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llvm-6502/include/llvm/Support/AlignOf.h
Chandler Carruth be06428ba3 Try to appease MSVC even more elaborately in the alignment hacking space. 
MSVC doesn't support passing by-value parameters with alignment of
16-bytes or higher apparantly. What is deeply confusing is that it seems
to *sometimes* (but not always) apply this to any type whose alignment
is set using __declspec(align(...)). This caused lots of errors when we switch
SmallVector over to use the automatically aligned character array
utilities as they used __declspec(align(...)) heavily.

As a pretty horrible but effective work-around, we instead cherry pick
the smallest alignment sizes with specific types that happen to have the
correct alignment, and then fall back to the attribute solution past
them. This should resolve the MSVC build errors folks have been hitting.
Sorry for that. In good news, it will do this without introducing other
UB I hope. =]

Thanks to Timur Iskhodzhanov for helping me test this!

git-svn-id: https://llvm.org/svn/llvm-project/llvm/trunk@162549 91177308-0d34-0410-b5e6-96231b3b80d8
2012-08-24 09:53:43 +00:00

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//===--- AlignOf.h - Portable calculation of type alignment -----*- C++ -*-===//
//
// The LLVM Compiler Infrastructure
//
// This file is distributed under the University of Illinois Open Source
// License. See LICENSE.TXT for details.
//
//===----------------------------------------------------------------------===//
//
// This file defines the AlignOf function that computes alignments for
// arbitrary types.
//
//===----------------------------------------------------------------------===//
#ifndef LLVM_SUPPORT_ALIGNOF_H
#define LLVM_SUPPORT_ALIGNOF_H
#include "llvm/Support/Compiler.h"
#include <cstddef>
namespace llvm {
template <typename T>
struct AlignmentCalcImpl {
char x;
T t;
private:
AlignmentCalcImpl() {} // Never instantiate.
};
/// AlignOf - A templated class that contains an enum value representing
/// the alignment of the template argument. For example,
/// AlignOf<int>::Alignment represents the alignment of type "int". The
/// alignment calculated is the minimum alignment, and not necessarily
/// the "desired" alignment returned by GCC's __alignof__ (for example). Note
/// that because the alignment is an enum value, it can be used as a
/// compile-time constant (e.g., for template instantiation).
template <typename T>
struct AlignOf {
enum { Alignment =
static_cast<unsigned int>(sizeof(AlignmentCalcImpl<T>) - sizeof(T)) };
enum { Alignment_GreaterEqual_2Bytes = Alignment >= 2 ? 1 : 0 };
enum { Alignment_GreaterEqual_4Bytes = Alignment >= 4 ? 1 : 0 };
enum { Alignment_GreaterEqual_8Bytes = Alignment >= 8 ? 1 : 0 };
enum { Alignment_GreaterEqual_16Bytes = Alignment >= 16 ? 1 : 0 };
enum { Alignment_LessEqual_2Bytes = Alignment <= 2 ? 1 : 0 };
enum { Alignment_LessEqual_4Bytes = Alignment <= 4 ? 1 : 0 };
enum { Alignment_LessEqual_8Bytes = Alignment <= 8 ? 1 : 0 };
enum { Alignment_LessEqual_16Bytes = Alignment <= 16 ? 1 : 0 };
};
/// alignOf - A templated function that returns the minimum alignment of
/// of a type. This provides no extra functionality beyond the AlignOf
/// class besides some cosmetic cleanliness. Example usage:
/// alignOf<int>() returns the alignment of an int.
template <typename T>
inline unsigned alignOf() { return AlignOf<T>::Alignment; }
/// \brief Helper for building an aligned character array type.
///
/// This template is used to explicitly build up a collection of aligned
/// character types. We have to build these up using a macro and explicit
/// specialization to cope with old versions of MSVC and GCC where only an
/// integer literal can be used to specify an alignment constraint. Once built
/// up here, we can then begin to indirect between these using normal C++
/// template parameters.
template <size_t Alignment> struct AlignedCharArrayImpl {};
template <> struct AlignedCharArrayImpl<0> {
typedef char type;
};
