[clang] [amdgpu] Pass variadic arguments without splitting (PR #94083)
Jon Chesterfield via cfe-commits
cfe-commits at lists.llvm.org
Fri May 31 16:58:13 PDT 2024
https://github.com/JonChesterfield created https://github.com/llvm/llvm-project/pull/94083
Pass variadic arguments differently to the fixed ones.
Fixed arguments are modified to better fit into registers. This patch leaves those unchanged.
Splitting struct types into individual fields and packing small structs into integers works well for passing via registers. Variadic arguments are currently unimplemented in the backend. They're likely to be implemented as a pointer to stack memory in which case register-themed optimisations are inapplicable.
Splitting the struct into fields makes it difficult to implement va_arg robustly. The rules around padding and alignment to inverse the struct splitting could be constructed, but at high complexity and no particular advantage.
Passing types as-is means there is a 1:1 correspondence with the type information va_arg has to work with and the parameter type at the call site.
This is an ABI change, but as the only functions affected are variadic ones which are presently a compilation error, not a functional break. Factored out of the larger #93362 and can land independently.
>From f39795995ddbc41688dfc859e55252774af734c5 Mon Sep 17 00:00:00 2001
From: Jon Chesterfield <jonathanchesterfield at gmail.com>
Date: Sat, 1 Jun 2024 00:43:24 +0100
Subject: [PATCH] [amdgpu] Pass variadic arguments without splitting
---
clang/lib/CodeGen/Targets/AMDGPU.cpp | 19 +-
clang/test/CodeGen/amdgpu-variadic-call.c | 293 ++++++++++++++++++++++
2 files changed, 309 insertions(+), 3 deletions(-)
create mode 100644 clang/test/CodeGen/amdgpu-variadic-call.c
diff --git a/clang/lib/CodeGen/Targets/AMDGPU.cpp b/clang/lib/CodeGen/Targets/AMDGPU.cpp
index 44e86c0b40f68..d1ff8b4b62f15 100644
--- a/clang/lib/CodeGen/Targets/AMDGPU.cpp
+++ b/clang/lib/CodeGen/Targets/AMDGPU.cpp
@@ -45,7 +45,8 @@ class AMDGPUABIInfo final : public DefaultABIInfo {
ABIArgInfo classifyReturnType(QualType RetTy) const;
ABIArgInfo classifyKernelArgumentType(QualType Ty) const;
- ABIArgInfo classifyArgumentType(QualType Ty, unsigned &NumRegsLeft) const;
+ ABIArgInfo classifyArgumentType(QualType Ty, bool Variadic,
+ unsigned &NumRegsLeft) const;
void computeInfo(CGFunctionInfo &FI) const override;
Address EmitVAArg(CodeGenFunction &CGF, Address VAListAddr,
@@ -103,12 +104,16 @@ void AMDGPUABIInfo::computeInfo(CGFunctionInfo &FI) const {
if (!getCXXABI().classifyReturnType(FI))
FI.getReturnInfo() = classifyReturnType(FI.getReturnType());
+ unsigned ArgumentIndex = 0;
+ const unsigned numFixedArguments = FI.getNumRequiredArgs();
+
unsigned NumRegsLeft = MaxNumRegsForArgsRet;
for (auto &Arg : FI.arguments()) {
if (CC == llvm::CallingConv::AMDGPU_KERNEL) {
Arg.info = classifyKernelArgumentType(Arg.type);
} else {
- Arg.info = classifyArgumentType(Arg.type, NumRegsLeft);
+ bool FixedArgument = ArgumentIndex++ < numFixedArguments;
+ Arg.info = classifyArgumentType(Arg.type, !FixedArgument, NumRegsLeft);
}
}
}
@@ -197,12 +202,20 @@ ABIArgInfo AMDGPUABIInfo::classifyKernelArgumentType(QualType Ty) const {
return ABIArgInfo::getDirect(LTy, 0, nullptr, false);
}
-ABIArgInfo AMDGPUABIInfo::classifyArgumentType(QualType Ty,
+ABIArgInfo AMDGPUABIInfo::classifyArgumentType(QualType Ty, bool Variadic,
unsigned &NumRegsLeft) const {
assert(NumRegsLeft <= MaxNumRegsForArgsRet && "register estimate underflow");
Ty = useFirstFieldIfTransparentUnion(Ty);
+ if (Variadic) {
+ return ABIArgInfo::getDirect(/*T=*/nullptr,
+ /*Offset=*/0,
+ /*Padding=*/nullptr,
+ /*CanBeFlattened=*/false,
+ /*Align=*/0);
+ }
+
if (isAggregateTypeForABI(Ty)) {
// Records with non-trivial destructors/copy-constructors should not be
// passed by value.
