llvm/include/llvm/Support/VersionTuple.h - llvm-project - Git at Google

 //===- VersionTuple.h - Version Number Handling -----------------*- 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
 /// Defines the llvm::VersionTuple class, which represents a version in
 /// the form major[.minor[.subminor]].
 ///
 //===----------------------------------------------------------------------===//
 #ifndef LLVM_SUPPORT_VERSIONTUPLE_H
 #define LLVM_SUPPORT_VERSIONTUPLE_H

 #include "llvm/ADT/DenseMapInfo.h"
 #include "llvm/ADT/Hashing.h"
 #include "llvm/ADT/Optional.h"
 #include "llvm/Support/HashBuilder.h"
 #include <string>
 #include <tuple>

 namespace llvm {
 class raw_ostream;
 class StringRef;

 /// Represents a version number in the form major[.minor[.subminor[.build]]].
 class VersionTuple {
   unsigned Major : 32;

   unsigned Minor : 31;
   unsigned HasMinor : 1;

   unsigned Subminor : 31;
   unsigned HasSubminor : 1;

   unsigned Build : 31;
   unsigned HasBuild : 1;

 public:
   VersionTuple()
       : Major(0), Minor(0), HasMinor(false), Subminor(0), HasSubminor(false),
         Build(0), HasBuild(false) {}

   explicit VersionTuple(unsigned Major)
       : Major(Major), Minor(0), HasMinor(false), Subminor(0),
         HasSubminor(false), Build(0), HasBuild(false) {}

   explicit VersionTuple(unsigned Major, unsigned Minor)
       : Major(Major), Minor(Minor), HasMinor(true), Subminor(0),
         HasSubminor(false), Build(0), HasBuild(false) {}

   explicit VersionTuple(unsigned Major, unsigned Minor, unsigned Subminor)
       : Major(Major), Minor(Minor), HasMinor(true), Subminor(Subminor),
         HasSubminor(true), Build(0), HasBuild(false) {}

   explicit VersionTuple(unsigned Major, unsigned Minor, unsigned Subminor,
                         unsigned Build)
       : Major(Major), Minor(Minor), HasMinor(true), Subminor(Subminor),
         HasSubminor(true), Build(Build), HasBuild(true) {}

   /// Determine whether this version information is empty
   /// (e.g., all version components are zero).
   bool empty() const {
     return Major == 0 && Minor == 0 && Subminor == 0 && Build == 0;
   }

   /// Retrieve the major version number.
   unsigned getMajor() const { return Major; }

   /// Retrieve the minor version number, if provided.
   Optional<unsigned> getMinor() const {
     if (!HasMinor)
       return None;
     return Minor;
   }

   /// Retrieve the subminor version number, if provided.
   Optional<unsigned> getSubminor() const {
     if (!HasSubminor)
       return None;
     return Subminor;
   }

   /// Retrieve the build version number, if provided.
   Optional<unsigned> getBuild() const {
     if (!HasBuild)
       return None;
     return Build;
   }

   /// Return a version tuple that contains only the first 3 version components.
   VersionTuple withoutBuild() const {
     if (HasBuild)
       return VersionTuple(Major, Minor, Subminor);
     return *this;
   }

   /// Return a version tuple that contains only components that are non-zero.
   VersionTuple normalize() const {
     VersionTuple Result = *this;
     if (Result.Build == 0) {
       Result.HasBuild = false;
       if (Result.Subminor == 0) {
         Result.HasSubminor = false;
         if (Result.Minor == 0)
           Result.HasMinor = false;
       }
     }
     return Result;
   }

   /// Determine if two version numbers are equivalent. If not
   /// provided, minor and subminor version numbers are considered to be zero.
   friend bool operator==(const VersionTuple &X, const VersionTuple &Y) {
     return X.Major == Y.Major && X.Minor == Y.Minor &&
            X.Subminor == Y.Subminor && X.Build == Y.Build;
   }

   /// Determine if two version numbers are not equivalent.
   ///
   /// If not provided, minor and subminor version numbers are considered to be
   /// zero.
   friend bool operator!=(const VersionTuple &X, const VersionTuple &Y) {
     return !(X == Y);
   }

   /// Determine whether one version number precedes another.
   ///
   /// If not provided, minor and subminor version numbers are considered to be
   /// zero.
   friend bool operator<(const VersionTuple &X, const VersionTuple &Y) {
     return std::tie(X.Major, X.Minor, X.Subminor, X.Build) <
            std::tie(Y.Major, Y.Minor, Y.Subminor, Y.Build);
   }

   /// Determine whether one version number follows another.
   ///
   /// If not provided, minor and subminor version numbers are considered to be
   /// zero.
   friend bool operator>(const VersionTuple &X, const VersionTuple &Y) {
     return Y < X;
   }

