llvm/include/llvm/Bitcode/BitcodeConvenience.h - llvm-project - Git at Google

 //===- llvm/Bitcode/BitcodeConvenience.h - Convenience Wrappers -*- 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
 //
 //===----------------------------------------------------------------------===//
 ///
 /// \file Convenience wrappers for the LLVM bitcode format and bitstream APIs.
 ///
 /// This allows you to use a sort of DSL to declare and use bitcode
 /// abbreviations and records. Example:
 ///
 /// \code
 ///     using Metadata = BCRecordLayout<
 ///       METADATA_ID,  // ID
 ///       BCFixed<16>,  // Module format major version
 ///       BCFixed<16>,  // Module format minor version
 ///       BCBlob        // misc. version information
 ///     >;
 ///     Metadata metadata(Out);
 ///     metadata.emit(ScratchRecord, VERSION_MAJOR, VERSION_MINOR, Data);
 /// \endcode
 ///
 /// For details on the bitcode format, see
 ///   http://llvm.org/docs/BitCodeFormat.html
 ///
 //===----------------------------------------------------------------------===//

 #ifndef LLVM_BITCODE_BITCODECONVENIENCE_H
 #define LLVM_BITCODE_BITCODECONVENIENCE_H

 #include "llvm/Bitstream/BitCodes.h"
 #include "llvm/Bitstream/BitstreamWriter.h"
 #include <cstdint>

 namespace llvm {
 namespace detail {
 /// Convenience base for all kinds of bitcode abbreviation fields.
 ///
 /// This just defines common properties queried by the metaprogramming.
 template <bool Compound = false> class BCField {
 public:
   static const bool IsCompound = Compound;

   /// Asserts that the given data is a valid value for this field.
   template <typename T> static void assertValid(const T &data) {}

   /// Converts a raw numeric representation of this value to its preferred
   /// type.
   template <typename T> static T convert(T rawValue) { return rawValue; }
 };
 } // namespace detail

 /// Represents a literal operand in a bitcode record.
 ///
 /// The value of a literal operand is the same for all instances of the record,
 /// so it is only emitted in the abbreviation definition.
 ///
 /// Note that because this uses a compile-time template, you cannot have a
 /// literal operand that is fixed at run-time without dropping down to the
 /// raw LLVM APIs.
 template <uint64_t Value> class BCLiteral : public detail::BCField<> {
 public:
   static void emitOp(llvm::BitCodeAbbrev &abbrev) {
     abbrev.Add(llvm::BitCodeAbbrevOp(Value));
   }

   template <typename T> static void assertValid(const T &data) {
     assert(data == Value && "data value does not match declared literal value");
   }
 };

 /// Represents a fixed-width value in a bitcode record.
 ///
 /// Note that the LLVM bitcode format only supports unsigned values.
 template <unsigned Width> class BCFixed : public detail::BCField<> {
 public:
   static_assert(Width <= 64, "fixed-width field is too large");

   static void emitOp(llvm::BitCodeAbbrev &abbrev) {
     abbrev.Add(llvm::BitCodeAbbrevOp(llvm::BitCodeAbbrevOp::Fixed, Width));
   }

   static void assertValid(const bool &data) {
     assert(llvm::isUInt<Width>(data) &&
            "data value does not fit in the given bit width");
   }

   template <typename T> static void assertValid(const T &data) {
     assert(data >= 0 && "cannot encode signed integers");
     assert(llvm::isUInt<Width>(data) &&
            "data value does not fit in the given bit width");
   }
 };

 /// Represents a variable-width value in a bitcode record.
 ///
 /// The \p Width parameter should include the continuation bit.
 ///
 /// Note that the LLVM bitcode format only supports unsigned values.
 template <unsigned Width> class BCVBR : public detail::BCField<> {
   static_assert(Width >= 2, "width does not have room for continuation bit");

 public:
   static void emitOp(llvm::BitCodeAbbrev &abbrev) {
     abbrev.Add(llvm::BitCodeAbbrevOp(llvm::BitCodeAbbrevOp::VBR, Width));
   }

   template <typename T> static void assertValid(const T &data) {
     assert(data >= 0 && "cannot encode signed integers");
   }
 };

 /// Represents a character encoded in LLVM's Char6 encoding.
 ///
 /// This format is suitable for encoding decimal numbers (without signs or
 /// exponents) and C identifiers (without dollar signs), but not much else.
 ///
 /// \sa http://llvm.org/docs/BitCodeFormat.html#char6-encoded-value
 class BCChar6 : public detail::BCField<> {
 public:
   static void emitOp(llvm::BitCodeAbbrev &abbrev) {
     abbrev.Add(llvm::BitCodeAbbrevOp(llvm::BitCodeAbbrevOp::Char6));
   }

   template <typename T> static void assertValid(const T &data) {
     assert(llvm::BitCodeAbbrevOp::isChar6(data) && "invalid Char6 data");
   }

   template <typename T> char convert(T rawValue) {
     return static_cast<char>(rawValue);
   }
 };

