encounter
/
dawn-cmake
mirror of https://github.com/encounter/dawn-cmake.git
1
0
Fork 0
Code Issues Packages Projects Releases Wiki Activity

Remove Clone() from sem::Types 

These should always be generated by the resolver, not manually constructed by transforms.

This also fixes duplicate intrinsic output from DecomposeStorageAccess.

Bug: tint:724
Change-Id: I979d55f7b141f38c0504dc72cc3c63e8353ac14f
Reviewed-on: https://dawn-review.googlesource.com/c/tint/+/49881
Commit-Queue: Ben Clayton <bclayton@google.com>
Reviewed-by: James Price <jrprice@google.com>
This commit is contained in:
Ben Clayton 2021-05-05 16:55:22 +00:00 committed by Commit Bot service account
parent 8c6808fa13
commit 8e1d177590
39 changed files with 169 additions and 399 deletions
Show Stats Download Patch File Download Diff File Expand all files Collapse all files

6
src/sem/access_control_type.cc
View File

@ -66,11 +66,5 @@ std::string AccessControl::FriendlyName(const SymbolTable& symbols) const {
return out.str(); return out.str();
} }
AccessControl* AccessControl::Clone(CloneContext* ctx) const {
// Clone arguments outside of create() call to have deterministic ordering
auto* ty = ctx->Clone(type());
return ctx->dst->create<AccessControl>(access_, ty);
}
} // namespace sem } // namespace sem
} // namespace tint } // namespace tint

5
src/sem/access_control_type.h
View File

@ -54,11 +54,6 @@ class AccessControl : public Castable<AccessControl, Type> {
/// declared in WGSL. /// declared in WGSL.
std::string FriendlyName(const SymbolTable& symbols) const override; std::string FriendlyName(const SymbolTable& symbols) const override;
/// Clones this type and all transitive types using the `CloneContext` `ctx`.
/// @param ctx the clone context
/// @return the newly cloned type
AccessControl* Clone(CloneContext* ctx) const override;
private: private:
ast::AccessControl::Access const access_; ast::AccessControl::Access const access_;
const Type* const subtype_; const Type* const subtype_;

7
src/sem/alias_type.cc
View File

@ -40,12 +40,5 @@ std::string Alias::FriendlyName(const SymbolTable& symbols) const {
return symbols.NameFor(symbol_); return symbols.NameFor(symbol_);
} }
Alias* Alias::Clone(CloneContext* ctx) const {
// Clone arguments outside of create() call to have deterministic ordering
auto sym = ctx->Clone(symbol());
auto* ty = ctx->Clone(type());
return ctx->dst->create<Alias>(sym, ty);
}
} // namespace sem } // namespace sem
} // namespace tint } // namespace tint

6
src/sem/alias_type.h
View File

@ -18,6 +18,7 @@
#include <string> #include <string>
#include "src/sem/type.h" #include "src/sem/type.h"
#include "src/symbol.h"
namespace tint { namespace tint {
namespace sem { namespace sem {
@ -47,11 +48,6 @@ class Alias : public Castable<Alias, Type> {
/// declared in WGSL. /// declared in WGSL.
std::string FriendlyName(const SymbolTable& symbols) const override; std::string FriendlyName(const SymbolTable& symbols) const override;
/// Clones this type and all transitive types using the `CloneContext` `ctx`.
/// @param ctx the clone context
/// @return the newly cloned type
Alias* Clone(CloneContext* ctx) const override;
private: private:
Symbol const symbol_; Symbol const symbol_;
Type const* const subtype_; Type const* const subtype_;

7
src/sem/array_type.cc
View File

@ -63,12 +63,5 @@ std::string ArrayType::FriendlyName(const SymbolTable& symbols) const {
return out.str(); return out.str();
} }
ArrayType* ArrayType::Clone(CloneContext* ctx) const {
// Clone arguments outside of create() call to have deterministic ordering
auto* ty = ctx->Clone(type());
auto decos = ctx->Clone(decorations());
return ctx->dst->create<ArrayType>(ty, size_, decos);
}
} // namespace sem } // namespace sem
} // namespace tint } // namespace tint

5
src/sem/array_type.h
View File

@ -58,11 +58,6 @@ class ArrayType : public Castable<ArrayType, Type> {
/// declared in WGSL. /// declared in WGSL.
std::string FriendlyName(const SymbolTable& symbols) const override; std::string FriendlyName(const SymbolTable& symbols) const override;
/// Clones this type and all transitive types using the `CloneContext` `ctx`.
/// @param ctx the clone context
/// @return the newly cloned type
ArrayType* Clone(CloneContext* ctx) const override;
private: private:
Type* const subtype_; Type* const subtype_;
uint32_t const size_; uint32_t const size_;

4
src/sem/bool_type.cc
View File

@ -35,9 +35,5 @@ std::string Bool::FriendlyName(const SymbolTable&) const {
return "bool"; return "bool";
} }
Bool* Bool::Clone(CloneContext* ctx) const {
return ctx->dst->create<Bool>();
}
} // namespace sem } // namespace sem
} // namespace tint } // namespace tint

5
src/sem/bool_type.h
View File

@ -44,11 +44,6 @@ class Bool : public Castable<Bool, Type> {
/// @returns the name for this type that closely resembles how it would be /// @returns the name for this type that closely resembles how it would be
/// declared in WGSL. /// declared in WGSL.
std::string FriendlyName(const SymbolTable& symbols) const override; std::string FriendlyName(const SymbolTable& symbols) const override;
/// Clones this type and all transitive types using the `CloneContext` `ctx`.
/// @param ctx the clone context
/// @return the newly cloned type
Bool* Clone(CloneContext* ctx) const override;
}; };
} // namespace sem } // namespace sem

4
src/sem/depth_texture_type.cc
View File

@ -51,9 +51,5 @@ std::string DepthTexture::FriendlyName(const SymbolTable&) const {
return out.str(); return out.str();
} }
DepthTexture* DepthTexture::Clone(CloneContext* ctx) const {
return ctx->dst->create<DepthTexture>(dim());
}
} // namespace sem } // namespace sem
} // namespace tint } // namespace tint

5
src/sem/depth_texture_type.h
View File

@ -39,11 +39,6 @@ class DepthTexture : public Castable<DepthTexture, Texture> {
/// @returns the name for this type that closely resembles how it would be /// @returns the name for this type that closely resembles how it would be
/// declared in WGSL. /// declared in WGSL.
std::string FriendlyName(const SymbolTable& symbols) const override; std::string FriendlyName(const SymbolTable& symbols) const override;
/// Clones this type and all transitive types using the `CloneContext` `ctx`.
/// @param ctx the clone context
/// @return the newly cloned type
DepthTexture* Clone(CloneContext* ctx) const override;
}; };
} // namespace sem } // namespace sem

4
src/sem/external_texture_type.cc
View File

@ -35,9 +35,5 @@ std::string ExternalTexture::FriendlyName(const SymbolTable&) const {
return "texture_external"; return "texture_external";
} }
ExternalTexture* ExternalTexture::Clone(CloneContext* ctx) const {
return ctx->dst->create<ExternalTexture>();
}
} // namespace sem } // namespace sem
} // namespace tint } // namespace tint

5
src/sem/external_texture_type.h
View File

@ -39,11 +39,6 @@ class ExternalTexture : public Castable<ExternalTexture, Texture> {
/// @returns the name for this type that closely resembles how it would be /// @returns the name for this type that closely resembles how it would be
/// declared in WGSL. /// declared in WGSL.
std::string FriendlyName(const SymbolTable& symbols) const override; std::string FriendlyName(const SymbolTable& symbols) const override;
/// Clones this type and all transitive types using the `CloneContext` `ctx`.
/// @param ctx the clone context
/// @return the newly cloned type
ExternalTexture* Clone(CloneContext* ctx) const override;
}; };
} // namespace sem } // namespace sem