   /// Determine whether one version number precedes or is
   /// equivalent to another.
   ///
   /// If not provided, minor and subminor version numbers are considered to be
   /// zero.
   friend bool operator<=(const VersionTuple &X, const VersionTuple &Y) {
     return !(Y < X);
   }

   /// Determine whether one version number follows or is
   /// equivalent to another.
   ///
   /// If not provided, minor and subminor version numbers are considered to be
   /// zero.
   friend bool operator>=(const VersionTuple &X, const VersionTuple &Y) {
     return !(X < Y);
   }

   friend llvm::hash_code hash_value(const VersionTuple &VT) {
     return llvm::hash_combine(VT.Major, VT.Minor, VT.Subminor, VT.Build);
   }

   template <typename HasherT, llvm::support::endianness Endianness>
   friend void addHash(HashBuilderImpl<HasherT, Endianness> &HBuilder,
                       const VersionTuple &VT) {
     HBuilder.add(VT.Major, VT.Minor, VT.Subminor, VT.Build);
   }

   /// Retrieve a string representation of the version number.
   std::string getAsString() const;

   /// Try to parse the given string as a version number.
   /// \returns \c true if the string does not match the regular expression
   ///   [0-9]+(\.[0-9]+){0,3}
   bool tryParse(StringRef string);
 };

 /// Print a version number.
 raw_ostream &operator<<(raw_ostream &Out, const VersionTuple &V);

 // Provide DenseMapInfo for version tuples.
 template <> struct DenseMapInfo<VersionTuple> {
   static inline VersionTuple getEmptyKey() { return VersionTuple(0x7FFFFFFF); }
   static inline VersionTuple getTombstoneKey() {
     return VersionTuple(0x7FFFFFFE);
   }
   static unsigned getHashValue(const VersionTuple &Value) {
     unsigned Result = Value.getMajor();
     if (auto Minor = Value.getMinor())
       Result = detail::combineHashValue(Result, *Minor);
     if (auto Subminor = Value.getSubminor())
       Result = detail::combineHashValue(Result, *Subminor);
     if (auto Build = Value.getBuild())
       Result = detail::combineHashValue(Result, *Build);

     return Result;
   }

   static bool isEqual(const VersionTuple &LHS, const VersionTuple &RHS) {
     return LHS == RHS;
   }
 };

 } // end namespace llvm
 #endif // LLVM_SUPPORT_VERSIONTUPLE_H
	//===- VersionTuple.h - Version Number Handling ------------------ 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
	/// Defines the llvm::VersionTuple class, which represents a version in
	/// the form major[.minor[.subminor]].
	///
	//===----------------------------------------------------------------------===//
	#ifndef LLVM_SUPPORT_VERSIONTUPLE_H
	#define LLVM_SUPPORT_VERSIONTUPLE_H

	#include "llvm/ADT/DenseMapInfo.h"
	#include "llvm/ADT/Hashing.h"
	#include "llvm/ADT/Optional.h"
	#include "llvm/Support/HashBuilder.h"
	#include <string>
	#include <tuple>

	namespace llvm {
	class raw_ostream;
	class StringRef;

	/// Represents a version number in the form major[.minor[.subminor[.build]]].
	class VersionTuple {
	unsigned Major : 32;

	unsigned Minor : 31;
	unsigned HasMinor : 1;

	unsigned Subminor : 31;
	unsigned HasSubminor : 1;

	unsigned Build : 31;
	unsigned HasBuild : 1;

	public:
	VersionTuple()
	: Major(0), Minor(0), HasMinor(false), Subminor(0), HasSubminor(false),
	Build(0), HasBuild(false) {}

	explicit VersionTuple(unsigned Major)
	: Major(Major), Minor(0), HasMinor(false), Subminor(0),
	HasSubminor(false), Build(0), HasBuild(false) {}

	explicit VersionTuple(unsigned Major, unsigned Minor)
	: Major(Major), Minor(Minor), HasMinor(true), Subminor(0),
	HasSubminor(false), Build(0), HasBuild(false) {}

	explicit VersionTuple(unsigned Major, unsigned Minor, unsigned Subminor)
	: Major(Major), Minor(Minor), HasMinor(true), Subminor(Subminor),
	HasSubminor(true), Build(0), HasBuild(false) {}

	explicit VersionTuple(unsigned Major, unsigned Minor, unsigned Subminor,
	unsigned Build)
	: Major(Major), Minor(Minor), HasMinor(true), Subminor(Subminor),
	HasSubminor(true), Build(Build), HasBuild(true) {}

	/// Determine whether this version information is empty
	/// (e.g., all version components are zero).
	bool empty() const {
	return Major == 0 && Minor == 0 && Subminor == 0 && Build == 0;
	}