 /// Represents an untyped blob of bytes.
 ///
 /// If present, this must be the last field in a record.
 class BCBlob : public detail::BCField<true> {
 public:
   static void emitOp(llvm::BitCodeAbbrev &abbrev) {
     abbrev.Add(llvm::BitCodeAbbrevOp(llvm::BitCodeAbbrevOp::Blob));
   }
 };

 /// Represents an array of some other type.
 ///
 /// If present, this must be the last field in a record.
 template <typename ElementTy> class BCArray : public detail::BCField<true> {
   static_assert(!ElementTy::IsCompound, "arrays can only contain scalar types");

 public:
   static void emitOp(llvm::BitCodeAbbrev &abbrev) {
     abbrev.Add(llvm::BitCodeAbbrevOp(llvm::BitCodeAbbrevOp::Array));
     ElementTy::emitOp(abbrev);
   }
 };

 namespace detail {
 /// Attaches the last field to an abbreviation.
 ///
 /// This is the base case for \c emitOps.
 ///
 /// \sa BCRecordLayout::emitAbbrev
 template <typename FieldTy> static void emitOps(llvm::BitCodeAbbrev &abbrev) {
   FieldTy::emitOp(abbrev);
 }

 /// Attaches fields to an abbreviation.
 ///
 /// This is the recursive case for \c emitOps.
 ///
 /// \sa BCRecordLayout::emitAbbrev
 template <typename FieldTy, typename Next, typename... Rest>
 static void emitOps(llvm::BitCodeAbbrev &abbrev) {
   static_assert(!FieldTy::IsCompound,
                 "arrays and blobs may not appear in the middle of a record");
   FieldTy::emitOp(abbrev);
   emitOps<Next, Rest...>(abbrev);
 }

 /// Helper class for dealing with a scalar element in the middle of a record.
 ///
 /// \sa BCRecordLayout
 template <typename ElementTy, typename... Fields> class BCRecordCoding {
 public:
   template <typename BufferTy, typename ElementDataTy, typename... DataTy>
   static void emit(llvm::BitstreamWriter &Stream, BufferTy &buffer,
                    unsigned code, ElementDataTy element, DataTy &&...data) {
     static_assert(!ElementTy::IsCompound,
                   "arrays and blobs may not appear in the middle of a record");
     ElementTy::assertValid(element);
     buffer.push_back(element);
     BCRecordCoding<Fields...>::emit(Stream, buffer, code,
                                     std::forward<DataTy>(data)...);
   }

   template <typename T, typename ElementDataTy, typename... DataTy>
   static void read(ArrayRef<T> buffer, ElementDataTy &element,
                    DataTy &&...data) {
     assert(!buffer.empty() && "too few elements in buffer");
     element = ElementTy::convert(buffer.front());
     BCRecordCoding<Fields...>::read(buffer.slice(1),
                                     std::forward<DataTy>(data)...);
   }

   template <typename T, typename... DataTy>
   static void read(ArrayRef<T> buffer, NoneType, DataTy &&...data) {
     assert(!buffer.empty() && "too few elements in buffer");
     BCRecordCoding<Fields...>::read(buffer.slice(1),
                                     std::forward<DataTy>(data)...);
   }
 };

 /// Helper class for dealing with a scalar element at the end of a record.
 ///
 /// This has a separate implementation because up until now we've only been
 /// \em building the record (into a data buffer), and now we need to hand it
 /// off to the BitstreamWriter to be emitted.
 ///
 /// \sa BCRecordLayout
 template <typename ElementTy> class BCRecordCoding<ElementTy> {
 public:
   template <typename BufferTy, typename DataTy>
   static void emit(llvm::BitstreamWriter &Stream, BufferTy &buffer,
                    unsigned code, const DataTy &data) {
     static_assert(!ElementTy::IsCompound,
                   "arrays and blobs need special handling");
     ElementTy::assertValid(data);
     buffer.push_back(data);
     Stream.EmitRecordWithAbbrev(code, buffer);
   }

   template <typename T, typename DataTy>
   static void read(ArrayRef<T> buffer, DataTy &data) {
     assert(buffer.size() == 1 && "record data does not match layout");
     data = ElementTy::convert(buffer.front());
   }

   template <typename T> static void read(ArrayRef<T> buffer, NoneType) {
     assert(buffer.size() == 1 && "record data does not match layout");
     (void)buffer;
   }

   template <typename T> static void read(ArrayRef<T> buffer) = delete;
 };