4
src/sem/f32_type.cc
View File

@ -35,9 +35,5 @@ std::string F32::FriendlyName(const SymbolTable&) const {
return "f32"; return "f32";
} }
F32* F32::Clone(CloneContext* ctx) const {
return ctx->dst->create<F32>();
}
} // namespace sem } // namespace sem
} // namespace tint } // namespace tint

5
src/sem/f32_type.h
View File

@ -38,11 +38,6 @@ class F32 : public Castable<F32, Type> {
/// @returns the name for this type that closely resembles how it would be /// @returns the name for this type that closely resembles how it would be
/// declared in WGSL. /// declared in WGSL.
std::string FriendlyName(const SymbolTable& symbols) const override; std::string FriendlyName(const SymbolTable& symbols) const override;
/// Clones this type and all transitive types using the `CloneContext` `ctx`.
/// @param ctx the clone context
/// @return the newly cloned type
F32* Clone(CloneContext* ctx) const override;
}; };
} // namespace sem } // namespace sem

4
src/sem/i32_type.cc
View File

@ -35,9 +35,5 @@ std::string I32::FriendlyName(const SymbolTable&) const {
return "i32"; return "i32";
} }
I32* I32::Clone(CloneContext* ctx) const {
return ctx->dst->create<I32>();
}
} // namespace sem } // namespace sem
} // namespace tint } // namespace tint

5
src/sem/i32_type.h
View File

@ -38,11 +38,6 @@ class I32 : public Castable<I32, Type> {
/// @returns the name for this type that closely resembles how it would be /// @returns the name for this type that closely resembles how it would be
/// declared in WGSL. /// declared in WGSL.
std::string FriendlyName(const SymbolTable& symbols) const override; std::string FriendlyName(const SymbolTable& symbols) const override;
/// Clones this type and all transitive types using the `CloneContext` `ctx`.
/// @param ctx the clone context
/// @return the newly cloned type
I32* Clone(CloneContext* ctx) const override;
}; };
} // namespace sem } // namespace sem

6
src/sem/matrix_type.cc
View File

@ -49,11 +49,5 @@ std::string Matrix::FriendlyName(const SymbolTable& symbols) const {
return out.str(); return out.str();
} }
Matrix* Matrix::Clone(CloneContext* ctx) const {
// Clone arguments outside of create() call to have deterministic ordering
auto* column_type = ctx->Clone(ColumnType());
return ctx->dst->create<Matrix>(column_type, columns_);
}
} // namespace sem } // namespace sem
} // namespace tint } // namespace tint

5
src/sem/matrix_type.h
View File

@ -54,11 +54,6 @@ class Matrix : public Castable<Matrix, Type> {
/// declared in WGSL. /// declared in WGSL.
std::string FriendlyName(const SymbolTable& symbols) const override; std::string FriendlyName(const SymbolTable& symbols) const override;
/// Clones this type and all transitive types using the `CloneContext` `ctx`.
/// @param ctx the clone context
/// @return the newly cloned type
Matrix* Clone(CloneContext* ctx) const override;
private: private:
Type* const subtype_; Type* const subtype_;
Vector* const column_type_; Vector* const column_type_;

6
src/sem/multisampled_texture_type.cc
View File

@ -45,11 +45,5 @@ std::string MultisampledTexture::FriendlyName(
return out.str(); return out.str();
} }
MultisampledTexture* MultisampledTexture::Clone(CloneContext* ctx) const {
// Clone arguments outside of create() call to have deterministic ordering
auto* ty = ctx->Clone(type());
return ctx->dst->create<MultisampledTexture>(dim(), ty);
}
} // namespace sem } // namespace sem
} // namespace tint } // namespace tint

5
src/sem/multisampled_texture_type.h
View File

@ -44,11 +44,6 @@ class MultisampledTexture : public Castable<MultisampledTexture, Texture> {
/// declared in WGSL. /// declared in WGSL.
std::string FriendlyName(const SymbolTable& symbols) const override; std::string FriendlyName(const SymbolTable& symbols) const override;
/// Clones this type and all transitive types using the `CloneContext` `ctx`.
/// @param ctx the clone context
/// @return the newly cloned type
MultisampledTexture* Clone(CloneContext* ctx) const override;
private: private:
const Type* const type_; const Type* const type_;
}; };

6
src/sem/pointer_type.cc
View File

@ -44,11 +44,5 @@ Pointer::Pointer(Pointer&&) = default;
Pointer::~Pointer() = default; Pointer::~Pointer() = default;
Pointer* Pointer::Clone(CloneContext* ctx) const {
// Clone arguments outside of create() call to have deterministic ordering
auto* ty = ctx->Clone(type());
return ctx->dst->create<Pointer>(ty, storage_class_);
}
} // namespace sem } // namespace sem
} // namespace tint } // namespace tint

5
src/sem/pointer_type.h
View File

@ -47,11 +47,6 @@ class Pointer : public Castable<Pointer, Type> {
/// declared in WGSL. /// declared in WGSL.
std::string FriendlyName(const SymbolTable& symbols) const override; std::string FriendlyName(const SymbolTable& symbols) const override;
/// Clones this type and all transitive types using the `CloneContext` `ctx`.
/// @param ctx the clone context
/// @return the newly cloned type
Pointer* Clone(CloneContext* ctx) const override;
private: private:
Type* const subtype_; Type* const subtype_;
ast::StorageClass const storage_class_; ast::StorageClass const storage_class_;

6
src/sem/sampled_texture_type.cc
View File

@ -42,11 +42,5 @@ std::string SampledTexture::FriendlyName(const SymbolTable& symbols) const {
return out.str(); return out.str();
} }
SampledTexture* SampledTexture::Clone(CloneContext* ctx) const {
// Clone arguments outside of create() call to have deterministic ordering
auto* ty = ctx->Clone(type());
return ctx->dst->create<SampledTexture>(dim(), ty);
}
} // namespace sem } // namespace sem
} // namespace tint } // namespace tint

5
src/sem/sampled_texture_type.h
View File

@ -44,11 +44,6 @@ class SampledTexture : public Castable<SampledTexture, Texture> {
/// declared in WGSL. /// declared in WGSL.
std::string FriendlyName(const SymbolTable& symbols) const override; std::string FriendlyName(const SymbolTable& symbols) const override;
/// Clones this type and all transitive types using the `CloneContext` `ctx`.
/// @param ctx the clone context
/// @return the newly cloned type
SampledTexture* Clone(CloneContext* ctx) const override;
private: private:
const Type* const type_; const Type* const type_;
}; };

4
src/sem/sampler_type.cc
View File

@ -36,9 +36,5 @@ std::string Sampler::FriendlyName(const SymbolTable&) const {
return kind_ == ast::SamplerKind::kSampler ? "sampler" : "sampler_comparison"; return kind_ == ast::SamplerKind::kSampler ? "sampler" : "sampler_comparison";
} }
Sampler* Sampler::Clone(CloneContext* ctx) const {
return ctx->dst->create<Sampler>(kind_);
}
} // namespace sem } // namespace sem
} // namespace tint } // namespace tint

5
src/sem/sampler_type.h
View File

@ -49,11 +49,6 @@ class Sampler : public Castable<Sampler, Type> {
/// declared in WGSL. /// declared in WGSL.
std::string FriendlyName(const SymbolTable& symbols) const override; std::string FriendlyName(const SymbolTable& symbols) const override;
/// Clones this type and all transitive types using the `CloneContext` `ctx`.
/// @param ctx the clone context
/// @return the newly cloned type
Sampler* Clone(CloneContext* ctx) const override;
private: private:
ast::SamplerKind const kind_; ast::SamplerKind const kind_;
}; };

