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HDR: Implement a logarithmic depth buffer

This commit is contained in:
Fernando García Liñán 2024-01-31 00:24:01 +01:00
parent e2af9b603b
commit 73a55a71c5
58 changed files with 375 additions and 149 deletions

View file

@ -15,7 +15,7 @@
: G-Buffer 1 (RGBA8) : Base Color : Metallic : : G-Buffer 1 (RGBA8) : Base Color : Metallic :
: G-Buffer 2 (RGBA8) : Material specific params : Occlusion : : G-Buffer 2 (RGBA8) : Material specific params : Occlusion :
: G-Buffer 3 (R11G11B10) : Emission : - : : G-Buffer 3 (R11G11B10) : Emission : - :
: Depth/Stencil : DEPTH32F_STENCIL8 (Reversed depth) : : Depth/Stencil : DEPTH24_STENCIL8 (Logarithmic depth) :
:........................:............:.........:...........:.............: :........................:............:.........:...........:.............:
Notes: Notes:
@ -64,7 +64,7 @@
<type>2d</type> <type>2d</type>
<width>screen</width> <width>screen</width>
<height>screen</height> <height>screen</height>
<format>depth32f-stencil8</format> <format>depth24-stencil8</format>
</buffer> </buffer>
<!-- HDR shading result --> <!-- HDR shading result -->
@ -632,7 +632,7 @@
<type>scene</type> <type>scene</type>
<effect-scheme>hdr-geometry</effect-scheme> <effect-scheme>hdr-geometry</effect-scheme>
<clear-mask>depth stencil</clear-mask> <clear-mask>depth stencil</clear-mask>
<clear-depth>0.0</clear-depth> <clear-depth>1.0</clear-depth>
<cull-mask>0xfffff7ff</cull-mask> <cull-mask>0xfffff7ff</cull-mask>
<clustered-shading> <clustered-shading>
<tile-size>128</tile-size> <tile-size>128</tile-size>

View file

@ -52,6 +52,7 @@
<vertex-shader>Shaders/HDR/quad.vert</vertex-shader> <vertex-shader>Shaders/HDR/quad.vert</vertex-shader>
<fragment-shader>Shaders/HDR/atmos_aerial_perspective.frag</fragment-shader> <fragment-shader>Shaders/HDR/atmos_aerial_perspective.frag</fragment-shader>
<fragment-shader>Shaders/HDR/math.glsl</fragment-shader> <fragment-shader>Shaders/HDR/math.glsl</fragment-shader>
<fragment-shader>Shaders/HDR/logarithmic_depth.glsl</fragment-shader>
<fragment-shader>Shaders/HDR/pos_from_depth.glsl</fragment-shader> <fragment-shader>Shaders/HDR/pos_from_depth.glsl</fragment-shader>
<fragment-shader>Shaders/HDR/atmos.glsl</fragment-shader> <fragment-shader>Shaders/HDR/atmos.glsl</fragment-shader>
<fragment-shader>Shaders/HDR/atmos_spectral.glsl</fragment-shader> <fragment-shader>Shaders/HDR/atmos_spectral.glsl</fragment-shader>

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@ -6,7 +6,6 @@
<program> <program>
<vertex-shader>Shaders/HDR/quad_matrix.vert</vertex-shader> <vertex-shader>Shaders/HDR/quad_matrix.vert</vertex-shader>
<fragment-shader>Shaders/HDR/debug_gbuffer_depth.frag</fragment-shader> <fragment-shader>Shaders/HDR/debug_gbuffer_depth.frag</fragment-shader>
<fragment-shader>Shaders/HDR/pos_from_depth.glsl</fragment-shader>
</program> </program>
<uniform> <uniform>
<name>depth_tex</name> <name>depth_tex</name>

View file

@ -17,6 +17,7 @@
<fragment-shader>Shaders/HDR/gtao.frag</fragment-shader> <fragment-shader>Shaders/HDR/gtao.frag</fragment-shader>
<fragment-shader>Shaders/HDR/math.glsl</fragment-shader> <fragment-shader>Shaders/HDR/math.glsl</fragment-shader>
<fragment-shader>Shaders/HDR/normal_encoding.glsl</fragment-shader> <fragment-shader>Shaders/HDR/normal_encoding.glsl</fragment-shader>
<fragment-shader>Shaders/HDR/logarithmic_depth.glsl</fragment-shader>
<fragment-shader>Shaders/HDR/pos_from_depth.glsl</fragment-shader> <fragment-shader>Shaders/HDR/pos_from_depth.glsl</fragment-shader>
</program> </program>
<uniform> <uniform>

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@ -61,6 +61,7 @@
<fragment-shader>Shaders/HDR/shading_opaque.frag</fragment-shader> <fragment-shader>Shaders/HDR/shading_opaque.frag</fragment-shader>
<fragment-shader>Shaders/HDR/gbuffer_unpack.glsl</fragment-shader> <fragment-shader>Shaders/HDR/gbuffer_unpack.glsl</fragment-shader>
<fragment-shader>Shaders/HDR/normal_encoding.glsl</fragment-shader> <fragment-shader>Shaders/HDR/normal_encoding.glsl</fragment-shader>
<fragment-shader>Shaders/HDR/logarithmic_depth.glsl</fragment-shader>
<fragment-shader>Shaders/HDR/pos_from_depth.glsl</fragment-shader> <fragment-shader>Shaders/HDR/pos_from_depth.glsl</fragment-shader>
<fragment-shader>Shaders/HDR/math.glsl</fragment-shader> <fragment-shader>Shaders/HDR/math.glsl</fragment-shader>
<fragment-shader>Shaders/HDR/shading_opaque.glsl</fragment-shader> <fragment-shader>Shaders/HDR/shading_opaque.glsl</fragment-shader>

View file

@ -18,6 +18,7 @@
<fragment-shader>Shaders/HDR/water_shading.frag</fragment-shader> <fragment-shader>Shaders/HDR/water_shading.frag</fragment-shader>
<fragment-shader>Shaders/HDR/math.glsl</fragment-shader> <fragment-shader>Shaders/HDR/math.glsl</fragment-shader>
<fragment-shader>Shaders/HDR/normal_encoding.glsl</fragment-shader> <fragment-shader>Shaders/HDR/normal_encoding.glsl</fragment-shader>
<fragment-shader>Shaders/HDR/logarithmic_depth.glsl</fragment-shader>
<fragment-shader>Shaders/HDR/pos_from_depth.glsl</fragment-shader> <fragment-shader>Shaders/HDR/pos_from_depth.glsl</fragment-shader>
<fragment-shader>Shaders/HDR/sun.glsl</fragment-shader> <fragment-shader>Shaders/HDR/sun.glsl</fragment-shader>
<fragment-shader>Shaders/HDR/aerial_perspective.glsl</fragment-shader> <fragment-shader>Shaders/HDR/aerial_perspective.glsl</fragment-shader>

View file

@ -68,11 +68,10 @@
<technique n="109"> <technique n="109">
<scheme>hdr-geometry</scheme> <scheme>hdr-geometry</scheme>
<pass> <pass>
<!-- Reverse floating point depth buffer -->
<depth> <depth>
<function>gequal</function> <enabled>true</enabled>
<near>1.0</near> <function>less</function>
<far>0.0</far> <write-mask>true</write-mask>
</depth> </depth>
<stencil> <stencil>
<function>always</function> <function>always</function>
@ -84,7 +83,9 @@
<cull-face><use>cull-face</use></cull-face> <cull-face><use>cull-face</use></cull-face>
<program> <program>
<vertex-shader>Shaders/HDR/model_chrome.vert</vertex-shader> <vertex-shader>Shaders/HDR/model_chrome.vert</vertex-shader>
<vertex-shader>Shaders/HDR/logarithmic_depth.glsl</vertex-shader>
<fragment-shader>Shaders/HDR/model_chrome.frag</fragment-shader> <fragment-shader>Shaders/HDR/model_chrome.frag</fragment-shader>
<fragment-shader>Shaders/HDR/logarithmic_depth.glsl</fragment-shader>
<fragment-shader>Shaders/HDR/gbuffer_pack.glsl</fragment-shader> <fragment-shader>Shaders/HDR/gbuffer_pack.glsl</fragment-shader>
<fragment-shader>Shaders/HDR/normal_encoding.glsl</fragment-shader> <fragment-shader>Shaders/HDR/normal_encoding.glsl</fragment-shader>
</program> </program>

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@ -288,11 +288,9 @@
<technique n="129"> <technique n="129">
<scheme>hdr-forward</scheme> <scheme>hdr-forward</scheme>
<pass> <pass>
<!-- Reverse floating point depth buffer -->
<depth> <depth>
<function>gequal</function> <enabled>true</enabled>
<near>1.0</near> <function>less</function>
<far>0.0</far>
<write-mask>false</write-mask> <write-mask>false</write-mask>
</depth> </depth>
<texture-unit> <texture-unit>
@ -307,11 +305,13 @@
<program> <program>
<vertex-shader>Shaders/HDR/cloud_static.vert</vertex-shader> <vertex-shader>Shaders/HDR/cloud_static.vert</vertex-shader>
<vertex-shader>Shaders/HDR/cloud_static_common.vert</vertex-shader> <vertex-shader>Shaders/HDR/cloud_static_common.vert</vertex-shader>
<vertex-shader>Shaders/HDR/logarithmic_depth.glsl</vertex-shader>
<vertex-shader>Shaders/HDR/sun.glsl</vertex-shader> <vertex-shader>Shaders/HDR/sun.glsl</vertex-shader>
<vertex-shader>Shaders/HDR/aerial_perspective.glsl</vertex-shader> <vertex-shader>Shaders/HDR/aerial_perspective.glsl</vertex-shader>
<vertex-shader>Shaders/HDR/atmos_spectral.glsl</vertex-shader> <vertex-shader>Shaders/HDR/atmos_spectral.glsl</vertex-shader>
<fragment-shader>Shaders/HDR/3dcloud.frag</fragment-shader> <fragment-shader>Shaders/HDR/3dcloud.frag</fragment-shader>
<fragment-shader>Shaders/HDR/3dcloud_common.frag</fragment-shader> <fragment-shader>Shaders/HDR/3dcloud_common.frag</fragment-shader>
<fragment-shader>Shaders/HDR/logarithmic_depth.glsl</fragment-shader>
<fragment-shader>Shaders/HDR/aerial_perspective.glsl</fragment-shader> <fragment-shader>Shaders/HDR/aerial_perspective.glsl</fragment-shader>
<fragment-shader>Shaders/HDR/exposure.glsl</fragment-shader> <fragment-shader>Shaders/HDR/exposure.glsl</fragment-shader>
</program> </program>
@ -350,6 +350,8 @@
<scheme>hdr-envmap</scheme> <scheme>hdr-envmap</scheme>
<pass> <pass>
<depth> <depth>
<enabled>true</enabled>
<function>less</function>
<write-mask>false</write-mask> <write-mask>false</write-mask>
</depth> </depth>
<texture-unit> <texture-unit>