 /// Helper class for dealing with an array at the end of a record.
 ///
 /// \sa BCRecordLayout::emitRecord
 template <typename ElementTy> class BCRecordCoding<BCArray<ElementTy>> {
 public:
   template <typename BufferTy>
   static void emit(llvm::BitstreamWriter &Stream, BufferTy &buffer,
                    unsigned code, StringRef data) {
     // TODO: validate array data.
     Stream.EmitRecordWithArray(code, buffer, data);
   }

   template <typename BufferTy, typename ArrayTy>
   static void emit(llvm::BitstreamWriter &Stream, BufferTy &buffer,
                    unsigned code, const ArrayTy &array) {
 #ifndef NDEBUG
     for (auto &element : array)
       ElementTy::assertValid(element);
 #endif
     buffer.reserve(buffer.size() + std::distance(array.begin(), array.end()));
     std::copy(array.begin(), array.end(), std::back_inserter(buffer));
     Stream.EmitRecordWithAbbrev(code, buffer);
   }

   template <typename BufferTy, typename ElementDataTy, typename... DataTy>
   static void emit(llvm::BitstreamWriter &Stream, BufferTy &buffer,
                    unsigned code, ElementDataTy element, DataTy... data) {
     std::array<ElementDataTy, 1 + sizeof...(data)> array{{element, data...}};
     emit(Stream, buffer, code, array);
   }

   template <typename BufferTy>
   static void emit(llvm::BitstreamWriter &Stream, BufferTy &Buffer,
                    unsigned code, NoneType) {
     Stream.EmitRecordWithAbbrev(code, Buffer);
   }

   template <typename T>
   static void read(ArrayRef<T> Buffer, ArrayRef<T> &rawData) {
     rawData = Buffer;
   }

   template <typename T, typename ArrayTy>
   static void read(ArrayRef<T> buffer, ArrayTy &array) {
     array.append(llvm::map_iterator(buffer.begin(), T::convert),
                  llvm::map_iterator(buffer.end(), T::convert));
   }

   template <typename T> static void read(ArrayRef<T> buffer, NoneType) {
     (void)buffer;
   }

   template <typename T> static void read(ArrayRef<T> buffer) = delete;
 };

 /// Helper class for dealing with a blob at the end of a record.
 ///
 /// \sa BCRecordLayout
 template <> class BCRecordCoding<BCBlob> {
 public:
   template <typename BufferTy>
   static void emit(llvm::BitstreamWriter &Stream, BufferTy &buffer,
                    unsigned code, StringRef data) {
     Stream.EmitRecordWithBlob(code, buffer, data);
   }

   template <typename T> static void read(ArrayRef<T> buffer) { (void)buffer; }

   /// Blob data is not stored in the buffer if you are using the correct
   /// accessor; this method should not be used.
   template <typename T, typename DataTy>
   static void read(ArrayRef<T> buffer, DataTy &data) = delete;
 };

 /// A type trait whose \c type field is the last of its template parameters.
 template <typename Head, typename... Tail> struct last_type {
   using type = typename last_type<Tail...>::type;
 };

 template <typename Head> struct last_type<Head> { using type = Head; };

 /// A type trait whose \c value field is \c true if the last type is BCBlob.
 template <typename... Types>
 using has_blob = std::is_same<BCBlob, typename last_type<int, Types...>::type>;

 /// A type trait whose \c value field is \c true if the given type is a
 /// BCArray (of any element kind).
 template <typename T> struct is_array {
 private:
   template <typename E> static bool check(BCArray<E> *);
   static int check(...);

 public:
   typedef bool value_type;
   static constexpr bool value = !std::is_same<decltype(check((T *)nullptr)),
                                               decltype(check(false))>::value;
 };

 /// A type trait whose \c value field is \c true if the last type is a
 /// BCArray (of any element kind).
 template <typename... Types>
 using has_array = is_array<typename last_type<int, Types...>::type>;
 } // namespace detail

 /// Represents a single bitcode record type.
 ///
 /// This class template is meant to be instantiated and then given a name,
 /// so that from then on that name can be used.
 template <typename IDField, typename... Fields> class BCGenericRecordLayout {
   llvm::BitstreamWriter &Stream;

 public:
   /// The abbreviation code used for this record in the current block.
   ///
   /// Note that this is not the same as the semantic record code, which is the
   /// first field of the record.
   const unsigned AbbrevCode;

   /// Create a layout and register it with the given bitstream writer.
   explicit BCGenericRecordLayout(llvm::BitstreamWriter &Stream)
       : Stream(Stream), AbbrevCode(emitAbbrev(Stream)) {}