// MSVC requires special handling here.
#ifndef _MSC_VER
#if __has_feature(cxx_alignas)
#define LLVM_ALIGNEDCHARARRAY_TEMPLATE_ALIGNMENT(x) \
template <> struct AlignedCharArrayImpl<x> { \
typedef char alignas(x) type; \
}
#elif defined(__clang__) || defined(__GNUC__)
#define LLVM_ALIGNEDCHARARRAY_TEMPLATE_ALIGNMENT(x) \
template <> struct AlignedCharArrayImpl<x> { \
typedef char type __attribute__((aligned(x))); \
}
#else
# error No supported align as directive.
#endif
LLVM_ALIGNEDCHARARRAY_TEMPLATE_ALIGNMENT(1);
LLVM_ALIGNEDCHARARRAY_TEMPLATE_ALIGNMENT(2);
LLVM_ALIGNEDCHARARRAY_TEMPLATE_ALIGNMENT(4);
LLVM_ALIGNEDCHARARRAY_TEMPLATE_ALIGNMENT(8);
LLVM_ALIGNEDCHARARRAY_TEMPLATE_ALIGNMENT(16);
LLVM_ALIGNEDCHARARRAY_TEMPLATE_ALIGNMENT(32);
LLVM_ALIGNEDCHARARRAY_TEMPLATE_ALIGNMENT(64);
LLVM_ALIGNEDCHARARRAY_TEMPLATE_ALIGNMENT(128);
LLVM_ALIGNEDCHARARRAY_TEMPLATE_ALIGNMENT(512);
LLVM_ALIGNEDCHARARRAY_TEMPLATE_ALIGNMENT(1024);
LLVM_ALIGNEDCHARARRAY_TEMPLATE_ALIGNMENT(2048);
LLVM_ALIGNEDCHARARRAY_TEMPLATE_ALIGNMENT(4096);
LLVM_ALIGNEDCHARARRAY_TEMPLATE_ALIGNMENT(8192);
#undef LLVM_ALIGNEDCHARARRAY_TEMPLATE_ALIGNMENT
#else // _MSC_VER
// We provide special variations of this template for the most common
// alignments because __declspec(align(...)) doesn't actually work when it is
// a member of a by-value function argument in MSVC, even if the alignment
// request is something reasonably like 8-byte or 16-byte.
template <> struct AlignedCharArrayImpl<1> { typedef char type; };
template <> struct AlignedCharArrayImpl<2> { typedef short type; };
template <> struct AlignedCharArrayImpl<4> { typedef int type; };
template <> struct AlignedCharArrayImpl<8> { typedef double type; };
#define LLVM_ALIGNEDCHARARRAY_TEMPLATE_ALIGNMENT(x) \
template <> struct AlignedCharArrayImpl<x> { \
typedef __declspec(align(x)) char type; \
}
LLVM_ALIGNEDCHARARRAY_TEMPLATE_ALIGNMENT(16);
LLVM_ALIGNEDCHARARRAY_TEMPLATE_ALIGNMENT(32);
LLVM_ALIGNEDCHARARRAY_TEMPLATE_ALIGNMENT(64);
LLVM_ALIGNEDCHARARRAY_TEMPLATE_ALIGNMENT(128);
LLVM_ALIGNEDCHARARRAY_TEMPLATE_ALIGNMENT(512);
LLVM_ALIGNEDCHARARRAY_TEMPLATE_ALIGNMENT(1024);
LLVM_ALIGNEDCHARARRAY_TEMPLATE_ALIGNMENT(2048);
LLVM_ALIGNEDCHARARRAY_TEMPLATE_ALIGNMENT(4096);
LLVM_ALIGNEDCHARARRAY_TEMPLATE_ALIGNMENT(8192);
// Any larger and MSVC complains.
#undef LLVM_ALIGNEDCHARARRAY_TEMPLATE_ALIGNMENT
#endif // _MSC_VER
/// \brief This union template exposes a suitably aligned and sized character
/// array member which can hold elements of any of up to four types.
///
/// These types may be arrays, structs, or any other types. The goal is to
/// produce a union type containing a character array which, when used, forms
/// storage suitable to placement new any of these types over. Support for more
/// than four types can be added at the cost of more boiler plate.
template <typename T1,
typename T2 = char, typename T3 = char, typename T4 = char>
union AlignedCharArrayUnion {
private:
class AlignerImpl {
T1 t1; T2 t2; T3 t3; T4 t4;
AlignerImpl(); // Never defined or instantiated.
};
union SizerImpl {
char arr1[sizeof(T1)], arr2[sizeof(T2)], arr3[sizeof(T3)], arr4[sizeof(T4)];
};
public:
/// \brief The character array buffer for use by clients.
///
/// No other member of this union should be referenced. The exist purely to
/// constrain the layout of this character array.
char buffer[sizeof(SizerImpl)];
// Sadly, Clang and GCC both fail to align a character array properly even
// with an explicit alignment attribute. To work around this, we union
// the character array that will actually be used with a struct that contains
// a single aligned character member. Tests seem to indicate that both Clang
// and GCC will properly register the alignment of a struct containing an
// aligned member, and this alignment should carry over to the character
// array in the union.
struct {
typename llvm::AlignedCharArrayImpl<AlignOf<AlignerImpl>::Alignment>::type
nonce_inner_member;
} nonce_member;
};
} // end namespace llvm
#endif
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