View file

@ -208,11 +208,9 @@
<technique n="129"> <technique n="129">
<scheme>hdr-forward</scheme> <scheme>hdr-forward</scheme>
<pass> <pass>
<!-- Reverse floating point depth buffer -->
<depth> <depth>
<function>gequal</function> <enabled>true</enabled>
<near>1.0</near> <function>less</function>
<far>0.0</far>
<write-mask>false</write-mask> <write-mask>false</write-mask>
</depth> </depth>
<texture-unit> <texture-unit>
@ -227,11 +225,13 @@
<program> <program>
<vertex-shader>Shaders/HDR/cloud_static.vert</vertex-shader> <vertex-shader>Shaders/HDR/cloud_static.vert</vertex-shader>
<vertex-shader>Shaders/HDR/cloud_static_common.vert</vertex-shader> <vertex-shader>Shaders/HDR/cloud_static_common.vert</vertex-shader>
<vertex-shader>Shaders/HDR/logarithmic_depth.glsl</vertex-shader>
<vertex-shader>Shaders/HDR/sun.glsl</vertex-shader> <vertex-shader>Shaders/HDR/sun.glsl</vertex-shader>
<vertex-shader>Shaders/HDR/aerial_perspective.glsl</vertex-shader> <vertex-shader>Shaders/HDR/aerial_perspective.glsl</vertex-shader>
<vertex-shader>Shaders/HDR/atmos_spectral.glsl</vertex-shader> <vertex-shader>Shaders/HDR/atmos_spectral.glsl</vertex-shader>
<fragment-shader>Shaders/HDR/3dcloud.frag</fragment-shader> <fragment-shader>Shaders/HDR/3dcloud.frag</fragment-shader>
<fragment-shader>Shaders/HDR/3dcloud_common.frag</fragment-shader> <fragment-shader>Shaders/HDR/3dcloud_common.frag</fragment-shader>
<fragment-shader>Shaders/HDR/logarithmic_depth.glsl</fragment-shader>
<fragment-shader>Shaders/HDR/aerial_perspective.glsl</fragment-shader> <fragment-shader>Shaders/HDR/aerial_perspective.glsl</fragment-shader>
<fragment-shader>Shaders/HDR/exposure.glsl</fragment-shader> <fragment-shader>Shaders/HDR/exposure.glsl</fragment-shader>
</program> </program>
@ -270,6 +270,8 @@
<scheme>hdr-envmap</scheme> <scheme>hdr-envmap</scheme>
<pass> <pass>
<depth> <depth>
<enabled>true</enabled>
<function>less</function>
<write-mask>false</write-mask> <write-mask>false</write-mask>
</depth> </depth>
<texture-unit> <texture-unit>

View file

@ -416,11 +416,9 @@
<technique n="129"> <technique n="129">
<scheme>hdr-forward</scheme> <scheme>hdr-forward</scheme>
<pass> <pass>
<!-- Reverse floating point depth buffer -->
<depth> <depth>
<function>gequal</function> <enabled>true</enabled>
<near>1.0</near> <function>less</function>
<far>0.0</far>
<write-mask>false</write-mask> <write-mask>false</write-mask>
</depth> </depth>
<texture-unit> <texture-unit>
@ -435,11 +433,13 @@
<program> <program>
<vertex-shader>Shaders/HDR/cloud_static.vert</vertex-shader> <vertex-shader>Shaders/HDR/cloud_static.vert</vertex-shader>
<vertex-shader>Shaders/HDR/cloud_static_common.vert</vertex-shader> <vertex-shader>Shaders/HDR/cloud_static_common.vert</vertex-shader>
<vertex-shader>Shaders/HDR/logarithmic_depth.glsl</vertex-shader>
<vertex-shader>Shaders/HDR/sun.glsl</vertex-shader> <vertex-shader>Shaders/HDR/sun.glsl</vertex-shader>
<vertex-shader>Shaders/HDR/aerial_perspective.glsl</vertex-shader> <vertex-shader>Shaders/HDR/aerial_perspective.glsl</vertex-shader>
<vertex-shader>Shaders/HDR/atmos_spectral.glsl</vertex-shader> <vertex-shader>Shaders/HDR/atmos_spectral.glsl</vertex-shader>
<fragment-shader>Shaders/HDR/3dcloud.frag</fragment-shader> <fragment-shader>Shaders/HDR/3dcloud.frag</fragment-shader>
<fragment-shader>Shaders/HDR/3dcloud_common.frag</fragment-shader> <fragment-shader>Shaders/HDR/3dcloud_common.frag</fragment-shader>
<fragment-shader>Shaders/HDR/logarithmic_depth.glsl</fragment-shader>
<fragment-shader>Shaders/HDR/aerial_perspective.glsl</fragment-shader> <fragment-shader>Shaders/HDR/aerial_perspective.glsl</fragment-shader>
<fragment-shader>Shaders/HDR/exposure.glsl</fragment-shader> <fragment-shader>Shaders/HDR/exposure.glsl</fragment-shader>
</program> </program>
@ -478,6 +478,8 @@
<scheme>hdr-envmap</scheme> <scheme>hdr-envmap</scheme>
<pass> <pass>
<depth> <depth>
<enabled>true</enabled>
<function>less</function>
<write-mask>false</write-mask> <write-mask>false</write-mask>
</depth> </depth>
<texture-unit> <texture-unit>

View file

@ -529,11 +529,9 @@
<technique n="129"> <technique n="129">
<scheme>hdr-forward</scheme> <scheme>hdr-forward</scheme>
<pass> <pass>
<!-- Reverse floating point depth buffer -->
<depth> <depth>
<function>gequal</function> <enabled>true</enabled>
<near>1.0</near> <function>less</function>
<far>0.0</far>
<write-mask>false</write-mask> <write-mask>false</write-mask>
</depth> </depth>
<texture-unit> <texture-unit>
@ -548,11 +546,13 @@
<program> <program>
<vertex-shader>Shaders/HDR/3dcloud.vert</vertex-shader> <vertex-shader>Shaders/HDR/3dcloud.vert</vertex-shader>
<vertex-shader>Shaders/HDR/3dcloud_common.vert</vertex-shader> <vertex-shader>Shaders/HDR/3dcloud_common.vert</vertex-shader>
<vertex-shader>Shaders/HDR/logarithmic_depth.glsl</vertex-shader>
<vertex-shader>Shaders/HDR/sun.glsl</vertex-shader> <vertex-shader>Shaders/HDR/sun.glsl</vertex-shader>
<vertex-shader>Shaders/HDR/aerial_perspective.glsl</vertex-shader> <vertex-shader>Shaders/HDR/aerial_perspective.glsl</vertex-shader>
<vertex-shader>Shaders/HDR/atmos_spectral.glsl</vertex-shader> <vertex-shader>Shaders/HDR/atmos_spectral.glsl</vertex-shader>
<fragment-shader>Shaders/HDR/3dcloud.frag</fragment-shader> <fragment-shader>Shaders/HDR/3dcloud.frag</fragment-shader>
<fragment-shader>Shaders/HDR/3dcloud_common.frag</fragment-shader> <fragment-shader>Shaders/HDR/3dcloud_common.frag</fragment-shader>
<fragment-shader>Shaders/HDR/logarithmic_depth.glsl</fragment-shader>
<fragment-shader>Shaders/HDR/aerial_perspective.glsl</fragment-shader> <fragment-shader>Shaders/HDR/aerial_perspective.glsl</fragment-shader>
<fragment-shader>Shaders/HDR/exposure.glsl</fragment-shader> <fragment-shader>Shaders/HDR/exposure.glsl</fragment-shader>
<attribute> <attribute>
@ -609,6 +609,8 @@
<scheme>hdr-envmap</scheme> <scheme>hdr-envmap</scheme>
<pass> <pass>
<depth> <depth>
<enabled>true</enabled>
<function>less</function>
<write-mask>false</write-mask> <write-mask>false</write-mask>
</depth> </depth>
<texture-unit> <texture-unit>

View file

@ -97,11 +97,10 @@
<technique n="107"> <technique n="107">
<scheme>hdr-geometry</scheme> <scheme>hdr-geometry</scheme>
<pass> <pass>
<!-- Reverse floating point depth buffer -->
<depth> <depth>
<function>gequal</function> <enabled>true</enabled>
<near>1.0</near> <function>less</function>
<far>0.0</far> <write-mask>true</write-mask>
</depth> </depth>
<stencil> <stencil>
<function>always</function> <function>always</function>
@ -121,7 +120,9 @@
<cull-face>back</cull-face> <cull-face>back</cull-face>
<program> <program>
<vertex-shader>Shaders/HDR/terrain_lfeat.vert</vertex-shader> <vertex-shader>Shaders/HDR/terrain_lfeat.vert</vertex-shader>
<vertex-shader>Shaders/HDR/logarithmic_depth.glsl</vertex-shader>
<fragment-shader>Shaders/HDR/terrain_lfeat.frag</fragment-shader> <fragment-shader>Shaders/HDR/terrain_lfeat.frag</fragment-shader>
<fragment-shader>Shaders/HDR/logarithmic_depth.glsl</fragment-shader>
<fragment-shader>Shaders/HDR/gbuffer_pack.glsl</fragment-shader> <fragment-shader>Shaders/HDR/gbuffer_pack.glsl</fragment-shader>
<fragment-shader>Shaders/HDR/normal_encoding.glsl</fragment-shader> <fragment-shader>Shaders/HDR/normal_encoding.glsl</fragment-shader>
<fragment-shader>Shaders/HDR/color.glsl</fragment-shader> <fragment-shader>Shaders/HDR/color.glsl</fragment-shader>

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@ -52,11 +52,9 @@ It's kept for backwards compatibility and should not be used on new projects.
<technique n="127"> <technique n="127">
<scheme>hdr-forward</scheme> <scheme>hdr-forward</scheme>
<pass> <pass>
<!-- Reverse floating point depth buffer -->
<depth> <depth>
<function>gequal</function> <enabled>true</enabled>
<near>1.0</near> <function>less</function>
<far>0.0</far>
<write-mask>false</write-mask> <write-mask>false</write-mask>
</depth> </depth>
<texture-unit> <texture-unit>
@ -83,10 +81,12 @@ It's kept for backwards compatibility and should not be used on new projects.
<cull-face><use>cull-face</use></cull-face> <cull-face><use>cull-face</use></cull-face>
<program> <program>
<vertex-shader>Shaders/HDR/model_transparent.vert</vertex-shader> <vertex-shader>Shaders/HDR/model_transparent.vert</vertex-shader>
<vertex-shader>Shaders/HDR/logarithmic_depth.glsl</vertex-shader>
<vertex-shader>Shaders/HDR/aerial_perspective.glsl</vertex-shader> <vertex-shader>Shaders/HDR/aerial_perspective.glsl</vertex-shader>
<fragment-shader>Shaders/HDR/model_transparent.frag</fragment-shader> <fragment-shader>Shaders/HDR/model_transparent.frag</fragment-shader>
<fragment-shader>Shaders/HDR/color.glsl</fragment-shader> <fragment-shader>Shaders/HDR/color.glsl</fragment-shader>
<fragment-shader>Shaders/HDR/math.glsl</fragment-shader> <fragment-shader>Shaders/HDR/math.glsl</fragment-shader>
<fragment-shader>Shaders/HDR/logarithmic_depth.glsl</fragment-shader>
<fragment-shader>Shaders/HDR/shading_transparent.glsl</fragment-shader> <fragment-shader>Shaders/HDR/shading_transparent.glsl</fragment-shader>
<fragment-shader>Shaders/HDR/surface.glsl</fragment-shader> <fragment-shader>Shaders/HDR/surface.glsl</fragment-shader>
<fragment-shader>Shaders/HDR/ibl.glsl</fragment-shader> <fragment-shader>Shaders/HDR/ibl.glsl</fragment-shader>