   /// Emit a record to the bitstream writer, using the given buffer for scratch
   /// space.
   ///
   /// Note that even fixed arguments must be specified here.
   template <typename BufferTy, typename... Data>
   void emit(BufferTy &buffer, unsigned id, Data &&...data) const {
     emitRecord(Stream, buffer, AbbrevCode, id, std::forward<Data>(data)...);
   }

   /// Registers this record's layout with the bitstream reader.
   ///
   /// eturns The abbreviation code for the newly-registered record type.
   static unsigned emitAbbrev(llvm::BitstreamWriter &Stream) {
     auto Abbrev = std::make_shared<llvm::BitCodeAbbrev>();
     detail::emitOps<IDField, Fields...>(*Abbrev);
     return Stream.EmitAbbrev(std::move(Abbrev));
   }

   /// Emit a record identified by \p abbrCode to bitstream reader \p Stream,
   /// using \p buffer for scratch space.
   ///
   /// Note that even fixed arguments must be specified here. Blobs are passed
   /// as StringRefs, while arrays can be passed inline, as aggregates, or as
   /// pre-encoded StringRef data. Skipped values and empty arrays should use
   /// the special Nothing value.
   template <typename BufferTy, typename... Data>
   static void emitRecord(llvm::BitstreamWriter &Stream, BufferTy &buffer,
                          unsigned abbrCode, unsigned recordID, Data &&...data) {
     static_assert(sizeof...(data) <= sizeof...(Fields) ||
                       detail::has_array<Fields...>::value,
                   "Too many record elements");
     static_assert(sizeof...(data) >= sizeof...(Fields),
                   "Too few record elements");
     buffer.clear();
     detail::BCRecordCoding<IDField, Fields...>::emit(
         Stream, buffer, abbrCode, recordID, std::forward<Data>(data)...);
   }

   /// Extract record data from \p buffer into the given data fields.
   ///
   /// Note that even fixed arguments must be specified here. Pass \c Nothing
   /// if you don't care about a particular parameter. Blob data is not included
   /// in the buffer and should be handled separately by the caller.
   template <typename ElementTy, typename... Data>
   static void readRecord(ArrayRef<ElementTy> buffer, Data &&...data) {
     static_assert(sizeof...(data) <= sizeof...(Fields),
                   "Too many record elements");
     static_assert(sizeof...(Fields) <=
                       sizeof...(data) + detail::has_blob<Fields...>::value,
                   "Too few record elements");
     return detail::BCRecordCoding<Fields...>::read(buffer,
                                                    std::forward<Data>(data)...);
   }

   /// Extract record data from \p buffer into the given data fields.
   ///
   /// Note that even fixed arguments must be specified here. Pass \c Nothing
   /// if you don't care about a particular parameter. Blob data is not included
   /// in the buffer and should be handled separately by the caller.
   template <typename BufferTy, typename... Data>
   static void readRecord(BufferTy &buffer, Data &&...data) {
     return readRecord(llvm::makeArrayRef(buffer), std::forward<Data>(data)...);
   }
 };

 /// A record with a fixed record code.
 template <unsigned RecordCode, typename... Fields>
 class BCRecordLayout
     : public BCGenericRecordLayout<BCLiteral<RecordCode>, Fields...> {
   using Base = BCGenericRecordLayout<BCLiteral<RecordCode>, Fields...>;

 public:
   enum : unsigned {
     /// The record code associated with this layout.
     Code = RecordCode
   };

   /// Create a layout and register it with the given bitstream writer.
   explicit BCRecordLayout(llvm::BitstreamWriter &Stream) : Base(Stream) {}

   /// Emit a record to the bitstream writer, using the given buffer for scratch
   /// space.
   ///
   /// Note that even fixed arguments must be specified here.
   template <typename BufferTy, typename... Data>
   void emit(BufferTy &buffer, Data &&...data) const {
     Base::emit(buffer, RecordCode, std::forward<Data>(data)...);
   }

   /// Emit a record identified by \p abbrCode to bitstream reader \p Stream,
   /// using \p buffer for scratch space.
   ///
   /// Note that even fixed arguments must be specified here. Currently, arrays
   /// and blobs can only be passed as StringRefs.
   template <typename BufferTy, typename... Data>
   static void emitRecord(llvm::BitstreamWriter &Stream, BufferTy &buffer,
                          unsigned abbrCode, Data &&...data) {
     Base::emitRecord(Stream, buffer, abbrCode, RecordCode,
                      std::forward<Data>(data)...);
   }
 };

 /// RAII object to pair entering and exiting a sub-block.
 class BCBlockRAII {
   llvm::BitstreamWriter &Stream;

 public:
   BCBlockRAII(llvm::BitstreamWriter &Stream, unsigned block, unsigned abbrev)
       : Stream(Stream) {
     Stream.EnterSubblock(block, abbrev);
   }

