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//===- StandardInstrumentations.h ------------------------------*- C++ -*--===//
//
// 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
//
//===----------------------------------------------------------------------===//
/// \file
///
/// This header defines a class that provides bookkeeping for all standard
/// (i.e in-tree) pass instrumentations.
///
//===----------------------------------------------------------------------===//
#ifndef LLVM_PASSES_STANDARDINSTRUMENTATIONS_H
#define LLVM_PASSES_STANDARDINSTRUMENTATIONS_H
#include "llvm/ADT/STLExtras.h"
#include "llvm/ADT/SmallVector.h"
#include "llvm/ADT/StringRef.h"
#include "llvm/IR/BasicBlock.h"
#include "llvm/IR/OptBisect.h"
#include "llvm/IR/PassTimingInfo.h"
#include "llvm/IR/ValueHandle.h"
#include "llvm/Support/CommandLine.h"
#include "llvm/Transforms/IPO/SampleProfileProbe.h"
#include <string>
#include <utility>
namespace llvm {
class Module;
class Function;
class PassInstrumentationCallbacks;
/// Instrumentation to print IR before/after passes.
///
/// Needs state to be able to print module after pass that invalidates IR unit
/// (typically Loop or SCC).
class PrintIRInstrumentation {
public:
~PrintIRInstrumentation();
void registerCallbacks(PassInstrumentationCallbacks &PIC);
private:
void printBeforePass(StringRef PassID, Any IR);
void printAfterPass(StringRef PassID, Any IR);
void printAfterPassInvalidated(StringRef PassID);
bool shouldPrintBeforePass(StringRef PassID);
bool shouldPrintAfterPass(StringRef PassID);
using PrintModuleDesc = std::tuple<const Module *, std::string, StringRef>;
void pushModuleDesc(StringRef PassID, Any IR);
PrintModuleDesc popModuleDesc(StringRef PassID);
PassInstrumentationCallbacks *PIC;
/// Stack of Module description, enough to print the module after a given
/// pass.
SmallVector<PrintModuleDesc, 2> ModuleDescStack;
};
class OptNoneInstrumentation {
public:
OptNoneInstrumentation(bool DebugLogging) : DebugLogging(DebugLogging) {}
void registerCallbacks(PassInstrumentationCallbacks &PIC);
private:
bool DebugLogging;
bool shouldRun(StringRef PassID, Any IR);
};
class OptBisectInstrumentation {
public:
OptBisectInstrumentation() {}
void registerCallbacks(PassInstrumentationCallbacks &PIC);
};
struct PrintPassOptions {
/// Print adaptors and pass managers.
bool Verbose = false;
/// Don't print information for analyses.
bool SkipAnalyses = false;
/// Indent based on hierarchy.
bool Indent = false;
};
// Debug logging for transformation and analysis passes.
class PrintPassInstrumentation {
raw_ostream &print();
public:
PrintPassInstrumentation(bool Enabled, PrintPassOptions Opts)
: Enabled(Enabled), Opts(Opts) {}
void registerCallbacks(PassInstrumentationCallbacks &PIC);
private:
bool Enabled;
PrintPassOptions Opts;
int Indent = 0;
};
class PreservedCFGCheckerInstrumentation {
public:
// Keeps sticky poisoned flag for the given basic block once it has been
// deleted or RAUWed.
struct BBGuard final : public CallbackVH {
BBGuard(const BasicBlock *BB) : CallbackVH(BB) {}
void deleted() override { CallbackVH::deleted(); }
void allUsesReplacedWith(Value *) override { CallbackVH::deleted(); }
bool isPoisoned() const { return !getValPtr(); }
};
// CFG is a map BB -> {(Succ, Multiplicity)}, where BB is a non-leaf basic
// block, {(Succ, Multiplicity)} set of all pairs of the block's successors
// and the multiplicity of the edge (BB->Succ). As the mapped sets are
// unordered the order of successors is not tracked by the CFG. In other words
// this allows basic block successors to be swapped by a pass without
// reporting a CFG change. CFG can be guarded by basic block tracking pointers
// in the Graph (BBGuard). That is if any of the block is deleted or RAUWed
// then the CFG is treated poisoned and no block pointer of the Graph is used.
struct CFG {
Optional<DenseMap<intptr_t, BBGuard>> BBGuards;
DenseMap<const BasicBlock *, DenseMap<const BasicBlock *, unsigned>> Graph;
CFG(const Function *F, bool TrackBBLifetime);
bool operator==(const CFG &G) const {
return !isPoisoned() && !G.isPoisoned() && Graph == G.Graph;
}
bool isPoisoned() const {
return BBGuards &&
std::any_of(BBGuards->begin(), BBGuards->end(),
[](const auto &BB) { return BB.second.isPoisoned(); });
}
static void printDiff(raw_ostream &out, const CFG &Before,
const CFG &After);
bool invalidate(Function &F, const PreservedAnalyses &PA,
FunctionAnalysisManager::Invalidator &);
};
#ifdef LLVM_ENABLE_ABI_BREAKING_CHECKS
SmallVector<StringRef, 8> PassStack;
#endif
static cl::opt<bool> VerifyPreservedCFG;
void registerCallbacks(PassInstrumentationCallbacks &PIC,
FunctionAnalysisManager &FAM);
};
// Base class for classes that report changes to the IR.
