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llvm / llvm-project / 57bd1c6c74804540df80c3896f74788be6166d3f / . / clang / lib / CIR / CodeGen / EHScopeStack.h
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//===-- EHScopeStack.h - Stack for cleanup CIR generation -------*- 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
//
//===----------------------------------------------------------------------===//
//
// These classes should be the minimum interface required for other parts of
// CIR CodeGen to emit cleanups. The implementation is in CIRGenCleanup.cpp and
// other implemenentation details that are not widely needed are in
// CIRGenCleanup.h.
//
// TODO(cir): this header should be shared between LLVM and CIR codegen.
//
//===----------------------------------------------------------------------===//
#ifndef CLANG_LIB_CIR_CODEGEN_EHSCOPESTACK_H
#define CLANG_LIB_CIR_CODEGEN_EHSCOPESTACK_H
#include "llvm/ADT/SmallVector.h"
namespace clang::CIRGen {
class CIRGenFunction;
enum CleanupKind : unsigned {
/// Denotes a cleanup that should run when a scope is exited using exceptional
/// control flow (a throw statement leading to stack unwinding, ).
EHCleanup = 0x1,
/// Denotes a cleanup that should run when a scope is exited using normal
/// control flow (falling off the end of the scope, return, goto, ...).
NormalCleanup = 0x2,
NormalAndEHCleanup = EHCleanup | NormalCleanup,
LifetimeMarker = 0x8,
NormalEHLifetimeMarker = LifetimeMarker | NormalAndEHCleanup,
};
/// A stack of scopes which respond to exceptions, including cleanups
/// and catch blocks.
class EHScopeStack {
friend class CIRGenFunction;
public:
// TODO(ogcg): Switch to alignof(uint64_t) instead of 8
enum { ScopeStackAlignment = 8 };
/// A saved depth on the scope stack. This is necessary because
/// pushing scopes onto the stack invalidates iterators.
class stable_iterator {
friend class EHScopeStack;
/// Offset from startOfData to endOfBuffer.
ptrdiff_t size = -1;
explicit stable_iterator(ptrdiff_t size) : size(size) {}
public:
static stable_iterator invalid() { return stable_iterator(-1); }
stable_iterator() = default;
bool isValid() const { return size >= 0; }
/// Returns true if this scope encloses I.
/// Returns false if I is invalid.
/// This scope must be valid.
bool encloses(stable_iterator other) const { return size <= other.size; }
/// Returns true if this scope strictly encloses I: that is,
/// if it encloses I and is not I.
/// Returns false is I is invalid.
/// This scope must be valid.
bool strictlyEncloses(stable_iterator I) const { return size < I.size; }
friend bool operator==(stable_iterator A, stable_iterator B) {
return A.size == B.size;
}
friend bool operator!=(stable_iterator A, stable_iterator B) {
return A.size != B.size;
}
};
/// Information for lazily generating a cleanup. Subclasses must be
/// POD-like: cleanups will not be destructed, and they will be
/// allocated on the cleanup stack and freely copied and moved
/// around.
///
/// Cleanup implementations should generally be declared in an
/// anonymous namespace.
class LLVM_MOVABLE_POLYMORPHIC_TYPE Cleanup {
// Anchor the construction vtable.
virtual void anchor();
public:
Cleanup(const Cleanup &) = default;
Cleanup(Cleanup &&) {}
Cleanup() = default;
virtual ~Cleanup() = default;
/// Emit the cleanup. For normal cleanups, this is run in the
/// same EH context as when the cleanup was pushed, i.e. the
/// immediately-enclosing context of the cleanup scope. For
/// EH cleanups, this is run in a terminate context.
///
// \param flags cleanup kind.
virtual void emit(CIRGenFunction &cgf) = 0;
// This is a placeholder until EHScope is implemented.
virtual size_t getSize() const = 0;
};
private:
// The implementation for this class is in CIRGenCleanup.h and
// CIRGenCleanup.cpp; the definition is here because it's used as a
// member of CIRGenFunction.
/// The start of the scope-stack buffer, i.e. the allocated pointer
/// for the buffer. All of these pointers are either simultaneously
/// null or simultaneously valid.
std::unique_ptr<char[]> startOfBuffer;
/// The end of the buffer.
char *endOfBuffer = nullptr;
/// The first valid entry in the buffer.
char *startOfData = nullptr;
/// The CGF this Stack belong to
CIRGenFunction *cgf = nullptr;
// This class uses a custom allocator for maximum efficiency because cleanups
// are allocated and freed very frequently. It's basically a bump pointer
// allocator, but we can't use LLVM's BumpPtrAllocator because we use offsets
// into the buffer as stable iterators.
char *allocate(size_t size);
void deallocate(size_t size);
void *pushCleanup(CleanupKind kind, size_t dataSize);
public:
EHScopeStack() = default;
~EHScopeStack() = default;
/// Push a lazily-created cleanup on the stack.
template <class T, class... As> void pushCleanup(CleanupKind kind, As... a) {
static_assert(alignof(T) <= ScopeStackAlignment,
"Cleanup's alignment is too large.");
void *buffer = pushCleanup(kind, sizeof(T));
[[maybe_unused]] Cleanup *obj = new (buffer) T(a...);
}
void setCGF(CIRGenFunction *inCGF) { cgf = inCGF; }
/// Pops a cleanup scope off the stack. This is private to CIRGenCleanup.cpp.
void popCleanup();
/// Determines whether the exception-scopes stack is empty.
bool empty() const { return startOfData == endOfBuffer; }
/// An unstable reference to a scope-stack depth. Invalidated by
/// pushes but not pops.
class iterator;
/// Returns an iterator pointing to the innermost EH scope.
iterator begin() const;
/// Create a stable reference to the top of the EH stack. The
/// returned reference is valid until that scope is popped off the
/// stack.
stable_iterator stable_begin() const {
return stable_iterator(endOfBuffer - startOfData);
}
/// Create a stable reference to the bottom of the EH stack.
static stable_iterator stable_end() { return stable_iterator(0); }
};
} // namespace clang::CIRGen
#endif // CLANG_LIB_CIR_CODEGEN_EHSCOPESTACK_H