Improve memory and instantiation time of random buildings.
This commit is contained in:
parent
255d7f362f
commit
2f0a1683b7
5 changed files with 692 additions and 6 deletions
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@ -37,7 +37,8 @@
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<lightmap-color type="vec3d" n="3"> 1.0 1.0 1.0 </lightmap-color>-->
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<!-- Reflection -->
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<reflection-enabled type="int"> 1 </reflection-enabled>
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<reflect-map-enabled type="int"> 1 </reflect-map-enabled>
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<!-- <reflect-map-enabled type="int"> 1 </reflect-map-enabled> -->
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<reflect-map-enabled type="int"> 0 </reflect-map-enabled>
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<reflection-correction type="float"> 0.10 </reflection-correction>
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<reflection-dynamic type="int"> 0 </reflection-dynamic>
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<reflection-fresnel type="float"> 0.0 </reflection-fresnel>
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@ -147,7 +148,7 @@
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</texture-unit>
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<program>
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<vertex-shader n="0">Shaders/include_fog.vert</vertex-shader>
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<vertex-shader n="1">Shaders/default.vert</vertex-shader>
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<vertex-shader n="1">Shaders/building-default.vert</vertex-shader>
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<fragment-shader n="0">Shaders/include_fog.frag</fragment-shader>
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<fragment-shader n="1">Shaders/terrain-nocolor.frag</fragment-shader>
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</program>
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@ -187,7 +188,7 @@
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</internal-format>
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</texture-unit>
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<program>
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<vertex-shader>Shaders/terrain-haze.vert</vertex-shader>
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<vertex-shader>Shaders/building-haze.vert</vertex-shader>
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<fragment-shader>Shaders/terrain-haze.frag</fragment-shader>
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</program>
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<uniform>
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@ -272,8 +273,38 @@
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<use>texture[3]/internal-format</use>
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</internal-format>
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</texture-unit>
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<program n="0">
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<vertex-shader n="0">Shaders/building-ubershader.vert</vertex-shader>
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</program>
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</pass>
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</technique>
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<pass>
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<texture-unit n="4">
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<unit>4</unit>
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<image>
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<use>texture[3]/image</use>
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<filter>
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<use>texture[3]/filter</use>
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<use>texture[3]/wrap-t</use>
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<internal-format>
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<use>texture[3]/internal-format</use>
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</internal-format>
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</texture-unit>
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<program n="0">
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<vertex-shader n="1">Shaders/building-ubershader.vert</vertex-shader>
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</program>
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</pass>
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</technique>
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<technique n="9">
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<texture-unit n="4">
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@ -294,6 +325,171 @@
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<use>texture[3]/internal-format</use>
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</texture-unit>
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<program n="0">
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<vertex-shader n="1">Shaders/building-ubershader.vert</vertex-shader>
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</program>
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</pass>
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</technique>
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<technique n="10">
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<pass>
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<program n="0">
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<vertex-shader n="0">Shaders/building-deferred-gbuffer.vert</vertex-shader>
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</program>
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</pass>
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</technique>
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<technique n="11">
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<pass>
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<program n="0">
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<vertex-shader n="0">Shaders/building-default.vert</vertex-shader>
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</program>
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</pass>
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</technique>
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<technique n="12">
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<pass>
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<lighting>true</lighting>
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<material>
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<active>
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<use>material/active</use>
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</active>
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<ambient>
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<use>material/ambient</use>
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</ambient>
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<diffuse>
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<use>material/diffuse</use>
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</diffuse>
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<specular>
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<use>material/specular</use>
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</specular>
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<emissive>
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<use>material/emissive</use>
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</emissive>
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<shininess>
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<use>material/shininess</use>
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</shininess>
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<color-mode>off</color-mode>
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</material>
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<render-bin>
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<bin-number>2</bin-number>
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<bin-name>RenderBin</bin-name>
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</render-bin>
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<blend>
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<active>
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<use>blend/active</use>
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</active>
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<source>
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<use>blend/source</use>
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</source>
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<destination>
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<use>blend/destination</use>
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</destination>
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</blend>
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<shade-model>
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<use>shade-model</use>
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</shade-model>
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<cull-face>
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<use>cull-face</use>
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</cull-face>
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<rendering-hint>
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<use>rendering-hint</use>
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</rendering-hint>
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<texture-unit>
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<!-- The texture unit is always active because the shaders expect
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that. -->