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@ -1313,11 +1313,10 @@ please see Docs/README.model-combined.eff for documentation
<technique n="108"> <technique n="108">
<scheme>hdr-geometry</scheme> <scheme>hdr-geometry</scheme>
<pass> <pass>
<!-- Reverse floating point depth buffer -->
<depth> <depth>
<function>gequal</function> <enabled>true</enabled>
<near>1.0</near> <function>less</function>
<far>0.0</far> <write-mask>true</write-mask>
</depth> </depth>
<stencil> <stencil>
<function>always</function> <function>always</function>
@ -1343,7 +1342,9 @@ please see Docs/README.model-combined.eff for documentation
<cull-face>back</cull-face> <cull-face>back</cull-face>
<program> <program>
<vertex-shader>Shaders/HDR/model_combined.vert</vertex-shader> <vertex-shader>Shaders/HDR/model_combined.vert</vertex-shader>
<vertex-shader>Shaders/HDR/logarithmic_depth.glsl</vertex-shader>
<fragment-shader>Shaders/HDR/model_combined.frag</fragment-shader> <fragment-shader>Shaders/HDR/model_combined.frag</fragment-shader>
<fragment-shader>Shaders/HDR/logarithmic_depth.glsl</fragment-shader>
<fragment-shader>Shaders/HDR/gbuffer_pack.glsl</fragment-shader> <fragment-shader>Shaders/HDR/gbuffer_pack.glsl</fragment-shader>
<fragment-shader>Shaders/HDR/normal_encoding.glsl</fragment-shader> <fragment-shader>Shaders/HDR/normal_encoding.glsl</fragment-shader>
<fragment-shader>Shaders/HDR/normalmap.glsl</fragment-shader> <fragment-shader>Shaders/HDR/normalmap.glsl</fragment-shader>

View file

@ -646,11 +646,10 @@
<technique n="109"> <technique n="109">
<scheme>hdr-geometry</scheme> <scheme>hdr-geometry</scheme>
<pass> <pass>
<!-- Reverse floating point depth buffer -->
<depth> <depth>
<function>gequal</function> <enabled>true</enabled>
<near>1.0</near> <function>less</function>
<far>0.0</far> <write-mask>true</write-mask>
</depth> </depth>
<stencil> <stencil>
<function>always</function> <function>always</function>
@ -670,7 +669,9 @@
<cull-face><use>cull-face</use></cull-face> <cull-face><use>cull-face</use></cull-face>
<program> <program>
<vertex-shader>Shaders/HDR/model_default.vert</vertex-shader> <vertex-shader>Shaders/HDR/model_default.vert</vertex-shader>
<vertex-shader>Shaders/HDR/logarithmic_depth.glsl</vertex-shader>
<fragment-shader>Shaders/HDR/model_default.frag</fragment-shader> <fragment-shader>Shaders/HDR/model_default.frag</fragment-shader>
<fragment-shader>Shaders/HDR/logarithmic_depth.glsl</fragment-shader>
<fragment-shader>Shaders/HDR/gbuffer_pack.glsl</fragment-shader> <fragment-shader>Shaders/HDR/gbuffer_pack.glsl</fragment-shader>
<fragment-shader>Shaders/HDR/normal_encoding.glsl</fragment-shader> <fragment-shader>Shaders/HDR/normal_encoding.glsl</fragment-shader>
<fragment-shader>Shaders/HDR/color.glsl</fragment-shader> <fragment-shader>Shaders/HDR/color.glsl</fragment-shader>

View file

@ -54,11 +54,9 @@
<technique n="128"> <technique n="128">
<scheme>hdr-forward</scheme> <scheme>hdr-forward</scheme>
<pass> <pass>
<!-- Reverse floating point depth buffer -->
<depth> <depth>
<function>gequal</function> <enabled>true</enabled>
<near>1.0</near> <function>less</function>
<far>0.0</far>
<write-mask>false</write-mask> <write-mask>false</write-mask>
</depth> </depth>
<texture-unit> <texture-unit>
@ -112,11 +110,13 @@
<cull-face><use>cull-face</use></cull-face> <cull-face><use>cull-face</use></cull-face>
<program> <program>
<vertex-shader>Shaders/HDR/model_pbr_transparent.vert</vertex-shader> <vertex-shader>Shaders/HDR/model_pbr_transparent.vert</vertex-shader>
<vertex-shader>Shaders/HDR/logarithmic_depth.glsl</vertex-shader>
<vertex-shader>Shaders/HDR/aerial_perspective.glsl</vertex-shader> <vertex-shader>Shaders/HDR/aerial_perspective.glsl</vertex-shader>
<fragment-shader>Shaders/HDR/model_pbr_transparent.frag</fragment-shader> <fragment-shader>Shaders/HDR/model_pbr_transparent.frag</fragment-shader>
<fragment-shader>Shaders/HDR/normalmap.glsl</fragment-shader> <fragment-shader>Shaders/HDR/normalmap.glsl</fragment-shader>
<fragment-shader>Shaders/HDR/color.glsl</fragment-shader> <fragment-shader>Shaders/HDR/color.glsl</fragment-shader>
<fragment-shader>Shaders/HDR/math.glsl</fragment-shader> <fragment-shader>Shaders/HDR/math.glsl</fragment-shader>
<fragment-shader>Shaders/HDR/logarithmic_depth.glsl</fragment-shader>
<fragment-shader>Shaders/HDR/shading_transparent.glsl</fragment-shader> <fragment-shader>Shaders/HDR/shading_transparent.glsl</fragment-shader>
<fragment-shader>Shaders/HDR/surface.glsl</fragment-shader> <fragment-shader>Shaders/HDR/surface.glsl</fragment-shader>
<fragment-shader>Shaders/HDR/ibl.glsl</fragment-shader> <fragment-shader>Shaders/HDR/ibl.glsl</fragment-shader>

View file

@ -33,11 +33,10 @@
<technique n="109"> <technique n="109">
<scheme>hdr-geometry</scheme> <scheme>hdr-geometry</scheme>
<pass> <pass>
<!-- Reverse floating point depth buffer -->
<depth> <depth>
<function>gequal</function> <enabled>true</enabled>
<near>1.0</near> <function>less</function>
<far>0.0</far> <write-mask>true</write-mask>
</depth> </depth>
<stencil> <stencil>
<function>always</function> <function>always</function>
@ -85,7 +84,9 @@
<cull-face><use>cull-face</use></cull-face> <cull-face><use>cull-face</use></cull-face>
<program> <program>
<vertex-shader>Shaders/HDR/model_pbr.vert</vertex-shader> <vertex-shader>Shaders/HDR/model_pbr.vert</vertex-shader>
<vertex-shader>Shaders/HDR/logarithmic_depth.glsl</vertex-shader>
<fragment-shader>Shaders/HDR/model_pbr.frag</fragment-shader> <fragment-shader>Shaders/HDR/model_pbr.frag</fragment-shader>
<fragment-shader>Shaders/HDR/logarithmic_depth.glsl</fragment-shader>
<fragment-shader>Shaders/HDR/gbuffer_pack.glsl</fragment-shader> <fragment-shader>Shaders/HDR/gbuffer_pack.glsl</fragment-shader>
<fragment-shader>Shaders/HDR/normal_encoding.glsl</fragment-shader> <fragment-shader>Shaders/HDR/normal_encoding.glsl</fragment-shader>
<fragment-shader>Shaders/HDR/normalmap.glsl</fragment-shader> <fragment-shader>Shaders/HDR/normalmap.glsl</fragment-shader>

View file

@ -48,11 +48,9 @@
<technique n="128"> <technique n="128">
<scheme>hdr-forward</scheme> <scheme>hdr-forward</scheme>
<pass> <pass>
<!-- Reverse floating point depth buffer -->
<depth> <depth>
<function>gequal</function> <enabled>true</enabled>
<near>1.0</near> <function>less</function>
<far>0.0</far>
<write-mask>false</write-mask> <write-mask>false</write-mask>
</depth> </depth>
<texture-unit> <texture-unit>
@ -79,10 +77,12 @@
<cull-face><use>cull-face</use></cull-face> <cull-face><use>cull-face</use></cull-face>
<program> <program>
<vertex-shader>Shaders/HDR/model_transparent.vert</vertex-shader> <vertex-shader>Shaders/HDR/model_transparent.vert</vertex-shader>
<vertex-shader>Shaders/HDR/logarithmic_depth.glsl</vertex-shader>
<vertex-shader>Shaders/HDR/aerial_perspective.glsl</vertex-shader> <vertex-shader>Shaders/HDR/aerial_perspective.glsl</vertex-shader>
<fragment-shader>Shaders/HDR/model_transparent.frag</fragment-shader> <fragment-shader>Shaders/HDR/model_transparent.frag</fragment-shader>
<fragment-shader>Shaders/HDR/color.glsl</fragment-shader> <fragment-shader>Shaders/HDR/color.glsl</fragment-shader>
<fragment-shader>Shaders/HDR/math.glsl</fragment-shader> <fragment-shader>Shaders/HDR/math.glsl</fragment-shader>
<fragment-shader>Shaders/HDR/logarithmic_depth.glsl</fragment-shader>
<fragment-shader>Shaders/HDR/shading_transparent.glsl</fragment-shader> <fragment-shader>Shaders/HDR/shading_transparent.glsl</fragment-shader>
<fragment-shader>Shaders/HDR/surface.glsl</fragment-shader> <fragment-shader>Shaders/HDR/surface.glsl</fragment-shader>
<fragment-shader>Shaders/HDR/ibl.glsl</fragment-shader> <fragment-shader>Shaders/HDR/ibl.glsl</fragment-shader>

View file

@ -1412,11 +1412,10 @@
<technique n="108"> <technique n="108">
<scheme>hdr-geometry</scheme> <scheme>hdr-geometry</scheme>
<pass> <pass>
<!-- Reverse floating point depth buffer -->
<depth> <depth>
<function>gequal</function> <enabled>true</enabled>
<near>1.0</near> <function>less</function>
<far>0.0</far> <write-mask>true</write-mask>
</depth> </depth>
<stencil> <stencil>
<function>always</function> <function>always</function>
@ -1442,7 +1441,9 @@
<cull-face>back</cull-face> <cull-face>back</cull-face>
<program> <program>
<vertex-shader>Shaders/HDR/model_combined.vert</vertex-shader> <vertex-shader>Shaders/HDR/model_combined.vert</vertex-shader>
<vertex-shader>Shaders/HDR/logarithmic_depth.glsl</vertex-shader>
<fragment-shader>Shaders/HDR/model_combined.frag</fragment-shader> <fragment-shader>Shaders/HDR/model_combined.frag</fragment-shader>
<fragment-shader>Shaders/HDR/logarithmic_depth.glsl</fragment-shader>
<fragment-shader>Shaders/HDR/gbuffer_pack.glsl</fragment-shader> <fragment-shader>Shaders/HDR/gbuffer_pack.glsl</fragment-shader>
<fragment-shader>Shaders/HDR/normal_encoding.glsl</fragment-shader> <fragment-shader>Shaders/HDR/normal_encoding.glsl</fragment-shader>
<fragment-shader>Shaders/HDR/normalmap.glsl</fragment-shader> <fragment-shader>Shaders/HDR/normalmap.glsl</fragment-shader>

