Procedural Textures: Difference between revisions
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Procedural textures are textures generated by the engine on the basis of their text description. | |||
They can be used anywhere instead of normal textures.<br> | |||
Procedural textures are textures generated by | |||
They can be used anywhere instead of normal textures. | |||
Text description of procedural texture is set in standard place of texture path and filename. | Text description of procedural texture is set in standard place of texture path and filename. | ||
To identify procedural texture is used character "#" | To identify that a procedural texture is used, the character "#" is set at the beginning of the string.<br> | ||
Usually string consists of procedural texture type name and arguments on sides enclosed in brackets | Usually the string consists of procedural texture type name and arguments on both sides enclosed in brackets, in format {{hl|#(leftArgs)TypeName(rightArgs)}}. | ||
Textures may be generated procedurally and they take nearly no space on HDD but they still use space in video | Textures may be generated procedurally and they take nearly no space on HDD but they still use space in video memory. | ||
Yet if two materials use procedural texture | Yet, if two materials use the exact same procedural texture string, the texture already existing in video memory is used and not duplicated - thus it may be important to try and avoid creating unnecessary similar textures. | ||
{{Feature|important| | |||
* There cannot be any spaces or mathematical expressions within the string. | |||
* Decimals always have to be preceded by a 0 (e.g. {{hl|0.5}} instead of {{hl|.5}}). | |||
}} | |||
== | == Procedural Texture Types == | ||
Note that all texture types have in common the left-hand parameters list: | |||
* format - texture color format (can be {{hl|rgb}}, {{hl|argb}}, {{hl|ai}}, {{hl|a}}, {{hl|i}}) | |||
* width - number of pixels in X, in power of two (e.g 1, 2, 4, 8, 16, 32, 64, 128 etc) | |||
* height - number of pixels in Y, in power of two (e.g 1, 2, 4, 8, 16, 32, 64, 128 etc) | |||
* mipmapsAmount - number of mipmaps | |||
=== Color === | |||
#(format,width,height,mipmapsAmount)'''color'''(r,g,b,a) | |||
and | |||
#(format,width,height,mipmapsAmount)'''color'''(r,g,b,a,textureType) | |||
* r, g, b, a - texture channels (Red, Green, Blue, Alpha) | |||
* textureType - [[Texture Naming Conventions|texture type]] which match texture name ending without "_" (optional) | |||
Examples: | Examples: | ||
#(rgb,8,8,3)color(1,0,0,1) | |||
#(rgb,1,1,1)color(0.5,0.5,0.5,1) {{cc|empty 1×1 detail map}} | |||
#(rgb,1,1,1)color(0.5,0.5,1,1) {{cc|empty 1×1 normal map}} | |||
#(rgb,8,8,3)color(0.5,0.5,0.5,1,dt) | #(rgb,8,8,3)color(0.5,0.5,0.5,1,dt) | ||
#(rgb,8,8,3)color(0.5,0.5,1,1,no) | #(rgb,8,8,3)color(0.5,0.5,1,1,no) | ||
=== | === Render To Texture === | ||
#(argb,512,512,1)'''r2t'''(surface,aspect) | |||
* surface - The name that will later be used as reference in the camera script | |||
* aspect - Aspect ratio of the image | |||
{{Feature|informative|Do not use capital letters when naming RTT surfaces.}} | |||
* xScale - horizontal noise scale (typically a | Examples: | ||
* yScale - horizontal noise scale (typically a | #(argb,512,512,1)r2t(rtt,1.0) | ||
#(argb,512,512,1)r2t(rendersurface,1.333) | |||
=== Perlin Noise === | |||
#(format,width,height,mipmapsAmount)'''perlinNoise'''(xScale,yScale,min,max) | |||
* xScale - horizontal noise scale (typically a multiple of 256) | |||
* yScale - horizontal noise scale (typically a multiple of 256) | |||
* min - minimum value | * min - minimum value | ||
* max - minimum value | * max - minimum value | ||
Examples: | Examples: | ||
#(ai,512,512,9)perlinNoise(256,256,0,1) | |||
=== Irradiance === | |||
#(format,width,height,mipmapsAmount)'''irradiance'''(specularPower) | |||
* specularPower - specular strength | |||
* | |||
It | It is a values table that is used with per-pixel lighting. Modern shaders are not using this type of texture anymore. | ||
Examples: | Examples: | ||
#(ai,32,128,1)irradiance(8) | |||
#( | === Fresnel === | ||
