248 lines
9.2 KiB
LLVM
248 lines
9.2 KiB
LLVM
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; RUN: llc < %s -asm-verbose=false -disable-wasm-fallthrough-return-opt
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; RUN: llc < %s -asm-verbose=false -disable-wasm-fallthrough-return-opt -wasm-disable-explicit-locals -wasm-keep-registers -mattr=+atomics,+sign-ext | FileCheck %s
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; Currently all wasm atomic memory access instructions are sequentially
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; consistent, so even if LLVM IR specifies weaker orderings than that, we
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; should upgrade them to sequential ordering and treat them in the same way.
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target datalayout = "e-m:e-p:32:32-i64:64-n32:64-S128"
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target triple = "wasm32-unknown-unknown"
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;===----------------------------------------------------------------------------
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; Atomic loads
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;===----------------------------------------------------------------------------
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; The 'release' and 'acq_rel' orderings are not valid on load instructions.
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; CHECK-LABEL: load_i32_unordered:
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; CHECK: i32.atomic.load $push0=, 0($0){{$}}
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; CHECK-NEXT: return $pop0{{$}}
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define i32 @load_i32_unordered(i32 *%p) {
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%v = load atomic i32, i32* %p unordered, align 4
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ret i32 %v
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}
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; CHECK-LABEL: load_i32_monotonic:
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; CHECK: i32.atomic.load $push0=, 0($0){{$}}
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; CHECK-NEXT: return $pop0{{$}}
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define i32 @load_i32_monotonic(i32 *%p) {
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%v = load atomic i32, i32* %p monotonic, align 4
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ret i32 %v
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}
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; CHECK-LABEL: load_i32_acquire:
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; CHECK: i32.atomic.load $push0=, 0($0){{$}}
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; CHECK-NEXT: return $pop0{{$}}
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define i32 @load_i32_acquire(i32 *%p) {
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%v = load atomic i32, i32* %p acquire, align 4
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ret i32 %v
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}
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; CHECK-LABEL: load_i32_seq_cst:
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; CHECK: i32.atomic.load $push0=, 0($0){{$}}
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; CHECK-NEXT: return $pop0{{$}}
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define i32 @load_i32_seq_cst(i32 *%p) {
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%v = load atomic i32, i32* %p seq_cst, align 4
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ret i32 %v
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}
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;===----------------------------------------------------------------------------
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; Atomic stores
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;===----------------------------------------------------------------------------
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; The 'acquire' and 'acq_rel' orderings aren’t valid on store instructions.
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; CHECK-LABEL: store_i32_unordered:
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; CHECK-NEXT: .functype store_i32_unordered (i32, i32) -> (){{$}}
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; CHECK-NEXT: i32.atomic.store 0($0), $1{{$}}
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; CHECK-NEXT: return{{$}}
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define void @store_i32_unordered(i32 *%p, i32 %v) {
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store atomic i32 %v, i32* %p unordered, align 4
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ret void
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}
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; CHECK-LABEL: store_i32_monotonic:
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; CHECK-NEXT: .functype store_i32_monotonic (i32, i32) -> (){{$}}
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; CHECK-NEXT: i32.atomic.store 0($0), $1{{$}}
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; CHECK-NEXT: return{{$}}
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define void @store_i32_monotonic(i32 *%p, i32 %v) {
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store atomic i32 %v, i32* %p monotonic, align 4
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ret void
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}
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; CHECK-LABEL: store_i32_release:
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; CHECK-NEXT: .functype store_i32_release (i32, i32) -> (){{$}}
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; CHECK-NEXT: i32.atomic.store 0($0), $1{{$}}
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; CHECK-NEXT: return{{$}}
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define void @store_i32_release(i32 *%p, i32 %v) {
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store atomic i32 %v, i32* %p release, align 4
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ret void
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}
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; CHECK-LABEL: store_i32_seq_cst:
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; CHECK-NEXT: .functype store_i32_seq_cst (i32, i32) -> (){{$}}
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; CHECK-NEXT: i32.atomic.store 0($0), $1{{$}}
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; CHECK-NEXT: return{{$}}
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define void @store_i32_seq_cst(i32 *%p, i32 %v) {
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store atomic i32 %v, i32* %p seq_cst, align 4
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ret void
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}
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;===----------------------------------------------------------------------------
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; Atomic read-modify-writes
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;===----------------------------------------------------------------------------
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; Out of several binary RMW instructions, here we test 'add' as an example.
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; The 'unordered' ordering is not valid on atomicrmw instructions.
