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llvm-project/llvm/lib/CodeGen/SelectionDAG/SelectionDAGDumper.cpp
Stephen Tozer 3d08ade7bd
[ExtendLifetimes] Implement llvm.fake.use to extend variable lifetimes (#86149) 
This patch is part of a set of patches that add an `-fextend-lifetimes`
flag to clang, which extends the lifetimes of local variables and
parameters for improved debuggability. In addition to that flag, the
patch series adds a pragma to selectively disable `-fextend-lifetimes`,
and an `-fextend-this-ptr` flag which functions as `-fextend-lifetimes`
for this pointers only. All changes and tests in these patches were
written by Wolfgang Pieb (@wolfy1961), while Stephen Tozer (@SLTozer)
has handled review and merging. The extend lifetimes flag is intended to
eventually be set on by `-Og`, as discussed in the RFC
here:

https://discourse.llvm.org/t/rfc-redefine-og-o1-and-add-a-new-level-of-og/72850

This patch implements a new intrinsic instruction in LLVM,
`llvm.fake.use` in IR and `FAKE_USE` in MIR, that takes a single operand
and has no effect other than "using" its operand, to ensure that its
operand remains live until after the fake use. This patch does not emit
fake uses anywhere; the next patch in this sequence causes them to be
emitted from the clang frontend, such that for each variable (or this) a
fake.use operand is inserted at the end of that variable's scope, using
that variable's value. This patch covers everything post-frontend, which
is largely just the basic plumbing for a new intrinsic/instruction,
along with a few steps to preserve the fake uses through optimizations
(such as moving them ahead of a tail call or translating them through
SROA).

Co-authored-by: Stephen Tozer <stephen.tozer@sony.com>
2024-08-29 17:53:32 +01:00

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//===- SelectionDAGDumper.cpp - Implement SelectionDAG::dump() ------------===//
//
// Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions.
// See https://llvm.org/LICENSE.txt for license information.
// SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception
//
//===----------------------------------------------------------------------===//
//
// This implements the SelectionDAG::dump method and friends.
//
//===----------------------------------------------------------------------===//
#include "SDNodeDbgValue.h"
#include "llvm/ADT/APFloat.h"
#include "llvm/ADT/APInt.h"
#include "llvm/ADT/SmallPtrSet.h"
#include "llvm/ADT/StringExtras.h"
#include "llvm/CodeGen/ISDOpcodes.h"
#include "llvm/CodeGen/MachineBasicBlock.h"
#include "llvm/CodeGen/MachineConstantPool.h"
#include "llvm/CodeGen/MachineMemOperand.h"
#include "llvm/CodeGen/SelectionDAG.h"
#include "llvm/CodeGen/SelectionDAGNodes.h"
#include "llvm/CodeGen/TargetInstrInfo.h"
#include "llvm/CodeGen/TargetLowering.h"
#include "llvm/CodeGen/TargetRegisterInfo.h"
#include "llvm/CodeGen/TargetSubtargetInfo.h"
#include "llvm/CodeGen/ValueTypes.h"
#include "llvm/CodeGenTypes/MachineValueType.h"
#include "llvm/Config/llvm-config.h"
#include "llvm/IR/BasicBlock.h"
#include "llvm/IR/Constants.h"
#include "llvm/IR/DebugInfoMetadata.h"
#include "llvm/IR/DebugLoc.h"
#include "llvm/IR/Function.h"
#include "llvm/IR/Intrinsics.h"
#include "llvm/IR/ModuleSlotTracker.h"
#include "llvm/IR/Value.h"
#include "llvm/Support/Casting.h"
#include "llvm/Support/CommandLine.h"
#include "llvm/Support/Compiler.h"
#include "llvm/Support/Debug.h"
#include "llvm/Support/ErrorHandling.h"
#include "llvm/Support/Printable.h"
#include "llvm/Support/raw_ostream.h"
#include "llvm/Target/TargetIntrinsicInfo.h"
#include "llvm/Target/TargetMachine.h"
#include <cstdint>
#include <iterator>
using namespace llvm;
static cl::opt<bool>
VerboseDAGDumping("dag-dump-verbose", cl::Hidden,
cl::desc("Display more information when dumping selection "
"DAG nodes."));
std::string SDNode::getOperationName(const SelectionDAG *G) const {
switch (getOpcode()) {
default:
if (getOpcode() < ISD::BUILTIN_OP_END)
return "<<Unknown DAG Node>>";
if (isMachineOpcode()) {
if (G)
if (const TargetInstrInfo *TII = G->getSubtarget().getInstrInfo())
if (getMachineOpcode() < TII->getNumOpcodes())
return std::string(TII->getName(getMachineOpcode()));
return "<<Unknown Machine Node #" + utostr(getOpcode()) + ">>";
}
if (G) {
const TargetLowering &TLI = G->getTargetLoweringInfo();
const char *Name = TLI.getTargetNodeName(getOpcode());
if (Name) return Name;
return "<<Unknown Target Node #" + utostr(getOpcode()) + ">>";
}
return "<<Unknown Node #" + utostr(getOpcode()) + ">>";
// clang-format off
#ifndef NDEBUG
case ISD::DELETED_NODE: return "<<Deleted Node!>>";
#endif
case ISD::PREFETCH: return "Prefetch";
case ISD::MEMBARRIER: return "MemBarrier";
case ISD::ATOMIC_FENCE: return "AtomicFence";
case ISD::ATOMIC_CMP_SWAP: return "AtomicCmpSwap";
case ISD::ATOMIC_CMP_SWAP_WITH_SUCCESS: return "AtomicCmpSwapWithSuccess";
case ISD::ATOMIC_SWAP: return "AtomicSwap";
case ISD::ATOMIC_LOAD_ADD: return "AtomicLoadAdd";
case ISD::ATOMIC_LOAD_SUB: return "AtomicLoadSub";
case ISD::ATOMIC_LOAD_AND: return "AtomicLoadAnd";
case ISD::ATOMIC_LOAD_CLR: return "AtomicLoadClr";
case ISD::ATOMIC_LOAD_OR: return "AtomicLoadOr";
case ISD::ATOMIC_LOAD_XOR: return "AtomicLoadXor";
case ISD::ATOMIC_LOAD_NAND: return "AtomicLoadNand";
case ISD::ATOMIC_LOAD_MIN: return "AtomicLoadMin";
case ISD::ATOMIC_LOAD_MAX: return "AtomicLoadMax";
case ISD::ATOMIC_LOAD_UMIN: return "AtomicLoadUMin";
