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//===- DebugSupport.cpp -----------------------------------------*- 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
//
//===----------------------------------------------------------------------===//
//
// This file defines functions which generate more readable forms of data
// structures used in the dataflow analyses, for debugging purposes.
//
//===----------------------------------------------------------------------===//
#include <utility>
#include "clang/Analysis/FlowSensitive/DebugSupport.h"
#include "clang/Analysis/FlowSensitive/Solver.h"
#include "clang/Analysis/FlowSensitive/Value.h"
#include "llvm/ADT/DenseMap.h"
#include "llvm/ADT/STLExtras.h"
#include "llvm/ADT/StringRef.h"
#include "llvm/ADT/StringSet.h"
#include "llvm/Support/ErrorHandling.h"
#include "llvm/Support/FormatAdapters.h"
#include "llvm/Support/FormatCommon.h"
#include "llvm/Support/FormatVariadic.h"
namespace clang {
namespace dataflow {
using llvm::AlignStyle;
using llvm::fmt_pad;
using llvm::formatv;
llvm::StringRef debugString(Value::Kind Kind) {
switch (Kind) {
case Value::Kind::Integer:
return "Integer";
case Value::Kind::Reference:
return "Reference";
case Value::Kind::Pointer:
return "Pointer";
case Value::Kind::Struct:
return "Struct";
case Value::Kind::AtomicBool:
return "AtomicBool";
case Value::Kind::TopBool:
return "TopBool";
case Value::Kind::Conjunction:
return "Conjunction";
case Value::Kind::Disjunction:
return "Disjunction";
case Value::Kind::Negation:
return "Negation";
case Value::Kind::Implication:
return "Implication";
case Value::Kind::Biconditional:
return "Biconditional";
}
llvm_unreachable("Unhandled value kind");
}
llvm::StringRef debugString(Solver::Result::Assignment Assignment) {
switch (Assignment) {
case Solver::Result::Assignment::AssignedFalse:
return "False";
case Solver::Result::Assignment::AssignedTrue:
return "True";
}
llvm_unreachable("Booleans can only be assigned true/false");
}
llvm::StringRef debugString(Solver::Result::Status Status) {
switch (Status) {
case Solver::Result::Status::Satisfiable:
return "Satisfiable";
case Solver::Result::Status::Unsatisfiable:
return "Unsatisfiable";
case Solver::Result::Status::TimedOut:
return "TimedOut";
}
llvm_unreachable("Unhandled SAT check result status");
}
namespace {
class DebugStringGenerator {
public:
explicit DebugStringGenerator(
llvm::DenseMap<const AtomicBoolValue *, std::string> AtomNamesArg)
: Counter(0), AtomNames(std::move(AtomNamesArg)) {
#ifndef NDEBUG
llvm::StringSet<> Names;
for (auto &N : AtomNames) {
assert(Names.insert(N.second).second &&
"The same name must not assigned to different atoms");
}
#endif
}
/// Returns a string representation of a boolean value `B`.
std::string debugString(const BoolValue &B, size_t Depth = 0) {
std::string S;
switch (B.getKind()) {
case Value::Kind::AtomicBool: {
S = getAtomName(&cast<AtomicBoolValue>(B));
break;
}
case Value::Kind::Conjunction: {
auto &C = cast<ConjunctionValue>(B);
auto L = debugString(C.getLeftSubValue(), Depth + 1);
auto R = debugString(C.getRightSubValue(), Depth + 1);
S = formatv("(and\n{0}\n{1})", L, R);
break;
}
case Value::Kind::Disjunction: {
auto &D = cast<DisjunctionValue>(B);
auto L = debugString(D.getLeftSubValue(), Depth + 1);
auto R = debugString(D.getRightSubValue(), Depth + 1);
S = formatv("(or\n{0}\n{1})", L, R);
break;
}
case Value::Kind::Negation: {
auto &N = cast<NegationValue>(B);
S = formatv("(not\n{0})", debugString(N.getSubVal(), Depth + 1));
break;
}
case Value::Kind::Implication: {
auto &IV = cast<ImplicationValue>(B);
auto L = debugString(IV.getLeftSubValue(), Depth + 1);
auto R = debugString(IV.getRightSubValue(), Depth + 1);
S = formatv("(=>\n{0}\n{1})", L, R);
break;
}
case Value::Kind::Biconditional: {
auto &BV = cast<BiconditionalValue>(B);
auto L = debugString(BV.getLeftSubValue(), Depth + 1);
auto R = debugString(BV.getRightSubValue(), Depth + 1);
S = formatv("(=\n{0}\n{1})", L, R);
break;
}
default:
llvm_unreachable("Unhandled value kind");
}
auto Indent = Depth * 4;
return formatv("{0}", fmt_pad(S, Indent, 0));
}
std::string debugString(const llvm::DenseSet<BoolValue *> &Constraints) {
std::vector<std::string> ConstraintsStrings;
ConstraintsStrings.reserve(Constraints.size());
for (BoolValue *Constraint : Constraints) {
ConstraintsStrings.push_back(debugString(*Constraint));
}
llvm::sort(ConstraintsStrings);
std::string Result;
for (const std::string &S : ConstraintsStrings) {
Result += S;
Result += '\n';
}
return Result;
}
/// Returns a string representation of a set of boolean `Constraints` and the
/// `Result` of satisfiability checking on the `Constraints`.
