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cc78f25565
MSVC appears to be getting confused as to whether OverloadToken is supposed to be public or not. This was discovered by code in Swift, and has been reported to microsoft by hughbe: https://connect.microsoft.com/VisualStudio/feedback/details/3116517 Differential Revision: https://reviews.llvm.org/D29880 llvm-svn: 296497
402 lines
16 KiB
C++
402 lines
16 KiB
C++
//===--- TrailingObjects.h - Variable-length classes ------------*- C++ -*-===//
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//
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// The LLVM Compiler Infrastructure
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//
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// This file is distributed under the University of Illinois Open Source
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// License. See LICENSE.TXT for details.
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//
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//===----------------------------------------------------------------------===//
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///
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/// \file
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/// This header defines support for implementing classes that have
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/// some trailing object (or arrays of objects) appended to them. The
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/// main purpose is to make it obvious where this idiom is being used,
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/// and to make the usage more idiomatic and more difficult to get
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/// wrong.
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///
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/// The TrailingObject template abstracts away the reinterpret_cast,
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/// pointer arithmetic, and size calculations used for the allocation
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/// and access of appended arrays of objects, and takes care that they
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/// are all allocated at their required alignment. Additionally, it
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/// ensures that the base type is final -- deriving from a class that
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/// expects data appended immediately after it is typically not safe.
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///
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/// Users are expected to derive from this template, and provide
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/// numTrailingObjects implementations for each trailing type except
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/// the last, e.g. like this sample:
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///
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/// \code
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/// class VarLengthObj : private TrailingObjects<VarLengthObj, int, double> {
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/// friend TrailingObjects;
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///
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/// unsigned NumInts, NumDoubles;
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/// size_t numTrailingObjects(OverloadToken<int>) const { return NumInts; }
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/// };
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/// \endcode
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///
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/// You can access the appended arrays via 'getTrailingObjects', and
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/// determine the size needed for allocation via
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/// 'additionalSizeToAlloc' and 'totalSizeToAlloc'.
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///
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/// All the methods implemented by this class are are intended for use
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/// by the implementation of the class, not as part of its interface
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/// (thus, private inheritance is suggested).
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///
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//===----------------------------------------------------------------------===//
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#ifndef LLVM_SUPPORT_TRAILINGOBJECTS_H
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#define LLVM_SUPPORT_TRAILINGOBJECTS_H
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#include "llvm/Support/AlignOf.h"
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#include "llvm/Support/Compiler.h"
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#include "llvm/Support/MathExtras.h"
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#include "llvm/Support/type_traits.h"
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#include <new>
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#include <type_traits>
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namespace llvm {
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namespace trailing_objects_internal {
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/// Helper template to calculate the max alignment requirement for a set of
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/// objects.
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template <typename First, typename... Rest> class AlignmentCalcHelper {
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private:
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enum {
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FirstAlignment = alignof(First),
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RestAlignment = AlignmentCalcHelper<Rest...>::Alignment,
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};
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public:
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enum {
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Alignment = FirstAlignment > RestAlignment ? FirstAlignment : RestAlignment
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};
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};
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template <typename First> class AlignmentCalcHelper<First> {
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public:
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enum { Alignment = alignof(First) };
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};
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/// The base class for TrailingObjects* classes.
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class TrailingObjectsBase {
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protected:
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/// OverloadToken's purpose is to allow specifying function overloads
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/// for different types, without actually taking the types as
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/// parameters. (Necessary because member function templates cannot
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/// be specialized, so overloads must be used instead of
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/// specialization.)
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template <typename T> struct OverloadToken {};
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};
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/// This helper template works-around MSVC 2013's lack of useful
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/// alignas() support. The argument to LLVM_ALIGNAS(), in MSVC, is
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/// required to be a literal integer. But, you *can* use template
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/// specialization to select between a bunch of different LLVM_ALIGNAS
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/// expressions...
