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Summary: This kind of functionality is useful to other project apart from clang. LLDB works with version numbers a lot, but it does not have a convenient abstraction for this. Moving this class to a lower level library allows it to be freely used within LLDB. Since this class is used in a lot of places in clang, and it used to be in the clang namespace, it seemed appropriate to add it to the list of adopted classes in LLVM.h to avoid prefixing all uses with "llvm::". Also, I didn't find any tests specific for this class, so I wrote a couple of quick ones for the more interesting bits of functionality. Reviewers: zturner, erik.pilkington Subscribers: mgorny, cfe-commits, llvm-commits Differential Revision: https://reviews.llvm.org/D47887 llvm-svn: 334399
155 lines
4.9 KiB
C++
155 lines
4.9 KiB
C++
//===- VersionTuple.h - Version Number Handling -----------------*- 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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/// Defines the llvm::VersionTuple class, which represents a version in
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/// the form major[.minor[.subminor]].
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///
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//===----------------------------------------------------------------------===//
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#ifndef LLVM_SUPPORT_VERSIONTUPLE_H
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#define LLVM_SUPPORT_VERSIONTUPLE_H
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#include "llvm/ADT/Optional.h"
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#include "llvm/ADT/StringRef.h"
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#include "llvm/Support/raw_ostream.h"
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#include <string>
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#include <tuple>
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namespace llvm {
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/// Represents a version number in the form major[.minor[.subminor[.build]]].
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class VersionTuple {
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unsigned Major : 32;
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unsigned Minor : 31;
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unsigned HasMinor : 1;
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unsigned Subminor : 31;
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unsigned HasSubminor : 1;
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unsigned Build : 31;
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unsigned HasBuild : 1;
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public:
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VersionTuple()
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: Major(0), Minor(0), HasMinor(false), Subminor(0), HasSubminor(false),
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Build(0), HasBuild(false) {}
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explicit VersionTuple(unsigned Major)
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: Major(Major), Minor(0), HasMinor(false), Subminor(0),
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HasSubminor(false), Build(0), HasBuild(false) {}
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explicit VersionTuple(unsigned Major, unsigned Minor)
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: Major(Major), Minor(Minor), HasMinor(true), Subminor(0),
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HasSubminor(false), Build(0), HasBuild(false) {}
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explicit VersionTuple(unsigned Major, unsigned Minor, unsigned Subminor)
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: Major(Major), Minor(Minor), HasMinor(true), Subminor(Subminor),
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HasSubminor(true), Build(0), HasBuild(false) {}
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explicit VersionTuple(unsigned Major, unsigned Minor, unsigned Subminor,
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unsigned Build)
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: Major(Major), Minor(Minor), HasMinor(true), Subminor(Subminor),
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HasSubminor(true), Build(Build), HasBuild(true) {}
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/// Determine whether this version information is empty
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/// (e.g., all version components are zero).
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bool empty() const {
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return Major == 0 && Minor == 0 && Subminor == 0 && Build == 0;
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}
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/// Retrieve the major version number.
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unsigned getMajor() const { return Major; }
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/// Retrieve the minor version number, if provided.
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Optional<unsigned> getMinor() const {
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if (!HasMinor)
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return None;
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return Minor;
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}
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/// Retrieve the subminor version number, if provided.
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Optional<unsigned> getSubminor() const {
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if (!HasSubminor)
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return None;
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return Subminor;
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}
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/// Retrieve the build version number, if provided.
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Optional<unsigned> getBuild() const {
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if (!HasBuild)
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return None;
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return Build;
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}
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/// Determine if two version numbers are equivalent. If not
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/// provided, minor and subminor version numbers are considered to be zero.
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friend bool operator==(const VersionTuple &X, const VersionTuple &Y) {
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return X.Major == Y.Major && X.Minor == Y.Minor &&
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X.Subminor == Y.Subminor && X.Build == Y.Build;
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}
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/// Determine if two version numbers are not equivalent.
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///
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/// If not provided, minor and subminor version numbers are considered to be
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/// zero.
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friend bool operator!=(const VersionTuple &X, const VersionTuple &Y) {
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return !(X == Y);
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}
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/// Determine whether one version number precedes another.
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///
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/// If not provided, minor and subminor version numbers are considered to be
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/// zero.
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friend bool operator<(const VersionTuple &X, const VersionTuple &Y) {
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return std::tie(X.Major, X.Minor, X.Subminor, X.Build) <
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std::tie(Y.Major, Y.Minor, Y.Subminor, Y.Build);
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}
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/// Determine whether one version number follows another.
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///
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/// If not provided, minor and subminor version numbers are considered to be
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/// zero.
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friend bool operator>(const VersionTuple &X, const VersionTuple &Y) {
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return Y < X;
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}
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/// Determine whether one version number precedes or is
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/// equivalent to another.
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///
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/// If not provided, minor and subminor version numbers are considered to be
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/// zero.
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friend bool operator<=(const VersionTuple &X, const VersionTuple &Y) {
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return !(Y < X);
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}
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/// Determine whether one version number follows or is
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/// equivalent to another.
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///
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/// If not provided, minor and subminor version numbers are considered to be
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/// zero.
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friend bool operator>=(const VersionTuple &X, const VersionTuple &Y) {
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return !(X < Y);
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}
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/// Retrieve a string representation of the version number.
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std::string getAsString() const;
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/// Try to parse the given string as a version number.
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/// \returns \c true if the string does not match the regular expression
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/// [0-9]+(\.[0-9]+){0,3}
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bool tryParse(StringRef string);
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};
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/// Print a version number.
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raw_ostream &operator<<(raw_ostream &Out, const VersionTuple &V);
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} // end namespace llvm
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#endif // LLVM_SUPPORT_VERSIONTUPLE_H
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