diff --git a/clang/test/CodeGen/amdgpu-variadic-call.c b/clang/test/CodeGen/amdgpu-variadic-call.c
new file mode 100644
index 0000000000000..17eda215211a2
--- /dev/null
+++ b/clang/test/CodeGen/amdgpu-variadic-call.c
@@ -0,0 +1,293 @@
+// REQUIRES: amdgpu-registered-target
+// NOTE: Assertions have been autogenerated by utils/update_cc_test_checks.py UTC_ARGS: --function-signature
+// RUN: %clang_cc1 -cc1 -std=c23 -triple amdgcn-amd-amdhsa -emit-llvm -O1 %s -o - | FileCheck %s
+
+void sink_0(...);
+void sink_1(int, ...);
+void sink_2(double, int, ...);
+
+// Simple scalar values
+
+// CHECK-LABEL: define {{[^@]+}}@zero_varargs
+// CHECK-SAME: (i32 noundef [[F0:%.*]], double noundef [[F1:%.*]]) local_unnamed_addr #[[ATTR0:[0-9]+]] {
+// CHECK-NEXT: entry:
+// CHECK-NEXT: tail call void (...) @sink_0() #[[ATTR2:[0-9]+]]
+// CHECK-NEXT: tail call void (i32, ...) @sink_1(i32 noundef [[F0]]) #[[ATTR2]]
+// CHECK-NEXT: tail call void (double, i32, ...) @sink_2(double noundef [[F1]], i32 noundef [[F0]]) #[[ATTR2]]
+// CHECK-NEXT: ret void
+//
+void zero_varargs(int f0, double f1)
+{
+ sink_0();
+ sink_1(f0);
+ sink_2(f1, f0);
+}
+
+// CHECK-LABEL: define {{[^@]+}}@one_i32
+// CHECK-SAME: (i32 noundef [[F0:%.*]], double noundef [[F1:%.*]], i32 noundef [[V0:%.*]]) local_unnamed_addr #[[ATTR0]] {
+// CHECK-NEXT: entry:
+// CHECK-NEXT: tail call void (...) @sink_0(i32 noundef [[V0]]) #[[ATTR2]]
+// CHECK-NEXT: tail call void (i32, ...) @sink_1(i32 noundef [[F0]], i32 noundef [[V0]]) #[[ATTR2]]
+// CHECK-NEXT: tail call void (double, i32, ...) @sink_2(double noundef [[F1]], i32 noundef [[F0]], i32 noundef [[V0]]) #[[ATTR2]]
+// CHECK-NEXT: ret void
+//
+void one_i32(int f0, double f1, int v0)
+{
+ sink_0(v0);
+ sink_1(f0, v0);
+ sink_2(f1, f0, v0);
+}
+
+// CHECK-LABEL: define {{[^@]+}}@one_ptr
+// CHECK-SAME: (i32 noundef [[F0:%.*]], double noundef [[F1:%.*]], ptr noundef [[V0:%.*]]) local_unnamed_addr #[[ATTR0]] {
+// CHECK-NEXT: entry:
+// CHECK-NEXT: tail call void (...) @sink_0(ptr noundef [[V0]]) #[[ATTR2]]
+// CHECK-NEXT: tail call void (i32, ...) @sink_1(i32 noundef [[F0]], ptr noundef [[V0]]) #[[ATTR2]]
+// CHECK-NEXT: tail call void (double, i32, ...) @sink_2(double noundef [[F1]], i32 noundef [[F0]], ptr noundef [[V0]]) #[[ATTR2]]
+// CHECK-NEXT: ret void
+//
+void one_ptr(int f0, double f1, void* v0)
+{
+ sink_0(v0);
+ sink_1(f0, v0);
+ sink_2(f1, f0, v0);
+}
+
+// CHECK-LABEL: define {{[^@]+}}@one_f64
+// CHECK-SAME: (i32 noundef [[F0:%.*]], double noundef [[F1:%.*]], double noundef [[V0:%.*]]) local_unnamed_addr #[[ATTR0]] {
+// CHECK-NEXT: entry:
+// CHECK-NEXT: tail call void (...) @sink_0(double noundef [[V0]]) #[[ATTR2]]