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template <int Align>
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class TrailingObjectsAligner : public TrailingObjectsBase {};
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template <>
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class LLVM_ALIGNAS(1) TrailingObjectsAligner<1> : public TrailingObjectsBase {};
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template <>
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class LLVM_ALIGNAS(2) TrailingObjectsAligner<2> : public TrailingObjectsBase {};
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template <>
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class LLVM_ALIGNAS(4) TrailingObjectsAligner<4> : public TrailingObjectsBase {};
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template <>
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class LLVM_ALIGNAS(8) TrailingObjectsAligner<8> : public TrailingObjectsBase {};
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template <>
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class LLVM_ALIGNAS(16) TrailingObjectsAligner<16> : public TrailingObjectsBase {
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};
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template <>
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class LLVM_ALIGNAS(32) TrailingObjectsAligner<32> : public TrailingObjectsBase {
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};
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// Just a little helper for transforming a type pack into the same
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// number of a different type. e.g.:
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// ExtractSecondType<Foo..., int>::type
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template <typename Ty1, typename Ty2> struct ExtractSecondType {
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typedef Ty2 type;
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};
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// TrailingObjectsImpl is somewhat complicated, because it is a
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// recursively inheriting template, in order to handle the template
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// varargs. Each level of inheritance picks off a single trailing type
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// then recurses on the rest. The "Align", "BaseTy", and
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// "TopTrailingObj" arguments are passed through unchanged through the
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// recursion. "PrevTy" is, at each level, the type handled by the
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// level right above it.
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template <int Align, typename BaseTy, typename TopTrailingObj, typename PrevTy,
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typename... MoreTys>
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class TrailingObjectsImpl {
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// The main template definition is never used -- the two
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// specializations cover all possibilities.
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};
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template <int Align, typename BaseTy, typename TopTrailingObj, typename PrevTy,
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typename NextTy, typename... MoreTys>
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class TrailingObjectsImpl<Align, BaseTy, TopTrailingObj, PrevTy, NextTy,
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MoreTys...>
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: public TrailingObjectsImpl<Align, BaseTy, TopTrailingObj, NextTy,
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MoreTys...> {
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typedef TrailingObjectsImpl<Align, BaseTy, TopTrailingObj, NextTy, MoreTys...>
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ParentType;
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struct RequiresRealignment {
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static const bool value = alignof(PrevTy) < alignof(NextTy);
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};
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static constexpr bool requiresRealignment() {
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return RequiresRealignment::value;
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}
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protected:
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// Ensure the inherited getTrailingObjectsImpl is not hidden.
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using ParentType::getTrailingObjectsImpl;
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// These two functions are helper functions for
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// TrailingObjects::getTrailingObjects. They recurse to the left --
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// the result for each type in the list of trailing types depends on
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// the result of calling the function on the type to the
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// left. However, the function for the type to the left is
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// implemented by a *subclass* of this class, so we invoke it via
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// the TopTrailingObj, which is, via the
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// curiously-recurring-template-pattern, the most-derived type in
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// this recursion, and thus, contains all the overloads.
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static const NextTy *
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getTrailingObjectsImpl(const BaseTy *Obj,
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TrailingObjectsBase::OverloadToken<NextTy>) {
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auto *Ptr = TopTrailingObj::getTrailingObjectsImpl(
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Obj, TrailingObjectsBase::OverloadToken<PrevTy>()) +
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TopTrailingObj::callNumTrailingObjects(
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Obj, TrailingObjectsBase::OverloadToken<PrevTy>());
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if (requiresRealignment())
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return reinterpret_cast<const NextTy *>(
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llvm::alignAddr(Ptr, alignof(NextTy)));
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else
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return reinterpret_cast<const NextTy *>(Ptr);
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}
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static NextTy *
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getTrailingObjectsImpl(BaseTy *Obj,
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TrailingObjectsBase::OverloadToken<NextTy>) {
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auto *Ptr = TopTrailingObj::getTrailingObjectsImpl(
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Obj, TrailingObjectsBase::OverloadToken<PrevTy>()) +
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TopTrailingObj::callNumTrailingObjects(
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Obj, TrailingObjectsBase::OverloadToken<PrevTy>());
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if (requiresRealignment())
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return reinterpret_cast<NextTy *>(llvm::alignAddr(Ptr, alignof(NextTy)));
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else
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return reinterpret_cast<NextTy *>(Ptr);
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}
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// Helper function for TrailingObjects::additionalSizeToAlloc: this
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// function recurses to superclasses, each of which requires one
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// fewer size_t argument, and adds its own size.
