backport #4695 [naga] Let constant evaluation handle Compose of Splat. (#4833)

Co-authored-by: Jim Blandy <jimb@red-bean.com>
Fixes #4581.
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Elabajaba 2023-12-06 14:25:31 -05:00 committed by GitHub
parent e16f7b4083
commit a3b6900d4d
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8 changed files with 122 additions and 51 deletions

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@ -40,6 +40,13 @@ Bottom level categories:
## Unreleased
## v0.18.2 (2023-XX-XX)
(naga version 0.14.2)
#### Naga
- When evaluating const-expressions and generating SPIR-V, properly handle `Compose` expressions whose operands are `Splat` expressions. Such expressions are created and marked as constant by the constant evaluator. By @jimblandy in [#4695](https://github.com/gfx-rs/wgpu/pull/4695).
## v0.18.1 (2023-11-15)
(naga version 0.14.1)

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@ -661,17 +661,19 @@ pub fn flatten_compose<'arenas>(
expressions: &'arenas crate::Arena<crate::Expression>,
types: &'arenas crate::UniqueArena<crate::Type>,
) -> impl Iterator<Item = crate::Handle<crate::Expression>> + 'arenas {
// Returning `impl Iterator` is a bit tricky. We may or may not want to
// flatten the components, but we have to settle on a single concrete
// type to return. The below is a single iterator chain that handles
// both the flattening and non-flattening cases.
// Returning `impl Iterator` is a bit tricky. We may or may not
// want to flatten the components, but we have to settle on a
// single concrete type to return. This function returns a single
// iterator chain that handles both the flattening and
// non-flattening cases.
let (size, is_vector) = if let crate::TypeInner::Vector { size, .. } = types[ty].inner {
(size as usize, true)
} else {
(components.len(), false)
};
fn flattener<'c>(
/// Flatten `Compose` expressions if `is_vector` is true.
fn flatten_compose<'c>(
component: &'c crate::Handle<crate::Expression>,
is_vector: bool,
expressions: &'c crate::Arena<crate::Expression>,
@ -688,14 +690,35 @@ pub fn flatten_compose<'arenas>(
std::slice::from_ref(component)
}
// Expressions like `vec4(vec3(vec2(6, 7), 8), 9)` require us to flatten
// two levels.
/// Flatten `Splat` expressions if `is_vector` is true.
fn flatten_splat<'c>(
component: &'c crate::Handle<crate::Expression>,
is_vector: bool,
expressions: &'c crate::Arena<crate::Expression>,
) -> impl Iterator<Item = crate::Handle<crate::Expression>> {
let mut expr = *component;
let mut count = 1;
if is_vector {
if let crate::Expression::Splat { size, value } = expressions[expr] {
expr = value;
count = size as usize;
}
}
std::iter::repeat(expr).take(count)
}
// Expressions like `vec4(vec3(vec2(6, 7), 8), 9)` require us to
// flatten up to two levels of `Compose` expressions.
//
// Expressions like `vec4(vec3(1.0), 1.0)` require us to flatten
// `Splat` expressions. Fortunately, the operand of a `Splat` must
// be a scalar, so we can stop there.
components
.iter()
.flat_map(move |component| flattener(component, is_vector, expressions))
.flat_map(move |component| flattener(component, is_vector, expressions))
.flat_map(move |component| flatten_compose(component, is_vector, expressions))
.flat_map(move |component| flatten_compose(component, is_vector, expressions))
.flat_map(move |component| flatten_splat(component, is_vector, expressions))
.take(size)
.cloned()
}
#[test]

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@ -9,6 +9,7 @@ fn main() {
non_constant_initializers();
splat_of_constant();
compose_of_constant();
compose_of_splat();
}
// Swizzle the value of nested Compose expressions.
@ -79,3 +80,7 @@ fn map_texture_kind(texture_kind: i32) -> u32 {
default: { return 0u; }
}
}
fn compose_of_splat() {
var x = vec4f(vec3f(1.0), 2.0).wzyx;
}

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@ -57,6 +57,10 @@ void compose_of_constant() {
ivec4 out_5 = ivec4(-4, -4, -4, -4);
}
void compose_of_splat() {
vec4 x_1 = vec4(2.0, 1.0, 1.0, 1.0);
}
uint map_texture_kind(int texture_kind) {
switch(texture_kind) {
case 0: {
@ -81,6 +85,7 @@ void main() {
non_constant_initializers();
splat_of_constant();
compose_of_constant();
compose_of_splat();
return;
}

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@ -61,6 +61,12 @@ void compose_of_constant()
}
void compose_of_splat()
{
float4 x_1 = float4(2.0, 1.0, 1.0, 1.0);
}
uint map_texture_kind(int texture_kind)
{
switch(texture_kind) {
@ -88,5 +94,6 @@ void main()
non_constant_initializers();
splat_of_constant();
compose_of_constant();
compose_of_splat();
return;
}

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@ -61,6 +61,11 @@ void compose_of_constant(
metal::int4 out_5 = metal::int4(-4, -4, -4, -4);
}
void compose_of_splat(
) {
metal::float4 x_1 = metal::float4(2.0, 1.0, 1.0, 1.0);
}
uint map_texture_kind(
int texture_kind
) {
@ -88,5 +93,6 @@ kernel void main_(
non_constant_initializers();
splat_of_constant();
compose_of_constant();
compose_of_splat();
return;
}

