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.TH "SEMVER" "7" "November 2016" "" ""
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.SH "NAME"
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\fBsemver\fR \- The semantic versioner for npm
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.SH Usage
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.P
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.RS 2
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.nf
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$ npm install semver
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$ node
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var semver = require('semver')
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semver\.valid('1\.2\.3') // '1\.2\.3'
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semver\.valid('a\.b\.c') // null
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semver\.clean(' =v1\.2\.3 ') // '1\.2\.3'
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semver\.satisfies('1\.2\.3', '1\.x || >=2\.5\.0 || 5\.0\.0 \- 7\.2\.3') // true
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semver\.gt('1\.2\.3', '9\.8\.7') // false
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semver\.lt('1\.2\.3', '9\.8\.7') // true
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.fi
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.RE
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.P
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As a command\-line utility:
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.P
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.RS 2
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.nf
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$ semver \-h
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SemVer 5\.1\.0
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A JavaScript implementation of the http://semver\.org/ specification
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Copyright Isaac Z\. Schlueter
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Usage: semver [options] <version> [<version> [\.\.\.]]
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Prints valid versions sorted by SemVer precedence
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Options:
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\-r \-\-range <range>
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Print versions that match the specified range\.
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\-i \-\-increment [<level>]
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Increment a version by the specified level\. Level can
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be one of: major, minor, patch, premajor, preminor,
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prepatch, or prerelease\. Default level is 'patch'\.
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Only one version may be specified\.
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\-\-preid <identifier>
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Identifier to be used to prefix premajor, preminor,
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prepatch or prerelease version increments\.
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\-l \-\-loose
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Interpret versions and ranges loosely
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Program exits successfully if any valid version satisfies
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all supplied ranges, and prints all satisfying versions\.
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If no satisfying versions are found, then exits failure\.
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Versions are printed in ascending order, so supplying
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multiple versions to the utility will just sort them\.
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.fi
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.RE
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.SH Versions
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.P
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A "version" is described by the \fBv2\.0\.0\fP specification found at
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http://semver\.org/\|\.
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.P
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A leading \fB"="\fP or \fB"v"\fP character is stripped off and ignored\.
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.SH Ranges
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.P
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A \fBversion range\fP is a set of \fBcomparators\fP which specify versions
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that satisfy the range\.
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.P
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A \fBcomparator\fP is composed of an \fBoperator\fP and a \fBversion\fP\|\. The set
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of primitive \fBoperators\fP is:
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.RS 0
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.IP \(bu 2
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\fB<\fP Less than
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.IP \(bu 2
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\fB<=\fP Less than or equal to
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.IP \(bu 2
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\fB>\fP Greater than
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.IP \(bu 2
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\fB>=\fP Greater than or equal to
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.IP \(bu 2
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\fB=\fP Equal\. If no operator is specified, then equality is assumed,
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so this operator is optional, but MAY be included\.
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.RE
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.P
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For example, the comparator \fB>=1\.2\.7\fP would match the versions
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\fB1\.2\.7\fP, \fB1\.2\.8\fP, \fB2\.5\.3\fP, and \fB1\.3\.9\fP, but not the versions \fB1\.2\.6\fP
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or \fB1\.1\.0\fP\|\.
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.P
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Comparators can be joined by whitespace to form a \fBcomparator set\fP,
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which is satisfied by the \fBintersection\fR of all of the comparators
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it includes\.
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.P
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A range is composed of one or more comparator sets, joined by \fB||\fP\|\. A
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version matches a range if and only if every comparator in at least
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one of the \fB||\fP\-separated comparator sets is satisfied by the version\.
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.P
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For example, the range \fB>=1\.2\.7 <1\.3\.0\fP would match the versions
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\fB1\.2\.7\fP, \fB1\.2\.8\fP, and \fB1\.2\.99\fP, but not the versions \fB1\.2\.6\fP, \fB1\.3\.0\fP,
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or \fB1\.1\.0\fP\|\.
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.P
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The range \fB1\.2\.7 || >=1\.2\.9 <2\.0\.0\fP would match the versions \fB1\.2\.7\fP,
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\fB1\.2\.9\fP, and \fB1\.4\.6\fP, but not the versions \fB1\.2\.8\fP or \fB2\.0\.0\fP\|\.
