forked from OSchip/llvm-project
874 lines
21 KiB
LLVM
874 lines
21 KiB
LLVM
; RUN: llc < %s -mtriple=x86_64-unknown-unknown -verify-machineinstrs | FileCheck %s --check-prefix X64
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; RUN: llc < %s -mtriple=i686-unknown-unknown -verify-machineinstrs | FileCheck %s --check-prefix X32
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; RUN: llc < %s -mtriple=x86_64-unknown-unknown -mattr=slow-incdec -verify-machineinstrs | FileCheck %s --check-prefix SLOW_INC
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; This file checks that atomic (non-seq_cst) stores of immediate values are
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; done in one mov instruction and not 2. More precisely, it makes sure that the
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; immediate is not first copied uselessly into a register.
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; Similarily, it checks that a binary operation of an immediate with an atomic
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; variable that is stored back in that variable is done as a single instruction.
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; For example: x.store(42 + x.load(memory_order_acquire), memory_order_release)
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; should be just an add instruction, instead of loading x into a register, doing
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; an add and storing the result back.
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; The binary operations supported are currently add, and, or, xor.
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; sub is not supported because they are translated by an addition of the
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; negated immediate.
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;
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; We also check the same patterns:
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; - For inc/dec.
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; - For register instead of immediate operands.
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; - For floating point operations.
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; seq_cst stores are left as (lock) xchgl, but we try to check every other
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; attribute at least once.
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; Please note that these operations do not require the lock prefix: only
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; sequentially consistent stores require this kind of protection on X86.
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; And even for seq_cst operations, llvm uses the xchg instruction which has
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; an implicit lock prefix, so making it explicit is not required.
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define void @store_atomic_imm_8(i8* %p) {
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; X64-LABEL: store_atomic_imm_8:
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; X64: movb
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; X64-NOT: movb
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; X32-LABEL: store_atomic_imm_8:
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; X32: movb
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; X32-NOT: movb
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store atomic i8 42, i8* %p release, align 1
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ret void
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}
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define void @store_atomic_imm_16(i16* %p) {
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; X64-LABEL: store_atomic_imm_16:
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; X64: movw
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; X64-NOT: movw
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; X32-LABEL: store_atomic_imm_16:
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; X32: movw
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; X32-NOT: movw
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store atomic i16 42, i16* %p monotonic, align 2
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ret void
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}
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define void @store_atomic_imm_32(i32* %p) {
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; X64-LABEL: store_atomic_imm_32:
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; X64: movl
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; X64-NOT: movl
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; On 32 bits, there is an extra movl for each of those functions
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; (probably for alignment reasons).
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; X32-LABEL: store_atomic_imm_32:
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; X32: movl 4(%esp), %eax
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; X32: movl
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; X32-NOT: movl
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store atomic i32 42, i32* %p release, align 4
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ret void
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}
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define void @store_atomic_imm_64(i64* %p) {
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; X64-LABEL: store_atomic_imm_64:
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; X64: movq
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; X64-NOT: movq
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; These are implemented with a CAS loop on 32 bit architectures, and thus
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; cannot be optimized in the same way as the others.
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; X32-LABEL: store_atomic_imm_64:
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; X32: cmpxchg8b
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store atomic i64 42, i64* %p release, align 8
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ret void
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}
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; If an immediate is too big to fit in 32 bits, it cannot be store in one mov,
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; even on X64, one must use movabsq that can only target a register.
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define void @store_atomic_imm_64_big(i64* %p) {
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; X64-LABEL: store_atomic_imm_64_big:
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; X64: movabsq
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; X64: movq
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store atomic i64 100000000000, i64* %p monotonic, align 8
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ret void
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}
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; It would be incorrect to replace a lock xchgl by a movl
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define void @store_atomic_imm_32_seq_cst(i32* %p) {
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; X64-LABEL: store_atomic_imm_32_seq_cst:
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; X64: xchgl
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; X32-LABEL: store_atomic_imm_32_seq_cst:
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; X32: xchgl
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store atomic i32 42, i32* %p seq_cst, align 4
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ret void
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}
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; ----- ADD -----
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define void @add_8i(i8* %p) {
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; X64-LABEL: add_8i:
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; X64-NOT: lock
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; X64: addb
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; X64-NOT: movb
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; X32-LABEL: add_8i:
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; X32-NOT: lock
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; X32: addb
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; X32-NOT: movb
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%1 = load atomic i8, i8* %p seq_cst, align 1
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%2 = add i8 %1, 2
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store atomic i8 %2, i8* %p release, align 1
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ret void
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}
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define void @add_8r(i8* %p, i8 %v) {
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; X64-LABEL: add_8r:
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; X64-NOT: lock
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; X64: addb
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; X64-NOT: movb
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; X32-LABEL: add_8r:
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; X32-NOT: lock
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; X32: addb
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; X32-NOT: movb
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%1 = load atomic i8, i8* %p seq_cst, align 1
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%2 = add i8 %1, %v
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store atomic i8 %2, i8* %p release, align 1
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ret void
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}
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define void @add_16i(i16* %p) {
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; Currently the transformation is not done on 16 bit accesses, as the backend
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; treat 16 bit arithmetic as expensive on X86/X86_64.