6
src/sem/storage_texture_type.cc
View File

@ -42,12 +42,6 @@ std::string StorageTexture::FriendlyName(const SymbolTable&) const {
return out.str(); return out.str();
} }
StorageTexture* StorageTexture::Clone(CloneContext* ctx) const {
// Clone arguments outside of create() call to have deterministic ordering
auto* ty = ctx->Clone(type());
return ctx->dst->create<StorageTexture>(dim(), image_format_, ty);
}
sem::Type* StorageTexture::SubtypeFor(ast::ImageFormat format, sem::Type* StorageTexture::SubtypeFor(ast::ImageFormat format,
sem::Manager& type_mgr) { sem::Manager& type_mgr) {
switch (format) { switch (format) {

5
src/sem/storage_texture_type.h
View File

@ -54,11 +54,6 @@ class StorageTexture : public Castable<StorageTexture, Texture> {
/// declared in WGSL. /// declared in WGSL.
std::string FriendlyName(const SymbolTable& symbols) const override; std::string FriendlyName(const SymbolTable& symbols) const override;
/// Clones this type and all transitive types using the `CloneContext` `ctx`.
/// @param ctx the clone context
/// @return the newly cloned type
StorageTexture* Clone(CloneContext* ctx) const override;
/// @param format the storage texture image format /// @param format the storage texture image format
/// @param type_mgr the sem::Manager used to build the returned type /// @param type_mgr the sem::Manager used to build the returned type
/// @returns the storage texture subtype for the given ImageFormat /// @returns the storage texture subtype for the given ImageFormat

6
src/sem/struct_type.cc
View File

@ -37,11 +37,5 @@ std::string StructType::FriendlyName(const SymbolTable& symbols) const {
return impl()->FriendlyName(symbols); return impl()->FriendlyName(symbols);
} }
StructType* StructType::Clone(CloneContext* ctx) const {
// Clone arguments outside of create() call to have deterministic ordering
auto* str = ctx->Clone(impl());
return ctx->dst->create<StructType>(str);
}
} // namespace sem } // namespace sem
} // namespace tint } // namespace tint

5
src/sem/struct_type.h
View File

@ -47,11 +47,6 @@ class StructType : public Castable<StructType, Type> {
/// declared in WGSL. /// declared in WGSL.
std::string FriendlyName(const SymbolTable& symbols) const override; std::string FriendlyName(const SymbolTable& symbols) const override;
/// Clones this type and all transitive types using the `CloneContext` `ctx`.
/// @param ctx the clone context
/// @return the newly cloned type
StructType* Clone(CloneContext* ctx) const override;
private: private:
ast::Struct* const struct_; ast::Struct* const struct_;

11
src/sem/type.h
View File

@ -17,7 +17,7 @@
#include <string> #include <string>
#include "src/clone_context.h" #include "src/castable.h"
namespace tint { namespace tint {
@ -31,7 +31,7 @@ namespace sem {
enum class MemoryLayout { kUniformBuffer, kStorageBuffer }; enum class MemoryLayout { kUniformBuffer, kStorageBuffer };
/// Base class for a type in the system /// Base class for a type in the system
class Type : public Castable<Type, ShareableCloneable> { class Type : public Castable<Type> {
public: public:
/// Move constructor /// Move constructor
Type(Type&&); Type(Type&&);
@ -132,13 +132,6 @@ class Type : public Castable<Type, ShareableCloneable> {
Type(); Type();
}; };
/// @returns the ProgramID of the given type.
inline ProgramID ProgramIDOf(const Type*) {
/// TODO(crbug.com/tint/724): Actually implement this once we split the `type`
/// namespace into ast::Type and sem::Type.
return ProgramID();
}
} // namespace sem } // namespace sem
} // namespace tint } // namespace tint

4
src/sem/u32_type.cc
View File

@ -35,9 +35,5 @@ std::string U32::FriendlyName(const SymbolTable&) const {
return "u32"; return "u32";
} }
U32* U32::Clone(CloneContext* ctx) const {
return ctx->dst->create<U32>();
}
} // namespace sem } // namespace sem
} // namespace tint } // namespace tint

5
src/sem/u32_type.h
View File

@ -38,11 +38,6 @@ class U32 : public Castable<U32, Type> {
/// @returns the name for this type that closely resembles how it would be /// @returns the name for this type that closely resembles how it would be
/// declared in WGSL. /// declared in WGSL.
std::string FriendlyName(const SymbolTable& symbols) const override; std::string FriendlyName(const SymbolTable& symbols) const override;
/// Clones this type and all transitive types using the `CloneContext` `ctx`.
/// @param ctx the clone context
/// @return the newly cloned type
U32* Clone(CloneContext* ctx) const override;
}; };
} // namespace sem } // namespace sem

6
src/sem/vector_type.cc
View File

@ -41,11 +41,5 @@ std::string Vector::FriendlyName(const SymbolTable& symbols) const {
return out.str(); return out.str();
} }
Vector* Vector::Clone(CloneContext* ctx) const {
// Clone arguments outside of create() call to have deterministic ordering
auto* ty = ctx->Clone(type());
return ctx->dst->create<Vector>(ty, size_);
}
} // namespace sem } // namespace sem
} // namespace tint } // namespace tint

5
src/sem/vector_type.h
View File

@ -46,11 +46,6 @@ class Vector : public Castable<Vector, Type> {
/// declared in WGSL. /// declared in WGSL.
std::string FriendlyName(const SymbolTable& symbols) const override; std::string FriendlyName(const SymbolTable& symbols) const override;
/// Clones this type and all transitive types using the `CloneContext` `ctx`.
/// @param ctx the clone context
/// @return the newly cloned type
Vector* Clone(CloneContext* ctx) const override;
private: private:
Type const* const subtype_; Type const* const subtype_;
uint32_t const size_; uint32_t const size_;

4
src/sem/void_type.cc
View File

@ -35,9 +35,5 @@ std::string Void::FriendlyName(const SymbolTable&) const {
return "void"; return "void";
} }
Void* Void::Clone(CloneContext* ctx) const {
return ctx->dst->create<Void>();
}
} // namespace sem } // namespace sem
} // namespace tint } // namespace tint

5
src/sem/void_type.h
View File

@ -38,11 +38,6 @@ class Void : public Castable<Void, Type> {
/// @returns the name for this type that closely resembles how it would be /// @returns the name for this type that closely resembles how it would be
/// declared in WGSL. /// declared in WGSL.
std::string FriendlyName(const SymbolTable& symbols) const override; std::string FriendlyName(const SymbolTable& symbols) const override;
/// Clones this type and all transitive types using the `CloneContext` `ctx`.
/// @param ctx the clone context
/// @return the newly cloned type
Void* Clone(CloneContext* ctx) const override;
}; };
} // namespace sem } // namespace sem

10
src/transform/decompose_storage_access.cc
View File

@ -444,8 +444,7 @@ struct DecomposeStorageAccess::State {
} else { } else {
ast::ExpressionList values; ast::ExpressionList values;
if (auto* mat_ty = el_ty->As<sem::Matrix>()) { if (auto* mat_ty = el_ty->As<sem::Matrix>()) {
auto* vec_ty = ctx.dst->create<sem::Vector>(ctx.Clone(mat_ty->type()), auto* vec_ty = mat_ty->ColumnType();
mat_ty->rows());
Symbol load = LoadFunc(ctx, insert_after, buf_ty, vec_ty); Symbol load = LoadFunc(ctx, insert_after, buf_ty, vec_ty);
for (uint32_t i = 0; i < mat_ty->columns(); i++) { for (uint32_t i = 0; i < mat_ty->columns(); i++) {
auto* offset = auto* offset =
@ -517,8 +516,7 @@ struct DecomposeStorageAccess::State {
} else { } else {
ast::StatementList body; ast::StatementList body;
if (auto* mat_ty = el_ty->As<sem::Matrix>()) { if (auto* mat_ty = el_ty->As<sem::Matrix>()) {
auto* vec_ty = ctx.dst->create<sem::Vector>(ctx.Clone(mat_ty->type()), auto* vec_ty = mat_ty->ColumnType();
mat_ty->rows());
Symbol store = StoreFunc(ctx, insert_after, buf_ty, vec_ty); Symbol store = StoreFunc(ctx, insert_after, buf_ty, vec_ty);
for (uint32_t i = 0; i < mat_ty->columns(); i++) { for (uint32_t i = 0; i < mat_ty->columns(); i++) {
auto* offset = auto* offset =
@ -719,13 +717,11 @@ Output DecomposeStorageAccess::Run(const Program* in, const DataMap&) {
} }
if (auto* mat_ty = access.type->As<sem::Matrix>()) { if (auto* mat_ty = access.type->As<sem::Matrix>()) {
auto offset = Mul(MatrixColumnStride(mat_ty), accessor->idx_expr()); auto offset = Mul(MatrixColumnStride(mat_ty), accessor->idx_expr());
auto* vec_ty = ctx.dst->create<sem::Vector>(
ctx.Clone(mat_ty->type()->UnwrapAll()), mat_ty->rows());
state.AddAccess(accessor, state.AddAccess(accessor,
{ {
access.var, access.var,
Add(std::move(access.offset), std::move(offset)), Add(std::move(access.offset), std::move(offset)),
vec_ty, mat_ty->ColumnType(),
}); });
continue; continue;
} }