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.SS Prerelease Tags
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.P
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If a version has a prerelease tag (for example, \fB1\.2\.3\-alpha\.3\fP) then
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it will only be allowed to satisfy comparator sets if at least one
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comparator with the same \fB[major, minor, patch]\fP tuple also has a
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prerelease tag\.
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.P
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For example, the range \fB>1\.2\.3\-alpha\.3\fP would be allowed to match the
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version \fB1\.2\.3\-alpha\.7\fP, but it would \fInot\fR be satisfied by
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\fB3\.4\.5\-alpha\.9\fP, even though \fB3\.4\.5\-alpha\.9\fP is technically "greater
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than" \fB1\.2\.3\-alpha\.3\fP according to the SemVer sort rules\. The version
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range only accepts prerelease tags on the \fB1\.2\.3\fP version\. The
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version \fB3\.4\.5\fP \fIwould\fR satisfy the range, because it does not have a
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prerelease flag, and \fB3\.4\.5\fP is greater than \fB1\.2\.3\-alpha\.7\fP\|\.
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.P
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The purpose for this behavior is twofold\. First, prerelease versions
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frequently are updated very quickly, and contain many breaking changes
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that are (by the author's design) not yet fit for public consumption\.
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Therefore, by default, they are excluded from range matching
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semantics\.
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.P
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Second, a user who has opted into using a prerelease version has
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clearly indicated the intent to use \fIthat specific\fR set of
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alpha/beta/rc versions\. By including a prerelease tag in the range,
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the user is indicating that they are aware of the risk\. However, it
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is still not appropriate to assume that they have opted into taking a
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similar risk on the \fInext\fR set of prerelease versions\.
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.SS Prerelease Identifiers
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.P
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The method \fB\|\.inc\fP takes an additional \fBidentifier\fP string argument that
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will append the value of the string as a prerelease identifier:
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.P
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.RS 2
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.nf
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> semver\.inc('1\.2\.3', 'prerelease', 'beta')
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\|'1\.2\.4\-beta\.0'
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.fi
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.RE
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.P
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command\-line example:
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.P
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.RS 2
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.nf
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$ semver 1\.2\.3 \-i prerelease \-\-preid beta
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1\.2\.4\-beta\.0
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.fi
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.RE
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.P
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Which then can be used to increment further:
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.P
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.RS 2
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.nf
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$ semver 1\.2\.4\-beta\.0 \-i prerelease
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1\.2\.4\-beta\.1
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.fi
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.RE
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.SS Advanced Range Syntax
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.P
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Advanced range syntax desugars to primitive comparators in
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deterministic ways\.
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.P
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Advanced ranges may be combined in the same way as primitive
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comparators using white space or \fB||\fP\|\.
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.SS Hyphen Ranges \fBX\.Y\.Z \- A\.B\.C\fP
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.P
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Specifies an inclusive set\.
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.RS 0
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.IP \(bu 2
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\fB1\.2\.3 \- 2\.3\.4\fP := \fB>=1\.2\.3 <=2\.3\.4\fP
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.RE
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.P
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If a partial version is provided as the first version in the inclusive
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range, then the missing pieces are replaced with zeroes\.
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.RS 0
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.IP \(bu 2
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\fB1\.2 \- 2\.3\.4\fP := \fB>=1\.2\.0 <=2\.3\.4\fP
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.RE
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.P
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If a partial version is provided as the second version in the
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inclusive range, then all versions that start with the supplied parts
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of the tuple are accepted, but nothing that would be greater than the
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provided tuple parts\.
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.RS 0
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.IP \(bu 2
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\fB1\.2\.3 \- 2\.3\fP := \fB>=1\.2\.3 <2\.4\.0\fP
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.IP \(bu 2
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\fB1\.2\.3 \- 2\fP := \fB>=1\.2\.3 <3\.0\.0\fP
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.RE
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.SS X\-Ranges \fB1\.2\.x\fP \fB1\.X\fP \fB1\.2\.*\fP \fB*\fP
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.P
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Any of \fBX\fP, \fBx\fP, or \fB*\fP may be used to "stand in" for one of the
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numeric values in the \fB[major, minor, patch]\fP tuple\.