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<unit>0</unit>
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<!-- If there is a texture, the type in the derived effect
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will be "2d". -->
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<type>
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<use>texture[0]/type</use>
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</type>
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<image>
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<use>texture[0]/image</use>
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</image>
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<filter>
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<use>texture[0]/filter</use>
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</filter>
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<wrap-s>
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<use>texture[0]/wrap-s</use>
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</wrap-s>
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<wrap-t>
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<use>texture[0]/wrap-t</use>
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</wrap-t>
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<!--
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<internal-format>
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<use>texture[0]/internal-format</use>
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-->
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</texture-unit>
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<vertex-program-two-side>
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<use>vertex-program-two-side</use>
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</vertex-program-two-side>
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<program>
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<!-- <vertex-shader n="0">Shaders/include_fog.vert</vertex-shader> -->
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<!--fog include-->
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<vertex-shader n="1">Shaders/building-default.vert</vertex-shader>
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<fragment-shader n="0">Shaders/include_fog.frag</fragment-shader>
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<!--fog include-->
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<fragment-shader n="1">Shaders/default.frag</fragment-shader>
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</program>
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<!-- BEGIN fog include -->
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<uniform>
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<name>visibility</name>
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<type>float</type>
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<value>
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<use>visibility</use>
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</value>
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</uniform>
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<uniform>
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<name>avisibility</name>
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<type>float</type>
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<value>
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<use>avisibility</use>
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</value>
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</uniform>
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<uniform>
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<name>hazeLayerAltitude</name>
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<type>float</type>
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<value>
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<use>lthickness</use>
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</value>
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</uniform>
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<uniform>
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<name>scattering</name>
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<type>float</type>
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<value>
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<use>scattering</use>
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</value>
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</uniform>
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<uniform>
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<name>terminator</name>
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<type>float</type>
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<value>
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<use>terminator</use>
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</value>
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</uniform>
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<uniform>
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<name>fogType</name>
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<type>int</type>
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<value>
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<use>fogtype</use>
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</value>
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</uniform>
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<!-- END fog include -->
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<uniform>
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<name>texture</name>
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<type>sampler-2d</type>
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<value type="int">0</value>
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</uniform>
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<uniform>
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||||
<name>colorMode</name>
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<type>int</type>
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<value>
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<use>material/color-mode-uniform</use>
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</value>
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</uniform>
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</pass>
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</technique>
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</PropertyList>
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80
Shaders/building-default.vert
Normal file
80
Shaders/building-default.vert
Normal file
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@ -0,0 +1,80 @@
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// -*-C++-*-
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// Shader that uses OpenGL state values to do per-pixel lighting
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//
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// The only light used is gl_LightSource[0], which is assumed to be
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// directional.
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//
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// Diffuse colors come from the gl_Color, ambient from the material. This is
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// equivalent to osg::Material::DIFFUSE.
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#version 120
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#define MODE_OFF 0
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#define MODE_DIFFUSE 1
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#define MODE_AMBIENT_AND_DIFFUSE 2
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// The constant term of the lighting equation that doesn't depend on
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// the surface normal is passed in gl_{Front,Back}Color. The alpha
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// component is set to 1 for front, 0 for back in order to work around
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// bugs with gl_FrontFacing in the fragment shader.
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varying vec4 diffuse_term;
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varying vec3 normal;
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uniform int colorMode;
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////fog "include"////////
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//uniform int fogType;
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//
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//void fog_Func(int type);
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/////////////////////////
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void main()
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{
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// Determine the rotation for the building. The Color alpha value provides rotation information
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float sr = sin(6.28 * gl_Color.a);
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float cr = cos(6.28 * gl_Color.a);
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vec3 position = gl_Vertex.xyz;
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// Rotation of the building and movement into position
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position.xy = vec2(dot(position.xy, vec2(cr, sr)), dot(position.xy, vec2(-sr, cr)));
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position = position + gl_Color.xyz;
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gl_Position = gl_ModelViewProjectionMatrix * vec4(position,1.0);
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//gl_Position = ftransform();
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gl_TexCoord[0] = gl_TextureMatrix[0] * gl_MultiTexCoord0;
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// Rotate the normal.