   ~BCBlockRAII() { Stream.ExitBlock(); }
 };
 } // namespace llvm

 #endif
	//===- llvm/Bitcode/BitcodeConvenience.h - Convenience Wrappers -- 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
	//
	//===----------------------------------------------------------------------===//
	///
	/// \file Convenience wrappers for the LLVM bitcode format and bitstream APIs.
	///
	/// This allows you to use a sort of DSL to declare and use bitcode
	/// abbreviations and records. Example:
	///
	/// \code
	/// using Metadata = BCRecordLayout<
	/// METADATA_ID, // ID
	/// BCFixed<16>, // Module format major version
	/// BCFixed<16>, // Module format minor version
	/// BCBlob // misc. version information
	/// >;
	/// Metadata metadata(Out);
	/// metadata.emit(ScratchRecord, VERSION_MAJOR, VERSION_MINOR, Data);
	/// \endcode
	///
	/// For details on the bitcode format, see
	/// http://llvm.org/docs/BitCodeFormat.html
	///
	//===----------------------------------------------------------------------===//

	#ifndef LLVM_BITCODE_BITCODECONVENIENCE_H
	#define LLVM_BITCODE_BITCODECONVENIENCE_H

	#include "llvm/Bitstream/BitCodes.h"
	#include "llvm/Bitstream/BitstreamWriter.h"
	#include <cstdint>

	namespace llvm {
	namespace detail {
	/// Convenience base for all kinds of bitcode abbreviation fields.
	///
	/// This just defines common properties queried by the metaprogramming.
	template <bool Compound = false> class BCField {
	public:
	static const bool IsCompound = Compound;

	/// Asserts that the given data is a valid value for this field.
	template <typename T> static void assertValid(const T &data) {}

	/// Converts a raw numeric representation of this value to its preferred
	/// type.
	template <typename T> static T convert(T rawValue) { return rawValue; }
	};
	} // namespace detail

	/// Represents a literal operand in a bitcode record.
	///
	/// The value of a literal operand is the same for all instances of the record,
	/// so it is only emitted in the abbreviation definition.
	///
	/// Note that because this uses a compile-time template, you cannot have a
	/// literal operand that is fixed at run-time without dropping down to the
	/// raw LLVM APIs.
	template <uint64_t Value> class BCLiteral : public detail::BCField<> {
	public:
	static void emitOp(llvm::BitCodeAbbrev &abbrev) {
	abbrev.Add(llvm::BitCodeAbbrevOp(Value));
	}

	template <typename T> static void assertValid(const T &data) {
	assert(data == Value && "data value does not match declared literal value");
	}
	};

	/// Represents a fixed-width value in a bitcode record.
	///
	/// Note that the LLVM bitcode format only supports unsigned values.
	template <unsigned Width> class BCFixed : public detail::BCField<> {
	public:
	static_assert(Width <= 64, "fixed-width field is too large");

	static void emitOp(llvm::BitCodeAbbrev &abbrev) {
	abbrev.Add(llvm::BitCodeAbbrevOp(llvm::BitCodeAbbrevOp::Fixed, Width));
	}

	static void assertValid(const bool &data) {
	assert(llvm::isUInt<Width>(data) &&
	"data value does not fit in the given bit width");
	}

	template <typename T> static void assertValid(const T &data) {
	assert(data >= 0 && "cannot encode signed integers");
	assert(llvm::isUInt<Width>(data) &&
	"data value does not fit in the given bit width");
	}
	};

	/// Represents a variable-width value in a bitcode record.
	///
	/// The \p Width parameter should include the continuation bit.
	///
	/// Note that the LLVM bitcode format only supports unsigned values.
	template <unsigned Width> class BCVBR : public detail::BCField<> {
	static_assert(Width >= 2, "width does not have room for continuation bit");

	public:
	static void emitOp(llvm::BitCodeAbbrev &abbrev) {
	abbrev.Add(llvm::BitCodeAbbrevOp(llvm::BitCodeAbbrevOp::VBR, Width));
	}

	template <typename T> static void assertValid(const T &data) {
	assert(data >= 0 && "cannot encode signed integers");
	}
	};

	/// Represents a character encoded in LLVM's Char6 encoding.
	///
	/// This format is suitable for encoding decimal numbers (without signs or
	/// exponents) and C identifiers (without dollar signs), but not much else.
	///
	/// \sa http://llvm.org/docs/BitCodeFormat.html#char6-encoded-value
	class BCChar6 : public detail::BCField<> {
	public:
	static void emitOp(llvm::BitCodeAbbrev &abbrev) {
	abbrev.Add(llvm::BitCodeAbbrevOp(llvm::BitCodeAbbrevOp::Char6));
	}

	template <typename T> static void assertValid(const T &data) {
	assert(llvm::BitCodeAbbrevOp::isChar6(data) && "invalid Char6 data");
	}

	template <typename T> char convert(T rawValue) {
	return static_cast<char>(rawValue);
	}
	};

