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MariENB FNV 2.4.3

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Marisa the Magician 2019-04-07 17:38:48 +02:00
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README.md
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![logo](Logo.png)
This repo contains every single version of MariENB ever made.
For the sake of neater organization, they are divided in specific branches:
- **historic**: Alpha versions of MariENB.
- **legacy**: 1.x releases.
- **twopoint-modular**: 2.0.x releases that used a modular packaging model.
- **twopoint-dust**: 2.x releases for Fallout: DUST.
- **twopoint-fnv**: 2.x releases for Fallout: New Vegas.
- **twopoint-skyrim**: 2.x releases for Skyrim.
- **threepoint-frost**: 3.x releases for Fallout: FROST.
- **threepoint-fo4**: 3.x releases for Fallout 4.

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enbseries.ini Normal file
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[GLOBAL]
UseEffect=true
[EFFECT]
UseOriginalPostProcessing=false
UseOriginalObjectsProcessing=false
EnableBloom=true
EnableLens=false
EnableAdaptation=true
EnableDepthOfField=true
EnableAmbientOcclusion=true
EnableDetailedShadow=true
EnableSunRays=true
EnableSunGlare=false
[COLORCORRECTION]
UsePaletteTexture=true
UseProceduralCorrection=false
Brightness=1.0
GammaCurve=1.0
[NIGHTDAY]
DetectorDefaultDay=false
DetectorLevelDay=0.75
DetectorLevelNight=0.25
DetectorLevelCurve=1.0
[ADAPTATION]
ForceMinMaxValues=false
AdaptationSensitivity=0.2
AdaptationTime=0.65
AdaptationMin=0.0
AdaptationMax=1.0
[BLOOM]
Quality=0
AmountDay=1.0
AmountNight=1.0
AmountInterior=1.0
BlueShiftAmountDay=1.0
BlueShiftAmountNight=1.0
BlueShiftAmountInterior=1.0
[LENS]
LenzReflectionIntensityDay=1.0
LenzReflectionIntensityNight=1.0
LenzReflectionIntensityInterior=1.0
LenzReflectionPowerDay=1.0
LenzReflectionPowerNight=1.0
LenzReflectionPowerInterior=1.0
LenzDirtIntensityDay=1.0
LenzDirtIntensityNight=1.0
LenzDirtIntensityInterior=1.0
LenzDirtPowerDay=1.0
LenzDirtPowerNight=1.0
LenzDirtPowerInterior=1.0
[SSAO_SSIL]
EnableSupersampling=false
UseIndirectLighting=true
SamplingQuality=0
SamplingPrecision=0
SamplingRange=0.25
FadeFogRangeDay=0.5
FadeFogRangeNight=0.5
SizeScale=0.5
SourceTexturesScale=0.5
FilterQuality=0
AOAmount=1.07
AOAmountInterior=1.05
ILAmount=2.18
ILAmountInterior=2.12
AOIntensity=0.96
AOIntensityInterior=0.82
AOType=0
AOMixingType=2
AOMixingTypeInterior=3
EnableDenoiser=true
[ENVIRONMENT]
LightingIntensityDay=1.13
LightingIntensityNight=1.15
LightingIntensityInterior=1.1
LightingCurveDay=1.14
LightingCurveNight=1.05
LightingCurveInterior=1.06
LightingDesaturationDay=0.05
LightingDesaturationNight=0.07
LightingDesaturationInterior=0.12
AmbientLightingIntensityDay=0.89
AmbientLightingIntensityNight=0.62
AmbientLightingIntensityInterior=1.03
AmbientLightingCurveDay=1.2
AmbientLightingCurveNight=1.06
AmbientLightingCurveInterior=0.94
AmbientLightingDesaturationDay=0.08
AmbientLightingDesaturationNight=0.04
AmbientLightingDesaturationInterior=0.02
FogColorMultiplierDay=1.08
FogColorMultiplierNight=1.05
FogColorMultiplierInterior=1.02
FogColorCurveDay=0.88
FogColorCurveNight=1.1
FogColorCurveInterior=0.91
[SKY]
Enable=true
StarsIntensity=1.27
StarsCurve=1.08
CloudsIntensityDay=1.02
CloudsIntensityNight=0.88
CloudsCurveDay=0.98
CloudsCurveNight=0.92
CloudsDesaturationDay=0.1
CloudsDesaturationNight=0.09
CloudsEdgeClamp=0.5
CloudsEdgeIntensity=1.0
GradientIntensityDay=1.11
GradientIntensityNight=0.96
GradientDesaturationDay=0.07
GradientDesaturationNight=0.04
GradientTopIntensityDay=1.08
GradientTopIntensityNight=0.98
GradientTopCurveDay=0.81
GradientTopCurveNight=1.13
GradientMiddleIntensityDay=1.07
GradientMiddleIntensityNight=1.11
GradientMiddleCurveDay=1.08
GradientMiddleCurveNight=1.23
GradientHorizonIntensityDay=1.22
GradientHorizonIntensityNight=1.36
GradientHorizonCurveDay=1.19
GradientHorizonCurveNight=1.24
SunIntensity=1.66
SunDesaturation=0.0
SunCoronaIntensity=0.001
SunCoronaCurve=1.0
SunCoronaDesaturation=0.0
MoonIntensity=1.09
MoonCurve=1.14
MoonDesaturation=0.0
MoonCoronaIntensity=0.001
[DEPTHOFFIELD]
FadeTime=0.4
[SHADOW]
DetailedShadowQuality=1
ShadowDesaturation=0.0
[RAYS]
SunRaysMultiplier=0.29

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enbseries/COPYING Normal file
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14. Revised Versions of this License.
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END OF TERMS AND CONDITIONS
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free software which everyone can redistribute and change under these terms.
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state the exclusion of warranty; and each file should have at least
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(at your option) any later version.
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but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
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along with this program. If not, see <http://www.gnu.org/licenses/>.
Also add information on how to contact you by electronic and paper mail.
If the program does terminal interaction, make it output a short
notice like this when it starts in an interactive mode:
<program> Copyright (C) <year> <name of author>
This program comes with ABSOLUTELY NO WARRANTY; for details type `show w'.
This is free software, and you are welcome to redistribute it
under certain conditions; type `show c' for details.
The hypothetical commands `show w' and `show c' should show the appropriate
parts of the General Public License. Of course, your program's commands
might be different; for a GUI interface, you would use an "about box".
You should also get your employer (if you work as a programmer) or school,
if any, to sign a "copyright disclaimer" for the program, if necessary.
For more information on this, and how to apply and follow the GNU GPL, see
<http://www.gnu.org/licenses/>.
The GNU General Public License does not permit incorporating your program
into proprietary programs. If your program is a subroutine library, you
may consider it more useful to permit linking proprietary applications with
the library. If this is what you want to do, use the GNU Lesser General
Public License instead of this License. But first, please read
<http://www.gnu.org/philosophy/why-not-lgpl.html>.

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2.4.3-1 "Good Old Vanilla"

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/*
effect.txt : MariENB extra shader.
(C)2013-2017 Marisa Kirisame, UnSX Team.
Part of MariENB, the personal ENB of Marisa.
Released under the GNU GPLv3 (or later).
*/
/* separate for easier maintenance */
#include "menbglobaldefs.fx"
#include "menbextrasettings.fx"
#include "menbextrainternals.fx"
#include "menbextrafilters.fx"

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[EFFECT.TXT]
TECHNIQUE=0
Enable Block GFX=false
Emulated Resolution Width=0.5
Emulated Resolution Height=0.5
Zoom Factor X=0.0
Zoom Factor Y=0.0
Palette Type=4
CGA Palette=1
EGA Palette=0
Dithering Pattern=2
Contrast Modifier=1.0
Saturation Modifier=0.75
Dither Offset=-0.1
Dither Range=0.15
Enable ASCII=false
ASCII Monochrome=true
ASCII Blend=0.0
Enable Chroma Key=false
Chroma Key Red=0.0
Chroma Key Green=0.5
Chroma Key Blue=0.0
Chroma Key Depth=0.99
Enable Dot Matrix=false
Dot Size=1
Dot Blend=0.2
Dot Intensity=2.5
Dot Contrast=2.2
Enable Curvature=false
Curve Chromatic Aberration=0.5
Curve Zooming=50.29995
Curve Distortion=0.0
Curve Sampling Soften=0.0
Enable Blur=true
Blur Sampling Range=0.18
Enable Sharp=true
Sharp Sampling Range=0.8
Sharpening Amount=1.45
Enable Shift=true
Shift Sampling Range=0.5
VGA Palette=0
Chroma Key Depth Horizontal Tilt Center=0.5
Chroma Key Depth Vertical Tilt Center=0.5
Chroma Key Depth Horizontal Tilt=0.0
Chroma Key Depth Vertical Tilt=0.0
Enable Black Bars=false
Box Horizontal Ratio=2.39
Box Vertical Ratio=1.0

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/*
enbbloom.fx : MariENB bloom filter.
(C)2013-2017 Marisa Kirisame, UnSX Team.
Part of MariENB, the personal ENB of Marisa.
Released under the GNU GPLv3 (or later).
*/
/* separate for easier maintenance */
#include "menbglobaldefs.fx"
#include "menbbloomsettings.fx"
#include "menbbloominternals.fx"
#include "menbbloomfilters.fx"

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[ENBBLOOM.FX]
TECHNIQUE=0
Bloom Intensity Night=0.39
Bloom Intensity Day=0.33
Bloom Intensity Interior Night=0.36
Bloom Intensity Interior Day=0.36
Bloom Contrast Night=1.02
Bloom Contrast Day=1.05
Bloom Contrast Interior Night=1.03
Bloom Contrast Interior Day=1.03
Bloom Saturation Night=1.19
Bloom Saturation Day=1.13
Bloom Saturation Interior Night=1.24
Bloom Saturation Interior Day=1.24
Bloom Offset Night=-0.1
Bloom Offset Day=-0.15
Bloom Offset Interior Night=-0.13
Bloom Offset Interior Day=-0.13
Bloom Intensity Cap Night=25.0
Bloom Intensity Cap Day=25.0
Bloom Intensity Cap Interior Night=25.0
Bloom Intensity Cap Interior Day=25.0
Bloom Blur Radius=1.0
Blue Shift Night Red=0.7
Blue Shift Night Green=0.4
Blue Shift Night Blue=1.0
Blue Shift Day Red=0.2
Blue Shift Day Green=0.6
Blue Shift Day Blue=1.0
Blue Shift Interior Night Red=0.6
Blue Shift Interior Night Green=0.3
Blue Shift Interior Night Blue=1.0
Blue Shift Interior Day Red=0.6
Blue Shift Interior Day Green=0.3
Blue Shift Interior Day Blue=1.0
Blue Shift Intensity Night=0.6
Blue Shift Intensity Day=0.5
Blue Shift Intensity Interior Night=0.65
Blue Shift Intensity Interior Day=0.65
Blue Shift Luminance Factor Per-pass=0.41
Blue Shift Color Factor Per-pass=0.9
Enable Anamorphic Bloom=true
Anamorphic Bloom Blend Night=0.42
Anamorphic Bloom Blend Day=0.31
Anamorphic Bloom Blend Interior Night=0.38
Anamorphic Bloom Blend Interior Day=0.38
Anamorphic Bloom Blue Shift Night Red=0.35
Anamorphic Bloom Blue Shift Night Green=0.08
Anamorphic Bloom Blue Shift Night Blue=1.0
Anamorphic Bloom Blue Shift Day Red=0.35
Anamorphic Bloom Blue Shift Day Green=0.57
Anamorphic Bloom Blue Shift Day Blue=1.0
Anamorphic Bloom Blue Shift Interior Night Red=0.42
Anamorphic Bloom Blue Shift Interior Night Green=0.21
Anamorphic Bloom Blue Shift Interior Night Blue=1.0
Anamorphic Bloom Blue Shift Interior Day Red=0.21
Anamorphic Bloom Blue Shift Interior Day Green=0.42
Anamorphic Bloom Blue Shift Interior Day Blue=1.0
Anamorphic Bloom Blue Shift Intensity Night=1.06
Anamorphic Bloom Blue Shift Intensity Day=1.88
Anamorphic Bloom Blue Shift Interior Night=1.79
Anamorphic Bloom Blue Shift Interior Day=1.79
Anamorphic Bloom Contrast Night=1.22
Anamorphic Bloom Contrast Day=1.34
Anamorphic Bloom Contrast Interior Night=1.26
Anamorphic Bloom Contrast Interior Day=1.26
Anamorphic Bloom Radius Multiplier=1.0
Bloom Pass 1 Blend=0.33
Bloom Pass 2 Blend=0.45
Bloom Pass 3 Blend=0.57
Bloom Pass 4 Blend=0.74
Bloom Pass 7 Blend=0.98
Bloom Pass 8 Blend=1.34
Bloom Prepass Blend=0.0
Bloom Base Blend=0.0
Enable Lens Dirt=true
Dirt Pass 1 Blend=0.02
Dirt Pass 2 Blend=0.04
Dirt Pass 3 Blend=0.08
Dirt Pass 4 Blend=0.11
Dirt Pass 7 Blend=0.59
Dirt Pass 8 Blend=3.01
Dirt Prepass Blend=0.0
Dirt Base Blend=0.0
Dirt Contrast=1.0
Dirt Factor=1.2
Bloom Blur Radius X=1.0
Bloom Blur Radius Y=1.0

13
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/*
enbeffect.fx : MariENB base shader.
(C)2013-2017 Marisa Kirisame, UnSX Team.
Part of MariENB, the personal ENB of Marisa.
Released under the GNU GPLv3 (or later).
*/
/* do not touch this! */
#define E_SHADER_3_0
/* separate for easier maintenance */
#include "menbglobaldefs.fx"
#include "menbeffectsettings.fx"
#include "menbeffectinternals.fx"
#include "menbeffectfilters.fx"

208
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[ENBEFFECT.FX]
TECHNIQUE=0
Enable Grain=true
Grain Speed=15.0
Grain Intensity=0.140001
Grain Saturation=-0.19
Grain Two-Pass=true
Grain Blending Mode=3
Grain Dark Mask Contrast=17.460001
Grain Two-Pass Factor=0.04
Grain Magnification 1=15.13
Grain Magnification 2=15.3
Grain Magnification 3=13.15
Grain Pass 1 Magnification 1=2.05
Grain Pass 1 Magnification 2=3.11
Grain Pass 1 Magnification 3=2.22
Grain Pass 2 Magnification 1=4.25
Grain Pass 2 Magnification 2=9.42
Grain Pass 2 Magnification 3=6.29
Grain Contrast=5.6
Enable Adaptation=true
Adaptation Min Night=0.69
Adaptation Min Day=0.85
Adaptation Min Interior Night=0.72
Adaptation Min Interior Day=0.72
Adaptation Max Night=1.57
Adaptation Max Day=1.86
Adaptation Max Interior Night=1.43
Adaptation Max Interior Day=1.43
Enable Tonemapping=true
Tonemap Shoulder Strength Night=0.97
Tonemap Shoulder Strength Day=0.94
Tonemap Shoulder Strength Interior Night=0.91
Tonemap Shoulder Strength Interior Day=0.91
Tonemap Linear Strength Night=1.11
Tonemap Linear Strength Day=1.17
Tonemap Linear Strength Interior Night=1.15
Tonemap Linear Strength Interior Day=1.15
Tonemap Linear Angle Night=0.74
Tonemap Linear Angle Day=0.85
Tonemap Linear Angle Interior Night=0.69
Tonemap Linear Angle Interior Day=0.69
Tonemap Toe Strength Night=0.85
Tonemap Toe Strength Day=0.87
Tonemap Toe Strength Interior Night=0.89
Tonemap Toe Strength Interior Day=0.89
Tonemap Toe Numerator Night=3.64
Tonemap Toe Numerator Day=3.98
Tonemap Toe Numerator Interior Night=3.85
Tonemap Toe Numerator Interior Day=3.85
Tonemap Toe Denominator Night=1.24
Tonemap Toe Denominator Day=1.08
Tonemap Toe Denominator Interior Night=1.27
Tonemap Toe Denominator Interior Day=1.27
Tonemap Linear White Night=6.61
Tonemap Linear White Day=8.54
Tonemap Linear White Interior Night=5.57
Tonemap Linear White Interior Day=5.57
Enable RGB Grading=true
Grading Intensity Night Red=1.03
Grading Intensity Night Green=1.01
Grading Intensity Night Blue=1.06
Grading Intensity Day Red=1.01
Grading Intensity Day Green=1.0
Grading Intensity Day Blue=1.03
Grading Intensity Interior Night Red=1.0
Grading Intensity Interior Night Green=1.05
Grading Intensity Interior Night Blue=1.01
Grading Intensity Interior Day Red=1.0
Grading Intensity Interior Day Green=1.05
Grading Intensity Interior Day Blue=1.01
Grading Contrast Night Red=0.98
Grading Contrast Night Green=0.99
Grading Contrast Night Blue=0.93
Grading Contrast Day Red=0.94
Grading Contrast Day Green=0.99
Grading Contrast Day Blue=0.91
Grading Contrast Interior Night Red=0.95
Grading Contrast Interior Night Green=0.99
Grading Contrast Interior Night Blue=0.96
Grading Contrast Interior Day Red=0.95
Grading Contrast Interior Day Green=0.99
Grading Contrast Interior Day Blue=0.96
Enable Vibrance Grading=true
Grading Color Night Red=-0.61
Grading Color Night Green=-0.12
Grading Color Night Blue=-0.85
Grading Color Day Red=-0.77
Grading Color Day Green=-0.07
Grading Color Day Blue=-0.24
Grading Color Interior Night Red=-0.21
Grading Color Interior Night Green=-0.05
Grading Color Interior Night Blue=-0.79
Grading Color Interior Day Red=-0.25
Grading Color Interior Day Green=-0.05
Grading Color Interior Day Blue=-0.79
Grading Color Factor Night=-0.16
Grading Color Factor Day=-0.06
Grading Color Factor Interior Night=-0.1
Grading Color Factor Interior Day=-0.1
Enable HSV Grading=true
Grading Saturation Intensity Night=1.23
Grading Saturation Intensity Day=1.14
Grading Saturation Intensity Interior Night=1.16
Grading Saturation Intensity Interior Day=1.16
Grading Saturation Contrast Night=1.18
Grading Saturation Contrast Day=1.08
Grading Saturation Contrast Interior Night=1.13
Grading Saturation Contrast Interior Day=1.13
Grading Value Intensity Night=0.98
Grading Value Intensity Day=0.93
Grading Value Intensity Interior Night=0.96
Grading Value Intensity Interior Day=0.96
Grading Value Contrast Night=1.12
Grading Value Contrast Day=1.18
Grading Value Contrast Interior Night=1.06
Grading Value Contrast Interior Day=1.06
Colorize After HSV=true
Enable Vanilla Imagespace=true
Vanilla Tint Blend=0.97
Vanilla Vibrance Blend=0.93
Vanilla Contrast Blend=0.77
Enable LUT Grading=true
LUT Blend Night=0.42
LUT Blend Day=0.35
LUT Blend Interior Night=0.31
LUT Blend Interior Day=0.31
Enable ENB Palette=false
Palette Blend=1.0
Enable Post Dither=true
Dither Pattern=2
Display Bloom=false
Apply Grain Before Tone Mapping=true
Tonemapping Method=2
Tonemap Exposure Night=6.44
Tonemap Exposure Day=6.259999
Tonemap Exposure Interior Night=6.89
Tonemap Exposure Interior Day=6.89
Tonemap Blend Night=1.0
Tonemap Blend Day=1.0
Tonemap Blend Interior Night=1.0
Tonemap Blend Interior Day=1.0
Uncharted2 Shoulder Strength Night=0.22
Uncharted2 Shoulder Strength Day=0.12
Uncharted2 Shoulder Strength Interior Night=0.16
Uncharted2 Shoulder Strength Interior Day=0.16
Uncharted2 Linear Strength Night=1.37
Uncharted2 Linear Strength Day=1.44
Uncharted2 Linear Strength Interior Night=1.49
Uncharted2 Linear Strength Interior Day=1.49
Uncharted2 Linear Angle Night=0.45
Uncharted2 Linear Angle Day=0.51
Uncharted2 Linear Angle Interior Night=0.62
Uncharted2 Linear Angle Interior Day=0.62
Uncharted2 Toe Strength Night=1.37
Uncharted2 Toe Strength Day=1.31
Uncharted2 Toe Strength Interior Night=1.26
Uncharted2 Toe Strength Interior Day=1.26
Uncharted2 Toe Numerator Night=0.23
Uncharted2 Toe Numerator Day=0.39
Uncharted2 Toe Numerator Interior Night=0.28
Uncharted2 Toe Numerator Interior Day=0.28
Uncharted2 Toe Denominator Night=1.44
Uncharted2 Toe Denominator Day=1.13
Uncharted2 Toe Denominator Interior Night=1.19
Uncharted2 Toe Denominator Interior Day=1.19
Uncharted2 Linear White Night=15.7
Uncharted2 Linear White Day=32.290001
Uncharted2 Linear White Interior Night=29.4
Uncharted2 Linear White Interior Day=29.4
SweetFX Gamma Night=1.0
SweetFX Gamma Day=1.0
SweetFX Gamma Interior Night=1.0
SweetFX Gamma Interior Day=1.0
SweetFX Exposure Night=0.0
SweetFX Exposure Day=0.0
SweetFX Exposure Interior Night=0.0
SweetFX Exposure Interior Day=0.0
SweetFX Saturation Night=0.0
SweetFX Saturation Day=0.0
SweetFX Saturation Interior Night=0.0
SweetFX Saturation Interior Day=0.0
SweetFX Bleach Night=0.0
SweetFX Bleach Day=0.0
SweetFX Bleach Interior Night=0.0
SweetFX Bleach Interior Day=0.0
SweetFX Defog Night=0.0
SweetFX Defog Day=0.0
SweetFX Defog Interior Night=0.0
SweetFX Defog Interior Day=0.0
SweetFX Defog Color Red Night=0.0
SweetFX Defog Color Green Night=0.0
SweetFX Defog Color Blue Night=1.0
SweetFX Defog Color Red Day=0.0
SweetFX Defog Color Green Day=0.0
SweetFX Defog Color Blue Day=1.0
SweetFX Defog Color Red Interior Night=0.0
SweetFX Defog Color Green Interior Night=0.0
SweetFX Defog Color Blue Interior Night=1.0
SweetFX Defog Color Red Interior Day=0.0
SweetFX Defog Color Green Interior Day=0.0
SweetFX Defog Color Blue Interior Day=1.0
Vanilla Tint Contrast=1.11
Vanilla Tint Strength=1.0
Vanilla Vibrance Contrast=1.16
Vanilla Vibrance Strength=1.0
Enable Technicolor=true
Technicolor Blend=0.5

