Merge branch 'master' of git://gitorious.org/fg/fgdata
This commit is contained in:
commit
7b20bf2d04
6 changed files with 225 additions and 217 deletions
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@ -2,6 +2,10 @@
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// http://www.bonzaisoftware.com/water_tut.html and its glsl conversion
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// available at http://forum.bonzaisoftware.com/viewthread.php?tid=10
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// © Michael Horsch - 2005
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// Major update and revisions - 2011-10-07
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// © Emilian Huminiuc and Vivian Meazza
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// Optimisation - 2012-5-05
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// © Emilian Huminiuc and Vivian Meazza
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#version 120
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#define fps2kts 0.5925
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@ -20,8 +24,8 @@ uniform int Status;
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varying vec4 waterTex1; //moving texcoords
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varying vec4 waterTex2; //moving texcoords
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varying vec4 waterTex4; //viewts
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varying vec4 ecPosition;
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//varying vec4 waterTex4; //viewts
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//varying vec4 ecPosition;
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varying vec3 viewerdir;
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varying vec3 lightdir;
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varying vec3 normal;
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@ -124,7 +128,8 @@ void main(void)
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}
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vec4 viewt = normalize(waterTex4);
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//vec4 viewt = normalize(waterTex4);
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vec4 viewt = vec4(-E, 0.0) * 0.6;
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vec4 disdis = texture2D(water_dudvmap, vec2(waterTex2 * tscale)* windScale * 2.0) * 2.0 - 1.0;
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vec4 dist = texture2D(water_dudvmap, vec2(waterTex1 + disdis*sca2)* windScale * 2.0) * 2.0 - 1.0;
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@ -2,14 +2,18 @@
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// http://www.bonzaisoftware.com/water_tut.html and its glsl conversion
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// available at http://forum.bonzaisoftware.com/viewthread.php?tid=10
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// © Michael Horsch - 2005
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// Major update and revisions - 2011-10-07
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// © Emilian Huminiuc and Vivian Meazza
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// Optimisation - 2012-5-05
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// © Emilian Huminiuc and Vivian Meazza
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#version 120
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#define fps2kts 0.5925
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varying vec4 waterTex1;
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varying vec4 waterTex2;
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varying vec4 waterTex4;
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varying vec4 ecPosition;
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//varying vec4 waterTex4;
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//varying vec4 ecPosition;
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varying vec3 viewerdir;
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varying vec3 lightdir;
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varying vec3 normal;
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@ -54,12 +58,12 @@ void main(void)
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vec3 N = normalize(gl_Normal);
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normal = N;
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ecPosition = gl_ModelViewMatrix * gl_Vertex;
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// ecPosition = gl_ModelViewMatrix * gl_Vertex;
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viewerdir = vec3(gl_ModelViewMatrixInverse[3]) - vec3(gl_Vertex);
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lightdir = normalize(vec3(gl_ModelViewMatrixInverse * gl_LightSource[0].position));
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waterTex4 = vec4( ecPosition.xzy, 0.0 );
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// waterTex4 = vec4( ecPosition.xzy, 0.0 );
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vec4 t1 = vec4(osg_SimulationTime*0.005217, 0.0, 0.0, 0.0);
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vec4 t2 = vec4(osg_SimulationTime*-0.0012, 0.0, 0.0, 0.0);
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@ -1,209 +1,211 @@
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// This shader is mostly an adaptation of the shader found at
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// http://www.bonzaisoftware.com/water_tut.html and its glsl conversion