362
src/transform/decompose_storage_access_test.cc
View File

@ -142,52 +142,43 @@ fn tint_symbol_10(buffer : [[access(read_write)]] SB, offset : u32) -> vec4<u32>
[[internal(intrinsic_load_vec4_f32)]] [[internal(intrinsic_load_vec4_f32)]]
fn tint_symbol_11(buffer : [[access(read_write)]] SB, offset : u32) -> vec4<f32> fn tint_symbol_11(buffer : [[access(read_write)]] SB, offset : u32) -> vec4<f32>
[[internal(intrinsic_load_vec2_f32)]] fn tint_symbol_12(buffer : [[access(read_write)]] SB, offset : u32) -> mat2x2<f32> {
fn tint_symbol_12(buffer : [[access(read_write)]] SB, offset : u32) -> vec2<f32> return mat2x2<f32>(tint_symbol_5(buffer, (offset + 0u)), tint_symbol_5(buffer, (offset + 8u)));
fn tint_symbol_13(buffer : [[access(read_write)]] SB, offset : u32) -> mat2x2<f32> {
return mat2x2<f32>(tint_symbol_12(buffer, (offset + 0u)), tint_symbol_12(buffer, (offset + 8u)));
} }
[[internal(intrinsic_load_vec3_f32)]] fn tint_symbol_13(buffer : [[access(read_write)]] SB, offset : u32) -> mat2x3<f32> {
fn tint_symbol_14(buffer : [[access(read_write)]] SB, offset : u32) -> vec3<f32> return mat2x3<f32>(tint_symbol_8(buffer, (offset + 0u)), tint_symbol_8(buffer, (offset + 16u)));
fn tint_symbol_15(buffer : [[access(read_write)]] SB, offset : u32) -> mat2x3<f32> {
return mat2x3<f32>(tint_symbol_14(buffer, (offset + 0u)), tint_symbol_14(buffer, (offset + 16u)));
} }
[[internal(intrinsic_load_vec4_f32)]] fn tint_symbol_14(buffer : [[access(read_write)]] SB, offset : u32) -> mat2x4<f32> {
fn tint_symbol_16(buffer : [[access(read_write)]] SB, offset : u32) -> vec4<f32> return mat2x4<f32>(tint_symbol_11(buffer, (offset + 0u)), tint_symbol_11(buffer, (offset + 16u)));
fn tint_symbol_17(buffer : [[access(read_write)]] SB, offset : u32) -> mat2x4<f32> {
return mat2x4<f32>(tint_symbol_16(buffer, (offset + 0u)), tint_symbol_16(buffer, (offset + 16u)));
} }
fn tint_symbol_18(buffer : [[access(read_write)]] SB, offset : u32) -> mat3x2<f32> { fn tint_symbol_15(buffer : [[access(read_write)]] SB, offset : u32) -> mat3x2<f32> {
return mat3x2<f32>(tint_symbol_12(buffer, (offset + 0u)), tint_symbol_12(buffer, (offset + 8u)), tint_symbol_12(buffer, (offset + 16u))); return mat3x2<f32>(tint_symbol_5(buffer, (offset + 0u)), tint_symbol_5(buffer, (offset + 8u)), tint_symbol_5(buffer, (offset + 16u)));
} }
fn tint_symbol_19(buffer : [[access(read_write)]] SB, offset : u32) -> mat3x3<f32> { fn tint_symbol_16(buffer : [[access(read_write)]] SB, offset : u32) -> mat3x3<f32> {
return mat3x3<f32>(tint_symbol_14(buffer, (offset + 0u)), tint_symbol_14(buffer, (offset + 16u)), tint_symbol_14(buffer, (offset + 32u))); return mat3x3<f32>(tint_symbol_8(buffer, (offset + 0u)), tint_symbol_8(buffer, (offset + 16u)), tint_symbol_8(buffer, (offset + 32u)));
} }
fn tint_symbol_20(buffer : [[access(read_write)]] SB, offset : u32) -> mat3x4<f32> { fn tint_symbol_17(buffer : [[access(read_write)]] SB, offset : u32) -> mat3x4<f32> {
return mat3x4<f32>(tint_symbol_16(buffer, (offset + 0u)), tint_symbol_16(buffer, (offset + 16u)), tint_symbol_16(buffer, (offset + 32u))); return mat3x4<f32>(tint_symbol_11(buffer, (offset + 0u)), tint_symbol_11(buffer, (offset + 16u)), tint_symbol_11(buffer, (offset + 32u)));
} }
fn tint_symbol_21(buffer : [[access(read_write)]] SB, offset : u32) -> mat4x2<f32> { fn tint_symbol_18(buffer : [[access(read_write)]] SB, offset : u32) -> mat4x2<f32> {
return mat4x2<f32>(tint_symbol_12(buffer, (offset + 0u)), tint_symbol_12(buffer, (offset + 8u)), tint_symbol_12(buffer, (offset + 16u)), tint_symbol_12(buffer, (offset + 24u))); return mat4x2<f32>(tint_symbol_5(buffer, (offset + 0u)), tint_symbol_5(buffer, (offset + 8u)), tint_symbol_5(buffer, (offset + 16u)), tint_symbol_5(buffer, (offset + 24u)));
} }
fn tint_symbol_22(buffer : [[access(read_write)]] SB, offset : u32) -> mat4x3<f32> { fn tint_symbol_19(buffer : [[access(read_write)]] SB, offset : u32) -> mat4x3<f32> {
return mat4x3<f32>(tint_symbol_14(buffer, (offset + 0u)), tint_symbol_14(buffer, (offset + 16u)), tint_symbol_14(buffer, (offset + 32u)), tint_symbol_14(buffer, (offset + 48u))); return mat4x3<f32>(tint_symbol_8(buffer, (offset + 0u)), tint_symbol_8(buffer, (offset + 16u)), tint_symbol_8(buffer, (offset + 32u)), tint_symbol_8(buffer, (offset + 48u)));
} }
fn tint_symbol_23(buffer : [[access(read_write)]] SB, offset : u32) -> mat4x4<f32> { fn tint_symbol_20(buffer : [[access(read_write)]] SB, offset : u32) -> mat4x4<f32> {
return mat4x4<f32>(tint_symbol_16(buffer, (offset + 0u)), tint_symbol_16(buffer, (offset + 16u)), tint_symbol_16(buffer, (offset + 32u)), tint_symbol_16(buffer, (offset + 48u))); return mat4x4<f32>(tint_symbol_11(buffer, (offset + 0u)), tint_symbol_11(buffer, (offset + 16u)), tint_symbol_11(buffer, (offset + 32u)), tint_symbol_11(buffer, (offset + 48u)));
} }
fn tint_symbol_24(buffer : [[access(read_write)]] SB, offset : u32) -> array<vec3<f32>, 2> { fn tint_symbol_21(buffer : [[access(read_write)]] SB, offset : u32) -> array<vec3<f32>, 2> {
return array<vec3<f32>, 2>(tint_symbol_8(buffer, (offset + 0u)), tint_symbol_8(buffer, (offset + 16u))); return array<vec3<f32>, 2>(tint_symbol_8(buffer, (offset + 0u)), tint_symbol_8(buffer, (offset + 16u)));
} }
@ -207,16 +198,16 @@ fn main() {
var j : vec4<i32> = tint_symbol_9(sb, 96u); var j : vec4<i32> = tint_symbol_9(sb, 96u);
var k : vec4<u32> = tint_symbol_10(sb, 112u); var k : vec4<u32> = tint_symbol_10(sb, 112u);
var l : vec4<f32> = tint_symbol_11(sb, 128u); var l : vec4<f32> = tint_symbol_11(sb, 128u);
var m : mat2x2<f32> = tint_symbol_13(sb, 144u); var m : mat2x2<f32> = tint_symbol_12(sb, 144u);
