Document some more ...

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Hans-Kristian Arntzen 2016-08-02 14:39:06 +02:00
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@ -306,7 +306,7 @@ Note that after the Vulkan GLSL is turned into SPIR-V, the original #version str
Also note that SPIR-V cannot be generated from legacy shader versions such as #version 100 (ES 2.0) or #version 120 (GL 2.1). Also note that SPIR-V cannot be generated from legacy shader versions such as #version 100 (ES 2.0) or #version 120 (GL 2.1).
The frontend will use reflection on the resulting SPIR-V file in order to deduce what each element in the UBO or what each texture means. The frontend will use reflection on the resulting SPIR-V file in order to deduce what each element in the UBO or what each texture means.
The main two types of data passed to shaders are read-only and can be classified as: The main types of data passed to shaders are read-only and can be classified as:
- `uniform sampler2D`: This is used for input textures, framebuffer results and lookup-textures. - `uniform sampler2D`: This is used for input textures, framebuffer results and lookup-textures.
- `uniform Block { };`: This is used for any constant data which is passed to the shader. - `uniform Block { };`: This is used for any constant data which is passed to the shader.
@ -419,16 +419,133 @@ E.g.:
``` ```
#pragma format R16_SFLOAT #pragma format R16_SFLOAT
``` ```
#### `#pragma parameter`
### Example slang shader Shader parameters allow shaders to take user-defined inputs as uniform values.
This makes shaders more configurable.
The format is:
```
#pragma parameter IDENTIFIER "DESCRIPTION" INITIAL MINIMUM MAXIMUM [STEP]
```
The step parameter is optional.
INITIAL, MINIMUM and MAXIMUM are floating point values.
IDENTIFIER is the meaningful string which is the name of the uniform which will be used in a UBO or push constant block.
DESCRIPTION is a string which is human readable representation of IDENTIFIER.
E.g:
```
layout(push_constant) uniform Push {
float DummyVariable;
} registers;
#pragma parameter DummyVariable "This is a dummy variable" 1.0 0.2 2.0 0.1
```
### I/O interface variables
The slang shader spec specifies two vertex inputs and one fragment output.
Varyings between vertex and fragment shaders are user-defined.
#### Vertex inputs
Two attributes are provided and must be present in a shader.
It is only the layout(location = #N) which is actually significant.
The particular names of input and output variables are ignored, but should be consistent for readability.
##### `layout(location = 0) in vec4 Position;`
This attribute is a 2D position in the form `vec4(x, y, 0.0, 1.0);`.
Shaders should not try to extract meaning from the x, y.
`gl_Position` must be assigned as:
``` ```
#version 450 // 450 or 310 es are recommended gl_Position = MVP * Position;
```
##### `layout(location = 1) in vec2 TexCoord;`
The texture coordinate is semantically such that (0.0, 0.0) is top-left and (1.0, 1.0) is bottom right.
If TexCoord is passed to a varying unmodified, the interpolated varying will be `uv = 0.5 / OutputSize` when rendering the upper left pixel as expected and `uv = 1.0 - 0.5 / OutputSize` when rendering the bottom-right pixel.
#### Vertex/Fragment interface
Vertex outputs and fragment inputs link by location, and not name.
E.g.:
```
// Vertex
layout(location = 0) out vec4 varying;
// Fragment
layout(location = 0) in vec4 some_other_name;
```
will still link fine, although using same names are encouraged for readability.
#### Fragment outputs
##### `layout(location = 0) out vec4 FragColor;`
Fragment shaders must have a single output to location = 0.
Multiple render targets are not allowed. The type of the output depends on the render target format.
int/uint type must be used if UINT/INT render target formats are used, otherwise float type.
### Builtin variables
#### Builtin texture variables
The input of textures get their meaning from their name.
- Original: This accesses the input of the filter chain, accessible from any pass.
- Source: This accesses the input from previous shader pass, or Original if accessed in the first pass of the filter chain.
- OriginalHistory#: This accesses the input # frames back in time.
There is no limit on #, except larger numbers will consume more VRAM.
OriginalHistory0 is an alias for Original, OriginalHistory1 is the previous frame and so on.
- PassOutput#: This accesses the output from pass # in this frame.
PassOutput# must be causal, it is an error to access PassOutputN in pass M if M >= N.
PassOutput# will typically be aliased to a more readable value.
- PassFeedback#: This accesses PassOutput# from the previous frame.
Any pass can read the feedback of any feedback, since it is causal.
PassFeedback# will typically be aliased to a more readable value.
- User#: This accesses look-up textures.
However, the direct use of User# is discouraged and should always be accessed via aliases.
#### Builtin texture size uniform variables
If a member of a UBO or a push constant block is called ???Size# where ???# is the name of a texture variable,
that member must be a vec4, which will receive these values:
- X: Horizontal size of texture
- Y: Vertical size of texture
- Z: 1.0 / (Horizontal size of texture)
- W: 1.0 / (Vertical size of texture)
It is valid to use a size variable without declaring the texture itself. This is useful for vertex shading.
It is valid (although probably not useful) for a variable to be present in both a push constant block and a UBO block at the same time.
#### Builtin uniform variables
Other than uniforms related to textures, there are other special uniforms available.
These builtin variables may be part of a UBO block and/or a push constant block.
- MVP: mat4 model view projection matrix.
- OutputSize: a vec4(x, y, 1.0 / x, 1.0 / y) variable describing the render target size (x, y) for this pass.
- FinalViewportSize: a vec4(x, y, 1.0 / x, 1.0 / y) variable describing the render target size for the final pass.
Accessible from any pass.
- FrameCount: a uint variable taking a value which increases by one every frame.
This value could be pre-wrapped by modulo if specified in preset.
This is useful for creating time-dependent effects.
#### Aliases
Aliases can give meaning to arbitrary names in a slang file.
This is mostly relevant for LUT textures, shader parameters and accessing other passes by name.
If a shader pass has a `#pragma name NAME` associated with it, meaning is given to the shader:
- NAME, is a sampler2D.
- NAMESize is a vec4 size uniform associated with NAME.
- NAMEFeedback is a sampler2D for the previous pass.
- NAMEFeedbackSize is a vec4 size uniform associated with NAMEFeedback.
#### Example slang shader
```
#version 450
// 450 or 310 es are recommended
layout(set = 0, binding = 0, std140) uniform UBO layout(set = 0, binding = 0, std140) uniform UBO
{ {
mat4 MVP; mat4 MVP;
vec4 SourceSize; vec4 SourceSize; // Not used here, but doesn't hurt
float ColorMod; float ColorMod;
}; };
@ -456,4 +573,19 @@ void main()
} }
``` ```
### Caveats
TexCoord also replaces `gl_FragCoord`. Do not use `gl_FragCoord` as it doesn't consider the viewports correctly.
If you need `gl_FragCoord` use `vTexCoord * OutputSize.xy` instead.
Be careful with derivatives of vTexCoord. The screen might have been rotated by the vertex shader, which will also rotate the derivatives, especially in the final pass which hits the backbuffer.
However, derivatives are fortunately never really needed, since w = 1 (we render flat 2D quads),
which means derivatives of varyings are constant. You can do some trivial replacements which will be faster and more robust.
```
dFdx(vTexCoord) = vec2(OutputSize.z, 0.0);
dFdy(vTexCoord) = vec2(0.0, OutputSize.w);
fwidth(vTexCoord) = max(OutputSize.z, OutputSize.w);
```
## Porting guide from legacy Cg spec ## Porting guide from legacy Cg spec