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// available at http://forum.bonzaisoftware.com/viewthread.php?tid=10
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// © Michael Horsch - 2005
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// Major update and revisions - 2011-10-07
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// © Emilian Huminiuc and Vivian Meazza
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// This shader is mostly an adaptation of the shader found at
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// http://www.bonzaisoftware.com/water_tut.html and its glsl conversion
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// available at http://forum.bonzaisoftware.com/viewthread.php?tid=10
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// © Michael Horsch - 2005
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// Major update and revisions - 2011-10-07
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// © Emilian Huminiuc and Vivian Meazza
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// Optimisation - 2012-5-05
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// Based on ideas by Thorsten Renk
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// © Emilian Huminiuc and Vivian Meazza
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#version 120
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uniform sampler2D water_normalmap;
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uniform sampler2D water_reflection;
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uniform sampler2D water_dudvmap;
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uniform sampler2D water_reflection_grey;
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uniform sampler2D sea_foam;
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uniform sampler2D perlin_normalmap;
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uniform float saturation, Overcast, WindE, WindN;
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uniform float CloudCover0, CloudCover1, CloudCover2, CloudCover3, CloudCover4;
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uniform float osg_SimulationTime;
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uniform int Status;
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varying vec4 waterTex1; //moving texcoords
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varying vec4 waterTex2; //moving texcoords
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varying vec3 viewerdir;
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varying vec3 lightdir;
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varying vec3 normal;
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uniform float WaveFreq ;
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uniform float WaveAmp ;
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uniform float WaveSharp ;
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////fog "include" /////
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uniform int fogType;
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vec3 fog_Func(vec3 color, int type);
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//////////////////////
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/////// functions /////////
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void rotationmatrix(in float angle, out mat4 rotmat)
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{
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rotmat = mat4( cos( angle ), -sin( angle ), 0.0, 0.0,
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sin( angle ), cos( angle ), 0.0, 0.0,
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0.0 , 0.0 , 1.0, 0.0,
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0.0 , 0.0 , 0.0, 1.0 );
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}
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void main(void)
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{
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const vec4 sca = vec4(0.005, 0.005, 0.005, 0.005);
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const vec4 sca2 = vec4(0.02, 0.02, 0.02, 0.02);
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const vec4 tscale = vec4(0.25, 0.25, 0.25, 0.25);
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mat4 RotationMatrix;
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// compute direction to viewer
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vec3 E = normalize(viewerdir);
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// compute direction to light source
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vec3 L = normalize(lightdir);
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// half vector
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vec3 H = normalize(L + E);
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vec3 Normal = normalize(normal);
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const float water_shininess = 240.0;
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// approximate cloud cover
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float cover = 0.0;
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//bool Status = true;
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float windEffect = sqrt( WindE*WindE + WindN*WindN ) * 0.6; //wind speed in kt
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float windScale = 15.0/(3.0 + windEffect); //wave scale
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float windEffect_low = 0.3 + 0.7 * smoothstep(0.0, 5.0, windEffect); //low windspeed wave filter