var n : mat2x3<f32> = tint_symbol_15(sb, 160u); var n : mat2x3<f32> = tint_symbol_13(sb, 160u);
var o : mat2x4<f32> = tint_symbol_17(sb, 192u); var o : mat2x4<f32> = tint_symbol_14(sb, 192u);
var p : mat3x2<f32> = tint_symbol_18(sb, 224u); var p : mat3x2<f32> = tint_symbol_15(sb, 224u);
var q : mat3x3<f32> = tint_symbol_19(sb, 256u); var q : mat3x3<f32> = tint_symbol_16(sb, 256u);
var r : mat3x4<f32> = tint_symbol_20(sb, 304u); var r : mat3x4<f32> = tint_symbol_17(sb, 304u);
var s : mat4x2<f32> = tint_symbol_21(sb, 352u); var s : mat4x2<f32> = tint_symbol_18(sb, 352u);
var t : mat4x3<f32> = tint_symbol_22(sb, 384u); var t : mat4x3<f32> = tint_symbol_19(sb, 384u);
var u : mat4x4<f32> = tint_symbol_23(sb, 448u); var u : mat4x4<f32> = tint_symbol_20(sb, 448u);
var v : array<vec3<f32>, 2> = tint_symbol_24(sb, 512u); var v : array<vec3<f32>, 2> = tint_symbol_21(sb, 512u);
} }
)"; )";
@ -345,70 +336,61 @@ fn tint_symbol_10(buffer : [[access(read_write)]] SB, offset : u32, value : vec4
[[internal(intrinsic_store_vec4_i32)]] [[internal(intrinsic_store_vec4_i32)]]
fn tint_symbol_11(buffer : [[access(read_write)]] SB, offset : u32, value : vec4<f32>) fn tint_symbol_11(buffer : [[access(read_write)]] SB, offset : u32, value : vec4<f32>)
[[internal(intrinsic_store_vec2_i32)]] fn tint_symbol_12(buffer : [[access(read_write)]] SB, offset : u32, value : mat2x2<f32>) {
fn tint_symbol_12(buffer : [[access(read_write)]] SB, offset : u32, value : vec2<f32>) tint_symbol_5(buffer, (offset + 0u), value[0u]);
tint_symbol_5(buffer, (offset + 8u), value[1u]);
fn tint_symbol_13(buffer : [[access(read_write)]] SB, offset : u32, value : mat2x2<f32>) {
tint_symbol_12(buffer, (offset + 0u), value[0u]);
tint_symbol_12(buffer, (offset + 8u), value[1u]);
} }
[[internal(intrinsic_store_vec3_i32)]] fn tint_symbol_13(buffer : [[access(read_write)]] SB, offset : u32, value : mat2x3<f32>) {
fn tint_symbol_14(buffer : [[access(read_write)]] SB, offset : u32, value : vec3<f32>) tint_symbol_8(buffer, (offset + 0u), value[0u]);
tint_symbol_8(buffer, (offset + 16u), value[1u]);
fn tint_symbol_15(buffer : [[access(read_write)]] SB, offset : u32, value : mat2x3<f32>) {
tint_symbol_14(buffer, (offset + 0u), value[0u]);
tint_symbol_14(buffer, (offset + 16u), value[1u]);
} }
[[internal(intrinsic_store_vec4_i32)]] fn tint_symbol_14(buffer : [[access(read_write)]] SB, offset : u32, value : mat2x4<f32>) {
fn tint_symbol_16(buffer : [[access(read_write)]] SB, offset : u32, value : vec4<f32>) tint_symbol_11(buffer, (offset + 0u), value[0u]);
tint_symbol_11(buffer, (offset + 16u), value[1u]);
fn tint_symbol_17(buffer : [[access(read_write)]] SB, offset : u32, value : mat2x4<f32>) {
tint_symbol_16(buffer, (offset + 0u), value[0u]);
tint_symbol_16(buffer, (offset + 16u), value[1u]);
} }
fn tint_symbol_18(buffer : [[access(read_write)]] SB, offset : u32, value : mat3x2<f32>) { fn tint_symbol_15(buffer : [[access(read_write)]] SB, offset : u32, value : mat3x2<f32>) {
tint_symbol_12(buffer, (offset + 0u), value[0u]); tint_symbol_5(buffer, (offset + 0u), value[0u]);
tint_symbol_12(buffer, (offset + 8u), value[1u]); tint_symbol_5(buffer, (offset + 8u), value[1u]);
tint_symbol_12(buffer, (offset + 16u), value[2u]); tint_symbol_5(buffer, (offset + 16u), value[2u]);
} }
fn tint_symbol_19(buffer : [[access(read_write)]] SB, offset : u32, value : mat3x3<f32>) { fn tint_symbol_16(buffer : [[access(read_write)]] SB, offset : u32, value : mat3x3<f32>) {
tint_symbol_14(buffer, (offset + 0u), value[0u]); tint_symbol_8(buffer, (offset + 0u), value[0u]);
tint_symbol_14(buffer, (offset + 16u), value[1u]); tint_symbol_8(buffer, (offset + 16u), value[1u]);
tint_symbol_14(buffer, (offset + 32u), value[2u]); tint_symbol_8(buffer, (offset + 32u), value[2u]);
} }
fn tint_symbol_20(buffer : [[access(read_write)]] SB, offset : u32, value : mat3x4<f32>) { fn tint_symbol_17(buffer : [[access(read_write)]] SB, offset : u32, value : mat3x4<f32>) {
tint_symbol_16(buffer, (offset + 0u), value[0u]); tint_symbol_11(buffer, (offset + 0u), value[0u]);
tint_symbol_16(buffer, (offset + 16u), value[1u]); tint_symbol_11(buffer, (offset + 16u), value[1u]);
tint_symbol_16(buffer, (offset + 32u), value[2u]); tint_symbol_11(buffer, (offset + 32u), value[2u]);
} }
fn tint_symbol_21(buffer : [[access(read_write)]] SB, offset : u32, value : mat4x2<f32>) { fn tint_symbol_18(buffer : [[access(read_write)]] SB, offset : u32, value : mat4x2<f32>) {
tint_symbol_12(buffer, (offset + 0u), value[0u]); tint_symbol_5(buffer, (offset + 0u), value[0u]);
tint_symbol_12(buffer, (offset + 8u), value[1u]); tint_symbol_5(buffer, (offset + 8u), value[1u]);
tint_symbol_12(buffer, (offset + 16u), value[2u]); tint_symbol_5(buffer, (offset + 16u), value[2u]);
tint_symbol_12(buffer, (offset + 24u), value[3u]); tint_symbol_5(buffer, (offset + 24u), value[3u]);
} }
fn tint_symbol_22(buffer : [[access(read_write)]] SB, offset : u32, value : mat4x3<f32>) { fn tint_symbol_19(buffer : [[access(read_write)]] SB, offset : u32, value : mat4x3<f32>) {
tint_symbol_14(buffer, (offset + 0u), value[0u]); tint_symbol_8(buffer, (offset + 0u), value[0u]);
tint_symbol_14(buffer, (offset + 16u), value[1u]); tint_symbol_8(buffer, (offset + 16u), value[1u]);
tint_symbol_14(buffer, (offset + 32u), value[2u]); tint_symbol_8(buffer, (offset + 32u), value[2u]);
tint_symbol_14(buffer, (offset + 48u), value[3u]); tint_symbol_8(buffer, (offset + 48u), value[3u]);
} }
fn tint_symbol_23(buffer : [[access(read_write)]] SB, offset : u32, value : mat4x4<f32>) { fn tint_symbol_20(buffer : [[access(read_write)]] SB, offset : u32, value : mat4x4<f32>) {