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; X64-LABEL: add_16i:
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; X64-NOT: addw
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; X32-LABEL: add_16i:
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; X32-NOT: addw
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%1 = load atomic i16, i16* %p acquire, align 2
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%2 = add i16 %1, 2
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store atomic i16 %2, i16* %p release, align 2
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ret void
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}
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define void @add_16r(i16* %p, i16 %v) {
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; Currently the transformation is not done on 16 bit accesses, as the backend
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; treat 16 bit arithmetic as expensive on X86/X86_64.
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; X64-LABEL: add_16r:
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; X64-NOT: addw
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; X32-LABEL: add_16r:
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; X32-NOT: addw [.*], (
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%1 = load atomic i16, i16* %p acquire, align 2
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%2 = add i16 %1, %v
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store atomic i16 %2, i16* %p release, align 2
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ret void
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}
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define void @add_32i(i32* %p) {
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; X64-LABEL: add_32i:
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; X64-NOT: lock
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; X64: addl
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; X64-NOT: movl
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; X32-LABEL: add_32i:
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; X32-NOT: lock
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; X32: addl
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; X32-NOT: movl
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%1 = load atomic i32, i32* %p acquire, align 4
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%2 = add i32 %1, 2
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store atomic i32 %2, i32* %p monotonic, align 4
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ret void
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}
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define void @add_32r(i32* %p, i32 %v) {
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; X64-LABEL: add_32r:
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; X64-NOT: lock
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; X64: addl
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; X64-NOT: movl
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; X32-LABEL: add_32r:
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; X32-NOT: lock
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; X32: addl
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; X32-NOT: movl
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%1 = load atomic i32, i32* %p acquire, align 4
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%2 = add i32 %1, %v
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store atomic i32 %2, i32* %p monotonic, align 4
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ret void
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}
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; The following is a corner case where the load is added to itself. The pattern
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; matching should not fold this. We only test with 32-bit add, but the same
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; applies to other sizes and operations.
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define void @add_32r_self(i32* %p) {
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; X64-LABEL: add_32r_self:
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; X64-NOT: lock
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; X64: movl (%[[M:[a-z]+]]), %[[R:[a-z]+]]
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; X64: addl %[[R]], %[[R]]
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; X64: movl %[[R]], (%[[M]])
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; X32-LABEL: add_32r_self:
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; X32-NOT: lock
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; X32: movl (%[[M:[a-z]+]]), %[[R:[a-z]+]]
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; X32: addl %[[R]], %[[R]]
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; X32: movl %[[R]], (%[[M]])
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%1 = load atomic i32, i32* %p acquire, align 4
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%2 = add i32 %1, %1
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store atomic i32 %2, i32* %p monotonic, align 4
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ret void
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}
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; The following is a corner case where the load's result is returned. The
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; optimizer isn't allowed to duplicate the load because it's atomic.
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define i32 @add_32r_ret_load(i32* %p, i32 %v) {
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; X64-LABEL: add_32r_ret_load:
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; X64-NOT: lock
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; X64: movl (%rdi), %eax
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; X64-NEXT: addl %eax, %esi
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; X64-NEXT: movl %esi, (%rdi)
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; X64-NEXT: retq
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; X32-LABEL: add_32r_ret_load:
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; X32-NOT: lock
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; X32: movl 4(%esp), %[[P:[a-z]+]]
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; X32-NEXT: movl (%[[P]]),
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; X32-NOT: %[[P]]
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; More code here, we just don't want it to load from P.