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float waveRoughness = 0.05 + smoothstep(0.0, 20.0, windEffect); //wave roughness filter
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float mixFactor = 0.75 - 0.15 * smoothstep(0.0, 40.0, windEffect);
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mixFactor = clamp(mixFactor, 0.3, 0.8);
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if (Status == 1){
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cover = min(min(min(min(CloudCover0, CloudCover1),CloudCover2),CloudCover3),CloudCover4);
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} else {
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// hack to allow for Overcast not to be set by Local Weather
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if (Overcast == 0){
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cover = 5;
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} else {
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cover = Overcast * 5;
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}
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}
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vec4 viewt = vec4(-E, 0.0) * 0.6;
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vec4 disdis = texture2D(water_dudvmap, vec2(waterTex2 * tscale)* windScale) * 2.0 - 1.0;
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vec4 dist = texture2D(water_dudvmap, vec2(waterTex1 + disdis*sca2)* windScale) * 2.0 - 1.0;
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dist *= (0.6 + 0.5 * smoothstep(0.0, 15.0, windEffect));
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vec4 fdist = normalize(dist);
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fdist = -fdist; //dds fix
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fdist *= sca;
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//normalmaps
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rotationmatrix(radians(3.0 * windScale + 0.6 * sin(waterTex1.s * 0.2)), RotationMatrix);
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vec4 nmap = texture2D(water_normalmap, vec2(waterTex1* RotationMatrix + disdis * sca2) * windScale) * 2.0 - 1.0;
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vec4 nmap1 = texture2D(perlin_normalmap, vec2(waterTex1/** RotationMatrix*/ + disdis * sca2) * windScale) * 2.0 - 1.0;
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rotationmatrix(radians(-2.0 * windScale -0.4 * sin(waterTex1.s * 0.32)), RotationMatrix);
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nmap += texture2D(water_normalmap, vec2(waterTex1* RotationMatrix + disdis * sca2) * windScale * 1.5) * 2.0 - 1.0;
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//nmap1 += texture2D(perlin_normalmap, vec2(waterTex1* RotationMatrix + disdis * sca2) * windScale) * 2.0 - 1.0;
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rotationmatrix(radians(1.5 * windScale + 0.3 * sin(waterTex1.s * 0.16)), RotationMatrix);
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nmap += texture2D(water_normalmap, vec2(waterTex1* RotationMatrix + disdis * sca2) * windScale * 2.1) * 2.0 - 1.0;
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rotationmatrix(radians(-0.5 * windScale - 0.45 * sin(waterTex1.s * 0.28)), RotationMatrix);
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nmap += texture2D(water_normalmap, vec2(waterTex1* RotationMatrix + disdis * sca2) * windScale * 0.8) * 2.0 - 1.0;
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rotationmatrix(radians(-1.2 * windScale - 0.35 * sin(waterTex1.s * 0.28)), RotationMatrix);
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nmap += texture2D(water_normalmap, vec2(waterTex2 * RotationMatrix* tscale) * windScale * 1.7) * 2.0 - 1.0;
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nmap1 += texture2D(perlin_normalmap, vec2(waterTex2/** RotationMatrix*/ * tscale) * windScale) * 2.0 - 1.0;
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nmap *= windEffect_low;
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nmap1 *= windEffect_low;
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// mix water and noise, modulated by factor
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vec4 vNorm = normalize(mix(nmap, nmap1, mixFactor) * waveRoughness);
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vNorm = -vNorm; //dds fix
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//load reflection
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vec4 tmp = vec4(lightdir, 0.0);
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vec4 refTex;
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vec4 refl;
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// cover = 0;
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if(cover >= 1.5){
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refTex = texture2D(water_reflection, vec2(tmp));
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refl= normalize(refTex);
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} else {
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refTex = texture2D(water_reflection_grey, vec2(tmp));
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refl = normalize(refTex);
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refl.r *= (0.75 + 0.15 * cover);
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refl.g *= (0.80 + 0.15 * cover);
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refl.b *= (0.875 + 0.125 * cover);
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refl.a *= 1.0;
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}