case ISD::ATOMIC_LOAD_UMAX: return "AtomicLoadUMax";
case ISD::ATOMIC_LOAD_FADD: return "AtomicLoadFAdd";
case ISD::ATOMIC_LOAD_FMIN: return "AtomicLoadFMin";
case ISD::ATOMIC_LOAD_FMAX: return "AtomicLoadFMax";
case ISD::ATOMIC_LOAD_UINC_WRAP:
return "AtomicLoadUIncWrap";
case ISD::ATOMIC_LOAD_UDEC_WRAP:
return "AtomicLoadUDecWrap";
case ISD::ATOMIC_LOAD: return "AtomicLoad";
case ISD::ATOMIC_STORE: return "AtomicStore";
case ISD::PCMARKER: return "PCMarker";
case ISD::READCYCLECOUNTER: return "ReadCycleCounter";
case ISD::READSTEADYCOUNTER: return "ReadSteadyCounter";
case ISD::SRCVALUE: return "SrcValue";
case ISD::MDNODE_SDNODE: return "MDNode";
case ISD::EntryToken: return "EntryToken";
case ISD::TokenFactor: return "TokenFactor";
case ISD::AssertSext: return "AssertSext";
case ISD::AssertZext: return "AssertZext";
case ISD::AssertAlign: return "AssertAlign";
case ISD::BasicBlock: return "BasicBlock";
case ISD::VALUETYPE: return "ValueType";
case ISD::Register: return "Register";
case ISD::RegisterMask: return "RegisterMask";
case ISD::Constant:
if (cast<ConstantSDNode>(this)->isOpaque())
return "OpaqueConstant";
return "Constant";
case ISD::ConstantFP: return "ConstantFP";
case ISD::GlobalAddress: return "GlobalAddress";
case ISD::GlobalTLSAddress: return "GlobalTLSAddress";
case ISD::PtrAuthGlobalAddress: return "PtrAuthGlobalAddress";
case ISD::FrameIndex: return "FrameIndex";
case ISD::JumpTable: return "JumpTable";
case ISD::JUMP_TABLE_DEBUG_INFO:
return "JUMP_TABLE_DEBUG_INFO";
case ISD::GLOBAL_OFFSET_TABLE: return "GLOBAL_OFFSET_TABLE";
case ISD::RETURNADDR: return "RETURNADDR";
case ISD::ADDROFRETURNADDR: return "ADDROFRETURNADDR";
case ISD::FRAMEADDR: return "FRAMEADDR";
case ISD::SPONENTRY: return "SPONENTRY";
case ISD::LOCAL_RECOVER: return "LOCAL_RECOVER";
case ISD::READ_REGISTER: return "READ_REGISTER";
case ISD::WRITE_REGISTER: return "WRITE_REGISTER";
case ISD::FRAME_TO_ARGS_OFFSET: return "FRAME_TO_ARGS_OFFSET";
case ISD::EH_DWARF_CFA: return "EH_DWARF_CFA";
case ISD::EH_RETURN: return "EH_RETURN";
case ISD::EH_SJLJ_SETJMP: return "EH_SJLJ_SETJMP";
case ISD::EH_SJLJ_LONGJMP: return "EH_SJLJ_LONGJMP";
case ISD::EH_SJLJ_SETUP_DISPATCH: return "EH_SJLJ_SETUP_DISPATCH";
case ISD::ConstantPool: return "ConstantPool";
case ISD::TargetIndex: return "TargetIndex";
case ISD::ExternalSymbol: return "ExternalSymbol";
case ISD::BlockAddress: return "BlockAddress";
case ISD::INTRINSIC_WO_CHAIN:
case ISD::INTRINSIC_VOID:
case ISD::INTRINSIC_W_CHAIN: {
unsigned OpNo = getOpcode() == ISD::INTRINSIC_WO_CHAIN ? 0 : 1;
unsigned IID = getOperand(OpNo)->getAsZExtVal();
if (IID < Intrinsic::num_intrinsics)
return Intrinsic::getBaseName((Intrinsic::ID)IID).str();
if (!G)
return "Unknown intrinsic";
if (const TargetIntrinsicInfo *TII = G->getTarget().getIntrinsicInfo())
return TII->getName(IID);
llvm_unreachable("Invalid intrinsic ID");
}
case ISD::BUILD_VECTOR: return "BUILD_VECTOR";
case ISD::TargetConstant:
if (cast<ConstantSDNode>(this)->isOpaque())
return "OpaqueTargetConstant";
return "TargetConstant";
case ISD::TargetConstantFP: return "TargetConstantFP";
case ISD::TargetGlobalAddress: return "TargetGlobalAddress";
case ISD::TargetGlobalTLSAddress: return "TargetGlobalTLSAddress";
case ISD::TargetFrameIndex: return "TargetFrameIndex";
case ISD::TargetJumpTable: return "TargetJumpTable";
case ISD::TargetConstantPool: return "TargetConstantPool";
case ISD::TargetExternalSymbol: return "TargetExternalSymbol";
case ISD::MCSymbol: return "MCSymbol";
case ISD::TargetBlockAddress: return "TargetBlockAddress";
case ISD::CopyToReg: return "CopyToReg";
case ISD::CopyFromReg: return "CopyFromReg";
case ISD::UNDEF: return "undef";
case ISD::VSCALE: return "vscale";
case ISD::MERGE_VALUES: return "merge_values";
case ISD::INLINEASM: return "inlineasm";
case ISD::INLINEASM_BR: return "inlineasm_br";
case ISD::EH_LABEL: return "eh_label";
case ISD::ANNOTATION_LABEL: return "annotation_label";
case ISD::HANDLENODE: return "handlenode";
// Unary operators
case ISD::FABS: return "fabs";
case ISD::FMINNUM: return "fminnum";
case ISD::STRICT_FMINNUM: return "strict_fminnum";
case ISD::FMAXNUM: return "fmaxnum";
case ISD::STRICT_FMAXNUM: return "strict_fmaxnum";
case ISD::FMINNUM_IEEE: return "fminnum_ieee";
case ISD::FMAXNUM_IEEE: return "fmaxnum_ieee";
case ISD::FMINIMUM: return "fminimum";
case ISD::STRICT_FMINIMUM: return "strict_fminimum";
case ISD::FMAXIMUM: return "fmaximum";
case ISD::STRICT_FMAXIMUM: return "strict_fmaximum";
case ISD::FMINIMUMNUM: return "fminimumnum";
case ISD::FMAXIMUMNUM: return "fmaximumnum";
case ISD::FNEG: return "fneg";
case ISD::FSQRT: return "fsqrt";
case ISD::STRICT_FSQRT: return "strict_fsqrt";
case ISD::FCBRT: return "fcbrt";
case ISD::FSIN: return "fsin";
case ISD::STRICT_FSIN: return "strict_fsin";
case ISD::FCOS: return "fcos";
case ISD::STRICT_FCOS: return "strict_fcos";
case ISD::FSINCOS: return "fsincos";
case ISD::FTAN: return "ftan";
case ISD::STRICT_FTAN: return "strict_ftan";
case ISD::FASIN: return "fasin";
case ISD::STRICT_FASIN: return "strict_fasin";
case ISD::FACOS: return "facos";
case ISD::STRICT_FACOS: return "strict_facos";
case ISD::FATAN: return "fatan";
case ISD::STRICT_FATAN: return "strict_fatan";
case ISD::FSINH: return "fsinh";
case ISD::STRICT_FSINH: return "strict_fsinh";
case ISD::FCOSH: return "fcosh";
case ISD::STRICT_FCOSH: return "strict_fcosh";
case ISD::FTANH: return "ftanh";
case ISD::STRICT_FTANH: return "strict_ftanh";