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; X32: movl %{{.*}}, (%[[P]])
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; X32-NEXT: retl
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%1 = load atomic i32, i32* %p acquire, align 4
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%2 = add i32 %1, %v
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store atomic i32 %2, i32* %p monotonic, align 4
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ret i32 %1
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}
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define void @add_64i(i64* %p) {
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; X64-LABEL: add_64i:
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; X64-NOT: lock
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; X64: addq
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; X64-NOT: movq
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; We do not check X86-32 as it cannot do 'addq'.
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; X32-LABEL: add_64i:
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%1 = load atomic i64, i64* %p acquire, align 8
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%2 = add i64 %1, 2
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store atomic i64 %2, i64* %p release, align 8
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ret void
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}
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define void @add_64r(i64* %p, i64 %v) {
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; X64-LABEL: add_64r:
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; X64-NOT: lock
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; X64: addq
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; X64-NOT: movq
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; We do not check X86-32 as it cannot do 'addq'.
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; X32-LABEL: add_64r:
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%1 = load atomic i64, i64* %p acquire, align 8
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%2 = add i64 %1, %v
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store atomic i64 %2, i64* %p release, align 8
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ret void
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}
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define void @add_32i_seq_cst(i32* %p) {
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; X64-LABEL: add_32i_seq_cst:
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; X64: xchgl
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; X32-LABEL: add_32i_seq_cst:
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; X32: xchgl
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%1 = load atomic i32, i32* %p monotonic, align 4
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%2 = add i32 %1, 2
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store atomic i32 %2, i32* %p seq_cst, align 4
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ret void
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}
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define void @add_32r_seq_cst(i32* %p, i32 %v) {
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; X64-LABEL: add_32r_seq_cst:
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; X64: xchgl
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; X32-LABEL: add_32r_seq_cst:
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; X32: xchgl
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%1 = load atomic i32, i32* %p monotonic, align 4
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%2 = add i32 %1, %v
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store atomic i32 %2, i32* %p seq_cst, align 4
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ret void
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}
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; ----- AND -----
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define void @and_8i(i8* %p) {
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; X64-LABEL: and_8i:
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; X64-NOT: lock
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; X64: andb
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; X64-NOT: movb
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; X32-LABEL: and_8i:
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; X32-NOT: lock
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; X32: andb
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; X32-NOT: movb
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%1 = load atomic i8, i8* %p monotonic, align 1
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%2 = and i8 %1, 2
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store atomic i8 %2, i8* %p release, align 1
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ret void
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}
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define void @and_8r(i8* %p, i8 %v) {
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; X64-LABEL: and_8r:
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; X64-NOT: lock
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; X64: andb
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; X64-NOT: movb
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; X32-LABEL: and_8r:
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; X32-NOT: lock
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; X32: andb
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; X32-NOT: movb
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%1 = load atomic i8, i8* %p monotonic, align 1
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%2 = and i8 %1, %v
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store atomic i8 %2, i8* %p release, align 1
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ret void
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}
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define void @and_16i(i16* %p) {
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; Currently the transformation is not done on 16 bit accesses, as the backend
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; treat 16 bit arithmetic as expensive on X86/X86_64.
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; X64-LABEL: and_16i:
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; X64-NOT: andw
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; X32-LABEL: and_16i:
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; X32-NOT: andw
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%1 = load atomic i16, i16* %p acquire, align 2
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%2 = and i16 %1, 2
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store atomic i16 %2, i16* %p release, align 2
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ret void
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}
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define void @and_16r(i16* %p, i16 %v) {
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; Currently the transformation is not done on 16 bit accesses, as the backend
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; treat 16 bit arithmetic as expensive on X86/X86_64.