11
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/*
enbeffectprepass.fx : MariENB pre-pass filters.
(C)2013-2017 Marisa Kirisame, UnSX Team.
Part of MariENB, the personal ENB of Marisa.
Released under the GNU GPLv3 (or later).
*/
/* separate for easier maintenance */
#include "menbglobaldefs.fx"
#include "menbprepasssettings.fx"
#include "menbprepassinternals.fx"
#include "menbprepassfilters.fx"

178
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[ENBEFFECTPREPASS.FX]
TECHNIQUE=0
Fixed Resolution Width=1920
Fixed Resolution Height=1080
Depth Cutoff=999999.0
Near Z=0.05
Far Z=3098.0
Distortion Chromatic Aberration=27.469999
Enable Underwater=true
Underwater Frequency 1=2.36
Underwater Frequency 2=3.39
Underwater Frequency 3=2.72
Underwater Speed 1=24.309999
Underwater Speed 2=21.9
Underwater Speed 3=26.549999
Underwater Amplitude 1=0.1
Underwater Amplitude 2=0.11
Underwater Amplitude 3=0.07
Underwater Zoom=0.15
Always Underwater=false
Enable Hot Air Refraction=true
Heat Texture Size=8.16
Heat Speed=0.36
Heat Fade Contrast=231.910004
Heat Fade Intensity=0.72
Heat Fade Offset=-0.61
Heat Intensity=1.04
Heat Contrast=1.18
Heat Time-of-day Contrast=7.73
Heat Always Enable=false
Enable Screen Frost=false
Frost Contrast=1.08
Frost Strength=0.04
Frost Radial Contrast=0.87
Frost Radial Intensity=1.11
Frost Radial Offset=-0.93
Frost Texture Blend=3.79
Frost Texture Blend Contrast=4.56
Frost Texture Size=1.0
Frost Indoor Factor=0.0
Frost Night Factor=0.5
Frost Always Enable=false
Enable Focus Triangle=true
Display Focus Points=false
Enable Manual Focus=false
Manual Focus Depth=1.0
Focus Point Center X=0.5
Focus Point Center Y=0.5
Focus Triangle Angle=0.5
Focus Triangle Radius Night=6.0
Focus Triangle Radius Day=10.0
Focus Triangle Radius Interior Night=4.0
Focus Triangle Radius Interior Day=4.0
Focus Triangle Blending Night=0.4
Focus Triangle Blending Day=0.3
Focus Triangle Blending Interior Night=0.5
Focus Triangle Blending Interior Day=0.5
Focus Maximum Depth Night=990.349976
Focus Maximum Depth Day=994.340027
Focus Maximum Depth Interior Night=984.919983
Focus Maximum Depth Interior Day=984.919983
DOF Intensity Night=481.829987
DOF Intensity Day=449.019989
DOF Intensity Interior Night=496.119995
DOF Intensity Interior Day=496.119995
DOF Contrast Night=2.42
DOF Contrast Day=2.9
DOF Contrast Interior Night=2.62
DOF Contrast Interior Day=2.62
DOF Shift Night=0.0
DOF Shift Day=0.0
DOF Shift Interior Night=0.0
DOF Shift Interior Day=0.0
DOF Fixed Focus Intensity Night=1.0
DOF Fixed Focus Intensity Day=1.0
DOF Fixed Focus Intensity Interior Night=1.0
DOF Fixed Focus Intensity Interior Day=1.0
DOF Fixed Focus Contrast Night=1.0
DOF Fixed Focus Contrast Day=1.0
DOF Fixed Focus Contrast Interior Night=1.0
DOF Fixed Focus Contrast Interior Day=1.0
DOF Fixed Focus Shift Night=0.0
DOF Fixed Focus Shift Day=0.0
DOF Fixed Focus Shift Interior Night=0.0
DOF Fixed Focus Shift Interior Day=0.0
DOF Fixed Focus Blend Night=0.0
DOF Fixed Focus Blend Day=0.0
DOF Fixed Focus Blend Interior Night=0.0
DOF Fixed Focus Blend Interior Day=0.0
DOF Fixed Unfocus Intensity Night=1.29
DOF Fixed Unfocus Intensity Day=1.23
DOF Fixed Unfocus Intensity Interior Night=1.18
DOF Fixed Unfocus Intensity Interior Day=1.18
DOF Fixed Unfocus Contrast Night=229.100006
DOF Fixed Unfocus Contrast Day=324.540009
DOF Fixed Unfocus Contrast Interior Night=188.509995
DOF Fixed Unfocus Contrast Interior Day=188.509995
DOF Fixed Unfocus Shift Night=-1.02
DOF Fixed Unfocus Shift Day=-1.07
DOF Fixed Unfocus Shift Interior Night=-1.11
DOF Fixed Unfocus Shift Interior Day=-1.11
DOF Fixed Unfocus Blend Night=1.0
DOF Fixed Unfocus Blend Day=1.0
DOF Fixed Unfocus Blend Interior Night=1.0
DOF Fixed Unfocus Blend Interior Day=1.0
DOF Fixed Use Cutoff=false
Disable DOF=false
DOF Gather Blur Radius=12.0
Debug Depth=false
Debug Focus=false
Enable Edgevision=false
Edgevision Fade Contrast Night=2.0
Edgevision Fade Contrast Day=2.0
Edgevision Fade Contrast Interior Night=2.0
Edgevision Fade Contrast Interior Day=2.0
Edgevision Fade Intensity Night=500.0
Edgevision Fade Intensity Day=500.0
Edgevision Fade Intensity Interior Night=500.0
Edgevision Fade Intensity Interior Day=500.0
Edgevision Contrast=0.25
Edgevision Intensity=4.0
Edgevision Radius=1.0
Enable SSAO=false
SSAO Radius=0.05
SSAO Noise=0
SSAO Fade Contrast Night=0.48
SSAO Fade Contrast Day=0.45
SSAO Fade Contrast Interior Night=0.43
SSAO Fade Contrast Interior Day=0.43
SSAO Fade Intensity Night=1.343
SSAO Fade Intensity Day=1.53
SSAO Fade Intensity Interior Night=1.41
SSAO Fade Intensity Interior Day=1.41
SSAO Intensity=1.25
SSAO Contrast=0.65
SSAO Blending=0.8
SSAO Blur=true
SSAO Bilateral Factor=1500.0
SSAO Range=20.0
SSAO Range Min=0.0
SSAO Blur Radius=1.0
Debug SSAO=false
SSAO Use Less Samples=true
SSAO Blur Use Less Samples=true
Sharpen Enable=true
Sharpen Radius=0.8
Sharpen Clamp=0.12
Sharpen Blending=6.0
DOF Bilateral Factor=20.0
DOF Blur Radius=8.0
DOF Minimum Blur=0.01
Focus Mode=1
Enable DOF Fog=false
DOF Fog Intensity Night=2.0
DOF Fog Intensity Day=2.0
DOF Fog Intensity Interior Night=2.0
DOF Fog Intensity Interior Day=2.0
DOF Fog Contrast Night=1000.0
DOF Fog Contrast Day=1000.0
DOF Fog Contrast Interior Night=1000.0
DOF Fog Contrast Interior Day=1000.0
DOF Fog Shift Night=0.0
DOF Fog Shift Day=0.0
DOF Fog Shift Interior Night=0.0
DOF Fog Shift Interior Day=0.0
DOF Fog Blend Night=0.0
DOF Fog Blend Day=0.0
DOF Fog Blend Interior Night=0.0
DOF Fog Blend Interior Day=0.0
Use Only Fixed DOF=false
DOF Blur Chromatic Aberration=1.5
Focus Plane Horizontal Tilt Center=0.5
Focus Plane Vertical Tilt Center=0.5
Focus Plane Horizontal Tilt=0.0
Focus Plane Vertical Tilt=0.0
DOF Fixed Focus Depth=0.0
DOF Fixed Focus Cap=1.0
DOF Fixed Unfocus Depth=0.0

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/*
enblens.fx : MariENB Lens filters.
(C)2013-2017 Marisa Kirisame, UnSX Team.
Part of MariENB, the personal ENB of Marisa.
Released under the GNU GPLv3 (or later).
*/
struct VS_OUTPUT_POST
{
float4 vpos : POSITION;
float2 txcoord0 : TEXCOORD0;
};
struct VS_INPUT_POST
{
float3 pos : POSITION;
float2 txcoord0 : TEXCOORD0;
};
VS_OUTPUT_POST VS_Dummy( VS_INPUT_POST IN )
{
VS_OUTPUT_POST OUT;
OUT.vpos = float4(IN.pos.x,IN.pos.y,IN.pos.z,1.0);
OUT.txcoord0.xy = IN.txcoord0.xy;
return OUT;
}
float4 PS_Dummy( VS_OUTPUT_POST In ) : COLOR
{
return 0.0;
}
technique Draw
{
pass p0
{
VertexShader = compile vs_3_0 VS_Dummy();
PixelShader = compile ps_3_0 PS_Dummy();
ColorWriteEnable = ALPHA|RED|GREEN|BLUE;
CullMode = NONE;
AlphaBlendEnable = FALSE;
AlphaTestEnable = FALSE;
SeparateAlphaBlendEnable = FALSE;
SRGBWriteEnable = FALSE;
}
}
technique LensPostPass
{
pass p0
{
VertexShader = compile vs_3_0 VS_Dummy();
PixelShader = compile ps_3_0 PS_Dummy();
AlphaBlendEnable = TRUE;
SrcBlend = ONE;
DestBlend = ONE;
ColorWriteEnable = RED|GREEN|BLUE;
CullMode = NONE;
AlphaTestEnable = FALSE;
SeparateAlphaBlendEnable = FALSE;
SRGBWriteEnable = FALSE;
}
}

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[ENBLENS.FX]
TECHNIQUE=0

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/*
enbsunsprite.fx : MariENB sun sprite filters.
(C)2013-2017 Marisa Kirisame, UnSX Team.
Part of MariENB, the personal ENB of Marisa.
Released under the GNU GPLv3 (or later).
*/
/* This shader intentionally does nothing */
struct VS_OUTPUT_POST
{
float4 vpos : POSITION;
float2 txcoord : TEXCOORD0;
};
struct VS_INPUT_POST
{
float3 pos : POSITION;
float2 txcoord : TEXCOORD0;
};
VS_OUTPUT_POST VS_Dummy( VS_INPUT_POST IN )
{
VS_OUTPUT_POST OUT;
float4 pos = float4(IN.pos.x,IN.pos.y,IN.pos.z,1.0);
OUT.vpos = pos;
OUT.txcoord.xy = IN.txcoord.xy;
return OUT;
}
float4 PS_Dummy( VS_OUTPUT_POST IN, float2 vPos : VPOS ) : COLOR
{
return 0.0;
}
technique Draw
{
pass P0
{
VertexShader = compile vs_3_0 VS_Dummy();
PixelShader = compile ps_3_0 PS_Dummy();
AlphaBlendEnable = TRUE;
SrcBlend = ONE;
DestBlend = ONE;
ColorWriteEnable = ALPHA|RED|GREEN|BLUE;
DitherEnable = FALSE;
ZEnable = FALSE;
CullMode = NONE;
ALPHATESTENABLE = FALSE;
SEPARATEALPHABLENDENABLE = FALSE;
StencilEnable = FALSE;
FogEnable = FALSE;
SRGBWRITEENABLE = FALSE;
}
}

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[ENBSUNSPRITE.FX]
TECHNIQUE=0

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/*
menbbloomfilters.fx : MariENB bloom shader routines.
(C)2013-2017 Marisa Kirisame, UnSX Team.
Part of MariENB, the personal ENB of Marisa.
Released under the GNU GPLv3 (or later).
*/
VS_OUTPUT_POST VS_Bloom(VS_INPUT_POST IN)
{
VS_OUTPUT_POST OUT;
float4 pos = float4(IN.pos.x,IN.pos.y,IN.pos.z,1);
OUT.vpos = pos;
OUT.txcoord0.xy = IN.txcoord0.xy+TempParameters.xy;
return OUT;
}
/* helper functions */
/* photometric */
#define luminance(x) dot(x,float3(0.2126,0.7152,0.0722))
/* CCIR601 */
//#define luminance(x) dot(x,float3(0.299,0.587,0.114))
float3 rgb2hsv( float3 c )
{
float4 K = float4(0.0,-1.0/3.0,2.0/3.0,-1.0);
float4 p = (c.g<c.b)?float4(c.bg,K.wz):float4(c.gb,K.xy);
float4 q = (c.r<p.x)?float4(p.xyw,c.r):float4(c.r,p.yzx);
float d = q.x-min(q.w,q.y);
float e = 1.0e-10;
return float3(abs(q.z+(q.w-q.y)/(6.0*d+e)),d/(q.x+e),q.x);
}
float3 hsv2rgb( float3 c )
{
float4 K = float4(1.0,2.0/3.0,1.0/3.0,3.0);
float3 p = abs(frac(c.x+K.xyz)*6.0-K.w);
return c.z*lerp(K.x,saturate(p-K.x),c.y);
}
/* pre-pass bloom texture preparation */
float4 PS_BloomPrePass(VS_OUTPUT_POST In) : COLOR
{
float2 coord = In.txcoord0.xy;
float bloomcap = tod_ind(bloomcap);
float bloombump = tod_ind(bloombump);
float bloompower = tod_ind(bloompower);
float bloomsaturation = tod_ind(bloomsaturation);
float bloomintensity = tod_ind(bloomintensity);
float4 res = tex2D(SamplerBloomC1,coord);
float3 hsv = rgb2hsv(res.rgb);
if ( hsv.z > bloomcap ) hsv.z = bloomcap;
res.rgb = hsv2rgb(hsv);
res = max(res+bloombump,0);
hsv = rgb2hsv(res.rgb);
hsv.y = clamp(hsv.y*bloomsaturation,0.0,1.0);
hsv.z = pow(hsv.z,bloompower);
res.rgb = hsv2rgb(hsv)*bloomintensity;
res.a = 1.0;
return res;
}
/* Horizontal blur step goes here */
float4 PS_BloomTexture1(VS_OUTPUT_POST In) : COLOR
{
float2 coord = In.txcoord0.xy;
float4 res = float4(0,0,0,0);
int i;
float sum = 0;
float inc = TempParameters.z*bloomradiusx;
float2 pp;
[unroll] for ( i=-7; i<=7; i++ )
{
pp = coord+float2(i,0)*inc;
res += gauss8[abs(i)]*tex2D(SamplerBloom1,pp);
sum += ((pp.x>=0)&&(pp.x<1))?gauss8[abs(i)]:0;
}
res *= 1.0/sum;
res.a = 1.0;
return res;
}
/* This is the vertical step */
float4 PS_BloomTexture2(VS_OUTPUT_POST In) : COLOR
{
float2 coord = In.txcoord0.xy;
float4 res = float4(0,0,0,0), base = tex2D(SamplerBloom5,coord);
int i;
float sum = 0;
float inc = TempParameters.z*bloomradiusy;
float2 pp;
[unroll] for ( i=-7; i<=7; i++ )
{
pp = coord+float2(0,i)*inc;
res += gauss8[abs(i)]*tex2D(SamplerBloom1,pp);
sum += ((pp.y>=0)&&(pp.y<1))?gauss8[abs(i)]:0;
}
res *= 1.0/sum;
/* blue shift */
float3 blu_n = float3(blu_n_r,blu_n_g,blu_n_b);
float3 blu_d = float3(blu_d_r,blu_d_g,blu_d_b);
float3 blu_in = float3(blu_in_r,blu_in_g,blu_in_b);
float3 blu_id = float3(blu_id_r,blu_id_g,blu_id_b);
float3 blu = tod_ind(blu);
float bsi = tod_ind(bsi);
float lm = clamp(0,1,luminance(res.rgb)-luminance(base.rgb))*bsi;
lm = lm/(1.0+lm);
lm *= 1.0-saturate((TempParameters.w-1.0)*bslp);
blu = saturate(blu+(TempParameters.w-1.0)*bsbp);
res.rgb *= lerp(1.0,blu,lm);
res.a = 1.0;
return res;
}
/*
Horizontal anamorphic bloom step. This is somewhat realistic except that
most lenses (e.g.: glasses, both convex and concave) cause VERTICAL
anamorphic bloom due to their curvature. However since ENB doesn't let me
switch the order of the blurring, it's impossible to do so. I don't really
have a problem with that, this also looks nice.
I've seen that some ENBs do something almost-maybe-possibly-slightly-similar
they call "anamorphic lens flare", which has an ass-backwards-retarded
implementation, which serves to showcase their incompetence. Rather than use
a single-axis massive-scale blur like I do, they simply awkwardly stretch
sampling coordinates along one axis, which doesn't even have the same effect
as it just makes it so bright areas ONLY at the very middle of the screen
produces sharp bright lines extending towards the sides.
*/
float4 PS_AnamPass(VS_OUTPUT_POST In) : COLOR
{
if ( !alfenable ) return float4(0,0,0,1);
float2 coord = In.txcoord0.xy;
float4 res = float4(0,0,0,0), base = tex2D(SamplerBloom5,coord);
int i;
float sum = 0;
float inc = TempParameters.z*bloomradiusx*flen;
float2 pp;
[unroll] for ( i=-79; i<=79; i++ )
{
pp = coord+float2(i,0)*inc;
res += gauss80[abs(i)]*tex2D(SamplerBloom1,pp);
sum += ((pp.x>=0)&&(pp.x<1))?gauss80[abs(i)]:0;
}
res *= 1.0/sum;
/* blue shift */
float3 flu_n = float3(flu_n_r,flu_n_g,flu_n_b);
float3 flu_d = float3(flu_d_r,flu_d_g,flu_d_b);
float3 flu_in = float3(flu_in_r,flu_in_g,flu_in_b);
float3 flu_id = float3(flu_id_r,flu_id_g,flu_id_b);
float3 flu = tod_ind(flu);
float fsi = tod_ind(fsi);
float lm = clamp(0,1,luminance(res.rgb)-luminance(base.rgb))*fsi;
lm = lm/(1.0+lm);
float fbl = tod_ind(fbl);
float fpw = tod_ind(fpw);
res.rgb *= lerp(1.0,flu,lm);
res.rgb = pow(max(0,res.rgb),fpw)*fbl;
res.a = 1.0;
return res;
}
/* end pass, mix it all up */
float4 PS_BloomPostPass(VS_OUTPUT_POST In) : COLOR
{
float2 coord = In.txcoord0.xy;
float4 res = float4(0,0,0,0);
res += bloommix1*tex2D(SamplerBloomC1,coord); // P1
res += bloommix2*tex2D(SamplerBloomC2,coord); // P2
res += bloommix3*tex2D(SamplerBloomC3,coord); // P3
res += bloommix4*tex2D(SamplerBloomC4,coord); // P4
res += bloommix5*tex2D(SamplerBloomC5,coord); // Prepass
res += bloommix6*tex2D(SamplerBloomC6,coord); // Base
res += bloommix7*tex2D(SamplerBloomC7,coord); // P5
res += bloommix8*tex2D(SamplerBloomC8,coord); // P6
res.rgb /= 6.0;
res.rgb = clamp(res.rgb,0,32768);
res.a = 1.0;
return res;
}
/* techniques */
technique BloomPrePass
{
pass p0
{
VertexShader = compile vs_3_0 VS_Bloom();
PixelShader = compile ps_3_0 PS_BloomPrePass();
ColorWriteEnable = ALPHA|RED|GREEN|BLUE;
CullMode = NONE;
AlphaBlendEnable = FALSE;
AlphaTestEnable = FALSE;
SEPARATEALPHABLENDENABLE = FALSE;
FogEnable = FALSE;
SRGBWRITEENABLE = FALSE;
}
}
technique BloomTexture1
{
pass p0
{
VertexShader = compile vs_3_0 VS_Bloom();
PixelShader = compile ps_3_0 PS_BloomTexture1();
ColorWriteEnable = ALPHA|RED|GREEN|BLUE;
CullMode = NONE;
AlphaBlendEnable = FALSE;
AlphaTestEnable = FALSE;
SEPARATEALPHABLENDENABLE = FALSE;
FogEnable = FALSE;
SRGBWRITEENABLE = FALSE;
}
pass p1
{
AlphaBlendEnable = true;
SrcBlend = One;
DestBlend = One;
PixelShader = compile ps_3_0 PS_AnamPass();
}
}
technique BloomTexture2
{
pass p0
{
VertexShader = compile vs_3_0 VS_Bloom();
PixelShader = compile ps_3_0 PS_BloomTexture2();
ColorWriteEnable = ALPHA|RED|GREEN|BLUE;
CullMode = NONE;
AlphaBlendEnable = FALSE;
AlphaTestEnable = FALSE;
SEPARATEALPHABLENDENABLE = FALSE;
FogEnable = FALSE;
SRGBWRITEENABLE = FALSE;
}
}
technique BloomPostPass
{
pass p0
{
VertexShader = compile vs_3_0 VS_Bloom();
PixelShader = compile ps_3_0 PS_BloomPostPass();
ColorWriteEnable = ALPHA|RED|GREEN|BLUE;
CullMode = NONE;
AlphaBlendEnable = FALSE;
AlphaTestEnable = FALSE;
SEPARATEALPHABLENDENABLE = FALSE;
FogEnable = FALSE;
SRGBWRITEENABLE = FALSE;
}
}

