# NOTE: Assertions have been autogenerated by utils/update_mir_test_checks.py # RUN: llc %s -start-before simple-register-coalescing -mtriple=arm-apple-ios -stop-after machine-scheduler -o - -arm-enable-subreg-liveness -verify-machineinstrs | FileCheck %s # Check that when we merge live-ranges that imply offseting # the definition of a subregister by some other subreg index, # we take that new index into account while updating the subrange. # # For this specific test case, the coalescer is going to get rid # of `%5.dsub_1:dtriple = COPY %4.dsub_3` by aligning # %5.dsub_1:<3 x s64> with %4.dsub_3:<4 x s64>. # This is done by moving to a bigger register class <5 x s64> # and offseting %5 definitions with a new subregidx: # NewVar: <5 x s64> dsub_0 dsub_1 dsub_2 dsub_3 dsub_4 # %4: <4 x s64> dsub_0 dsub_1 dsub_2 dsub_3 # %5: <3 x s64> <==offset===> dsub_0 dsub_1 dsub_2 # # In other %5.dsub_0 needs to be mapped to NewVar.dsub_2, %5.dsub_1 # to NewVar.dsub_3 and so on. So essentially we are offseting %5 by # dsub_2. # # When updating the live-ranges, the register coalescer actually # has not rewritten the original code, so we need to fake the # rewrite to do that update. # This used to be wrong and this test was failling with a machine # verifier error: No live segment at def. # # The test case runs through the coalescer *and* the scheduler, just # to force the live intervals to be carried around so that the verifier # gets a chance to verify those. If we were to just run the coalescer, # the live intervals would be dropped before running the verifier since # no other pass would need that analysis around. # # Note: The test case looks slightly more complicated than just the # offseting part. That's because the bug needs three things to # trigger: # 1. Overlapping subreg lanes: here, dsub0 == <ssub0, ssub1> # 2. Tuple registers with a possibility to coalesce the subreg index: # here, what we explain with %5.dsub_1 == %4.dsub_3 # 3. Subreg liveness enabled. # #1 is required to trigger the splitting of subranges that implies # looking at the IR to decide what is alive and what is not. # #2 is what produces the IR to be out-of-synce with what the reg coalescer # maintains for the live-ranges information. # #3 is, well, the problem has to do with subranges updates! # # In the end, the expected result is to have all the variables # being coalesced in one big (qqqq) variable. --- name: main alignment: 1 tracksRegLiveness: true frameInfo: maxAlignment: 1 machineFunctionInfo: {} body: | bb.0: liveins: $d2, $s1, $d4 ; CHECK-LABEL: name: main ; CHECK: liveins: $d2, $s1, $d4 ; CHECK: undef %4.dsub_0:qqqqpr_with_ssub_4 = COPY $d4 ; CHECK: %4.ssub_4:qqqqpr_with_ssub_4 = COPY $s1 ; CHECK: %4.dsub_1:qqqqpr_with_ssub_4 = COPY $d2 ; CHECK: %4.dsub_3:qqqqpr_with_ssub_4 = COPY %4.dsub_1 ; CHECK: KILL implicit-def %4.dsub_2, implicit %4.qqsub_0 ; CHECK: %4.dsub_4:qqqqpr_with_ssub_4 = COPY %4.dsub_1 ; CHECK: tBX_RET 14 /* CC::al */, $noreg, implicit %4.ssub_4_ssub_5_ssub_6_ssub_7_ssub_8_ssub_9 %3:dpr_vfp2 = COPY $d4 undef %0.ssub_0:dpr_vfp2 = COPY $s1 %1:dpr_vfp2 = COPY $d2 undef %4.dsub_0:dquad = COPY %3 %4.dsub_1:dquad = COPY %1 %4.dsub_2:dquad = COPY %0 %4.dsub_3:dquad = COPY %1 KILL implicit-def undef %5.dsub_0:dtriple, implicit %4 %5.dsub_1:dtriple = COPY %4.dsub_3 %5.dsub_2:dtriple = COPY %1 tBX_RET 14, $noreg, implicit %5 ...