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normal = gl_Normal;
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normal.xy = vec2(dot(normal.xy, vec2(cr, sr)), dot(normal.xy, vec2(-sr, cr)));
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normal = gl_NormalMatrix * normal;
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vec4 ambient_color, diffuse_color;
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if (colorMode == MODE_DIFFUSE) {
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diffuse_color = vec4(1.0,1.0,1.0,1.0);
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ambient_color = gl_FrontMaterial.ambient;
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} else if (colorMode == MODE_AMBIENT_AND_DIFFUSE) {
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diffuse_color = vec4(1.0,1.0,1.0,1.0);
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ambient_color = vec4(1.0,1.0,1.0,1.0);
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} else {
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diffuse_color = gl_FrontMaterial.diffuse;
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ambient_color = gl_FrontMaterial.ambient;
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}
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diffuse_term = diffuse_color * gl_LightSource[0].diffuse;
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vec4 constant_term = gl_FrontMaterial.emission + ambient_color *
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(gl_LightModel.ambient + gl_LightSource[0].ambient);
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// Super hack: if diffuse material alpha is less than 1, assume a
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// transparency animation is at work
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if (gl_FrontMaterial.diffuse.a < 1.0)
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diffuse_term.a = gl_FrontMaterial.diffuse.a;
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else
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diffuse_term.a = 1.0;
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// Another hack for supporting two-sided lighting without using
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// gl_FrontFacing in the fragment shader.
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gl_FrontColor.rgb = constant_term.rgb; gl_FrontColor.a = 1.0;
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gl_BackColor.rgb = constant_term.rgb; gl_BackColor.a = 0.0;
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//fogCoord = abs(ecPosition.z / ecPosition.w);
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//fog_Func(fogType);
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}
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30
Shaders/building-deferred-gbuffer.vert
Normal file
30
Shaders/building-deferred-gbuffer.vert
Normal file
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@ -0,0 +1,30 @@
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// -*- mode: C; -*-
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// Licence: GPL v2
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// Author: Frederic Bouvier.
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//
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varying vec3 ecNormal;
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varying float alpha;
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void main() {
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// Determine the rotation for the building. The Color alpha value provides rotation information
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float sr = sin(6.28 * gl_Color.a);
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float cr = cos(6.28 * gl_Color.a);
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vec3 position = gl_Vertex.xyz;
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// Rotation of the building and movement into position
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position.xy = vec2(dot(position.xy, vec2(cr, sr)), dot(position.xy, vec2(-sr, cr)));
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position = position + gl_Color.xyz;
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gl_Position = gl_ModelViewProjectionMatrix * vec4(position,1.0);
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// Rotate the normal.
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ecNormal = gl_Normal;
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ecNormal.xy = vec2(dot(ecNormal.xy, vec2(cr, sr)), dot(ecNormal.xy, vec2(-sr, cr)));
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ecNormal = gl_NormalMatrix * ecNormal;
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gl_TexCoord[0] = gl_TextureMatrix[0] * gl_MultiTexCoord0;
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gl_FrontColor = vec4(1.0, 1.0, 1.0, 1.0);
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gl_BackColor = vec4(1.0, 1.0, 1.0, 1.0);
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alpha = 1.0;
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}
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254
Shaders/building-haze.vert
Normal file
254
Shaders/building-haze.vert
Normal file
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// -*-C++-*-
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// Shader that uses OpenGL state values to do per-pixel lighting
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//
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// The only light used is gl_LightSource[0], which is assumed to be
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// directional.
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//
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// Diffuse colors come from the gl_Color, ambient from the material. This is
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// equivalent to osg::Material::DIFFUSE.
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// Haze part added by Thorsten Renk, Oct. 2011
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#define MODE_OFF 0
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#define MODE_DIFFUSE 1
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#define MODE_AMBIENT_AND_DIFFUSE 2
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// The constant term of the lighting equation that doesn't depend on
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// the surface normal is passed in gl_{Front,Back}Color. The alpha
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// component is set to 1 for front, 0 for back in order to work around
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// bugs with gl_FrontFacing in the fragment shader.