case ISD::FTRUNC: return "ftrunc";
case ISD::STRICT_FTRUNC: return "strict_ftrunc";
case ISD::FFLOOR: return "ffloor";
case ISD::STRICT_FFLOOR: return "strict_ffloor";
case ISD::FCEIL: return "fceil";
case ISD::STRICT_FCEIL: return "strict_fceil";
case ISD::FRINT: return "frint";
case ISD::STRICT_FRINT: return "strict_frint";
case ISD::FNEARBYINT: return "fnearbyint";
case ISD::STRICT_FNEARBYINT: return "strict_fnearbyint";
case ISD::FROUND: return "fround";
case ISD::STRICT_FROUND: return "strict_fround";
case ISD::FROUNDEVEN: return "froundeven";
case ISD::STRICT_FROUNDEVEN: return "strict_froundeven";
case ISD::FEXP: return "fexp";
case ISD::STRICT_FEXP: return "strict_fexp";
case ISD::FEXP2: return "fexp2";
case ISD::STRICT_FEXP2: return "strict_fexp2";
case ISD::FEXP10: return "fexp10";
case ISD::FLOG: return "flog";
case ISD::STRICT_FLOG: return "strict_flog";
case ISD::FLOG2: return "flog2";
case ISD::STRICT_FLOG2: return "strict_flog2";
case ISD::FLOG10: return "flog10";
case ISD::STRICT_FLOG10: return "strict_flog10";
// Binary operators
case ISD::ADD: return "add";
case ISD::SUB: return "sub";
case ISD::MUL: return "mul";
case ISD::MULHU: return "mulhu";
case ISD::MULHS: return "mulhs";
case ISD::AVGFLOORU: return "avgflooru";
case ISD::AVGFLOORS: return "avgfloors";
case ISD::AVGCEILU: return "avgceilu";
case ISD::AVGCEILS: return "avgceils";
case ISD::ABDS: return "abds";
case ISD::ABDU: return "abdu";
case ISD::SDIV: return "sdiv";
case ISD::UDIV: return "udiv";
case ISD::SREM: return "srem";
case ISD::UREM: return "urem";
case ISD::SMUL_LOHI: return "smul_lohi";
case ISD::UMUL_LOHI: return "umul_lohi";
case ISD::SDIVREM: return "sdivrem";
case ISD::UDIVREM: return "udivrem";
case ISD::AND: return "and";
case ISD::OR: return "or";
case ISD::XOR: return "xor";
case ISD::SHL: return "shl";
case ISD::SRA: return "sra";
case ISD::SRL: return "srl";
case ISD::ROTL: return "rotl";
case ISD::ROTR: return "rotr";
case ISD::FSHL: return "fshl";
case ISD::FSHR: return "fshr";
case ISD::FADD: return "fadd";
case ISD::STRICT_FADD: return "strict_fadd";
case ISD::FSUB: return "fsub";
case ISD::STRICT_FSUB: return "strict_fsub";
case ISD::FMUL: return "fmul";
case ISD::STRICT_FMUL: return "strict_fmul";
case ISD::FDIV: return "fdiv";
case ISD::STRICT_FDIV: return "strict_fdiv";
case ISD::FMA: return "fma";
case ISD::STRICT_FMA: return "strict_fma";
case ISD::FMAD: return "fmad";
case ISD::FREM: return "frem";
case ISD::STRICT_FREM: return "strict_frem";
case ISD::FCOPYSIGN: return "fcopysign";
case ISD::FGETSIGN: return "fgetsign";
case ISD::FCANONICALIZE: return "fcanonicalize";
case ISD::IS_FPCLASS: return "is_fpclass";
case ISD::FPOW: return "fpow";
case ISD::STRICT_FPOW: return "strict_fpow";
case ISD::SMIN: return "smin";
case ISD::SMAX: return "smax";
case ISD::UMIN: return "umin";
case ISD::UMAX: return "umax";
case ISD::SCMP: return "scmp";
case ISD::UCMP: return "ucmp";
case ISD::FLDEXP: return "fldexp";
case ISD::STRICT_FLDEXP: return "strict_fldexp";
case ISD::FFREXP: return "ffrexp";
case ISD::FPOWI: return "fpowi";
case ISD::STRICT_FPOWI: return "strict_fpowi";
case ISD::SETCC: return "setcc";
case ISD::SETCCCARRY: return "setcccarry";
case ISD::STRICT_FSETCC: return "strict_fsetcc";
case ISD::STRICT_FSETCCS: return "strict_fsetccs";
case ISD::FPTRUNC_ROUND: return "fptrunc_round";
case ISD::SELECT: return "select";
case ISD::VSELECT: return "vselect";
case ISD::SELECT_CC: return "select_cc";
case ISD::INSERT_VECTOR_ELT: return "insert_vector_elt";
case ISD::EXTRACT_VECTOR_ELT: return "extract_vector_elt";
case ISD::CONCAT_VECTORS: return "concat_vectors";
case ISD::INSERT_SUBVECTOR: return "insert_subvector";
case ISD::EXTRACT_SUBVECTOR: return "extract_subvector";
case ISD::VECTOR_DEINTERLEAVE: return "vector_deinterleave";
case ISD::VECTOR_INTERLEAVE: return "vector_interleave";
case ISD::SCALAR_TO_VECTOR: return "scalar_to_vector";
case ISD::VECTOR_SHUFFLE: return "vector_shuffle";
case ISD::VECTOR_SPLICE: return "vector_splice";
case ISD::SPLAT_VECTOR: return "splat_vector";
case ISD::SPLAT_VECTOR_PARTS: return "splat_vector_parts";
case ISD::VECTOR_REVERSE: return "vector_reverse";
case ISD::STEP_VECTOR: return "step_vector";
case ISD::CARRY_FALSE: return "carry_false";
case ISD::ADDC: return "addc";
case ISD::ADDE: return "adde";
case ISD::UADDO_CARRY: return "uaddo_carry";
case ISD::SADDO_CARRY: return "saddo_carry";
case ISD::SADDO: return "saddo";
case ISD::UADDO: return "uaddo";
case ISD::SSUBO: return "ssubo";
case ISD::USUBO: return "usubo";
case ISD::SMULO: return "smulo";
case ISD::UMULO: return "umulo";
case ISD::SUBC: return "subc";
case ISD::SUBE: return "sube";
case ISD::USUBO_CARRY: return "usubo_carry";
case ISD::SSUBO_CARRY: return "ssubo_carry";
case ISD::SHL_PARTS: return "shl_parts";
case ISD::SRA_PARTS: return "sra_parts";
case ISD::SRL_PARTS: return "srl_parts";
case ISD::SADDSAT: return "saddsat";
case ISD::UADDSAT: return "uaddsat";
case ISD::SSUBSAT: return "ssubsat";
case ISD::USUBSAT: return "usubsat";
case ISD::SSHLSAT: return "sshlsat";
case ISD::USHLSAT: return "ushlsat";
case ISD::SMULFIX: return "smulfix";
case ISD::SMULFIXSAT: return "smulfixsat";
case ISD::UMULFIX: return "umulfix";
case ISD::UMULFIXSAT: return "umulfixsat";
case ISD::SDIVFIX: return "sdivfix";
case ISD::SDIVFIXSAT: return "sdivfixsat";
case ISD::UDIVFIX: return "udivfix";
case ISD::UDIVFIXSAT: return "udivfixsat";
// Conversion operators.