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static constexpr size_t additionalSizeToAllocImpl(
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size_t SizeSoFar, size_t Count1,
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typename ExtractSecondType<MoreTys, size_t>::type... MoreCounts) {
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return ParentType::additionalSizeToAllocImpl(
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(requiresRealignment() ? llvm::alignTo<alignof(NextTy)>(SizeSoFar)
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: SizeSoFar) +
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sizeof(NextTy) * Count1,
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MoreCounts...);
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}
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};
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// The base case of the TrailingObjectsImpl inheritance recursion,
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// when there's no more trailing types.
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template <int Align, typename BaseTy, typename TopTrailingObj, typename PrevTy>
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class TrailingObjectsImpl<Align, BaseTy, TopTrailingObj, PrevTy>
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: public TrailingObjectsAligner<Align> {
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protected:
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// This is a dummy method, only here so the "using" doesn't fail --
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// it will never be called, because this function recurses backwards
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// up the inheritance chain to subclasses.
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static void getTrailingObjectsImpl();
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static constexpr size_t additionalSizeToAllocImpl(size_t SizeSoFar) {
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return SizeSoFar;
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}
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template <bool CheckAlignment> static void verifyTrailingObjectsAlignment() {}
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};
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} // end namespace trailing_objects_internal
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// Finally, the main type defined in this file, the one intended for users...
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/// See the file comment for details on the usage of the
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/// TrailingObjects type.
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template <typename BaseTy, typename... TrailingTys>
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class TrailingObjects : private trailing_objects_internal::TrailingObjectsImpl<
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trailing_objects_internal::AlignmentCalcHelper<
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TrailingTys...>::Alignment,
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BaseTy, TrailingObjects<BaseTy, TrailingTys...>,
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BaseTy, TrailingTys...> {
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template <int A, typename B, typename T, typename P, typename... M>
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friend class trailing_objects_internal::TrailingObjectsImpl;
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template <typename... Tys> class Foo {};
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typedef trailing_objects_internal::TrailingObjectsImpl<
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trailing_objects_internal::AlignmentCalcHelper<TrailingTys...>::Alignment,
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BaseTy, TrailingObjects<BaseTy, TrailingTys...>, BaseTy, TrailingTys...>
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ParentType;
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using TrailingObjectsBase = trailing_objects_internal::TrailingObjectsBase;
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using ParentType::getTrailingObjectsImpl;
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// This function contains only a static_assert BaseTy is final. The
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// static_assert must be in a function, and not at class-level
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// because BaseTy isn't complete at class instantiation time, but
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// will be by the time this function is instantiated.
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static void verifyTrailingObjectsAssertions() {
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#ifdef LLVM_IS_FINAL
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static_assert(LLVM_IS_FINAL(BaseTy), "BaseTy must be final.");
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#endif
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}
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// These two methods are the base of the recursion for this method.
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static const BaseTy *
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getTrailingObjectsImpl(const BaseTy *Obj,
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TrailingObjectsBase::OverloadToken<BaseTy>) {
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return Obj;
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}
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static BaseTy *
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getTrailingObjectsImpl(BaseTy *Obj,
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TrailingObjectsBase::OverloadToken<BaseTy>) {
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return Obj;
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}
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// callNumTrailingObjects simply calls numTrailingObjects on the
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// provided Obj -- except when the type being queried is BaseTy
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// itself. There is always only one of the base object, so that case
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// is handled here. (An additional benefit of indirecting through
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// this function is that consumers only say "friend
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// TrailingObjects", and thus, only this class itself can call the
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// numTrailingObjects function.)
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static size_t
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callNumTrailingObjects(const BaseTy *Obj,
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TrailingObjectsBase::OverloadToken<BaseTy>) {
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return 1;
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}
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template <typename T>
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static size_t callNumTrailingObjects(const BaseTy *Obj,
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TrailingObjectsBase::OverloadToken<T>) {
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return Obj->numTrailingObjects(TrailingObjectsBase::OverloadToken<T>());
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}
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public:
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// Make this (privately inherited) member public.
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#ifndef _MSC_VER
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using ParentType::OverloadToken;
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#else
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// MSVC bug prevents the above from working, at least up through CL
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// 19.10.24629.