View file

@ -890,11 +890,10 @@
<technique n="108"> <technique n="108">
<scheme>hdr-geometry</scheme> <scheme>hdr-geometry</scheme>
<pass> <pass>
<!-- Reverse floating point depth buffer -->
<depth> <depth>
<function>gequal</function> <enabled>true</enabled>
<near>1.0</near> <function>less</function>
<far>0.0</far> <write-mask>true</write-mask>
</depth> </depth>
<stencil> <stencil>
<function>always</function> <function>always</function>
@ -926,7 +925,9 @@
<cull-face>back</cull-face> <cull-face>back</cull-face>
<program> <program>
<vertex-shader>Shaders/HDR/terrain_runway.vert</vertex-shader> <vertex-shader>Shaders/HDR/terrain_runway.vert</vertex-shader>
<vertex-shader>Shaders/HDR/logarithmic_depth.glsl</vertex-shader>
<fragment-shader>Shaders/HDR/terrain_runway.frag</fragment-shader> <fragment-shader>Shaders/HDR/terrain_runway.frag</fragment-shader>
<fragment-shader>Shaders/HDR/logarithmic_depth.glsl</fragment-shader>
<fragment-shader>Shaders/HDR/gbuffer_pack.glsl</fragment-shader> <fragment-shader>Shaders/HDR/gbuffer_pack.glsl</fragment-shader>
<fragment-shader>Shaders/HDR/normal_encoding.glsl</fragment-shader> <fragment-shader>Shaders/HDR/normal_encoding.glsl</fragment-shader>
<fragment-shader>Shaders/HDR/normalmap.glsl</fragment-shader> <fragment-shader>Shaders/HDR/normalmap.glsl</fragment-shader>

View file

@ -307,11 +307,9 @@
<technique n="129"> <technique n="129">
<scheme>hdr-forward</scheme> <scheme>hdr-forward</scheme>
<pass> <pass>
<!-- Reverse floating point depth buffer -->
<depth> <depth>
<function>greater</function> <enabled>true</enabled>
<near>1.0</near> <function>less</function>
<far>0.0</far>
<write-mask>false</write-mask> <write-mask>false</write-mask>
</depth> </depth>
<cull-face>back</cull-face> <cull-face>back</cull-face>
@ -354,6 +352,8 @@
<scheme>hdr-envmap</scheme> <scheme>hdr-envmap</scheme>
<pass> <pass>
<depth> <depth>
<enabled>true</enabled>
<function>less</function>
<write-mask>false</write-mask> <write-mask>false</write-mask>
</depth> </depth>
<cull-face>back</cull-face> <cull-face>back</cull-face>

View file

@ -1715,11 +1715,10 @@
<technique n="109"> <technique n="109">
<scheme>hdr-geometry</scheme> <scheme>hdr-geometry</scheme>
<pass> <pass>
<!-- Reverse floating point depth buffer -->
<depth> <depth>
<function>gequal</function> <enabled>true</enabled>
<near>1.0</near> <function>less</function>
<far>0.0</far> <write-mask>true</write-mask>
</depth> </depth>
<stencil> <stencil>
<function>always</function> <function>always</function>
@ -1739,7 +1738,9 @@
<cull-face>back</cull-face> <cull-face>back</cull-face>
<program> <program>
<vertex-shader>Shaders/HDR/terrain_default.vert</vertex-shader> <vertex-shader>Shaders/HDR/terrain_default.vert</vertex-shader>
<vertex-shader>Shaders/HDR/logarithmic_depth.glsl</vertex-shader>
<fragment-shader>Shaders/HDR/terrain_default.frag</fragment-shader> <fragment-shader>Shaders/HDR/terrain_default.frag</fragment-shader>
<fragment-shader>Shaders/HDR/logarithmic_depth.glsl</fragment-shader>
<fragment-shader>Shaders/HDR/gbuffer_pack.glsl</fragment-shader> <fragment-shader>Shaders/HDR/gbuffer_pack.glsl</fragment-shader>
<fragment-shader>Shaders/HDR/normal_encoding.glsl</fragment-shader> <fragment-shader>Shaders/HDR/normal_encoding.glsl</fragment-shader>
<fragment-shader>Shaders/HDR/color.glsl</fragment-shader> <fragment-shader>Shaders/HDR/color.glsl</fragment-shader>
@ -1761,6 +1762,11 @@
<technique n="139"> <technique n="139">
<scheme>hdr-envmap</scheme> <scheme>hdr-envmap</scheme>
<pass> <pass>
<depth>
<enabled>true</enabled>
<function>less</function>
<write-mask>true</write-mask>
</depth>
<texture-unit> <texture-unit>
<unit>0</unit> <unit>0</unit>
<type><use>texture[0]/type</use></type> <type><use>texture[0]/type</use></type>

View file

@ -60,11 +60,9 @@
<technique n="129"> <technique n="129">
<scheme>hdr-forward</scheme> <scheme>hdr-forward</scheme>
<pass> <pass>
<!-- Reverse floating point depth buffer -->
<depth> <depth>
<function>gequal</function> <enabled>true</enabled>
<near>1.0</near> <function>less</function>
<far>0.0</far>
<write-mask>false</write-mask> <write-mask>false</write-mask>
</depth> </depth>
<blend>1</blend> <blend>1</blend>
@ -72,10 +70,12 @@
<cull-face>back</cull-face> <cull-face>back</cull-face>
<program> <program>
<vertex-shader>Shaders/HDR/text.vert</vertex-shader> <vertex-shader>Shaders/HDR/text.vert</vertex-shader>
<vertex-shader>Shaders/HDR/logarithmic_depth.glsl</vertex-shader>
<vertex-shader>Shaders/HDR/aerial_perspective.glsl</vertex-shader> <vertex-shader>Shaders/HDR/aerial_perspective.glsl</vertex-shader>
<fragment-shader>Shaders/HDR/text.frag</fragment-shader> <fragment-shader>Shaders/HDR/text.frag</fragment-shader>
<fragment-shader>Shaders/HDR/color.glsl</fragment-shader> <fragment-shader>Shaders/HDR/color.glsl</fragment-shader>
<fragment-shader>Shaders/HDR/math.glsl</fragment-shader> <fragment-shader>Shaders/HDR/math.glsl</fragment-shader>
<fragment-shader>Shaders/HDR/logarithmic_depth.glsl</fragment-shader>
<fragment-shader>Shaders/HDR/shading_transparent.glsl</fragment-shader> <fragment-shader>Shaders/HDR/shading_transparent.glsl</fragment-shader>
<fragment-shader>Shaders/HDR/surface.glsl</fragment-shader> <fragment-shader>Shaders/HDR/surface.glsl</fragment-shader>
<fragment-shader>Shaders/HDR/ibl.glsl</fragment-shader> <fragment-shader>Shaders/HDR/ibl.glsl</fragment-shader>

View file

@ -1880,11 +1880,10 @@
<property>/sim/rendering/random-vegetation</property> <property>/sim/rendering/random-vegetation</property>
</predicate> </predicate>
<pass> <pass>
<!-- Reverse floating point depth buffer -->
<depth> <depth>
<function>gequal</function> <enabled>true</enabled>
<near>1.0</near> <function>less</function>
<far>0.0</far> <write-mask>true</write-mask>
</depth> </depth>
<stencil> <stencil>
<function>always</function> <function>always</function>
@ -1905,7 +1904,9 @@
<program> <program>
<vertex-shader>Shaders/HDR/tree.vert</vertex-shader> <vertex-shader>Shaders/HDR/tree.vert</vertex-shader>
<vertex-shader>Shaders/HDR/noise.glsl</vertex-shader> <vertex-shader>Shaders/HDR/noise.glsl</vertex-shader>
<vertex-shader>Shaders/HDR/logarithmic_depth.glsl</vertex-shader>
<fragment-shader>Shaders/HDR/tree.frag</fragment-shader> <fragment-shader>Shaders/HDR/tree.frag</fragment-shader>
<fragment-shader>Shaders/HDR/logarithmic_depth.glsl</fragment-shader>
<fragment-shader>Shaders/HDR/gbuffer_pack.glsl</fragment-shader> <fragment-shader>Shaders/HDR/gbuffer_pack.glsl</fragment-shader>
<fragment-shader>Shaders/HDR/normal_encoding.glsl</fragment-shader> <fragment-shader>Shaders/HDR/normal_encoding.glsl</fragment-shader>
<fragment-shader>Shaders/HDR/color.glsl</fragment-shader> <fragment-shader>Shaders/HDR/color.glsl</fragment-shader>

View file

@ -1496,11 +1496,10 @@
<technique n="108"> <technique n="108">
<scheme>hdr-geometry</scheme> <scheme>hdr-geometry</scheme>
<pass> <pass>
<!-- Reverse floating point depth buffer -->
<depth> <depth>
<function>gequal</function> <enabled>true</enabled>
<near>1.0</near> <function>less</function>
<far>0.0</far> <write-mask>true</write-mask>
</depth> </depth>
<stencil> <stencil>
<function>always</function> <function>always</function>
@ -1551,7 +1550,9 @@
</texture-unit> </texture-unit>
<program> <program>
<vertex-shader>Shaders/HDR/water.vert</vertex-shader> <vertex-shader>Shaders/HDR/water.vert</vertex-shader>
<vertex-shader>Shaders/HDR/logarithmic_depth.glsl</vertex-shader>
<fragment-shader>Shaders/HDR/water.frag</fragment-shader> <fragment-shader>Shaders/HDR/water.frag</fragment-shader>
<fragment-shader>Shaders/HDR/logarithmic_depth.glsl</fragment-shader>
<fragment-shader>Shaders/HDR/normal_encoding.glsl</fragment-shader> <fragment-shader>Shaders/HDR/normal_encoding.glsl</fragment-shader>
<fragment-shader>Shaders/HDR/normalmap.glsl</fragment-shader> <fragment-shader>Shaders/HDR/normalmap.glsl</fragment-shader>
<fragment-shader>Shaders/HDR/color.glsl</fragment-shader> <fragment-shader>Shaders/HDR/color.glsl</fragment-shader>

View file

@ -1877,11 +1877,10 @@
<technique n="109"> <technique n="109">
<scheme>hdr-geometry</scheme> <scheme>hdr-geometry</scheme>
<pass> <pass>
<!-- Reverse floating point depth buffer -->
<depth> <depth>
<function>gequal</function> <enabled>true</enabled>
<near>1.0</near> <function>less</function>
<far>0.0</far> <write-mask>true</write-mask>
</depth> </depth>
<stencil> <stencil>
<function>always</function> <function>always</function>
@ -1949,7 +1948,9 @@
<cull-face>back</cull-face> <cull-face>back</cull-face>
<program> <program>
<vertex-shader>Shaders/HDR/terrain_default.vert</vertex-shader> <vertex-shader>Shaders/HDR/terrain_default.vert</vertex-shader>
<vertex-shader>Shaders/HDR/logarithmic_depth.glsl</vertex-shader>
<fragment-shader>Shaders/HDR/ws30.frag</fragment-shader> <fragment-shader>Shaders/HDR/ws30.frag</fragment-shader>
<fragment-shader>Shaders/HDR/logarithmic_depth.glsl</fragment-shader>
<fragment-shader>Shaders/HDR/gbuffer_pack.glsl</fragment-shader> <fragment-shader>Shaders/HDR/gbuffer_pack.glsl</fragment-shader>
<fragment-shader>Shaders/HDR/normal_encoding.glsl</fragment-shader> <fragment-shader>Shaders/HDR/normal_encoding.glsl</fragment-shader>
<fragment-shader>Shaders/HDR/color.glsl</fragment-shader> <fragment-shader>Shaders/HDR/color.glsl</fragment-shader>

View file

@ -2,10 +2,14 @@
layout(location = 0) out vec4 fragColor; layout(location = 0) out vec4 fragColor;
in float flogz;
// 3dcloud_common.frag // 3dcloud_common.frag
vec4 cloud_common_frag(); vec4 cloud_common_frag();
// exposure.glsl // exposure.glsl
vec3 apply_exposure(vec3 color); vec3 apply_exposure(vec3 color);
// logarithmic_depth.glsl
float logdepth_encode(float z);
void main() void main()
{ {
@ -16,4 +20,5 @@ void main()
color.rgb = apply_exposure(color.rgb); color.rgb = apply_exposure(color.rgb);
fragColor = color; fragColor = color;
gl_FragDepth = logdepth_encode(flogz);
} }