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rotationmatrix(radians(2.1* windScale + 0.25 * sin(waterTex1.s *0.14)), RotationMatrix);
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vec3 N0 = vec3(texture2D(water_normalmap, vec2(waterTex1* RotationMatrix + disdis * sca2) * windScale * 1.15) * 2.0 - 1.0);
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vec3 N1 = vec3(texture2D(perlin_normalmap, vec2(waterTex1/** RotationMatrix*/ + disdis * sca) * windScale) * 2.0 - 1.0);
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rotationmatrix(radians(-1.5 * windScale -0.32 * sin(waterTex1.s *0.24)), RotationMatrix);
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N0 += vec3(texture2D(water_normalmap, vec2(waterTex2* RotationMatrix * tscale) * windScale * 1.8) * 2.0 - 1.0);
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N1 += vec3(texture2D(perlin_normalmap, vec2(waterTex2/** RotationMatrix*/ * tscale) * windScale) * 2.0 - 1.0);
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rotationmatrix(radians(3.8 * windScale + 0.45 * sin(waterTex1.s *0.32)), RotationMatrix);
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N0 += vec3(texture2D(water_normalmap, vec2(waterTex2 * RotationMatrix * (tscale + sca2)) * windScale * 0.85) * 2.0 - 1.0);
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N1 += vec3(texture2D(perlin_normalmap, vec2(waterTex2/** RotationMatrix*/ * (tscale + sca2)) * windScale) * 2.0 - 1.0);
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rotationmatrix(radians(-2.8 * windScale - 0.38 * sin(waterTex1.s * 0.26)), RotationMatrix);
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N0 += vec3(texture2D(water_normalmap, vec2(waterTex1 * RotationMatrix + disdis * sca2) * windScale * 2.1) * 2.0 - 1.0);
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N1 += vec3(texture2D(perlin_normalmap, vec2(waterTex1 /** RotationMatrix*/ + disdis * sca) * windScale) * 2.0 - 1.0);
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N0 *= windEffect_low;
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N1 *= windEffect_low;
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vec3 N = normalize(mix(Normal + N0, Normal + N1, mixFactor) * waveRoughness);
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N = -N; //dds fix
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// specular
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vec3 specular_color = vec3(gl_LightSource[0].diffuse)
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* pow(max(0.0, dot(N, H)), water_shininess) * 6.0;
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vec4 specular = vec4(specular_color, 0.5);
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specular = specular * saturation * 0.3 ;
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//calculate fresnel
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vec4 invfres = vec4( dot(vNorm, viewt) );
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vec4 fres = vec4(1.0) + invfres;
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refl *= fres;
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//calculate final colour
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vec4 ambient_light = gl_LightSource[0].diffuse;
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vec4 finalColor;
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if(cover >= 1.5){
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finalColor = refl + specular;
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} else {
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finalColor = refl;
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}
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float foamSlope = 0.10 + 0.1 * windScale;
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vec4 foam_texel = texture2D(sea_foam, vec2(waterTex2 * tscale) * 25.0);
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float waveSlope = N.g;
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if (windEffect >= 8.0)
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if (waveSlope >= foamSlope){
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finalColor = mix(finalColor, max(finalColor, finalColor + foam_texel), smoothstep(0.01, 0.50, N.g));
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}
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finalColor *= ambient_light;
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//gl_FragColor = mix(gl_Fog.color, finalColor, fogFactor);
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finalColor.rgb = fog_Func(finalColor.rgb, fogType);
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gl_FragColor = finalColor;
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}
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// © Emilian Huminiuc and Vivian Meazza
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#version 120
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uniform sampler2D water_normalmap;
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uniform sampler2D water_reflection;
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uniform sampler2D water_dudvmap;
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uniform sampler2D water_reflection_grey;
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uniform sampler2D sea_foam;
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uniform sampler2D perlin_normalmap;
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uniform float saturation, Overcast, WindE, WindN;
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uniform float CloudCover0, CloudCover1, CloudCover2, CloudCover3, CloudCover4;