case ISD::SIGN_EXTEND: return "sign_extend";
case ISD::ZERO_EXTEND: return "zero_extend";
case ISD::ANY_EXTEND: return "any_extend";
case ISD::SIGN_EXTEND_INREG: return "sign_extend_inreg";
case ISD::ANY_EXTEND_VECTOR_INREG: return "any_extend_vector_inreg";
case ISD::SIGN_EXTEND_VECTOR_INREG: return "sign_extend_vector_inreg";
case ISD::ZERO_EXTEND_VECTOR_INREG: return "zero_extend_vector_inreg";
case ISD::TRUNCATE: return "truncate";
case ISD::TRUNCATE_SSAT_S: return "truncate_ssat_s";
case ISD::TRUNCATE_SSAT_U: return "truncate_ssat_u";
case ISD::TRUNCATE_USAT_U: return "truncate_usat_u";
case ISD::FP_ROUND: return "fp_round";
case ISD::STRICT_FP_ROUND: return "strict_fp_round";
case ISD::FP_EXTEND: return "fp_extend";
case ISD::STRICT_FP_EXTEND: return "strict_fp_extend";
case ISD::SINT_TO_FP: return "sint_to_fp";
case ISD::STRICT_SINT_TO_FP: return "strict_sint_to_fp";
case ISD::UINT_TO_FP: return "uint_to_fp";
case ISD::STRICT_UINT_TO_FP: return "strict_uint_to_fp";
case ISD::FP_TO_SINT: return "fp_to_sint";
case ISD::STRICT_FP_TO_SINT: return "strict_fp_to_sint";
case ISD::FP_TO_UINT: return "fp_to_uint";
case ISD::STRICT_FP_TO_UINT: return "strict_fp_to_uint";
case ISD::FP_TO_SINT_SAT: return "fp_to_sint_sat";
case ISD::FP_TO_UINT_SAT: return "fp_to_uint_sat";
case ISD::BITCAST: return "bitcast";
case ISD::ADDRSPACECAST: return "addrspacecast";
case ISD::FP16_TO_FP: return "fp16_to_fp";
case ISD::STRICT_FP16_TO_FP: return "strict_fp16_to_fp";
case ISD::FP_TO_FP16: return "fp_to_fp16";
case ISD::STRICT_FP_TO_FP16: return "strict_fp_to_fp16";
case ISD::BF16_TO_FP: return "bf16_to_fp";
case ISD::STRICT_BF16_TO_FP: return "strict_bf16_to_fp";
case ISD::FP_TO_BF16: return "fp_to_bf16";
case ISD::STRICT_FP_TO_BF16: return "strict_fp_to_bf16";
case ISD::LROUND: return "lround";
case ISD::STRICT_LROUND: return "strict_lround";
case ISD::LLROUND: return "llround";
case ISD::STRICT_LLROUND: return "strict_llround";
case ISD::LRINT: return "lrint";
case ISD::STRICT_LRINT: return "strict_lrint";
case ISD::LLRINT: return "llrint";
case ISD::STRICT_LLRINT: return "strict_llrint";
// Control flow instructions
case ISD::BR: return "br";
case ISD::BRIND: return "brind";
case ISD::BR_JT: return "br_jt";
case ISD::BRCOND: return "brcond";
case ISD::BR_CC: return "br_cc";
case ISD::CALLSEQ_START: return "callseq_start";
case ISD::CALLSEQ_END: return "callseq_end";
// EH instructions
case ISD::CATCHRET: return "catchret";
case ISD::CLEANUPRET: return "cleanupret";
// Other operators
case ISD::LOAD: return "load";
case ISD::STORE: return "store";
case ISD::MLOAD: return "masked_load";
case ISD::MSTORE: return "masked_store";
case ISD::MGATHER: return "masked_gather";
case ISD::MSCATTER: return "masked_scatter";
case ISD::VECTOR_COMPRESS: return "vector_compress";
case ISD::VAARG: return "vaarg";
case ISD::VACOPY: return "vacopy";
case ISD::VAEND: return "vaend";
case ISD::VASTART: return "vastart";
case ISD::DYNAMIC_STACKALLOC: return "dynamic_stackalloc";
case ISD::EXTRACT_ELEMENT: return "extract_element";
case ISD::BUILD_PAIR: return "build_pair";
case ISD::STACKSAVE: return "stacksave";
case ISD::STACKRESTORE: return "stackrestore";
case ISD::TRAP: return "trap";
case ISD::DEBUGTRAP: return "debugtrap";
case ISD::UBSANTRAP: return "ubsantrap";
case ISD::LIFETIME_START: return "lifetime.start";
case ISD::LIFETIME_END: return "lifetime.end";
case ISD::FAKE_USE:
return "fake_use";
case ISD::PSEUDO_PROBE:
return "pseudoprobe";
case ISD::GC_TRANSITION_START: return "gc_transition.start";
case ISD::GC_TRANSITION_END: return "gc_transition.end";
case ISD::GET_DYNAMIC_AREA_OFFSET: return "get.dynamic.area.offset";
case ISD::FREEZE: return "freeze";
case ISD::PREALLOCATED_SETUP:
return "call_setup";
case ISD::PREALLOCATED_ARG:
return "call_alloc";
// Floating point environment manipulation
case ISD::GET_ROUNDING: return "get_rounding";