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/*
menbbloominternals.fx : MariENB bloom internal variables.
(C)2013-2017 Marisa Kirisame, UnSX Team.
Part of MariENB, the personal ENB of Marisa.
Released under the GNU GPLv3 (or later).
*/
/* mathematical constants */
static const float pi = 3.1415926535898;
/* gaussian blur matrices */
/* radius: 4, std dev: 1.5 */
/*static const float gauss4[4] =
{
0.270682, 0.216745, 0.111281, 0.036633
};*/
/* radius: 8, std dev: 3 */
static const float gauss8[8] =
{
0.134598, 0.127325, 0.107778, 0.081638,
0.055335, 0.033562, 0.018216, 0.008847
};
/* radius: 40, std dev: 15 */
/*static const float gauss40[40] =
{
0.026823, 0.026763, 0.026585, 0.026291,
0.025886, 0.025373, 0.024760, 0.024055,
0.023267, 0.022404, 0.021478, 0.020499,
0.019477, 0.018425, 0.017352, 0.016269,
0.015186, 0.014112, 0.013056, 0.012025,
0.011027, 0.010067, 0.009149, 0.008279,
0.007458, 0.006688, 0.005972, 0.005308,
0.004697, 0.004139, 0.003630, 0.003170,
0.002756, 0.002385, 0.002055, 0.001763,
0.001506, 0.001280, 0.001084, 0.000913
};*/
/* radius: 80, std dev: 30 */
static const float gauss80[80] =
{
0.013406, 0.013398, 0.013376, 0.013339, 0.013287, 0.013221,
0.013140, 0.013046, 0.012938, 0.012816, 0.012681, 0.012534,
0.012375, 0.012205, 0.012023, 0.011831, 0.011629, 0.011417,
0.011198, 0.010970, 0.010735, 0.010493, 0.010245, 0.009992,
0.009735, 0.009473, 0.009209, 0.008941, 0.008672, 0.008402,
0.008131, 0.007860, 0.007590, 0.007321, 0.007053, 0.006788,
0.006525, 0.006266, 0.006010, 0.005759, 0.005511, 0.005269,
0.005031, 0.004799, 0.004573, 0.004352, 0.004138, 0.003929,
0.003727, 0.003532, 0.003343, 0.003160, 0.002985, 0.002816,
0.002653, 0.002497, 0.002348, 0.002205, 0.002068, 0.001938,
0.001814, 0.001696, 0.001584, 0.001478, 0.001377, 0.001282,
0.001192, 0.001107, 0.001027, 0.000952, 0.000881, 0.000815,
0.000753, 0.000694, 0.000640, 0.000589, 0.000542, 0.000497,
0.000456, 0.000418
};
/* standard stuff */
float4 ScreenSize;
float4 TempParameters;
float4 BloomParameters;
float ENightDayFactor;
float EInteriorFactor;
/* samplers and textures */
texture2D texBloom1;
texture2D texBloom2;
texture2D texBloom3;
texture2D texBloom4;
texture2D texBloom5;
texture2D texBloom6;
texture2D texBloom7;
texture2D texBloom8;
sampler2D SamplerBloom1 = sampler_state
{
Texture = <texBloom1>;
MinFilter = LINEAR;
MagFilter = LINEAR;
MipFilter = NONE;
AddressU = Border;
AddressV = Border;
SRGBTexture = FALSE;
MaxMipLevel = 0;
MipMapLodBias = 0;
};
sampler2D SamplerBloom2 = sampler_state
{
Texture = <texBloom2>;
MinFilter = LINEAR;
MagFilter = LINEAR;
MipFilter = NONE;
AddressU = Border;
AddressV = Border;
SRGBTexture = FALSE;
MaxMipLevel = 0;
MipMapLodBias = 0;
};
sampler2D SamplerBloom3 = sampler_state
{
Texture = <texBloom3>;
MinFilter = LINEAR;
MagFilter = LINEAR;
MipFilter = NONE;
AddressU = Border;
AddressV = Border;
SRGBTexture = FALSE;
MaxMipLevel = 0;
MipMapLodBias = 0;
};
sampler2D SamplerBloom4 = sampler_state
{
Texture = <texBloom4>;
MinFilter = LINEAR;
MagFilter = LINEAR;
MipFilter = NONE;
AddressU = Border;
AddressV = Border;
SRGBTexture = FALSE;
MaxMipLevel = 0;
MipMapLodBias = 0;
};
sampler2D SamplerBloom5 = sampler_state
{
Texture = <texBloom5>;
MinFilter = LINEAR;
MagFilter = LINEAR;
MipFilter = NONE;
AddressU = Border;
AddressV = Border;
SRGBTexture = FALSE;
MaxMipLevel = 0;
MipMapLodBias = 0;
};
sampler2D SamplerBloom6 = sampler_state
{
Texture = <texBloom6>;
MinFilter = LINEAR;
MagFilter = LINEAR;
MipFilter = NONE;
AddressU = Border;
AddressV = Border;
SRGBTexture = FALSE;
MaxMipLevel = 0;
MipMapLodBias = 0;
};
sampler2D SamplerBloom7 = sampler_state
{
Texture = <texBloom7>;
MinFilter = LINEAR;
MagFilter = LINEAR;
MipFilter = NONE;
AddressU = Border;
AddressV = Border;
SRGBTexture = FALSE;
MaxMipLevel = 0;
MipMapLodBias = 0;
};
sampler2D SamplerBloom8 = sampler_state
{
Texture = <texBloom8>;
MinFilter = LINEAR;
MagFilter = LINEAR;
MipFilter = NONE;
AddressU = Border;
AddressV = Border;
SRGBTexture = FALSE;
MaxMipLevel = 0;
MipMapLodBias = 0;
};
sampler2D SamplerBloomC1 = sampler_state
{
Texture = <texBloom1>;
MinFilter = LINEAR;
MagFilter = LINEAR;
MipFilter = NONE;
AddressU = Clamp;
AddressV = Clamp;
SRGBTexture = FALSE;
MaxMipLevel = 0;
MipMapLodBias = 0;
};
sampler2D SamplerBloomC2 = sampler_state
{
Texture = <texBloom2>;
MinFilter = LINEAR;
MagFilter = LINEAR;
MipFilter = NONE;
AddressU = Clamp;
AddressV = Clamp;
SRGBTexture = FALSE;
MaxMipLevel = 0;
MipMapLodBias = 0;
};
sampler2D SamplerBloomC3 = sampler_state
{
Texture = <texBloom3>;
MinFilter = LINEAR;
MagFilter = LINEAR;
MipFilter = NONE;
AddressU = Clamp;
AddressV = Clamp;
SRGBTexture = FALSE;
MaxMipLevel = 0;
MipMapLodBias = 0;
};
sampler2D SamplerBloomC4 = sampler_state
{
Texture = <texBloom4>;
MinFilter = LINEAR;
MagFilter = LINEAR;
MipFilter = NONE;
AddressU = Clamp;
AddressV = Clamp;
SRGBTexture = FALSE;
MaxMipLevel = 0;
MipMapLodBias = 0;
};
sampler2D SamplerBloomC5 = sampler_state
{
Texture = <texBloom5>;
MinFilter = LINEAR;
MagFilter = LINEAR;
MipFilter = NONE;
AddressU = Clamp;
AddressV = Clamp;
SRGBTexture = FALSE;
MaxMipLevel = 0;
MipMapLodBias = 0;
};
sampler2D SamplerBloomC6 = sampler_state
{
Texture = <texBloom6>;
MinFilter = LINEAR;
MagFilter = LINEAR;
MipFilter = NONE;
AddressU = Clamp;
AddressV = Clamp;
SRGBTexture = FALSE;
MaxMipLevel = 0;
MipMapLodBias = 0;
};
sampler2D SamplerBloomC7 = sampler_state
{
Texture = <texBloom7>;
MinFilter = LINEAR;
MagFilter = LINEAR;
MipFilter = NONE;
AddressU = Clamp;
AddressV = Clamp;
SRGBTexture = FALSE;
MaxMipLevel = 0;
MipMapLodBias = 0;
};
sampler2D SamplerBloomC8 = sampler_state
{
Texture = <texBloom8>;
MinFilter = LINEAR;
MagFilter = LINEAR;
MipFilter = NONE;
AddressU = Clamp;
AddressV = Clamp;
SRGBTexture = FALSE;
MaxMipLevel = 0;
MipMapLodBias = 0;
};
/* whatever */
struct VS_OUTPUT_POST
{
float4 vpos : POSITION;
float2 txcoord0 : TEXCOORD0;
};
struct VS_INPUT_POST
{
float3 pos : POSITION;
float2 txcoord0 : TEXCOORD0;
};

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/*
menbbloomsettings.fx : MariENB bloom user-tweakable variables.
(C)2013-2017 Marisa Kirisame, UnSX Team.
Part of MariENB, the personal ENB of Marisa.
Released under the GNU GPLv3 (or later).
*/
string str_bloompre = "Bloom Prepass";
/* bloom intensity */
float bloomintensity_n
<
string UIName = "Bloom Intensity Night";
string UIWidget = "Spinner";
float UIMin = 0.0;
> = {1.0};
float bloomintensity_d
<
string UIName = "Bloom Intensity Day";
string UIWidget = "Spinner";
float UIMin = 0.0;
> = {1.0};
float bloomintensity_in
<
string UIName = "Bloom Intensity Interior Night";
string UIWidget = "Spinner";
float UIMin = 0.0;
> = {1.0};
float bloomintensity_id
<
string UIName = "Bloom Intensity Interior Day";
string UIWidget = "Spinner";
float UIMin = 0.0;
> = {1.0};
/* bloom power (contrast) */
float bloompower_n
<
string UIName = "Bloom Contrast Night";
string UIWidget = "Spinner";
float UIMin = 0.0;
> = {1.0};
float bloompower_d
<
string UIName = "Bloom Contrast Day";
string UIWidget = "Spinner";
float UIMin = 0.0;
> = {1.0};
float bloompower_in
<
string UIName = "Bloom Contrast Interior Night";
string UIWidget = "Spinner";
float UIMin = 0.0;
> = {1.0};
float bloompower_id
<
string UIName = "Bloom Contrast Interior Day";
string UIWidget = "Spinner";
float UIMin = 0.0;
> = {1.0};
/* bloom saturation */
float bloomsaturation_n
<
string UIName = "Bloom Saturation Night";
string UIWidget = "Spinner";
> = {0.75};
float bloomsaturation_d
<
string UIName = "Bloom Saturation Day";
string UIWidget = "Spinner";
> = {0.75};
float bloomsaturation_in
<
string UIName = "Bloom Saturation Interior Night";
string UIWidget = "Spinner";
> = {0.75};
float bloomsaturation_id
<
string UIName = "Bloom Saturation Interior Day";
string UIWidget = "Spinner";
> = {0.75};
/* bloom offset (negative values keep dark areas from muddying up) */
float bloombump_n
<
string UIName = "Bloom Offset Night";
string UIWidget = "Spinner";
> = {-0.5};
float bloombump_d
<
string UIName = "Bloom Offset Day";
string UIWidget = "Spinner";
> = {-0.5};
float bloombump_in
<
string UIName = "Bloom Offset Interior Night";
string UIWidget = "Spinner";
> = {-0.5};
float bloombump_id
<
string UIName = "Bloom Offset Interior Day";
string UIWidget = "Spinner";
> = {-0.5};
/* bloom cap (maximum brightness samples can have) */
float bloomcap_n
<
string UIName = "Bloom Intensity Cap Night";
string UIWidget = "Spinner";
> = {20.0};
float bloomcap_d
<
string UIName = "Bloom Intensity Cap Day";
string UIWidget = "Spinner";
> = {20.0};
float bloomcap_in
<
string UIName = "Bloom Intensity Cap Interior Night";
string UIWidget = "Spinner";
> = {20.0};
float bloomcap_id
<
string UIName = "Bloom Intensity Cap Interior Day";
string UIWidget = "Spinner";
> = {20.0};
string str_bloomper = "Bloom Per-pass";
/* bloom blur radius */
float bloomradiusx
<
string UIName = "Bloom Blur Radius X";
string UIWidget = "Spinner";
float UIMin = 0.0;
> = {1.0};
float bloomradiusy
<
string UIName = "Bloom Blur Radius Y";
string UIWidget = "Spinner";
float UIMin = 0.0;
> = {1.0};
/* bloom tint/blueshift parameters */
float blu_n_r
<
string UIName = "Blue Shift Night Red";
string UIWidget = "Spinner";
> = {0.2};
float blu_n_g
<
string UIName = "Blue Shift Night Green";
string UIWidget = "Spinner";
> = {0.6};
float blu_n_b
<
string UIName = "Blue Shift Night Blue";
string UIWidget = "Spinner";
> = {1.0};
float blu_d_r
<
string UIName = "Blue Shift Day Red";
string UIWidget = "Spinner";
> = {0.2};
float blu_d_g
<
string UIName = "Blue Shift Day Green";
string UIWidget = "Spinner";
> = {0.6};
float blu_d_b
<
string UIName = "Blue Shift Day Blue";
string UIWidget = "Spinner";
> = {1.0};
float blu_in_r
<
string UIName = "Blue Shift Interior Night Red";
string UIWidget = "Spinner";
> = {0.2};
float blu_in_g
<
string UIName = "Blue Shift Interior Night Green";
string UIWidget = "Spinner";
> = {0.6};
float blu_in_b
<
string UIName = "Blue Shift Interior Night Blue";
string UIWidget = "Spinner";
> = {1.0};
float blu_id_r
<
string UIName = "Blue Shift Interior Day Red";
string UIWidget = "Spinner";
> = {0.2};
float blu_id_g
<
string UIName = "Blue Shift Interior Day Green";
string UIWidget = "Spinner";
> = {0.6};
float blu_id_b
<
string UIName = "Blue Shift Interior Day Blue";
string UIWidget = "Spinner";
> = {1.0};
float bsi_n
<
string UIName = "Blue Shift Intensity Night";
string UIWidget = "Spinner";
float UIMin = 0.0;
> = {0.5};
float bsi_d
<
string UIName = "Blue Shift Intensity Day";
string UIWidget = "Spinner";
float UIMin = 0.0;
> = {0.5};
float bsi_in
<
string UIName = "Blue Shift Intensity Interior Night";
string UIWidget = "Spinner";
float UIMin = 0.0;
> = {0.5};
float bsi_id
<
string UIName = "Blue Shift Intensity Interior Day";
string UIWidget = "Spinner";
float UIMin = 0.0;
> = {0.5};
float bslp
<
string UIName = "Blue Shift Luminance Factor Per-pass";
string UIWidget = "Spinner";
float UIMin = 0.0;
> = {0.22};
float bsbp
<
string UIName = "Blue Shift Color Factor Per-pass";
string UIWidget = "Spinner";
float UIMin = 0.0;
> = {0.33};
/* anamorphic bloom (very intensive) */
string str_bloomalf = "Anamorphic Bloom";
bool alfenable
<
string UIName = "Enable Anamorphic Bloom";
string UIWidget = "Checkbox";
> = {true};
float fbl_n
<
string UIName = "Anamorphic Bloom Blend Night";
string UIWidget = "Spinner";
float UIMin = 0.0;
> = {0.75};
float fbl_d
<
string UIName = "Anamorphic Bloom Blend Day";
string UIWidget = "Spinner";
float UIMin = 0.0;
> = {0.75};
float fbl_in
<
string UIName = "Anamorphic Bloom Blend Interior Night";
string UIWidget = "Spinner";
float UIMin = 0.0;
> = {0.75};
float fbl_id
<
string UIName = "Anamorphic Bloom Blend Interior Day";
string UIWidget = "Spinner";
float UIMin = 0.0;
> = {0.75};
float flu_n_r
<
string UIName = "Anamorphic Bloom Blue Shift Night Red";
string UIWidget = "Spinner";
> = {0.4};
float flu_n_g
<
string UIName = "Anamorphic Bloom Blue Shift Night Green";
string UIWidget = "Spinner";
> = {0.1};
float flu_n_b
<
string UIName = "Anamorphic Bloom Blue Shift Night Blue";
string UIWidget = "Spinner";
> = {1.0};
float flu_d_r
<
string UIName = "Anamorphic Bloom Blue Shift Day Red";
string UIWidget = "Spinner";
> = {0.5};
float flu_d_g
<
string UIName = "Anamorphic Bloom Blue Shift Day Green";
string UIWidget = "Spinner";
> = {0.1};
float flu_d_b
<
string UIName = "Anamorphic Bloom Blue Shift Day Blue";
string UIWidget = "Spinner";
> = {1.0};
float flu_in_r
<
string UIName = "Anamorphic Bloom Blue Shift Interior Night Red";
string UIWidget = "Spinner";
> = {0.5};
float flu_in_g
<
string UIName = "Anamorphic Bloom Blue Shift Interior Night Green";
string UIWidget = "Spinner";
> = {0.1};
float flu_in_b
<
string UIName = "Anamorphic Bloom Blue Shift Interior Night Blue";
string UIWidget = "Spinner";
> = {1.0};
float flu_id_r
<
string UIName = "Anamorphic Bloom Blue Shift Interior Day Red";
string UIWidget = "Spinner";
> = {0.5};
float flu_id_g
<
string UIName = "Anamorphic Bloom Blue Shift Interior Day Green";
string UIWidget = "Spinner";
> = {0.1};
float flu_id_b
<
string UIName = "Anamorphic Bloom Blue Shift Interior Day Blue";
string UIWidget = "Spinner";
> = {1.0};
float fsi_n
<
string UIName = "Anamorphic Bloom Blue Shift Intensity Night";
string UIWidget = "Spinner";
float UIMin = 0.0;
> = {1.0};
float fsi_d
<
string UIName = "Anamorphic Bloom Blue Shift Intensity Day";
string UIWidget = "Spinner";
float UIMin = 0.0;
> = {1.0};
float fsi_in
<
string UIName = "Anamorphic Bloom Blue Shift Interior Night";
string UIWidget = "Spinner";
float UIMin = 0.0;
> = {1.0};
float fsi_id
<
string UIName = "Anamorphic Bloom Blue Shift Interior Day";
string UIWidget = "Spinner";
float UIMin = 0.0;
> = {1.0};
float fpw_n
<
string UIName = "Anamorphic Bloom Contrast Night";
string UIWidget = "Spinner";
float UIMin = 0.0;
> = {1.0};
float fpw_d
<
string UIName = "Anamorphic Bloom Contrast Day";
string UIWidget = "Spinner";
float UIMin = 0.0;
> = {1.0};
float fpw_in
<
string UIName = "Anamorphic Bloom Contrast Interior Night";
string UIWidget = "Spinner";
float UIMin = 0.0;
> = {1.0};
float fpw_id
<
string UIName = "Anamorphic Bloom Contrast Interior Day";
string UIWidget = "Spinner";
float UIMin = 0.0;
> = {1.0};
float flen
<
string UIName = "Anamorphic Bloom Radius Multiplier";
string UIWidget = "Spinner";
float UIMin = 0.0;
> = {4.0};
string str_bloompost = "Bloom Post-pass";
/* bloom mix factors */
float bloommix1
<
string UIName = "Bloom Pass 1 Blend";
string UIWidget = "Spinner";
> = {0.75};
float bloommix2
<
string UIName = "Bloom Pass 2 Blend";
string UIWidget = "Spinner";
> = {0.8};
float bloommix3
<
string UIName = "Bloom Pass 3 Blend";
string UIWidget = "Spinner";
> = {0.85};
float bloommix4
<
string UIName = "Bloom Pass 4 Blend";
string UIWidget = "Spinner";
> = {0.9};
float bloommix7
<
string UIName = "Bloom Pass 7 Blend";
string UIWidget = "Spinner";
> = {0.95};
float bloommix8
<
string UIName = "Bloom Pass 8 Blend";
string UIWidget = "Spinner";
> = {1.0};
float bloommix5
<
string UIName = "Bloom Prepass Blend";
string UIWidget = "Spinner";
> = {0.0};
float bloommix6
<
string UIName = "Bloom Base Blend";
string UIWidget = "Spinner";
> = {0.0};