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; X64-LABEL: and_16r:
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; X64-NOT: andw
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; X32-LABEL: and_16r:
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; X32-NOT: andw [.*], (
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%1 = load atomic i16, i16* %p acquire, align 2
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%2 = and i16 %1, %v
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store atomic i16 %2, i16* %p release, align 2
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ret void
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}
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define void @and_32i(i32* %p) {
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; X64-LABEL: and_32i:
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; X64-NOT: lock
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; X64: andl
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; X64-NOT: movl
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; X32-LABEL: and_32i:
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; X32-NOT: lock
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; X32: andl
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; X32-NOT: movl
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%1 = load atomic i32, i32* %p acquire, align 4
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%2 = and i32 %1, 2
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store atomic i32 %2, i32* %p release, align 4
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ret void
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}
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define void @and_32r(i32* %p, i32 %v) {
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; X64-LABEL: and_32r:
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; X64-NOT: lock
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; X64: andl
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; X64-NOT: movl
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; X32-LABEL: and_32r:
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; X32-NOT: lock
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; X32: andl
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; X32-NOT: movl
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%1 = load atomic i32, i32* %p acquire, align 4
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%2 = and i32 %1, %v
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store atomic i32 %2, i32* %p release, align 4
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ret void
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}
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define void @and_64i(i64* %p) {
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; X64-LABEL: and_64i:
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; X64-NOT: lock
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; X64: andq
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; X64-NOT: movq
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; We do not check X86-32 as it cannot do 'andq'.
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; X32-LABEL: and_64i:
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%1 = load atomic i64, i64* %p acquire, align 8
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%2 = and i64 %1, 2
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store atomic i64 %2, i64* %p release, align 8
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ret void
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}
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define void @and_64r(i64* %p, i64 %v) {
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; X64-LABEL: and_64r:
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; X64-NOT: lock
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; X64: andq
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; X64-NOT: movq
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; We do not check X86-32 as it cannot do 'andq'.
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; X32-LABEL: and_64r:
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%1 = load atomic i64, i64* %p acquire, align 8
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%2 = and i64 %1, %v
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store atomic i64 %2, i64* %p release, align 8
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ret void
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}
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define void @and_32i_seq_cst(i32* %p) {
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; X64-LABEL: and_32i_seq_cst:
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; X64: xchgl
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; X32-LABEL: and_32i_seq_cst:
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; X32: xchgl
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%1 = load atomic i32, i32* %p monotonic, align 4
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%2 = and i32 %1, 2
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store atomic i32 %2, i32* %p seq_cst, align 4
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ret void
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}
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define void @and_32r_seq_cst(i32* %p, i32 %v) {
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; X64-LABEL: and_32r_seq_cst:
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; X64: xchgl
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; X32-LABEL: and_32r_seq_cst:
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; X32: xchgl
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%1 = load atomic i32, i32* %p monotonic, align 4
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%2 = and i32 %1, %v
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store atomic i32 %2, i32* %p seq_cst, align 4
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ret void
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}
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; ----- OR -----
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define void @or_8i(i8* %p) {
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; X64-LABEL: or_8i:
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; X64-NOT: lock
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; X64: orb
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; X64-NOT: movb
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; X32-LABEL: or_8i:
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; X32-NOT: lock
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; X32: orb
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; X32-NOT: movb
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%1 = load atomic i8, i8* %p acquire, align 1
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%2 = or i8 %1, 2
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store atomic i8 %2, i8* %p release, align 1
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ret void
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}
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define void @or_8r(i8* %p, i8 %v) {
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; X64-LABEL: or_8r:
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; X64-NOT: lock
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; X64: orb
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; X64-NOT: movb
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; X32-LABEL: or_8r:
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; X32-NOT: lock
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; X32: orb
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; X32-NOT: movb
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%1 = load atomic i8, i8* %p acquire, align 1
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%2 = or i8 %1, %v
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store atomic i8 %2, i8* %p release, align 1
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ret void
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}
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define void @or_16i(i16* %p) {
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; X64-LABEL: or_16i:
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; X64-NOT: orw
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; X32-LABEL: or_16i:
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; X32-NOT: orw
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%1 = load atomic i16, i16* %p acquire, align 2
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%2 = or i16 %1, 2
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store atomic i16 %2, i16* %p release, align 2
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ret void
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}
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|
define void @or_16r(i16* %p, i16 %v) {
|
|
; X64-LABEL: or_16r:
|
|
; X64-NOT: orw
|
|
; X32-LABEL: or_16r:
|
|
; X32-NOT: orw [.*], (
|
|
%1 = load atomic i16, i16* %p acquire, align 2
|
|
%2 = or i16 %1, %v
|
|
store atomic i16 %2, i16* %p release, align 2
|
|
ret void
|
|
}
|
|
|
|
define void @or_32i(i32* %p) {
|
|
; X64-LABEL: or_32i:
|
|
; X64-NOT: lock
|
|
; X64: orl
|
|
; X64-NOT: movl
|
|
; X32-LABEL: or_32i:
|
|
; X32-NOT: lock
|
|
; X32: orl
|
|
; X32-NOT: movl
|
|
%1 = load atomic i32, i32* %p acquire, align 4
|
|
%2 = or i32 %1, 2
|
|
store atomic i32 %2, i32* %p release, align 4
|
|
ret void
|
|
}
|
|
|
|
define void @or_32r(i32* %p, i32 %v) {
|
|
; X64-LABEL: or_32r:
|
|
; X64-NOT: lock
|
|
; X64: orl
|
|
; X64-NOT: movl
|
|
; X32-LABEL: or_32r:
|
|
; X32-NOT: lock
|
|
; X32: orl
|
|
; X32-NOT: movl
|
|
%1 = load atomic i32, i32* %p acquire, align 4
|
|
%2 = or i32 %1, %v
|
|
store atomic i32 %2, i32* %p release, align 4
|
|
ret void
|
|
}
|
|
|
|
define void @or_64i(i64* %p) {
|
|
; X64-LABEL: or_64i:
|
|
; X64-NOT: lock
|
|
; X64: orq
|
|
; X64-NOT: movq
|
|
; We do not check X86-32 as it cannot do 'orq'.
