llvm-6502/test/CodeGen/Mips/atomic.ll
Daniel Sanders fe2b8b1960 [mips] Promote i32 arguments to i64 for the N32/N64 ABI and fix <64-bit structs...
Summary:
... and after all that refactoring, it's possible to distinguish softfloat
floating point values from integers so this patch no longer breaks softfloat to
do it.

Remove direct handling of i32's in the N32/N64 ABI by promoting them to
i64. This more closely reflects the ABI documentation and also fixes
problems with stack arguments on big-endian targets.

We now rely on signext/zeroext annotations (already generated by clang) and
the Assert[SZ]ext nodes to avoid the introduction of unnecessary sign/zero
extends.

It was not possible to convert three tests to use signext/zeroext. These tests
are bswap.ll, ctlz-v.ll, ctlz-v.ll. It's not possible to put signext on a
vector type so we just accept the sign extends here for now. These tests don't
pass the vectors the same way clang does (clang puts multiple elements in the
same argument, these map 1 element to 1 argument) so we don't need to worry too
much about it.

With this patch, all known N32/N64 bugs should be fixed and we now pass the
first 10,000 tests generated by ABITest.py.

Subscribers: llvm-commits

Differential Revision: http://reviews.llvm.org/D6117


git-svn-id: https://llvm.org/svn/llvm-project/llvm/trunk@221534 91177308-0d34-0410-b5e6-96231b3b80d8
2014-11-07 16:54:21 +00:00

435 lines
16 KiB
LLVM

; RUN: llc -march=mipsel --disable-machine-licm -mcpu=mips32 < %s | FileCheck %s -check-prefix=ALL -check-prefix=MIPS32-ANY -check-prefix=NO-SEB-SEH -check-prefix=CHECK-EL
; RUN: llc -march=mipsel --disable-machine-licm -mcpu=mips32r2 < %s | FileCheck %s -check-prefix=ALL -check-prefix=MIPS32-ANY -check-prefix=HAS-SEB-SEH -check-prefix=CHECK-EL
; RUN: llc -march=mipsel --disable-machine-licm -mcpu=mips32r6 < %s | FileCheck %s -check-prefix=ALL -check-prefix=MIPS32-ANY -check-prefix=HAS-SEB-SEH -check-prefix=CHECK-EL
; RUN: llc -march=mips64el --disable-machine-licm -mcpu=mips4 < %s | FileCheck %s -check-prefix=ALL -check-prefix=MIPS64-ANY -check-prefix=NO-SEB-SEH -check-prefix=CHECK-EL
; RUN: llc -march=mips64el --disable-machine-licm -mcpu=mips64 < %s | FileCheck %s -check-prefix=ALL -check-prefix=MIPS64-ANY -check-prefix=NO-SEB-SEH -check-prefix=CHECK-EL
; RUN: llc -march=mips64el --disable-machine-licm -mcpu=mips64r2 < %s | FileCheck %s -check-prefix=ALL -check-prefix=MIPS64-ANY -check-prefix=HAS-SEB-SEH -check-prefix=CHECK-EL
; RUN: llc -march=mips64el --disable-machine-licm -mcpu=mips64r6 < %s | FileCheck %s -check-prefix=ALL -check-prefix=MIPS64-ANY -check-prefix=HAS-SEB-SEH -check-prefix=CHECK-EL
; Keep one big-endian check so that we don't reduce testing, but don't add more
; since endianness doesn't affect the body of the atomic operations.