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/*
menbeffectfilters.fx : MariENB base shader routines.
(C)2013-2017 Marisa Kirisame, UnSX Team.
Part of MariENB, the personal ENB of Marisa.
Released under the GNU GPLv3 (or later).
*/
VS_OUTPUT_POST VS_Pass( VS_INPUT_POST IN )
{
VS_OUTPUT_POST OUT;
OUT.vpos = float4(IN.pos.x,IN.pos.y,IN.pos.z,1.0);
OUT.txcoord0.xy = IN.txcoord0.xy;
return OUT;
}
#ifdef FALLOUT
float4 _c1 : register(c1);
float4 _c2 : register(c2);
float4 _c19 : register(c19);
float4 _c20 : register(c20);
float4 _c22 : register(c22);
#define _r1 _c1
#define _r2 _c2
#define _r3 _c19
#define _r4 _c20
#define _r5 _c22
/*
FALLOUT REGISTERS
r1 (c1): r2 (c2): r3 (c19):
x -> adapt max x -> unused x -> vibrance
y -> unused y -> unused y -> balancer
z -> unused z -> bloom mix z -> multiplier 1
w -> unused w -> unused w -> multiplier 2
r4 (c20): r5 (c22):
x -> tint red x -> fade red
y -> tint green y -> fade green
z -> tint blue z -> fade blue
w -> tint value w -> fade value
*/
#else
float4 _c1 : register(c1);
float4 _c2 : register(c2);
float4 _c3 : register(c3);
float4 _c4 : register(c4);
float4 _c5 : register(c5);
#define _r1 _c1
#define _r2 _c2
#define _r3 _c3
#define _r4 _c4
#define _r5 _c5
/*
SKYRIM REGISTERS
r1 (c1): r2 (c2): r3 (c3):
x -> adapt max x -> bloom bump (?) x -> vibrance
y -> adapt min y -> bloom mult (?) y -> unused
z -> unused z -> unused z -> multiplier 1
w -> unused w -> unused w -> multiplier 2
r4 (c4): r5 (c5):
x -> tint red x -> fade red
y -> tint green y -> fade green
z -> tint blue z -> fade blue
w -> tint value w -> fade value
*/
#endif
/* helper functions */
/* photometric */
#define luminance(x) dot(x,float3(0.2126,0.7152,0.0722))
/* CCIR601 */
//#define luminance(x) dot(x,float3(0.299,0.587,0.114))
/* overlay blend */
#define overlay(a,b) (a<0.5)?(2.0*a*b):(1.0-(2.0*(1.0-a)*(1.0-b)))
/* "dark mask" blending is something I came up with and can't really explain */
#define darkmask(a,b) (a>0.5)?(2.0*a*(0.5+b)):(1.0-2.0*(1.0-a)*(1.0-((0.5+b))))
float3 rgb2hsv( float3 c )
{
float4 K = float4(0.0,-1.0/3.0,2.0/3.0,-1.0);
float4 p = (c.g<c.b)?float4(c.bg,K.wz):float4(c.gb,K.xy);
float4 q = (c.r<p.x)?float4(p.xyw,c.r):float4(c.r,p.yzx);
float d = q.x-min(q.w,q.y);
float e = 1.0e-10;
return float3(abs(q.z+(q.w-q.y)/(6.0*d+e)),d/(q.x+e),q.x);
}
float3 hsv2rgb( float3 c )
{
float4 K = float4(1.0,2.0/3.0,1.0/3.0,3.0);
float3 p = abs(frac(c.x+K.xyz)*6.0-K.w);
return c.z*lerp(K.x,saturate(p-K.x),c.y);
}
/* "eye adaptation" */
float3 Adaptation( float3 res )
{
float4 adapt = tex2D(_s4,0.5);
float adapts, amin, amax;
adapts = clamp(luminance(adapt.rgb),0.0,50.0);
amin = tod_ind(amin);
amax = tod_ind(amax);
return res/(adapts*amax+amin);
}
/* Uncharted 2 tone mapping */
float3 Uch( float3 res )
{
float A = tod_ind(unA);
float B = tod_ind(unB);
float C = tod_ind(unC);
float D = tod_ind(unD);
float E = tod_ind(unE);
float F = tod_ind(unF);
return ((res*(A*res+C*B)+D*E)/(res*(A*res+B)+D*F))-E/F;
}
float3 TonemapUC2( float3 res )
{
float W = tod_ind(unW);
float3 ucol = Uch(res);
float3 uwhite = Uch(W);
return pow(max(ucol/uwhite,0.0),1.0/2.2);
}
/* Ugly old Reinhard tone mapping */
float3 TonemapReinhard( float3 res )
{
float3 tcol = res/(1+res);
return pow(max(tcol,0.0),1.0/2.2);
}
/* That thing used in watch_dogs */
float3 TonemapHaarmPeterDuiker( float3 res )
{
float3 ld = 0.002;
float linReference = 0.18;
float logReference = 444;
float logGamma = 0.45;
float3 LogColor;
LogColor.rgb = (log10(0.4*res/linReference)/ld*logGamma+logReference)/1023.f;
LogColor.rgb = saturate(LogColor.rgb);
float FilmLutWidth = 256;
float Padding = .5/FilmLutWidth;
float3 retColor;
retColor.r = tex2D(SamplerTonemap,float2(lerp(Padding,1-Padding,LogColor.r),.5)).x;
retColor.g = tex2D(SamplerTonemap,float2(lerp(Padding,1-Padding,LogColor.g),.5)).x;
retColor.b = tex2D(SamplerTonemap,float2(lerp(Padding,1-Padding,LogColor.b),.5)).x;
return retColor;
}
/* Practically nothing */
float3 TonemapLinear( float3 res )
{
return pow(max(res,0.0),1.0/2.2);
}
/* People somehow call this one realistic */
float3 TonemapHejlDawson( float3 res )
{
float3 x = max(0.0,res-0.004);
return (x*(6.2*x+.5))/(x*(6.2*x+1.7)+0.06);
}
/* The standard tonemap from sweetfx */
float3 TonemapSFX( float3 res )
{
float Gamma = tod_ind(sfxgamma);
float Exposure = tod_ind(sfxexposure);
float Saturation = tod_ind(sfxsaturation);
float Bleach = tod_ind(sfxbleach);
float Defog = tod_ind(sfxdefog);
float3 FogColor = float3(tod_ind(sfxfogcolor_r),tod_ind(sfxfogcolor_g),
tod_ind(sfxfogcolor_b));
float3 tcol = res;
tcol = saturate(tcol-Defog*FogColor*2.55);
tcol *= pow(2.0,Exposure);
tcol = pow(tcol,Gamma);
float lum = luminance(tcol);
float L = saturate(1.0*(lum-0.45));
float3 A2 = Bleach*tcol;
float3 res1 = 2.0*tcol*lum;
float3 res2 = 1.0-2.0*(1.0-lum)*(1.0-tcol);
float3 newc = lerp(res1,res2,L);
float3 mixrgb = A2*newc;
tcol += (1.0-A2)*mixrgb;
float3 gray = dot(tcol,1.0/3.0);
float3 diff = tcol-gray;
return (tcol+diff*Saturation)/(1+(diff*Saturation));
}
float3 Tonemap( float3 res )
{
float3 tcol = pow(max(res,0.0),1.0/2.2);
if ( tmapenable == -1 ) return tcol;
res *= tod_ind(tmapexposure);
float tblend = tod_ind(tmapblend);
float3 mapped;
if ( tmapenable == 5 ) mapped = TonemapSFX(res);
else if ( tmapenable == 4 ) mapped = TonemapHaarmPeterDuiker(res);
else if ( tmapenable == 3 ) mapped = TonemapHejlDawson(res);
else if ( tmapenable == 2 ) mapped = TonemapUC2(res);
else if ( tmapenable == 1 ) mapped = TonemapReinhard(res);
else if ( tmapenable == 0 ) mapped = TonemapLinear(res);
return lerp(tcol,mapped,tblend);
}
/* colour grading passes */
float3 GradingRGB( float3 res )
{
float grademul_r = tod_ind(grademul_r);
float grademul_g = tod_ind(grademul_g);
float grademul_b = tod_ind(grademul_b);
float gradepow_r = tod_ind(gradepow_r);
float gradepow_g = tod_ind(gradepow_g);
float gradepow_b = tod_ind(gradepow_b);
float3 grademul = float3(grademul_r,grademul_g,grademul_b);
float3 gradepow = float3(gradepow_r,gradepow_g,gradepow_b);
return pow(max(0,res),gradepow)*grademul;
}
float3 GradingColorize( float3 res )
{
float gradecol_r = tod_ind(gradecol_r);
float gradecol_g = tod_ind(gradecol_g);
float gradecol_b = tod_ind(gradecol_b);
float gradecolfact = tod_ind(gradecolfact);
float3 gradecol = float3(gradecol_r,gradecol_g,gradecol_b);
float tonev = luminance(res);
float3 tonecolor = gradecol*tonev;
return res*(1.0-gradecolfact)+tonecolor*gradecolfact;
}
float3 GradingHSV( float3 res )
{
float gradesatmul = tod_ind(gradesatmul);
float gradesatpow = tod_ind(gradesatpow);
float gradevalmul = tod_ind(gradevalmul);
float gradevalpow = tod_ind(gradevalpow);
float3 hsv = rgb2hsv(res);
hsv.y = clamp(pow(max(0,hsv.y),gradesatpow)*gradesatmul,0.0,1.0);
hsv.z = pow(max(0,hsv.z),gradevalpow)*gradevalmul;
return hsv2rgb(hsv);
}
/* game grading filters */
float3 GradingGame( float3 res )
{
/*
Skyrim method depends explicitly on vanilla eye adaptation which is
ass as I still CANNOT EVEN UNDERSTAND how the hell it's calculated
just from a mess of disassembled code.
*/
float3 tgray = luminance(res);
/* saturation */
float satv = (_r3.x<0.0)?(-pow(abs(_r3.x),vsatpow)*vsatmul)
:(pow(max(_r3.x,0.0),vsatpow)*vsatmul);
float3 tcol = res*satv + tgray*(1.0-satv);
tcol = lerp(res,tcol,vsatblend);
/* tint */
float tintv = (_r4.w<0.0)?(-pow(abs(_r4.w),vtintpow)*vtintmul)
:(pow(max(_r4.w,0.0),vtintpow)*vtintmul);
tcol = tintv*(tgray*_r4.rgb-tcol)+tcol;
tcol = lerp(res,tcol,vtintblend);
/* contrast(?) stuff */
#ifdef FALLOUT
float oft = _r3.y;
#else
/* TODO figure the offset thingy for Skyrim someday */
float oft = 0.0;
#endif
tcol = max(0,(tcol*_r3.w-oft)*_r3.z+oft);
tcol = lerp(res,tcol,vconblend);
return tcol;
}
/*
vanilla imagespace rough interpretation, just in case you don't believe
me when I say I cannot understand
c6 -> 0 0 0 0
c7 -> 0.2125 0.7154 0.0721 1
c6 is used in a cmp instruction
c7 xyz is in a dot product, so we can assume it's a
luminance calculation
c7 w is used in some mad instructions as the "add"
component, I wonder why
s0 is diffuse
s1 is bloom
s2 is adaptation
code
rcp r0.x,c2.y
r0.x now contains 1.0/c2.y (this is one of the bloom params)
texld r1, v0, s2
r1 contains the adaptation texture now
mul r0.yz, r1.xxyw, c1.y
r0.yz for some reason contains adaptation's xxyw (wat)
multiplied by adapt min
rcp r0.w, r0.y
r0.w is now 1.0/r0.y (again, I don't know what's going on)
mul r0.z, r0.w, r0.z
r0.z *= r0.w, really don't know where this is going since
I SERIOUSLY have no idea what all the adaptation texture
channels do
this is where adaptation ends and bloom stuff starts
results:
r0.x is 1.0/c2.y
r0.y is ... I don't even know anymore, what the heck
r0.z is ... I'm at a loss here too
r0.w is 1.0/r0.y and I don't even know what r0.y is anyway
r1 still contains the adaptation texture
texld r1, v0, s1
oh, here the bloom texture is loaded to r1
mul r1.xyz,r1,c1.y
multiplies bloom rgb by adaptation min
dp3 r0.w, c7, r1
r0.w contains the luminance of bloom
mul r1.w, r0.w, r0.z
multiplies the luminance by whatever was calculated from
all the adaptation stuff
mad r0.z, r0.z, r0.w, c7.w
r0.z now contains r0.z multiplied by the original luminance
plus one
rcp r0.z, r0.z
r0.z is now 1.0/r0.z
mad r0.x, r1.w, r0.x, c7.w
r0.x is now r1.w * r0.x + 1
r0.x previously contained 1.0/c2.y, so this would be
r1.w*(1.0/c2.y)+1 (no idea)
mul r0.x,r0.x,r1.w
r0.x changes again by multiplying it by r1.w (luminance?)
mul r0.x,r0.z,r0.x
here it gets multiplied by r0.z, which I HAVE NO IDEA what
it is
cmp r0.x,-r0.w,c6.x,r0.x
r0.x contains c6.x if -r0.w >= 0, otherwise it's unchanged
I'm only getting more confused at this point
rcp r0.z,r0.w
great, now we get the inverse of luminance to r0.z
mul r0.z,r0.z,r0.x
r0.z is multiplied by r0.x
add_sat r0.x,-r0.x,c2.x
r0.x now contains c2.x-r0.x, all of this is saturated
I seriously don't know where this is going
now it finally loads the diffuse
results:
r0.x is some sort of brightness modifier (?)
r0.y never changed, and I still have no clue what it does
r0.z is the inverse of bloom texture luminance
r0.w is the bloom luminance
r1 contains the bloom texture and something luminance-related
on the alpha channel
texld r2, v0, s0
loads diffuse onto r2
mul r2.xyz, r2, c1.y
adjusts diffuse by adaptation min
mul r2.xyz, r0.x, r2
adjusts the brightness again from the bloom "section"
mad r1.xyz, r1, r0.z, r2
adds the bloom into diffuse using r0.z as the opacity,
r1 now contains the blend, goodbye adaptation texture
dp3 r0.x, r1, c7
calculates the luminance of the diffuse+bloom, put in r0.x
mov r1.w, c7.w
r1.w is set to one
lrp r2, c3.x, r1, r0.x
r2 contains lerp(r0.x,r1,c3.x)
c3.x is a vibrance/saturation factor
OK this is at least very simple
mad r1, r0.x, c4, -r2
r1 is r0.x*c4-r2
first instruction of tint filter
mad r1, c4.w, r1, r2
r1 is now c4.w*r1+r2
second instruction of tint filter
combining the two, we get
r1 = c4.w*(r0.x*c4-r2)+r2
I thought tinting was a simple lerp, but nope
mad r1, c3.w, r1, -r0.y
r1 is c3.w*r1-r0.y
this is one of the contrast instructions, and it's where the
whole adaptation mess comes from, since I have NO IDEA
what r0.y contains
mad r0, c3.z, r1, r0.y
r0 is now c3.z*r1+r0.y
the second contrast instruction, really at a loss here
whole thing would be
r0 = c3.z*(c3.w*r1-r0.y)+r0.y
add r1, -r0, c5
r1 contains c5-r0
c5 is the fade parameters
mad oC0, c5.w, r1, r0
the final output color is c5.w*r1+r0
so... oC0 = c5.w*(c5-r0)+r0
I'm confused, this is also not a simple lerp, oh well?
verdict: I HAVE NO IDEA WHAT r0.y CONTAINS, DAMN IT
*/
/* LUT colour grading */
float3 GradingLUT( float3 res )
{
/*
gross hacks were needed to "fix" the way direct3d interpolates on
sampling, and to manually interpolate on the blue channel
this could be alleviated if I could have all the LUTs as 64 separate
volume maps, but PS 3.0 has a limit of 16 samplers and I think ENB
can't load volume maps anyway.
*/
#ifdef LUTMODE_LEGACY
float3 tcol = clamp(res,0.08,0.92);
tcol.rg = tcol.rg*0.5+0.25;
float2 lc1 = float2(tcol.r/16.0+floor(tcol.b*16.0)/16.0,tcol.g/64.0);
float2 lc2 = float2(tcol.r/16.0+ceil(tcol.b*16.0)/16.0,tcol.g/64.0);
float dec = (ceil(tcol.b*16.0)==16.0)?(0.0):frac(tcol.b*16.0);
/* night samples */
float3 tcl1_n = tex2D(SamplerLUT,lc1+float2(0,clut_n/64.0));
float3 tcl2_n = tex2D(SamplerLUT,lc2+float2(0,clut_n/64.0));
/* day samples */
float3 tcl1_d = tex2D(SamplerLUT,lc1+float2(0,clut_d/64.0));
float3 tcl2_d = tex2D(SamplerLUT,lc2+float2(0,clut_d/64.0));
/* interior night samples */
float3 tcl1_in = tex2D(SamplerLUT,lc1+float2(0,clut_in/64.0));
float3 tcl2_in = tex2D(SamplerLUT,lc2+float2(0,clut_in/64.0));
/* interior day samples */
float3 tcl1_id = tex2D(SamplerLUT,lc1+float2(0,clut_id/64.0));
float3 tcl2_id = tex2D(SamplerLUT,lc2+float2(0,clut_id/64.0));
#else
#ifdef LUTMODE_16
float3 tcol = clamp(res,0.08,0.92);
tcol.rg = tcol.rg*0.5+0.25;
float2 lc1 = float2(tcol.r,tcol.g/16.0+floor(tcol.b*16.0)/16.0);
float2 lc2 = float2(tcol.r,tcol.g/16.0+ceil(tcol.b*16.0)/16.0);
float dec = (ceil(tcol.b*16.0)==16.0)?(0.0):frac(tcol.b*16.0);
#endif
#ifdef LUTMODE_64
float3 tcol = clamp(res,0.02,0.98);
tcol.rg = tcol.rg*0.5+0.25;
float2 lc1 = float2(tcol.r,tcol.g/64.0+floor(tcol.b*64.0)/64.0);
float2 lc2 = float2(tcol.r,tcol.g/64.0+ceil(tcol.b*64.0)/64.0);
float dec = (ceil(tcol.b*64.0)==64.0)?(0.0):frac(tcol.b*64.0);
#endif
/* night samples */
float3 tcl1_n = tex2D(SamplerLUTN,lc1);
float3 tcl2_n = tex2D(SamplerLUTN,lc2);
/* day samples */
float3 tcl1_d = tex2D(SamplerLUTD,lc1);
float3 tcl2_d = tex2D(SamplerLUTD,lc2);
/* interior night samples */
float3 tcl1_in = tex2D(SamplerLUTIN,lc1);
float3 tcl2_in = tex2D(SamplerLUTIN,lc2);
/* interior day samples */
float3 tcl1_id = tex2D(SamplerLUTID,lc1);
float3 tcl2_id = tex2D(SamplerLUTID,lc2);
#endif
float3 tcl1 = tod_ind(tcl1);
float3 tcl2 = tod_ind(tcl2);
tcol = lerp(tcl1,tcl2,dec);
float lutblend = tod_ind(lutblend);
return lerp(res,tcol,lutblend);
}
/* classic ENB palette colour grading, seems to kill dark and light values */
float3 GradingPal( float3 res )
{
float4 adapt = tex2D(_s4,0.5);
adapt = adapt/(adapt+1.0);
float adapts = max(adapt.r,max(adapt.g,adapt.b));
float3 palt;
float2 coord;
coord.y = adapts;
coord.x = res.r;
palt.r = tex2D(_s7,coord).r;
coord.x = res.g;
palt.g = tex2D(_s7,coord).g;
coord.x = res.b;
palt.b = tex2D(_s7,coord).b;
return lerp(res,palt,palblend);
}
/* I think this Technicolor implementation is correct... maybe */
float3 Technicolor( float3 res )
{
res = clamp(res,0.0,1.0);
float red = 1.0-(res.r-(res.g+res.b)*0.5);
float green = 1.0-(res.g-(res.r+res.b)*0.5);
float blue = 1.0-(res.b-(res.r+res.g)*0.5);
float3 tint = float3(green*blue,red*blue,red*green)*res;
return lerp(res,res+0.5*(tint-res),techblend);
}
/* post-pass dithering, something apparently only my ENB does */
float3 Dither( float3 res, float2 coord )
{
float2 rcoord = coord*float2(ScreenSize.x,ScreenSize.x*ScreenSize.w);
float3 col = res;
float dml = (1.0/256.0);
if ( dither == 1 )
col += ordered2[int(rcoord.x%2)+2*int(rcoord.y%2)]*dml-0.5*dml;
else if ( dither == 2 )
col += ordered8[int(rcoord.x%8)+8*int(rcoord.y%8)]*dml-0.5*dml;
else col += checkers[int(rcoord.x%2)+2*int(rcoord.y%2)]*dml-0.5*dml;
col = (trunc(col*256.0)/256.0);
return col;
}
/* Fuzzy */
float3 FilmGrain( float3 res, float2 coord )
{
float ts = Timer.x*nf;
float2 tcs = coord.xy;
float2 s1 = tcs+float2(0,ts);
float2 s2 = tcs+float2(ts,0);
float2 s3 = tcs+float2(ts,ts);
float n1, n2, n3;
float2 nr = float2(ScreenSize.x,ScreenSize.x*ScreenSize.w)/256.0;
/*
There are two methods of making noise here:
1. two-pass algorithm that produces a particular fuzz complete with
a soft horizontal tear, reminiscent of old TV static.
2. simple version that has very noticeable tiling and visible
scrolling at low speeds
*/
if ( np )
{
n1 = tex2D(SamplerNoise2,s1*nm11*nr).r;
n2 = tex2D(SamplerNoise2,s2*nm12*nr).g;
n3 = tex2D(SamplerNoise2,s3*nm13*nr).b;
s1 = tcs+float2(ts+n1*nk,n2*nk);
s2 = tcs+float2(n2,ts+n3*nk);
s3 = tcs+float2(ts+n3*nk,ts+n1*nk);
n1 = tex2D(SamplerNoise2,s1*nm21*nr).r;
n2 = tex2D(SamplerNoise2,s2*nm22*nr).g;
n3 = tex2D(SamplerNoise2,s3*nm23*nr).b;
}
else
{
n1 = tex2D(SamplerNoise3,s1*nm1*nr).r;
n2 = tex2D(SamplerNoise3,s2*nm2*nr).g;
n3 = tex2D(SamplerNoise3,s3*nm3*nr).b;
}
float n4 = (n1+n2+n3)/3;
float3 ng = float3(n4,n4,n4);
float3 nc = float3(n1,n2,n3);
float3 nt = pow(clamp(lerp(ng,nc,ns),0.0,1.0),nj);
if ( nb == 1 ) return res+nt*ni*0.01;
if ( nb == 2 ) return overlay(res,(nt*ni*0.01));
if ( nb == 3 )
{
float bn = 1.0-saturate((res.r+res.g+res.b)/3.0);
bn = pow(bn,bnp);
float3 nn = saturate(nt*bn);
return darkmask(res,(nn*ni*0.01));
}
return lerp(res,nt,ni*0.01);
}
/* MariENB shader */
float4 PS_Mari( VS_OUTPUT_POST IN, float2 vPos : VPOS ) : COLOR
{
float2 coord = IN.txcoord0.xy;
float4 res = tex2D(_s0,coord);
res.rgb = pow(max(res.rgb,0.0),2.2);
float3 bcol = tex2D(_s3,coord).rgb*EBloomAmount;
if ( bloomdebug ) res.rgb *= 0;
res.rgb += bcol;
if ( aenable ) res.rgb = Adaptation(res.rgb);
if ( nbt && ne ) res.rgb = FilmGrain(res.rgb,coord);
res.rgb = Tonemap(res.rgb);
if ( vgradeenable ) res.rgb = GradingGame(res.rgb);
if ( gradeenable1 ) res.rgb = GradingRGB(res.rgb);
if ( colorizeafterhsv )
{
if ( gradeenable3 ) res.rgb = GradingHSV(res.rgb);
if ( gradeenable2 ) res.rgb = GradingColorize(res.rgb);
}
else
{
if ( gradeenable2 ) res.rgb = GradingColorize(res.rgb);
if ( gradeenable3 ) res.rgb = GradingHSV(res.rgb);
}
if ( lutenable ) res.rgb = GradingLUT(res.rgb);
if ( palenable ) res.rgb = GradingPal(res.rgb);
if ( techenable ) res.rgb = Technicolor(res.rgb);
if ( !nbt && ne ) res.rgb = FilmGrain(res.rgb,coord);
#ifdef FALLOUT
res.rgb = _r5.rgb*_r5.a + res.rgb*(1.0-_r5.a);
#else
res.rgb = _r5.w*(_r5.rgb-res.rgb)+res.rgb;
#endif
if ( dodither ) res.rgb = Dither(res.rgb,coord);
res.rgb = max(0,res.rgb);
res.a = 1.0;
return res;
}
/*
So... let me get this straight... rather than simply switching techniques,
Boris just compiles the program twice with and without this macro, then
toggling "UseEffect" switches between each variation? Wat?
*/
#ifndef ENB_FLIPTECHNIQUE
#ifdef FALLOUT
technique Shader_C1DAE3F7
#else
technique Shader_D6EC7DD1
#endif
#else
technique Shader_ORIGINALPOSTPROCESS
#endif
{
pass p0
{
VertexShader = compile vs_3_0 VS_Pass();
PixelShader = compile ps_3_0 PS_Mari();
ColorWriteEnable = ALPHA|RED|GREEN|BLUE;
ZEnable = FALSE;
ZWriteEnable = FALSE;
CullMode = NONE;
AlphaTestEnable = FALSE;
AlphaBlendEnable = FALSE;
SRGBWRITEENABLE = FALSE;
}
}
#ifndef ENB_FLIPTECHNIQUE
technique Shader_ORIGINALPOSTPROCESS
#else
#ifdef FALLOUT
technique Shader_C1DAE3F7
#else
technique Shader_D6EC7DD1
#endif
#endif
{
pass p0
{
#ifdef FALLOUT
VertexShader = asm
{
vs_1_1
def c3,2,-2,0,0
dcl_position v0
dcl_texcoord v1
mov r0.xy,c0
mad oPos.xy,r0,-c3,v0
add oT0.xy,v1,c1
add oT1.xy,v1,c2
mov oPos.zw,v0
};
#else
VertexShader = compile vs_3_0 VS_Pass();
#endif
/* >inline assembly */
PixelShader = asm
{
#ifdef FALLOUT
ps_2_x
def c0,0.5,0,0,0
def c3,0.298999995,0.587000012,0.114,0
dcl t0.xy
dcl t1.xy
dcl_2d s0
dcl_2d s1
texld r0,t1,s1
texld r1,t0,s0
max r0.w,r1.w,c1.x
rcp r0.w,r0.w
mul r1.w,r0.w,c0.x
mul r0.w,r0.w,c1.x
mul r1.xyz,r1,r1.w
max r2.xyz,r1,c0.y
mad r0.xyz,r0.w,r0,r2
dp3 r0.w,r0,c3
lrp r1.xyz,c19.x,r0,r0.w
mad r0.xyz,r0.w,c20,-r1
mad r0.xyz,c20.w,r0,r1
mad r0.xyz,c19.w,r0,-c19.y
mad r0.xyz,c19.z,r0,c19.y
lrp r1.xyz,c22.w,c22,r0
mov r1.w,c2.z
mov oC0,r1
#else
ps_3_0
def c6,0,0,0,0
def c7,0.212500006,0.715399981,0.0720999986,1
dcl_texcoord v0.xy
dcl_2d s0
dcl_2d s1
dcl_2d s2
rcp r0.x,c2.y
texld r1,v0,s2
mul r0.yz,r1.xxyw,c1.y
rcp r0.w,r0.y
mul r0.z,r0.w,r0.z
texld r1,v0,s1
mul r1.xyz,r1,c1.y
dp3 r0.w,c7,r1
mul r1.w,r0.w,r0.z
mad r0.z,r0.z,r0.w,c7.w
rcp r0.z,r0.z
mad r0.x,r1.w,r0.x,c7.w
mul r0.x,r0.x,r1.w
mul r0.x,r0.z,r0.x
cmp r0.x,-r0.w,c6.x,r0.x
rcp r0.z,r0.w
mul r0.z,r0.z,r0.x
add_sat r0.x,-r0.x,c2.x
texld r2,v0,s0
mul r2.xyz,r2,c1.y
mul r2.xyz,r0.x,r2
mad r1.xyz,r1,r0.z,r2
dp3 r0.x,r1,c7
mov r1.w,c7.w
lrp r2,c3.x,r1,r0.x
mad r1,r0.x,c4,-r2
mad r1,c4.w,r1,r2
mad r1,c3.w,r1,-r0.y
mad r0,c3.z,r1,r0.y
add r1,-r0,c5
mad oC0,c5.w,r1,r0
#endif
};
ColorWriteEnable = ALPHA|RED|GREEN|BLUE;
ZEnable = FALSE;
ZWriteEnable = FALSE;
CullMode = NONE;
AlphaTestEnable = FALSE;
AlphaBlendEnable = FALSE;
SRGBWRITEENABLE = FALSE;
}
}