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varying vec4 diffuse_term;
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varying vec3 normal;
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varying vec3 relPos;
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//varying float earthShade;
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//varying float yprime;
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//varying float vertex_alt;
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varying float yprime_alt;
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varying float mie_angle;
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uniform int colorMode;
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uniform float hazeLayerAltitude;
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uniform float terminator;
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uniform float terrain_alt;
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uniform float avisibility;
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uniform float visibility;
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uniform float overcast;
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//uniform float scattering;
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uniform float ground_scattering;
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// This is the value used in the skydome scattering shader - use the same here for consistency?
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const float EarthRadius = 5800000.0;
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const float terminator_width = 200000.0;
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float earthShade;
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float light_func (in float x, in float a, in float b, in float c, in float d, in float e)
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{
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//x = x - 0.5;
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// use the asymptotics to shorten computations
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if (x < -15.0) {return 0.0;}
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return e / pow((1.0 + a * exp(-b * (x-c)) ),(1.0/d));
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}
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void main()
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{
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vec4 light_diffuse;
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vec4 light_ambient;
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//float yprime_alt;
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float yprime;
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float lightArg;
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float intensity;
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float vertex_alt;
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float scattering;
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// this code is copied from default.vert
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//vec4 ecPosition = gl_ModelViewMatrix * gl_Vertex;
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// Determine the rotation for the building. The Color alpha value provides rotation information
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float sr = sin(6.28 * gl_Color.a);
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float cr = cos(6.28 * gl_Color.a);
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vec3 position = gl_Vertex.xyz;
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// Rotation of the building and movement into position
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position.xy = vec2(dot(position.xy, vec2(cr, sr)), dot(position.xy, vec2(-sr, cr)));
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position = position + gl_Color.xyz;
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gl_Position = gl_ModelViewProjectionMatrix * vec4(position,1.0);
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gl_TexCoord[0] = gl_TextureMatrix[0] * gl_MultiTexCoord0;
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// Rotate the normal.
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normal = gl_Normal;
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normal.xy = vec2(dot(normal.xy, vec2(cr, sr)), dot(normal.xy, vec2(-sr, cr)));
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normal = gl_NormalMatrix * normal;