View file

@ -1,17 +1,22 @@
#version 330 core #version 330 core
out float flogz;
out vec4 ap_color; out vec4 ap_color;
// 3dcloud_common.vert // 3dcloud_common.vert
void cloud_common_vert(out vec4 vs_pos, out vec4 ws_pos); void cloud_common_vert(out vec4 vs_pos, out vec4 ws_pos);
// aerial_perspective.glsl // aerial_perspective.glsl
vec4 get_aerial_perspective(vec2 coord, float depth); vec4 get_aerial_perspective(vec2 coord, float depth);
// logarithmic_depth.glsl
float logdepth_prepare_vs_depth(float z);
void main() void main()
{ {
vec4 vs_pos, ws_pos; vec4 vs_pos, ws_pos;
cloud_common_vert(vs_pos, ws_pos); cloud_common_vert(vs_pos, ws_pos);
flogz = logdepth_prepare_vs_depth(gl_Position.w);
// Perspective division and scale to [0, 1] to get the screen position // Perspective division and scale to [0, 1] to get the screen position
// of the vertex. // of the vertex.
vec2 coord = (gl_Position.xy / gl_Position.w) * 0.5 + 0.5; vec2 coord = (gl_Position.xy / gl_Position.w) * 0.5 + 0.5;

View file

@ -1,17 +1,22 @@
#version 330 core #version 330 core
out float flogz;
out vec4 ap_color; out vec4 ap_color;
// cloud_static_common.vert // cloud_static_common.vert
void cloud_static_common_vert(out vec4 vs_pos, out vec4 ws_pos); void cloud_static_common_vert(out vec4 vs_pos, out vec4 ws_pos);
// aerial_perspective.glsl // aerial_perspective.glsl
vec4 get_aerial_perspective(vec2 coord, float depth); vec4 get_aerial_perspective(vec2 coord, float depth);
// logarithmic_depth.glsl
float logdepth_prepare_vs_depth(float z);
void main() void main()
{ {
vec4 vs_pos, ws_pos; vec4 vs_pos, ws_pos;
cloud_static_common_vert(vs_pos, ws_pos); cloud_static_common_vert(vs_pos, ws_pos);
flogz = logdepth_prepare_vs_depth(gl_Position.w);
// Perspective division and scale to [0, 1] to get the screen position // Perspective division and scale to [0, 1] to get the screen position
// of the vertex. // of the vertex.
vec2 coord = (gl_Position.xy / gl_Position.w) * 0.5 + 0.5; vec2 coord = (gl_Position.xy / gl_Position.w) * 0.5 + 0.5;

View file

@ -6,11 +6,9 @@ in vec2 texcoord;
uniform sampler2D depth_tex; uniform sampler2D depth_tex;
// pos_from_depth.glsl
float linearize_depth(float depth);
void main() void main()
{ {
float depth = texture(depth_tex, texcoord).r; float depth = texture(depth_tex, texcoord).r;
fragColor = vec4(vec3(linearize_depth(depth)), 1.0); // Display depth as is, no linearization
fragColor = vec4(vec3(depth), 1.0);
} }

View file

@ -37,9 +37,9 @@ void main()
{ {
float depth = textureLod(depth_tex, texcoord, 0.0).r; float depth = textureLod(depth_tex, texcoord, 0.0).r;
// Ignore the background // Ignore the background
if (depth == 0.0) { if (depth == 1.0) {
fragColor = 0.0; fragColor = 1.0;
discard; return;
} }
// Slightly push the depth towards the camera to avoid imprecision artifacts // Slightly push the depth towards the camera to avoid imprecision artifacts
depth = clamp(depth * 1.00001, 0.0, 1.0); depth = clamp(depth * 1.00001, 0.0, 1.0);
@ -95,7 +95,7 @@ void main()
vec2 s_texcoord1 = texcoord - s_offset; vec2 s_texcoord1 = texcoord - s_offset;
float s_depth1 = textureLod(depth_tex, s_texcoord1, 0.0).r; float s_depth1 = textureLod(depth_tex, s_texcoord1, 0.0).r;
if (s_depth1 == 0.0) { if (s_depth1 == 1.0) {
// Skip background // Skip background
continue; continue;
} }
@ -103,7 +103,7 @@ void main()
vec2 s_texcoord2 = texcoord + s_offset; vec2 s_texcoord2 = texcoord + s_offset;
float s_depth2 = textureLod(depth_tex, s_texcoord2, 0.0).r; float s_depth2 = textureLod(depth_tex, s_texcoord2, 0.0).r;
if (s_depth2 == 0.0) { if (s_depth2 == 1.0) {
// Skip background // Skip background
continue; continue;
} }

View file

@ -0,0 +1,83 @@
/*
* Logarithmic depth buffer utility functions
*
* The HDR pipeline uses a logarithmic depth buffer to avoid Z-fighting and
* depth precision issues. This method is compatible with all OpenGL 3.3
* hardware since it does not require any fancy depth reversal tricks.
*
* The main disadvantage is that we lose the early depth test optimization. This
* is not a problem for us because we use deferred rendering, so the fragment
* shaders that run on the actual geometry are very lightweight.
*
* Sources:
* https://outerra.blogspot.com/2009/08/logarithmic-z-buffer.html
* https://outerra.blogspot.com/2012/11/maximizing-depth-buffer-range-and.html
* https://outerra.blogspot.com/2013/07/logarithmic-depth-buffer-optimizations.html
* https://io7m.github.io/r2/documentation/p2s24.xhtml
*/
#version 330 core
uniform float fg_Fcoef;
uniform vec2 fg_NearFar;
/*
* Prepare a view space depth value for encoding. Normal usage involves calling
* this function in the vertex shader, after writing to gl_Position. The z value
* corresponds to gl_Position.w (if using perspective projection), or the
* negated view space depth.
* See logdepth_encode().
*/
float logdepth_prepare_vs_depth(float z)
{
return 1.0 + z;
}
/*
* Encodes a given depth value obtained with logdepth_prepare_vs_depth() into
* logarithmic depth. The result is used in the fragment shader to write to
* gl_FragDepth.
*/
float logdepth_encode(float z)
{
float half_fcoef = fg_Fcoef * 0.5;
float clamped_z = max(1e-6, z);
return log2(clamped_z) * half_fcoef;
}
/*
* This is an alternative way of encoding a depth value obtained with
* logdepth_prepare_vs_depth() into logarithmic depth in the vertex shader
* without writing to gl_FragDepth in the fragment shader. The result
* corresponds to gl_Position.z
*
* The disadvantage is that depth will not be interpolated in a
* perspectively-correct way, but it will work okay for very finely tessellated
* geometry.
*/
float logdepth_encode_no_perspective(float z)
{
float clamped_z = max(1e-6, z);
return log2(clamped_z) * fg_Fcoef - 1.0;
}
/*
* Decode a view space depth value that was encoded with the functions above.
* z corresponds to the [0,1] depth buffer value.
* NOTE: The resulting depth value is positive, so it must be negated to yield
* a conventional negative view space depth value.
*/
float logdepth_decode(float z)
{
float half_fcoef = fg_Fcoef * 0.5;
float exponent = z / half_fcoef;
return pow(2.0, exponent) - 1.0;
}
/*
* Same as logdepth_decode(), but returns the normalized view-space depth
* in the [0,1] range.
*/
float logdepth_decode_normalized(float z)
{
return logdepth_decode(z) / fg_NearFar.y;
}

View file

@ -1,6 +1,9 @@
#version 330 core #version 330 core
in vec3 vertex_normal; in VS_OUT {
float flogz;
vec3 vertex_normal;
} fs_in;
const float CHROME_METALLIC = 1.0; const float CHROME_METALLIC = 1.0;
const float CHROME_ROUGHNESS = 0.1; const float CHROME_ROUGHNESS = 0.1;
@ -8,9 +11,12 @@ const float CHROME_ROUGHNESS = 0.1;
// gbuffer_pack.glsl // gbuffer_pack.glsl
void gbuffer_pack(vec3 normal, vec3 base_color, float metallic, float roughness, void gbuffer_pack(vec3 normal, vec3 base_color, float metallic, float roughness,
float occlusion, vec3 emissive, uint mat_id); float occlusion, vec3 emissive, uint mat_id);
// logarithmic_depth.glsl
float logdepth_encode(float z);
void main() void main()
{ {
vec3 N = normalize(vertex_normal); vec3 N = normalize(fs_in.vertex_normal);
gbuffer_pack(N, vec3(1.0), CHROME_METALLIC, CHROME_ROUGHNESS, 1.0, vec3(0.0), 3u); gbuffer_pack(N, vec3(1.0), CHROME_METALLIC, CHROME_ROUGHNESS, 1.0, vec3(0.0), 3u);
gl_FragDepth = logdepth_encode(fs_in.flogz);
} }

View file

@ -3,13 +3,20 @@
layout(location = 0) in vec4 pos; layout(location = 0) in vec4 pos;
layout(location = 1) in vec3 normal; layout(location = 1) in vec3 normal;
out vec3 vertex_normal; out VS_OUT {
float flogz;
vec3 vertex_normal;
} vs_out;
uniform mat4 osg_ModelViewProjectionMatrix; uniform mat4 osg_ModelViewProjectionMatrix;
uniform mat3 osg_NormalMatrix; uniform mat3 osg_NormalMatrix;
// logarithmic_depth.glsl
float logdepth_prepare_vs_depth(float z);
void main() void main()
{ {
gl_Position = osg_ModelViewProjectionMatrix * pos; gl_Position = osg_ModelViewProjectionMatrix * pos;
vertex_normal = osg_NormalMatrix * normal; vs_out.flogz = logdepth_prepare_vs_depth(gl_Position.w);
vs_out.vertex_normal = osg_NormalMatrix * normal;
} }

View file

@ -1,6 +1,7 @@
#version 330 core #version 330 core
in VS_OUT { in VS_OUT {
float flogz;
vec2 texcoord; vec2 texcoord;
vec3 vertex_normal; vec3 vertex_normal;
vec3 view_vector; vec3 view_vector;
@ -20,6 +21,8 @@ void gbuffer_pack(vec3 normal, vec3 base_color, float metallic, float roughness,
vec3 eotf_inverse_sRGB(vec3 srgb); vec3 eotf_inverse_sRGB(vec3 srgb);
// normalmap.glsl // normalmap.glsl
vec3 perturb_normal(vec3 N, vec3 V, vec2 texcoord); vec3 perturb_normal(vec3 N, vec3 V, vec2 texcoord);
// logarithmic_depth.glsl
float logdepth_encode(float z);
void main() void main()
{ {
@ -32,4 +35,5 @@ void main()
} }
gbuffer_pack(N, color, metallic, roughness, 1.0, vec3(0.0), 3u); gbuffer_pack(N, color, metallic, roughness, 1.0, vec3(0.0), 3u);
gl_FragDepth = logdepth_encode(fs_in.flogz);
} }