+// CHECK-NEXT: tail call void (i32, ...) @sink_1(i32 noundef [[F0]], double noundef [[V0]]) #[[ATTR2]]
+// CHECK-NEXT: tail call void (double, i32, ...) @sink_2(double noundef [[F1]], i32 noundef [[F0]], double noundef [[V0]]) #[[ATTR2]]
+// CHECK-NEXT: ret void
+//
+void one_f64(int f0, double f1, double v0)
+{
+ sink_0(v0);
+ sink_1(f0, v0);
+ sink_2(f1, f0, v0);
+}
+
+
+// C has various type promotion rules for variadics
+
+// CHECK-LABEL: define {{[^@]+}}@one_i8
+// CHECK-SAME: (i32 noundef [[F0:%.*]], double noundef [[F1:%.*]], i8 noundef signext [[V0:%.*]]) local_unnamed_addr #[[ATTR0]] {
+// CHECK-NEXT: entry:
+// CHECK-NEXT: [[CONV:%.*]] = sext i8 [[V0]] to i32
+// CHECK-NEXT: tail call void (...) @sink_0(i32 noundef [[CONV]]) #[[ATTR2]]
+// CHECK-NEXT: tail call void (i32, ...) @sink_1(i32 noundef [[F0]], i32 noundef [[CONV]]) #[[ATTR2]]
+// CHECK-NEXT: tail call void (double, i32, ...) @sink_2(double noundef [[F1]], i32 noundef [[F0]], i32 noundef [[CONV]]) #[[ATTR2]]
+// CHECK-NEXT: ret void
+//
+void one_i8(int f0, double f1, char v0)
+{
+ sink_0(v0);
+ sink_1(f0, v0);
+ sink_2(f1, f0, v0);
+}
+
+// CHECK-LABEL: define {{[^@]+}}@one_i16
+// CHECK-SAME: (i32 noundef [[F0:%.*]], double noundef [[F1:%.*]], i16 noundef signext [[V0:%.*]]) local_unnamed_addr #[[ATTR0]] {
+// CHECK-NEXT: entry:
+// CHECK-NEXT: [[CONV:%.*]] = sext i16 [[V0]] to i32
+// CHECK-NEXT: tail call void (...) @sink_0(i32 noundef [[CONV]]) #[[ATTR2]]
+// CHECK-NEXT: tail call void (i32, ...) @sink_1(i32 noundef [[F0]], i32 noundef [[CONV]]) #[[ATTR2]]
+// CHECK-NEXT: tail call void (double, i32, ...) @sink_2(double noundef [[F1]], i32 noundef [[F0]], i32 noundef [[CONV]]) #[[ATTR2]]
+// CHECK-NEXT: ret void
+//
+void one_i16(int f0, double f1, short v0)
+{
+ sink_0(v0);
+ sink_1(f0, v0);
+ sink_2(f1, f0, v0);
+}
+
+// CHECK-LABEL: define {{[^@]+}}@one_f32
+// CHECK-SAME: (i32 noundef [[F0:%.*]], double noundef [[F1:%.*]], float noundef [[V0:%.*]]) local_unnamed_addr #[[ATTR0]] {
+// CHECK-NEXT: entry:
+// CHECK-NEXT: [[CONV:%.*]] = fpext float [[V0]] to double
+// CHECK-NEXT: tail call void (...) @sink_0(double noundef [[CONV]]) #[[ATTR2]]
+// CHECK-NEXT: tail call void (i32, ...) @sink_1(i32 noundef [[F0]], double noundef [[CONV]]) #[[ATTR2]]
+// CHECK-NEXT: tail call void (double, i32, ...) @sink_2(double noundef [[F1]], i32 noundef [[F0]], double noundef [[CONV]]) #[[ATTR2]]
+// CHECK-NEXT: ret void
+//
+void one_f32(int f0, double f1, float v0)
+{
+ sink_0(v0);
+ sink_1(f0, v0);
+ sink_2(f1, f0, v0);
+}
+
+
+// Various half types. _Float16 is passed as half and __fp16 as double
+
+// CHECK-LABEL: define {{[^@]+}}@one_f16a
+// CHECK-SAME: (i32 noundef [[F0:%.*]], double noundef [[F1:%.*]], half noundef [[V0:%.*]]) local_unnamed_addr #[[ATTR0]] {