	/// Represents an untyped blob of bytes.
	///
	/// If present, this must be the last field in a record.
	class BCBlob : public detail::BCField<true> {
	public:
	static void emitOp(llvm::BitCodeAbbrev &abbrev) {
	abbrev.Add(llvm::BitCodeAbbrevOp(llvm::BitCodeAbbrevOp::Blob));
	}
	};

	/// Represents an array of some other type.
	///
	/// If present, this must be the last field in a record.
	template <typename ElementTy> class BCArray : public detail::BCField<true> {
	static_assert(!ElementTy::IsCompound, "arrays can only contain scalar types");

	public:
	static void emitOp(llvm::BitCodeAbbrev &abbrev) {
	abbrev.Add(llvm::BitCodeAbbrevOp(llvm::BitCodeAbbrevOp::Array));
	ElementTy::emitOp(abbrev);
	}
	};

	namespace detail {
	/// Attaches the last field to an abbreviation.
	///
	/// This is the base case for \c emitOps.
	///
	/// \sa BCRecordLayout::emitAbbrev
	template <typename FieldTy> static void emitOps(llvm::BitCodeAbbrev &abbrev) {
	FieldTy::emitOp(abbrev);
	}

	/// Attaches fields to an abbreviation.
	///
	/// This is the recursive case for \c emitOps.
	///
	/// \sa BCRecordLayout::emitAbbrev
	template <typename FieldTy, typename Next, typename... Rest>
	static void emitOps(llvm::BitCodeAbbrev &abbrev) {
	static_assert(!FieldTy::IsCompound,
	"arrays and blobs may not appear in the middle of a record");
	FieldTy::emitOp(abbrev);
	emitOps<Next, Rest...>(abbrev);
	}

	/// Helper class for dealing with a scalar element in the middle of a record.
	///
	/// \sa BCRecordLayout
	template <typename ElementTy, typename... Fields> class BCRecordCoding {
	public:
	template <typename BufferTy, typename ElementDataTy, typename... DataTy>
	static void emit(llvm::BitstreamWriter &Stream, BufferTy &buffer,
	unsigned code, ElementDataTy element, DataTy &&...data) {
	static_assert(!ElementTy::IsCompound,
	"arrays and blobs may not appear in the middle of a record");
	ElementTy::assertValid(element);
	buffer.push_back(element);
	BCRecordCoding<Fields...>::emit(Stream, buffer, code,
	std::forward<DataTy>(data)...);
	}

	template <typename T, typename ElementDataTy, typename... DataTy>
	static void read(ArrayRef<T> buffer, ElementDataTy &element,
	DataTy &&...data) {
	assert(!buffer.empty() && "too few elements in buffer");
	element = ElementTy::convert(buffer.front());
	BCRecordCoding<Fields...>::read(buffer.slice(1),
	std::forward<DataTy>(data)...);
	}

	template <typename T, typename... DataTy>
	static void read(ArrayRef<T> buffer, NoneType, DataTy &&...data) {
	assert(!buffer.empty() && "too few elements in buffer");
	BCRecordCoding<Fields...>::read(buffer.slice(1),
	std::forward<DataTy>(data)...);
	}
	};

	/// Helper class for dealing with a scalar element at the end of a record.
	///
	/// This has a separate implementation because up until now we've only been
	/// \em building the record (into a data buffer), and now we need to hand it
	/// off to the BitstreamWriter to be emitted.
	///
	/// \sa BCRecordLayout
	template <typename ElementTy> class BCRecordCoding<ElementTy> {
	public:
	template <typename BufferTy, typename DataTy>
	static void emit(llvm::BitstreamWriter &Stream, BufferTy &buffer,
	unsigned code, const DataTy &data) {
	static_assert(!ElementTy::IsCompound,
	"arrays and blobs need special handling");
	ElementTy::assertValid(data);
	buffer.push_back(data);
	Stream.EmitRecordWithAbbrev(code, buffer);
	}

	template <typename T, typename DataTy>
	static void read(ArrayRef<T> buffer, DataTy &data) {
	assert(buffer.size() == 1 && "record data does not match layout");
	data = ElementTy::convert(buffer.front());
	}

	template <typename T> static void read(ArrayRef<T> buffer, NoneType) {
	assert(buffer.size() == 1 && "record data does not match layout");
	(void)buffer;
	}

	template <typename T> static void read(ArrayRef<T> buffer) = delete;
	};