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/*
menbeffectinternals.fx : MariENB base internal variables.
(C)2013-2017 Marisa Kirisame, UnSX Team.
Part of MariENB, the personal ENB of Marisa.
Released under the GNU GPLv3 (or later).
*/
/*
dithering threshold maps
don't touch unless you know what you're doing
*/
static const float checkers[4] =
{
1.0,0.0,
0.0,1.0
};
#define d(x) x/4.0
static const float ordered2[4] =
{
d(0),d(2),
d(4),d(2)
};
#undef d
#define d(x) x/64.0
static const float ordered8[64] =
{
d( 0),d(48),d(12),d(60),d( 3),d(51),d(15),d(63),
d(32),d(16),d(44),d(28),d(35),d(19),d(47),d(31),
d( 8),d(56),d( 4),d(52),d(11),d(59),d( 7),d(55),
d(40),d(24),d(36),d(20),d(43),d(27),d(39),d(23),
d( 2),d(50),d(14),d(62),d( 1),d(49),d(13),d(61),
d(34),d(18),d(46),d(30),d(33),d(17),d(45),d(29),
d(10),d(58),d( 6),d(54),d( 9),d(57),d( 5),d(53),
d(42),d(26),d(38),d(22),d(41),d(25),d(37),d(21)
};
#undef d
/* standard stuff */
float4 ScreenSize;
float4 Timer;
float ENightDayFactor;
float EInteriorFactor;
float EBloomAmount;
/* samplers and textures */
texture2D texs0;
texture2D texs1;
texture2D texs2;
texture2D texs3;
texture2D texs4;
texture2D texs7;
texture2D texNoise2
<
string ResourceName = "menbnoise1.png";
>;
texture2D texNoise3
<
string ResourceName = "menbnoise2.png";
>;
#ifdef LUTMODE_LEGACY
texture2D texLUT
<
string ResourceName = "menblutpreset.png";
>;
#else
texture2D texLUTN
<
#ifdef LUTMODE_16
string ResourceName = "menblut16_night.png";
#endif
#ifdef LUTMODE_64
string ResourceName = "menblut64_night.png";
#endif
>;
texture2D texLUTD
<
#ifdef LUTMODE_16
string ResourceName = "menblut16_day.png";
#endif
#ifdef LUTMODE_64
string ResourceName = "menblut64_day.png";
#endif
>;
texture2D texLUTIN
<
#ifdef LUTMODE_16
string ResourceName = "menblut16_interiornight.png";
#endif
#ifdef LUTMODE_64
string ResourceName = "menblut64_interiornight.png";
#endif
>;
texture2D texLUTID
<
#ifdef LUTMODE_16
string ResourceName = "menblut16_interiorday.png";
#endif
#ifdef LUTMODE_64
string ResourceName = "menblut64_interiorday.png";
#endif
>;
#endif
texture2D texTonemap
<
string ResourceName = "menbfilmlut.png";
>;
sampler2D _s0 = sampler_state
{
Texture = <texs0>;
MinFilter = LINEAR;
MagFilter = LINEAR;
MipFilter = NONE;
AddressU = Clamp;
AddressV = Clamp;
SRGBTexture = FALSE;
MaxMipLevel = 0;
MipMapLodBias = 0;
};
sampler2D _s1 = sampler_state
{
Texture = <texs1>;
MinFilter = LINEAR;
MagFilter = LINEAR;
MipFilter = NONE;
AddressU = Clamp;
AddressV = Clamp;
SRGBTexture = FALSE;
MaxMipLevel = 0;
MipMapLodBias = 0;
};
sampler2D _s2 = sampler_state
{
Texture = <texs2>;
MinFilter = LINEAR;
MagFilter = LINEAR;
MipFilter = NONE;
AddressU = Clamp;
AddressV = Clamp;
SRGBTexture = FALSE;
MaxMipLevel = 0;
MipMapLodBias = 0;
};
sampler2D _s3 = sampler_state
{
Texture = <texs3>;
MinFilter = LINEAR;
MagFilter = LINEAR;
MipFilter = NONE;
AddressU = Clamp;
AddressV = Clamp;
SRGBTexture = FALSE;
MaxMipLevel = 0;
MipMapLodBias = 0;
};
sampler2D _s4 = sampler_state
{
Texture = <texs4>;
MinFilter = LINEAR;
MagFilter = LINEAR;
MipFilter = NONE;
AddressU = Clamp;
AddressV = Clamp;
SRGBTexture = FALSE;
MaxMipLevel = 0;
MipMapLodBias = 0;
};
sampler2D _s7 = sampler_state
{
Texture = <texs7>;
MinFilter = LINEAR;
MagFilter = LINEAR;
MipFilter = NONE;
AddressU = Clamp;
AddressV = Clamp;
SRGBTexture = FALSE;
MaxMipLevel = 0;
MipMapLodBias = 0;
};
sampler2D SamplerNoise2 = sampler_state
{
Texture = <texNoise2>;
MinFilter = LINEAR;
MagFilter = POINT;
MipFilter = NONE;
AddressU = Wrap;
AddressV = Wrap;
SRGBTexture = FALSE;
MaxMipLevel = 0;
MipMapLodBias = 0;
};
sampler2D SamplerNoise3 = sampler_state
{
Texture = <texNoise3>;
MinFilter = LINEAR;
MagFilter = LINEAR;
MipFilter = NONE;
AddressU = Wrap;
AddressV = Wrap;
SRGBTexture = FALSE;
MaxMipLevel = 0;
MipMapLodBias = 0;
};
#ifdef LUTMODE_LEGACY
sampler2D SamplerLUT = sampler_state
{
Texture = <texLUT>;
MinFilter = LINEAR;
MagFilter = LINEAR;
MipFilter = NONE;
AddressU = Clamp;
AddressV = Clamp;
SRGBTexture = FALSE;
MaxMipLevel = 0;
MipMapLodBias = 0;
};
#else
sampler2D SamplerLUTN = sampler_state
{
Texture = <texLUTN>;
MinFilter = LINEAR;
MagFilter = LINEAR;
MipFilter = NONE;
AddressU = Clamp;
AddressV = Clamp;
SRGBTexture = FALSE;
MaxMipLevel = 0;
MipMapLodBias = 0;
};
sampler2D SamplerLUTD = sampler_state
{
Texture = <texLUTD>;
MinFilter = LINEAR;
MagFilter = LINEAR;
MipFilter = NONE;
AddressU = Clamp;
AddressV = Clamp;
SRGBTexture = FALSE;
MaxMipLevel = 0;
MipMapLodBias = 0;
};
sampler2D SamplerLUTIN = sampler_state
{
Texture = <texLUTIN>;
MinFilter = LINEAR;
MagFilter = LINEAR;
MipFilter = NONE;
AddressU = Clamp;
AddressV = Clamp;
SRGBTexture = FALSE;
MaxMipLevel = 0;
MipMapLodBias = 0;
};
sampler2D SamplerLUTID = sampler_state
{
Texture = <texLUTID>;
MinFilter = LINEAR;
MagFilter = LINEAR;
MipFilter = NONE;
AddressU = Clamp;
AddressV = Clamp;
SRGBTexture = FALSE;
MaxMipLevel = 0;
MipMapLodBias = 0;
};
#endif
sampler2D SamplerTonemap = sampler_state
{
Texture = <texTonemap>;
MinFilter = LINEAR;
MagFilter = LINEAR;
MipFilter = NONE;
AddressU = Clamp;
AddressV = Clamp;
SRGBTexture = FALSE;
MaxMipLevel = 0;
MipMapLodBias = 0;
};
/* whatever */
struct VS_OUTPUT_POST
{
float4 vpos : POSITION;
float2 txcoord0 : TEXCOORD0;
};
struct VS_INPUT_POST
{
float3 pos : POSITION;
float2 txcoord0 : TEXCOORD0;
};

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/*
menbextrafilters.fx : MariENB extra shader routines.
(C)2013-2017 Marisa Kirisame, UnSX Team.
Part of MariENB, the personal ENB of Marisa.
Released under the GNU GPLv3 (or later).
*/
VS_OUTPUT_POST VS_Pass( VS_INPUT_POST IN )
{
VS_OUTPUT_POST OUT;
OUT.vpos = float4(IN.pos.x,IN.pos.y,IN.pos.z,1.0);
OUT.txcoord.xy = IN.txcoord.xy;
return OUT;
}
/* helpers */
/* photometric */
#define luminance(x) dot(x,float3(0.2126,0.7152,0.0722))
/* CCIR601 */
//#define luminance(x) dot(x,float3(0.299,0.587,0.114))
float3 rgb2hsv( float3 c )
{
float4 K = float4(0.0,-1.0/3.0,2.0/3.0,-1.0);
float4 p = (c.g<c.b)?float4(c.bg,K.wz):float4(c.gb,K.xy);
float4 q = (c.r<p.x)?float4(p.xyw,c.r):float4(c.r,p.yzx);
float d = q.x-min(q.w,q.y);
float e = 1.0e-10;
return float3(abs(q.z+(q.w-q.y)/(6.0*d+e)),d/(q.x+e),q.x);
}
float3 hsv2rgb( float3 c )
{
float4 K = float4(1.0,2.0/3.0,1.0/3.0,3.0);
float3 p = abs(frac(c.x+K.xyz)*6.0-K.w);
return c.z*lerp(K.x,saturate(p-K.x),c.y);
}
/* prepass */
float4 ReducePrepass( in float4 col, in float2 coord )
{
float3 hsv = rgb2hsv(col);
hsv.y = clamp(hsv.y*bsaturation,0.0,1.0);
hsv.z = pow(max(0,hsv.z),bgamma);
col.rgb = hsv2rgb(saturate(hsv));
if ( dither == 0 )
col += bdbump+checkers[int(coord.x%2)+2*int(coord.y%2)]*bdmult;
else if ( dither == 1 )
col += bdbump+ordered2[int(coord.x%2)+2*int(coord.y%2)]*bdmult;
else if ( dither == 2 )
col += bdbump+ordered8[int(coord.x%8)+8*int(coord.y%8)]*bdmult;
col = saturate(col);
return col;
}
/*
CGA had seven graphic modes (320x200 modes have low/high contrast versions):
- 640x200 monochrome, which doesn't really need a palette here, as it can
be done procedurally with minimum effort.
- 320x200 black/cyan/magenta/white
- 320x200 black/green/red/brown
- 320x200 black/cyan/red/white
*/
float4 ReduceCGA( in float4 color, in float2 coord )
{
float4 dac = clamp(ReducePrepass(color,coord),0.02,0.98);
float2 lc = float2((dac.r+cgapal)/7.0,
dac.g/64.0+floor(dac.b*64.0)/64.0);
return tex2D(SamplerCGA,lc);
}
/*
EGA technically only had a fixed 16-colour palette, but when VGA came out,
it was possible to tweak the DAC, allowing for custom palettes.
AOS EGA is a palette based on my terminal colour scheme on Linux, which I
also use for AliceOS.
*/
float4 ReduceEGA( in float4 color, in float2 coord )
{
float4 dac = clamp(ReducePrepass(color,coord),0.02,0.98);
float2 lc = float2((dac.r+egapal)/2.0,
dac.g/64.0+floor(dac.b*64.0)/64.0);
return tex2D(SamplerEGA,lc);
}
/* A two bits per channel mode that can usually fit VGA mode 13h and mode x */
float4 ReduceRGB2( in float4 color, in float2 coord )
{
float4 dac = ReducePrepass(color,coord);
color.rgb = trunc(dac.rgb*4.0)/4.0;
return color;
}
/*
The classic 16-bit colour mode everyone from my generation would remember,
especially that subtle green tint and the banding due to lack of dithering
in most games and GPUs at that time.
*/
float4 ReduceRGB565( in float4 color, in float2 coord )
{
float4 dac = ReducePrepass(color,coord);
color.rgb = trunc(dac.rgb*float3(32.0,64.0,32.0))
/float3(32.0,64.0,32.0);
return color;
}
/* Various VGA 256-colour palettes: Doom, Quake I, and the standard. */
float4 ReduceVGA( in float4 color, in float2 coord )
{
float4 dac = clamp(ReducePrepass(color,coord),0.02,0.98);
float2 lc = float2((dac.r+vgapal)/15.0,
dac.g/64.0+floor(dac.b*64.0)/64.0);
return tex2D(SamplerVGA,lc);
}
/* Retro rockets */
float4 PS_Retro( VS_OUTPUT_POST IN, float2 vPos : VPOS ) : COLOR
{
float2 coord = IN.txcoord.xy;
float4 res = tex2D(SamplerColorb,coord);
if ( !useblock ) return res;
float2 rresl = float2(ScreenSize.x,ScreenSize.x*ScreenSize.w);
float4 tcol;
float2 bresl = rresl;
if ( bresx <= 0 || bresy <= 0 ) bresl = rresl;
else
{
if ( bresx <= 1.0 ) bresl.x = rresl.x*bresx;
else bresl.x = bresx;
if ( bresy <= 1.0 ) bresl.y = rresl.y*bresy;
else bresl.y = bresy;
}
float2 ncoord = (coord-0.5)+0.5;
ncoord = floor(ncoord*bresl)/bresl;
ncoord += 0.5/bresl;
if ( bresx <= 0 || bresy <= 0 ) ncoord = coord;
tcol = tex2D(SamplerColorb,ncoord);
if ( paltype == 0 ) res = ReduceCGA(tcol,coord*bresl);
else if ( paltype == 1 ) res = ReduceEGA(tcol,coord*bresl);
else if ( paltype == 2 ) res = ReduceRGB2(tcol,coord*bresl);
else if ( paltype == 3 ) res = ReduceVGA(tcol,coord*bresl);
else if ( paltype == 4 ) res = ReduceRGB565(tcol,coord*bresl);
else res = tcol;
res.a = 1.0;
return res;
}
float4 PS_ChromaKey( VS_OUTPUT_POST IN, float2 vPos : VPOS ) : COLOR
{
float2 coord = IN.txcoord.xy;
float4 res = tex2D(SamplerColor,coord);
if ( !maskenable ) return res;
float dep = tex2D(SamplerDepth,coord).x;
float msd = maskd;
msd = maskd+0.01*masktiltx*(masktiltxcenter-coord.x)
+0.01*masktilty*(masktiltycenter-coord.y);
if ( dep > msd )
return float4(maskr,maskg,maskb,1.0);
return res;
}
/* Why am I doing this */
float4 PS_Blur( VS_OUTPUT_POST IN, float2 vPos : VPOS ) : COLOR
{
float2 coord = IN.txcoord.xy;
float4 res = tex2D(SamplerColor,coord);
if ( !bssblurenable ) return res;
float2 ofs[16] =
{
float2(1.0,1.0), float2(-1.0,-1.0),
float2(-1.0,1.0), float2(1.0,-1.0),
float2(1.0,0.0), float2(-1.0,0.0),
float2(0.0,1.0), float2(0.0,-1.0),
float2(1.41,0.0), float2(-1.41,0.0),
float2(0.0,1.41), float2(0.0,-1.41),
float2(1.41,1.41), float2(-1.41,-1.41),
float2(-1.41,1.41), float2(1.41,-1.41)
};
float2 bresl = float2(ScreenSize.x,ScreenSize.x*ScreenSize.w);
float2 bof = (1.0/bresl)*bssblurradius;
int i;
[unroll] for ( i=0; i<16; i++ )
res += tex2D(SamplerColor,coord+ofs[i]*bof);
res /= 17.0;
res.a = 1.0;
return res;
}
float4 PS_Sharp( VS_OUTPUT_POST IN, float2 vPos : VPOS ) : COLOR
{
float2 coord = IN.txcoord.xy;
float4 res = tex2D(SamplerColor,coord);
if ( !bsssharpenable ) return res;
float2 ofs[8] =
{
float2(1.0,1.0), float2(-1.0,-1.0),
float2(-1.0,1.0), float2(1.0,-1.0),
float2(1.41,1.41), float2(-1.41,-1.41),
float2(-1.41,1.41), float2(1.41,-1.41)
};
float2 bresl = float2(ScreenSize.x,ScreenSize.x*ScreenSize.w);
float2 bof = (1.0/bresl)*bsssharpradius;
float4 tcol = res;
int i;
[unroll] for ( i=0; i<8; i++ )
tcol += tex2D(SamplerColor,coord+ofs[i]*bof);
tcol /= 9.0;
float4 orig = res;
res = orig*(1.0+dot(orig.rgb-tcol.rgb,0.333333)*bsssharpamount);
float rg = clamp(pow(orig.b,3.0),0.0,1.0);
res = lerp(res,orig,rg);
res.a = 1.0;
return res;
}
float4 PS_Shift( VS_OUTPUT_POST IN, float2 vPos : VPOS ) : COLOR
{
float2 coord = IN.txcoord.xy;
float4 res = tex2D(SamplerColor,coord);
if ( !bssshiftenable ) return res;
float2 bresl = float2(ScreenSize.x,ScreenSize.x*ScreenSize.w);
float2 bof = (1.0/bresl)*bssshiftradius;
res.g = tex2D(SamplerColor,coord).g;
res.r = tex2D(SamplerColor,coord+float2(0,-bof.y)).r;
res.b = tex2D(SamplerColor,coord+float2(0,bof.y)).b;
res.a = 1.0;
return res;
}
/* ultimate super-cinematic immersive black bars */
float4 PS_Cinematic( VS_OUTPUT_POST IN, float2 vPos : VPOS ) : COLOR
{
float2 coord = IN.txcoord.xy;
float4 res = tex2D(SamplerColor,coord);
if ( !boxenable ) return res;
float2 bresl = float2(ScreenSize.x,ScreenSize.x*ScreenSize.w);
float sar = bresl.x/bresl.y;
float tar = boxh/boxv;
float2 box = (sar<tar)?float2(0.0,(bresl.y-(bresl.x/tar))*0.5)
:float2((bresl.x-(bresl.y*tar))*0.5,0.0);
box /= bresl;
/* this is some kind of advanced black magic I can't understand */
float2 test = saturate((coord*coord-coord)-(box*box-box));
if ( -test.x != test.y ) res *= 0.0;
return res;
}
/* TODO bring back oil filter */
technique PostProcess
{
pass p0
{
VertexShader = compile vs_3_0 VS_Pass();
PixelShader = compile ps_3_0 PS_Blur();
DitherEnable = FALSE;
ZEnable = FALSE;
CullMode = NONE;
ALPHATESTENABLE = FALSE;
SEPARATEALPHABLENDENABLE = FALSE;
AlphaBlendEnable = FALSE;
StencilEnable = FALSE;
FogEnable = FALSE;
SRGBWRITEENABLE = FALSE;
}
}
technique PostProcess2
{
pass p0
{
VertexShader = compile vs_3_0 VS_Pass();
PixelShader = compile ps_3_0 PS_Sharp();
DitherEnable = FALSE;
ZEnable = FALSE;
CullMode = NONE;
ALPHATESTENABLE = FALSE;
SEPARATEALPHABLENDENABLE = FALSE;
AlphaBlendEnable = FALSE;
StencilEnable = FALSE;
FogEnable = FALSE;
SRGBWRITEENABLE = FALSE;
}
}
technique PostProcess3
{
pass p0
{
VertexShader = compile vs_3_0 VS_Pass();
PixelShader = compile ps_3_0 PS_Shift();
DitherEnable = FALSE;
ZEnable = FALSE;
CullMode = NONE;
ALPHATESTENABLE = FALSE;
SEPARATEALPHABLENDENABLE = FALSE;
AlphaBlendEnable = FALSE;
StencilEnable = FALSE;
FogEnable = FALSE;
SRGBWRITEENABLE = FALSE;
}
}
technique PostProcess4
{
pass p0
{
VertexShader = compile vs_3_0 VS_Pass();
PixelShader = compile ps_3_0 PS_ChromaKey();
DitherEnable = FALSE;
ZEnable = FALSE;
CullMode = NONE;
ALPHATESTENABLE = FALSE;
SEPARATEALPHABLENDENABLE = FALSE;
AlphaBlendEnable = FALSE;
StencilEnable = FALSE;
FogEnable = FALSE;
SRGBWRITEENABLE = FALSE;
}
}
technique PostProcess5
{
pass p0
{
VertexShader = compile vs_3_0 VS_Pass();
PixelShader = compile ps_3_0 PS_Retro();
DitherEnable = FALSE;
ZEnable = FALSE;
CullMode = NONE;
ALPHATESTENABLE = FALSE;
SEPARATEALPHABLENDENABLE = FALSE;
AlphaBlendEnable = FALSE;
StencilEnable = FALSE;
FogEnable = FALSE;
SRGBWRITEENABLE = FALSE;
}
}
technique PostProcess6
{
pass p0
{
VertexShader = compile vs_3_0 VS_Pass();
PixelShader = compile ps_3_0 PS_Cinematic();
DitherEnable = FALSE;
ZEnable = FALSE;
CullMode = NONE;
ALPHATESTENABLE = FALSE;
SEPARATEALPHABLENDENABLE = FALSE;
AlphaBlendEnable = FALSE;
StencilEnable = FALSE;
FogEnable = FALSE;
SRGBWRITEENABLE = FALSE;
}
}