std::string debugString(ArrayRef<BoolValue *> &Constraints,
const Solver::Result &Result) {
auto Template = R"(
Constraints
------------
{0:$[
]}
------------
{1}.
{2}
)";
std::vector<std::string> ConstraintsStrings;
ConstraintsStrings.reserve(Constraints.size());
for (auto &Constraint : Constraints) {
ConstraintsStrings.push_back(debugString(*Constraint));
}
auto StatusString = clang::dataflow::debugString(Result.getStatus());
auto Solution = Result.getSolution();
auto SolutionString = Solution ? "\n" + debugString(*Solution) : "";
return formatv(
Template,
llvm::make_range(ConstraintsStrings.begin(), ConstraintsStrings.end()),
StatusString, SolutionString);
}
private:
/// Returns a string representation of a truth assignment to atom booleans.
std::string debugString(
const llvm::DenseMap<AtomicBoolValue *, Solver::Result::Assignment>
&AtomAssignments) {
size_t MaxNameLength = 0;
for (auto &AtomName : AtomNames) {
MaxNameLength = std::max(MaxNameLength, AtomName.second.size());
}
std::vector<std::string> Lines;
for (auto &AtomAssignment : AtomAssignments) {
auto Line = formatv("{0} = {1}",
fmt_align(getAtomName(AtomAssignment.first),
AlignStyle::Left, MaxNameLength),
clang::dataflow::debugString(AtomAssignment.second));
Lines.push_back(Line);
}
llvm::sort(Lines);
return formatv("{0:$[\n]}", llvm::make_range(Lines.begin(), Lines.end()));
}
/// Returns the name assigned to `Atom`, either user-specified or created by
/// default rules (B0, B1, ...).
std::string getAtomName(const AtomicBoolValue *Atom) {
auto Entry = AtomNames.try_emplace(Atom, formatv("B{0}", Counter));
if (Entry.second) {
Counter++;
}
return Entry.first->second;
}
// Keep track of number of atoms without a user-specified name, used to assign
// non-repeating default names to such atoms.
size_t Counter;
// Keep track of names assigned to atoms.
llvm::DenseMap<const AtomicBoolValue *, std::string> AtomNames;
};
} // namespace
std::string
debugString(const BoolValue &B,
llvm::DenseMap<const AtomicBoolValue *, std::string> AtomNames) {
return DebugStringGenerator(std::move(AtomNames)).debugString(B);
}
std::string
debugString(const llvm::DenseSet<BoolValue *> &Constraints,
llvm::DenseMap<const AtomicBoolValue *, std::string> AtomNames) {
return DebugStringGenerator(std::move(AtomNames)).debugString(Constraints);
}
std::string
debugString(ArrayRef<BoolValue *> Constraints, const Solver::Result &Result,
llvm::DenseMap<const AtomicBoolValue *, std::string> AtomNames) {
return DebugStringGenerator(std::move(AtomNames))
.debugString(Constraints, Result);
}
} // namespace dataflow
} // namespace clang
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