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|
use std::borrow::Cow;
use crate::proc::Alignment;
use super::Error;
impl crate::ScalarKind {
pub(super) fn to_hlsl_cast(self) -> &'static str {
match self {
Self::Float => "asfloat",
Self::Sint => "asint",
Self::Uint => "asuint",
Self::Bool | Self::AbstractInt | Self::AbstractFloat => unreachable!(),
}
}
}
impl crate::Scalar {
/// Helper function that returns scalar related strings
///
/// <https://docs.microsoft.com/en-us/windows/win32/direct3dhlsl/dx-graphics-hlsl-scalar>
pub(super) const fn to_hlsl_str(self) -> Result<&'static str, Error> {
match self.kind {
crate::ScalarKind::Sint => Ok("int"),
crate::ScalarKind::Uint => Ok("uint"),
crate::ScalarKind::Float => match self.width {
2 => Ok("half"),
4 => Ok("float"),
8 => Ok("double"),
_ => Err(Error::UnsupportedScalar(self)),
},
crate::ScalarKind::Bool => Ok("bool"),
crate::ScalarKind::AbstractInt | crate::ScalarKind::AbstractFloat => {
Err(Error::UnsupportedScalar(self))
}
}
}
}
impl crate::TypeInner {
pub(super) const fn is_matrix(&self) -> bool {
match *self {
Self::Matrix { .. } => true,
_ => false,
}
}
pub(super) fn size_hlsl(&self, gctx: crate::proc::GlobalCtx) -> u32 {
match *self {
Self::Matrix {
columns,
rows,
scalar,
} => {
let stride = Alignment::from(rows) * scalar.width as u32;
let last_row_size = rows as u32 * scalar.width as u32;
((columns as u32 - 1) * stride) + last_row_size
}
Self::Array { base, size, stride } => {
let count = match size {
crate::ArraySize::Constant(size) => size.get(),
// A dynamically-sized array has to have at least one element
crate::ArraySize::Dynamic => 1,
};
let last_el_size = gctx.types[base].inner.size_hlsl(gctx);
((count - 1) * stride) + last_el_size
}
_ => self.size(gctx),
}
}
/// Used to generate the name of the wrapped type constructor
pub(super) fn hlsl_type_id<'a>(
base: crate::Handle<crate::Type>,
gctx: crate::proc::GlobalCtx,
names: &'a crate::FastHashMap<crate::proc::NameKey, String>,
) -> Result<Cow<'a, str>, Error> {
Ok(match gctx.types[base].inner {
crate::TypeInner::Scalar(scalar) => Cow::Borrowed(scalar.to_hlsl_str()?),
crate::TypeInner::Vector { size, scalar } => Cow::Owned(format!(
"{}{}",
scalar.to_hlsl_str()?,
crate::back::vector_size_str(size)
)),
crate::TypeInner::Matrix {
columns,
rows,
scalar,
} => Cow::Owned(format!(
"{}{}x{}",
scalar.to_hlsl_str()?,
crate::back::vector_size_str(columns),
crate::back::vector_size_str(rows),
)),
crate::TypeInner::Array {
base,
size: crate::ArraySize::Constant(size),
..
} => Cow::Owned(format!(
"array{size}_{}_",
Self::hlsl_type_id(base, gctx, names)?