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/*
menbextrainternals.fx : MariENB extra internal variables.
(C)2013-2017 Marisa Kirisame, UnSX Team.
Part of MariENB, the personal ENB of Marisa.
Released under the GNU GPLv3 (or later).
*/
/*
dithering threshold maps
don't touch unless you know what you're doing
*/
static const float checkers[4] =
{
1.0,0.0,
0.0,1.0
};
#define d(x) x/4.0
static const float ordered2[4] =
{
d(0),d(2),
d(4),d(2)
};
#undef d
#define d(x) x/64.0
static const float ordered8[64] =
{
d( 0),d(48),d(12),d(60),d( 3),d(51),d(15),d(63),
d(32),d(16),d(44),d(28),d(35),d(19),d(47),d(31),
d( 8),d(56),d( 4),d(52),d(11),d(59),d( 7),d(55),
d(40),d(24),d(36),d(20),d(43),d(27),d(39),d(23),
d( 2),d(50),d(14),d(62),d( 1),d(49),d(13),d(61),
d(34),d(18),d(46),d(30),d(33),d(17),d(45),d(29),
d(10),d(58),d( 6),d(54),d( 9),d(57),d( 5),d(53),
d(42),d(26),d(38),d(22),d(41),d(25),d(37),d(21)
};
#undef d
/* standard stuff */
float4 ScreenSize;
float ENightDayFactor;
float EInteriorFactor;
/* samplers and textures */
texture2D texColor;
texture2D texDepth;
texture2D texCGA
<
string ResourceName = "menbcgalut.png";
>;
texture2D texEGA
<
string ResourceName = "menbegalut.png";
>;
texture2D texVGA
<
string ResourceName = "menbvgalut.png";
>;
sampler2D SamplerColor = sampler_state
{
Texture = <texColor>;
MinFilter = LINEAR;
MagFilter = LINEAR;
MipFilter = NONE;
AddressU = Clamp;
AddressV = Clamp;
SRGBTexture = FALSE;
MaxMipLevel = 0;
MipMapLodBias = 0;
};
sampler2D SamplerColorb = sampler_state
{
Texture = <texColor>;
MinFilter = LINEAR;
MagFilter = LINEAR;
MipFilter = NONE;
AddressU = Border;
AddressV = Border;
SRGBTexture = FALSE;
MaxMipLevel = 0;
MipMapLodBias = 0;
};
sampler2D SamplerDepth = sampler_state
{
Texture = <texDepth>;
MinFilter = LINEAR;
MagFilter = LINEAR;
MipFilter = NONE;
AddressU = Clamp;
AddressV = Clamp;
SRGBTexture = FALSE;
MaxMipLevel = 0;
MipMapLodBias = 0;
};
sampler2D SamplerCGA = sampler_state
{
Texture = <texCGA>;
MinFilter = POINT;
MagFilter = POINT;
MipFilter = NONE;
AddressU = Wrap;
AddressV = Clamp;
SRGBTexture = FALSE;
MaxMipLevel = 0;
MipMapLodBias = 0;
};
sampler2D SamplerEGA = sampler_state
{
Texture = <texEGA>;
MinFilter = POINT;
MagFilter = POINT;
MipFilter = NONE;
AddressU = Wrap;
AddressV = Clamp;
SRGBTexture = FALSE;
MaxMipLevel = 0;
MipMapLodBias = 0;
};
sampler2D SamplerVGA = sampler_state
{
Texture = <texVGA>;
MinFilter = POINT;
MagFilter = POINT;
MipFilter = NONE;
AddressU = Wrap;
AddressV = Clamp;
SRGBTexture = FALSE;
MaxMipLevel = 0;
MipMapLodBias = 0;
};
/* whatever */
struct VS_OUTPUT_POST
{
float4 vpos : POSITION;
float2 txcoord : TEXCOORD0;
};
struct VS_INPUT_POST
{
float3 pos : POSITION;
float2 txcoord : TEXCOORD0;
};

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/*
menbextrasettings.fx : MariENB extra user-tweakable variables.
(C)2013-2017 Marisa Kirisame, UnSX Team.
Part of MariENB, the personal ENB of Marisa.
Released under the GNU GPLv3 (or later).
*/
/* BlockGFX filter, I'm proud of it */
string str_block = "BlockGFX Suite";
bool useblock
<
string UIName = "Enable Block GFX";
string UIWidget = "Checkbox";
> = {false};
/*
emulated resolution:
0 or 1 : real resolution
<1 and >0 : multiple of real resolution (e.g.: 0.5 is half resolution)
>1 : this resolution (e.g.: 320x200 is good ol' Mode 13h)
*/
float bresx
<
string UIName = "Emulated Resolution Width";
string UIWidget = "Spinner";
float UIMin = 0.0;
> = {0.5};
float bresy
<
string UIName = "Emulated Resolution Height";
string UIWidget = "Spinner";
float UIMin = 0.0;
> = {0.5};
/*
palette type:
-1 : disable
0 : CGA (320x200 4-color, or 640x200 monochrome)
1 : EGA (320x200, 16 colors)
2 : RGB2 (64-color quarter VGA palette, used in AOS)
3 : VGA (256 colors)
4 : RGB565 (ol' 16-bit "true color")
*/
int paltype
<
string UIName = "Palette Type";
string UIWidget = "Spinner";
int UIMin = -1;
int UIMax = 4;
> = {1};
/*
CGA palette to use:
0 : black, white.
1 : black, cyan, magenta, white. low contrast
2 : black, cyan, magenta, white. high contrast
3 : black, green, red, brown. low contrast
4 : black, green, red, brown. high contrast
5 : black, cyan, red, white. low contrast
6 : black, cyan, red, white. high contrast
*/
int cgapal
<
string UIName = "CGA Palette";
string UIWidget = "Spinner";
int UIMin = 0;
int UIMax = 6;
> = {1};
/*
EGA palette to use:
0 : Standard EGA
1 : AOS EGA (it's designed for text, but looks well on images too)
*/
int egapal
<
string UIName = "EGA Palette";
string UIWidget = "Spinner";
int UIMin = 0;
int UIMax = 1;
> = {0};
/*
VGA palette to use:
0 : Standard VGA
1 : Amulets & Armor
2 : Blood
3 : Doom
4 : Duke Nukem 3D
5 : Hacx 2.0
6 : Heretic
7 : Hexen
8 : Hexen 2
9 : Quake
10 : Quake 2
11 : Rise of the Triad
12 : Shadow Warrior
13 : Strife
14 : Wolfenstein 3D
TODO Project .Blank palette (when the design is finished)
*/
int vgapal
<
string UIName = "VGA Palette";
string UIWidget = "Spinner";
int UIMin = 0;
int UIMax = 14;
> = {0};
/*
Dithering mode:
-1 : No dithering, just raw banding
0 : 2x2 checkerboard dithering, looks like ass
1 : 2x2 ordered dithering
2 : 8x8 ordered dithering
*/
int dither
<
string UIName = "Dithering Pattern";
string UIWidget = "Spinner";
int UIMin = -1;
int UIMax = 2;
> = {2};
/* gamma modifier for base color, lower values raise midtones and viceversa */
float bgamma
<
string UIName = "Contrast Modifier";
string UIWidget = "Spinner";
float UIMin = 0.0;
> = {0.35};
/* saturation modifier for base color, helps with limited palettes */
float bsaturation
<
string UIName = "Saturation Modifier";
string UIWidget = "Spinner";
> = {1.1};
/* base brightness bump for the dither grid */
float bdbump
<
string UIName = "Dither Offset";
string UIWidget = "Spinner";
> = {-0.1};
/* range multiplier for the dither grid */
float bdmult
<
string UIName = "Dither Range";
string UIWidget = "Spinner";
float UIMin = 0.0;
> = {0.25};
/* Depth-cutting chroma key */
string str_mask = "Depth Chroma Key";
bool maskenable
<
string UIName = "Enable Chroma Key";
string UIWidget = "Checkbox";
> = {false};
float maskr
<
string UIName = "Chroma Key Red";
string UIWidget = "Spinner";
float UIMin = 0.0;
float UIMax = 1.0;
> = {0.0};
float maskg
<
string UIName = "Chroma Key Green";
string UIWidget = "Spinner";
float UIMin = 0.0;
float UIMax = 1.0;
> = {1.0};
float maskb
<
string UIName = "Chroma Key Blue";
string UIWidget = "Spinner";
float UIMin = 0.0;
float UIMax = 1.0;
> = {0.0};
float maskd
<
string UIName = "Chroma Key Depth";
string UIWidget = "Spinner";
float UIMin = 0.0;
float UIMax = 1.0;
> = {0.5};
/* tilting */
float masktiltxcenter
<
string UIName = "Chroma Key Depth Horizontal Tilt Center";
string UIWidget = "Spinner";
float UIMin = 0.0;
float UIMax = 1.0;
> = {0.5};
float masktiltycenter
<
string UIName = "Chroma Key Depth Vertical Tilt Center";
string UIWidget = "Spinner";
float UIMin = 0.0;
float UIMax = 1.0;
> = {0.5};
float masktiltx
<
string UIName = "Chroma Key Depth Horizontal Tilt";
string UIWidget = "Spinner";
> = {0.0};
float masktilty
<
string UIName = "Chroma Key Depth Vertical Tilt";
string UIWidget = "Spinner";
> = {0.0};
/* BlurSharpShift, some people are obsessed with this nonsense */
string str_bss = "BlurSharpShift";
bool bssblurenable
<
string UIName = "Enable Blur";
string UIWidget = "Checkbox";
> = {false};
float bssblurradius
<
string UIName = "Blur Sampling Range";
string UIWidget = "Spinner";
float UIMin = 0.0;
> = {0.25};
bool bsssharpenable
<
string UIName = "Enable Sharp";
string UIWidget = "Checkbox";
> = {false};
float bsssharpradius
<
string UIName = "Sharp Sampling Range";
string UIWidget = "Spinner";
float UIMin = 0.0;
> = {1.0};
float bsssharpamount
<
string UIName = "Sharpening Amount";
string UIWidget = "Spinner";
float UIMin = 0.0;
> = {6.0};
bool bssshiftenable
<
string UIName = "Enable Shift";
string UIWidget = "Checkbox";
> = {false};
float bssshiftradius
<
string UIName = "Shift Sampling Range";
string UIWidget = "Spinner";
float UIMin = 0.0;
> = {0.75};
/* very cinematic black bars */
string str_box = "Black Bars";
bool boxenable
<
string UIName = "Enable Black Bars";
string UIWidget = "Checkbox";
> = {false};
float boxh
<
string UIName = "Box Horizontal Ratio";
string UIWidget = "Spinner";
float UIMin = 1.0;
> = {2.39};
float boxv
<
string UIName = "Box Vertical Ratio";
string UIWidget = "Spinner";
float UIMin = 1.0;
> = {1.0};

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/*
menbglobaldefs.fx : MariENB global shared code.
(C)2013-2017 Marisa Kirisame, UnSX Team.
Part of MariENB, the personal ENB of Marisa.
Released under the GNU GPLv3 (or later).
*/
/* do not touch this! */
#define E_SHADER_3_0
/* are we running on fallout 3 / new vegas or on skyrim? */
#define FALLOUT
/* time of day and interior interpolation */
#ifdef FALLOUT
#define tod_ind(x) lerp(lerp(x##_n,x##_d,ENightDayFactor),\
(x##_in+x##_id)*0.5,EInteriorFactor)
#else
#define tod_ind(x) lerp(lerp(x##_n,x##_d,ENightDayFactor),\
lerp(x##_in,x##_id,ENightDayFactor),EInteriorFactor)
#endif
/* weather macros */
#define WT_TEMPERATE 0.0
#define WT_HOT 1.0
#define WT_COLD 2.0
/* new additions */
#define WT_TEMPERATE_FOG 3.0
#define WT_COLD_FOG 4.0
#define WT_HOT_FOG 5.0
#define weatherfactor(id) ((WeatherAndTime.x==id)?(WeatherAndTime.y==id)\
?(1.0):(WeatherAndTime.z):(WeatherAndTime.y==id)\
?(1.0-WeatherAndTime.z):(0.0))
/*
Explanation of macro, because some of the people reading this likely don't
know what a ternary conditional is:
(WeatherAndTime.x==id) -> transitioning to wanted weather?
?(WeatherAndTime.y==id) -> coming from wanted weather?
?(1.0) -> if so, always 1
:(WeatherAndTime.z) -> if not, return transition
:(WeatherAndTime.y==id) -> not transitioning but coming from wanted weather?
?(1.0-WeatherAndTime.z) -> return inverse transition
:(0.0) -> otherwise return 0
*/
/* asset definitions */
/* ascii art font */
#define FONT_WIDTH 8
#define FONT_HEIGHT 4096
#define GLYPH_WIDTH 8
#define GLYPH_HEIGHT 16
#define FONT_LEVELS 255
/*
aspect correction for certain overlays
uncommented : the textures are 1:1 and must be corrected
commented : the textures are 16:9 or whatever ratio you use
*/
//#define ASPECT_LENSDIRT
/* texture sizes */
#define NOISESIZE 256.0
#define HEATSIZE 1024.0
#define FROSTSIZE 1024.0
/* LUT mode (use only one) - The 256px option was discarded for size reasons */
//#define LUTMODE_LEGACY
//#define LUTMODE_16
#define LUTMODE_64
/* some textures can be provided as DDS rather than PNG to save space */
//#define HEAT_DDS
//#define LENSDIRT_DDS
//#define FROST_DDS
//#define FROSTBUMP_DDS