; RUN: llc -march=mips --disable-machine-licm -mcpu=mips32 < %s | FileCheck %s -check-prefix=ALL -check-prefix=MIPS32-ANY -check-prefix=NO-SEB-SEH -check-prefix=CHECK-EB
@x = common global i32 0, align 4
define i32 @AtomicLoadAdd32(i32 signext %incr) nounwind {
entry:
%0 = atomicrmw add i32* @x, i32 %incr monotonic
ret i32 %0
; ALL-LABEL: AtomicLoadAdd32:
; MIPS32-ANY: lw $[[R0:[0-9]+]], %got(x)
; MIPS64-ANY: ld $[[R0:[0-9]+]], %got_disp(x)(
; ALL: $[[BB0:[A-Z_0-9]+]]:
; ALL: ll $[[R1:[0-9]+]], 0($[[R0]])
; ALL: addu $[[R2:[0-9]+]], $[[R1]], $4
; ALL: sc $[[R2]], 0($[[R0]])
; ALL: beqz $[[R2]], $[[BB0]]
}
define i32 @AtomicLoadNand32(i32 signext %incr) nounwind {
entry:
%0 = atomicrmw nand i32* @x, i32 %incr monotonic
ret i32 %0
; ALL-LABEL: AtomicLoadNand32:
; MIPS32-ANY: lw $[[R0:[0-9]+]], %got(x)
; MIPS64-ANY: ld $[[R0:[0-9]+]], %got_disp(x)(
; ALL: $[[BB0:[A-Z_0-9]+]]:
; ALL: ll $[[R1:[0-9]+]], 0($[[R0]])
; ALL: and $[[R3:[0-9]+]], $[[R1]], $4
; ALL: nor $[[R2:[0-9]+]], $zero, $[[R3]]
; ALL: sc $[[R2]], 0($[[R0]])
; ALL: beqz $[[R2]], $[[BB0]]
}
define i32 @AtomicSwap32(i32 signext %newval) nounwind {
entry:
%newval.addr = alloca i32, align 4
store i32 %newval, i32* %newval.addr, align 4
%tmp = load i32* %newval.addr, align 4
%0 = atomicrmw xchg i32* @x, i32 %tmp monotonic
ret i32 %0
; ALL-LABEL: AtomicSwap32:
; MIPS32-ANY: lw $[[R0:[0-9]+]], %got(x)
; MIPS64-ANY: ld $[[R0:[0-9]+]], %got_disp(x)
; ALL: $[[BB0:[A-Z_0-9]+]]:
; ALL: ll ${{[0-9]+}}, 0($[[R0]])
; ALL: sc $[[R2:[0-9]+]], 0($[[R0]])
; ALL: beqz $[[R2]], $[[BB0]]
}
define i32 @AtomicCmpSwap32(i32 signext %oldval, i32 signext %newval) nounwind {
entry:
%newval.addr = alloca i32, align 4
store i32 %newval, i32* %newval.addr, align 4
%tmp = load i32* %newval.addr, align 4
%0 = cmpxchg i32* @x, i32 %oldval, i32 %tmp monotonic monotonic
%1 = extractvalue { i32, i1 } %0, 0
ret i32 %1
; ALL-LABEL: AtomicCmpSwap32:
; MIPS32-ANY: lw $[[R0:[0-9]+]], %got(x)
; MIPS64-ANY: ld $[[R0:[0-9]+]], %got_disp(x)(
; ALL: $[[BB0:[A-Z_0-9]+]]:
; ALL: ll $2, 0($[[R0]])
; ALL: bne $2, $4, $[[BB1:[A-Z_0-9]+]]
; ALL: sc $[[R2:[0-9]+]], 0($[[R0]])
; ALL: beqz $[[R2]], $[[BB0]]
; ALL: $[[BB1]]:
}
@y = common global i8 0, align 1
define signext i8 @AtomicLoadAdd8(i8 signext %incr) nounwind {
entry:
%0 = atomicrmw add i8* @y, i8 %incr monotonic
ret i8 %0
; ALL-LABEL: AtomicLoadAdd8:
; MIPS32-ANY: lw $[[R0:[0-9]+]], %got(y)
; MIPS64-ANY: ld $[[R0:[0-9]+]], %got_disp(y)(
; ALL: addiu $[[R1:[0-9]+]], $zero, -4
