thebookofshaders/06/notes.md
2017-08-23 11:34:44 +02:00

4.1 KiB

Add some references and ideas from this IQ article: http://iquilezles.org/www/articles/palettes/palettes.htm

nicolas

  • struct exist in GLSL : this is valid
   struct my_struct {
     vec4 color;
   };
   uniform my_struct u_colors[2];
   void main(void) {
       gl_FragColor = u_colors[0].color;
   }

source

[NICO] note: I had previously associated the name accessor to 'the way one can access the properties of an object'.

we can use those accessors independently ; the following code creates a clone newColor of the color vector by using a different accessor for each property.

vec4 color = vec4( 1.,0.,0.5,1. );
vec4 newColor = vec4( color[0], color.g, color.z, color.q );

It is possible to combine the properties by concatenating different accessors: if we need to use the .r, .g and .b values of a 4 dimensions vector but don't need the .a (alpha) value, we can write:

vec4 color = vec4( 1.,0.,0.5,1. );
vec4 newColor = vec4( color.rgb, 1.0 );

Which is the same as cloning each property .r, .g and .b from color individually and dropping the last (.a).

In this case, color.rgb is interpreted as a vector of type vec3 that contains the values .r, .g and .b of the original vec4 vector color. The same goes for:

vec4 color = vec4( 1.,0.,0.5,1. );
vec3 newColor = vec3( color.xy, 1.0 );

We use the values .x and .y from color to build a vector newColors of type vec3 which .r and .g values will be the same as the color vector and .b value will be 1.0.

Last but not least, the order in which you concatenate the accessors matters.

If you want to build a vector from another vector but want to reverse the order of the properties, here's how you can write it:

vec3 color = vec3( 1.0, 0.0, 0.5 );
vec3 newColor = color.bgr;

the newColor vector will copy color's properties but instead of copying them in the "regular" order: .r, .g and .b, it will copy them in the order defined by the concatenation: .b, .g and .r.

color.r => 1.0
color.g => 0.0
color.b => 0.5
and
newColor.r => 0.5
newColor.g => 0.0
newColor.b => 1.0

On a side note, you can reuse the same accessor mutiple times and in whatever order in a concatenated accessor:

color.rrr => vec3( 1.0 )
color.rrg => vec3( 1.0, 1.0, 0.0)
color.bgg => vec3( 0.5, 0.0, 0.0)
etc.

This results in the fact that, if the following is true:

color.rgba = color.xyzw = color.stpq

these statements are not necessarily true:

color.rgba != color.argb != color.rbga != color.abgr etc.
color.xyzw != color.wxyz != color.xzyw != color.wzyx etc.
color.stpq != color.qstp != color.sptq != color.qpts etc.

This is a powerful feature ; it allows to store the data in compact forms and manipulate them in very flexible ways. Let's see a use case of the compactness: say you want to describe a rectangle, you can do so by using 2 vec2 describing respectively the top left corner and the bottom right corner or you can instead, use a single vec4 which .xy accessor will return a vec2 describing the top left corner, and which .zw accessor will return a vec2 describing the bottom right corner.

[/NICO]

These different ways of pointing to the variables inside a vector are just nomenclatures designed to help you write clear code. This flexibility embedded in shading language is a door for you to start thinking interchangably about color and space coordinates.

[NICO]

rephrased this: Another great feature of vector types in GLSL is that the properties can be combined in any order you want, which makes it easy to cast and mix values. This ability is called swizzle.

to: Concatenation or swizzle gets really interesting when we need to cast and mix values. The following example show you how to swizzle properties between vectors.

[/NICO]