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/*
menbprepassfilters.fx : MariENB prepass shader routines.
(C)2013-2017 Marisa Kirisame, UnSX Team.
Part of MariENB, the personal ENB of Marisa.
Released under the GNU GPLv3 (or later).
*/
VS_OUTPUT_POST VS_Pass( VS_INPUT_POST IN )
{
VS_OUTPUT_POST OUT;
OUT.vpos = float4(IN.pos.x,IN.pos.y,IN.pos.z,1.0);
OUT.txcoord.xy = IN.txcoord.xy;
return OUT;
}
/* helper functions */
/* photometric */
#define luminance(x) dot(x,float3(0.2126,0.7152,0.0722))
/* CCIR601 */
//#define luminance(x) dot(x,float3(0.299,0.587,0.114))
/* these are znear/zfar values for Skyrim, but MAY match Fallout too */
float depthlinear( float2 coord )
{
float z = tex2D(SamplerDepth,coord).x;
return (2*zNear)/(zFar+zNear-z*(zFar-zNear));
}
/* That "luma sharpen" thingy, added just because someone might want it */
float3 Sharpen( float3 res, float2 coord )
{
float2 bresl = float2(ScreenSize.x,ScreenSize.x*ScreenSize.w);
if ( fixedx>0 ) bresl.x = fixedx;
if ( fixedy>0 ) bresl.y = fixedy;
float2 bof = float2(1.0/bresl.x,1.0/bresl.y)*sharpradius;
float4 crawling = tex2D(SamplerColor,coord+float2(0,-1)*bof);
crawling += tex2D(SamplerColor,coord+float2(-1,0)*bof);
crawling += tex2D(SamplerColor,coord+float2(1,0)*bof);
crawling += tex2D(SamplerColor,coord+float2(0,1)*bof);
crawling *= 0.25;
float3 inmyskin = res-crawling.rgb;
float thesewounds = luminance(inmyskin);
thesewounds = clamp(thesewounds,-sharpclamp*0.01,sharpclamp*0.01);
float3 theywillnotheal = res+thesewounds*sharpblend;
return theywillnotheal;
}
/* old Edgevision mode */
float3 EdgeView( float3 res, float2 coord )
{
float2 bresl = float2(ScreenSize.x,ScreenSize.x*ScreenSize.w);
if ( fixedx>0 ) bresl.x = fixedx;
if ( fixedy>0 ) bresl.y = fixedy;
float edgevfadepow = tod_ind(edgevfadepow);
float edgevfademult = tod_ind(edgevfademult);
float2 bof = float2(1.0/bresl.x,1.0/bresl.y)*edgevradius;
float mdx = 0, mdy = 0, mud = 0;
/* this reduces texture fetches by half, big difference */
float3x3 depths;
depths[0][0] = depthlinear(coord+float2(-1,-1)*bof);
depths[0][1] = depthlinear(coord+float2( 0,-1)*bof);
depths[0][2] = depthlinear(coord+float2( 1,-1)*bof);
depths[1][0] = depthlinear(coord+float2(-1, 0)*bof);
depths[1][1] = depthlinear(coord+float2( 0, 0)*bof);
depths[1][2] = depthlinear(coord+float2( 1, 0)*bof);
depths[2][0] = depthlinear(coord+float2(-1, 1)*bof);
depths[2][1] = depthlinear(coord+float2( 0, 1)*bof);
depths[2][2] = depthlinear(coord+float2( 1, 1)*bof);
mdx += GX[0][0]*depths[0][0];
mdx += GX[0][1]*depths[0][1];
mdx += GX[0][2]*depths[0][2];
mdx += GX[1][0]*depths[1][0];
mdx += GX[1][1]*depths[1][1];
mdx += GX[1][2]*depths[1][2];
mdx += GX[2][0]*depths[2][0];
mdx += GX[2][1]*depths[2][1];
mdx += GX[2][2]*depths[2][2];
mdy += GY[0][0]*depths[0][0];
mdy += GY[0][1]*depths[0][1];
mdy += GY[0][2]*depths[0][2];
mdy += GY[1][0]*depths[1][0];
mdy += GY[1][1]*depths[1][1];
mdy += GY[1][2]*depths[1][2];
mdy += GY[2][0]*depths[2][0];
mdy += GY[2][1]*depths[2][1];
mdy += GY[2][2]*depths[2][2];
mud = pow(mdx*mdx+mdy*mdy,0.5);
float fade = 1.0-tex2D(SamplerDepth,coord).x;
mud *= saturate(pow(max(0,fade),edgevfadepow)*edgevfademult);
mud = saturate(pow(max(0,mud),edgevpow)*edgevmult);
return mud;
}
/*
Thank you Boris for not providing access to a normal buffer. Guesswork using
the depth buffer results in imprecise normals that aren't smoothed. Plus
there is no way to get the normal data from textures either. Also, three
texture fetches are needed instead of one (great!)
*/
float3 pseudonormal( float dep, float2 coord )
{
float2 bresl = float2(ScreenSize.x,ScreenSize.x*ScreenSize.w);
float2 ofs1 = float2(0,1.0/bresl.y);
float2 ofs2 = float2(1.0/bresl.x,0);
float dep1 = tex2D(SamplerDepth,coord+ofs1).x;
float dep2 = tex2D(SamplerDepth,coord+ofs2).x;
float3 p1 = float3(ofs1,dep1-dep);
float3 p2 = float3(ofs2,dep2-dep);
float3 normal = cross(p1,p2);
normal.z = -normal.z;
return normalize(normal);
}
/* Squeezed in are Edgevision and Sharpen and ssao prepass */
float4 PS_EdgePlusSSAOPrepass( VS_OUTPUT_POST IN, float2 vPos : VPOS ) : COLOR
{
float2 coord = IN.txcoord.xy;
float4 res = tex2D(SamplerColor,coord);
if ( sharpenable ) res.rgb = Sharpen(res.rgb,coord);
if ( edgevenable ) res.rgb = EdgeView(res.rgb,coord);
/* get occlusion using single-step Ray Marching with 64 samples */
float ssaofadepow = tod_ind(ssaofadepow);
float ssaofademult = tod_ind(ssaofademult);
if ( !ssaoenable ) return res;
float depth = tex2D(SamplerDepth,coord).x;
float ldepth = depthlinear(coord);
if ( depth >= cutoff*0.000001 )
{
res.a = 1.0;
return res;
}
float2 bresl;
if ( (fixedx > 0) && (fixedy > 0) ) bresl = float2(fixedx,fixedy);
else bresl = float2(ScreenSize.x,ScreenSize.x*ScreenSize.w);
float3 normal = pseudonormal(depth,coord);
float2 nc = coord*(bresl/256.0);
float2 bof = float2(1.0/bresl.x,1.0/bresl.y)*ssaoradius;
float2 nc2 = tex2D(SamplerNoise3,nc+48000.0*Timer.x*ssaonoise).xy;
float3 rnormal = tex2D(SamplerNoise3,nc2).xyz*2.0-1.0;
rnormal = normalize(rnormal);
float occ = 0.0;
int i;
float3 sample;
float sdepth, so, delta;
float sclamp = ssaoclamp/100000.0;
float sclampmin = ssaoclampmin/100000.0;
[unroll] for ( i=0; i<16; i++ )
{
sample = reflect(ssao_samples[i],rnormal);
sample *= sign(dot(normal,sample));
so = ldepth-sample.z*bof.x;
sdepth = depthlinear(coord+bof*sample.xy/ldepth);
delta = saturate(so-sdepth);
delta *= 1.0-smoothstep(0.0,sclamp,delta);
if ( (delta > sclampmin) && (delta < sclamp) )
occ += 1.0-delta;
}
float uocc = saturate(occ/16.0);
float fade = 1.0-depth;
uocc *= saturate(pow(max(0,fade),ssaofadepow)*ssaofademult);
uocc = saturate(pow(max(0,uocc),ssaopow)*ssaomult);
res.a = saturate(1.0-(uocc*ssaoblend));
return res;
}
/*
Underwater distortion, which currently has no real use due to Boris being
lazy. fWaterLevel doesn't yet provide any usable values.
*/
float2 UnderwaterDistort( float2 coord )
{
if ( !wateralways ) return coord;
float2 ofs = float2(0.0,0.0);
float siny = sin(pi*2.0*(coord.y*uwm1+Timer.x*uwf1*100.0))*uws1;
ofs.y = siny+sin(pi*2.0*(coord.x*uwm2+Timer.x*uwf2*100.0))*uws2;
ofs.x = siny+sin(pi*2.0*(coord.x*uwm3+Timer.x*uwf3*100.0))*uws3;
ofs -= (coord-0.5)*2.0*uwz;
return coord+ofs*0.01;
}
/* Distant hot air refraction. Not very realistic, but does the job. */
float2 DistantHeat( float2 coord )
{
float2 bresl;
float dep, odep;
dep = tex2D(SamplerDepth,coord).x;
float distfade = clamp(pow(max(0,dep),heatfadepow)*heatfademul
+heatfadebump,0.0,1.0);
if ( distfade <= 0.0 ) return coord;
float todpow = pow(max(0,ENightDayFactor*min(1.0,weatherfactor(WT_HOT)
+weatherfactor(WT_HOT_FOG)+1.0-EInteriorFactor)),
heattodpow);
if ( !heatalways && (todpow <= 0.0) ) return coord;
if ( (fixedx > 0) && (fixedy > 0) ) bresl = float2(fixedx,fixedy);
else bresl = float2(ScreenSize.x,ScreenSize.x*ScreenSize.w);
float2 nc = coord*(bresl/HEATSIZE)*heatsize;
float2 ts = float2(0.01,1.0)*Timer.x*10000.0*heatspeed;
float2 ofs = tex2D(SamplerHeat,nc+ts).xy;
ofs = (ofs-0.5)*2.0;
ofs *= pow(length(ofs),heatpow);
if ( !heatalways ) ofs *= todpow
#ifndef FALLOUT
*max(0.0,(weatherfactor(WT_HOT)+weatherfactor(WT_HOT_FOG))
-(weatherfactor(WT_COLD)+weatherfactor(WT_COLD_FOG)))
#endif
;
odep = tex2D(SamplerDepth,coord+ofs*heatstrength*distfade*0.01).x;
float odistfade = clamp(pow(max(0,odep),heatfadepow)*heatfademul
+heatfadebump,0.0,1.0);
if ( odistfade <= 0.0 ) return coord;
return coord+ofs*heatstrength*distfade*0.01;
}
/* Screen distortion filters */
float4 PS_Distortion( VS_OUTPUT_POST IN, float2 vPos : VPOS ) : COLOR
{
float2 coord = IN.txcoord.xy;
float2 bresl;
if ( (fixedx > 0) && (fixedy > 0) ) bresl = float2(fixedx,fixedy);
else bresl = float2(ScreenSize.x,ScreenSize.x*ScreenSize.w);
float2 ofs = coord;
if ( waterenable ) ofs = UnderwaterDistort(ofs);
if ( heatenable ) ofs = DistantHeat(ofs);
ofs -= coord;
float4 res;
if ( (distcha == 0.0) || (length(ofs) == 0) )
return tex2D(SamplerColor,coord+ofs);
float2 ofr, ofg, ofb;
ofr = ofs*(1.0-distcha*0.01);
ofg = ofs;
ofb = ofs*(1.0+distcha*0.01);
res = float4(tex2D(SamplerColor,coord+ofr).r,
tex2D(SamplerColor,coord+ofg).g,
tex2D(SamplerColor,coord+ofb).b,
tex2D(SamplerColor,coord+ofs).a);
return res;
}
/*
The blur passes use bilateral filtering to mostly preserve borders.
An additional factor using difference of normals was tested, but the
performance decrease was too much, so it's gone forever.
*/
float4 PS_SSAOBlurH( VS_OUTPUT_POST IN, float2 vPos : VPOS ) : COLOR
{
float2 coord = IN.txcoord.xy;
float4 res = tex2D(SamplerColor,coord);
if ( !ssaoenable ) return res;
if ( !ssaobenable ) return res;
float bresl = ScreenSize.x;
float bof = (1.0/bresl)*ssaobradius;
float isd, sd, ds, sw, tw = 0;
res.a = 0.0;
int i;
isd = tex2D(SamplerDepth,coord).x;
[unroll] for ( i=-15; i<=15; i++ )
{
sd = tex2D(SamplerDepth,coord+float2(i,0)*bof).x;
ds = 1.0/pow(1.0+abs(isd-sd),ssaobfact);
sw = ds;
sw *= gauss16[abs(i)];
tw += sw;
res.a += sw*tex2D(SamplerColor,coord+float2(i,0)*bof).a;
}
res.a /= tw;
return res;
}
float4 PS_SSAOBlurV( VS_OUTPUT_POST IN, float2 vPos : VPOS ) : COLOR
{
float2 coord = IN.txcoord.xy;
float4 res = tex2D(SamplerColor,coord);
if ( !ssaoenable ) return res;
if ( !ssaobenable )
{
if ( ssaodebug ) return saturate(res.a);
return res*res.a;
}
float bresl = ScreenSize.x*ScreenSize.w;
float bof = (1.0/bresl)*ssaobradius;
float isd, sd, ds, sw, tw = 0;
res.a = 0.0;
int i;
isd = tex2D(SamplerDepth,coord).x;
[unroll] for ( i=-15; i<=15; i++ )
{
sd = tex2D(SamplerDepth,coord+float2(0,i)*bof).x;
ds = 1.0/pow(1.0+abs(isd-sd),ssaobfact);
sw = ds;
sw *= gauss16[abs(i)];
tw += sw;
res.a += sw*tex2D(SamplerColor,coord+float2(0,i)*bof).a;
}
res.a /= tw;
if ( ssaodebug ) return saturate(res.a);
res *= res.a;
return res;
}
/* Focus */
float4 PS_ReadFocus( VS_OUTPUT_POST IN ) : COLOR
{
if ( dofdisable ) return 0.0;
if ( focuscircle < 0 ) return focusmanualvalue;
float focusmax = tod_ind(focusmax);
float2 fcenter = float2(focuscenter_x,focuscenter_y);
float cfocus = min(tex2D(SamplerDepth,fcenter).x,focusmax*0.001);
if ( focuscircle == 0 ) return cfocus;
if ( focuscircle == 2 )
{
int i, j;
float mfocus = 0.0;
float2 px;
[unroll] for( j=0; j<8; j++ ) [unroll] for( i=0; i<8; i++ )
{
px = float2((i+0.5)/8.0,(j+0.5)/8.0);
mfocus += min(tex2D(SamplerDepth,px).x,focusmax*0.001);
}
return mfocus/64.0;
}
/* using polygons inscribed into a circle, in this case a triangle */
float focusradius = tod_ind(focusradius);
float focusmix = tod_ind(focusmix);
float cstep = (1.0/3.0);
float mfocus;
float2 coord;
float2 bof = float2(1.0,1.0/ScreenSize.w)*focusradius*0.01;
float fan = focuscircleangle*2.0*pi;
coord.x = fcenter.x+sin(fan)*bof.x;
coord.y = fcenter.y+cos(fan)*bof.y;
mfocus = cstep*min(tex2D(SamplerDepth,coord).x,focusmax*0.001);
coord.x = fcenter.x+sin(fan+2.0*pi*cstep)*bof.x;
coord.y = fcenter.y+cos(fan+2.0*pi*cstep)*bof.y;
mfocus += cstep*min(tex2D(SamplerDepth,coord).x,focusmax*0.001);
coord.x = fcenter.x+sin(fan+4.0*pi*cstep)*bof.x;
coord.y = fcenter.y+cos(fan+4.0*pi*cstep)*bof.y;
mfocus += cstep*min(tex2D(SamplerDepth,coord).x,focusmax*0.001);
cfocus = (1.0-focusmix)*cfocus+focusmix*mfocus;
return cfocus;
}
float4 PS_WriteFocus( VS_OUTPUT_POST IN ) : COLOR
{
if ( dofdisable ) return 0.0;
return max(lerp(tex2D(SamplerPrev,0.5).x,tex2D(SamplerCurr,0.5).x,
saturate(FadeFactor)),0.0);
}
/* Depth of Field */
float4 PS_DoFPrepass( VS_OUTPUT_POST IN, float2 vPos : VPOS ) : COLOR
{
float2 coord = IN.txcoord.xy;
if ( dofdisable ) return tex2D(SamplerColor,coord);
float dofpow = tod_ind(dofpow);
float dofmult = tod_ind(dofmult);
float dofbump = tod_ind(dofbump);
float doffixedfocuspow = tod_ind(doffixedfocuspow);
float doffixedfocusmult = tod_ind(doffixedfocusmult);
float doffixedfocusbump = tod_ind(doffixedfocusbump);
float doffixedfocusblend = tod_ind(doffixedunfocusblend);
float doffixedunfocuspow = tod_ind(doffixedunfocuspow);
float doffixedunfocusmult = tod_ind(doffixedunfocusmult);
float doffixedunfocusbump = tod_ind(doffixedunfocusbump);
float doffixedunfocusblend = tod_ind(doffixedunfocusblend);
#ifndef FALLOUT
float doffogpow = tod_ind(doffogpow);
float doffogmult = tod_ind(doffogmult);
float doffogbump = tod_ind(doffogbump);
float doffogblend = tod_ind(doffogblend);
#endif
float dep = tex2D(SamplerDepth,coord).x;
float foc = tex2D(SamplerFocus,coord).x;
/* cheap tilt */
foc = foc+0.01*doftiltx*(doftiltxcenter-coord.x)
+0.01*doftilty*(doftiltycenter-coord.y);
float dff = abs(dep-doffixedfocusdepth);
dff = clamp(pow(dff,doffixedfocuspow)*doffixedfocusmult
+doffixedfocusbump,0.0,1.0);
if ( dep > doffixedfocuscap ) dff = 1.0;
float dfu = abs(dep-doffixedunfocusdepth);
dfu = clamp(pow(dfu,doffixedunfocuspow)*doffixedunfocusmult
+doffixedunfocusbump,0.0,1.0);
#ifndef FALLOUT
float dfog = abs(dep-doffogdepth);
dfog = clamp(pow(dfog,doffogpow)*doffogmult+doffogbump,0.0,1.0);
#endif
if ( doffixedcut && (dep >= cutoff*0.000001) ) dfu *= 0;
/*
Change power of dof based on field of view. Works only in Skyrim.
The FieldOfView variable seems to hold bogus values in Fallout
completely unrelated to actual FOV (yes, I checked if it's in
radians, and no, it isn't). The value appears to be 1.134452. Who
could I blame for this mess? Boris? Bethesda? Hell if I know.
*/
#ifndef FALLOUT
if ( dofrelfov )
{
float relfovfactor = tod_ind(relfovfactor);
float relfov = (FieldOfView-fovdefault)/fovdefault;
dofpow = max(0,dofpow+relfov*relfovfactor);
}
#endif
float dfc = abs(dep-foc);
dfc = clamp(pow(dfc,dofpow)*dofmult+dofbump,0.0,1.0);
if ( doffixedonly ) dfc *= 0;
dfc += lerp(0.0,dfu,doffixedunfocusblend);
#ifndef FALLOUT
if ( doffogenable )
dfc += (weatherfactor(WT_TEMPERATE_FOG)
+weatherfactor(WT_COLD_FOG)+weatherfactor(WT_HOT_FOG))
*lerp(0.0,dfog,doffogblend);
#endif
dfc *= lerp(1.0,dff,doffixedfocusblend);
dfc = saturate(dfc);
float4 res = tex2D(SamplerColor,coord);
res.a = dfc;
return res;
}
/* gather blur pass */
float4 PS_DoFGather( VS_OUTPUT_POST IN, float2 vPos : VPOS) : COLOR
{
float2 coord = IN.txcoord.xy;
if ( dofdisable ) return tex2D(SamplerColor,coord);
float dfc = tex2D(SamplerColor,coord).a;
if ( dofdebug ) return tex2D(SamplerDepth,coord).x;
if ( dfcdebug ) return dfc;
float2 bresl;
if ( (fixedx > 0) && (fixedy > 0) ) bresl = float2(fixedx,fixedy);
else bresl = float2(ScreenSize.x,ScreenSize.x*ScreenSize.w);
float2 bof = 1.0/bresl;
/*
Skip blurring areas that are perfectly in focus. The performance
gain is negligible in most cases, though.
*/
if ( dfc <= dofminblur ) return tex2D(SamplerColor,coord);
float4 res = float4(0,0,0,0);
float dep = tex2D(SamplerDepth,coord).x;
float ds, sw, tw = 0;
float2 bsz = bof*dofpradius*dfc;
float4 sc;
[unroll] for ( int i=0; i<32; i++ )
{
sc = float4(tex2D(SamplerColor,coord+poisson32[i]*bsz*(1
+dofpcha*0.1)).r,tex2D(SamplerColor,coord+poisson32[i]
*bsz).g,tex2D(SamplerColor,coord+poisson32[i]*bsz*(1
-dofpcha*0.1)).b,tex2D(SamplerColor,coord+poisson32[i]
*bsz).a);
ds = tex2D(SamplerDepth,coord+poisson32[i]*bsz).x;
sw = (ds>dep)?1.0:sc.a;
tw += sw;
res += sc*sw;
}
res /= tw;
res.a = dfc;
return res;
}
/* "bokeh" blur pass */
float4 PS_DoFBorkeh( VS_OUTPUT_POST IN, float2 vPos : VPOS) : COLOR
{
float2 coord = IN.txcoord.xy;
if ( dofdisable ) return tex2D(SamplerColor,coord);
float dfc = tex2D(SamplerColor,coord).a;
if ( dofdebug ) return tex2D(SamplerDepth,coord).x;
if ( dfcdebug ) return dfc;
float2 bresl;
if ( (fixedx > 0) && (fixedy > 0) ) bresl = float2(fixedx,fixedy);
else bresl = float2(ScreenSize.x,ScreenSize.x*ScreenSize.w);
float2 bof = 1.0/bresl;
float4 res = tex2D(SamplerColor,coord);
res.a = 0.0;
/*
Skip blurring areas that are perfectly in focus. The performance
gain is negligible in most cases, though.
*/
if ( dfc <= dofminblur ) return res;
float dep = tex2D(SamplerDepth,coord).x;
float sr = dofpradius*dfc;
float w = max(0,(1/(sr*sr+1))*luminance(res.rgb+0.01));
res *= w;
float tw = w;
float2 bsz = bof*sr;
float4 pc;
float sc, ds;
[unroll] for ( int i=0; i<32; i++ )
{
pc = float4(tex2D(SamplerColor,coord+poisson32[i]*bsz*(1
+dofpcha*0.1)).r,tex2D(SamplerColor,coord+poisson32[i]
*bsz).g,tex2D(SamplerColor,coord+poisson32[i]*bsz*(1
-dofpcha*0.1)).b,tex2D(SamplerColor,coord+poisson32[i]
*bsz).a);
ds = tex2D(SamplerDepth,coord+poisson32[i]*bsz).x;
sc = abs(pc.a*dofpradius);
if ( sr < 0.0 ) sc = max(abs(sr),sc);
w = (1.0/(pow(sc,2)+1))*luminance(pc.rgb+0.01);
w *= saturate(1-smoothstep(sc,sc*1.1,length(poisson32[i]*bsz)
*abs(sr)));
w *= (ds>dep)?1.0:sc;
res += pc*w;
tw += w;
}
res /= tw;
res.a = dfc;
return res;
}
float4 PS_DoFPostBlur( VS_OUTPUT_POST IN, float2 vPos : VPOS) : COLOR
{
float2 coord = IN.txcoord.xy;
if ( dofdisable ) return tex2D(SamplerColor,coord);
float dfc = tex2D(SamplerColor,coord).a;
if ( dofdebug ) return tex2D(SamplerDepth,coord).x;
if ( dfcdebug ) return dfc;
float2 bresl;
if ( (fixedx > 0) && (fixedy > 0) ) bresl = float2(fixedx,fixedy);
else bresl = float2(ScreenSize.x,ScreenSize.x*ScreenSize.w);
float2 bof = 1.0/bresl;
float2 ofs[16] =
{
float2(1.0,1.0), float2(-1.0,-1.0),
float2(-1.0,1.0), float2(1.0,-1.0),
float2(1.0,0.0), float2(-1.0,0.0),
float2(0.0,1.0), float2(0.0,-1.0),
float2(1.41,0.0), float2(-1.41,0.0),
float2(0.0,1.41), float2(0.0,-1.41),
float2(1.41,1.41), float2(-1.41,-1.41),
float2(-1.41,1.41), float2(1.41,-1.41)
};
float4 res = tex2D(SamplerColor,coord);
int i;
[unroll] for ( i=0; i<16; i++ )
res += tex2D(SamplerColor,coord+ofs[i]*bof*dfc);
res /= 17.0;
res.a = 1.0;
return res;
}
/* Screen frost shader. Not very realistic either, but looks fine too. */
float2 ScreenFrost( float2 coord )
{
float2 bresl;
if ( (fixedx > 0) && (fixedy > 0) ) bresl = float2(fixedx,fixedy);
else bresl = float2(ScreenSize.x,ScreenSize.x*ScreenSize.w);
float2 nc = coord*(bresl/FROSTSIZE)*frostsize;
float2 ofs = tex2D(SamplerFrostBump,nc).xy;
ofs = (ofs-0.5)*2.0;
ofs *= pow(length(ofs),frostpow)*froststrength;
if ( !frostalways ) ofs *=
#ifndef FALLOUT
max(0.0,(weatherfactor(WT_COLD)+weatherfactor(WT_COLD_FOG))
-(weatherfactor(WT_HOT)+weatherfactor(WT_HOT_FOG)))*
#endif
(1.0-ENightDayFactor)*frostnight;
if ( EInteriorFactor == 1.0 ) ofs *= frostind;
float dist = distance(coord,float2(0.5,0.5))*2.0;
ofs *= clamp(pow(dist,frostrpow)*frostrmult+frostrbump,0.0,1.0);
return coord+ofs;
}
/* screen frost overlay */
float4 PS_FrostPass( VS_OUTPUT_POST IN, float2 vPos : VPOS) : COLOR
{
float2 coord = IN.txcoord.xy;
float2 bresl;
if ( (fixedx > 0) && (fixedy > 0) ) bresl = float2(fixedx,fixedy);
else bresl = float2(ScreenSize.x,ScreenSize.x*ScreenSize.w);
float4 res;
if ( frostenable )
{
float2 ofs = ScreenFrost(coord);
ofs -= coord;
if ( (distcha != 0.0) && (length(ofs) != 0.0) )
{
float2 ofr, ofg, ofb;
ofr = ofs*(1.0-distcha*0.01);
ofg = ofs;
ofb = ofs*(1.0+distcha*0.01);
res = float4(tex2D(SamplerColor,coord+ofr).r,
tex2D(SamplerColor,coord+ofg).g,
tex2D(SamplerColor,coord+ofb).b,1.0);
}
else res = tex2D(SamplerColor,coord+ofs);
float2 nc = coord*(bresl/FROSTSIZE)*frostsize;
float bmp = pow(max(0,tex2D(SamplerFrost,nc).x),frostbpow);
float dist = distance(coord,float2(0.5,0.5))*2.0;
dist = clamp(pow(dist,frostrpow)*frostrmult+frostrbump,0.0,
1.0)*frostblend;
if ( !frostalways ) dist *=
#ifndef FALLOUT
max(0.0,(weatherfactor(WT_COLD)
+weatherfactor(WT_COLD_FOG))+(weatherfactor(WT_HOT)
+weatherfactor(WT_HOT_FOG)))*
#endif
(1.0-ENightDayFactor)*frostnight;
if ( EInteriorFactor == 1.0 ) dist *= frostind;
res.rgb *= 1.0+bmp*dist;
}
else res = tex2D(SamplerColor,coord);
if ( !focusdisplay || (focuscircle < 0) ) return res;
if ( focuscircle == 2 )
{
int i, j;
float2 px;
[unroll] for( j=0; j<8; j++ ) [unroll] for( i=0; i<8; i++ )
{
px = float2((i+0.5)/8.0,(j+0.5)/8.0);
if ( distance(coord,px) < 0.005 )
res.rgb = float3(1,0,0);
}
return res;
}
float2 fcenter = float2(focuscenter_x,focuscenter_y);
if ( distance(coord,fcenter) < 0.005 ) res.rgb = float3(1,0,0);
if ( focuscircle == 0 ) return res;
float cstep = (1.0/3.0);
float2 tcoord;
float focusradius = tod_ind(focusradius);
float2 bof = float2(1.0,1.0/ScreenSize.w)*focusradius*0.01;
float fan = focuscircleangle*2.0*pi;
tcoord.x = fcenter.x+sin(fan)*bof.x;
tcoord.y = fcenter.y+cos(fan)*bof.y;
if ( distance(coord,tcoord) < 0.005 ) res.rgb = float3(1,0,0);
tcoord.x = fcenter.x+sin(fan+2.0*pi*cstep)*bof.x;
tcoord.y = fcenter.y+cos(fan+2.0*pi*cstep)*bof.y;
if ( distance(coord,tcoord) < 0.005 ) res.rgb = float3(1,0,0);
tcoord.x = fcenter.x+sin(fan+4.0*pi*cstep)*bof.x;
tcoord.y = fcenter.y+cos(fan+4.0*pi*cstep)*bof.y;
if ( distance(coord,tcoord) < 0.005 ) res.rgb = float3(1,0,0);
return res;
}
technique ReadFocus
{
pass p0
{
VertexShader = compile vs_3_0 VS_Pass();
PixelShader = compile ps_3_0 PS_ReadFocus();
ZENABLE = FALSE;
CullMode = NONE;
ALPHATESTENABLE = FALSE;
SEPARATEALPHABLENDENABLE = FALSE;
AlphaBlendEnable = FALSE;
FogEnable = FALSE;
SRGBWRITEENABLE = FALSE;
}
}
technique WriteFocus
{
pass p0
{
VertexShader = compile vs_3_0 VS_Pass();
PixelShader = compile ps_3_0 PS_WriteFocus();
ZENABLE = FALSE;
CullMode = NONE;
ALPHATESTENABLE = FALSE;
SEPARATEALPHABLENDENABLE = FALSE;
AlphaBlendEnable = FALSE;
FogEnable = FALSE;
SRGBWRITEENABLE = FALSE;
}
}
technique PostProcess
{
pass p0
{
VertexShader = compile vs_3_0 VS_Pass();
PixelShader = compile ps_3_0 PS_EdgePlusSSAOPrepass();
DitherEnable = FALSE;
ZEnable = FALSE;
CullMode = NONE;
ALPHATESTENABLE = FALSE;
SEPARATEALPHABLENDENABLE = FALSE;
AlphaBlendEnable = FALSE;
StencilEnable = FALSE;
FogEnable = FALSE;
SRGBWRITEENABLE = FALSE;
}
}
technique PostProcess2
{
pass p0
{
VertexShader = compile vs_3_0 VS_Pass();
PixelShader = compile ps_3_0 PS_Distortion();
DitherEnable = FALSE;
ZEnable = FALSE;
CullMode = NONE;
ALPHATESTENABLE = FALSE;
SEPARATEALPHABLENDENABLE = FALSE;
AlphaBlendEnable = FALSE;
StencilEnable = FALSE;
FogEnable = FALSE;
SRGBWRITEENABLE = FALSE;
}
}
technique PostProcess3
{
pass p0
{
VertexShader = compile vs_3_0 VS_Pass();
PixelShader = compile ps_3_0 PS_SSAOBlurH();
DitherEnable = FALSE;
ZEnable = FALSE;
CullMode = NONE;
ALPHATESTENABLE = FALSE;
SEPARATEALPHABLENDENABLE = FALSE;
AlphaBlendEnable = FALSE;
StencilEnable = FALSE;
FogEnable = FALSE;
SRGBWRITEENABLE = FALSE;
}
}
technique PostProcess4
{
pass p0
{
VertexShader = compile vs_3_0 VS_Pass();
PixelShader = compile ps_3_0 PS_SSAOBlurV();
DitherEnable = FALSE;
ZEnable = FALSE;
CullMode = NONE;
ALPHATESTENABLE = FALSE;
SEPARATEALPHABLENDENABLE = FALSE;
AlphaBlendEnable = FALSE;
StencilEnable = FALSE;
FogEnable = FALSE;
SRGBWRITEENABLE = FALSE;
}
}
technique PostProcess5
{
pass p0
{
VertexShader = compile vs_3_0 VS_Pass();
PixelShader = compile ps_3_0 PS_DoFPrepass();
DitherEnable = FALSE;
ZEnable = FALSE;
CullMode = NONE;
ALPHATESTENABLE = FALSE;
SEPARATEALPHABLENDENABLE = FALSE;
AlphaBlendEnable = FALSE;
StencilEnable = FALSE;
FogEnable = FALSE;
SRGBWRITEENABLE = FALSE;
}
}
technique PostProcess6
{
pass p0
{
VertexShader = compile vs_3_0 VS_Pass();
PixelShader = compile ps_3_0 PS_DoFGather();
DitherEnable = FALSE;
ZEnable = FALSE;
CullMode = NONE;
ALPHATESTENABLE = FALSE;
SEPARATEALPHABLENDENABLE = FALSE;
AlphaBlendEnable = FALSE;
StencilEnable = FALSE;
FogEnable = FALSE;
SRGBWRITEENABLE = FALSE;
}
}
technique PostProcess7
{
pass p0
{
VertexShader = compile vs_3_0 VS_Pass();
PixelShader = compile ps_3_0 PS_DoFPostBlur();
DitherEnable = FALSE;
ZEnable = FALSE;
CullMode = NONE;
ALPHATESTENABLE = FALSE;
SEPARATEALPHABLENDENABLE = FALSE;
AlphaBlendEnable = FALSE;
StencilEnable = FALSE;
FogEnable = FALSE;
SRGBWRITEENABLE = FALSE;
}
}
technique PostProcess8
{
pass p0
{
VertexShader = compile vs_3_0 VS_Pass();
PixelShader = compile ps_3_0 PS_FrostPass();
DitherEnable = FALSE;
ZEnable = FALSE;
CullMode = NONE;
ALPHATESTENABLE = FALSE;
SEPARATEALPHABLENDENABLE = FALSE;
AlphaBlendEnable = FALSE;
StencilEnable = FALSE;
FogEnable = FALSE;
SRGBWRITEENABLE = FALSE;
}
}
technique PostProcessB <string UIName="Bokeh (WIP)";>
{
pass p0
{
VertexShader = compile vs_3_0 VS_Pass();
PixelShader = compile ps_3_0 PS_EdgePlusSSAOPrepass();
DitherEnable = FALSE;
ZEnable = FALSE;
CullMode = NONE;
ALPHATESTENABLE = FALSE;
SEPARATEALPHABLENDENABLE = FALSE;
AlphaBlendEnable = FALSE;
StencilEnable = FALSE;
FogEnable = FALSE;
SRGBWRITEENABLE = FALSE;
}
}
technique PostProcessB2
{
pass p0
{
VertexShader = compile vs_3_0 VS_Pass();
PixelShader = compile ps_3_0 PS_Distortion();
DitherEnable = FALSE;
ZEnable = FALSE;
CullMode = NONE;
ALPHATESTENABLE = FALSE;
SEPARATEALPHABLENDENABLE = FALSE;
AlphaBlendEnable = FALSE;
StencilEnable = FALSE;
FogEnable = FALSE;
SRGBWRITEENABLE = FALSE;
}
}
technique PostProcessB3
{
pass p0
{
VertexShader = compile vs_3_0 VS_Pass();
PixelShader = compile ps_3_0 PS_SSAOBlurH();
DitherEnable = FALSE;
ZEnable = FALSE;
CullMode = NONE;
ALPHATESTENABLE = FALSE;
SEPARATEALPHABLENDENABLE = FALSE;
AlphaBlendEnable = FALSE;
StencilEnable = FALSE;
FogEnable = FALSE;
SRGBWRITEENABLE = FALSE;
}
}
technique PostProcessB4
{
pass p0
{
VertexShader = compile vs_3_0 VS_Pass();
PixelShader = compile ps_3_0 PS_SSAOBlurV();
DitherEnable = FALSE;
ZEnable = FALSE;
CullMode = NONE;
ALPHATESTENABLE = FALSE;
SEPARATEALPHABLENDENABLE = FALSE;
AlphaBlendEnable = FALSE;
StencilEnable = FALSE;
FogEnable = FALSE;
SRGBWRITEENABLE = FALSE;
}
}
technique PostProcessB5
{
pass p0
{
VertexShader = compile vs_3_0 VS_Pass();
PixelShader = compile ps_3_0 PS_DoFPrepass();
DitherEnable = FALSE;
ZEnable = FALSE;
CullMode = NONE;
ALPHATESTENABLE = FALSE;
SEPARATEALPHABLENDENABLE = FALSE;
AlphaBlendEnable = FALSE;
StencilEnable = FALSE;
FogEnable = FALSE;
SRGBWRITEENABLE = FALSE;
}
}
technique PostProcessB6
{
pass p0
{
VertexShader = compile vs_3_0 VS_Pass();
PixelShader = compile ps_3_0 PS_DoFBorkeh();
DitherEnable = FALSE;
ZEnable = FALSE;
CullMode = NONE;
ALPHATESTENABLE = FALSE;
SEPARATEALPHABLENDENABLE = FALSE;
AlphaBlendEnable = FALSE;
StencilEnable = FALSE;
FogEnable = FALSE;
SRGBWRITEENABLE = FALSE;
}
}
technique PostProcessB7
{
pass p0
{
VertexShader = compile vs_3_0 VS_Pass();
PixelShader = compile ps_3_0 PS_DoFPostBlur();
DitherEnable = FALSE;
ZEnable = FALSE;
CullMode = NONE;
ALPHATESTENABLE = FALSE;
SEPARATEALPHABLENDENABLE = FALSE;
AlphaBlendEnable = FALSE;
StencilEnable = FALSE;
FogEnable = FALSE;
SRGBWRITEENABLE = FALSE;
}
}
technique PostProcessB8
{
pass p0
{
VertexShader = compile vs_3_0 VS_Pass();
PixelShader = compile ps_3_0 PS_FrostPass();
DitherEnable = FALSE;
ZEnable = FALSE;
CullMode = NONE;
ALPHATESTENABLE = FALSE;
SEPARATEALPHABLENDENABLE = FALSE;
AlphaBlendEnable = FALSE;
StencilEnable = FALSE;
FogEnable = FALSE;
SRGBWRITEENABLE = FALSE;
}
}