	/// Retrieve the major version number.
	unsigned getMajor() const { return Major; }

	/// Retrieve the minor version number, if provided.
	Optional<unsigned> getMinor() const {
	if (!HasMinor)
	return None;
	return Minor;
	}

	/// Retrieve the subminor version number, if provided.
	Optional<unsigned> getSubminor() const {
	if (!HasSubminor)
	return None;
	return Subminor;
	}

	/// Retrieve the build version number, if provided.
	Optional<unsigned> getBuild() const {
	if (!HasBuild)
	return None;
	return Build;
	}

	/// Return a version tuple that contains only the first 3 version components.
	VersionTuple withoutBuild() const {
	if (HasBuild)
	return VersionTuple(Major, Minor, Subminor);
	return *this;
	}

	/// Return a version tuple that contains only components that are non-zero.
	VersionTuple normalize() const {
	VersionTuple Result = *this;
	if (Result.Build == 0) {
	Result.HasBuild = false;
	if (Result.Subminor == 0) {
	Result.HasSubminor = false;
	if (Result.Minor == 0)
	Result.HasMinor = false;
	}
	}
	return Result;
	}

	/// Determine if two version numbers are equivalent. If not
	/// provided, minor and subminor version numbers are considered to be zero.
	friend bool operator==(const VersionTuple &X, const VersionTuple &Y) {
	return X.Major == Y.Major && X.Minor == Y.Minor &&
	X.Subminor == Y.Subminor && X.Build == Y.Build;
	}

	/// Determine if two version numbers are not equivalent.
	///
	/// If not provided, minor and subminor version numbers are considered to be
	/// zero.
	friend bool operator!=(const VersionTuple &X, const VersionTuple &Y) {
	return !(X == Y);
	}

	/// Determine whether one version number precedes another.
	///
	/// If not provided, minor and subminor version numbers are considered to be
	/// zero.
	friend bool operator<(const VersionTuple &X, const VersionTuple &Y) {
	return std::tie(X.Major, X.Minor, X.Subminor, X.Build) <
	std::tie(Y.Major, Y.Minor, Y.Subminor, Y.Build);
	}

	/// Determine whether one version number follows another.
	///
	/// If not provided, minor and subminor version numbers are considered to be
	/// zero.
	friend bool operator>(const VersionTuple &X, const VersionTuple &Y) {
	return Y < X;
	}

	/// Determine whether one version number precedes or is
	/// equivalent to another.
	///
	/// If not provided, minor and subminor version numbers are considered to be
	/// zero.
	friend bool operator<=(const VersionTuple &X, const VersionTuple &Y) {
	return !(Y < X);
	}

	/// Determine whether one version number follows or is
	/// equivalent to another.
	///
	/// If not provided, minor and subminor version numbers are considered to be
	/// zero.
	friend bool operator>=(const VersionTuple &X, const VersionTuple &Y) {
	return !(X < Y);
	}

	friend llvm::hash_code hash_value(const VersionTuple &VT) {
	return llvm::hash_combine(VT.Major, VT.Minor, VT.Subminor, VT.Build);
	}

	template <typename HasherT, llvm::support::endianness Endianness>
	friend void addHash(HashBuilderImpl<HasherT, Endianness> &HBuilder,
	const VersionTuple &VT) {
	HBuilder.add(VT.Major, VT.Minor, VT.Subminor, VT.Build);
	}

	/// Retrieve a string representation of the version number.
	std::string getAsString() const;

	/// Try to parse the given string as a version number.
	/// \returns \c true if the string does not match the regular expression
	/// [0-9]+(\.[0-9]+){0,3}
	bool tryParse(StringRef string);
	};

	/// Print a version number.
	raw_ostream &operator<<(raw_ostream &Out, const VersionTuple &V);

	// Provide DenseMapInfo for version tuples.
	template <> struct DenseMapInfo<VersionTuple> {
	static inline VersionTuple getEmptyKey() { return VersionTuple(0x7FFFFFFF); }
	static inline VersionTuple getTombstoneKey() {
	return VersionTuple(0x7FFFFFFE);
	}
	static unsigned getHashValue(const VersionTuple &Value) {
	unsigned Result = Value.getMajor();
	if (auto Minor = Value.getMinor())
	Result = detail::combineHashValue(Result, *Minor);
	if (auto Subminor = Value.getSubminor())
	Result = detail::combineHashValue(Result, *Subminor);
	if (auto Build = Value.getBuild())
	Result = detail::combineHashValue(Result, *Build);

	return Result;
	}

	static bool isEqual(const VersionTuple &LHS, const VersionTuple &RHS) {
	return LHS == RHS;
	}
	};

	} // end namespace llvm
	#endif // LLVM_SUPPORT_VERSIONTUPLE_H