; ALL: and $[[R2:[0-9]+]], $[[R0]], $[[R1]]
; ALL: andi $[[R3:[0-9]+]], $[[R0]], 3
; CHECK-EB: xori $[[R4:[0-9]+]], $[[R3]], 3
; CHECK-EB: sll $[[R5:[0-9]+]], $[[R4]], 3
; CHECK-EL: sll $[[R5:[0-9]+]], $[[R3]], 3
; ALL: ori $[[R6:[0-9]+]], $zero, 255
; ALL: sllv $[[R7:[0-9]+]], $[[R6]], $[[R5]]
; ALL: nor $[[R8:[0-9]+]], $zero, $[[R7]]
; ALL: sllv $[[R9:[0-9]+]], $4, $[[R5]]
; ALL: $[[BB0:[A-Z_0-9]+]]:
; ALL: ll $[[R10:[0-9]+]], 0($[[R2]])
; ALL: addu $[[R11:[0-9]+]], $[[R10]], $[[R9]]
; ALL: and $[[R12:[0-9]+]], $[[R11]], $[[R7]]
; ALL: and $[[R13:[0-9]+]], $[[R10]], $[[R8]]
; ALL: or $[[R14:[0-9]+]], $[[R13]], $[[R12]]
; ALL: sc $[[R14]], 0($[[R2]])
; ALL: beqz $[[R14]], $[[BB0]]
; ALL: and $[[R15:[0-9]+]], $[[R10]], $[[R7]]
; ALL: srlv $[[R16:[0-9]+]], $[[R15]], $[[R5]]
; NO-SEB-SEH: sll $[[R17:[0-9]+]], $[[R16]], 24
; NO-SEB-SEH: sra $2, $[[R17]], 24
; HAS-SEB-SEH: seb $2, $[[R16]]
}
define signext i8 @AtomicLoadSub8(i8 signext %incr) nounwind {
entry:
%0 = atomicrmw sub i8* @y, i8 %incr monotonic
ret i8 %0
; ALL-LABEL: AtomicLoadSub8:
; MIPS32-ANY: lw $[[R0:[0-9]+]], %got(y)
; MIPS64-ANY: ld $[[R0:[0-9]+]], %got_disp(y)(
; ALL: addiu $[[R1:[0-9]+]], $zero, -4
; ALL: and $[[R2:[0-9]+]], $[[R0]], $[[R1]]
; ALL: andi $[[R3:[0-9]+]], $[[R0]], 3
; CHECK-EL: sll $[[R5:[0-9]+]], $[[R3]], 3
; CHECK-EB: xori $[[R4:[0-9]+]], $[[R3]], 3
; CHECK-EB: sll $[[R5:[0-9]+]], $[[R4]], 3
; ALL: ori $[[R6:[0-9]+]], $zero, 255
; ALL: sllv $[[R7:[0-9]+]], $[[R6]], $[[R5]]
; ALL: nor $[[R8:[0-9]+]], $zero, $[[R7]]
; ALL: sllv $[[R9:[0-9]+]], $4, $[[R5]]
; ALL: $[[BB0:[A-Z_0-9]+]]:
; ALL: ll $[[R10:[0-9]+]], 0($[[R2]])
; ALL: subu $[[R11:[0-9]+]], $[[R10]], $[[R9]]
; ALL: and $[[R12:[0-9]+]], $[[R11]], $[[R7]]
; ALL: and $[[R13:[0-9]+]], $[[R10]], $[[R8]]
; ALL: or $[[R14:[0-9]+]], $[[R13]], $[[R12]]
; ALL: sc $[[R14]], 0($[[R2]])
; ALL: beqz $[[R14]], $[[BB0]]
; ALL: and $[[R15:[0-9]+]], $[[R10]], $[[R7]]
; ALL: srlv $[[R16:[0-9]+]], $[[R15]], $[[R5]]
; NO-SEB-SEH: sll $[[R17:[0-9]+]], $[[R16]], 24
; NO-SEB-SEH: sra $2, $[[R17]], 24
; HAS-SEB-SEH:seb $2, $[[R16]]
}
define signext i8 @AtomicLoadNand8(i8 signext %incr) nounwind {
entry:
%0 = atomicrmw nand i8* @y, i8 %incr monotonic
ret i8 %0
; ALL-LABEL: AtomicLoadNand8:
; MIPS32-ANY: lw $[[R0:[0-9]+]], %got(y)
; MIPS64-ANY: ld $[[R0:[0-9]+]], %got_disp(y)(
; ALL: addiu $[[R1:[0-9]+]], $zero, -4
; ALL: and $[[R2:[0-9]+]], $[[R0]], $[[R1]]
; ALL: andi $[[R3:[0-9]+]], $[[R0]], 3