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uniform float osg_SimulationTime;
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uniform int Status;
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varying vec4 waterTex1; //moving texcoords
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varying vec4 waterTex2; //moving texcoords
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varying vec3 viewerdir;
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varying vec3 lightdir;
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varying vec3 normal;
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uniform float WaveFreq ;
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uniform float WaveAmp ;
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uniform float WaveSharp ;
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////fog "include" /////
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uniform int fogType;
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vec3 fog_Func(vec3 color, int type);
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//////////////////////
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/////// functions /////////
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void rotationmatrix(in float angle, out mat4 rotmat)
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{
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rotmat = mat4( cos( angle ), -sin( angle ), 0.0, 0.0,
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sin( angle ), cos( angle ), 0.0, 0.0,
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0.0 , 0.0 , 1.0, 0.0,
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0.0 , 0.0 , 0.0, 1.0 );
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}
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void main(void)
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{
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const vec4 sca = vec4(0.005, 0.005, 0.005, 0.005);
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const vec4 sca2 = vec4(0.02, 0.02, 0.02, 0.02);
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const vec4 tscale = vec4(0.25, 0.25, 0.25, 0.25);
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mat4 RotationMatrix;
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// compute direction to viewer
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vec3 E = normalize(viewerdir);
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// compute direction to light source
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vec3 L = normalize(lightdir);
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// half vector
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vec3 H = normalize(L + E);
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vec3 Normal = normalize(normal);
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const float water_shininess = 240.0;
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// approximate cloud cover
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float cover = 0.0;
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//bool Status = true;
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float windEffect = sqrt( WindE*WindE + WindN*WindN ) * 0.6; //wind speed in kt
|
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float windScale = 15.0/(3.0 + windEffect); //wave scale
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float windEffect_low = 0.3 + 0.7 * smoothstep(0.0, 5.0, windEffect); //low windspeed wave filter
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float waveRoughness = 0.05 + smoothstep(0.0, 20.0, windEffect); //wave roughness filter
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float mixFactor = 0.75 - 0.15 * smoothstep(0.0, 40.0, windEffect);
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mixFactor = clamp(mixFactor, 0.3, 0.8);
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if (Status == 1){
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cover = min(min(min(min(CloudCover0, CloudCover1),CloudCover2),CloudCover3),CloudCover4);
|
||||
} else {
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||||
// hack to allow for Overcast not to be set by Local Weather
|
||||
if (Overcast == 0){
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cover = 5;
|
||||
} else {
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||||
cover = Overcast * 5;
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}
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}
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vec4 viewt = vec4(-E, 0.0) * 0.6;
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vec4 disdis = texture2D(water_dudvmap, vec2(waterTex2 * tscale)* windScale) * 2.0 - 1.0;
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vec4 dist = texture2D(water_dudvmap, vec2(waterTex1 + disdis*sca2)* windScale) * 2.0 - 1.0;
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dist *= (0.6 + 0.5 * smoothstep(0.0, 15.0, windEffect));
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vec4 fdist = normalize(dist);
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fdist = -fdist; //dds fix
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fdist *= sca;
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//normalmaps
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rotationmatrix(radians(3.0 * windScale + 0.6 * sin(waterTex1.s * 0.2)), RotationMatrix);
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vec4 nmap = texture2D(water_normalmap, vec2(waterTex1* RotationMatrix + disdis * sca2) * windScale) * 2.0 - 1.0;