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.RS 0
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.IP \(bu 2
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\fB*\fP := \fB>=0\.0\.0\fP (Any version satisfies)
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.IP \(bu 2
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\fB1\.x\fP := \fB>=1\.0\.0 <2\.0\.0\fP (Matching major version)
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.IP \(bu 2
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\fB1\.2\.x\fP := \fB>=1\.2\.0 <1\.3\.0\fP (Matching major and minor versions)
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.RE
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.P
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A partial version range is treated as an X\-Range, so the special
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character is in fact optional\.
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.RS 0
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.IP \(bu 2
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\fB""\fP (empty string) := \fB*\fP := \fB>=0\.0\.0\fP
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.IP \(bu 2
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\fB1\fP := \fB1\.x\.x\fP := \fB>=1\.0\.0 <2\.0\.0\fP
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.IP \(bu 2
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\fB1\.2\fP := \fB1\.2\.x\fP := \fB>=1\.2\.0 <1\.3\.0\fP
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.RE
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.SS Tilde Ranges \fB~1\.2\.3\fP \fB~1\.2\fP \fB~1\fP
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.P
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Allows patch\-level changes if a minor version is specified on the
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comparator\. Allows minor\-level changes if not\.
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.RS 0
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.IP \(bu 2
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\fB~1\.2\.3\fP := \fB>=1\.2\.3 <1\.(2+1)\.0\fP := \fB>=1\.2\.3 <1\.3\.0\fP
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.IP \(bu 2
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\fB~1\.2\fP := \fB>=1\.2\.0 <1\.(2+1)\.0\fP := \fB>=1\.2\.0 <1\.3\.0\fP (Same as \fB1\.2\.x\fP)
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.IP \(bu 2
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\fB~1\fP := \fB>=1\.0\.0 <(1+1)\.0\.0\fP := \fB>=1\.0\.0 <2\.0\.0\fP (Same as \fB1\.x\fP)
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.IP \(bu 2
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\fB~0\.2\.3\fP := \fB>=0\.2\.3 <0\.(2+1)\.0\fP := \fB>=0\.2\.3 <0\.3\.0\fP
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.IP \(bu 2
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\fB~0\.2\fP := \fB>=0\.2\.0 <0\.(2+1)\.0\fP := \fB>=0\.2\.0 <0\.3\.0\fP (Same as \fB0\.2\.x\fP)
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.IP \(bu 2
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\fB~0\fP := \fB>=0\.0\.0 <(0+1)\.0\.0\fP := \fB>=0\.0\.0 <1\.0\.0\fP (Same as \fB0\.x\fP)
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.IP \(bu 2
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\fB~1\.2\.3\-beta\.2\fP := \fB>=1\.2\.3\-beta\.2 <1\.3\.0\fP Note that prereleases in
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the \fB1\.2\.3\fP version will be allowed, if they are greater than or
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equal to \fBbeta\.2\fP\|\. So, \fB1\.2\.3\-beta\.4\fP would be allowed, but
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\fB1\.2\.4\-beta\.2\fP would not, because it is a prerelease of a
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different \fB[major, minor, patch]\fP tuple\.
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.RE
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.SS Caret Ranges \fB^1\.2\.3\fP \fB^0\.2\.5\fP \fB^0\.0\.4\fP
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.P
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Allows changes that do not modify the left\-most non\-zero digit in the
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\fB[major, minor, patch]\fP tuple\. In other words, this allows patch and
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minor updates for versions \fB1\.0\.0\fP and above, patch updates for
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versions \fB0\.X >=0\.1\.0\fP, and \fIno\fR updates for versions \fB0\.0\.X\fP\|\.
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.P
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Many authors treat a \fB0\.x\fP version as if the \fBx\fP were the major
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"breaking\-change" indicator\.
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.P
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Caret ranges are ideal when an author may make breaking changes
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between \fB0\.2\.4\fP and \fB0\.3\.0\fP releases, which is a common practice\.