; CHECK-EL: sll $[[R5:[0-9]+]], $[[R3]], 3
; CHECK-EB: xori $[[R4:[0-9]+]], $[[R3]], 3
; CHECK-EB: sll $[[R5:[0-9]+]], $[[R4]], 3
; ALL: ori $[[R6:[0-9]+]], $zero, 255
; ALL: sllv $[[R7:[0-9]+]], $[[R6]], $[[R5]]
; ALL: nor $[[R8:[0-9]+]], $zero, $[[R7]]
; ALL: sllv $[[R9:[0-9]+]], $4, $[[R5]]
; ALL: $[[BB0:[A-Z_0-9]+]]:
; ALL: ll $[[R10:[0-9]+]], 0($[[R2]])
; ALL: and $[[R18:[0-9]+]], $[[R10]], $[[R9]]
; ALL: nor $[[R11:[0-9]+]], $zero, $[[R18]]
; ALL: and $[[R12:[0-9]+]], $[[R11]], $[[R7]]
; ALL: and $[[R13:[0-9]+]], $[[R10]], $[[R8]]
; ALL: or $[[R14:[0-9]+]], $[[R13]], $[[R12]]
; ALL: sc $[[R14]], 0($[[R2]])
; ALL: beqz $[[R14]], $[[BB0]]
; ALL: and $[[R15:[0-9]+]], $[[R10]], $[[R7]]
; ALL: srlv $[[R16:[0-9]+]], $[[R15]], $[[R5]]
; NO-SEB-SEH: sll $[[R17:[0-9]+]], $[[R16]], 24
; NO-SEB-SEH: sra $2, $[[R17]], 24
; HAS-SEB-SEH: seb $2, $[[R16]]
}
define signext i8 @AtomicSwap8(i8 signext %newval) nounwind {
entry:
%0 = atomicrmw xchg i8* @y, i8 %newval monotonic
ret i8 %0
; ALL-LABEL: AtomicSwap8:
; MIPS32-ANY: lw $[[R0:[0-9]+]], %got(y)
; MIPS64-ANY: ld $[[R0:[0-9]+]], %got_disp(y)(
; ALL: addiu $[[R1:[0-9]+]], $zero, -4
; ALL: and $[[R2:[0-9]+]], $[[R0]], $[[R1]]
; ALL: andi $[[R3:[0-9]+]], $[[R0]], 3
; CHECK-EL: sll $[[R5:[0-9]+]], $[[R3]], 3
; CHECK-EB: xori $[[R4:[0-9]+]], $[[R3]], 3
; CHECK-EB: sll $[[R5:[0-9]+]], $[[R4]], 3
; ALL: ori $[[R6:[0-9]+]], $zero, 255
; ALL: sllv $[[R7:[0-9]+]], $[[R6]], $[[R5]]
; ALL: nor $[[R8:[0-9]+]], $zero, $[[R7]]
; ALL: sllv $[[R9:[0-9]+]], $4, $[[R5]]
; ALL: $[[BB0:[A-Z_0-9]+]]:
; ALL: ll $[[R10:[0-9]+]], 0($[[R2]])
; ALL: and $[[R18:[0-9]+]], $[[R9]], $[[R7]]
; ALL: and $[[R13:[0-9]+]], $[[R10]], $[[R8]]
; ALL: or $[[R14:[0-9]+]], $[[R13]], $[[R18]]
; ALL: sc $[[R14]], 0($[[R2]])
; ALL: beqz $[[R14]], $[[BB0]]
; ALL: and $[[R15:[0-9]+]], $[[R10]], $[[R7]]
; ALL: srlv $[[R16:[0-9]+]], $[[R15]], $[[R5]]
; NO-SEB-SEH: sll $[[R17:[0-9]+]], $[[R16]], 24
; NO-SEB-SEH: sra $2, $[[R17]], 24
; HAS-SEB-SEH: seb $2, $[[R16]]
}
define signext i8 @AtomicCmpSwap8(i8 signext %oldval, i8 signext %newval) nounwind {
entry:
%pair0 = cmpxchg i8* @y, i8 %oldval, i8 %newval monotonic monotonic
%0 = extractvalue { i8, i1 } %pair0, 0
ret i8 %0
; ALL-LABEL: AtomicCmpSwap8:
; MIPS32-ANY: lw $[[R0:[0-9]+]], %got(y)
; MIPS64-ANY: ld $[[R0:[0-9]+]], %got_disp(y)(
; ALL: addiu $[[R1:[0-9]+]], $zero, -4
; ALL: and $[[R2:[0-9]+]], $[[R0]], $[[R1]]
; ALL: andi $[[R3:[0-9]+]], $[[R0]], 3
; CHECK-EL: sll $[[R5:[0-9]+]], $[[R3]], 3
