# NOTE: Assertions have been autogenerated by utils/update_mir_test_checks.py # RUN: llc -mtriple aarch64-unknown-unknown -run-pass=instruction-select -verify-machineinstrs %s -o - | FileCheck %s # # Test widening and narrowing on test bit operations using subregister copies # or SUBREG_TO_REG. --- | @glob = external dso_local unnamed_addr global i1, align 4 define void @s1_no_copy() { ret void } define void @s16_no_copy() { ret void } define void @p0_no_copy() { ret void } define void @widen_s32_to_s64() { ret void } define void @widen_s16_to_s64() { ret void } define void @narrow_s64_to_s32() { ret void } ... --- name: s1_no_copy alignment: 4 legalized: true regBankSelected: true tracksRegLiveness: true body: | ; CHECK-LABEL: name: s1_no_copy ; CHECK: bb.0: ; CHECK: successors: %bb.0(0x40000000), %bb.1(0x40000000) ; CHECK: %narrow:gpr32 = IMPLICIT_DEF ; CHECK: TBNZW %narrow, 0, %bb.1 ; CHECK: B %bb.0 ; CHECK: bb.1: ; CHECK: RET_ReallyLR bb.0: successors: %bb.0, %bb.1 %narrow:gpr(s1) = G_IMPLICIT_DEF ; There should be no copy here, because the s1 can be selected to a GPR32. G_BRCOND %narrow(s1), %bb.1 G_BR %bb.0 bb.1: RET_ReallyLR ... --- name: s16_no_copy alignment: 4 legalized: true regBankSelected: true tracksRegLiveness: true body: | ; CHECK-LABEL: name: s16_no_copy ; CHECK: bb.0: ; CHECK: successors: %bb.0(0x40000000), %bb.1(0x40000000) ; CHECK: %narrow:gpr32 = IMPLICIT_DEF ; CHECK: TBNZW %narrow, 0, %bb.1 ; CHECK: B %bb.0 ; CHECK: bb.1: ; CHECK: RET_ReallyLR bb.0: successors: %bb.0, %bb.1 %narrow:gpr(s16) = G_IMPLICIT_DEF %trunc:gpr(s1) = G_TRUNC %narrow(s16) ; Look through the G_TRUNC to get the G_IMPLICIT_DEF. We don't need a ; SUBREG_TO_REG here, because the s16 will end up on a 32-bit register. G_BRCOND %trunc(s1), %bb.1 G_BR %bb.0 bb.1: RET_ReallyLR ... --- name: p0_no_copy alignment: 4 legalized: true regBankSelected: true tracksRegLiveness: true body: | ; CHECK-LABEL: name: p0_no_copy ; CHECK: bb.0: ; CHECK: successors: %bb.0(0x40000000), %bb.1(0x40000000) ; CHECK: %glob:gpr64common = MOVaddr target-flags(aarch64-page) @glob, target-flags(aarch64-pageoff, aarch64-nc) @glob ; CHECK: %load:gpr32 = LDRBBui %glob, 0 :: (dereferenceable load 1 from @glob, align 4) ; CHECK: TBNZW %load, 0, %bb.1 ; CHECK: B %bb.0 ; CHECK: bb.1: ; CHECK: RET_ReallyLR bb.0: successors: %bb.0, %bb.1 %glob:gpr(p0) = G_GLOBAL_VALUE @glob %load:gpr(s8) = G_LOAD %glob(p0) :: (dereferenceable load 1 from @glob, align 4) %trunc:gpr(s1) = G_TRUNC %load(s8) ; Look through G_TRUNC to get the load. The load is into a s8, which will ; be selected to a GPR32, so we don't need a copy. G_BRCOND %trunc(s1), %bb.1 G_BR %bb.0 bb.1: RET_ReallyLR ... --- name: widen_s32_to_s64 alignment: 4 legalized: true regBankSelected: true tracksRegLiveness: true body: | ; CHECK-LABEL: name: widen_s32_to_s64 ; CHECK: bb.0: ; CHECK: successors: %bb.0(0x40000000), %bb.1(0x40000000) ; CHECK: liveins: $w0 ; CHECK: %reg:gpr32all = COPY $w0 ; CHECK: [[SUBREG_TO_REG:%[0-9]+]]:gpr64all = SUBREG_TO_REG 0, %reg, %subreg.sub_32 ; CHECK: [[COPY:%[0-9]+]]:gpr64 = COPY [[SUBREG_TO_REG]] ; CHECK: TBZX [[COPY]], 33, %bb.1 ; CHECK: B %bb.0 ; CHECK: bb.1: ; CHECK: RET_ReallyLR bb.0: successors: %bb.0, %bb.1 liveins: $w0 %reg:gpr(s32) = COPY $w0 %zext:gpr(s64) = G_ZEXT %reg(s32) %bit:gpr(s64) = G_CONSTANT i64 8589934592 %zero:gpr(s64) = G_CONSTANT i64 0 %and:gpr(s64) = G_AND %zext, %bit %cmp:gpr(s32) = G_ICMP intpred(eq), %and(s64), %zero ; We should widen using a SUBREG_TO_REG here, because we need a TBZX to get ; bit 33. The subregister should be sub_32. %trunc:gpr(s1) = G_TRUNC %cmp(s32) G_BRCOND %trunc(s1), %bb.1 G_BR %bb.0 bb.1: RET_ReallyLR ... --- name: widen_s16_to_s64 alignment: 4 legalized: true regBankSelected: true tracksRegLiveness: true body: | ; CHECK-LABEL: name: widen_s16_to_s64 ; CHECK: bb.0: ; CHECK: successors: %bb.0(0x40000000), %bb.1(0x40000000) ; CHECK: %reg:gpr32 = IMPLICIT_DEF ; CHECK: [[SUBREG_TO_REG:%[0-9]+]]:gpr64all = SUBREG_TO_REG 0, %reg, %subreg.sub_32 ; CHECK: [[COPY:%[0-9]+]]:gpr64 = COPY [[SUBREG_TO_REG]] ; CHECK: TBZX [[COPY]], 33, %bb.1 ; CHECK: B %bb.0 ; CHECK: bb.1: ; CHECK: RET_ReallyLR bb.0: successors: %bb.0, %bb.1 %reg:gpr(s16) = G_IMPLICIT_DEF %zext:gpr(s64) = G_ZEXT %reg(s16) %bit:gpr(s64) = G_CONSTANT i64 8589934592 %zero:gpr(s64) = G_CONSTANT i64 0 %and:gpr(s64) = G_AND %zext, %bit %cmp:gpr(s32) = G_ICMP intpred(eq), %and(s64), %zero ; We should widen using a SUBREG_TO_REG here, because we need a TBZX to get ; bit 33. The subregister should be sub_32, because s16 will end up on a ; GPR32. %trunc:gpr(s1) = G_TRUNC %cmp(s32) G_BRCOND %trunc(s1), %bb.1 G_BR %bb.0 bb.1: RET_ReallyLR ... --- name: narrow_s64_to_s32 alignment: 4 legalized: true regBankSelected: true tracksRegLiveness: true body: | ; CHECK-LABEL: name: narrow_s64_to_s32 ; CHECK: bb.0: ; CHECK: successors: %bb.0(0x40000000), %bb.1(0x40000000) ; CHECK: liveins: $x0 ; CHECK: %wide:gpr64all = COPY $x0 ; CHECK: [[COPY:%[0-9]+]]:gpr32all = COPY %wide.sub_32 ; CHECK: [[COPY1:%[0-9]+]]:gpr32 = COPY [[COPY]] ; CHECK: TBNZW [[COPY1]], 0, %bb.1 ; CHECK: B %bb.0 ; CHECK: bb.1: ; CHECK: RET_ReallyLR bb.0: successors: %bb.0, %bb.1 liveins: $x0 %wide:gpr(s64) = COPY $x0 ; We should narrow using a subregister copy here. %trunc:gpr(s1) = G_TRUNC %wide(s64) G_BRCOND %trunc(s1), %bb.1 G_BR %bb.0 bb.1: RET_ReallyLR