214 lines
6.9 KiB
C++
214 lines
6.9 KiB
C++
//===- lib/MC/MCPseudoProbe.cpp - Pseudo probe encoding support ----------===//
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//
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// Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions.
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// See https://llvm.org/LICENSE.txt for license information.
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// SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception
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//
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//===----------------------------------------------------------------------===//
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#include "llvm/MC/MCPseudoProbe.h"
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#include "llvm/MC/MCAsmInfo.h"
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#include "llvm/MC/MCContext.h"
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#include "llvm/MC/MCObjectFileInfo.h"
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#include "llvm/MC/MCObjectStreamer.h"
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#include "llvm/MC/MCStreamer.h"
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#define DEBUG_TYPE "mcpseudoprobe"
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using namespace llvm;
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#ifndef NDEBUG
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int MCPseudoProbeTable::DdgPrintIndent = 0;
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#endif
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static const MCExpr *buildSymbolDiff(MCObjectStreamer *MCOS, const MCSymbol *A,
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const MCSymbol *B) {
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MCContext &Context = MCOS->getContext();
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MCSymbolRefExpr::VariantKind Variant = MCSymbolRefExpr::VK_None;
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const MCExpr *ARef = MCSymbolRefExpr::create(A, Variant, Context);
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const MCExpr *BRef = MCSymbolRefExpr::create(B, Variant, Context);
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const MCExpr *AddrDelta =
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MCBinaryExpr::create(MCBinaryExpr::Sub, ARef, BRef, Context);
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return AddrDelta;
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}
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void MCPseudoProbe::emit(MCObjectStreamer *MCOS,
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const MCPseudoProbe *LastProbe) const {
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// Emit Index
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MCOS->emitULEB128IntValue(Index);
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// Emit Type and the flag:
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// Type (bit 0 to 3), with bit 4 to 6 for attributes.
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// Flag (bit 7, 0 - code address, 1 - address delta). This indicates whether
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// the following field is a symbolic code address or an address delta.
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assert(Type <= 0xF && "Probe type too big to encode, exceeding 15");
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assert(Attributes <= 0x7 &&
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"Probe attributes too big to encode, exceeding 7");
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uint8_t PackedType = Type | (Attributes << 4);
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uint8_t Flag = LastProbe ? ((int8_t)MCPseudoProbeFlag::AddressDelta << 7) : 0;
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MCOS->emitInt8(Flag | PackedType);
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if (LastProbe) {
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// Emit the delta between the address label and LastProbe.
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const MCExpr *AddrDelta =
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buildSymbolDiff(MCOS, Label, LastProbe->getLabel());
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int64_t Delta;
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if (AddrDelta->evaluateAsAbsolute(Delta, MCOS->getAssemblerPtr())) {
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MCOS->emitSLEB128IntValue(Delta);
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} else {
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MCOS->insert(new MCPseudoProbeAddrFragment(AddrDelta));
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}
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} else {
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// Emit label as a symbolic code address.
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MCOS->emitSymbolValue(
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Label, MCOS->getContext().getAsmInfo()->getCodePointerSize());
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}
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LLVM_DEBUG({
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dbgs().indent(MCPseudoProbeTable::DdgPrintIndent);
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dbgs() << "Probe: " << Index << "\n";
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});
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}
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MCPseudoProbeInlineTree::~MCPseudoProbeInlineTree() {
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for (auto &Inlinee : Inlinees)
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delete Inlinee.second;
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}
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MCPseudoProbeInlineTree *
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MCPseudoProbeInlineTree::getOrAddNode(InlineSite Site) {
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auto Iter = Inlinees.find(Site);
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if (Iter == Inlinees.end()) {
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auto *Node = new MCPseudoProbeInlineTree(std::get<0>(Site));
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Inlinees[Site] = Node;
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return Node;
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} else {
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return Iter->second;
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}
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}
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void MCPseudoProbeInlineTree::addPseudoProbe(
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const MCPseudoProbe &Probe, const MCPseudoProbeInlineStack &InlineStack) {
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// The function should not be called on the root.
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assert(isRoot() && "Should not be called on root");
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// When it comes here, the input look like:
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// Probe: GUID of C, ...
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// InlineStack: [88, A], [66, B]
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// which means, Function A inlines function B at call site with a probe id of
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// 88, and B inlines C at probe 66. The tri-tree expects a tree path like {[0,
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// A], [88, B], [66, C]} to locate the tree node where the probe should be
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// added. Note that the edge [0, A] means A is the top-level function we are
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// emitting probes for.