// It presents an interface for such classes and provides calls
// on various events as the new pass manager transforms the IR.
// It also provides filtering of information based on hidden options
// specifying which functions are interesting.
// Calls are made for the following events/queries:
// 1. The initial IR processed.
// 2. To get the representation of the IR (of type \p T).
// 3. When a pass does not change the IR.
// 4. When a pass changes the IR (given both before and after representations
// of type \p T).
// 5. When an IR is invalidated.
// 6. When a pass is run on an IR that is not interesting (based on options).
// 7. When a pass is ignored (pass manager or adapter pass).
// 8. To compare two IR representations (of type \p T).
template <typename IRUnitT> class ChangeReporter {
protected:
ChangeReporter(bool RunInVerboseMode) : VerboseMode(RunInVerboseMode) {}
public:
virtual ~ChangeReporter();
// Determine if this pass/IR is interesting and if so, save the IR
// otherwise it is left on the stack without data.
void saveIRBeforePass(Any IR, StringRef PassID);
// Compare the IR from before the pass after the pass.
void handleIRAfterPass(Any IR, StringRef PassID);
// Handle the situation where a pass is invalidated.
void handleInvalidatedPass(StringRef PassID);
protected:
// Register required callbacks.
void registerRequiredCallbacks(PassInstrumentationCallbacks &PIC);
// Return true when this is a defined function for which printing
// of changes is desired.
bool isInterestingFunction(const Function &F);
// Return true when this is a pass for which printing of changes is desired.
bool isInterestingPass(StringRef PassID);
// Return true when this is a pass on IR for which printing
// of changes is desired.
bool isInteresting(Any IR, StringRef PassID);
// Called on the first IR processed.
virtual void handleInitialIR(Any IR) = 0;
// Called before and after a pass to get the representation of the IR.
virtual void generateIRRepresentation(Any IR, StringRef PassID,
IRUnitT &Output) = 0;
// Called when the pass is not iteresting.
virtual void omitAfter(StringRef PassID, std::string &Name) = 0;
// Called when an interesting IR has changed.
virtual void handleAfter(StringRef PassID, std::string &Name,
const IRUnitT &Before, const IRUnitT &After,
Any) = 0;
// Called when an interesting pass is invalidated.
virtual void handleInvalidated(StringRef PassID) = 0;
// Called when the IR or pass is not interesting.
virtual void handleFiltered(StringRef PassID, std::string &Name) = 0;
// Called when an ignored pass is encountered.
virtual void handleIgnored(StringRef PassID, std::string &Name) = 0;
// Stack of IRs before passes.
std::vector<IRUnitT> BeforeStack;
// Is this the first IR seen?
bool InitialIR = true;
// Run in verbose mode, printing everything?
const bool VerboseMode;
};
// An abstract template base class that handles printing banners and
// reporting when things have not changed or are filtered out.
template <typename IRUnitT>
class TextChangeReporter : public ChangeReporter<IRUnitT> {
protected:
TextChangeReporter(bool Verbose);
// Print a module dump of the first IR that is changed.
void handleInitialIR(Any IR) override;
// Report that the IR was omitted because it did not change.
void omitAfter(StringRef PassID, std::string &Name) override;
// Report that the pass was invalidated.
void handleInvalidated(StringRef PassID) override;
// Report that the IR was filtered out.
void handleFiltered(StringRef PassID, std::string &Name) override;
// Report that the pass was ignored.
void handleIgnored(StringRef PassID, std::string &Name) override;
// Make substitutions in \p S suitable for reporting changes
// after the pass and then print it.
raw_ostream &Out;
};
// A change printer based on the string representation of the IR as created
// by unwrapAndPrint. The string representation is stored in a std::string
// to preserve it as the IR changes in each pass. Note that the banner is
// included in this representation but it is massaged before reporting.
class IRChangedPrinter : public TextChangeReporter<std::string> {
public:
IRChangedPrinter(bool VerboseMode)
: TextChangeReporter<std::string>(VerboseMode) {}
~IRChangedPrinter() override;
void registerCallbacks(PassInstrumentationCallbacks &PIC);
protected:
// Called before and after a pass to get the representation of the IR.