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However, it presumes that there will \fInot\fR be breaking changes between
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\fB0\.2\.4\fP and \fB0\.2\.5\fP\|\. It allows for changes that are presumed to be
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additive (but non\-breaking), according to commonly observed practices\.
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.RS 0
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.IP \(bu 2
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\fB^1\.2\.3\fP := \fB>=1\.2\.3 <2\.0\.0\fP
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.IP \(bu 2
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\fB^0\.2\.3\fP := \fB>=0\.2\.3 <0\.3\.0\fP
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.IP \(bu 2
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\fB^0\.0\.3\fP := \fB>=0\.0\.3 <0\.0\.4\fP
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.IP \(bu 2
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\fB^1\.2\.3\-beta\.2\fP := \fB>=1\.2\.3\-beta\.2 <2\.0\.0\fP Note that prereleases in
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the \fB1\.2\.3\fP version will be allowed, if they are greater than or
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equal to \fBbeta\.2\fP\|\. So, \fB1\.2\.3\-beta\.4\fP would be allowed, but
|
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\fB1\.2\.4\-beta\.2\fP would not, because it is a prerelease of a
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different \fB[major, minor, patch]\fP tuple\.
|
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.IP \(bu 2
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\fB^0\.0\.3\-beta\fP := \fB>=0\.0\.3\-beta <0\.0\.4\fP Note that prereleases in the
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\fB0\.0\.3\fP version \fIonly\fR will be allowed, if they are greater than or
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equal to \fBbeta\fP\|\. So, \fB0\.0\.3\-pr\.2\fP would be allowed\.
|
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.RE
|
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.P
|
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|
When parsing caret ranges, a missing \fBpatch\fP value desugars to the
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number \fB0\fP, but will allow flexibility within that value, even if the
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major and minor versions are both \fB0\fP\|\.
|
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.RS 0
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.IP \(bu 2
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\fB^1\.2\.x\fP := \fB>=1\.2\.0 <2\.0\.0\fP
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.IP \(bu 2
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\fB^0\.0\.x\fP := \fB>=0\.0\.0 <0\.1\.0\fP
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.IP \(bu 2
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\fB^0\.0\fP := \fB>=0\.0\.0 <0\.1\.0\fP
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.RE
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.P
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A missing \fBminor\fP and \fBpatch\fP values will desugar to zero, but also
|
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|
allow flexibility within those values, even if the major version is
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zero\.
|
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|
.RS 0
|
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.IP \(bu 2
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|
\fB^1\.x\fP := \fB>=1\.0\.0 <2\.0\.0\fP
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.IP \(bu 2
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\fB^0\.x\fP := \fB>=0\.0\.0 <1\.0\.0\fP
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.RE
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.SS Range Grammar
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.P
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Putting all this together, here is a Backus\-Naur grammar for ranges,
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for the benefit of parser authors:
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.P
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.RS 2
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.nf
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range\-set ::= range ( logical\-or range ) *
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logical\-or ::= ( ' ' ) * '||' ( ' ' ) *
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range ::= hyphen | simple ( ' ' simple ) * | ''
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hyphen ::= partial ' \- ' partial
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simple ::= primitive | partial | tilde | caret
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primitive ::= ( '<' | '>' | '>=' | '<=' | '=' | ) partial
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partial ::= xr ( '\.' xr ( '\.' xr qualifier ? )? )?
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xr ::= 'x' | 'X' | '*' | nr
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nr ::= '0' | ['1'\-'9'] ( ['0'\-'9'] ) *
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tilde ::= '~' partial
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caret ::= '^' partial
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qualifier ::= ( '\-' pre )? ( '+' build )?
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pre ::= parts
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build ::= parts
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parts ::= part ( '\.' part ) *
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part ::= nr | [\-0\-9A\-Za\-z]+
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.fi
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.RE
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.SH Functions
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.P
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All methods and classes take a final \fBloose\fP boolean argument that, if
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true, will be more forgiving about not\-quite\-valid semver strings\.
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The resulting output will always be 100% strict, of course\.
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.P
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Strict\-mode Comparators and Ranges will be strict about the SemVer
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strings that they parse\.