tint_symbol_16(buffer, (offset + 0u), value[0u]); tint_symbol_11(buffer, (offset + 0u), value[0u]);
tint_symbol_16(buffer, (offset + 16u), value[1u]); tint_symbol_11(buffer, (offset + 16u), value[1u]);
tint_symbol_16(buffer, (offset + 32u), value[2u]); tint_symbol_11(buffer, (offset + 32u), value[2u]);
tint_symbol_16(buffer, (offset + 48u), value[3u]); tint_symbol_11(buffer, (offset + 48u), value[3u]);
} }
fn tint_symbol_24(buffer : [[access(read_write)]] SB, offset : u32, value : array<vec3<f32>, 2>) { fn tint_symbol_21(buffer : [[access(read_write)]] SB, offset : u32, value : array<vec3<f32>, 2>) {
tint_symbol_8(buffer, (offset + 0u), value[0u]); tint_symbol_8(buffer, (offset + 0u), value[0u]);
tint_symbol_8(buffer, (offset + 16u), value[1u]); tint_symbol_8(buffer, (offset + 16u), value[1u]);
} }
@ -429,16 +411,16 @@ fn main() {
tint_symbol_9(sb, 96u, vec4<i32>()); tint_symbol_9(sb, 96u, vec4<i32>());
tint_symbol_10(sb, 112u, vec4<u32>()); tint_symbol_10(sb, 112u, vec4<u32>());
tint_symbol_11(sb, 128u, vec4<f32>()); tint_symbol_11(sb, 128u, vec4<f32>());
tint_symbol_13(sb, 144u, mat2x2<f32>()); tint_symbol_12(sb, 144u, mat2x2<f32>());
tint_symbol_15(sb, 160u, mat2x3<f32>()); tint_symbol_13(sb, 160u, mat2x3<f32>());
tint_symbol_17(sb, 192u, mat2x4<f32>()); tint_symbol_14(sb, 192u, mat2x4<f32>());
tint_symbol_18(sb, 224u, mat3x2<f32>()); tint_symbol_15(sb, 224u, mat3x2<f32>());
tint_symbol_19(sb, 256u, mat3x3<f32>()); tint_symbol_16(sb, 256u, mat3x3<f32>());
tint_symbol_20(sb, 304u, mat3x4<f32>()); tint_symbol_17(sb, 304u, mat3x4<f32>());
tint_symbol_21(sb, 352u, mat4x2<f32>()); tint_symbol_18(sb, 352u, mat4x2<f32>());
tint_symbol_22(sb, 384u, mat4x3<f32>()); tint_symbol_19(sb, 384u, mat4x3<f32>());
tint_symbol_23(sb, 448u, mat4x4<f32>()); tint_symbol_20(sb, 448u, mat4x4<f32>());
tint_symbol_24(sb, 512u, array<vec3<f32>, 2>()); tint_symbol_21(sb, 512u, array<vec3<f32>, 2>());
} }
)"; )";
@ -546,64 +528,55 @@ fn tint_symbol_10(buffer : [[access(read_write)]] SB, offset : u32) -> vec4<u32>
[[internal(intrinsic_load_vec4_f32)]] [[internal(intrinsic_load_vec4_f32)]]
fn tint_symbol_11(buffer : [[access(read_write)]] SB, offset : u32) -> vec4<f32> fn tint_symbol_11(buffer : [[access(read_write)]] SB, offset : u32) -> vec4<f32>
[[internal(intrinsic_load_vec2_f32)]] fn tint_symbol_12(buffer : [[access(read_write)]] SB, offset : u32) -> mat2x2<f32> {
fn tint_symbol_12(buffer : [[access(read_write)]] SB, offset : u32) -> vec2<f32> return mat2x2<f32>(tint_symbol_5(buffer, (offset + 0u)), tint_symbol_5(buffer, (offset + 8u)));
fn tint_symbol_13(buffer : [[access(read_write)]] SB, offset : u32) -> mat2x2<f32> {
return mat2x2<f32>(tint_symbol_12(buffer, (offset + 0u)), tint_symbol_12(buffer, (offset + 8u)));
} }
[[internal(intrinsic_load_vec3_f32)]] fn tint_symbol_13(buffer : [[access(read_write)]] SB, offset : u32) -> mat2x3<f32> {
fn tint_symbol_14(buffer : [[access(read_write)]] SB, offset : u32) -> vec3<f32> return mat2x3<f32>(tint_symbol_8(buffer, (offset + 0u)), tint_symbol_8(buffer, (offset + 16u)));
fn tint_symbol_15(buffer : [[access(read_write)]] SB, offset : u32) -> mat2x3<f32> {
return mat2x3<f32>(tint_symbol_14(buffer, (offset + 0u)), tint_symbol_14(buffer, (offset + 16u)));
} }
[[internal(intrinsic_load_vec4_f32)]] fn tint_symbol_14(buffer : [[access(read_write)]] SB, offset : u32) -> mat2x4<f32> {
fn tint_symbol_16(buffer : [[access(read_write)]] SB, offset : u32) -> vec4<f32> return mat2x4<f32>(tint_symbol_11(buffer, (offset + 0u)), tint_symbol_11(buffer, (offset + 16u)));
fn tint_symbol_17(buffer : [[access(read_write)]] SB, offset : u32) -> mat2x4<f32> {
return mat2x4<f32>(tint_symbol_16(buffer, (offset + 0u)), tint_symbol_16(buffer, (offset + 16u)));
} }
fn tint_symbol_18(buffer : [[access(read_write)]] SB, offset : u32) -> mat3x2<f32> { fn tint_symbol_15(buffer : [[access(read_write)]] SB, offset : u32) -> mat3x2<f32> {
return mat3x2<f32>(tint_symbol_12(buffer, (offset + 0u)), tint_symbol_12(buffer, (offset + 8u)), tint_symbol_12(buffer, (offset + 16u))); return mat3x2<f32>(tint_symbol_5(buffer, (offset + 0u)), tint_symbol_5(buffer, (offset + 8u)), tint_symbol_5(buffer, (offset + 16u)));
} }
fn tint_symbol_19(buffer : [[access(read_write)]] SB, offset : u32) -> mat3x3<f32> { fn tint_symbol_16(buffer : [[access(read_write)]] SB, offset : u32) -> mat3x3<f32> {
return mat3x3<f32>(tint_symbol_14(buffer, (offset + 0u)), tint_symbol_14(buffer, (offset + 16u)), tint_symbol_14(buffer, (offset + 32u))); return mat3x3<f32>(tint_symbol_8(buffer, (offset + 0u)), tint_symbol_8(buffer, (offset + 16u)), tint_symbol_8(buffer, (offset + 32u)));
} }
fn tint_symbol_20(buffer : [[access(read_write)]] SB, offset : u32) -> mat3x4<f32> { fn tint_symbol_17(buffer : [[access(read_write)]] SB, offset : u32) -> mat3x4<f32> {
return mat3x4<f32>(tint_symbol_16(buffer, (offset + 0u)), tint_symbol_16(buffer, (offset + 16u)), tint_symbol_16(buffer, (offset + 32u))); return mat3x4<f32>(tint_symbol_11(buffer, (offset + 0u)), tint_symbol_11(buffer, (offset + 16u)), tint_symbol_11(buffer, (offset + 32u)));
} }
fn tint_symbol_21(buffer : [[access(read_write)]] SB, offset : u32) -> mat4x2<f32> { fn tint_symbol_18(buffer : [[access(read_write)]] SB, offset : u32) -> mat4x2<f32> {
return mat4x2<f32>(tint_symbol_12(buffer, (offset + 0u)), tint_symbol_12(buffer, (offset + 8u)), tint_symbol_12(buffer, (offset + 16u)), tint_symbol_12(buffer, (offset + 24u))); return mat4x2<f32>(tint_symbol_5(buffer, (offset + 0u)), tint_symbol_5(buffer, (offset + 8u)), tint_symbol_5(buffer, (offset + 16u)), tint_symbol_5(buffer, (offset + 24u)));
} }