case ISD::SET_ROUNDING: return "set_rounding";
case ISD::GET_FPENV: return "get_fpenv";
case ISD::SET_FPENV: return "set_fpenv";
case ISD::RESET_FPENV: return "reset_fpenv";
case ISD::GET_FPENV_MEM: return "get_fpenv_mem";
case ISD::SET_FPENV_MEM: return "set_fpenv_mem";
case ISD::GET_FPMODE: return "get_fpmode";
case ISD::SET_FPMODE: return "set_fpmode";
case ISD::RESET_FPMODE: return "reset_fpmode";
// Convergence control instructions
case ISD::CONVERGENCECTRL_ANCHOR: return "convergencectrl_anchor";
case ISD::CONVERGENCECTRL_ENTRY: return "convergencectrl_entry";
case ISD::CONVERGENCECTRL_LOOP: return "convergencectrl_loop";
case ISD::CONVERGENCECTRL_GLUE: return "convergencectrl_glue";
// Bit manipulation
case ISD::ABS: return "abs";
case ISD::BITREVERSE: return "bitreverse";
case ISD::BSWAP: return "bswap";
case ISD::CTPOP: return "ctpop";
case ISD::CTTZ: return "cttz";
case ISD::CTTZ_ZERO_UNDEF: return "cttz_zero_undef";
case ISD::CTLZ: return "ctlz";
case ISD::CTLZ_ZERO_UNDEF: return "ctlz_zero_undef";
case ISD::PARITY: return "parity";
// Trampolines
case ISD::INIT_TRAMPOLINE: return "init_trampoline";
case ISD::ADJUST_TRAMPOLINE: return "adjust_trampoline";
// clang-format on
case ISD::CONDCODE:
switch (cast<CondCodeSDNode>(this)->get()) {
default: llvm_unreachable("Unknown setcc condition!");
case ISD::SETOEQ: return "setoeq";
case ISD::SETOGT: return "setogt";
case ISD::SETOGE: return "setoge";
case ISD::SETOLT: return "setolt";
case ISD::SETOLE: return "setole";
case ISD::SETONE: return "setone";
case ISD::SETO: return "seto";
case ISD::SETUO: return "setuo";
case ISD::SETUEQ: return "setueq";
case ISD::SETUGT: return "setugt";
case ISD::SETUGE: return "setuge";
case ISD::SETULT: return "setult";
case ISD::SETULE: return "setule";
case ISD::SETUNE: return "setune";
case ISD::SETEQ: return "seteq";
case ISD::SETGT: return "setgt";
case ISD::SETGE: return "setge";
case ISD::SETLT: return "setlt";
case ISD::SETLE: return "setle";
case ISD::SETNE: return "setne";
case ISD::SETTRUE: return "settrue";
case ISD::SETTRUE2: return "settrue2";
case ISD::SETFALSE: return "setfalse";
case ISD::SETFALSE2: return "setfalse2";
}
case ISD::VECREDUCE_FADD: return "vecreduce_fadd";
case ISD::VECREDUCE_SEQ_FADD: return "vecreduce_seq_fadd";
case ISD::VECREDUCE_FMUL: return "vecreduce_fmul";
case ISD::VECREDUCE_SEQ_FMUL: return "vecreduce_seq_fmul";
case ISD::VECREDUCE_ADD: return "vecreduce_add";
case ISD::VECREDUCE_MUL: return "vecreduce_mul";
case ISD::VECREDUCE_AND: return "vecreduce_and";
case ISD::VECREDUCE_OR: return "vecreduce_or";
case ISD::VECREDUCE_XOR: return "vecreduce_xor";
case ISD::VECREDUCE_SMAX: return "vecreduce_smax";
case ISD::VECREDUCE_SMIN: return "vecreduce_smin";
case ISD::VECREDUCE_UMAX: return "vecreduce_umax";
case ISD::VECREDUCE_UMIN: return "vecreduce_umin";
case ISD::VECREDUCE_FMAX: return "vecreduce_fmax";
case ISD::VECREDUCE_FMIN: return "vecreduce_fmin";
case ISD::VECREDUCE_FMAXIMUM: return "vecreduce_fmaximum";
case ISD::VECREDUCE_FMINIMUM: return "vecreduce_fminimum";
case ISD::STACKMAP:
return "stackmap";
case ISD::PATCHPOINT:
return "patchpoint";
case ISD::CLEAR_CACHE:
return "clear_cache";
case ISD::EXPERIMENTAL_VECTOR_HISTOGRAM:
return "histogram";
// Vector Predication
#define BEGIN_REGISTER_VP_SDNODE(SDID, LEGALARG, NAME, ...) \
case ISD::SDID: \
return #NAME;
#include "llvm/IR/VPIntrinsics.def"
}
}
const char *SDNode::getIndexedModeName(ISD::MemIndexedMode AM) {
switch (AM) {
default: return "";
case ISD::PRE_INC: return "<pre-inc>";
case ISD::PRE_DEC: return "<pre-dec>";
case ISD::POST_INC: return "<post-inc>";
case ISD::POST_DEC: return "<post-dec>";
}
}
static Printable PrintNodeId(const SDNode &Node) {
return Printable([&Node](raw_ostream &OS) {
#ifndef NDEBUG
OS << 't' << Node.PersistentId;
#else
OS << (const void*)&Node;
#endif
});
}
// Print the MMO with more information from the SelectionDAG.