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@ -1,27 +1,27 @@
; SPIR-V
; Version: 1.1
; Generator: rspirv
; Bound: 91
; Bound: 100
OpCapability Shader
%1 = OpExtInstImport "GLSL.std.450"
OpMemoryModel Logical GLSL450
OpEntryPoint GLCompute %83 "main"
OpExecutionMode %83 LocalSize 2 3 1
OpEntryPoint GLCompute %91 "main"
OpExecutionMode %91 LocalSize 2 3 1
%2 = OpTypeVoid
%3 = OpTypeInt 32 0
%4 = OpTypeInt 32 1
%5 = OpTypeVector %4 4
%6 = OpTypeFloat 32
%7 = OpTypeVector %6 4
%7 = OpTypeFloat 32
%6 = OpTypeVector %7 4
%8 = OpConstant %3 2
%9 = OpConstant %4 3
%10 = OpConstant %4 4
%11 = OpConstant %4 8
%12 = OpConstant %6 3.141
%13 = OpConstant %6 6.282
%14 = OpConstant %6 0.44444445
%15 = OpConstant %6 0.0
%16 = OpConstantComposite %7 %14 %15 %15 %15
%12 = OpConstant %7 3.141
%13 = OpConstant %7 6.282
%14 = OpConstant %7 0.44444445
%15 = OpConstant %7 0.0
%16 = OpConstantComposite %6 %14 %15 %15 %15
%17 = OpConstant %4 0
%18 = OpConstant %4 1
%19 = OpConstant %4 2
@ -37,12 +37,16 @@ OpExecutionMode %83 LocalSize 2 3 1
%48 = OpConstantNull %5
%59 = OpConstant %4 -4
%60 = OpConstantComposite %5 %59 %59 %59 %59
%70 = OpTypeFunction %3 %4
%71 = OpConstant %3 10
%72 = OpConstant %3 20
%73 = OpConstant %3 30
%74 = OpConstant %3 0
%81 = OpConstantNull %3
%69 = OpConstant %7 1.0
%70 = OpConstant %7 2.0
%71 = OpConstantComposite %6 %70 %69 %69 %69
%73 = OpTypePointer Function %6
%78 = OpTypeFunction %3 %4
%79 = OpConstant %3 10
%80 = OpConstant %3 20
%81 = OpConstant %3 30
%82 = OpConstant %3 0
%89 = OpConstantNull %3
%21 = OpFunction %2 None %22
%20 = OpLabel
%24 = OpVariable %25 Function %23
@ -99,33 +103,41 @@ OpBranch %66
%66 = OpLabel
OpReturn
OpFunctionEnd
%69 = OpFunction %3 None %70
%68 = OpFunctionParameter %4
%68 = OpFunction %2 None %22
%67 = OpLabel
OpBranch %75
%75 = OpLabel
OpSelectionMerge %76 None
OpSwitch %68 %80 0 %77 1 %78 2 %79
%77 = OpLabel
OpReturnValue %71
%78 = OpLabel
OpReturnValue %72
%79 = OpLabel
OpReturnValue %73
%80 = OpLabel
OpReturnValue %74
%76 = OpLabel
OpReturnValue %81
OpFunctionEnd
%83 = OpFunction %2 None %22
%82 = OpLabel
OpBranch %84
%84 = OpLabel
%85 = OpFunctionCall %2 %21
%86 = OpFunctionCall %2 %28
%87 = OpFunctionCall %2 %33
%88 = OpFunctionCall %2 %38
%89 = OpFunctionCall %2 %58
%90 = OpFunctionCall %2 %64
%72 = OpVariable %73 Function %71
OpBranch %74
%74 = OpLabel
OpReturn
OpFunctionEnd
%77 = OpFunction %3 None %78
%76 = OpFunctionParameter %4
%75 = OpLabel
OpBranch %83
%83 = OpLabel
OpSelectionMerge %84 None
OpSwitch %76 %88 0 %85 1 %86 2 %87
%85 = OpLabel
OpReturnValue %79
%86 = OpLabel
OpReturnValue %80
%87 = OpLabel
OpReturnValue %81
%88 = OpLabel
OpReturnValue %82
%84 = OpLabel
OpReturnValue %89
OpFunctionEnd
%91 = OpFunction %2 None %22
%90 = OpLabel
OpBranch %92
%92 = OpLabel
%93 = OpFunctionCall %2 %21
%94 = OpFunctionCall %2 %28
%95 = OpFunctionCall %2 %33
%96 = OpFunctionCall %2 %38
%97 = OpFunctionCall %2 %58
%98 = OpFunctionCall %2 %64
%99 = OpFunctionCall %2 %68
OpReturn
OpFunctionEnd

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@ -55,6 +55,11 @@ fn compose_of_constant() {
}
fn compose_of_splat() {
var x_1: vec4<f32> = vec4<f32>(2.0, 1.0, 1.0, 1.0);
}
fn map_texture_kind(texture_kind: i32) -> u32 {
switch texture_kind {
case 0: {
@ -80,5 +85,6 @@ fn main() {
non_constant_initializers();
splat_of_constant();
compose_of_constant();
compose_of_splat();
return;
}