Procedural Textures: Difference between revisions
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== What are procedural textures == | |||
Procedural textures are textures generated by our engine on the basis of theirs text description. | Procedural textures are textures generated by our engine on the basis of theirs text description. | ||
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== Types of procedural textures == | |||
=== color === | |||
#(format,width,height,number of mipmaps)color(r,g,b,a,texture type) | #(format,width,height,number of mipmaps)color(r,g,b,a,texture type) | ||
*format - texture color format (RGB nebo ARGB) | * format - texture color format (RGB nebo ARGB) | ||
*width - number of pixels in X | * width - number of pixels in X | ||
*height - number of pixels in Y | * height - number of pixels in Y | ||
*number of mipmaps - number of mipmaps | * number of mipmaps - number of mipmaps | ||
*r, g, b, a - texture channels (Red, Green, Blue, Alpha). Decimals have to be preceded by a 0 (e.g. 0.5 instead of .5). | * r, g, b, a - texture channels (Red, Green, Blue, Alpha). Decimals have to be preceded by a 0 (e.g. 0.5 instead of .5). | ||
*texture type - [[Texture Naming Conventions|texture type]] which match texture name ending without "_" (optional) | * texture type - [[Texture Naming Conventions|texture type]] which match texture name ending without "_" (optional) | ||
Examples: | Examples: | ||
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#(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) | #(argb,512,512,1)r2t(surface,aspect) | ||
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#(argb,512,512,1)r2t(rendersurface,1.333) | #(argb,512,512,1)r2t(rendersurface,1.333) | ||
{{Informative | Avoid using capital letters when naming rtt surfaces.}} | |||
=== perlinNoise === | |||
#(format,width,height,number of mipmaps)perlinNoise(xScale,yScale,min,max) | #(format,width,height,number of mipmaps)perlinNoise(xScale,yScale,min,max) | ||
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#(ai,512,512,9)perlinNoise(256,256,0,1) | #(ai,512,512,9)perlinNoise(256,256,0,1) | ||
=== irradiance === | |||
#(format,width,height,number of mipmaps)irradiance(specular power) | #(format,width,height,number of mipmaps)irradiance(specular power) | ||
*format - texture color format (RGB nebo ARGB) | * format - texture color format (RGB nebo ARGB) | ||
*width - number of pixels in X | * width - number of pixels in X | ||
*height - number of pixels in Y | * height - number of pixels in Y | ||
*number of mipmaps - number of mipmaps | * number of mipmaps - number of mipmaps | ||
*specular power - specular strenght | * specular power - specular strenght | ||
It's values table which is used with per-pixel lighting. Modern shaders aren't using this type of texture anymore. | It's values table which is used with per-pixel lighting. Modern shaders aren't using this type of texture anymore. | ||
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#(ai,32,128,1)irradiance(8) | #(ai,32,128,1)irradiance(8) | ||
=== Fresnel === | |||
see [[ | |||
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) | ||
=== fresnelGlass === | |||
#(format,width,height,number of mipmaps)fresnelGlass() | #(format,width,height,number of mipmaps)fresnelGlass() | ||
*format - texture color format (RGB nebo ARGB) | * format - texture color format (RGB nebo ARGB) | ||
*width - number of pixels in X | * width - number of pixels in X | ||
*height - number of pixels in Y | * height - number of pixels in Y | ||
*number of mipmaps - number of mipmaps | * number of mipmaps - number of mipmaps | ||
Examples: | Examples: | ||
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#(ai,64,64,1)fresnelGlass() | #(ai,64,64,1)fresnelGlass() | ||
=== waterIrradiance === | |||
#(format,width,height,number of mipmaps)waterIrradiance(specular power) | #(format,width,height,number of mipmaps)waterIrradiance(specular power) | ||
*format - texture color format (RGB nebo ARGB) | * format - texture color format (RGB nebo ARGB) | ||
*width - number of pixels in X | * width - number of pixels in X | ||
*height - number of pixels in Y | * height - number of pixels in Y | ||
*number of mipmaps - number of mipmaps | * number of mipmaps - number of mipmaps | ||
*specular power - specular strenght | * specular power - specular strenght | ||
Possible future expansion : As addition to specular exponen there might be refractive index. | Possible future expansion : As addition to specular exponen there might be refractive index. | ||
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This texture main value is solely with special pixel shaders for water. | This texture main value is solely with special pixel shaders for water. | ||
=== treeCrown === | |||
#(format,width,height,number of mipmaps)treeCrown(density) | #(format,width,height,number of mipmaps)treeCrown(density) | ||
*format - texture color format (RGB nebo ARGB) | * format - texture color format (RGB nebo ARGB) | ||
*width - number of pixels in X | * width - number of pixels in X | ||
*height - number of pixels in Y | * height - number of pixels in Y | ||