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vec4 ambient_color, diffuse_color;
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if (colorMode == MODE_DIFFUSE) {
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diffuse_color = vec4(1.0,1.0,1.0,1.0);
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ambient_color = gl_FrontMaterial.ambient;
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} else if (colorMode == MODE_AMBIENT_AND_DIFFUSE) {
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diffuse_color = vec4(1.0,1.0,1.0,1.0);
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ambient_color = vec4(1.0,1.0,1.0,1.0);
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} else {
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diffuse_color = gl_FrontMaterial.diffuse;
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ambient_color = gl_FrontMaterial.ambient;
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}
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// here start computations for the haze layer
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// we need several geometrical quantities
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// first current altitude of eye position in model space
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vec4 ep = gl_ModelViewMatrixInverse * vec4(0.0,0.0,0.0,1.0);
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// and relative position to vector
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relPos = gl_Vertex.xyz + gl_Color.xyz - ep.xyz;
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||||
// unfortunately, we need the distance in the vertex shader, although the more accurate version
|
||||
// is later computed in the fragment shader again
|
||||
float dist = length(relPos);
|
||||
|
||||
// altitude of the vertex in question, somehow zero leads to artefacts, so ensure it is at least 100m
|
||||
vertex_alt = max(gl_Vertex.z + gl_Color.z,100.0);
|
||||
scattering = ground_scattering + (1.0 - ground_scattering) * smoothstep(hazeLayerAltitude -100.0, hazeLayerAltitude + 100.0, vertex_alt);
|
||||
|
||||
// branch dependent on daytime
|
||||
|
||||
if (terminator < 1000000.0) // the full, sunrise and sunset computation
|
||||
{
|
||||
|
||||
|
||||
// establish coordinates relative to sun position
|
||||
|
||||
vec3 lightFull = (gl_ModelViewMatrixInverse * gl_LightSource[0].position).xyz;
|
||||
vec3 lightHorizon = normalize(vec3(lightFull.x,lightFull.y, 0.0));
|
||||
|
||||
|
||||
|
||||
// yprime is the distance of the vertex into sun direction
|
||||
yprime = -dot(relPos, lightHorizon);
|
||||
|
||||
// this gets an altitude correction, higher terrain gets to see the sun earlier
|
||||
yprime_alt = yprime - sqrt(2.0 * EarthRadius * vertex_alt);
|
||||
|
||||
// two times terminator width governs how quickly light fades into shadow
|
||||
// now the light-dimming factor
|
||||
earthShade = 0.6 * (1.0 - smoothstep(-terminator_width+ terminator, terminator_width + terminator, yprime_alt)) + 0.4;
|
||||
|
||||
// parametrized version of the Flightgear ground lighting function
|
||||
lightArg = (terminator-yprime_alt)/100000.0;
|
||||
|
||||
// directional scattering for low sun
|
||||
if (lightArg < 10.0)
|
||||
{mie_angle = (0.5 * dot(normalize(relPos), normalize(lightFull)) ) + 0.5;}
|
||||
else
|
||||
{mie_angle = 1.0;}
|
||||
|
||||
|
||||
|
||||
|
||||
light_diffuse.b = light_func(lightArg, 1.330e-05, 0.264, 3.827, 1.08e-05, 1.0);
|
||||
light_diffuse.g = light_func(lightArg, 3.931e-06, 0.264, 3.827, 7.93e-06, 1.0);
|
||||
light_diffuse.r = light_func(lightArg, 8.305e-06, 0.161, 3.827, 3.04e-05, 1.0);
|
||||
light_diffuse.a = 0.0;
|
||||
light_diffuse = light_diffuse * scattering;
|
||||
|
||||
light_ambient.b = light_func(lightArg, 0.000506, 0.131, -3.315, 0.000457, 0.5);
|
||||
light_ambient.g = light_func(lightArg, 2.264e-05, 0.134, 0.967, 3.66e-05, 0.4);
|
||||
light_ambient.r = light_func(lightArg, 0.236, 0.253, 1.073, 0.572, 0.33);
|
||||
light_ambient.a = 0.0;
|
||||
|
||||
|
||||
|
||||
|
||||
// correct ambient light intensity and hue before sunrise
|
||||
if (earthShade < 0.5)
|
||||
{
|
||||
light_ambient = light_ambient * (0.7 + 0.3 * smoothstep(0.2, 0.5, earthShade));
|
||||
intensity = length(light_ambient.xyz);
|
||||
|
||||
light_ambient.xyz = intensity * normalize(mix(light_ambient.xyz, vec3 (0.45, 0.6, 0.8), 1.0 -smoothstep(0.1, 0.8,earthShade) ));
|
||||
|
||||
intensity = length(light_diffuse.xyz);
|
||||