#(format,width,height,mipmapsAmount)'''Fresnel'''(N,K) | |||
* N - refractive index | |||
* K - absorption coefficient | |||
{{Feature|informative|see [[Super shader#6._Fresnel function|Super shader - Fresnel function]].}} | |||
Example: | |||
#(ai,64,64,1)Fresnel(1.3,7) | #(ai,64,64,1)Fresnel(1.3,7) | ||
=== | === Fresnel Glass === | ||
#(format,width,height, | #(format,width,height,mipmapsAmount)'''fresnelGlass'''() | ||
Examples: | Examples: | ||
#(ai,64,64,1)fresnelGlass() | |||
=== Water Irradiance === | |||
#( | #(format,width,height,mipmapsAmount)'''waterIrradiance'''(specularPower) | ||
* specularPower - specular strength | |||
This texture main value is solely with special pixel shaders for water. | |||
Examples: | |||
=== Tree Crown === | |||
#(format,width,height,mipmapsAmount)'''treeCrown'''(density) | |||
and | |||
#(format,width,height,mipmapsAmount)'''treeCrownAmb'''(density) | |||
for ambient lighting. | |||
* density - defines how much light passes thought tree-top ''via'' the longest line segment | |||
This texture is used only for diffuse lighting actually it just counts exponential function (v PS2 can be done easily w/o texture). | |||
Parameter defines how much surrounding light passes into the defined point. | |||
It uses an exponential function of distance from circle boundary. | |||
Examples: | |||
#(ai,32,32,1)treeCrown(0.2) | |||
#(ai,32,32,1)treeCrownAmb(0.5) | |||
=== Point === | |||
#(format,width,height,mimapsAmount)'''point'''() | |||
Create a white dot on a transparent background. | |||
Examples: | |||
#(rgb,64,64,1)point() | |||
=== Dither === | |||
#(format,width,height,mipmapsAmount)'''dither'''(min,max) | |||
* min - minimum value | |||
* max - minimum value | |||
The format '''has''' to be {{hl|ai}}. | |||
Examples: | Examples: | ||
#(ai,8,8,1)dither(0,150) | |||
{{ArgTitle|3|Text|{{GVI|arma3|2.12}}}} | |||
Creates a text texture. | |||
#(rgb,width,height,3)'''text'''(valign,halign,"FontName",fontSize,backgroundColor,textColor,"text") | |||
#( | * valign - from 0(top), 1(center), 2(bottom) | ||
* halign - from 0(left), 1(center), 2(right) | |||
* fontName - [[FXY File Format#Arma 3|Available fonts]] | |||
* fontSize - Number | |||
* backgroundColor - in format #RRGGBB or #RRGGBBAA | |||
* textColor - in format #RRGGBB or #RRGGBBAA | |||
* text - the text to display | |||
Examples: | |||
#(rgb,512,512,3)text(0,0,"Caveat",0.3,"#0000ff7f","#ff0000","Hallo\n"Welt"") | |||
{{ArgTitle|3|UI On Texture|{{GVI|arma3|2.12}}}} | |||
Generates an UI Display and renders the result into a texture. | |||
#( | #(rgb,Width,Height,MipCount)'''ui'''("DisplayClassName","UniqueName","texType") | ||
* displayClassName - From [[Description.ext]] (Mission Config File) or {{hl|config.cpp}} (Mod Config). Case sensitive. | |||
* uniqueName - A string to declare the display's unique name. Naming is the same as classnames (a-z, A-Z, 0-9, _) | |||
* texType - (Optional) default "ca"? See [[Texture Map Types]] | |||
Examples: | |||
#(rgb,1024,1024,1)ui("RscDisplayRenderTest","abc") | |||
#(rgb,1024,1024,1)ui(RscDisplayMain,abc) | |||
Related commands: | |||
[[displayUpdate]], [[displayUniqueName]] | |||
{{GameCategory|arma1|Texturing}} | |||
{{GameCategory|arma2|Editing}} | |||
{{GameCategory|arma3|Editing}} | |||
Revision as of 14:39, 29 December 2022
Procedural textures are textures generated by the engine on the basis of their text description.
They can be used anywhere instead of normal textures.
Text description of procedural texture is set in standard place of texture path and filename.
To identify that a procedural texture is used, the character "#" is set at the beginning of the string.
Usually the string consists of procedural texture type name and arguments on both sides enclosed in brackets, in format #(leftArgs)TypeName(rightArgs).
Textures may be generated procedurally and they take nearly no space on HDD but they still use space in video memory. Yet, if two materials use the exact same procedural texture string, the texture already existing in video memory is used and not duplicated - thus it may be important to try and avoid creating unnecessary similar textures.
