packages/flutter_tools/lib/src/base/version.dart - mirrors/flutter - Git at Google

 // Copyright 2014 The Flutter Authors. All rights reserved.
 // Use of this source code is governed by a BSD-style license that can be
 // found in the LICENSE file.

 import 'package:meta/meta.dart';

 /// Represents the version of some piece of software.
 ///
 /// While a [Version] object has fields resembling semver, it does not
 /// necessarily represent a semver version.
 @immutable
 class Version implements Comparable<Version> {
   /// Creates a new [Version] object.
   ///
   /// A null [minor] or [patch] version is logically equivalent to 0. Using null
   /// for these parameters only affects the generation of [text], if no value
   /// for it is provided.
   factory Version(int major, int? minor, int? patch, {String? text}) {
     if (text == null) {
       text = '$major';
       if (minor != null) {
         text = '$text.$minor';
       }
       if (patch != null) {
         text = '$text.$patch';
       }
     }

     return Version._(major, minor ?? 0, patch ?? 0, text);
   }

   /// Public constant constructor when all fields are non-null, without default value fallbacks.
   const Version.withText(this.major, this.minor, this.patch, this._text);

   Version._(this.major, this.minor, this.patch, this._text) {
     if (major < 0) {
       throw ArgumentError('Major version must be non-negative.');
     }
     if (minor < 0) {
       throw ArgumentError('Minor version must be non-negative.');
     }
     if (patch < 0) {
       throw ArgumentError('Patch version must be non-negative.');
     }
   }

   /// Creates a new [Version] by parsing [text].
   static Version? parse(String? text) {
     final Match? match = versionPattern.firstMatch(text ?? '');
     if (match == null) {
       return null;
     }

     try {
       final int major = int.parse(match[1] ?? '0');
       final int minor = int.parse(match[3] ?? '0');
       final int patch = int.parse(match[5] ?? '0');
       return Version._(major, minor, patch, text ?? '');
     } on FormatException {
       return null;
     }
   }

   /// Returns the primary version out of a list of candidates.
   ///
   /// This is the highest-numbered stable version.
   static Version? primary(List<Version> versions) {
     Version? primary;
     for (final Version version in versions) {
       if (primary == null || (version > primary)) {
         primary = version;
       }
     }
     return primary;
   }

   /// The major version number: "1" in "1.2.3".
   final int major;

   /// The minor version number: "2" in "1.2.3".
   final int minor;

   /// The patch version number: "3" in "1.2.3".
   final int patch;

   /// The original string representation of the version number.
   ///
   /// This preserves textual artifacts like leading zeros that may be left out
   /// of the parsed version.
   final String _text;

   static final RegExp versionPattern =
       RegExp(r'^(\d+)(\.(\d+)(\.(\d+))?)?');

   /// Two [Version]s are equal if their version numbers are. The version text
   /// is ignored.
   @override
   bool operator ==(Object other) {
     return other is Version
         && other.major == major
         && other.minor == minor
         && other.patch == patch;
   }

   @override
   int get hashCode => Object.hash(major, minor, patch);

   bool operator <(Version other) => compareTo(other) < 0;
   bool operator >(Version other) => compareTo(other) > 0;
   bool operator <=(Version other) => compareTo(other) <= 0;
   bool operator >=(Version other) => compareTo(other) >= 0;

   @override
   int compareTo(Version other) {
     if (major != other.major) {
       return major.compareTo(other.major);
     }
     if (minor != other.minor) {
       return minor.compareTo(other.minor);
     }
     return patch.compareTo(other.patch);
   }

   @override
   String toString() => _text;
 }

 /// Returns true if [targetVersion] is within the range [min] and [max]
 /// inclusive by default.
 ///
 /// [min] and [max] are evaluated by [Version.parse(text)].
 ///
 /// Pass [inclusiveMin] = false for greater than and not equal to min.
 /// Pass [inclusiveMax] = false for less than and not equal to max.
 bool isWithinVersionRange(
   String targetVersion, {
   required String min,
   required String max,
   bool inclusiveMax = true,
   bool inclusiveMin = true,
 }) {
   final Version? parsedTargetVersion = Version.parse(targetVersion);
   final Version? minVersion = Version.parse(min);
   final Version? maxVersion = Version.parse(max);

   final bool withinMin = minVersion != null &&
       parsedTargetVersion != null &&
       (inclusiveMin
       ? parsedTargetVersion >= minVersion
       : parsedTargetVersion > minVersion);

   final bool withinMax = maxVersion != null &&
       parsedTargetVersion != null &&
       (inclusiveMax
           ? parsedTargetVersion <= maxVersion
           : parsedTargetVersion < maxVersion);
   return withinMin && withinMax;
 }
	// Copyright 2014 The Flutter Authors. All rights reserved.
	// Use of this source code is governed by a BSD-style license that can be
	// found in the LICENSE file.