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// Make a [0, A] edge.
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// An empty inline stack means the function that the probe originates from
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// is a top-level function.
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InlineSite Top;
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if (InlineStack.empty()) {
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Top = InlineSite(Probe.getGuid(), 0);
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} else {
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Top = InlineSite(std::get<0>(InlineStack.front()), 0);
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}
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auto *Cur = getOrAddNode(Top);
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// Make interior edges by walking the inline stack. Once it's done, Cur should
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// point to the node that the probe originates from.
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if (!InlineStack.empty()) {
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auto Iter = InlineStack.begin();
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auto Index = std::get<1>(*Iter);
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Iter++;
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for (; Iter != InlineStack.end(); Iter++) {
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// Make an edge by using the previous probe id and current GUID.
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Cur = Cur->getOrAddNode(InlineSite(std::get<0>(*Iter), Index));
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Index = std::get<1>(*Iter);
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}
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Cur = Cur->getOrAddNode(InlineSite(Probe.getGuid(), Index));
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}
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Cur->Probes.push_back(Probe);
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}
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void MCPseudoProbeInlineTree::emit(MCObjectStreamer *MCOS,
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const MCPseudoProbe *&LastProbe) {
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LLVM_DEBUG({
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dbgs().indent(MCPseudoProbeTable::DdgPrintIndent);
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dbgs() << "Group [\n";
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MCPseudoProbeTable::DdgPrintIndent += 2;
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});
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// Emit probes grouped by GUID.
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if (Guid != 0) {
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LLVM_DEBUG({
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dbgs().indent(MCPseudoProbeTable::DdgPrintIndent);
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dbgs() << "GUID: " << Guid << "\n";
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});
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// Emit Guid
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MCOS->emitInt64(Guid);
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// Emit number of probes in this node
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MCOS->emitULEB128IntValue(Probes.size());
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// Emit number of direct inlinees
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MCOS->emitULEB128IntValue(Inlinees.size());
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// Emit probes in this group
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for (const auto &Probe : Probes) {
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Probe.emit(MCOS, LastProbe);
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LastProbe = &Probe;
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}
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} else {
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assert(Probes.empty() && "Root should not have probes");
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}
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// Emit descendent
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for (const auto &Inlinee : Inlinees) {
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if (Guid) {
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// Emit probe index
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MCOS->emitULEB128IntValue(std::get<1>(Inlinee.first));
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LLVM_DEBUG({
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dbgs().indent(MCPseudoProbeTable::DdgPrintIndent);
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dbgs() << "InlineSite: " << std::get<1>(Inlinee.first) << "\n";
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});
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}
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// Emit the group
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Inlinee.second->emit(MCOS, LastProbe);
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}
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LLVM_DEBUG({
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MCPseudoProbeTable::DdgPrintIndent -= 2;
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dbgs().indent(MCPseudoProbeTable::DdgPrintIndent);
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dbgs() << "]\n";
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});
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}
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void MCPseudoProbeSection::emit(MCObjectStreamer *MCOS) {
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MCContext &Ctx = MCOS->getContext();
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for (auto &ProbeSec : MCProbeDivisions) {
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const MCPseudoProbe *LastProbe = nullptr;
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if (auto *S =
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Ctx.getObjectFileInfo()->getPseudoProbeSection(ProbeSec.first)) {
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// Switch to the .pseudoprobe section or a comdat group.
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MCOS->SwitchSection(S);
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// Emit probes grouped by GUID.
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ProbeSec.second.emit(MCOS, LastProbe);
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}
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}
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}
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//
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// This emits the pseudo probe tables.
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//
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void MCPseudoProbeTable::emit(MCObjectStreamer *MCOS) {
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MCContext &Ctx = MCOS->getContext();
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auto &ProbeTable = Ctx.getMCPseudoProbeTable();
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// Bail out early so we don't switch to the pseudo_probe section needlessly
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// and in doing so create an unnecessary (if empty) section.
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auto &ProbeSections = ProbeTable.getProbeSections();
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if (ProbeSections.empty())
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return;
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LLVM_DEBUG(MCPseudoProbeTable::DdgPrintIndent = 0);
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// Put out the probe.
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ProbeSections.emit(MCOS);
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}
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