void generateIRRepresentation(Any IR, StringRef PassID,
std::string &Output) override;
// Called when an interesting IR has changed.
void handleAfter(StringRef PassID, std::string &Name,
const std::string &Before, const std::string &After,
Any) override;
};
// Information that needs to be saved for a basic block in order to compare
// before and after the pass to determine if it was changed by a pass.
template <typename T> class BlockDataT {
public:
BlockDataT(const BasicBlock &B) : Label(B.getName().str()), Data(B) {
raw_string_ostream SS(Body);
B.print(SS, nullptr, true, true);
}
bool operator==(const BlockDataT &That) const { return Body == That.Body; }
bool operator!=(const BlockDataT &That) const { return Body != That.Body; }
// Return the label of the represented basic block.
StringRef getLabel() const { return Label; }
// Return the string representation of the basic block.
StringRef getBody() const { return Body; }
// Return the associated data
const T &getData() const { return Data; }
protected:
std::string Label;
std::string Body;
// Extra data associated with a basic block
T Data;
};
template <typename T> class OrderedChangedData {
public:
// Return the names in the order they were saved
std::vector<std::string> &getOrder() { return Order; }
const std::vector<std::string> &getOrder() const { return Order; }
// Return a map of names to saved representations
StringMap<T> &getData() { return Data; }
const StringMap<T> &getData() const { return Data; }
bool operator==(const OrderedChangedData<T> &That) const {
return Data == That.getData();
}
// Call the lambda \p HandlePair on each corresponding pair of data from
// \p Before and \p After. The order is based on the order in \p After
// with ones that are only in \p Before interspersed based on where they
// occur in \p Before. This is used to present the output in an order
// based on how the data is ordered in LLVM.
static void report(const OrderedChangedData &Before,
const OrderedChangedData &After,
function_ref<void(const T *, const T *)> HandlePair);
protected:
std::vector<std::string> Order;
StringMap<T> Data;
};
// Do not need extra information for patch-style change reporter.
class EmptyData {
public:
EmptyData(const BasicBlock &) {}
};
// The data saved for comparing functions.
template <typename T>
class FuncDataT : public OrderedChangedData<BlockDataT<T>> {
public:
FuncDataT(std::string S) : EntryBlockName(S) {}
// Return the name of the entry block
std::string getEntryBlockName() const { return EntryBlockName; }
protected:
std::string EntryBlockName;
};
// The data saved for comparing IRs.
template <typename T>
class IRDataT : public OrderedChangedData<FuncDataT<T>> {};
// Abstract template base class for a class that compares two IRs. The
// class is created with the 2 IRs to compare and then compare is called.
// The static function analyzeIR is used to build up the IR representation.
template <typename T> class IRComparer {
public:
IRComparer(const IRDataT<T> &Before, const IRDataT<T> &After)
: Before(Before), After(After) {}
// Compare the 2 IRs. \p handleFunctionCompare is called to handle the
// compare of a function. When \p InModule is set,
// this function is being handled as part of comparing a module.
void compare(
bool CompareModule,
std::function<void(bool InModule, unsigned Minor,
const FuncDataT<T> &Before, const FuncDataT<T> &After)>
CompareFunc);
// Analyze \p IR and build the IR representation in \p Data.
static void analyzeIR(Any IR, IRDataT<T> &Data);
protected:
// Generate the data for \p F into \p Data.
static bool generateFunctionData(IRDataT<T> &Data, const Function &F);
const IRDataT<T> &Before;
const IRDataT<T> &After;
};
// A change printer that prints out in-line differences in the basic
// blocks. It uses an InlineComparer to do the comparison so it shows
// the differences prefixed with '-' and '+' for code that is removed
// and added, respectively. Changes to the IR that do not affect basic
// blocks are not reported as having changed the IR. The option
// -print-module-scope does not affect this change reporter.
class InLineChangePrinter : public TextChangeReporter<IRDataT<EmptyData>> {
public:
InLineChangePrinter(bool VerboseMode, bool ColourMode)
: TextChangeReporter<IRDataT<EmptyData>>(VerboseMode),
UseColour(ColourMode) {}
~InLineChangePrinter() override;
void registerCallbacks(PassInstrumentationCallbacks &PIC);
protected:
// Create a representation of the IR.
virtual void generateIRRepresentation(Any IR, StringRef PassID,
IRDataT<EmptyData> &Output) override;
// Called when an interesting IR has changed.
virtual void handleAfter(StringRef PassID, std::string &Name,
const IRDataT<EmptyData> &Before,
const IRDataT<EmptyData> &After, Any) override;
void handleFunctionCompare(StringRef Name, StringRef Prefix, StringRef PassID,
StringRef Divider, bool InModule, unsigned Minor,
const FuncDataT<EmptyData> &Before,
const FuncDataT<EmptyData> &After);
bool UseColour;
};
class VerifyInstrumentation {
bool DebugLogging;
public:
VerifyInstrumentation(bool DebugLogging) : DebugLogging(DebugLogging) {}
void registerCallbacks(PassInstrumentationCallbacks &PIC);
};
// Class that holds transitions between basic blocks. The transitions
// are contained in a map of values to names of basic blocks.
class DCData {
public:
// Fill the map with the transitions from basic block \p B.
