1
0
mirror of https://github.com/RPCS3/llvm-mirror.git synced 2024-11-22 18:54:02 +01:00
llvm-mirror/include/llvm/ADT/ilist_node.h
Chandler Carruth ae65e281f3 Update the file headers across all of the LLVM projects in the monorepo
to reflect the new license.

We understand that people may be surprised that we're moving the header
entirely to discuss the new license. We checked this carefully with the
Foundation's lawyer and we believe this is the correct approach.

Essentially, all code in the project is now made available by the LLVM
project under our new license, so you will see that the license headers
include that license only. Some of our contributors have contributed
code under our old license, and accordingly, we have retained a copy of
our old license notice in the top-level files in each project and
repository.

llvm-svn: 351636
2019-01-19 08:50:56 +00:00

306 lines
9.8 KiB
C++

//===- llvm/ADT/ilist_node.h - Intrusive Linked List Helper -----*- 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 the ilist_node class template, which is a convenient
// base class for creating classes that can be used with ilists.
//
//===----------------------------------------------------------------------===//
#ifndef LLVM_ADT_ILIST_NODE_H
#define LLVM_ADT_ILIST_NODE_H
#include "llvm/ADT/ilist_node_base.h"
#include "llvm/ADT/ilist_node_options.h"
namespace llvm {
namespace ilist_detail {
struct NodeAccess;
} // end namespace ilist_detail
template <class OptionsT, bool IsReverse, bool IsConst> class ilist_iterator;
template <class OptionsT> class ilist_sentinel;
/// Implementation for an ilist node.
///
/// Templated on an appropriate \a ilist_detail::node_options, usually computed
/// by \a ilist_detail::compute_node_options.
///
/// This is a wrapper around \a ilist_node_base whose main purpose is to
/// provide type safety: you can't insert nodes of \a ilist_node_impl into the
/// wrong \a simple_ilist or \a iplist.
template <class OptionsT> class ilist_node_impl : OptionsT::node_base_type {
using value_type = typename OptionsT::value_type;
using node_base_type = typename OptionsT::node_base_type;
using list_base_type = typename OptionsT::list_base_type;
friend typename OptionsT::list_base_type;
friend struct ilist_detail::NodeAccess;
friend class ilist_sentinel<OptionsT>;
friend class ilist_iterator<OptionsT, false, false>;
friend class ilist_iterator<OptionsT, false, true>;
friend class ilist_iterator<OptionsT, true, false>;
friend class ilist_iterator<OptionsT, true, true>;
protected:
using self_iterator = ilist_iterator<OptionsT, false, false>;
using const_self_iterator = ilist_iterator<OptionsT, false, true>;
using reverse_self_iterator = ilist_iterator<OptionsT, true, false>;
using const_reverse_self_iterator = ilist_iterator<OptionsT, true, true>;
ilist_node_impl() = default;
private:
ilist_node_impl *getPrev() {
return static_cast<ilist_node_impl *>(node_base_type::getPrev());
}
ilist_node_impl *getNext() {
return static_cast<ilist_node_impl *>(node_base_type::getNext());
}
const ilist_node_impl *getPrev() const {
return static_cast<ilist_node_impl *>(node_base_type::getPrev());
}
const ilist_node_impl *getNext() const {
return static_cast<ilist_node_impl *>(node_base_type::getNext());
}
void setPrev(ilist_node_impl *N) { node_base_type::setPrev(N); }
void setNext(ilist_node_impl *N) { node_base_type::setNext(N); }
public:
self_iterator getIterator() { return self_iterator(*this); }
const_self_iterator getIterator() const { return const_self_iterator(*this); }
reverse_self_iterator getReverseIterator() {
return reverse_self_iterator(*this);
}
const_reverse_self_iterator getReverseIterator() const {
return const_reverse_self_iterator(*this);
}
// Under-approximation, but always available for assertions.
using node_base_type::isKnownSentinel;
/// Check whether this is the sentinel node.
///
/// This requires sentinel tracking to be explicitly enabled. Use the
/// ilist_sentinel_tracking<true> option to get this API.
bool isSentinel() const {
static_assert(OptionsT::is_sentinel_tracking_explicit,
"Use ilist_sentinel_tracking<true> to enable isSentinel()");
return node_base_type::isSentinel();
}
};
/// An intrusive list node.
///
/// A base class to enable membership in intrusive lists, including \a
/// simple_ilist, \a iplist, and \a ilist. The first template parameter is the
/// \a value_type for the list.
///
/// An ilist node can be configured with compile-time options to change
/// behaviour and/or add API.
///
/// By default, an \a ilist_node knows whether it is the list sentinel (an
/// instance of \a ilist_sentinel) if and only if
/// LLVM_ENABLE_ABI_BREAKING_CHECKS. The function \a isKnownSentinel() always
/// returns \c false tracking is off. Sentinel tracking steals a bit from the
/// "prev" link, which adds a mask operation when decrementing an iterator, but
/// enables bug-finding assertions in \a ilist_iterator.
///
/// To turn sentinel tracking on all the time, pass in the
/// ilist_sentinel_tracking<true> template parameter. This also enables the \a
/// isSentinel() function. The same option must be passed to the intrusive