light_diffuse.xyz = intensity * normalize(mix(light_diffuse.xyz, vec3 (0.45, 0.6, 0.8), 1.0 -smoothstep(0.1, 0.7,earthShade) ));
|
||||
}
|
||||
|
||||
|
||||
// the haze gets the light at the altitude of the haze top if the vertex in view is below
|
||||
// but the light at the vertex if the vertex is above
|
||||
|
||||
vertex_alt = max(vertex_alt,hazeLayerAltitude);
|
||||
|
||||
if (vertex_alt > hazeLayerAltitude)
|
||||
{
|
||||
if (dist > 0.8 * avisibility)
|
||||
{
|
||||
vertex_alt = mix(vertex_alt, hazeLayerAltitude, smoothstep(0.8*avisibility, avisibility, dist));
|
||||
yprime_alt = yprime -sqrt(2.0 * EarthRadius * vertex_alt);
|
||||
}
|
||||
}
|
||||
else
|
||||
{
|
||||
vertex_alt = hazeLayerAltitude;
|
||||
yprime_alt = yprime -sqrt(2.0 * EarthRadius * vertex_alt);
|
||||
}
|
||||
|
||||
}
|
||||
else // the faster, full-day version without lightfields
|
||||
{
|
||||
//vertex_alt = max(gl_Vertex.z,100.0);
|
||||
|
||||
earthShade = 1.0;
|
||||
mie_angle = 1.0;
|
||||
|
||||
if (terminator > 3000000.0)
|
||||
{light_diffuse = vec4 (1.0, 1.0, 1.0, 0.0);
|
||||
light_ambient = vec4 (0.33, 0.4, 0.5, 0.0); }
|
||||
else
|
||||
{
|
||||
|
||||
lightArg = (terminator/100000.0 - 10.0)/20.0;
|
||||
light_diffuse.b = 0.78 + lightArg * 0.21;
|
||||
light_diffuse.g = 0.907 + lightArg * 0.091;
|
||||
light_diffuse.r = 0.904 + lightArg * 0.092;
|
||||
light_diffuse.a = 0.0;
|
||||
|
||||
light_ambient.b = 0.41 + lightArg * 0.08;
|
||||
light_ambient.g = 0.333 + lightArg * 0.06;
|
||||
light_ambient.r = 0.316 + lightArg * 0.016;
|
||||
light_ambient.a = 0.0;
|
||||
}
|
||||
|
||||
light_diffuse = light_diffuse * scattering;
|
||||
yprime_alt = -sqrt(2.0 * EarthRadius * hazeLayerAltitude);
|
||||
}
|
||||
|
||||
|
||||
// default lighting based on texture and material using the light we have just computed
|
||||
|
||||
diffuse_term = diffuse_color* light_diffuse;
|
||||
vec4 constant_term = gl_FrontMaterial.emission + ambient_color *
|
||||
(gl_LightModel.ambient + light_ambient);
|
||||
// Super hack: if diffuse material alpha is less than 1, assume a
|
||||
// transparency animation is at work
|
||||
if (gl_FrontMaterial.diffuse.a < 1.0)
|
||||
diffuse_term.a = gl_FrontMaterial.diffuse.a;
|
||||
else
|
||||
diffuse_term.a = 1.0;
|
||||
// Another hack for supporting two-sided lighting without using
|
||||
// gl_FrontFacing in the fragment shader.
|
||||
gl_FrontColor.rgb = constant_term.rgb; gl_FrontColor.a = 1.0;
|
||||
gl_BackColor.rgb = constant_term.rgb; gl_BackColor.a = 0.0;
|
||||
}
|
||||
|
126
Shaders/building-ubershader.vert
Normal file
126
Shaders/building-ubershader.vert
Normal file
|
@ -0,0 +1,126 @@
|
|||
// -*- mode: C; -*-
|
||||
// Licence: GPL v2
|
||||
// © Emilian Huminiuc and Vivian Meazza 2011
|
||||
#version 120
|
||||
|
||||
varying vec3 rawpos;
|
||||
varying vec3 VNormal;
|
||||
varying vec3 VTangent;
|
||||
varying vec3 VBinormal;
|
||||
varying vec3 vViewVec;
|
||||
varying vec3 reflVec;
|
||||
|
||||
varying float alpha;
|
||||
|
||||
attribute vec3 tangent;
|
||||
attribute vec3 binormal;
|
||||
|
||||
uniform float pitch;
|
||||
uniform float roll;
|
||||
uniform float hdg;
|
||||
uniform int refl_dynamic;
|
||||
uniform int nmap_enabled;
|
||||
uniform int shader_qual;
|
||||
uniform int rembrandt_enabled;
|
||||
uniform int color_is_position;
|
||||
|
||||
//////Fog Include///////////
|
||||
// uniform int fogType;
|
||||
// void fog_Func(int type);
|
||||
////////////////////////////
|
||||
|
||||
void rotationMatrixPR(in float sinRx, in float cosRx, in float sinRy, in float cosRy, out mat4 rotmat)
|
||||
{
|
||||
rotmat = mat4( cosRy , sinRx * sinRy , cosRx * sinRy, 0.0,
|
||||
0.0 , cosRx , -sinRx * cosRx, 0.0,
|
||||
-sinRy, sinRx * cosRy, cosRx * cosRy , 0.0,
|
||||
0.0 , 0.0 , 0.0 , 1.0 );
|
||||
}
|
||||
|
||||
void rotationMatrixH(in float sinRz, in float cosRz, out mat4 rotmat)
|
||||
{
|
||||
rotmat = mat4( cosRz, -sinRz, 0.0, 0.0,
|
||||
sinRz, cosRz, 0.0, 0.0,
|
||||
0.0 , 0.0 , 1.0, 0.0,
|
||||
0.0 , 0.0 , 0.0, 1.0 );
|
||||
}
|
||||
|
||||
void main(void)
|
||||
{
|
||||
float sr = sin(6.28 * gl_Color.a);
|
||||
float cr = cos(6.28 * gl_Color.a);
|
||||
rawpos = gl_Vertex.xyz;
|
||||
|
||||
// Rotation of the object and movement into position
|
||||
rawpos.xy = vec2(dot(rawpos.xy, vec2(cr, sr)), dot(rawpos.xy, vec2(-sr, cr)));
|
||||
rawpos = rawpos + gl_Color.xyz;
|
||||
|
||||
vec4 ecPosition = gl_ModelViewMatrix * vec4(rawpos.x, rawpos.y, rawpos.z, 1.0);
|
||||
//fog_Func(fogType);
|
||||
|
||||
// Rotate the normal.