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/*
menbprepassinternals.fx : MariENB prepass internal variables.
(C)2013-2017 Marisa Kirisame, UnSX Team.
Part of MariENB, the personal ENB of Marisa.
Released under the GNU GPLv3 (or later).
*/
/* mathematical constants */
static const float pi = 3.1415926535898;
/* edge detect factors */
static const float3x3 GX =
{
-1, 0, 1,
-2, 0, 2,
-1, 0, 1
};
static const float3x3 GY =
{
1, 2, 1,
0, 0, 0,
-1,-2,-1
};
/* radius: 8, std dev: 6 */
static const float gauss8[8] =
{
0.084247, 0.083085, 0.079694, 0.074348,
0.067460, 0.059533, 0.051099, 0.042657
};
/* radius: 16, std dev: 13 */
static const float gauss16[16] =
{
0.040012, 0.039893, 0.039541, 0.038960,
0.038162, 0.037159, 0.035969, 0.034612,
0.033109, 0.031485, 0.029764, 0.027971,
0.026131, 0.024268, 0.022405, 0.020563
};
/* SSAO samples */
static const float3 ssao_samples[16] =
{
float3( 0.0000,-0.0002, 0.0000),float3(-0.0004, 0.0013, 0.0014),
float3(-0.0030, 0.0048,-0.0034),float3( 0.0147, 0.0046,-0.0026),
float3(-0.0097, 0.0275,-0.0092),float3(-0.0178,-0.0072, 0.0491),
float3( 0.0227,-0.0431,-0.0681),float3( 0.1052, 0.0332,-0.0588),
float3( 0.0997, 0.0056, 0.1473),float3(-0.1252, 0.2019, 0.0564),
float3(-0.1054,-0.2072, 0.2271),float3(-0.0542, 0.3096, 0.2814),
float3( 0.0072,-0.3534, 0.4035),float3(-0.0024,-0.2385, 0.6260),
float3(-0.1940, 0.5722,-0.5602),float3(-0.0910,-0.7548,-0.6497)
};
/* For high quality DOF */
static const float2 poisson32[32] =
{
float2( 0.7284430,-0.1927130),float2( 0.4051600,-0.2312710),
float2( 0.9535280, 0.0669683),float2( 0.6544140,-0.4439470),
float2( 0.6029910, 0.1058970),float2( 0.2637500,-0.7163810),
float2( 0.9105380,-0.3889810),float2( 0.5942730,-0.7400740),
float2( 0.8215680, 0.3162520),float2( 0.3577550, 0.4884250),
float2( 0.6935990, 0.7070140),float2( 0.0470570, 0.1961800),
float2(-0.0977021, 0.6241300),float2( 0.2110300, 0.8778350),
float2(-0.3743440, 0.2494580),float2( 0.0144776,-0.0766484),
float2(-0.3377660,-0.1255100),float2( 0.3136420, 0.1077710),
float2(-0.5204340, 0.8369860),float2(-0.1182680, 0.9801750),
float2(-0.6969480,-0.3869330),float2(-0.6156080, 0.0307209),
float2(-0.3806790,-0.6055360),float2(-0.1909570,-0.3861330),
float2(-0.2449080,-0.8655030),float2( 0.0822108,-0.4975580),
float2(-0.5649250, 0.5756740),float2(-0.8741830,-0.1685750),
float2( 0.0761715,-0.9631760),float2(-0.9218270, 0.2121210),
float2(-0.6378530, 0.3053550),float2(-0.8425180, 0.4753000)
};
/* standard stuff */
float4 ScreenSize;
float ENightDayFactor;
float EInteriorFactor;
float FadeFactor;
float4 Timer;
float FieldOfView;
float4 WeatherAndTime;
/* this still doesn't do anything */
extern float fWaterLevel;
/* samplers and textures */
texture2D texColor;
texture2D texDepth;
texture2D texNoise3
<
string ResourceName = "menbnoise2.png";
>;
texture2D texHeat
<
#ifdef HEAT_DDS
string ResourceName = "menbheat.dds";
#else
string ResourceName = "menbheat.png";
#endif
>;
texture2D texFrost
<
#ifdef FROST_DDS
string ResourceName = "menbfrost.dds";
#else
string ResourceName = "menbfrost.png";
#endif
>;
texture2D texFrostBump
<
#ifdef FROSTBUMP_DDS
string ResourceName = "menbfrostbump.dds";
#else
string ResourceName = "menbfrostbump.png";
#endif
>;
texture2D texFocus;
texture2D texCurr;
texture2D texPrev;
sampler2D SamplerColor = sampler_state
{
Texture = <texColor>;
MinFilter = LINEAR;
MagFilter = LINEAR;
MipFilter = NONE;
AddressU = Clamp;
AddressV = Clamp;
SRGBTexture = FALSE;
MaxMipLevel = 0;
MipMapLodBias = 0;
};
sampler2D SamplerDepth = sampler_state
{
Texture = <texDepth>;
MinFilter = LINEAR;
MagFilter = LINEAR;
MipFilter = NONE;
AddressU = Clamp;
AddressV = Clamp;
SRGBTexture = FALSE;
MaxMipLevel = 0;
MipMapLodBias = 0;
};
sampler2D SamplerNoise3 = sampler_state
{
Texture = <texNoise3>;
MinFilter = LINEAR;
MagFilter = LINEAR;
MipFilter = NONE;
AddressU = Wrap;
AddressV = Wrap;
SRGBTexture = FALSE;
MaxMipLevel = 0;
MipMapLodBias = 0;
};
sampler2D SamplerHeat = sampler_state
{
Texture = <texHeat>;
MinFilter = LINEAR;
MagFilter = LINEAR;
MipFilter = NONE;
AddressU = Wrap;
AddressV = Wrap;
SRGBTexture = FALSE;
MaxMipLevel = 0;
MipMapLodBias = 0;
};
sampler2D SamplerFrost = sampler_state
{
Texture = <texFrost>;
MinFilter = LINEAR;
MagFilter = LINEAR;
MipFilter = NONE;
AddressU = Wrap;
AddressV = Wrap;
SRGBTexture = FALSE;
MaxMipLevel = 0;
MipMapLodBias = 0;
};
sampler2D SamplerFrostBump = sampler_state
{
Texture = <texFrostBump>;
MinFilter = LINEAR;
MagFilter = LINEAR;
MipFilter = NONE;
AddressU = Wrap;
AddressV = Wrap;
SRGBTexture = FALSE;
MaxMipLevel = 0;
MipMapLodBias = 0;
};
sampler2D SamplerFocus = sampler_state
{
Texture = <texFocus>;
MinFilter = LINEAR;
MagFilter = LINEAR;
MipFilter = NONE;
AddressU = Clamp;
AddressV = Clamp;
SRGBTexture = FALSE;
MaxMipLevel = 0;
MipMapLodBias = 0;
};
sampler2D SamplerCurr = sampler_state
{
Texture = <texCurr>;
MinFilter = LINEAR;
MagFilter = LINEAR;
MipFilter = NONE;
AddressU = Clamp;
AddressV = Clamp;
SRGBTexture = FALSE;
MaxMipLevel = 0;
MipMapLodBias = 0;
};
sampler2D SamplerPrev = sampler_state
{
Texture = <texPrev>;
MinFilter = LINEAR;
MagFilter = LINEAR;
MipFilter = NONE;
AddressU = Clamp;
AddressV = Clamp;
SRGBTexture = FALSE;
MaxMipLevel = 0;
MipMapLodBias = 0;
};
/* whatever */
struct VS_OUTPUT_POST
{
float4 vpos : POSITION;
float2 txcoord : TEXCOORD0;
};
struct VS_INPUT_POST
{
float3 pos : POSITION;
float2 txcoord : TEXCOORD0;
};

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