+// CHECK-NEXT: entry:
+// CHECK-NEXT: tail call void (...) @sink_0(half noundef [[V0]]) #[[ATTR2]]
+// CHECK-NEXT: tail call void (i32, ...) @sink_1(i32 noundef [[F0]], half noundef [[V0]]) #[[ATTR2]]
+// CHECK-NEXT: tail call void (double, i32, ...) @sink_2(double noundef [[F1]], i32 noundef [[F0]], half noundef [[V0]]) #[[ATTR2]]
+// CHECK-NEXT: ret void
+//
+void one_f16a(int f0, double f1, _Float16 v0)
+{
+ sink_0(v0);
+ sink_1(f0, v0);
+ sink_2(f1, f0, v0);
+}
+
+// CHECK-LABEL: define {{[^@]+}}@one_f16b
+// CHECK-SAME: (i32 noundef [[F0:%.*]], double noundef [[F1:%.*]], half noundef [[V0:%.*]]) local_unnamed_addr #[[ATTR0]] {
+// CHECK-NEXT: entry:
+// CHECK-NEXT: [[CONV:%.*]] = fpext half [[V0]] to double
+// CHECK-NEXT: tail call void (...) @sink_0(double noundef [[CONV]]) #[[ATTR2]]
+// CHECK-NEXT: tail call void (i32, ...) @sink_1(i32 noundef [[F0]], double noundef [[CONV]]) #[[ATTR2]]
+// CHECK-NEXT: tail call void (double, i32, ...) @sink_2(double noundef [[F1]], i32 noundef [[F0]], double noundef [[CONV]]) #[[ATTR2]]
+// CHECK-NEXT: ret void
+//
+void one_f16b(int f0, double f1, __fp16 v0)
+{
+ sink_0(v0);
+ sink_1(f0, v0);
+ sink_2(f1, f0, v0);
+}
+
+// CHECK-LABEL: define {{[^@]+}}@one_f16c
+// CHECK-SAME: (i32 noundef [[F0:%.*]], double noundef [[F1:%.*]], bfloat noundef [[V0:%.*]]) local_unnamed_addr #[[ATTR0]] {
+// CHECK-NEXT: entry:
+// CHECK-NEXT: tail call void (...) @sink_0(bfloat noundef [[V0]]) #[[ATTR2]]
+// CHECK-NEXT: tail call void (i32, ...) @sink_1(i32 noundef [[F0]], bfloat noundef [[V0]]) #[[ATTR2]]
+// CHECK-NEXT: tail call void (double, i32, ...) @sink_2(double noundef [[F1]], i32 noundef [[F0]], bfloat noundef [[V0]]) #[[ATTR2]]
+// CHECK-NEXT: ret void
+//
+void one_f16c(int f0, double f1, __bf16 v0)
+{
+ sink_0(v0);
+ sink_1(f0, v0);
+ sink_2(f1, f0, v0);
+}
+
+// Simple composites
+
+typedef struct
+{
+ double x0;
+ double x1;
+} pair_f64;
+
+// CHECK-LABEL: define {{[^@]+}}@one_pair_f64
+// CHECK-SAME: (i32 noundef [[F0:%.*]], double noundef [[F1:%.*]], double [[V0_COERCE0:%.*]], double [[V0_COERCE1:%.*]]) local_unnamed_addr #[[ATTR0]] {
+// CHECK-NEXT: entry:
+// CHECK-NEXT: [[DOTFCA_0_INSERT:%.*]] = insertvalue [[STRUCT_PAIR_F64:%.*]] poison, double [[V0_COERCE0]], 0
+// CHECK-NEXT: [[DOTFCA_1_INSERT:%.*]] = insertvalue [[STRUCT_PAIR_F64]] [[DOTFCA_0_INSERT]], double [[V0_COERCE1]], 1
+// CHECK-NEXT: tail call void (...) @sink_0([[STRUCT_PAIR_F64]] [[DOTFCA_1_INSERT]]) #[[ATTR2]]
+// CHECK-NEXT: tail call void (i32, ...) @sink_1(i32 noundef [[F0]], [[STRUCT_PAIR_F64]] [[DOTFCA_1_INSERT]]) #[[ATTR2]]
+// CHECK-NEXT: tail call void (double, i32, ...) @sink_2(double noundef [[F1]], i32 noundef [[F0]], [[STRUCT_PAIR_F64]] [[DOTFCA_1_INSERT]]) #[[ATTR2]]