	/// Helper class for dealing with an array at the end of a record.
	///
	/// \sa BCRecordLayout::emitRecord
	template <typename ElementTy> class BCRecordCoding<BCArray<ElementTy>> {
	public:
	template <typename BufferTy>
	static void emit(llvm::BitstreamWriter &Stream, BufferTy &buffer,
	unsigned code, StringRef data) {
	// TODO: validate array data.
	Stream.EmitRecordWithArray(code, buffer, data);
	}

	template <typename BufferTy, typename ArrayTy>
	static void emit(llvm::BitstreamWriter &Stream, BufferTy &buffer,
	unsigned code, const ArrayTy &array) {
	#ifndef NDEBUG
	for (auto &element : array)
	ElementTy::assertValid(element);
	#endif
	buffer.reserve(buffer.size() + std::distance(array.begin(), array.end()));
	std::copy(array.begin(), array.end(), std::back_inserter(buffer));
	Stream.EmitRecordWithAbbrev(code, buffer);
	}

	template <typename BufferTy, typename ElementDataTy, typename... DataTy>
	static void emit(llvm::BitstreamWriter &Stream, BufferTy &buffer,
	unsigned code, ElementDataTy element, DataTy... data) {
	std::array<ElementDataTy, 1 + sizeof...(data)> array{{element, data...}};
	emit(Stream, buffer, code, array);
	}

	template <typename BufferTy>
	static void emit(llvm::BitstreamWriter &Stream, BufferTy &Buffer,
	unsigned code, NoneType) {
	Stream.EmitRecordWithAbbrev(code, Buffer);
	}

	template <typename T>
	static void read(ArrayRef<T> Buffer, ArrayRef<T> &rawData) {
	rawData = Buffer;
	}

	template <typename T, typename ArrayTy>
	static void read(ArrayRef<T> buffer, ArrayTy &array) {
	array.append(llvm::map_iterator(buffer.begin(), T::convert),
	llvm::map_iterator(buffer.end(), T::convert));
	}

	template <typename T> static void read(ArrayRef<T> buffer, NoneType) {
	(void)buffer;
	}

	template <typename T> static void read(ArrayRef<T> buffer) = delete;
	};

	/// Helper class for dealing with a blob at the end of a record.
	///
	/// \sa BCRecordLayout
	template <> class BCRecordCoding<BCBlob> {
	public:
	template <typename BufferTy>
	static void emit(llvm::BitstreamWriter &Stream, BufferTy &buffer,
	unsigned code, StringRef data) {
	Stream.EmitRecordWithBlob(code, buffer, data);
	}

	template <typename T> static void read(ArrayRef<T> buffer) { (void)buffer; }

	/// Blob data is not stored in the buffer if you are using the correct
	/// accessor; this method should not be used.
	template <typename T, typename DataTy>
	static void read(ArrayRef<T> buffer, DataTy &data) = delete;
	};

	/// A type trait whose \c type field is the last of its template parameters.
	template <typename Head, typename... Tail> struct last_type {
	using type = typename last_type<Tail...>::type;
	};

	template <typename Head> struct last_type<Head> { using type = Head; };

	/// A type trait whose \c value field is \c true if the last type is BCBlob.
	template <typename... Types>
	using has_blob = std::is_same<BCBlob, typename last_type<int, Types...>::type>;

	/// A type trait whose \c value field is \c true if the given type is a
	/// BCArray (of any element kind).
	template <typename T> struct is_array {
	private:
	template <typename E> static bool check(BCArray<E> *);
	static int check(...);

	public:
	typedef bool value_type;
	static constexpr bool value = !std::is_same<decltype(check((T *)nullptr)),
	decltype(check(false))>::value;
	};

	/// A type trait whose \c value field is \c true if the last type is a
	/// BCArray (of any element kind).
	template <typename... Types>
	using has_array = is_array<typename last_type<int, Types...>::type>;
	} // namespace detail

	/// Represents a single bitcode record type.
	///
	/// This class template is meant to be instantiated and then given a name,
	/// so that from then on that name can be used.
	template <typename IDField, typename... Fields> class BCGenericRecordLayout {
	llvm::BitstreamWriter &Stream;

	public:
	/// The abbreviation code used for this record in the current block.
	///
	/// Note that this is not the same as the semantic record code, which is the
	/// first field of the record.
	const unsigned AbbrevCode;

	/// Create a layout and register it with the given bitstream writer.
	explicit BCGenericRecordLayout(llvm::BitstreamWriter &Stream)
	: Stream(Stream), AbbrevCode(emitAbbrev(Stream)) {}

	/// Emit a record to the bitstream writer, using the given buffer for scratch
	/// space.
	///
	/// Note that even fixed arguments must be specified here.
	template <typename BufferTy, typename... Data>
	void emit(BufferTy &buffer, unsigned id, Data &&...data) const {
	emitRecord(Stream, buffer, AbbrevCode, id, std::forward<Data>(data)...);
	}