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vec4 nmap1 = texture2D(perlin_normalmap, vec2(waterTex1/** RotationMatrix*/ + disdis * sca2) * windScale) * 2.0 - 1.0;
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rotationmatrix(radians(-2.0 * windScale -0.4 * sin(waterTex1.s * 0.32)), RotationMatrix);
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nmap += texture2D(water_normalmap, vec2(waterTex1* RotationMatrix + disdis * sca2) * windScale * 1.5) * 2.0 - 1.0;
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//nmap1 += texture2D(perlin_normalmap, vec2(waterTex1* RotationMatrix + disdis * sca2) * windScale) * 2.0 - 1.0;
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rotationmatrix(radians(1.5 * windScale + 0.3 * sin(waterTex1.s * 0.16)), RotationMatrix);
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||||
nmap += texture2D(water_normalmap, vec2(waterTex1* RotationMatrix + disdis * sca2) * windScale * 2.1) * 2.0 - 1.0;
|
||||
rotationmatrix(radians(-0.5 * windScale - 0.45 * sin(waterTex1.s * 0.28)), RotationMatrix);
|
||||
nmap += texture2D(water_normalmap, vec2(waterTex1* RotationMatrix + disdis * sca2) * windScale * 0.8) * 2.0 - 1.0;
|
||||
|
||||
rotationmatrix(radians(-1.2 * windScale - 0.35 * sin(waterTex1.s * 0.28)), RotationMatrix);
|
||||
nmap += texture2D(water_normalmap, vec2(waterTex2 * RotationMatrix* tscale) * windScale * 1.7) * 2.0 - 1.0;
|
||||
nmap1 += texture2D(perlin_normalmap, vec2(waterTex2/** RotationMatrix*/ * tscale) * windScale) * 2.0 - 1.0;
|
||||
|
||||
nmap *= windEffect_low;
|
||||
nmap1 *= windEffect_low;
|
||||
// mix water and noise, modulated by factor
|
||||
vec4 vNorm = normalize(mix(nmap, nmap1, mixFactor) * waveRoughness);
|
||||
|
||||
vNorm = -vNorm; //dds fix
|
||||
|
||||
//load reflection
|
||||
vec4 tmp = vec4(lightdir, 0.0);
|
||||
vec4 refTex = texture2D(water_reflection, vec2(tmp + waterTex1) * 32.0) ;
|
||||
vec4 refTexGrey = texture2D(water_reflection_grey, vec2(tmp + waterTex1) * 32.0) ;
|
||||
vec4 refl ;
|
||||
|
||||
// cover = 0;
|
||||
|
||||
if(cover >= 1.5){
|
||||
refl = normalize(refTex);
|
||||
refl.a = 1.0;
|
||||
}
|
||||
else
|
||||
{
|
||||
refl = normalize(refTexGrey);
|
||||
refl.r *= (0.75 + 0.15 * cover);
|
||||
refl.g *= (0.80 + 0.15 * cover);
|
||||
refl.b *= (0.875 + 0.125 * cover);
|
||||
refl.a = 1.0;
|
||||
}
|
||||
|
||||
rotationmatrix(radians(2.1* windScale + 0.25 * sin(waterTex1.s *0.14)), RotationMatrix);
|
||||
vec3 N0 = vec3(texture2D(water_normalmap, vec2(waterTex1* RotationMatrix + disdis * sca2) * windScale * 1.15) * 2.0 - 1.0);
|
||||
vec3 N1 = vec3(texture2D(perlin_normalmap, vec2(waterTex1/** RotationMatrix*/ + disdis * sca) * windScale) * 2.0 - 1.0);
|
||||
|
||||
rotationmatrix(radians(-1.5 * windScale -0.32 * sin(waterTex1.s *0.24)), RotationMatrix);
|
||||
N0 += vec3(texture2D(water_normalmap, vec2(waterTex2* RotationMatrix * tscale) * windScale * 1.8) * 2.0 - 1.0);
|
||||
N1 += vec3(texture2D(perlin_normalmap, vec2(waterTex2/** RotationMatrix*/ * tscale) * windScale) * 2.0 - 1.0);
|
||||
|
||||
rotationmatrix(radians(3.8 * windScale + 0.45 * sin(waterTex1.s *0.32)), RotationMatrix);
|
||||
N0 += vec3(texture2D(water_normalmap, vec2(waterTex2 * RotationMatrix * (tscale + sca2)) * windScale * 0.85) * 2.0 - 1.0);
|
||||
N1 += vec3(texture2D(perlin_normalmap, vec2(waterTex2/** RotationMatrix*/ * (tscale + sca2)) * windScale) * 2.0 - 1.0);
|
||||
|
||||
rotationmatrix(radians(-2.8 * windScale - 0.38 * sin(waterTex1.s * 0.26)), RotationMatrix);
|
||||
N0 += vec3(texture2D(water_normalmap, vec2(waterTex1 * RotationMatrix + disdis * sca2) * windScale * 2.1) * 2.0 - 1.0);
|
||||
N1 += vec3(texture2D(perlin_normalmap, vec2(waterTex1 /** RotationMatrix*/ + disdis * sca) * windScale) * 2.0 - 1.0);
|
||||
|
||||
N0 *= windEffect_low;
|
||||
N1 *= windEffect_low;
|
||||
|
||||
vec3 N = normalize(mix(Normal + N0, Normal + N1, mixFactor) * waveRoughness);
|
||||
|
||||
N = -N; //dds fix
|
||||
|
||||
// specular
|
||||
vec3 specular_color = vec3(gl_LightSource[0].diffuse)
|
||||
* pow(max(0.0, dot(N, H)), water_shininess) * 6.0;
|
||||
vec4 specular = vec4(specular_color, 0.5);
|
||||
|
||||
specular = specular * saturation * 0.3 ;
|
||||
|
||||
//calculate fresnel
|
||||
vec4 invfres = vec4( dot(vNorm, viewt) );
|
||||
vec4 fres = vec4(1.0) + invfres;
|
||||
refl *= fres;
|
||||
|
||||
//calculate final colour
|
||||
vec4 ambient_light = gl_LightSource[0].diffuse;
|
||||
vec4 finalColor;
|
||||
|
||||
if(cover >= 1.5){
|
||||
finalColor = refl + specular;
|
||||
} else {
|
||||
finalColor = refl;
|
||||
}
|
||||
|
||||
float foamSlope = 0.10 + 0.1 * windScale;
|
||||
|
||||
vec4 foam_texel = texture2D(sea_foam, vec2(waterTex2 * tscale) * 25.0);
|
||||
float waveSlope = N.g;
|
||||
|
||||
if (windEffect >= 8.0)
|
||||
if (waveSlope >= foamSlope){
|
||||
finalColor = mix(finalColor, max(finalColor, finalColor + foam_texel), smoothstep(0.01, 0.50, N.g));
|
||||
}
|
||||
|
||||
|
||||
finalColor *= ambient_light;
|
||||
|
||||
//gl_FragColor = mix(gl_Fog.color, finalColor, fogFactor);
|
||||
finalColor.rgb = fog_Func(finalColor.rgb, fogType);
|
||||
gl_FragColor = finalColor;
|
||||
}
|
||||
|
|
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@ -186,9 +186,6 @@ command interface /autopilot/route-manager/input:
|
|||
var apt = flightplan().destination;
|
||||
var rwy = flightplan().destination_runway;
|
||||
|
||||
debug.dump("updateAproaches for " ~ rwy.id);
|
||||
debug.dump(apt.getApproachList(rwy));
|
||||
|
||||
if (apt == nil or apt.getApproachList(rwy) == nil) {
|
||||
return;
|
||||
}
|
||||
|
|
Loading…
Reference in a new issue