DCData(const BasicBlock &B);
// Return an iterator to the names of the successor blocks.
StringMap<std::string>::const_iterator begin() const {
return Successors.begin();
}
StringMap<std::string>::const_iterator end() const {
return Successors.end();
}
// Return the label of the basic block reached on a transition on \p S.
const StringRef getSuccessorLabel(StringRef S) const {
assert(Successors.count(S) == 1 && "Expected to find successor.");
return Successors.find(S)->getValue();
}
protected:
// Add a transition to \p Succ on \p Label
void addSuccessorLabel(StringRef Succ, StringRef Label) {
std::pair<std::string, std::string> SS{Succ.str(), Label.str()};
Successors.insert(SS);
}
StringMap<std::string> Successors;
};
// A change reporter that builds a website with links to pdf files showing
// dot control flow graphs with changed instructions shown in colour.
class DotCfgChangeReporter : public ChangeReporter<IRDataT<DCData>> {
public:
DotCfgChangeReporter(bool Verbose);
~DotCfgChangeReporter() override;
void registerCallbacks(PassInstrumentationCallbacks &PIC);
protected:
// Initialize the HTML file and output the header.
bool initializeHTML();
// Called on the first IR processed.
void handleInitialIR(Any IR) override;
// Called before and after a pass to get the representation of the IR.
void generateIRRepresentation(Any IR, StringRef PassID,
IRDataT<DCData> &Output) override;
// Called when the pass is not iteresting.
void omitAfter(StringRef PassID, std::string &Name) override;
// Called when an interesting IR has changed.
void handleAfter(StringRef PassID, std::string &Name,
const IRDataT<DCData> &Before, const IRDataT<DCData> &After,
Any) override;
// Called when an interesting pass is invalidated.
void handleInvalidated(StringRef PassID) override;
// Called when the IR or pass is not interesting.
void handleFiltered(StringRef PassID, std::string &Name) override;
// Called when an ignored pass is encountered.
void handleIgnored(StringRef PassID, std::string &Name) override;
// Generate the pdf file into \p Dir / \p PDFFileName using \p DotFile as
// input and return the html <a> tag with \Text as the content.
static std::string genHTML(StringRef Text, StringRef DotFile,
StringRef PDFFileName);
void handleFunctionCompare(StringRef Name, StringRef Prefix, StringRef PassID,
StringRef Divider, bool InModule, unsigned Minor,
const FuncDataT<DCData> &Before,
const FuncDataT<DCData> &After);
unsigned N = 0;
std::unique_ptr<raw_fd_ostream> HTML;
};
/// This class provides an interface to register all the standard pass
/// instrumentations and manages their state (if any).
class StandardInstrumentations {
PrintIRInstrumentation PrintIR;
PrintPassInstrumentation PrintPass;
TimePassesHandler TimePasses;
OptNoneInstrumentation OptNone;
OptBisectInstrumentation OptBisect;
PreservedCFGCheckerInstrumentation PreservedCFGChecker;
IRChangedPrinter PrintChangedIR;
PseudoProbeVerifier PseudoProbeVerification;
InLineChangePrinter PrintChangedDiff;
DotCfgChangeReporter WebsiteChangeReporter;
VerifyInstrumentation Verify;
bool VerifyEach;
public:
StandardInstrumentations(bool DebugLogging, bool VerifyEach = false,
PrintPassOptions PrintPassOpts = PrintPassOptions());
// Register all the standard instrumentation callbacks. If \p FAM is nullptr
// then PreservedCFGChecker is not enabled.
void registerCallbacks(PassInstrumentationCallbacks &PIC,
FunctionAnalysisManager *FAM = nullptr);
TimePassesHandler &getTimePasses() { return TimePasses; }
};
extern template class ChangeReporter<std::string>;
extern template class TextChangeReporter<std::string>;
extern template class BlockDataT<EmptyData>;
extern template class FuncDataT<EmptyData>;
extern template class IRDataT<EmptyData>;
extern template class ChangeReporter<IRDataT<EmptyData>>;
extern template class TextChangeReporter<IRDataT<EmptyData>>;
extern template class IRComparer<EmptyData>;
} // namespace llvm
#endif