	/// Registers this record's layout with the bitstream reader.
	///
	/// eturns The abbreviation code for the newly-registered record type.
	static unsigned emitAbbrev(llvm::BitstreamWriter &Stream) {
	auto Abbrev = std::make_shared<llvm::BitCodeAbbrev>();
	detail::emitOps<IDField, Fields...>(*Abbrev);
	return Stream.EmitAbbrev(std::move(Abbrev));
	}

	/// Emit a record identified by \p abbrCode to bitstream reader \p Stream,
	/// using \p buffer for scratch space.
	///
	/// Note that even fixed arguments must be specified here. Blobs are passed
	/// as StringRefs, while arrays can be passed inline, as aggregates, or as
	/// pre-encoded StringRef data. Skipped values and empty arrays should use
	/// the special Nothing value.
	template <typename BufferTy, typename... Data>
	static void emitRecord(llvm::BitstreamWriter &Stream, BufferTy &buffer,
	unsigned abbrCode, unsigned recordID, Data &&...data) {
	static_assert(sizeof...(data) <= sizeof...(Fields) \|\|
	detail::has_array<Fields...>::value,
	"Too many record elements");
	static_assert(sizeof...(data) >= sizeof...(Fields),
	"Too few record elements");
	buffer.clear();
	detail::BCRecordCoding<IDField, Fields...>::emit(
	Stream, buffer, abbrCode, recordID, std::forward<Data>(data)...);
	}

	/// Extract record data from \p buffer into the given data fields.
	///
	/// Note that even fixed arguments must be specified here. Pass \c Nothing
	/// if you don't care about a particular parameter. Blob data is not included
	/// in the buffer and should be handled separately by the caller.
	template <typename ElementTy, typename... Data>
	static void readRecord(ArrayRef<ElementTy> buffer, Data &&...data) {
	static_assert(sizeof...(data) <= sizeof...(Fields),
	"Too many record elements");
	static_assert(sizeof...(Fields) <=
	sizeof...(data) + detail::has_blob<Fields...>::value,
	"Too few record elements");
	return detail::BCRecordCoding<Fields...>::read(buffer,
	std::forward<Data>(data)...);
	}

	/// Extract record data from \p buffer into the given data fields.
	///
	/// Note that even fixed arguments must be specified here. Pass \c Nothing
	/// if you don't care about a particular parameter. Blob data is not included
	/// in the buffer and should be handled separately by the caller.
	template <typename BufferTy, typename... Data>
	static void readRecord(BufferTy &buffer, Data &&...data) {
	return readRecord(llvm::makeArrayRef(buffer), std::forward<Data>(data)...);
	}
	};

	/// A record with a fixed record code.
	template <unsigned RecordCode, typename... Fields>
	class BCRecordLayout
	: public BCGenericRecordLayout<BCLiteral<RecordCode>, Fields...> {
	using Base = BCGenericRecordLayout<BCLiteral<RecordCode>, Fields...>;

	public:
	enum : unsigned {
	/// The record code associated with this layout.
	Code = RecordCode
	};

	/// Create a layout and register it with the given bitstream writer.
	explicit BCRecordLayout(llvm::BitstreamWriter &Stream) : Base(Stream) {}

	/// Emit a record to the bitstream writer, using the given buffer for scratch
	/// space.
	///
	/// Note that even fixed arguments must be specified here.
	template <typename BufferTy, typename... Data>
	void emit(BufferTy &buffer, Data &&...data) const {
	Base::emit(buffer, RecordCode, std::forward<Data>(data)...);
	}

	/// Emit a record identified by \p abbrCode to bitstream reader \p Stream,
	/// using \p buffer for scratch space.
	///
	/// Note that even fixed arguments must be specified here. Currently, arrays
	/// and blobs can only be passed as StringRefs.
	template <typename BufferTy, typename... Data>
	static void emitRecord(llvm::BitstreamWriter &Stream, BufferTy &buffer,
	unsigned abbrCode, Data &&...data) {
	Base::emitRecord(Stream, buffer, abbrCode, RecordCode,
	std::forward<Data>(data)...);
	}
	};

	/// RAII object to pair entering and exiting a sub-block.
	class BCBlockRAII {
	llvm::BitstreamWriter &Stream;

	public:
	BCBlockRAII(llvm::BitstreamWriter &Stream, unsigned block, unsigned abbrev)
	: Stream(Stream) {
	Stream.EnterSubblock(block, abbrev);
	}

	~BCBlockRAII() { Stream.ExitBlock(); }
	};
	} // namespace llvm

	#endif