; CHECK-EB: xori $[[R4:[0-9]+]], $[[R3]], 3
; CHECK-EB: sll $[[R5:[0-9]+]], $[[R4]], 3
; ALL: ori $[[R6:[0-9]+]], $zero, 255
; ALL: sllv $[[R7:[0-9]+]], $[[R6]], $[[R5]]
; ALL: nor $[[R8:[0-9]+]], $zero, $[[R7]]
; ALL: andi $[[R9:[0-9]+]], $4, 255
; ALL: sllv $[[R10:[0-9]+]], $[[R9]], $[[R5]]
; ALL: andi $[[R11:[0-9]+]], $5, 255
; ALL: sllv $[[R12:[0-9]+]], $[[R11]], $[[R5]]
; ALL: $[[BB0:[A-Z_0-9]+]]:
; ALL: ll $[[R13:[0-9]+]], 0($[[R2]])
; ALL: and $[[R14:[0-9]+]], $[[R13]], $[[R7]]
; ALL: bne $[[R14]], $[[R10]], $[[BB1:[A-Z_0-9]+]]
; ALL: and $[[R15:[0-9]+]], $[[R13]], $[[R8]]
; ALL: or $[[R16:[0-9]+]], $[[R15]], $[[R12]]
; ALL: sc $[[R16]], 0($[[R2]])
; ALL: beqz $[[R16]], $[[BB0]]
; ALL: $[[BB1]]:
; ALL: srlv $[[R17:[0-9]+]], $[[R14]], $[[R5]]
; NO-SEB-SEH: sll $[[R18:[0-9]+]], $[[R17]], 24
; NO-SEB-SEH: sra $2, $[[R18]], 24
; HAS-SEB-SEH: seb $2, $[[R17]]
}
define i1 @AtomicCmpSwapRes8(i8* %ptr, i8 signext %oldval, i8 signext %newval) nounwind {
entry:
%0 = cmpxchg i8* %ptr, i8 %oldval, i8 %newval monotonic monotonic
%1 = extractvalue { i8, i1 } %0, 1
ret i1 %1
; ALL-LABEL: AtomicCmpSwapRes8
; ALL: addiu $[[R1:[0-9]+]], $zero, -4
; ALL: and $[[R2:[0-9]+]], $4, $[[R1]]
; ALL: andi $[[R3:[0-9]+]], $4, 3
; CHECK-EL: sll $[[R5:[0-9]+]], $[[R3]], 3
; CHECK-EB: xori $[[R4:[0-9]+]], $[[R3]], 3
; CHECK-EB: sll $[[R5:[0-9]+]], $[[R4]], 3
; ALL: ori $[[R6:[0-9]+]], $zero, 255
; ALL: sllv $[[R7:[0-9]+]], $[[R6]], $[[R5]]
; ALL: nor $[[R8:[0-9]+]], $zero, $[[R7]]
; ALL: andi $[[R9:[0-9]+]], $5, 255
; ALL: sllv $[[R10:[0-9]+]], $[[R9]], $[[R5]]
; ALL: andi $[[R11:[0-9]+]], $6, 255
; ALL: sllv $[[R12:[0-9]+]], $[[R11]], $[[R5]]
; ALL: $[[BB0:[A-Z_0-9]+]]:
; ALL: ll $[[R13:[0-9]+]], 0($[[R2]])
; ALL: and $[[R14:[0-9]+]], $[[R13]], $[[R7]]
; ALL: bne $[[R14]], $[[R10]], $[[BB1:[A-Z_0-9]+]]
; ALL: and $[[R15:[0-9]+]], $[[R13]], $[[R8]]
; ALL: or $[[R16:[0-9]+]], $[[R15]], $[[R12]]
; ALL: sc $[[R16]], 0($[[R2]])
; ALL: beqz $[[R16]], $[[BB0]]
; ALL: $[[BB1]]:
; ALL: srlv $[[R17:[0-9]+]], $[[R14]], $[[R5]]
; NO-SEB-SEH: sll $[[R18:[0-9]+]], $[[R17]], 24
; NO-SEB-SEH: sra $[[R19:[0-9]+]], $[[R18]], 24
; HAS-SEB-SEH: seb $[[R19:[0-9]+]], $[[R17]]
; ALL: xor $[[R20:[0-9]+]], $[[R19]], $5
; ALL: sltiu $2, $[[R20]], 1
}
; Check one i16 so that we cover the seh sign extend
@z = common global i16 0, align 1
define signext i16 @AtomicLoadAdd16(i16 signext %incr) nounwind {
entry:
%0 = atomicrmw add i16* @z, i16 %incr monotonic
ret i16 %0