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; CHECK-LABEL: add_i32_monotonic:
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; CHECK-NEXT: .functype add_i32_monotonic (i32, i32) -> (i32){{$}}
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; CHECK: i32.atomic.rmw.add $push0=, 0($0), $1{{$}}
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; CHECK-NEXT: return $pop0{{$}}
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define i32 @add_i32_monotonic(i32* %p, i32 %v) {
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%old = atomicrmw add i32* %p, i32 %v monotonic
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ret i32 %old
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}
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; CHECK-LABEL: add_i32_acquire:
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; CHECK-NEXT: .functype add_i32_acquire (i32, i32) -> (i32){{$}}
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; CHECK: i32.atomic.rmw.add $push0=, 0($0), $1{{$}}
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; CHECK-NEXT: return $pop0{{$}}
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define i32 @add_i32_acquire(i32* %p, i32 %v) {
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%old = atomicrmw add i32* %p, i32 %v acquire
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ret i32 %old
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}
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; CHECK-LABEL: add_i32_release:
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; CHECK-NEXT: .functype add_i32_release (i32, i32) -> (i32){{$}}
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; CHECK: i32.atomic.rmw.add $push0=, 0($0), $1{{$}}
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; CHECK-NEXT: return $pop0{{$}}
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define i32 @add_i32_release(i32* %p, i32 %v) {
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%old = atomicrmw add i32* %p, i32 %v release
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ret i32 %old
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}
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; CHECK-LABEL: add_i32_acq_rel:
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; CHECK-NEXT: .functype add_i32_acq_rel (i32, i32) -> (i32){{$}}
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; CHECK: i32.atomic.rmw.add $push0=, 0($0), $1{{$}}
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; CHECK-NEXT: return $pop0{{$}}
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define i32 @add_i32_acq_rel(i32* %p, i32 %v) {
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%old = atomicrmw add i32* %p, i32 %v acq_rel
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ret i32 %old
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}
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; CHECK-LABEL: add_i32_seq_cst:
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; CHECK-NEXT: .functype add_i32_seq_cst (i32, i32) -> (i32){{$}}
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; CHECK: i32.atomic.rmw.add $push0=, 0($0), $1{{$}}
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; CHECK-NEXT: return $pop0{{$}}
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define i32 @add_i32_seq_cst(i32* %p, i32 %v) {
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%old = atomicrmw add i32* %p, i32 %v seq_cst
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ret i32 %old
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}
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; Ternary RMW instruction: cmpxchg
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; The success and failure ordering arguments specify how this cmpxchg
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; synchronizes with other atomic operations. Both ordering parameters must be at
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; least monotonic, the ordering constraint on failure must be no stronger than
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; that on success, and the failure ordering cannot be either release or acq_rel.
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; CHECK-LABEL: cmpxchg_i32_monotonic_monotonic:
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; CHECK-NEXT: .functype cmpxchg_i32_monotonic_monotonic (i32, i32, i32) -> (i32){{$}}
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; CHECK: i32.atomic.rmw.cmpxchg $push0=, 0($0), $1, $2{{$}}
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; CHECK-NEXT: return $pop0{{$}}
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define i32 @cmpxchg_i32_monotonic_monotonic(i32* %p, i32 %exp, i32 %new) {
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%pair = cmpxchg i32* %p, i32 %exp, i32 %new monotonic monotonic
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%old = extractvalue { i32, i1 } %pair, 0
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ret i32 %old
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}
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; CHECK-LABEL: cmpxchg_i32_acquire_monotonic:
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; CHECK-NEXT: .functype cmpxchg_i32_acquire_monotonic (i32, i32, i32) -> (i32){{$}}
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; CHECK: i32.atomic.rmw.cmpxchg $push0=, 0($0), $1, $2{{$}}
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; CHECK-NEXT: return $pop0{{$}}
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define i32 @cmpxchg_i32_acquire_monotonic(i32* %p, i32 %exp, i32 %new) {
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%pair = cmpxchg i32* %p, i32 %exp, i32 %new acquire monotonic
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%old = extractvalue { i32, i1 } %pair, 0
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ret i32 %old
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}
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; CHECK-LABEL: cmpxchg_i32_release_monotonic:
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; CHECK-NEXT: .functype cmpxchg_i32_release_monotonic (i32, i32, i32) -> (i32){{$}}
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; CHECK: i32.atomic.rmw.cmpxchg $push0=, 0($0), $1, $2{{$}}
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; CHECK-NEXT: return $pop0{{$}}
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define i32 @cmpxchg_i32_release_monotonic(i32* %p, i32 %exp, i32 %new) {
