llvm-project/clang-tools-extra/clang-tidy/utils/ExceptionAnalyzer.h

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//===--- ExceptionAnalyzer.h - clang-tidy -----------------------*- 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
//
//===----------------------------------------------------------------------===//
#ifndef LLVM_CLANG_TOOLS_EXTRA_CLANG_TIDY_UTILS_EXCEPTION_ANALYZER_H
#define LLVM_CLANG_TOOLS_EXTRA_CLANG_TIDY_UTILS_EXCEPTION_ANALYZER_H
#include "clang/AST/ASTContext.h"
#include "clang/ASTMatchers/ASTMatchFinder.h"
#include "llvm/ADT/SmallSet.h"
#include "llvm/ADT/StringSet.h"
namespace clang {
namespace tidy {
namespace utils {
/// This class analysis if a `FunctionDecl` can in principle throw an
/// exception, either directly or indirectly. It can be configured to ignore
/// custom exception types.
class ExceptionAnalyzer {
public:
enum class State : std::int8_t {
Throwing = 0, ///< The function can definitly throw given an AST.
NotThrowing = 1, ///< This function can not throw, given an AST.
Unknown = 2, ///< This can happen for extern functions without available
///< definition.
};
/// Bundle the gathered information about an entity like a function regarding
/// it's exception behaviour. The 'NonThrowing'-state can be considered as the
/// neutral element in terms of information propagation.
/// In the case of 'Throwing' state it is possible that 'getExceptionTypes'
/// does not include *ALL* possible types as there is the possibility that
/// an 'Unknown' function is called that might throw a previously unknown
/// exception at runtime.
class ExceptionInfo {
public:
using Throwables = llvm::SmallSet<const Type *, 2>;
static ExceptionInfo createUnknown() {
return ExceptionInfo(State::Unknown);
}
static ExceptionInfo createNonThrowing() {
return ExceptionInfo(State::Throwing);
}
/// By default the exception situation is unknown and must be
/// clarified step-wise.
ExceptionInfo() : Behaviour(State::NotThrowing), ContainsUnknown(false) {}
ExceptionInfo(State S)
: Behaviour(S), ContainsUnknown(S == State::Unknown) {}
ExceptionInfo(const ExceptionInfo &) = default;
ExceptionInfo &operator=(const ExceptionInfo &) = default;
ExceptionInfo(ExceptionInfo &&) = default;
ExceptionInfo &operator=(ExceptionInfo &&) = default;
State getBehaviour() const { return Behaviour; }
/// Register a single exception type as recognized potential exception to be
/// thrown.
void registerException(const Type *ExceptionType);
/// Registers a `SmallVector` of exception types as recognized potential
/// exceptions to be thrown.
void registerExceptions(const Throwables &Exceptions);
/// Updates the local state according to the other state. That means if
/// for example a function contains multiple statements the 'ExceptionInfo'
/// for the final function is the merged result of each statement.
/// If one of these statements throws the whole function throws and if one
/// part is unknown and the rest is non-throwing the result will be
/// unknown.
ExceptionInfo &merge(const ExceptionInfo &Other);
/// This method is useful in case 'catch' clauses are analyzed as it is
/// possible to catch multiple exception types by one 'catch' if they
/// are a subclass of the 'catch'ed exception type.
/// Returns 'true' if some exceptions were filtered, otherwise 'false'.
bool filterByCatch(const Type *BaseClass);
/// Filter the set of thrown exception type against a set of ignored
/// types that shall not be considered in the exception analysis.
/// This includes explicit `std::bad_alloc` ignoring as separate option.
ExceptionInfo &
filterIgnoredExceptions(const llvm::StringSet<> &IgnoredTypes,
bool IgnoreBadAlloc);
/// Clear the state to 'NonThrowing' to make the corresponding entity
/// neutral.
void clear();
/// References the set of known exception types that can escape from the
/// corresponding entity.
const Throwables &getExceptionTypes() const { return ThrownExceptions; }
/// Signal if the there is any 'Unknown' element within the scope of
/// the related entity. This might be relevant if the entity is 'Throwing'
/// and to ensure that no other exception then 'getExceptionTypes' can
/// occur. If there is an 'Unknown' element this can not be guaranteed.
bool containsUnknownElements() const { return ContainsUnknown; }
private:
/// Recalculate the 'Behaviour' for example after filtering.
void reevaluateBehaviour();
/// Keep track if the entity related to this 'ExceptionInfo' can in princple
/// throw, if it's unknown or if it won't throw.
State Behaviour;
/// Keep track if the entity contains any unknown elements to keep track
/// of the certainty of decisions and/or correct 'Behaviour' transition
/// after filtering.
bool ContainsUnknown;
/// 'ThrownException' is empty if the 'Behaviour' is either 'NotThrowing' or
/// 'Unknown'.
Throwables ThrownExceptions;
};
ExceptionAnalyzer() = default;
void ignoreBadAlloc(bool ShallIgnore) { IgnoreBadAlloc = ShallIgnore; }
void ignoreExceptions(llvm::StringSet<> ExceptionNames) {
IgnoredExceptions = std::move(ExceptionNames);
}
ExceptionInfo analyze(const FunctionDecl *Func);
ExceptionInfo analyze(const Stmt *Stmt);
private:
ExceptionInfo
throwsException(const FunctionDecl *Func,
llvm::SmallSet<const FunctionDecl *, 32> &CallStack);
ExceptionInfo
throwsException(const Stmt *St, const ExceptionInfo::Throwables &Caught,
llvm::SmallSet<const FunctionDecl *, 32> &CallStack);
ExceptionInfo analyzeImpl(const FunctionDecl *Func);
ExceptionInfo analyzeImpl(const Stmt *Stmt);
template <typename T> ExceptionInfo analyzeDispatch(const T *Node);
bool IgnoreBadAlloc = true;
llvm::StringSet<> IgnoredExceptions;
std::map<const FunctionDecl *, ExceptionInfo> FunctionCache;
};
} // namespace utils
} // namespace tidy
} // namespace clang
#endif // LLVM_CLANG_TOOLS_EXTRA_CLANG_TIDY_UTILS_EXCEPTION_ANALYZER_H