fn tint_symbol_22(buffer : [[access(read_write)]] SB, offset : u32) -> mat4x3<f32> { fn tint_symbol_19(buffer : [[access(read_write)]] SB, offset : u32) -> mat4x3<f32> {
return mat4x3<f32>(tint_symbol_14(buffer, (offset + 0u)), tint_symbol_14(buffer, (offset + 16u)), tint_symbol_14(buffer, (offset + 32u)), tint_symbol_14(buffer, (offset + 48u))); return mat4x3<f32>(tint_symbol_8(buffer, (offset + 0u)), tint_symbol_8(buffer, (offset + 16u)), tint_symbol_8(buffer, (offset + 32u)), tint_symbol_8(buffer, (offset + 48u)));
} }
fn tint_symbol_23(buffer : [[access(read_write)]] SB, offset : u32) -> mat4x4<f32> { fn tint_symbol_20(buffer : [[access(read_write)]] SB, offset : u32) -> mat4x4<f32> {
return mat4x4<f32>(tint_symbol_16(buffer, (offset + 0u)), tint_symbol_16(buffer, (offset + 16u)), tint_symbol_16(buffer, (offset + 32u)), tint_symbol_16(buffer, (offset + 48u))); return mat4x4<f32>(tint_symbol_11(buffer, (offset + 0u)), tint_symbol_11(buffer, (offset + 16u)), tint_symbol_11(buffer, (offset + 32u)), tint_symbol_11(buffer, (offset + 48u)));
} }
fn tint_symbol_24(buffer : [[access(read_write)]] SB, offset : u32) -> array<vec3<f32>, 2> { fn tint_symbol_21(buffer : [[access(read_write)]] SB, offset : u32) -> array<vec3<f32>, 2> {
return array<vec3<f32>, 2>(tint_symbol_8(buffer, (offset + 0u)), tint_symbol_8(buffer, (offset + 16u))); return array<vec3<f32>, 2>(tint_symbol_8(buffer, (offset + 0u)), tint_symbol_8(buffer, (offset + 16u)));
} }
fn tint_symbol_25(buffer : [[access(read_write)]] SB, offset : u32) -> SB { fn tint_symbol_22(buffer : [[access(read_write)]] SB, offset : u32) -> SB {
return SB(tint_symbol(buffer, (offset + 0u)), tint_symbol_1(buffer, (offset + 4u)), tint_symbol_2(buffer, (offset + 8u)), tint_symbol_3(buffer, (offset + 16u)), tint_symbol_4(buffer, (offset + 24u)), tint_symbol_5(buffer, (offset + 32u)), tint_symbol_6(buffer, (offset + 48u)), tint_symbol_7(buffer, (offset + 64u)), tint_symbol_8(buffer, (offset + 80u)), tint_symbol_9(buffer, (offset + 96u)), tint_symbol_10(buffer, (offset + 112u)), tint_symbol_11(buffer, (offset + 128u)), tint_symbol_13(buffer, (offset + 144u)), tint_symbol_15(buffer, (offset + 160u)), tint_symbol_17(buffer, (offset + 192u)), tint_symbol_18(buffer, (offset + 224u)), tint_symbol_19(buffer, (offset + 256u)), tint_symbol_20(buffer, (offset + 304u)), tint_symbol_21(buffer, (offset + 352u)), tint_symbol_22(buffer, (offset + 384u)), tint_symbol_23(buffer, (offset + 448u)), tint_symbol_24(buffer, (offset + 512u))); return SB(tint_symbol(buffer, (offset + 0u)), tint_symbol_1(buffer, (offset + 4u)), tint_symbol_2(buffer, (offset + 8u)), tint_symbol_3(buffer, (offset + 16u)), tint_symbol_4(buffer, (offset + 24u)), tint_symbol_5(buffer, (offset + 32u)), tint_symbol_6(buffer, (offset + 48u)), tint_symbol_7(buffer, (offset + 64u)), tint_symbol_8(buffer, (offset + 80u)), tint_symbol_9(buffer, (offset + 96u)), tint_symbol_10(buffer, (offset + 112u)), tint_symbol_11(buffer, (offset + 128u)), tint_symbol_12(buffer, (offset + 144u)), tint_symbol_13(buffer, (offset + 160u)), tint_symbol_14(buffer, (offset + 192u)), tint_symbol_15(buffer, (offset + 224u)), tint_symbol_16(buffer, (offset + 256u)), tint_symbol_17(buffer, (offset + 304u)), tint_symbol_18(buffer, (offset + 352u)), tint_symbol_19(buffer, (offset + 384u)), tint_symbol_20(buffer, (offset + 448u)), tint_symbol_21(buffer, (offset + 512u)));
} }
var<storage> sb : [[access(read_write)]] SB; var<storage> sb : [[access(read_write)]] SB;
[[stage(compute)]] [[stage(compute)]]
fn main() { fn main() {
var x : SB = tint_symbol_25(sb, 0u); var x : SB = tint_symbol_22(sb, 0u);
} }
)"; )";
@ -711,75 +684,66 @@ fn tint_symbol_10(buffer : [[access(read_write)]] SB, offset : u32, value : vec4
[[internal(intrinsic_store_vec4_i32)]] [[internal(intrinsic_store_vec4_i32)]]
fn tint_symbol_11(buffer : [[access(read_write)]] SB, offset : u32, value : vec4<f32>) fn tint_symbol_11(buffer : [[access(read_write)]] SB, offset : u32, value : vec4<f32>)
[[internal(intrinsic_store_vec2_i32)]] fn tint_symbol_12(buffer : [[access(read_write)]] SB, offset : u32, value : mat2x2<f32>) {
fn tint_symbol_12(buffer : [[access(read_write)]] SB, offset : u32, value : vec2<f32>) tint_symbol_5(buffer, (offset + 0u), value[0u]);
tint_symbol_5(buffer, (offset + 8u), value[1u]);
fn tint_symbol_13(buffer : [[access(read_write)]] SB, offset : u32, value : mat2x2<f32>) {
tint_symbol_12(buffer, (offset + 0u), value[0u]);
tint_symbol_12(buffer, (offset + 8u), value[1u]);
} }
[[internal(intrinsic_store_vec3_i32)]] fn tint_symbol_13(buffer : [[access(read_write)]] SB, offset : u32, value : mat2x3<f32>) {
fn tint_symbol_14(buffer : [[access(read_write)]] SB, offset : u32, value : vec3<f32>)
fn tint_symbol_15(buffer : [[access(read_write)]] SB, offset : u32, value : mat2x3<f32>) {
tint_symbol_14(buffer, (offset + 0u), value[0u]);
tint_symbol_14(buffer, (offset + 16u), value[1u]);
}
[[internal(intrinsic_store_vec4_i32)]]
fn tint_symbol_16(buffer : [[access(read_write)]] SB, offset : u32, value : vec4<f32>)
fn tint_symbol_17(buffer : [[access(read_write)]] SB, offset : u32, value : mat2x4<f32>) {
tint_symbol_16(buffer, (offset + 0u), value[0u]);
tint_symbol_16(buffer, (offset + 16u), value[1u]);
}
fn tint_symbol_18(buffer : [[access(read_write)]] SB, offset : u32, value : mat3x2<f32>) {
tint_symbol_12(buffer, (offset + 0u), value[0u]);
tint_symbol_12(buffer, (offset + 8u), value[1u]);
tint_symbol_12(buffer, (offset + 16u), value[2u]);
}
fn tint_symbol_19(buffer : [[access(read_write)]] SB, offset : u32, value : mat3x3<f32>) {
tint_symbol_14(buffer, (offset + 0u), value[0u]);