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template <typename T>
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using OverloadToken = typename ParentType::template OverloadToken<T>;
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#endif
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/// Returns a pointer to the trailing object array of the given type
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/// (which must be one of those specified in the class template). The
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/// array may have zero or more elements in it.
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template <typename T> const T *getTrailingObjects() const {
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verifyTrailingObjectsAssertions();
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// Forwards to an impl function with overloads, since member
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// function templates can't be specialized.
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return this->getTrailingObjectsImpl(
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static_cast<const BaseTy *>(this),
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TrailingObjectsBase::OverloadToken<T>());
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}
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/// Returns a pointer to the trailing object array of the given type
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/// (which must be one of those specified in the class template). The
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/// array may have zero or more elements in it.
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template <typename T> T *getTrailingObjects() {
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verifyTrailingObjectsAssertions();
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// Forwards to an impl function with overloads, since member
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// function templates can't be specialized.
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return this->getTrailingObjectsImpl(
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static_cast<BaseTy *>(this), TrailingObjectsBase::OverloadToken<T>());
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}
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/// Returns the size of the trailing data, if an object were
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/// allocated with the given counts (The counts are in the same order
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/// as the template arguments). This does not include the size of the
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/// base object. The template arguments must be the same as those
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/// used in the class; they are supplied here redundantly only so
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/// that it's clear what the counts are counting in callers.
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template <typename... Tys>
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static constexpr typename std::enable_if<
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std::is_same<Foo<TrailingTys...>, Foo<Tys...>>::value, size_t>::type
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additionalSizeToAlloc(typename trailing_objects_internal::ExtractSecondType<
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TrailingTys, size_t>::type... Counts) {
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return ParentType::additionalSizeToAllocImpl(0, Counts...);
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}
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/// Returns the total size of an object if it were allocated with the
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/// given trailing object counts. This is the same as
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/// additionalSizeToAlloc, except it *does* include the size of the base
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/// object.
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template <typename... Tys>
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static constexpr typename std::enable_if<
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std::is_same<Foo<TrailingTys...>, Foo<Tys...>>::value, size_t>::type
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totalSizeToAlloc(typename trailing_objects_internal::ExtractSecondType<
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TrailingTys, size_t>::type... Counts) {
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return sizeof(BaseTy) + ParentType::additionalSizeToAllocImpl(0, Counts...);
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}
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/// A type where its ::with_counts template member has a ::type member
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/// suitable for use as uninitialized storage for an object with the given
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/// trailing object counts. The template arguments are similar to those
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/// of additionalSizeToAlloc.
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///
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/// Use with FixedSizeStorageOwner, e.g.:
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///
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/// \code{.cpp}
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///
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/// MyObj::FixedSizeStorage<void *>::with_counts<1u>::type myStackObjStorage;
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/// MyObj::FixedSizeStorageOwner
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/// myStackObjOwner(new ((void *)&myStackObjStorage) MyObj);
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/// MyObj *const myStackObjPtr = myStackObjOwner.get();
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///
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/// \endcode
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template <typename... Tys> struct FixedSizeStorage {
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template <size_t... Counts> struct with_counts {
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enum { Size = totalSizeToAlloc<Tys...>(Counts...) };
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typedef llvm::AlignedCharArray<alignof(BaseTy), Size> type;
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};
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};
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/// A type that acts as the owner for an object placed into fixed storage.
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class FixedSizeStorageOwner {
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public:
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FixedSizeStorageOwner(BaseTy *p) : p(p) {}
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~FixedSizeStorageOwner() {
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assert(p && "FixedSizeStorageOwner owns null?");
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p->~BaseTy();
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}
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BaseTy *get() { return p; }
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const BaseTy *get() const { return p; }
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private:
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FixedSizeStorageOwner(const FixedSizeStorageOwner &) = delete;
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FixedSizeStorageOwner(FixedSizeStorageOwner &&) = delete;
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FixedSizeStorageOwner &operator=(const FixedSizeStorageOwner &) = delete;
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FixedSizeStorageOwner &operator=(FixedSizeStorageOwner &&) = delete;
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BaseTy *const p;
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};
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};
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} // end namespace llvm
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#endif
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