; ALL-LABEL: AtomicLoadAdd16:
; MIPS32-ANY: lw $[[R0:[0-9]+]], %got(z)
; MIPS64-ANY: ld $[[R0:[0-9]+]], %got_disp(z)(
; ALL: addiu $[[R1:[0-9]+]], $zero, -4
; ALL: and $[[R2:[0-9]+]], $[[R0]], $[[R1]]
; ALL: andi $[[R3:[0-9]+]], $[[R0]], 3
; CHECK-EB: xori $[[R4:[0-9]+]], $[[R3]], 2
; CHECK-EB: sll $[[R5:[0-9]+]], $[[R4]], 3
; CHECK-EL: sll $[[R5:[0-9]+]], $[[R3]], 3
; ALL: ori $[[R6:[0-9]+]], $zero, 65535
; ALL: sllv $[[R7:[0-9]+]], $[[R6]], $[[R5]]
; ALL: nor $[[R8:[0-9]+]], $zero, $[[R7]]
; ALL: sllv $[[R9:[0-9]+]], $4, $[[R5]]
; ALL: $[[BB0:[A-Z_0-9]+]]:
; ALL: ll $[[R10:[0-9]+]], 0($[[R2]])
; ALL: addu $[[R11:[0-9]+]], $[[R10]], $[[R9]]
; ALL: and $[[R12:[0-9]+]], $[[R11]], $[[R7]]
; ALL: and $[[R13:[0-9]+]], $[[R10]], $[[R8]]
; ALL: or $[[R14:[0-9]+]], $[[R13]], $[[R12]]
; ALL: sc $[[R14]], 0($[[R2]])
; ALL: beqz $[[R14]], $[[BB0]]
; ALL: and $[[R15:[0-9]+]], $[[R10]], $[[R7]]
; ALL: srlv $[[R16:[0-9]+]], $[[R15]], $[[R5]]
; NO-SEB-SEH: sll $[[R17:[0-9]+]], $[[R16]], 16
; NO-SEB-SEH: sra $2, $[[R17]], 16
; MIPS32R2: seh $2, $[[R16]]
}
@countsint = common global i32 0, align 4
define i32 @CheckSync(i32 signext %v) nounwind noinline {
entry:
%0 = atomicrmw add i32* @countsint, i32 %v seq_cst
ret i32 %0
; ALL-LABEL: CheckSync:
; ALL: sync
; ALL: ll
; ALL: sc
; ALL: beq
; ALL: sync
}
; make sure that this assertion in
; TwoAddressInstructionPass::TryInstructionTransform does not fail:
;
; line 1203: assert(TargetRegisterInfo::isVirtualRegister(regB) &&
;
; it failed when MipsDAGToDAGISel::ReplaceUsesWithZeroReg replaced an
; operand of an atomic instruction with register $zero.
@a = external global i32
define i32 @zeroreg() nounwind {
entry:
%pair0 = cmpxchg i32* @a, i32 1, i32 0 seq_cst seq_cst
%0 = extractvalue { i32, i1 } %pair0, 0
%1 = icmp eq i32 %0, 1
%conv = zext i1 %1 to i32
ret i32 %conv
}
; Check that MIPS32R6 has the correct offset range.
; FIXME: At the moment, we don't seem to do addr+offset for any atomic load/store.
define i32 @AtomicLoadAdd32_OffGt9Bit(i32 signext %incr) nounwind {
entry:
%0 = atomicrmw add i32* getelementptr(i32* @x, i32 256), i32 %incr monotonic
ret i32 %0
; ALL-LABEL: AtomicLoadAdd32_OffGt9Bit:
; MIPS32-ANY: lw $[[R0:[0-9]+]], %got(x)
; MIPS64-ANY: ld $[[R0:[0-9]+]], %got_disp(x)(
; ALL: addiu $[[PTR:[0-9]+]], $[[R0]], 1024
; ALL: $[[BB0:[A-Z_0-9]+]]:
; ALL: ll $[[R1:[0-9]+]], 0($[[PTR]])
; ALL: addu $[[R2:[0-9]+]], $[[R1]], $4
; ALL: sc $[[R2]], 0($[[PTR]])
; ALL: beqz $[[R2]], $[[BB0]]
}