; RUN: not llc -O0 -global-isel -verify-machineinstrs %s -o - 2>&1 | FileCheck %s --check-prefix=ERROR ; RUN: llc -O0 -global-isel -global-isel-abort=0 -verify-machineinstrs %s -o - 2>&1 | FileCheck %s --check-prefix=FALLBACK ; RUN: llc -O0 -global-isel -global-isel-abort=2 -pass-remarks-missed='gisel*' -verify-machineinstrs %s -o %t.out 2> %t.err ; RUN: FileCheck %s --check-prefix=FALLBACK-WITH-REPORT-OUT < %t.out ; RUN: FileCheck %s --check-prefix=FALLBACK-WITH-REPORT-ERR < %t.err ; This file checks that the fallback path to selection dag works. ; The test is fragile in the sense that it must be updated to expose ; something that fails with global-isel. ; When we cannot produce a test case anymore, that means we can remove ; the fallback path. target datalayout = "e-m:o-i64:64-i128:128-n32:64-S128" target triple = "aarch64--" ; We use __fixunstfti as the common denominator for __fixunstfti on Linux and ; ___fixunstfti on iOS ; ERROR: unable to lower arguments: i128 (i128)* (in function: ABIi128) ; FALLBACK: ldr q0, ; FALLBACK-NEXT: bl __fixunstfti ; ; FALLBACK-WITH-REPORT-ERR: remark: :0:0: unable to lower arguments: i128 (i128)* (in function: ABIi128) ; FALLBACK-WITH-REPORT-ERR: warning: Instruction selection used fallback path for ABIi128 ; FALLBACK-WITH-REPORT-OUT-LABEL: ABIi128: ; FALLBACK-WITH-REPORT-OUT: ldr q0, ; FALLBACK-WITH-REPORT-OUT-NEXT: bl __fixunstfti define i128 @ABIi128(i128 %arg1) { %farg1 = bitcast i128 %arg1 to fp128 %res = fptoui fp128 %farg1 to i128 ret i128 %res } ; It happens that we don't handle ConstantArray instances yet during ; translation. Any other constant would be fine too. ; FALLBACK-WITH-REPORT-ERR: remark: :0:0: unable to translate constant: [1 x double] (in function: constant) ; FALLBACK-WITH-REPORT-ERR: warning: Instruction selection used fallback path for constant ; FALLBACK-WITH-REPORT-OUT-LABEL: constant: ; FALLBACK-WITH-REPORT-OUT: fmov d0, #1.0 define [1 x double] @constant() { ret [1 x double] [double 1.0] } ; The key problem here is that we may fail to create an MBB referenced by a ; PHI. If so, we cannot complete the G_PHI and mustn't try or bad things ; happen. ; FALLBACK-WITH-REPORT-ERR: remark: :0:0: cannot select: G_STORE %vreg5, %vreg2; mem:ST4[%addr] GPR:%vreg5,%vreg2 (in function: pending_phis) ; FALLBACK-WITH-REPORT-ERR: warning: Instruction selection used fallback path for pending_phis ; FALLBACK-WITH-REPORT-OUT-LABEL: pending_phis: define i32 @pending_phis(i1 %tst, i32 %val, i32* %addr) { br i1 %tst, label %true, label %false end: %res = phi i32 [%val, %true], [42, %false] ret i32 %res true: store atomic i32 42, i32* %addr seq_cst, align 4 br label %end false: br label %end } ; General legalizer inability to handle types whose size wasn't a power of 2. ; FALLBACK-WITH-REPORT-ERR: remark: :0:0: unable to legalize instruction: %vreg1(s42) = G_LOAD %vreg0; mem:LD6[%addr](align=8) (in function: odd_type) ; FALLBACK-WITH-REPORT-ERR: warning: Instruction selection used fallback path for odd_type ; FALLBACK-WITH-REPORT-OUT-LABEL: odd_type: define void @odd_type(i42* %addr) { %val42 = load i42, i42* %addr ret void } ; FALLBACK-WITH-REPORT-ERR: remark: :0:0: unable to legalize instruction: %vreg1(<7 x s32>) = G_LOAD %vreg0; mem:LD28[%addr](align=32) (in function: odd_vector) ; FALLBACK-WITH-REPORT-ERR: warning: Instruction selection used fallback path for odd_vector ; FALLBACK-WITH-REPORT-OUT-LABEL: odd_vector: define void @odd_vector(<7 x i32>* %addr) { %vec = load <7 x i32>, <7 x i32>* %addr ret void } ; RegBankSelect crashed when given invalid mappings, and AArch64's ; implementation produce valid-but-nonsense mappings for G_SEQUENCE. ; FALLBACK-WITH-REPORT-ERR: remark: :0:0: unable to map instruction ; FALLBACK-WITH-REPORT-ERR: warning: Instruction selection used fallback path for sequence_mapping ; FALLBACK-WITH-REPORT-OUT-LABEL: sequence_mapping: define void @sequence_mapping([2 x i64] %in) { ret void } ; Legalizer was asserting when it enountered an unexpected default action. ; FALLBACK-WITH-REPORT-ERR: remark: :0:0: unable to map instruction ; FALLBACK-WITH-REPORT-ERR: warning: Instruction selection used fallback path for legal_default ; FALLBACK-WITH-REPORT-LABEL: legal_default: define void @legal_default([8 x i8] %in) { insertvalue { [4 x i8], [8 x i8], [4 x i8] } undef, [8 x i8] %in, 1 ret void } ; AArch64 was asserting instead of returning an invalid mapping for unknown ; sizes. ; FALLBACK-WITH-REPORT-ERR: remark: :0:0: unable to translate instruction: ret: ' ret i128 undef' (in function: sequence_sizes) ; FALLBACK-WITH-REPORT-ERR: warning: Instruction selection used fallback path for sequence_sizes ; FALLBACK-WITH-REPORT-LABEL: sequence_sizes: define i128 @sequence_sizes([8 x i8] %in) { ret i128 undef } ; Just to make sure we don't accidentally emit a normal load/store. ; FALLBACK-WITH-REPORT-ERR: remark: :0:0: cannot select: %vreg2(s64) = G_LOAD %vreg0; mem:LD8[%addr] GPR:%vreg2,%vreg0 (in function: atomic_ops) ; FALLBACK-WITH-REPORT-ERR: warning: Instruction selection used fallback path for atomic_ops ; FALLBACK-WITH-REPORT-LABEL: atomic_ops: define i64 @atomic_ops(i64* %addr) { store atomic i64 0, i64* %addr unordered, align 8 %res = load atomic i64, i64* %addr seq_cst, align 8 ret i64 %res } ; Make sure we don't mess up metadata arguments. declare void @llvm.write_register.i64(metadata, i64) ; FALLBACK-WITH-REPORT-ERR: remark: :0:0: unable to translate instruction: call: ' call void @llvm.write_register.i64(metadata !0, i64 0)' (in function: test_write_register_intrin) ; FALLBACK-WITH-REPORT-ERR: warning: Instruction selection used fallback path for test_write_register_intrin ; FALLBACK-WITH-REPORT-LABEL: test_write_register_intrin: define void @test_write_register_intrin() { call void @llvm.write_register.i64(metadata !{!"sp"}, i64 0) ret void } @_ZTIi = external global i8* declare i32 @__gxx_personality_v0(...) ; Check that we fallback on invoke translation failures. ; FALLBACK-WITH-REPORT-ERR: remark: :0:0: unable to translate instruction: invoke: ' invoke void %callee(i128 0) ; FALLBACK-WITH-REPORT-NEXT: to label %continue unwind label %broken' (in function: invoke_weird_type) ; FALLBACK-WITH-REPORT-ERR: warning: Instruction selection used fallback path for invoke_weird_type ; FALLBACK-WITH-REPORT-OUT-LABEL: invoke_weird_type: define void @invoke_weird_type(void(i128)* %callee) personality i8* bitcast (i32 (...)* @__gxx_personality_v0 to i8*) { invoke void %callee(i128 0) to label %continue unwind label %broken broken: landingpad { i8*, i32 } catch i8* bitcast(i8** @_ZTIi to i8*) ret void continue: ret void } ; Check that we fallback on invoke translation failures. ; FALLBACK-WITH-REPORT-ERR: remark: :0:0: unable to legalize instruction: %vreg0(s128) = G_FCONSTANT quad 2 ; FALLBACK-WITH-REPORT-ERR: warning: Instruction selection used fallback path for test_quad_dump ; FALLBACK-WITH-REPORT-OUT-LABEL: test_quad_dump: define fp128 @test_quad_dump() { ret fp128 0xL00000000000000004000000000000000 } ; FALLBACK-WITH-REPORT-ERR: remark: :0:0: unable to legalize instruction: %vreg0(p0) = G_EXTRACT_VECTOR_ELT %vreg1, %vreg2; (in function: vector_of_pointers_extractelement) ; FALLBACK-WITH-REPORT-ERR: warning: Instruction selection used fallback path for vector_of_pointers_extractelement ; FALLBACK-WITH-REPORT-OUT-LABEL: vector_of_pointers_extractelement: @var = global <2 x i16*> zeroinitializer define void @vector_of_pointers_extractelement() { br label %end block: %dummy = extractelement <2 x i16*> %vec, i32 0 ret void end: %vec = load <2 x i16*>, <2 x i16*>* undef br label %block } ; FALLBACK-WITH-REPORT-ERR: remark: :0:0: unable to legalize instruction: %vreg0(<2 x p0>) = G_INSERT_VECTOR_ELT %vreg1, %vreg2, %vreg3; (in function: vector_of_pointers_insertelement ; FALLBACK-WITH-REPORT-ERR: warning: Instruction selection used fallback path for vector_of_pointers_insertelement ; FALLBACK-WITH-REPORT-OUT-LABEL: vector_of_pointers_insertelement: define void @vector_of_pointers_insertelement() { br label %end block: %dummy = insertelement <2 x i16*> %vec, i16* null, i32 0 ret void end: %vec = load <2 x i16*>, <2 x i16*>* undef br label %block }