|
||||
vec3 normal = gl_Normal;
|
||||
normal.xy = vec2(dot(normal.xy, vec2(cr, sr)), dot(normal.xy, vec2(-sr, cr)));
|
||||
normal = gl_NormalMatrix * normal;
|
||||
|
||||
VNormal = normalize(normal);
|
||||
if (nmap_enabled > 0 && shader_qual > 2){
|
||||
VTangent = normalize(gl_NormalMatrix * tangent);
|
||||
VBinormal = normalize(gl_NormalMatrix * binormal);
|
||||
} else {
|
||||
VTangent = vec3(0.0);
|
||||
VBinormal = vec3 (0.0);
|
||||
}
|
||||
vec3 n = normalize(normal);
|
||||
vec3 t = cross(n, vec3(1.0,0.0,0.0));
|
||||
vec3 b = cross(n,t);
|
||||
|
||||
// Super hack: if diffuse material alpha is less than 1, assume a
|
||||
// transparency animation is at work
|
||||
if (gl_FrontMaterial.diffuse.a < 1.0)
|
||||
alpha = gl_FrontMaterial.diffuse.a;
|
||||
else
|
||||
alpha = 1.0;
|
||||
|
||||
// Vertex in eye coordinates
|
||||
vec3 vertVec = ecPosition.xyz;
|
||||
vViewVec.x = dot(t, vertVec);
|
||||
vViewVec.y = dot(b, vertVec);
|
||||
vViewVec.z = dot(n, vertVec);
|
||||
|
||||
// calculate the reflection vector
|
||||
vec4 reflect_eye = vec4(reflect(vertVec, VNormal), 0.0);
|
||||
vec3 reflVec_stat = normalize(gl_ModelViewMatrixInverse * reflect_eye).xyz;
|
||||
if (refl_dynamic > 0){
|
||||
//prepare rotation matrix
|
||||
mat4 RotMatPR;
|
||||
mat4 RotMatH;
|
||||
float _roll = roll;
|
||||
if (_roll>90.0 || _roll < -90.0)
|
||||
{
|
||||
_roll = -_roll;
|
||||
}
|
||||
float cosRx = cos(radians(_roll));
|
||||
float sinRx = sin(radians(_roll));
|
||||
float cosRy = cos(radians(-pitch));
|
||||
float sinRy = sin(radians(-pitch));
|
||||
float cosRz = cos(radians(hdg));
|
||||
float sinRz = sin(radians(hdg));
|
||||
rotationMatrixPR(sinRx, cosRx, sinRy, cosRy, RotMatPR);
|
||||
rotationMatrixH(sinRz, cosRz, RotMatH);
|
||||
vec3 reflVec_dyn = (RotMatH * (RotMatPR * normalize(gl_ModelViewMatrixInverse * reflect_eye))).xyz;
|
||||
|
||||
reflVec = reflVec_dyn;
|
||||
} else {
|
||||
reflVec = reflVec_stat;
|
||||
}
|
||||
|
||||
if(rembrandt_enabled < 1){
|
||||
gl_FrontColor = gl_FrontMaterial.emission + vec4(1.0,1.0,1.0,1.0)
|
||||
* (gl_LightModel.ambient + gl_LightSource[0].ambient);
|
||||
} else {
|
||||
gl_FrontColor = vec4(1.0,1.0,1.0,1.0);
|
||||
}
|
||||
gl_Position = gl_ModelViewProjectionMatrix * vec4(rawpos,1.0);
|
||||
gl_TexCoord[0] = gl_TextureMatrix[0] * gl_MultiTexCoord0;
|
||||
}
|
Loading…
Reference in a new issue