
		LIGHT_LOOP(3)
		LIGHT_LOOP(4)
		LIGHT_LOOP(5)
		LIGHT_LOOP(6)
		LIGHT_LOOP(7)

	col.rgb += light.rgb;

	glare = min(glare, 1.0);
	float al = max(diffcol.a,glare)*vertex_color.a;

	//convert to gamma space for display on screen
	col.rgb = linear_to_srgb(col.rgb);

#ifdef WATER_FOG
	vec4 temp = applyWaterFogView(pos, vec4(col.rgb, al));
	col.rgb = temp.rgb;
	al = temp.a;
#endif

	frag_color.rgb = col.rgb;
	frag_color.a   = al;

#else
	frag_data[0] = final_color;
	frag_data[1] = final_specular; // XYZ = Specular color. W = Specular exponent.
	frag_data[2] = final_normal; // XY = Normal.  Z = Env. intensity.
#endif
}