|
|
; X32-LABEL: or_64i:
|
|
%1 = load atomic i64, i64* %p acquire, align 8
|
|
%2 = or i64 %1, 2
|
|
store atomic i64 %2, i64* %p release, align 8
|
|
ret void
|
|
}
|
|
|
|
define void @or_64r(i64* %p, i64 %v) {
|
|
; X64-LABEL: or_64r:
|
|
; X64-NOT: lock
|
|
; X64: orq
|
|
; X64-NOT: movq
|
|
; We do not check X86-32 as it cannot do 'orq'.
|
|
; X32-LABEL: or_64r:
|
|
%1 = load atomic i64, i64* %p acquire, align 8
|
|
%2 = or i64 %1, %v
|
|
store atomic i64 %2, i64* %p release, align 8
|
|
ret void
|
|
}
|
|
|
|
define void @or_32i_seq_cst(i32* %p) {
|
|
; X64-LABEL: or_32i_seq_cst:
|
|
; X64: xchgl
|
|
; X32-LABEL: or_32i_seq_cst:
|
|
; X32: xchgl
|
|
%1 = load atomic i32, i32* %p monotonic, align 4
|
|
%2 = or i32 %1, 2
|
|
store atomic i32 %2, i32* %p seq_cst, align 4
|
|
ret void
|
|
}
|
|
|
|
define void @or_32r_seq_cst(i32* %p, i32 %v) {
|
|
; X64-LABEL: or_32r_seq_cst:
|
|
; X64: xchgl
|
|
; X32-LABEL: or_32r_seq_cst:
|
|
; X32: xchgl
|
|
%1 = load atomic i32, i32* %p monotonic, align 4
|
|
%2 = or i32 %1, %v
|
|
store atomic i32 %2, i32* %p seq_cst, align 4
|
|
ret void
|
|
}
|
|
|
|
; ----- XOR -----
|
|
|
|
define void @xor_8i(i8* %p) {
|
|
; X64-LABEL: xor_8i:
|
|
; X64-NOT: lock
|
|
; X64: xorb
|
|
; X64-NOT: movb
|
|
; X32-LABEL: xor_8i:
|
|
; X32-NOT: lock
|
|
; X32: xorb
|
|
; X32-NOT: movb
|
|
%1 = load atomic i8, i8* %p acquire, align 1
|
|
%2 = xor i8 %1, 2
|
|
store atomic i8 %2, i8* %p release, align 1
|
|
ret void
|
|
}
|
|
|
|
define void @xor_8r(i8* %p, i8 %v) {
|
|
; X64-LABEL: xor_8r:
|
|
; X64-NOT: lock
|
|
; X64: xorb
|
|
; X64-NOT: movb
|
|
; X32-LABEL: xor_8r:
|
|
; X32-NOT: lock
|
|
; X32: xorb
|
|
; X32-NOT: movb
|
|
%1 = load atomic i8, i8* %p acquire, align 1
|
|
%2 = xor i8 %1, %v
|
|
store atomic i8 %2, i8* %p release, align 1
|
|
ret void
|
|
}
|
|
|
|
define void @xor_16i(i16* %p) {
|
|
; X64-LABEL: xor_16i:
|
|
; X64-NOT: xorw
|
|
; X32-LABEL: xor_16i:
|
|
; X32-NOT: xorw
|
|
%1 = load atomic i16, i16* %p acquire, align 2
|
|
%2 = xor i16 %1, 2
|
|
store atomic i16 %2, i16* %p release, align 2
|
|
ret void
|
|
}
|
|
|
|
define void @xor_16r(i16* %p, i16 %v) {
|
|
; X64-LABEL: xor_16r:
|
|
; X64-NOT: xorw
|
|
; X32-LABEL: xor_16r:
|
|
; X32-NOT: xorw [.*], (
|
|
%1 = load atomic i16, i16* %p acquire, align 2
|
|
%2 = xor i16 %1, %v
|
|
store atomic i16 %2, i16* %p release, align 2
|
|
ret void
|
|
}
|
|
|
|
define void @xor_32i(i32* %p) {
|
|
; X64-LABEL: xor_32i:
|
|
; X64-NOT: lock
|
|
; X64: xorl
|
|
; X64-NOT: movl