+// CHECK-NEXT: ret void
+//
+void one_pair_f64(int f0, double f1, pair_f64 v0)
+{
+ sink_0(v0);
+ sink_1(f0, v0);
+ sink_2(f1, f0, v0);
+}
+
+typedef double v2f64 __attribute__((ext_vector_type(2)));
+
+// CHECK-LABEL: define {{[^@]+}}@one_pair_v2f64
+// CHECK-SAME: (i32 noundef [[F0:%.*]], double noundef [[F1:%.*]], <2 x double> noundef [[V0:%.*]]) local_unnamed_addr #[[ATTR0]] {
+// CHECK-NEXT: entry:
+// CHECK-NEXT: tail call void (...) @sink_0(<2 x double> noundef [[V0]]) #[[ATTR2]]
+// CHECK-NEXT: tail call void (i32, ...) @sink_1(i32 noundef [[F0]], <2 x double> noundef [[V0]]) #[[ATTR2]]
+// CHECK-NEXT: tail call void (double, i32, ...) @sink_2(double noundef [[F1]], i32 noundef [[F0]], <2 x double> noundef [[V0]]) #[[ATTR2]]
+// CHECK-NEXT: ret void
+//
+void one_pair_v2f64(int f0, double f1, v2f64 v0)
+{
+ sink_0(v0);
+ sink_1(f0, v0);
+ sink_2(f1, f0, v0);
+}
+
+typedef union
+{
+ float x0;
+ int x1;
+} union_f32_i32;
+
+// CHECK-LABEL: define {{[^@]+}}@one_pair_union_f32_i32
+// CHECK-SAME: (i32 noundef [[F0:%.*]], double noundef [[F1:%.*]], i32 [[V0_COERCE:%.*]]) local_unnamed_addr #[[ATTR0]] {
+// CHECK-NEXT: entry:
+// CHECK-NEXT: [[TMP0:%.*]] = bitcast i32 [[V0_COERCE]] to float
+// CHECK-NEXT: [[DOTFCA_0_INSERT:%.*]] = insertvalue [[UNION_UNION_F32_I32:%.*]] poison, float [[TMP0]], 0
+// CHECK-NEXT: tail call void (...) @sink_0([[UNION_UNION_F32_I32]] [[DOTFCA_0_INSERT]]) #[[ATTR2]]
+// CHECK-NEXT: tail call void (i32, ...) @sink_1(i32 noundef [[F0]], [[UNION_UNION_F32_I32]] [[DOTFCA_0_INSERT]]) #[[ATTR2]]
+// CHECK-NEXT: tail call void (double, i32, ...) @sink_2(double noundef [[F1]], i32 noundef [[F0]], [[UNION_UNION_F32_I32]] [[DOTFCA_0_INSERT]]) #[[ATTR2]]
+// CHECK-NEXT: ret void
+//
+void one_pair_union_f32_i32(int f0, double f1, union_f32_i32 v0)
+{
+ sink_0(v0);
+ sink_1(f0, v0);
+ sink_2(f1, f0, v0);
+}
+
+typedef union
+{
+ int x0;
+ float x1;
+} transparent_union_f32_i32 __attribute__((transparent_union));
+
+// CHECK-LABEL: define {{[^@]+}}@one_pair_transparent_union_f32_i32
+// CHECK-SAME: (i32 noundef [[F0:%.*]], double noundef [[F1:%.*]], i32 [[V0_COERCE:%.*]]) local_unnamed_addr #[[ATTR0]] {
+// CHECK-NEXT: entry:
+// CHECK-NEXT: [[DOTFCA_0_INSERT:%.*]] = insertvalue [[UNION_TRANSPARENT_UNION_F32_I32:%.*]] poison, i32 [[V0_COERCE]], 0
+// CHECK-NEXT: tail call void (...) @sink_0([[UNION_TRANSPARENT_UNION_F32_I32]] [[DOTFCA_0_INSERT]]) #[[ATTR2]]
+// CHECK-NEXT: tail call void (i32, ...) @sink_1(i32 noundef [[F0]], [[UNION_TRANSPARENT_UNION_F32_I32]] [[DOTFCA_0_INSERT]]) #[[ATTR2]]
+// CHECK-NEXT: tail call void (double, i32, ...) @sink_2(double noundef [[F1]], i32 noundef [[F0]], [[UNION_TRANSPARENT_UNION_F32_I32]] [[DOTFCA_0_INSERT]]) #[[ATTR2]]