View file

@ -5,6 +5,7 @@ layout(location = 1) in vec3 normal;
layout(location = 3) in vec4 multitexcoord0; layout(location = 3) in vec4 multitexcoord0;
out VS_OUT { out VS_OUT {
float flogz;
vec2 texcoord; vec2 texcoord;
vec3 vertex_normal; vec3 vertex_normal;
vec3 view_vector; vec3 view_vector;
@ -17,9 +18,13 @@ uniform mat4 osg_ModelViewProjectionMatrix;
uniform mat3 osg_NormalMatrix; uniform mat3 osg_NormalMatrix;
uniform mat4 fg_TextureMatrix; uniform mat4 fg_TextureMatrix;
// logarithmic_depth.glsl
float logdepth_prepare_vs_depth(float z);
void main() void main()
{ {
gl_Position = osg_ModelViewProjectionMatrix * pos; gl_Position = osg_ModelViewProjectionMatrix * pos;
vs_out.flogz = logdepth_prepare_vs_depth(gl_Position.w);
vs_out.texcoord = vec2(fg_TextureMatrix * multitexcoord0); vs_out.texcoord = vec2(fg_TextureMatrix * multitexcoord0);
vs_out.vertex_normal = osg_NormalMatrix * normal; vs_out.vertex_normal = osg_NormalMatrix * normal;
vs_out.view_vector = (osg_ModelViewMatrix * pos).xyz; vs_out.view_vector = (osg_ModelViewMatrix * pos).xyz;

View file

@ -1,6 +1,7 @@
#version 330 core #version 330 core
in VS_OUT { in VS_OUT {
float flogz;
vec2 texcoord; vec2 texcoord;
vec3 vertex_normal; vec3 vertex_normal;
vec4 material_color; vec4 material_color;
@ -16,6 +17,8 @@ void gbuffer_pack(vec3 normal, vec3 base_color, float metallic, float roughness,
float occlusion, vec3 emissive, uint mat_id); float occlusion, vec3 emissive, uint mat_id);
// color.glsl // color.glsl
vec3 eotf_inverse_sRGB(vec3 srgb); vec3 eotf_inverse_sRGB(vec3 srgb);
// logarithmic_depth.glsl
float logdepth_encode(float z);
void main() void main()
{ {
@ -25,4 +28,5 @@ void main()
vec3 N = normalize(fs_in.vertex_normal); vec3 N = normalize(fs_in.vertex_normal);
gbuffer_pack(N, color, DEFAULT_METALLIC, DEFAULT_ROUGHNESS, 1.0, vec3(0.0), 3u); gbuffer_pack(N, color, DEFAULT_METALLIC, DEFAULT_ROUGHNESS, 1.0, vec3(0.0), 3u);
gl_FragDepth = logdepth_encode(fs_in.flogz);
} }

View file

@ -10,6 +10,7 @@ layout(location = 2) in vec4 vertex_color;
layout(location = 3) in vec4 multitexcoord0; layout(location = 3) in vec4 multitexcoord0;
out VS_OUT { out VS_OUT {
float flogz;
vec2 texcoord; vec2 texcoord;
vec3 vertex_normal; vec3 vertex_normal;
vec4 material_color; vec4 material_color;
@ -22,9 +23,13 @@ uniform mat4 osg_ModelViewProjectionMatrix;
uniform mat3 osg_NormalMatrix; uniform mat3 osg_NormalMatrix;
uniform mat4 fg_TextureMatrix; uniform mat4 fg_TextureMatrix;
// logarithmic_depth.glsl
float logdepth_prepare_vs_depth(float z);
void main() void main()
{ {
gl_Position = osg_ModelViewProjectionMatrix * pos; gl_Position = osg_ModelViewProjectionMatrix * pos;
vs_out.flogz = logdepth_prepare_vs_depth(gl_Position.w);
vs_out.texcoord = vec2(fg_TextureMatrix * multitexcoord0); vs_out.texcoord = vec2(fg_TextureMatrix * multitexcoord0);
vs_out.vertex_normal = osg_NormalMatrix * normal; vs_out.vertex_normal = osg_NormalMatrix * normal;

View file

@ -1,6 +1,7 @@
#version 330 core #version 330 core
in VS_OUT { in VS_OUT {
float flogz;
vec2 texcoord; vec2 texcoord;
vec3 vertex_normal; vec3 vertex_normal;
vec3 view_vector; vec3 view_vector;
@ -22,6 +23,8 @@ void gbuffer_pack(vec3 normal, vec3 base_color, float metallic, float roughness,
vec3 eotf_inverse_sRGB(vec3 srgb); vec3 eotf_inverse_sRGB(vec3 srgb);
// normalmap.glsl // normalmap.glsl
vec3 perturb_normal(vec3 N, vec3 V, vec2 texcoord); vec3 perturb_normal(vec3 N, vec3 V, vec2 texcoord);
// logarithmic_depth.glsl
float logdepth_encode(float z);
void main() void main()
{ {
@ -38,4 +41,5 @@ void main()
N = perturb_normal(N, fs_in.view_vector, fs_in.texcoord); N = perturb_normal(N, fs_in.view_vector, fs_in.texcoord);
gbuffer_pack(N, base_color, metallic, roughness, occlusion, emissive, 3u); gbuffer_pack(N, base_color, metallic, roughness, occlusion, emissive, 3u);
gl_FragDepth = logdepth_encode(fs_in.flogz);
} }

View file

@ -5,6 +5,7 @@ layout(location = 1) in vec3 normal;
layout(location = 3) in vec4 multitexcoord0; layout(location = 3) in vec4 multitexcoord0;
out VS_OUT { out VS_OUT {
float flogz;
vec2 texcoord; vec2 texcoord;
vec3 vertex_normal; vec3 vertex_normal;
vec3 view_vector; vec3 view_vector;
@ -17,9 +18,13 @@ uniform mat4 osg_ModelViewProjectionMatrix;
uniform mat3 osg_NormalMatrix; uniform mat3 osg_NormalMatrix;
uniform mat4 fg_TextureMatrix; uniform mat4 fg_TextureMatrix;
// logarithmic_depth.glsl
float logdepth_prepare_vs_depth(float z);
void main() void main()
{ {
gl_Position = osg_ModelViewProjectionMatrix * pos; gl_Position = osg_ModelViewProjectionMatrix * pos;
vs_out.flogz = logdepth_prepare_vs_depth(gl_Position.w);
vs_out.texcoord = vec2(fg_TextureMatrix * multitexcoord0); vs_out.texcoord = vec2(fg_TextureMatrix * multitexcoord0);
if (flip_vertically) if (flip_vertically)
vs_out.texcoord.y = 1.0 - vs_out.texcoord.y; vs_out.texcoord.y = 1.0 - vs_out.texcoord.y;

View file

@ -3,6 +3,7 @@
layout(location = 0) out vec4 fragColor; layout(location = 0) out vec4 fragColor;
in VS_OUT { in VS_OUT {
float flogz;
vec2 texcoord; vec2 texcoord;
vec3 vertex_normal; vec3 vertex_normal;
vec3 view_vector; vec3 view_vector;
@ -32,6 +33,8 @@ vec3 eval_lights_transparent(
mat4 view_matrix_inverse); mat4 view_matrix_inverse);
// normalmap.glsl // normalmap.glsl
vec3 perturb_normal(vec3 N, vec3 V, vec2 texcoord); vec3 perturb_normal(vec3 N, vec3 V, vec2 texcoord);
// logarithmic_depth.glsl
float logdepth_encode(float z);
void main() void main()
{ {
@ -58,4 +61,5 @@ void main()
fs_in.view_vector, N, V, uv, fs_in.ap_color, osg_ViewMatrixInverse); fs_in.view_vector, N, V, uv, fs_in.ap_color, osg_ViewMatrixInverse);
fragColor = vec4(color, base_color.a); fragColor = vec4(color, base_color.a);
gl_FragDepth = logdepth_encode(fs_in.flogz);
} }

View file

@ -5,6 +5,7 @@ layout(location = 1) in vec3 normal;
layout(location = 3) in vec4 multitexcoord0; layout(location = 3) in vec4 multitexcoord0;
out VS_OUT { out VS_OUT {
float flogz;
vec2 texcoord; vec2 texcoord;
vec3 vertex_normal; vec3 vertex_normal;
vec3 view_vector; vec3 view_vector;
@ -20,10 +21,13 @@ uniform mat4 fg_TextureMatrix;
// aerial_perspective.glsl // aerial_perspective.glsl
vec4 get_aerial_perspective(vec2 coord, float depth); vec4 get_aerial_perspective(vec2 coord, float depth);
// logarithmic_depth.glsl
float logdepth_prepare_vs_depth(float z);
void main() void main()
{ {
gl_Position = osg_ModelViewProjectionMatrix * pos; gl_Position = osg_ModelViewProjectionMatrix * pos;
vs_out.flogz = logdepth_prepare_vs_depth(gl_Position.w);
vs_out.texcoord = vec2(fg_TextureMatrix * multitexcoord0); vs_out.texcoord = vec2(fg_TextureMatrix * multitexcoord0);
if (flip_vertically) if (flip_vertically)
vs_out.texcoord.y = 1.0 - vs_out.texcoord.y; vs_out.texcoord.y = 1.0 - vs_out.texcoord.y;

View file

@ -2,11 +2,14 @@
layout(location = 0) out vec4 fragColor; layout(location = 0) out vec4 fragColor;
in vec3 vN; in VS_OUT {
in vec3 vP; float flogz;
in vec2 texcoord; vec2 texcoord;
in vec4 material_color; vec3 vertex_normal;
in vec4 ap_color; vec3 view_vector;
vec4 material_color;
vec4 ap_color;
} fs_in;
uniform sampler2D color_tex; uniform sampler2D color_tex;
@ -23,20 +26,23 @@ vec3 eval_lights_transparent(
vec3 base_color, float metallic, float roughness, float occlusion, vec3 base_color, float metallic, float roughness, float occlusion,
vec3 emissive, vec3 P, vec3 N, vec3 V, vec2 uv, vec4 ap, vec3 emissive, vec3 P, vec3 N, vec3 V, vec2 uv, vec4 ap,
mat4 view_matrix_inverse); mat4 view_matrix_inverse);
// logarithmic_depth.glsl
float logdepth_encode(float z);
void main() void main()
{ {
vec4 texel = texture(color_tex, texcoord); vec4 texel = texture(color_tex, fs_in.texcoord);
vec3 base_color = eotf_inverse_sRGB(texel.rgb) * material_color.rgb; vec3 base_color = eotf_inverse_sRGB(texel.rgb) * fs_in.material_color.rgb;
float alpha = material_color.a * texel.a; float alpha = fs_in.material_color.a * texel.a;
vec3 N = normalize(vN); vec3 N = normalize(fs_in.vertex_normal);
vec3 V = normalize(-vP); vec3 V = normalize(-fs_in.view_vector);
vec2 uv = (gl_FragCoord.xy - fg_Viewport.xy) / fg_Viewport.zw; vec2 uv = (gl_FragCoord.xy - fg_Viewport.xy) / fg_Viewport.zw;
vec3 color = eval_lights_transparent( vec3 color = eval_lights_transparent(
base_color, TRANSPARENT_METALLIC, TRANSPARENT_ROUGHNESS, 1.0, vec3(0.0), base_color, TRANSPARENT_METALLIC, TRANSPARENT_ROUGHNESS, 1.0, vec3(0.0),
vP, N, V, uv, ap_color, osg_ViewMatrixInverse); fs_in.view_vector, N, V, uv, fs_in.ap_color, osg_ViewMatrixInverse);
fragColor = vec4(color, alpha); fragColor = vec4(color, alpha);
gl_FragDepth = logdepth_encode(fs_in.flogz);
} }