static void printMemOperand(raw_ostream &OS, const MachineMemOperand &MMO,
const MachineFunction *MF, const Module *M,
const MachineFrameInfo *MFI,
const TargetInstrInfo *TII, LLVMContext &Ctx) {
ModuleSlotTracker MST(M);
if (MF)
MST.incorporateFunction(MF->getFunction());
SmallVector<StringRef, 0> SSNs;
MMO.print(OS, MST, SSNs, Ctx, MFI, TII);
}
static void printMemOperand(raw_ostream &OS, const MachineMemOperand &MMO,
const SelectionDAG *G) {
if (G) {
const MachineFunction *MF = &G->getMachineFunction();
return printMemOperand(OS, MMO, MF, MF->getFunction().getParent(),
&MF->getFrameInfo(),
G->getSubtarget().getInstrInfo(), *G->getContext());
}
LLVMContext Ctx;
return printMemOperand(OS, MMO, /*MF=*/nullptr, /*M=*/nullptr,
/*MFI=*/nullptr, /*TII=*/nullptr, Ctx);
}
#if !defined(NDEBUG) || defined(LLVM_ENABLE_DUMP)
LLVM_DUMP_METHOD void SDNode::dump() const { dump(nullptr); }
LLVM_DUMP_METHOD void SDNode::dump(const SelectionDAG *G) const {
print(dbgs(), G);
dbgs() << '\n';
}
#endif
void SDNode::print_types(raw_ostream &OS, const SelectionDAG *G) const {
for (unsigned i = 0, e = getNumValues(); i != e; ++i) {
if (i) OS << ",";
if (getValueType(i) == MVT::Other)
OS << "ch";
else
OS << getValueType(i).getEVTString();
}
}
void SDNode::print_details(raw_ostream &OS, const SelectionDAG *G) const {
if (getFlags().hasNoUnsignedWrap())
OS << " nuw";
if (getFlags().hasNoSignedWrap())
OS << " nsw";
if (getFlags().hasExact())
OS << " exact";
if (getFlags().hasDisjoint())
OS << " disjoint";
if (getFlags().hasNonNeg())
OS << " nneg";
if (getFlags().hasNoNaNs())
OS << " nnan";
if (getFlags().hasNoInfs())
OS << " ninf";
if (getFlags().hasNoSignedZeros())
OS << " nsz";
if (getFlags().hasAllowReciprocal())
OS << " arcp";
if (getFlags().hasAllowContract())
OS << " contract";
if (getFlags().hasApproximateFuncs())
OS << " afn";
if (getFlags().hasAllowReassociation())
OS << " reassoc";
if (getFlags().hasNoFPExcept())
OS << " nofpexcept";
if (const MachineSDNode *MN = dyn_cast<MachineSDNode>(this)) {
if (!MN->memoperands_empty()) {
OS << "<";
OS << "Mem:";
for (MachineSDNode::mmo_iterator i = MN->memoperands_begin(),
e = MN->memoperands_end(); i != e; ++i) {
printMemOperand(OS, **i, G);
if (std::next(i) != e)
OS << " ";
}
OS << ">";
}
} else if (const ShuffleVectorSDNode *SVN =
dyn_cast<ShuffleVectorSDNode>(this)) {
OS << "<";
for (unsigned i = 0, e = ValueList[0].getVectorNumElements(); i != e; ++i) {
int Idx = SVN->getMaskElt(i);
if (i) OS << ",";
if (Idx < 0)
OS << "u";
else
OS << Idx;
}
OS << ">";
} else if (const ConstantSDNode *CSDN = dyn_cast<ConstantSDNode>(this)) {
OS << '<' << CSDN->getAPIntValue() << '>';
} else if (const ConstantFPSDNode *CSDN = dyn_cast<ConstantFPSDNode>(this)) {
if (&CSDN->getValueAPF().getSemantics() == &APFloat::IEEEsingle())
OS << '<' << CSDN->getValueAPF().convertToFloat() << '>';
else if (&CSDN->getValueAPF().getSemantics() == &APFloat::IEEEdouble())
OS << '<' << CSDN->getValueAPF().convertToDouble() << '>';
else {
OS << "<APFloat(";
CSDN->getValueAPF().bitcastToAPInt().print(OS, false);
OS << ")>";
}
} else if (const GlobalAddressSDNode *GADN =
dyn_cast<GlobalAddressSDNode>(this)) {
int64_t offset = GADN->getOffset();
OS << '<';
GADN->getGlobal()->printAsOperand(OS);
OS << '>';
if (offset > 0)
OS << " + " << offset;
else
OS << " " << offset;
if (unsigned int TF = GADN->getTargetFlags())
OS << " [TF=" << TF << ']';
} else if (const FrameIndexSDNode *FIDN = dyn_cast<FrameIndexSDNode>(this)) {
OS << "<" << FIDN->getIndex() << ">";
} else if (const JumpTableSDNode *JTDN = dyn_cast<JumpTableSDNode>(this)) {
OS << "<" << JTDN->getIndex() << ">";
if (unsigned int TF = JTDN->getTargetFlags())
OS << " [TF=" << TF << ']';
} else if (const ConstantPoolSDNode *CP = dyn_cast<ConstantPoolSDNode>(this)){
int offset = CP->getOffset();
if (CP->isMachineConstantPoolEntry())
OS << "<" << *CP->getMachineCPVal() << ">";
else
OS << "<" << *CP->getConstVal() << ">";
if (offset > 0)
OS << " + " << offset;
else
OS << " " << offset;
if (unsigned int TF = CP->getTargetFlags())
OS << " [TF=" << TF << ']';
} else if (const TargetIndexSDNode *TI = dyn_cast<TargetIndexSDNode>(this)) {
OS << "<" << TI->getIndex() << '+' << TI->getOffset() << ">";
if (unsigned TF = TI->getTargetFlags())
OS << " [TF=" << TF << ']';
} else if (const BasicBlockSDNode *BBDN = dyn_cast<BasicBlockSDNode>(this)) {
OS << "<";
const Value *LBB = (const Value*)BBDN->getBasicBlock()->getBasicBlock();
if (LBB)
OS << LBB->getName() << " ";
OS << (const void*)BBDN->getBasicBlock() << ">";
} else if (const RegisterSDNode *R = dyn_cast<RegisterSDNode>(this)) {
OS << ' ' << printReg(R->getReg(),
G ? G->getSubtarget().getRegisterInfo() : nullptr);
} else if (const ExternalSymbolSDNode *ES =
dyn_cast<ExternalSymbolSDNode>(this)) {
OS << "'" << ES->getSymbol() << "'";
if (unsigned int TF = ES->getTargetFlags())
OS << " [TF=" << TF << ']';
} else if (const SrcValueSDNode *M = dyn_cast<SrcValueSDNode>(this)) {
if (M->getValue())
OS << "<" << M->getValue() << ">";
else
OS << "<null>";
} else if (const MDNodeSDNode *MD = dyn_cast<MDNodeSDNode>(this)) {
if (MD->getMD())
OS << "<" << MD->getMD() << ">";
else
OS << "<null>";
} else if (const VTSDNode *N = dyn_cast<VTSDNode>(this)) {
OS << ":" << N->getVT();
}
else if (const LoadSDNode *LD = dyn_cast<LoadSDNode>(this)) {
OS << "<";
printMemOperand(OS, *LD->getMemOperand(), G);
bool doExt = true;
switch (LD->getExtensionType()) {
default: doExt = false; break;
case ISD::EXTLOAD: OS << ", anyext"; break;
case ISD::SEXTLOAD: OS << ", sext"; break;
case ISD::ZEXTLOAD: OS << ", zext"; break;
}
if (doExt)
OS << " from " << LD->getMemoryVT();