*number of mipmaps - number of mipmaps | * number of mipmaps - number of mipmaps | ||
*specular power - specular strenght | * specular power - specular strenght | ||
*density - defines how much light pass thought tree-top via longest line segment | * density - defines how much light pass thought tree-top via longest line segment | ||
It's used only for diffuse lighting actually it just counts exponential function (v PS2 can be done easily w/o texture) | It's used only for diffuse lighting actually it just counts exponential function (v PS2 can be done easily w/o texture) | ||
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#(ai,32,32,1)treeCrown(0.2) | #(ai,32,32,1)treeCrown(0.2) | ||
=== Others === | |||
Engine supports also simple procedural textures, you can just write instead of filename | Engine supports also simple procedural textures, you can just write instead of filename | ||
#(format,width,height,number of mipmaps)color(r,g,b,a) | #(format,width,height,number of mipmaps)color(r,g,b,a) | ||
==== Empty detail map ==== | |||
====Empty detail map==== | |||
#(rgb,1,1,1)color(0.5,0.5,0.5,1) | #(rgb,1,1,1)color(0.5,0.5,0.5,1) | ||
====Empty normal map==== | ==== Empty normal map ==== | ||
#(rgb,1,1,1)color(0.5,0.5,1,1) | #(rgb,1,1,1)color(0.5,0.5,1,1) | ||
[[Category:ArmA: Texturing]] | [[Category:ArmA: Texturing]] | ||
[[Category:ArmA 2: Editing]] | [[Category:ArmA 2: Editing]] | ||
[[Category:Arma 3: Editing]] | [[Category:Arma 3: Editing]] | ||
[[Category:Data Types]] |
Revision as of 12:40, 4 December 2019
What are procedural textures
Procedural textures are textures generated by our engine on the basis of theirs 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 procedural texture is used character "#" on beginning of string. Usually string consists of procedural texture type name and arguments on sides enclosed in brackets: #(A)TypeName(B). There can't be any spaces or mathematical expressions within name.
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 with same name then it's taken as only one texture and uses memory space only once. Thus it's needed to avoid creating unnecessarily nearly same textures.
Types of procedural textures
color
#(format,width,height,number of mipmaps)color(r,g,b,a,texture type)
- format - texture color format (RGB nebo ARGB)
- width - number of pixels in X
- height - number of pixels in Y
- number of mipmaps - number of mipmaps
- r, g, b, a - texture channels (Red, Green, Blue, Alpha). Decimals have to be preceded by a 0 (e.g. 0.5 instead of .5).
- texture type - texture type which match texture name ending without "_" (optional)
Examples:
#(rgb,8,8,3)color(1,0,0,1) #(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)
perlinNoise
#(format,width,height,number of mipmaps)perlinNoise(xScale,yScale,min,max)
- xScale - horizontal noise scale (typically a multiply of 256)
- yScale - horizontal noise scale (typically a multiply of 256)
- min - minimum value
- max - minimum value
Examples:
#(ai,512,512,9)perlinNoise(256,256,0,1)
irradiance
#(format,width,height,number of mipmaps)irradiance(specular power)
- format - texture color format (RGB nebo ARGB)
- width - number of pixels in X
- height - number of pixels in Y
- number of mipmaps - number of mipmaps
- specular power - specular strenght
It's values table which is used with per-pixel lighting. Modern shaders aren't using this type of texture anymore.
Examples:
#(ai,32,128,1)irradiance(8)
Fresnel
see Super shader - Fresnel function
Example:
#(ai,64,64,1)Fresnel(1.3,7)
fresnelGlass
#(format,width,height,number of mipmaps)fresnelGlass()
- format - texture color format (RGB nebo ARGB)
- width - number of pixels in X
- height - number of pixels in Y
- number of mipmaps - number of mipmaps
Examples:
#(ai,64,64,1)fresnelGlass()
waterIrradiance
#(format,width,height,number of mipmaps)waterIrradiance(specular power)
- format - texture color format (RGB nebo ARGB)
- width - number of pixels in X
- height - number of pixels in Y
- number of mipmaps - number of mipmaps
- specular power - specular strenght
Possible future expansion : As addition to specular exponen there might be refractive index.
This texture main value is solely with special pixel shaders for water.
treeCrown
#(format,width,height,number of mipmaps)treeCrown(density)
- format - texture color format (RGB nebo ARGB)
- width - number of pixels in X
- height - number of pixels in Y
- number of mipmaps - number of mipmaps
- specular power - specular strenght
- density - defines how much light pass thought tree-top via longest line segment
It's used only for diffuse lighting actually it just counts exponential function (v PS2 can be done easily w/o texture)
For ambient lighting is used another type of textures: texture="#(ai,32,32,1)treeCrownAmb(0.5)"; Parameter defines how much surrounding light pass into defined point. Textura is exponential function of distance from circle boundary.
Examples:
#(ai,32,32,1)treeCrown(0.2)
Others
Engine supports also simple procedural textures, you can just write instead of filename
#(format,width,height,number of mipmaps)color(r,g,b,a)
Empty detail map
#(rgb,1,1,1)color(0.5,0.5,0.5,1)
Empty normal map
#(rgb,1,1,1)color(0.5,0.5,1,1)