|
|
; X32-LABEL: xor_32i:
|
|
; X32-NOT: lock
|
|
; X32: xorl
|
|
; X32-NOT: movl
|
|
%1 = load atomic i32, i32* %p acquire, align 4
|
|
%2 = xor i32 %1, 2
|
|
store atomic i32 %2, i32* %p release, align 4
|
|
ret void
|
|
}
|
|
|
|
define void @xor_32r(i32* %p, i32 %v) {
|
|
; X64-LABEL: xor_32r:
|
|
; X64-NOT: lock
|
|
; X64: xorl
|
|
; X64-NOT: movl
|
|
; X32-LABEL: xor_32r:
|
|
; X32-NOT: lock
|
|
; X32: xorl
|
|
; X32-NOT: movl
|
|
%1 = load atomic i32, i32* %p acquire, align 4
|
|
%2 = xor i32 %1, %v
|
|
store atomic i32 %2, i32* %p release, align 4
|
|
ret void
|
|
}
|
|
|
|
define void @xor_64i(i64* %p) {
|
|
; X64-LABEL: xor_64i:
|
|
; X64-NOT: lock
|
|
; X64: xorq
|
|
; X64-NOT: movq
|
|
; We do not check X86-32 as it cannot do 'xorq'.
|
|
; X32-LABEL: xor_64i:
|
|
%1 = load atomic i64, i64* %p acquire, align 8
|
|
%2 = xor i64 %1, 2
|
|
store atomic i64 %2, i64* %p release, align 8
|
|
ret void
|
|
}
|
|
|
|
define void @xor_64r(i64* %p, i64 %v) {
|
|
; X64-LABEL: xor_64r:
|
|
; X64-NOT: lock
|
|
; X64: xorq
|
|
; X64-NOT: movq
|
|
; We do not check X86-32 as it cannot do 'xorq'.
|
|
; X32-LABEL: xor_64r:
|
|
%1 = load atomic i64, i64* %p acquire, align 8
|
|
%2 = xor i64 %1, %v
|
|
store atomic i64 %2, i64* %p release, align 8
|
|
ret void
|
|
}
|
|
|
|
define void @xor_32i_seq_cst(i32* %p) {
|
|
; X64-LABEL: xor_32i_seq_cst:
|
|
; X64: xchgl
|
|
; X32-LABEL: xor_32i_seq_cst:
|
|
; X32: xchgl
|
|
%1 = load atomic i32, i32* %p monotonic, align 4
|
|
%2 = xor i32 %1, 2
|
|
store atomic i32 %2, i32* %p seq_cst, align 4
|
|
ret void
|
|
}
|
|
|
|
define void @xor_32r_seq_cst(i32* %p, i32 %v) {
|
|
; X64-LABEL: xor_32r_seq_cst:
|
|
; X64: xchgl
|
|
; X32-LABEL: xor_32r_seq_cst:
|
|
; X32: xchgl
|
|
%1 = load atomic i32, i32* %p monotonic, align 4
|
|
%2 = xor i32 %1, %v
|
|
store atomic i32 %2, i32* %p seq_cst, align 4
|
|
ret void
|
|
}
|
|
|
|
; ----- INC -----
|
|
|
|
define void @inc_8(i8* %p) {
|
|
; X64-LABEL: inc_8:
|
|
; X64-NOT: lock
|
|
; X64: incb
|
|
; X64-NOT: movb
|
|
; X32-LABEL: inc_8:
|
|
; X32-NOT: lock
|
|
; X32: incb
|
|
; X32-NOT: movb
|
|
; SLOW_INC-LABEL: inc_8:
|
|
; SLOW_INC-NOT: incb
|
|
; SLOW_INC-NOT: movb
|
|
%1 = load atomic i8, i8* %p seq_cst, align 1
|
|
%2 = add i8 %1, 1
|
|
store atomic i8 %2, i8* %p release, align 1
|
|
ret void
|
|
}
|
|
|
|
define void @inc_16(i16* %p) {
|
|
; Currently the transformation is not done on 16 bit accesses, as the backend
|
|
; treat 16 bit arithmetic as expensive on X86/X86_64.