View file

@ -9,11 +9,14 @@ layout(location = 1) in vec3 normal;
layout(location = 2) in vec4 vertex_color; layout(location = 2) in vec4 vertex_color;
layout(location = 3) in vec4 multitexcoord0; layout(location = 3) in vec4 multitexcoord0;
out vec3 vN; out VS_OUT {
out vec3 vP; float flogz;
out vec2 texcoord; vec2 texcoord;
out vec4 material_color; vec3 vertex_normal;
out vec4 ap_color; vec3 view_vector;
vec4 material_color;
vec4 ap_color;
} vs_out;
uniform int color_mode; uniform int color_mode;
uniform vec4 material_diffuse; uniform vec4 material_diffuse;
@ -25,28 +28,31 @@ uniform mat4 fg_TextureMatrix;
// aerial_perspective.glsl // aerial_perspective.glsl
vec4 get_aerial_perspective(vec2 coord, float depth); vec4 get_aerial_perspective(vec2 coord, float depth);
// logarithmic_depth.glsl
float logdepth_prepare_vs_depth(float z);
void main() void main()
{ {
gl_Position = osg_ModelViewProjectionMatrix * pos; gl_Position = osg_ModelViewProjectionMatrix * pos;
vN = osg_NormalMatrix * normal; vs_out.flogz = logdepth_prepare_vs_depth(gl_Position.w);
vP = (osg_ModelViewMatrix * pos).xyz; vs_out.vertex_normal = osg_NormalMatrix * normal;
texcoord = vec2(fg_TextureMatrix * multitexcoord0); vs_out.view_vector = (osg_ModelViewMatrix * pos).xyz;
vs_out.texcoord = vec2(fg_TextureMatrix * multitexcoord0);
// Legacy material handling // Legacy material handling
if (color_mode == MODE_DIFFUSE) if (color_mode == MODE_DIFFUSE)
material_color = vertex_color; vs_out.material_color = vertex_color;
else if (color_mode == MODE_AMBIENT_AND_DIFFUSE) else if (color_mode == MODE_AMBIENT_AND_DIFFUSE)
material_color = vertex_color; vs_out.material_color = vertex_color;
else else
material_color = material_diffuse; vs_out.material_color = material_diffuse;
// Super hack: if diffuse material alpha is less than 1, assume a // Super hack: if diffuse material alpha is less than 1, assume a
// transparency animation is at work // transparency animation is at work
if (material_diffuse.a < 1.0) if (material_diffuse.a < 1.0)
material_color.a = material_diffuse.a; vs_out.material_color.a = material_diffuse.a;
else else
material_color.a = vertex_color.a; vs_out.material_color.a = vertex_color.a;
vec2 coord = (gl_Position.xy / gl_Position.w) * 0.5 + 0.5; vec2 coord = (gl_Position.xy / gl_Position.w) * 0.5 + 0.5;
ap_color = get_aerial_perspective(coord, length(vP)); vs_out.ap_color = get_aerial_perspective(coord, length(vs_out.view_vector));
} }

View file

@ -6,6 +6,11 @@ uniform vec2 fg_NearFar;
uniform mat4 fg_ViewMatrixInverse; uniform mat4 fg_ViewMatrixInverse;
uniform mat4 fg_ProjectionMatrixInverse; uniform mat4 fg_ProjectionMatrixInverse;
uniform vec2 fg_FOVScale;
// logarithmic_depth.glsl
float logdepth_decode(float z);
/* /*
* Reconstruct the view space position from the depth buffer. Mostly used by * Reconstruct the view space position from the depth buffer. Mostly used by
* fullscreen post-processing shaders. * fullscreen post-processing shaders.
@ -13,22 +18,12 @@ uniform mat4 fg_ProjectionMatrixInverse;
* Given a 2D screen UV in the range [0,1] and a depth value from the depth * Given a 2D screen UV in the range [0,1] and a depth value from the depth
* buffer, also in the [0,1] range, return the view space position. * buffer, also in the [0,1] range, return the view space position.
*/ */
vec3 get_view_space_from_depth(vec2 uv, float depth, mat4 proj_matrix_inverse)
{
/*
* We are using a reversed depth buffer. 1.0 corresponds to the near plane
* and 0.0 to the far plane. We convert this back to NDC space by doing
* 1.0 - depth to undo the depth reversal
* 2.0 * depth - 1.0 to transform it to NDC space [-1,1]
*/
vec4 ndc_p = vec4(uv * 2.0 - 1.0, 1.0 - depth * 2.0, 1.0);
vec4 vs_p = proj_matrix_inverse * ndc_p;
return vs_p.xyz / vs_p.w;
}
vec3 get_view_space_from_depth(vec2 uv, float depth) vec3 get_view_space_from_depth(vec2 uv, float depth)
{ {
return get_view_space_from_depth(uv, depth, fg_ProjectionMatrixInverse); float vs_depth = logdepth_decode(depth);
vec2 half_ndc_pos = vec2(0.5) - uv;
vec3 vs_pos = vec3(half_ndc_pos * fg_FOVScale * (-vs_depth), -vs_depth);
return vs_pos;
} }
vec3 get_view_space_from_depth(vec2 uv) vec3 get_view_space_from_depth(vec2 uv)
@ -46,11 +41,3 @@ vec3 get_world_space_from_depth(vec2 uv)
{ {
return get_world_space_from_depth(uv, texture(depth_tex, uv).r); return get_world_space_from_depth(uv, texture(depth_tex, uv).r);
} }
float linearize_depth(float depth)
{
// Undo the depth reversal
float z = 1.0 - depth;
return 2.0 * fg_NearFar.x
/ (fg_NearFar.y + fg_NearFar.x - z * (fg_NearFar.y - fg_NearFar.x));
}

View file

@ -27,6 +27,8 @@ const vec2 UV_FACTOR = vec2(0.5, 0.5);
// math.glsl // math.glsl
float saturate(float x); float saturate(float x);
float interleaved_gradient_noise(vec2 uv); float interleaved_gradient_noise(vec2 uv);
// logarithmic_depth.glsl
float logdepth_decode_normalized(float z);
float sample_shadow_map(vec2 coord, vec2 offset, float depth) float sample_shadow_map(vec2 coord, vec2 offset, float depth)
{ {
@ -164,8 +166,9 @@ float get_contact_shadow(vec3 P, vec3 L, mat4 projection_matrix)
float t = (float(i) + dither) * dt; float t = (float(i) + dither) * dt;
vec3 x_t = ray_start + ray_dir * t; vec3 x_t = ray_start + ray_dir * t;
// Sample the depth buffer. It's reversed, so invert it // Sample the depth buffer
float z = 1.0 - texture(depth_tex, x_t.xy).r; float z = texture(depth_tex, x_t.xy).r;
z = logdepth_decode_normalized(z);
// Depth difference between the current ray sample depth and the actual // Depth difference between the current ray sample depth and the actual
// camera depth contained in the depth buffer. // camera depth contained in the depth buffer.
float dz = x_t.z - z - sss_depth_bias; float dz = x_t.z - z - sss_depth_bias;

View file

@ -1,6 +1,7 @@
#version 330 core #version 330 core
in VS_OUT { in VS_OUT {
float flogz;
vec2 texcoord; vec2 texcoord;
vec2 orthophoto_texcoord; vec2 orthophoto_texcoord;
vec3 vertex_normal; vec3 vertex_normal;
@ -19,6 +20,8 @@ void gbuffer_pack(vec3 normal, vec3 base_color, float metallic, float roughness,
float occlusion, vec3 emissive, uint mat_id); float occlusion, vec3 emissive, uint mat_id);
// color.glsl // color.glsl
vec3 eotf_inverse_sRGB(vec3 srgb); vec3 eotf_inverse_sRGB(vec3 srgb);
// logarithmic_depth.glsl
float logdepth_encode(float z);
void main() void main()
{ {
@ -35,4 +38,5 @@ void main()
vec3 N = normalize(fs_in.vertex_normal); vec3 N = normalize(fs_in.vertex_normal);
gbuffer_pack(N, color, TERRAIN_METALLIC, TERRAIN_ROUGHNESS, 1.0, vec3(0.0), 3u); gbuffer_pack(N, color, TERRAIN_METALLIC, TERRAIN_ROUGHNESS, 1.0, vec3(0.0), 3u);
gl_FragDepth = logdepth_encode(fs_in.flogz);
} }

View file

@ -6,6 +6,7 @@ layout(location = 3) in vec4 multitexcoord0;
layout(location = 5) in vec4 multitexcoord2; layout(location = 5) in vec4 multitexcoord2;
out VS_OUT { out VS_OUT {
float flogz;
vec2 texcoord; vec2 texcoord;
vec2 orthophoto_texcoord; vec2 orthophoto_texcoord;
vec3 vertex_normal; vec3 vertex_normal;
@ -14,9 +15,13 @@ out VS_OUT {
uniform mat4 osg_ModelViewProjectionMatrix; uniform mat4 osg_ModelViewProjectionMatrix;
uniform mat3 osg_NormalMatrix; uniform mat3 osg_NormalMatrix;
// logarithmic_depth.glsl
float logdepth_prepare_vs_depth(float z);
void main() void main()
{ {
gl_Position = osg_ModelViewProjectionMatrix * pos; gl_Position = osg_ModelViewProjectionMatrix * pos;
vs_out.flogz = logdepth_prepare_vs_depth(gl_Position.w);
vs_out.texcoord = multitexcoord0.st; vs_out.texcoord = multitexcoord0.st;
vs_out.orthophoto_texcoord = multitexcoord2.st; vs_out.orthophoto_texcoord = multitexcoord2.st;
vs_out.vertex_normal = osg_NormalMatrix * normal; vs_out.vertex_normal = osg_NormalMatrix * normal;

View file

@ -1,6 +1,7 @@
#version 330 core #version 330 core
in VS_OUT { in VS_OUT {
float flogz;
vec2 texcoord; vec2 texcoord;
vec3 vertex_normal; vec3 vertex_normal;
} fs_in; } fs_in;
@ -12,6 +13,8 @@ void gbuffer_pack(vec3 normal, vec3 base_color, float metallic, float roughness,
float occlusion, vec3 emissive, uint mat_id); float occlusion, vec3 emissive, uint mat_id);
// color.glsl // color.glsl
vec3 eotf_inverse_sRGB(vec3 srgb); vec3 eotf_inverse_sRGB(vec3 srgb);
// logarithmic_depth.glsl
float logdepth_encode(float z);
void main() void main()
{ {
@ -24,4 +27,5 @@ void main()
vec3 N = normalize(fs_in.vertex_normal); vec3 N = normalize(fs_in.vertex_normal);
gbuffer_pack(N, color, 0.0, 0.9, 1.0, vec3(0.0), 3u); gbuffer_pack(N, color, 0.0, 0.9, 1.0, vec3(0.0), 3u);
gl_FragDepth = logdepth_encode(fs_in.flogz);
} }

View file

@ -5,6 +5,7 @@ layout(location = 1) in vec3 normal;
layout(location = 3) in vec4 multitexcoord0; layout(location = 3) in vec4 multitexcoord0;
out VS_OUT { out VS_OUT {
float flogz;
vec2 texcoord; vec2 texcoord;
vec3 vertex_normal; vec3 vertex_normal;
} vs_out; } vs_out;
@ -12,12 +13,16 @@ out VS_OUT {
uniform mat4 osg_ModelViewProjectionMatrix; uniform mat4 osg_ModelViewProjectionMatrix;
uniform mat3 osg_NormalMatrix; uniform mat3 osg_NormalMatrix;
// logarithmic_depth.glsl
float logdepth_prepare_vs_depth(float z);
void main() void main()
{ {
vec4 raised_pos = pos; vec4 raised_pos = pos;
raised_pos.z += 0.05; raised_pos.z += 0.05;
gl_Position = osg_ModelViewProjectionMatrix * raised_pos; gl_Position = osg_ModelViewProjectionMatrix * raised_pos;
vs_out.flogz = logdepth_prepare_vs_depth(gl_Position.w);
vs_out.texcoord = multitexcoord0.st; vs_out.texcoord = multitexcoord0.st;
vs_out.vertex_normal = osg_NormalMatrix * normal; vs_out.vertex_normal = osg_NormalMatrix * normal;
} }