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%pair = cmpxchg i32* %p, i32 %exp, i32 %new release monotonic
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%old = extractvalue { i32, i1 } %pair, 0
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ret i32 %old
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}
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; CHECK-LABEL: cmpxchg_i32_acq_rel_monotonic:
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; CHECK-NEXT: .functype cmpxchg_i32_acq_rel_monotonic (i32, i32, i32) -> (i32){{$}}
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; CHECK: i32.atomic.rmw.cmpxchg $push0=, 0($0), $1, $2{{$}}
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; CHECK-NEXT: return $pop0{{$}}
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define i32 @cmpxchg_i32_acq_rel_monotonic(i32* %p, i32 %exp, i32 %new) {
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%pair = cmpxchg i32* %p, i32 %exp, i32 %new acq_rel monotonic
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%old = extractvalue { i32, i1 } %pair, 0
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ret i32 %old
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}
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; CHECK-LABEL: cmpxchg_i32_seq_cst_monotonic:
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; CHECK-NEXT: .functype cmpxchg_i32_seq_cst_monotonic (i32, i32, i32) -> (i32){{$}}
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; CHECK: i32.atomic.rmw.cmpxchg $push0=, 0($0), $1, $2{{$}}
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; CHECK-NEXT: return $pop0{{$}}
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define i32 @cmpxchg_i32_seq_cst_monotonic(i32* %p, i32 %exp, i32 %new) {
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%pair = cmpxchg i32* %p, i32 %exp, i32 %new seq_cst monotonic
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%old = extractvalue { i32, i1 } %pair, 0
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ret i32 %old
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}
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; CHECK-LABEL: cmpxchg_i32_acquire_acquire:
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; CHECK-NEXT: .functype cmpxchg_i32_acquire_acquire (i32, i32, i32) -> (i32){{$}}
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; CHECK: i32.atomic.rmw.cmpxchg $push0=, 0($0), $1, $2{{$}}
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; CHECK-NEXT: return $pop0{{$}}
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define i32 @cmpxchg_i32_acquire_acquire(i32* %p, i32 %exp, i32 %new) {
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%pair = cmpxchg i32* %p, i32 %exp, i32 %new acquire acquire
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%old = extractvalue { i32, i1 } %pair, 0
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ret i32 %old
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}
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; CHECK-LABEL: cmpxchg_i32_release_acquire:
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; CHECK-NEXT: .functype cmpxchg_i32_release_acquire (i32, i32, i32) -> (i32){{$}}
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; CHECK: i32.atomic.rmw.cmpxchg $push0=, 0($0), $1, $2{{$}}
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; CHECK-NEXT: return $pop0{{$}}
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define i32 @cmpxchg_i32_release_acquire(i32* %p, i32 %exp, i32 %new) {
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%pair = cmpxchg i32* %p, i32 %exp, i32 %new release acquire
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%old = extractvalue { i32, i1 } %pair, 0
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ret i32 %old
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}
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; CHECK-LABEL: cmpxchg_i32_acq_rel_acquire:
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; CHECK-NEXT: .functype cmpxchg_i32_acq_rel_acquire (i32, i32, i32) -> (i32){{$}}
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; CHECK: i32.atomic.rmw.cmpxchg $push0=, 0($0), $1, $2{{$}}
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; CHECK-NEXT: return $pop0{{$}}
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define i32 @cmpxchg_i32_acq_rel_acquire(i32* %p, i32 %exp, i32 %new) {
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%pair = cmpxchg i32* %p, i32 %exp, i32 %new acq_rel acquire
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%old = extractvalue { i32, i1 } %pair, 0
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ret i32 %old
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}
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; CHECK-LABEL: cmpxchg_i32_seq_cst_acquire:
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; CHECK-NEXT: .functype cmpxchg_i32_seq_cst_acquire (i32, i32, i32) -> (i32){{$}}
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; CHECK: i32.atomic.rmw.cmpxchg $push0=, 0($0), $1, $2{{$}}
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; CHECK-NEXT: return $pop0{{$}}
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define i32 @cmpxchg_i32_seq_cst_acquire(i32* %p, i32 %exp, i32 %new) {
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%pair = cmpxchg i32* %p, i32 %exp, i32 %new seq_cst acquire
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%old = extractvalue { i32, i1 } %pair, 0
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ret i32 %old
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}
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; CHECK-LABEL: cmpxchg_i32_seq_cst_seq_cst:
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; CHECK-NEXT: .functype cmpxchg_i32_seq_cst_seq_cst (i32, i32, i32) -> (i32){{$}}
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; CHECK: i32.atomic.rmw.cmpxchg $push0=, 0($0), $1, $2{{$}}
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; CHECK-NEXT: return $pop0{{$}}
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define i32 @cmpxchg_i32_seq_cst_seq_cst(i32* %p, i32 %exp, i32 %new) {
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%pair = cmpxchg i32* %p, i32 %exp, i32 %new seq_cst seq_cst
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%old = extractvalue { i32, i1 } %pair, 0
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ret i32 %old
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}
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