Procedural Texture Types
Note that all texture types have in common the left-hand parameters list:
- format - texture color format (can be rgb, argb, ai, a, i)
- width - number of pixels in X, in power of two (e.g 1, 2, 4, 8, 16, 32, 64, 128 etc)
- height - number of pixels in Y, in power of two (e.g 1, 2, 4, 8, 16, 32, 64, 128 etc)
- mipmapsAmount - number of mipmaps
Color
#(format,width,height,mipmapsAmount)color(r,g,b,a)
and
#(format,width,height,mipmapsAmount)color(r,g,b,a,textureType)
- r, g, b, a - texture channels (Red, Green, Blue, Alpha)
- textureType - texture type which match texture name ending without "_" (optional)
Examples:
#(rgb,8,8,3)color(1,0,0,1) #(rgb,1,1,1)color(0.5,0.5,0.5,1) // empty 1×1 detail map #(rgb,1,1,1)color(0.5,0.5,1,1) // empty 1×1 normal map #(rgb,8,8,3)color(0.5,0.5,0.5,1,dt) #(rgb,8,8,3)color(0.5,0.5,1,1,no)
Render To Texture
#(argb,512,512,1)r2t(surface,aspect)
- surface - The name that will later be used as reference in the camera script
- aspect - Aspect ratio of the image
Examples:
#(argb,512,512,1)r2t(rtt,1.0) #(argb,512,512,1)r2t(rendersurface,1.333)
Perlin Noise
#(format,width,height,mipmapsAmount)perlinNoise(xScale,yScale,min,max)
- xScale - horizontal noise scale (typically a multiple of 256)
- yScale - horizontal noise scale (typically a multiple of 256)
- min - minimum value
- max - minimum value
Examples:
#(ai,512,512,9)perlinNoise(256,256,0,1)
Irradiance
#(format,width,height,mipmapsAmount)irradiance(specularPower)
- specularPower - specular strength
It is a values table that is used with per-pixel lighting. Modern shaders are not using this type of texture anymore.
Examples:
#(ai,32,128,1)irradiance(8)
Fresnel
#(format,width,height,mipmapsAmount)Fresnel(N,K)
- N - refractive index
- K - absorption coefficient
Example:
#(ai,64,64,1)Fresnel(1.3,7)
Fresnel Glass
#(format,width,height,mipmapsAmount)fresnelGlass()
Examples:
#(ai,64,64,1)fresnelGlass()
Water Irradiance
#(format,width,height,mipmapsAmount)waterIrradiance(specularPower)
- specularPower - specular strength
This texture main value is solely with special pixel shaders for water.
Examples:
Tree Crown
#(format,width,height,mipmapsAmount)treeCrown(density)
and
#(format,width,height,mipmapsAmount)treeCrownAmb(density)
for ambient lighting.
- density - defines how much light passes thought tree-top via the longest line segment
This texture is used only for diffuse lighting actually it just counts exponential function (v PS2 can be done easily w/o texture).
Parameter defines how much surrounding light passes into the defined point. It uses an exponential function of distance from circle boundary.
Examples:
#(ai,32,32,1)treeCrown(0.2) #(ai,32,32,1)treeCrownAmb(0.5)
Point
#(format,width,height,mimapsAmount)point()
Create a white dot on a transparent background.
Examples:
#(rgb,64,64,1)point()
Dither
#(format,width,height,mipmapsAmount)dither(min,max)
- min - minimum value
- max - minimum value
The format has to be ai.
Examples:
#(ai,8,8,1)dither(0,150)
Text
Creates a text texture.
#(rgb,width,height,3)text(valign,halign,"FontName",fontSize,backgroundColor,textColor,"text")
- valign - from 0(top), 1(center), 2(bottom)
- halign - from 0(left), 1(center), 2(right)
- fontName - Available fonts
- fontSize - Number
- backgroundColor - in format #RRGGBB or #RRGGBBAA
- textColor - in format #RRGGBB or #RRGGBBAA
- text - the text to display
Examples:
#(rgb,512,512,3)text(0,0,"Caveat",0.3,"#0000ff7f","#ff0000","Hallo\n"Welt"")
UI On Texture
Generates an UI Display and renders the result into a texture.
#(rgb,Width,Height,MipCount)ui("DisplayClassName","UniqueName","texType")
- displayClassName - From Description.ext (Mission Config File) or config.cpp (Mod Config). Case sensitive.
- uniqueName - A string to declare the display's unique name. Naming is the same as classnames (a-z, A-Z, 0-9, _)
- texType - (Optional) default "ca"? See Texture Map Types
Examples:
#(rgb,1024,1024,1)ui("RscDisplayRenderTest","abc")
#(rgb,1024,1024,1)ui(RscDisplayMain,abc)
Related commands: displayUpdate, displayUniqueName