|
|
; X64-LABEL: inc_16:
|
|
; X64-NOT: incw
|
|
; X32-LABEL: inc_16:
|
|
; X32-NOT: incw
|
|
; SLOW_INC-LABEL: inc_16:
|
|
; SLOW_INC-NOT: incw
|
|
%1 = load atomic i16, i16* %p acquire, align 2
|
|
%2 = add i16 %1, 1
|
|
store atomic i16 %2, i16* %p release, align 2
|
|
ret void
|
|
}
|
|
|
|
define void @inc_32(i32* %p) {
|
|
; X64-LABEL: inc_32:
|
|
; X64-NOT: lock
|
|
; X64: incl
|
|
; X64-NOT: movl
|
|
; X32-LABEL: inc_32:
|
|
; X32-NOT: lock
|
|
; X32: incl
|
|
; X32-NOT: movl
|
|
; SLOW_INC-LABEL: inc_32:
|
|
; SLOW_INC-NOT: incl
|
|
; SLOW_INC-NOT: movl
|
|
%1 = load atomic i32, i32* %p acquire, align 4
|
|
%2 = add i32 %1, 1
|
|
store atomic i32 %2, i32* %p monotonic, align 4
|
|
ret void
|
|
}
|
|
|
|
define void @inc_64(i64* %p) {
|
|
; X64-LABEL: inc_64:
|
|
; X64-NOT: lock
|
|
; X64: incq
|
|
; X64-NOT: movq
|
|
; We do not check X86-32 as it cannot do 'incq'.
|
|
; X32-LABEL: inc_64:
|
|
; SLOW_INC-LABEL: inc_64:
|
|
; SLOW_INC-NOT: incq
|
|
; SLOW_INC-NOT: movq
|
|
%1 = load atomic i64, i64* %p acquire, align 8
|
|
%2 = add i64 %1, 1
|
|
store atomic i64 %2, i64* %p release, align 8
|
|
ret void
|
|
}
|
|
|
|
define void @inc_32_seq_cst(i32* %p) {
|
|
; X64-LABEL: inc_32_seq_cst:
|
|
; X64: xchgl
|
|
; X32-LABEL: inc_32_seq_cst:
|
|
; X32: xchgl
|
|
%1 = load atomic i32, i32* %p monotonic, align 4
|
|
%2 = add i32 %1, 1
|
|
store atomic i32 %2, i32* %p seq_cst, align 4
|
|
ret void
|
|
}
|
|
|
|
; ----- DEC -----
|
|
|
|
define void @dec_8(i8* %p) {
|
|
; X64-LABEL: dec_8:
|
|
; X64-NOT: lock
|
|
; X64: decb
|
|
; X64-NOT: movb
|
|
; X32-LABEL: dec_8:
|
|
; X32-NOT: lock
|
|
; X32: decb
|
|
; X32-NOT: movb
|
|
; SLOW_INC-LABEL: dec_8:
|
|
; SLOW_INC-NOT: decb
|
|
; SLOW_INC-NOT: movb
|
|
%1 = load atomic i8, i8* %p seq_cst, align 1
|
|
%2 = sub i8 %1, 1
|
|
store atomic i8 %2, i8* %p release, align 1
|
|
ret void
|
|
}
|
|
|
|
define void @dec_16(i16* %p) {
|
|
; Currently the transformation is not done on 16 bit accesses, as the backend
|
|
; treat 16 bit arithmetic as expensive on X86/X86_64.