tint_symbol_14(buffer, (offset + 16u), value[1u]);
tint_symbol_14(buffer, (offset + 32u), value[2u]);
}
fn tint_symbol_20(buffer : [[access(read_write)]] SB, offset : u32, value : mat3x4<f32>) {
tint_symbol_16(buffer, (offset + 0u), value[0u]);
tint_symbol_16(buffer, (offset + 16u), value[1u]);
tint_symbol_16(buffer, (offset + 32u), value[2u]);
}
fn tint_symbol_21(buffer : [[access(read_write)]] SB, offset : u32, value : mat4x2<f32>) {
tint_symbol_12(buffer, (offset + 0u), value[0u]);
tint_symbol_12(buffer, (offset + 8u), value[1u]);
tint_symbol_12(buffer, (offset + 16u), value[2u]);
tint_symbol_12(buffer, (offset + 24u), value[3u]);
}
fn tint_symbol_22(buffer : [[access(read_write)]] SB, offset : u32, value : mat4x3<f32>) {
tint_symbol_14(buffer, (offset + 0u), value[0u]);
tint_symbol_14(buffer, (offset + 16u), value[1u]);
tint_symbol_14(buffer, (offset + 32u), value[2u]);
tint_symbol_14(buffer, (offset + 48u), value[3u]);
}
fn tint_symbol_23(buffer : [[access(read_write)]] SB, offset : u32, value : mat4x4<f32>) {
tint_symbol_16(buffer, (offset + 0u), value[0u]);
tint_symbol_16(buffer, (offset + 16u), value[1u]);
tint_symbol_16(buffer, (offset + 32u), value[2u]);
tint_symbol_16(buffer, (offset + 48u), value[3u]);
}
fn tint_symbol_24(buffer : [[access(read_write)]] SB, offset : u32, value : array<vec3<f32>, 2>) {
tint_symbol_8(buffer, (offset + 0u), value[0u]); tint_symbol_8(buffer, (offset + 0u), value[0u]);
tint_symbol_8(buffer, (offset + 16u), value[1u]); tint_symbol_8(buffer, (offset + 16u), value[1u]);
} }
fn tint_symbol_25(buffer : [[access(read_write)]] SB, offset : u32, value : SB) { fn tint_symbol_14(buffer : [[access(read_write)]] SB, offset : u32, value : mat2x4<f32>) {
tint_symbol_11(buffer, (offset + 0u), value[0u]);
tint_symbol_11(buffer, (offset + 16u), value[1u]);
}
fn tint_symbol_15(buffer : [[access(read_write)]] SB, offset : u32, value : mat3x2<f32>) {
tint_symbol_5(buffer, (offset + 0u), value[0u]);
tint_symbol_5(buffer, (offset + 8u), value[1u]);
tint_symbol_5(buffer, (offset + 16u), value[2u]);
}
fn tint_symbol_16(buffer : [[access(read_write)]] SB, offset : u32, value : mat3x3<f32>) {
tint_symbol_8(buffer, (offset + 0u), value[0u]);
tint_symbol_8(buffer, (offset + 16u), value[1u]);
tint_symbol_8(buffer, (offset + 32u), value[2u]);
}
fn tint_symbol_17(buffer : [[access(read_write)]] SB, offset : u32, value : mat3x4<f32>) {
tint_symbol_11(buffer, (offset + 0u), value[0u]);
tint_symbol_11(buffer, (offset + 16u), value[1u]);
tint_symbol_11(buffer, (offset + 32u), value[2u]);
}
fn tint_symbol_18(buffer : [[access(read_write)]] SB, offset : u32, value : mat4x2<f32>) {
tint_symbol_5(buffer, (offset + 0u), value[0u]);
tint_symbol_5(buffer, (offset + 8u), value[1u]);
tint_symbol_5(buffer, (offset + 16u), value[2u]);
tint_symbol_5(buffer, (offset + 24u), value[3u]);
}
fn tint_symbol_19(buffer : [[access(read_write)]] SB, offset : u32, value : mat4x3<f32>) {
tint_symbol_8(buffer, (offset + 0u), value[0u]);
tint_symbol_8(buffer, (offset + 16u), value[1u]);
tint_symbol_8(buffer, (offset + 32u), value[2u]);
tint_symbol_8(buffer, (offset + 48u), value[3u]);
}
fn tint_symbol_20(buffer : [[access(read_write)]] SB, offset : u32, value : mat4x4<f32>) {
tint_symbol_11(buffer, (offset + 0u), value[0u]);
tint_symbol_11(buffer, (offset + 16u), value[1u]);
tint_symbol_11(buffer, (offset + 32u), value[2u]);
tint_symbol_11(buffer, (offset + 48u), value[3u]);
}
fn tint_symbol_21(buffer : [[access(read_write)]] SB, offset : u32, value : array<vec3<f32>, 2>) {
tint_symbol_8(buffer, (offset + 0u), value[0u]);
tint_symbol_8(buffer, (offset + 16u), value[1u]);
}
fn tint_symbol_22(buffer : [[access(read_write)]] SB, offset : u32, value : SB) {
tint_symbol(buffer, (offset + 0u), value.a); tint_symbol(buffer, (offset + 0u), value.a);
tint_symbol_1(buffer, (offset + 4u), value.b); tint_symbol_1(buffer, (offset + 4u), value.b);
tint_symbol_2(buffer, (offset + 8u), value.c); tint_symbol_2(buffer, (offset + 8u), value.c);
@ -792,23 +756,23 @@ fn tint_symbol_25(buffer : [[access(read_write)]] SB, offset : u32, value : SB)
tint_symbol_9(buffer, (offset + 96u), value.j); tint_symbol_9(buffer, (offset + 96u), value.j);
tint_symbol_10(buffer, (offset + 112u), value.k); tint_symbol_10(buffer, (offset + 112u), value.k);
tint_symbol_11(buffer, (offset + 128u), value.l); tint_symbol_11(buffer, (offset + 128u), value.l);
tint_symbol_13(buffer, (offset + 144u), value.m); tint_symbol_12(buffer, (offset + 144u), value.m);
tint_symbol_15(buffer, (offset + 160u), value.n); tint_symbol_13(buffer, (offset + 160u), value.n);
tint_symbol_17(buffer, (offset + 192u), value.o); tint_symbol_14(buffer, (offset + 192u), value.o);
tint_symbol_18(buffer, (offset + 224u), value.p); tint_symbol_15(buffer, (offset + 224u), value.p);
tint_symbol_19(buffer, (offset + 256u), value.q); tint_symbol_16(buffer, (offset + 256u), value.q);
tint_symbol_20(buffer, (offset + 304u), value.r); tint_symbol_17(buffer, (offset + 304u), value.r);
tint_symbol_21(buffer, (offset + 352u), value.s); tint_symbol_18(buffer, (offset + 352u), value.s);
tint_symbol_22(buffer, (offset + 384u), value.t); tint_symbol_19(buffer, (offset + 384u), value.t);
tint_symbol_23(buffer, (offset + 448u), value.u); tint_symbol_20(buffer, (offset + 448u), value.u);
tint_symbol_24(buffer, (offset + 512u), value.v); tint_symbol_21(buffer, (offset + 512u), value.v);
} }
var<storage> sb : [[access(read_write)]] SB; var<storage> sb : [[access(read_write)]] SB;
[[stage(compute)]] [[stage(compute)]]
fn main() { fn main() {
tint_symbol_25(sb, 0u, SB()); tint_symbol_22(sb, 0u, SB());
} }
)"; )";