/// list. (ilist_sentinel_tracking<false> turns sentinel tracking off all the
/// time.)
///
/// A type can inherit from ilist_node multiple times by passing in different
/// \a ilist_tag options. This allows a single instance to be inserted into
/// multiple lists simultaneously, where each list is given the same tag.
///
/// \example
/// struct A {};
/// struct B {};
/// struct N : ilist_node<N, ilist_tag<A>>, ilist_node<N, ilist_tag<B>> {};
///
/// void foo() {
/// simple_ilist<N, ilist_tag<A>> ListA;
/// simple_ilist<N, ilist_tag<B>> ListB;
/// N N1;
/// ListA.push_back(N1);
/// ListB.push_back(N1);
/// }
/// \endexample
///
/// See \a is_valid_option for steps on adding a new option.
template <class T, class... Options>
class ilist_node
: public ilist_node_impl<
typename ilist_detail::compute_node_options<T, Options...>::type> {
static_assert(ilist_detail::check_options<Options...>::value,
"Unrecognized node option!");
};
namespace ilist_detail {
/// An access class for ilist_node private API.
///
/// This gives access to the private parts of ilist nodes. Nodes for an ilist
/// should friend this class if they inherit privately from ilist_node.
///
/// Using this class outside of the ilist implementation is unsupported.
struct NodeAccess {
protected:
template <class OptionsT>
static ilist_node_impl<OptionsT> *getNodePtr(typename OptionsT::pointer N) {
return N;
}
template <class OptionsT>
static const ilist_node_impl<OptionsT> *
getNodePtr(typename OptionsT::const_pointer N) {
return N;
}
template <class OptionsT>
static typename OptionsT::pointer getValuePtr(ilist_node_impl<OptionsT> *N) {
return static_cast<typename OptionsT::pointer>(N);
}
template <class OptionsT>
static typename OptionsT::const_pointer
getValuePtr(const ilist_node_impl<OptionsT> *N) {
return static_cast<typename OptionsT::const_pointer>(N);
}
template <class OptionsT>
static ilist_node_impl<OptionsT> *getPrev(ilist_node_impl<OptionsT> &N) {
return N.getPrev();
}
template <class OptionsT>
static ilist_node_impl<OptionsT> *getNext(ilist_node_impl<OptionsT> &N) {
return N.getNext();
}
template <class OptionsT>
static const ilist_node_impl<OptionsT> *
getPrev(const ilist_node_impl<OptionsT> &N) {
return N.getPrev();
}
template <class OptionsT>
static const ilist_node_impl<OptionsT> *
getNext(const ilist_node_impl<OptionsT> &N) {
return N.getNext();
}
};
template <class OptionsT> struct SpecificNodeAccess : NodeAccess {
protected:
using pointer = typename OptionsT::pointer;
using const_pointer = typename OptionsT::const_pointer;
using node_type = ilist_node_impl<OptionsT>;
static node_type *getNodePtr(pointer N) {
return NodeAccess::getNodePtr<OptionsT>(N);
}
static const node_type *getNodePtr(const_pointer N) {
return NodeAccess::getNodePtr<OptionsT>(N);
}
static pointer getValuePtr(node_type *N) {
return NodeAccess::getValuePtr<OptionsT>(N);
}
static const_pointer getValuePtr(const node_type *N) {
return NodeAccess::getValuePtr<OptionsT>(N);
}
};
} // end namespace ilist_detail
template <class OptionsT>
class ilist_sentinel : public ilist_node_impl<OptionsT> {
public:
ilist_sentinel() {
this->initializeSentinel();
reset();
}
void reset() {
this->setPrev(this);
this->setNext(this);
}
bool empty() const { return this == this->getPrev(); }
};
/// An ilist node that can access its parent list.
///
/// Requires \c NodeTy to have \a getParent() to find the parent node, and the
/// \c ParentTy to have \a getSublistAccess() to get a reference to the list.
template <typename NodeTy, typename ParentTy, class... Options>
class ilist_node_with_parent : public ilist_node<NodeTy, Options...> {
protected:
ilist_node_with_parent() = default;
private:
/// Forward to NodeTy::getParent().
///
/// Note: do not use the name "getParent()". We want a compile error
/// (instead of recursion) when the subclass fails to implement \a
/// getParent().
const ParentTy *getNodeParent() const {
return static_cast<const NodeTy *>(this)->getParent();
}
public:
/// @name Adjacent Node Accessors
/// @{
/// Get the previous node, or \c nullptr for the list head.
NodeTy *getPrevNode() {
// Should be separated to a reused function, but then we couldn't use auto
// (and would need the type of the list).
const auto &List =
getNodeParent()->*(ParentTy::getSublistAccess((NodeTy *)nullptr));
return List.getPrevNode(*static_cast<NodeTy *>(this));
}
/// Get the previous node, or \c nullptr for the list head.
const NodeTy *getPrevNode() const {
return const_cast<ilist_node_with_parent *>(this)->getPrevNode();
}
/// Get the next node, or \c nullptr for the list tail.
NodeTy *getNextNode() {
// Should be separated to a reused function, but then we couldn't use auto
// (and would need the type of the list).
const auto &List =
getNodeParent()->*(ParentTy::getSublistAccess((NodeTy *)nullptr));
return List.getNextNode(*static_cast<NodeTy *>(this));
}
/// Get the next node, or \c nullptr for the list tail.
const NodeTy *getNextNode() const {
return const_cast<ilist_node_with_parent *>(this)->getNextNode();
}
/// @}
};
} // end namespace llvm
#endif // LLVM_ADT_ILIST_NODE_H