+// CHECK-NEXT: ret void
+//
+void one_pair_transparent_union_f32_i32(int f0, double f1, transparent_union_f32_i32 v0)
+{
+ sink_0(v0);
+ sink_1(f0, v0);
+ sink_2(f1, f0, v0);
+}
+
+// Passing multiple values in the variadic pack
+
+// CHECK-LABEL: define {{[^@]+}}@multiple_one
+// CHECK-SAME: (i32 noundef [[F0:%.*]], double noundef [[F1:%.*]], i32 noundef [[V0:%.*]], double noundef [[V1:%.*]]) local_unnamed_addr #[[ATTR0]] {
+// CHECK-NEXT: entry:
+// CHECK-NEXT: tail call void (...) @sink_0(i32 noundef [[V0]], double noundef [[V1]]) #[[ATTR2]]
+// CHECK-NEXT: tail call void (i32, ...) @sink_1(i32 noundef [[F0]], i32 noundef [[V0]], double noundef [[V1]]) #[[ATTR2]]
+// CHECK-NEXT: tail call void (double, i32, ...) @sink_2(double noundef [[F1]], i32 noundef [[F0]], i32 noundef [[V0]], double noundef [[V1]]) #[[ATTR2]]
+// CHECK-NEXT: ret void
+//
+void multiple_one(int f0, double f1, int v0, double v1)
+{
+ sink_0(v0, v1);
+ sink_1(f0, v0, v1);
+ sink_2(f1, f0, v0, v1);
+}
+
+// CHECK-LABEL: define {{[^@]+}}@multiple_two
+// CHECK-SAME: (i32 noundef [[F0:%.*]], double noundef [[F1:%.*]], double [[V0_COERCE0:%.*]], double [[V0_COERCE1:%.*]], float noundef [[V1:%.*]], i32 [[V2_COERCE:%.*]], i32 noundef [[V3:%.*]]) local_unnamed_addr #[[ATTR0]] {
+// CHECK-NEXT: entry:
+// CHECK-NEXT: [[TMP0:%.*]] = bitcast i32 [[V2_COERCE]] to float
+// CHECK-NEXT: [[CONV:%.*]] = fpext float [[V1]] to double
+// CHECK-NEXT: [[DOTFCA_0_INSERT16:%.*]] = insertvalue [[STRUCT_PAIR_F64:%.*]] poison, double [[V0_COERCE0]], 0
+// CHECK-NEXT: [[DOTFCA_1_INSERT:%.*]] = insertvalue [[STRUCT_PAIR_F64]] [[DOTFCA_0_INSERT16]], double [[V0_COERCE1]], 1
+// CHECK-NEXT: [[DOTFCA_0_INSERT:%.*]] = insertvalue [[UNION_UNION_F32_I32:%.*]] poison, float [[TMP0]], 0
+// CHECK-NEXT: tail call void (...) @sink_0([[STRUCT_PAIR_F64]] [[DOTFCA_1_INSERT]], double noundef [[CONV]], [[UNION_UNION_F32_I32]] [[DOTFCA_0_INSERT]], i32 noundef [[V3]]) #[[ATTR2]]
+// CHECK-NEXT: tail call void (i32, ...) @sink_1(i32 noundef [[F0]], [[STRUCT_PAIR_F64]] [[DOTFCA_1_INSERT]], double noundef [[CONV]], [[UNION_UNION_F32_I32]] [[DOTFCA_0_INSERT]], i32 noundef [[V3]]) #[[ATTR2]]
+// CHECK-NEXT: tail call void (double, i32, ...) @sink_2(double noundef [[F1]], i32 noundef [[F0]], [[STRUCT_PAIR_F64]] [[DOTFCA_1_INSERT]], double noundef [[CONV]], [[UNION_UNION_F32_I32]] [[DOTFCA_0_INSERT]], i32 noundef [[V3]]) #[[ATTR2]]
+// CHECK-NEXT: ret void
+//
+void multiple_two(int f0, double f1, pair_f64 v0, float v1, union_f32_i32 v2, int v3)
+{
+ sink_0(v0, v1, v2, v3);
+ sink_1(f0, v0, v1, v2, v3);
+ sink_2(f1, f0, v0, v1, v2, v3);
+}
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