const char *AM = getIndexedModeName(LD->getAddressingMode());
if (*AM)
OS << ", " << AM;
OS << ">";
} else if (const StoreSDNode *ST = dyn_cast<StoreSDNode>(this)) {
OS << "<";
printMemOperand(OS, *ST->getMemOperand(), G);
if (ST->isTruncatingStore())
OS << ", trunc to " << ST->getMemoryVT();
const char *AM = getIndexedModeName(ST->getAddressingMode());
if (*AM)
OS << ", " << AM;
OS << ">";
} else if (const MaskedLoadSDNode *MLd = dyn_cast<MaskedLoadSDNode>(this)) {
OS << "<";
printMemOperand(OS, *MLd->getMemOperand(), G);
bool doExt = true;
switch (MLd->getExtensionType()) {
default: doExt = false; break;
case ISD::EXTLOAD: OS << ", anyext"; break;
case ISD::SEXTLOAD: OS << ", sext"; break;
case ISD::ZEXTLOAD: OS << ", zext"; break;
}
if (doExt)
OS << " from " << MLd->getMemoryVT();
const char *AM = getIndexedModeName(MLd->getAddressingMode());
if (*AM)
OS << ", " << AM;
if (MLd->isExpandingLoad())
OS << ", expanding";
OS << ">";
} else if (const MaskedStoreSDNode *MSt = dyn_cast<MaskedStoreSDNode>(this)) {
OS << "<";
printMemOperand(OS, *MSt->getMemOperand(), G);
if (MSt->isTruncatingStore())
OS << ", trunc to " << MSt->getMemoryVT();
const char *AM = getIndexedModeName(MSt->getAddressingMode());
if (*AM)
OS << ", " << AM;
if (MSt->isCompressingStore())
OS << ", compressing";
OS << ">";
} else if (const auto *MGather = dyn_cast<MaskedGatherSDNode>(this)) {
OS << "<";
printMemOperand(OS, *MGather->getMemOperand(), G);
bool doExt = true;
switch (MGather->getExtensionType()) {
default: doExt = false; break;
case ISD::EXTLOAD: OS << ", anyext"; break;
case ISD::SEXTLOAD: OS << ", sext"; break;
case ISD::ZEXTLOAD: OS << ", zext"; break;
}
if (doExt)
OS << " from " << MGather->getMemoryVT();
auto Signed = MGather->isIndexSigned() ? "signed" : "unsigned";
auto Scaled = MGather->isIndexScaled() ? "scaled" : "unscaled";
OS << ", " << Signed << " " << Scaled << " offset";
OS << ">";
} else if (const auto *MScatter = dyn_cast<MaskedScatterSDNode>(this)) {
OS << "<";
printMemOperand(OS, *MScatter->getMemOperand(), G);
if (MScatter->isTruncatingStore())
OS << ", trunc to " << MScatter->getMemoryVT();
auto Signed = MScatter->isIndexSigned() ? "signed" : "unsigned";
auto Scaled = MScatter->isIndexScaled() ? "scaled" : "unscaled";
OS << ", " << Signed << " " << Scaled << " offset";
OS << ">";
} else if (const MemSDNode *M = dyn_cast<MemSDNode>(this)) {
OS << "<";
printMemOperand(OS, *M->getMemOperand(), G);
if (auto *A = dyn_cast<AtomicSDNode>(M))
if (A->getOpcode() == ISD::ATOMIC_LOAD) {
bool doExt = true;
switch (A->getExtensionType()) {
default: doExt = false; break;
case ISD::EXTLOAD: OS << ", anyext"; break;
case ISD::SEXTLOAD: OS << ", sext"; break;
case ISD::ZEXTLOAD: OS << ", zext"; break;
}
if (doExt)
OS << " from " << A->getMemoryVT();
}
OS << ">";
} else if (const BlockAddressSDNode *BA =
dyn_cast<BlockAddressSDNode>(this)) {
int64_t offset = BA->getOffset();
OS << "<";
BA->getBlockAddress()->getFunction()->printAsOperand(OS, false);
OS << ", ";
BA->getBlockAddress()->getBasicBlock()->printAsOperand(OS, false);
OS << ">";
if (offset > 0)
OS << " + " << offset;
else
OS << " " << offset;
if (unsigned int TF = BA->getTargetFlags())
OS << " [TF=" << TF << ']';
} else if (const AddrSpaceCastSDNode *ASC =
dyn_cast<AddrSpaceCastSDNode>(this)) {
OS << '['
<< ASC->getSrcAddressSpace()
<< " -> "
<< ASC->getDestAddressSpace()
<< ']';
} else if (const LifetimeSDNode *LN = dyn_cast<LifetimeSDNode>(this)) {
if (LN->hasOffset())
OS << "<" << LN->getOffset() << " to " << LN->getOffset() + LN->getSize() << ">";
} else if (const auto *AA = dyn_cast<AssertAlignSDNode>(this)) {
OS << '<' << AA->getAlign().value() << '>';
}
if (VerboseDAGDumping) {
if (unsigned Order = getIROrder())
OS << " [ORD=" << Order << ']';
if (getNodeId() != -1)
OS << " [ID=" << getNodeId() << ']';
if (!(isa<ConstantSDNode>(this) || (isa<ConstantFPSDNode>(this))))
OS << " # D:" << isDivergent();
if (G && !G->GetDbgValues(this).empty()) {
OS << " [NoOfDbgValues=" << G->GetDbgValues(this).size() << ']';
for (SDDbgValue *Dbg : G->GetDbgValues(this))
if (!Dbg->isInvalidated())
Dbg->print(OS);
} else if (getHasDebugValue())
OS << " [NoOfDbgValues>0]";
if (const auto *MD = G ? G->getPCSections(this) : nullptr) {
OS << " [pcsections ";
MD->printAsOperand(OS, G->getMachineFunction().getFunction().getParent());
OS << ']';
}
if (MDNode *MMRA = G ? G->getMMRAMetadata(this) : nullptr) {
OS << " [mmra ";
MMRA->printAsOperand(OS,
G->getMachineFunction().getFunction().getParent());
OS << ']';
}
}
}
LLVM_DUMP_METHOD void SDDbgValue::print(raw_ostream &OS) const {
OS << " DbgVal(Order=" << getOrder() << ')';
if (isInvalidated())
OS << "(Invalidated)";
if (isEmitted())
OS << "(Emitted)";
OS << "(";
bool Comma = false;
for (const SDDbgOperand &Op : getLocationOps()) {
if (Comma)
OS << ", ";
switch (Op.getKind()) {
case SDDbgOperand::SDNODE:
if (Op.getSDNode())
OS << "SDNODE=" << PrintNodeId(*Op.getSDNode()) << ':' << Op.getResNo();
else
OS << "SDNODE";
break;
case SDDbgOperand::CONST:
OS << "CONST";
break;
case SDDbgOperand::FRAMEIX:
OS << "FRAMEIX=" << Op.getFrameIx();
break;
case SDDbgOperand::VREG:
OS << "VREG=" << Op.getVReg();
break;
}
Comma = true;
}
OS << ")";
if (isIndirect()) OS << "(Indirect)";
if (isVariadic())
OS << "(Variadic)";
OS << ":\"" << Var->getName() << '"';
#ifndef NDEBUG
if (Expr->getNumElements())
Expr->dump();
#endif
}
#if !defined(NDEBUG) || defined(LLVM_ENABLE_DUMP)
LLVM_DUMP_METHOD void SDDbgValue::dump() const {
if (isInvalidated())
return;
print(dbgs());
dbgs() << "\n";
}
#endif
/// Return true if this node is so simple that we should just print it inline
/// if it appears as an operand.