View file

@ -1,6 +1,7 @@
#version 330 core #version 330 core
in VS_OUT { in VS_OUT {
float flogz;
vec2 texcoord; vec2 texcoord;
vec3 vertex_normal; vec3 vertex_normal;
vec3 view_vector; vec3 view_vector;
@ -19,6 +20,8 @@ void gbuffer_pack(vec3 normal, vec3 base_color, float metallic, float roughness,
vec3 eotf_inverse_sRGB(vec3 srgb); vec3 eotf_inverse_sRGB(vec3 srgb);
// normalmap.glsl // normalmap.glsl
vec3 perturb_normal(vec3 N, vec3 V, vec2 texcoord); vec3 perturb_normal(vec3 N, vec3 V, vec2 texcoord);
// logarithmic_depth.glsl
float logdepth_encode(float z);
void main() void main()
{ {
@ -39,4 +42,5 @@ void main()
float roughness = mix(0.94, 0.98, mix_factor); float roughness = mix(0.94, 0.98, mix_factor);
gbuffer_pack(N, color, 0.0, roughness, 1.0, vec3(0.0), 3u); gbuffer_pack(N, color, 0.0, roughness, 1.0, vec3(0.0), 3u);
gl_FragDepth = logdepth_encode(fs_in.flogz);
} }

View file

@ -5,6 +5,7 @@ layout(location = 1) in vec3 normal;
layout(location = 3) in vec4 multitexcoord0; layout(location = 3) in vec4 multitexcoord0;
out VS_OUT { out VS_OUT {
float flogz;
vec2 texcoord; vec2 texcoord;
vec3 vertex_normal; vec3 vertex_normal;
vec3 view_vector; vec3 view_vector;
@ -15,9 +16,13 @@ uniform mat4 osg_ModelViewMatrix;
uniform mat4 osg_ModelViewProjectionMatrix; uniform mat4 osg_ModelViewProjectionMatrix;
uniform mat3 osg_NormalMatrix; uniform mat3 osg_NormalMatrix;
// logarithmic_depth.glsl
float logdepth_prepare_vs_depth(float z);
void main() void main()
{ {
gl_Position = osg_ModelViewProjectionMatrix * pos; gl_Position = osg_ModelViewProjectionMatrix * pos;
vs_out.flogz = logdepth_prepare_vs_depth(gl_Position.w);
vs_out.texcoord = multitexcoord0.st; vs_out.texcoord = multitexcoord0.st;
vs_out.vertex_normal = osg_NormalMatrix * normal; vs_out.vertex_normal = osg_NormalMatrix * normal;
vs_out.view_vector = (osg_ModelViewMatrix * pos).xyz; vs_out.view_vector = (osg_ModelViewMatrix * pos).xyz;

View file

@ -3,6 +3,7 @@
layout(location = 0) out vec4 fragColor; layout(location = 0) out vec4 fragColor;
in VS_OUT { in VS_OUT {
float flogz;
vec2 texcoord; vec2 texcoord;
vec3 vertex_normal; vec3 vertex_normal;
vec3 view_vector; vec3 view_vector;
@ -27,6 +28,8 @@ vec3 eval_lights_transparent(
vec3 base_color, float metallic, float roughness, float occlusion, vec3 base_color, float metallic, float roughness, float occlusion,
vec3 emissive, vec3 P, vec3 N, vec3 V, vec2 uv, vec4 ap, vec3 emissive, vec3 P, vec3 N, vec3 V, vec2 uv, vec4 ap,
mat4 view_matrix_inverse); mat4 view_matrix_inverse);
// logarithmic_depth.glsl
float logdepth_encode(float z);
void main() void main()
{ {
@ -41,4 +44,5 @@ void main()
fs_in.view_vector, N, V, uv, fs_in.ap_color, osg_ViewMatrixInverse); fs_in.view_vector, N, V, uv, fs_in.ap_color, osg_ViewMatrixInverse);
fragColor = vec4(color, alpha); fragColor = vec4(color, alpha);
gl_FragDepth = logdepth_encode(fs_in.flogz);
} }

View file

@ -5,6 +5,7 @@ layout(location = 1) in vec3 normal;
layout(location = 3) in vec4 multitexcoord0; layout(location = 3) in vec4 multitexcoord0;
out VS_OUT { out VS_OUT {
float flogz;
vec2 texcoord; vec2 texcoord;
vec3 vertex_normal; vec3 vertex_normal;
vec3 view_vector; vec3 view_vector;
@ -18,10 +19,13 @@ uniform mat4 fg_TextureMatrix;
// aerial_perspective.glsl // aerial_perspective.glsl
vec4 get_aerial_perspective(vec2 coord, float depth); vec4 get_aerial_perspective(vec2 coord, float depth);
// logarithmic_depth.glsl
float logdepth_prepare_vs_depth(float z);
void main() void main()
{ {
gl_Position = osg_ModelViewProjectionMatrix * pos; gl_Position = osg_ModelViewProjectionMatrix * pos;
vs_out.flogz = logdepth_prepare_vs_depth(gl_Position.w);
vs_out.texcoord = vec2(fg_TextureMatrix * multitexcoord0); vs_out.texcoord = vec2(fg_TextureMatrix * multitexcoord0);
vs_out.vertex_normal = osg_NormalMatrix * normal; vs_out.vertex_normal = osg_NormalMatrix * normal;
vs_out.view_vector = (osg_ModelViewMatrix * pos).xyz; vs_out.view_vector = (osg_ModelViewMatrix * pos).xyz;

View file

@ -1,6 +1,7 @@
#version 330 core #version 330 core
in VS_OUT { in VS_OUT {
float flogz;
vec2 texcoord; vec2 texcoord;
vec3 vertex_normal; vec3 vertex_normal;
float autumn_flag; float autumn_flag;
@ -15,6 +16,8 @@ void gbuffer_pack(vec3 normal, vec3 base_color, float metallic, float roughness,
float occlusion, vec3 emissive, uint mat_id); float occlusion, vec3 emissive, uint mat_id);
// color.glsl // color.glsl
vec3 eotf_inverse_sRGB(vec3 srgb); vec3 eotf_inverse_sRGB(vec3 srgb);
// logarithmic_depth.glsl
float logdepth_encode(float z);
void main() void main()
{ {
@ -33,4 +36,5 @@ void main()
vec3 N = normalize(fs_in.vertex_normal); vec3 N = normalize(fs_in.vertex_normal);
gbuffer_pack(N, color, 0.0, 1.0, 1.0, vec3(0.0), 3u); gbuffer_pack(N, color, 0.0, 1.0, 1.0, vec3(0.0), 3u);
gl_FragDepth = logdepth_encode(fs_in.flogz);
} }

View file

@ -7,6 +7,7 @@ layout(location = 3) in vec4 multitexcoord0;
layout(location = 12) in float fogcoord; layout(location = 12) in float fogcoord;
out VS_OUT { out VS_OUT {
float flogz;
vec2 texcoord; vec2 texcoord;
vec3 vertex_normal; vec3 vertex_normal;
float autumn_flag; float autumn_flag;
@ -25,6 +26,8 @@ uniform mat4 osg_ModelViewProjectionMatrix;
// noise.glsl // noise.glsl
float voronoi_noise_2d(vec2 coord, float wavelength, float xrand, float yrand); float voronoi_noise_2d(vec2 coord, float wavelength, float xrand, float yrand);
// logarithmic_depth.glsl
float logdepth_prepare_vs_depth(float z);
void main() void main()
{ {
@ -67,6 +70,7 @@ void main()
position = position + vertex_color.xyz; position = position + vertex_color.xyz;
gl_Position = osg_ModelViewProjectionMatrix * vec4(position, 1.0); gl_Position = osg_ModelViewProjectionMatrix * vec4(position, 1.0);
vs_out.flogz = logdepth_prepare_vs_depth(gl_Position.w);
vec3 view_vector = (osg_ModelViewMatrix * vec4(position, 1.0)).xyz; vec3 view_vector = (osg_ModelViewMatrix * vec4(position, 1.0)).xyz;
vs_out.vertex_normal = normalize(-view_vector); vs_out.vertex_normal = normalize(-view_vector);

View file

@ -4,6 +4,7 @@ layout(location = 0) out vec4 out_gbuffer0;
layout(location = 1) out vec4 out_gbuffer1; layout(location = 1) out vec4 out_gbuffer1;
in VS_OUT { in VS_OUT {
float flogz;
vec2 water_texcoord; vec2 water_texcoord;
vec2 topo_texcoord; vec2 topo_texcoord;
vec3 vertex_normal; vec3 vertex_normal;
@ -29,6 +30,8 @@ vec2 encode_normal(vec3 n);
vec3 eotf_inverse_sRGB(vec3 srgb); vec3 eotf_inverse_sRGB(vec3 srgb);
// normalmap.glsl // normalmap.glsl
mat3 cotangent_frame(vec3 N, vec3 p, vec2 uv); mat3 cotangent_frame(vec3 N, vec3 p, vec2 uv);
// logarithmic_depth.glsl
float logdepth_encode(float z);
void get_rotation_matrix(float angle, out mat2 rotmat) void get_rotation_matrix(float angle, out mat2 rotmat)
{ {
@ -63,4 +66,6 @@ void main()
out_gbuffer0.rg = encode_normal(N); out_gbuffer0.rg = encode_normal(N);
out_gbuffer1.rgb = floor_color; out_gbuffer1.rgb = floor_color;
gl_FragDepth = logdepth_encode(fs_in.flogz);
} }

View file

@ -4,6 +4,7 @@ layout(location = 0) in vec4 pos;
layout(location = 3) in vec4 multiTexCoord0; layout(location = 3) in vec4 multiTexCoord0;
out VS_OUT { out VS_OUT {
float flogz;
vec2 water_texcoord; vec2 water_texcoord;
vec2 topo_texcoord; vec2 topo_texcoord;
vec3 vertex_normal; vec3 vertex_normal;
@ -22,6 +23,9 @@ const float squash = 0.9966471893352525192801545;
const float latAdjust = 0.9999074159800018; //geotiff source for the depth map const float latAdjust = 0.9999074159800018; //geotiff source for the depth map
const float lonAdjust = 0.9999537058469516; //actual extents: +-180.008333333333326/+-90.008333333333340 const float lonAdjust = 0.9999537058469516; //actual extents: +-180.008333333333326/+-90.008333333333340
// logarithmic_depth.glsl
float logdepth_prepare_vs_depth(float z);
void get_rotation_matrix(float angle, out mat4 rotmat) void get_rotation_matrix(float angle, out mat4 rotmat)
{ {
rotmat = mat4(cos(angle), -sin(angle), 0.0, 0.0, rotmat = mat4(cos(angle), -sin(angle), 0.0, 0.0,
@ -71,6 +75,7 @@ vec2 get_topo_coords(vec3 rawPos)
void main() void main()
{ {
gl_Position = osg_ModelViewProjectionMatrix * pos; gl_Position = osg_ModelViewProjectionMatrix * pos;
vs_out.flogz = logdepth_prepare_vs_depth(gl_Position.w);
vs_out.water_texcoord = multiTexCoord0.st; vs_out.water_texcoord = multiTexCoord0.st;
vs_out.vertex_normal = osg_NormalMatrix * vec3(0.0, 0.0, 1.0); vs_out.vertex_normal = osg_NormalMatrix * vec3(0.0, 0.0, 1.0);
vs_out.view_vector = (osg_ModelViewMatrix * pos).xyz; vs_out.view_vector = (osg_ModelViewMatrix * pos).xyz;