	import 'package:meta/meta.dart';

	/// Represents the version of some piece of software.
	///
	/// While a [Version] object has fields resembling semver, it does not
	/// necessarily represent a semver version.
	@immutable
	class Version implements Comparable<Version> {
	/// Creates a new [Version] object.
	///
	/// A null [minor] or [patch] version is logically equivalent to 0. Using null
	/// for these parameters only affects the generation of [text], if no value
	/// for it is provided.
	factory Version(int major, int? minor, int? patch, {String? text}) {
	if (text == null) {
	text = '$major';
	if (minor != null) {
	text = '$text.$minor';
	}
	if (patch != null) {
	text = '$text.$patch';
	}
	}

	return Version._(major, minor ?? 0, patch ?? 0, text);
	}

	/// Public constant constructor when all fields are non-null, without default value fallbacks.
	const Version.withText(this.major, this.minor, this.patch, this._text);

	Version._(this.major, this.minor, this.patch, this._text) {
	if (major < 0) {
	throw ArgumentError('Major version must be non-negative.');
	}
	if (minor < 0) {
	throw ArgumentError('Minor version must be non-negative.');
	}
	if (patch < 0) {
	throw ArgumentError('Patch version must be non-negative.');
	}
	}

	/// Creates a new [Version] by parsing [text].
	static Version? parse(String? text) {
	final Match? match = versionPattern.firstMatch(text ?? '');
	if (match == null) {
	return null;
	}

	try {
	final int major = int.parse(match[1] ?? '0');
	final int minor = int.parse(match[3] ?? '0');
	final int patch = int.parse(match[5] ?? '0');
	return Version._(major, minor, patch, text ?? '');
	} on FormatException {
	return null;
	}
	}

	/// Returns the primary version out of a list of candidates.
	///
	/// This is the highest-numbered stable version.
	static Version? primary(List<Version> versions) {
	Version? primary;
	for (final Version version in versions) {
	if (primary == null \|\| (version > primary)) {
	primary = version;
	}
	}
	return primary;
	}

	/// The major version number: "1" in "1.2.3".
	final int major;

	/// The minor version number: "2" in "1.2.3".
	final int minor;

	/// The patch version number: "3" in "1.2.3".
	final int patch;

	/// The original string representation of the version number.
	///
	/// This preserves textual artifacts like leading zeros that may be left out
	/// of the parsed version.
	final String _text;

	static final RegExp versionPattern =
	RegExp(r'^(\d+)(\.(\d+)(\.(\d+))?)?');

	/// Two [Version]s are equal if their version numbers are. The version text
	/// is ignored.
	@override
	bool operator ==(Object other) {
	return other is Version
	&& other.major == major
	&& other.minor == minor
	&& other.patch == patch;
	}

	@override
	int get hashCode => Object.hash(major, minor, patch);

	bool operator <(Version other) => compareTo(other) < 0;
	bool operator >(Version other) => compareTo(other) > 0;
	bool operator <=(Version other) => compareTo(other) <= 0;
	bool operator >=(Version other) => compareTo(other) >= 0;

	@override
	int compareTo(Version other) {
	if (major != other.major) {
	return major.compareTo(other.major);
	}
	if (minor != other.minor) {
	return minor.compareTo(other.minor);
	}
	return patch.compareTo(other.patch);
	}

	@override
	String toString() => _text;
	}

	/// Returns true if [targetVersion] is within the range [min] and [max]
	/// inclusive by default.
	///
	/// [min] and [max] are evaluated by [Version.parse(text)].
	///
	/// Pass [inclusiveMin] = false for greater than and not equal to min.
	/// Pass [inclusiveMax] = false for less than and not equal to max.
	bool isWithinVersionRange(
	String targetVersion, {
	required String min,
	required String max,
	bool inclusiveMax = true,
	bool inclusiveMin = true,
	}) {
	final Version? parsedTargetVersion = Version.parse(targetVersion);
	final Version? minVersion = Version.parse(min);
	final Version? maxVersion = Version.parse(max);

	final bool withinMin = minVersion != null &&
	parsedTargetVersion != null &&
	(inclusiveMin
	? parsedTargetVersion >= minVersion
	: parsedTargetVersion > minVersion);

	final bool withinMax = maxVersion != null &&
	parsedTargetVersion != null &&
	(inclusiveMax
	? parsedTargetVersion <= maxVersion
	: parsedTargetVersion < maxVersion);
	return withinMin && withinMax;
	}