static bool shouldPrintInline(const SDNode &Node, const SelectionDAG *G) {
// Avoid lots of cluttering when inline printing nodes with associated
// DbgValues in verbose mode.
if (VerboseDAGDumping && G && !G->GetDbgValues(&Node).empty())
return false;
if (Node.getOpcode() == ISD::EntryToken)
return false;
return Node.getNumOperands() == 0;
}
#if !defined(NDEBUG) || defined(LLVM_ENABLE_DUMP)
static void DumpNodes(const SDNode *N, unsigned indent, const SelectionDAG *G) {
for (const SDValue &Op : N->op_values()) {
if (shouldPrintInline(*Op.getNode(), G))
continue;
if (Op.getNode()->hasOneUse())
DumpNodes(Op.getNode(), indent+2, G);
}
dbgs().indent(indent);
N->dump(G);
}
LLVM_DUMP_METHOD void SelectionDAG::dump() const {
dbgs() << "SelectionDAG has " << AllNodes.size() << " nodes:\n";
for (const SDNode &N : allnodes()) {
if (!N.hasOneUse() && &N != getRoot().getNode() &&
(!shouldPrintInline(N, this) || N.use_empty()))
DumpNodes(&N, 2, this);
}
if (getRoot().getNode()) DumpNodes(getRoot().getNode(), 2, this);
dbgs() << "\n";
if (VerboseDAGDumping) {
if (DbgBegin() != DbgEnd())
dbgs() << "SDDbgValues:\n";
for (auto *Dbg : make_range(DbgBegin(), DbgEnd()))
Dbg->dump();
if (ByvalParmDbgBegin() != ByvalParmDbgEnd())
dbgs() << "Byval SDDbgValues:\n";
for (auto *Dbg : make_range(ByvalParmDbgBegin(), ByvalParmDbgEnd()))
Dbg->dump();
}
dbgs() << "\n";
}
#endif
void SDNode::printr(raw_ostream &OS, const SelectionDAG *G) const {
OS << PrintNodeId(*this) << ": ";
print_types(OS, G);
OS << " = " << getOperationName(G);
print_details(OS, G);
}
static bool printOperand(raw_ostream &OS, const SelectionDAG *G,
const SDValue Value) {
if (!Value.getNode()) {
OS << "<null>";
return false;
}
if (shouldPrintInline(*Value.getNode(), G)) {
OS << Value->getOperationName(G) << ':';
Value->print_types(OS, G);
Value->print_details(OS, G);
return true;
}
OS << PrintNodeId(*Value.getNode());
if (unsigned RN = Value.getResNo())
OS << ':' << RN;
return false;
}
#if !defined(NDEBUG) || defined(LLVM_ENABLE_DUMP)
using VisitedSDNodeSet = SmallPtrSet<const SDNode *, 32>;
static void DumpNodesr(raw_ostream &OS, const SDNode *N, unsigned indent,
const SelectionDAG *G, VisitedSDNodeSet &once) {
if (!once.insert(N).second) // If we've been here before, return now.
return;
// Dump the current SDNode, but don't end the line yet.
OS.indent(indent);
N->printr(OS, G);
// Having printed this SDNode, walk the children:
for (unsigned i = 0, e = N->getNumOperands(); i != e; ++i) {
if (i) OS << ",";
OS << " ";
const SDValue Op = N->getOperand(i);
bool printedInline = printOperand(OS, G, Op);
if (printedInline)
once.insert(Op.getNode());
}
OS << "\n";
// Dump children that have grandchildren on their own line(s).
for (const SDValue &Op : N->op_values())
DumpNodesr(OS, Op.getNode(), indent+2, G, once);
}
LLVM_DUMP_METHOD void SDNode::dumpr() const {
VisitedSDNodeSet once;
DumpNodesr(dbgs(), this, 0, nullptr, once);
}
LLVM_DUMP_METHOD void SDNode::dumpr(const SelectionDAG *G) const {
VisitedSDNodeSet once;
DumpNodesr(dbgs(), this, 0, G, once);
}
#endif
static void printrWithDepthHelper(raw_ostream &OS, const SDNode *N,
const SelectionDAG *G, unsigned depth,
unsigned indent) {
if (depth == 0)
return;
OS.indent(indent);
N->print(OS, G);
for (const SDValue &Op : N->op_values()) {
// Don't follow chain operands.
if (Op.getValueType() == MVT::Other)
continue;
OS << '\n';
printrWithDepthHelper(OS, Op.getNode(), G, depth - 1, indent + 2);
}
}
void SDNode::printrWithDepth(raw_ostream &OS, const SelectionDAG *G,
unsigned depth) const {
printrWithDepthHelper(OS, this, G, depth, 0);
}
void SDNode::printrFull(raw_ostream &OS, const SelectionDAG *G) const {
// Don't print impossibly deep things.
printrWithDepth(OS, G, 10);
}
#if !defined(NDEBUG) || defined(LLVM_ENABLE_DUMP)
LLVM_DUMP_METHOD
void SDNode::dumprWithDepth(const SelectionDAG *G, unsigned depth) const {
printrWithDepth(dbgs(), G, depth);
}
LLVM_DUMP_METHOD void SDNode::dumprFull(const SelectionDAG *G) const {
// Don't print impossibly deep things.
dumprWithDepth(G, 10);
}
#endif
void SDNode::print(raw_ostream &OS, const SelectionDAG *G) const {
printr(OS, G);
// Under VerboseDAGDumping divergence will be printed always.
if (isDivergent() && !VerboseDAGDumping)
OS << " # D:1";
for (unsigned i = 0, e = getNumOperands(); i != e; ++i) {
if (i) OS << ", "; else OS << " ";
printOperand(OS, G, getOperand(i));
}
if (DebugLoc DL = getDebugLoc()) {
OS << ", ";
DL.print(OS);
}
}
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