)),
crate::TypeInner::Struct { .. } => {
Cow::Borrowed(&names[&crate::proc::NameKey::Type(base)])
}
_ => unreachable!(),
})
}
}
impl crate::StorageFormat {
pub(super) const fn to_hlsl_str(self) -> &'static str {
match self {
Self::R16Float => "float",
Self::R8Unorm | Self::R16Unorm => "unorm float",
Self::R8Snorm | Self::R16Snorm => "snorm float",
Self::R8Uint | Self::R16Uint => "uint",
Self::R8Sint | Self::R16Sint => "int",
Self::Rg16Float => "float2",
Self::Rg8Unorm | Self::Rg16Unorm => "unorm float2",
Self::Rg8Snorm | Self::Rg16Snorm => "snorm float2",
Self::Rg8Sint | Self::Rg16Sint => "int2",
Self::Rg8Uint | Self::Rg16Uint => "uint2",
Self::Rg11b10Float => "float3",
Self::Rgba16Float | Self::R32Float | Self::Rg32Float | Self::Rgba32Float => "float4",
Self::Rgba8Unorm | Self::Bgra8Unorm | Self::Rgba16Unorm | Self::Rgb10a2Unorm => {
"unorm float4"
}
Self::Rgba8Snorm | Self::Rgba16Snorm => "snorm float4",
Self::Rgba8Uint
| Self::Rgba16Uint
| Self::R32Uint
| Self::Rg32Uint
| Self::Rgba32Uint
| Self::Rgb10a2Uint => "uint4",
Self::Rgba8Sint
| Self::Rgba16Sint
| Self::R32Sint
| Self::Rg32Sint
| Self::Rgba32Sint => "int4",
}
}
}
impl crate::BuiltIn {
pub(super) fn to_hlsl_str(self) -> Result<&'static str, Error> {
Ok(match self {
Self::Position { .. } => "SV_Position",
// vertex
Self::ClipDistance => "SV_ClipDistance",
Self::CullDistance => "SV_CullDistance",
Self::InstanceIndex => "SV_InstanceID",
Self::VertexIndex => "SV_VertexID",
// fragment
Self::FragDepth => "SV_Depth",
Self::FrontFacing => "SV_IsFrontFace",
Self::PrimitiveIndex => "SV_PrimitiveID",
Self::SampleIndex => "SV_SampleIndex",
Self::SampleMask => "SV_Coverage",
// compute
Self::GlobalInvocationId => "SV_DispatchThreadID",
Self::LocalInvocationId => "SV_GroupThreadID",
Self::LocalInvocationIndex => "SV_GroupIndex",
Self::WorkGroupId => "SV_GroupID",
// The specific semantic we use here doesn't matter, because references
// to this field will get replaced with references to `SPECIAL_CBUF_VAR`
// in `Writer::write_expr`.
Self::NumWorkGroups => "SV_GroupID",
Self::BaseInstance | Self::BaseVertex | Self::WorkGroupSize => {
return Err(Error::Unimplemented(format!("builtin {self:?}")))
}
Self::PointSize | Self::ViewIndex | Self::PointCoord => {
return Err(Error::Custom(format!("Unsupported builtin {self:?}")))
}
})
}
}
impl crate::Interpolation {
/// Return the string corresponding to the HLSL interpolation qualifier.
pub(super) const fn to_hlsl_str(self) -> Option<&'static str> {
match self {
// Would be "linear", but it's the default interpolation in SM4 and up
// https://docs.microsoft.com/en-us/windows/win32/direct3dhlsl/dx-graphics-hlsl-struct#interpolation-modifiers-introduced-in-shader-model-4
Self::Perspective => None,
Self::Linear => Some("noperspective"),
Self::Flat => Some("nointerpolation"),
}
}
}
impl crate::Sampling {
/// Return the HLSL auxiliary qualifier for the given sampling value.
pub(super) const fn to_hlsl_str(self) -> Option<&'static str> {
match self {
Self::Center => None,
Self::Centroid => Some("centroid"),
Self::Sample => Some("sample"),
}
}
}
impl crate::AtomicFunction {
/// Return the HLSL suffix for the `InterlockedXxx` method.
pub(super) const fn to_hlsl_suffix(self) -> &'static str {
match self {
Self::Add | Self::Subtract => "Add",
Self::And => "And",
Self::InclusiveOr => "Or",
Self::ExclusiveOr => "Xor",
Self::Min => "Min",
Self::Max => "Max",
Self::Exchange { compare: None } => "Exchange",
Self::Exchange { .. } => "", //TODO
}
}
}
|