|
|
; X64-LABEL: dec_16:
|
|
; X64-NOT: decw
|
|
; X32-LABEL: dec_16:
|
|
; X32-NOT: decw
|
|
; SLOW_INC-LABEL: dec_16:
|
|
; SLOW_INC-NOT: decw
|
|
%1 = load atomic i16, i16* %p acquire, align 2
|
|
%2 = sub i16 %1, 1
|
|
store atomic i16 %2, i16* %p release, align 2
|
|
ret void
|
|
}
|
|
|
|
define void @dec_32(i32* %p) {
|
|
; X64-LABEL: dec_32:
|
|
; X64-NOT: lock
|
|
; X64: decl
|
|
; X64-NOT: movl
|
|
; X32-LABEL: dec_32:
|
|
; X32-NOT: lock
|
|
; X32: decl
|
|
; X32-NOT: movl
|
|
; SLOW_INC-LABEL: dec_32:
|
|
; SLOW_INC-NOT: decl
|
|
; SLOW_INC-NOT: movl
|
|
%1 = load atomic i32, i32* %p acquire, align 4
|
|
%2 = sub i32 %1, 1
|
|
store atomic i32 %2, i32* %p monotonic, align 4
|
|
ret void
|
|
}
|
|
|
|
define void @dec_64(i64* %p) {
|
|
; X64-LABEL: dec_64:
|
|
; X64-NOT: lock
|
|
; X64: decq
|
|
; X64-NOT: movq
|
|
; We do not check X86-32 as it cannot do 'decq'.
|
|
; X32-LABEL: dec_64:
|
|
; SLOW_INC-LABEL: dec_64:
|
|
; SLOW_INC-NOT: decq
|
|
; SLOW_INC-NOT: movq
|
|
%1 = load atomic i64, i64* %p acquire, align 8
|
|
%2 = sub i64 %1, 1
|
|
store atomic i64 %2, i64* %p release, align 8
|
|
ret void
|
|
}
|
|
|
|
define void @dec_32_seq_cst(i32* %p) {
|
|
; X64-LABEL: dec_32_seq_cst:
|
|
; X64: xchgl
|
|
; X32-LABEL: dec_32_seq_cst:
|
|
; X32: xchgl
|
|
%1 = load atomic i32, i32* %p monotonic, align 4
|
|
%2 = sub i32 %1, 1
|
|
store atomic i32 %2, i32* %p seq_cst, align 4
|
|
ret void
|
|
}
|
|
|
|
; ----- FADD -----
|
|
|
|
define void @fadd_32r(float* %loc, float %val) {
|
|
; X64-LABEL: fadd_32r:
|
|
; X64-NOT: lock
|
|
; X64-NOT: mov
|
|
; X64: addss (%[[M:[a-z]+]]), %[[XMM:xmm[0-9]+]]
|
|
; X64-NEXT: movss %[[XMM]], (%[[M]])
|
|
; X32-LABEL: fadd_32r:
|
|
; Don't check x86-32.
|
|
; LLVM's SSE handling is conservative on x86-32 even without using atomics.
|
|
%floc = bitcast float* %loc to i32*
|
|
%1 = load atomic i32, i32* %floc seq_cst, align 4
|
|
%2 = bitcast i32 %1 to float
|
|
%add = fadd float %2, %val
|
|
%3 = bitcast float %add to i32
|
|
store atomic i32 %3, i32* %floc release, align 4
|
|
ret void
|
|
}
|
|
|
|
define void @fadd_64r(double* %loc, double %val) {
|
|
; X64-LABEL: fadd_64r:
|
|
; X64-NOT: lock
|
|
; X64-NOT: mov
|
|
; X64: addsd (%[[M:[a-z]+]]), %[[XMM:xmm[0-9]+]]
|
|
; X64-NEXT: movsd %[[XMM]], (%[[M]])
|
|
; X32-LABEL: fadd_64r:
|
|
; Don't check x86-32 (see comment above).
|
|
%floc = bitcast double* %loc to i64*
|
|
%1 = load atomic i64, i64* %floc seq_cst, align 8
|
|
%2 = bitcast i64 %1 to double
|
|
%add = fadd double %2, %val
|
|
%3 = bitcast double %add to i64
|
|
store atomic i64 %3, i64* %floc release, align 8
|
|
ret void
|
|
}
|