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.RS 0
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.IP \(bu 2
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\fBvalid(v)\fP: Return the parsed version, or null if it's not valid\.
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.IP \(bu 2
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\fBinc(v, release)\fP: Return the version incremented by the release
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type (\fBmajor\fP, \fBpremajor\fP, \fBminor\fP, \fBpreminor\fP, \fBpatch\fP,
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\fBprepatch\fP, or \fBprerelease\fP), or null if it's not valid
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.RS 0
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.IP \(bu 2
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\fBpremajor\fP in one call will bump the version up to the next major
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version and down to a prerelease of that major version\.
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\fBpreminor\fP, and \fBprepatch\fP work the same way\.
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.IP \(bu 2
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If called from a non\-prerelease version, the \fBprerelease\fP will work the
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same as \fBprepatch\fP\|\. It increments the patch version, then makes a
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prerelease\. If the input version is already a prerelease it simply
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increments it\.
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.RE
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.IP \(bu 2
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\fBprerelease(v)\fP: Returns an array of prerelease components, or null
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if none exist\. Example: \fBprerelease('1\.2\.3\-alpha\.1') \-> ['alpha', 1]\fP
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.IP \(bu 2
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\fBmajor(v)\fP: Return the major version number\.
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.IP \(bu 2
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\fBminor(v)\fP: Return the minor version number\.
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.IP \(bu 2
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\fBpatch(v)\fP: Return the patch version number\.
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.RE
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.SS Comparison
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.RS 0
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.IP \(bu 2
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\fBgt(v1, v2)\fP: \fBv1 > v2\fP
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.IP \(bu 2
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\fBgte(v1, v2)\fP: \fBv1 >= v2\fP
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.IP \(bu 2
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\fBlt(v1, v2)\fP: \fBv1 < v2\fP
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.IP \(bu 2
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\fBlte(v1, v2)\fP: \fBv1 <= v2\fP
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.IP \(bu 2
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\fBeq(v1, v2)\fP: \fBv1 == v2\fP This is true if they're logically equivalent,
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even if they're not the exact same string\. You already know how to
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compare strings\.
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.IP \(bu 2
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\fBneq(v1, v2)\fP: \fBv1 != v2\fP The opposite of \fBeq\fP\|\.
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.IP \(bu 2
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\fBcmp(v1, comparator, v2)\fP: Pass in a comparison string, and it'll call
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the corresponding function above\. \fB"==="\fP and \fB"!=="\fP do simple
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string comparison, but are included for completeness\. Throws if an
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invalid comparison string is provided\.
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.IP \(bu 2
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\fBcompare(v1, v2)\fP: Return \fB0\fP if \fBv1 == v2\fP, or \fB1\fP if \fBv1\fP is greater, or \fB\-1\fP if
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\fBv2\fP is greater\. Sorts in ascending order if passed to \fBArray\.sort()\fP\|\.
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.IP \(bu 2
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\fBrcompare(v1, v2)\fP: The reverse of compare\. Sorts an array of versions
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in descending order when passed to \fBArray\.sort()\fP\|\.
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.IP \(bu 2
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\fBdiff(v1, v2)\fP: Returns difference between two versions by the release type
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(\fBmajor\fP, \fBpremajor\fP, \fBminor\fP, \fBpreminor\fP, \fBpatch\fP, \fBprepatch\fP, or \fBprerelease\fP),
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or null if the versions are the same\.
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.RE
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.SS Ranges
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.RS 0
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.IP \(bu 2
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\fBvalidRange(range)\fP: Return the valid range or null if it's not valid
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.IP \(bu 2
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\fBsatisfies(version, range)\fP: Return true if the version satisfies the
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range\.
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.IP \(bu 2
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\fBmaxSatisfying(versions, range)\fP: Return the highest version in the list
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that satisfies the range, or \fBnull\fP if none of them do\.
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.IP \(bu 2
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\fBminSatisfying(versions, range)\fP: Return the lowest version in the list
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that satisfies the range, or \fBnull\fP if none of them do\.
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.IP \(bu 2
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\fBgtr(version, range)\fP: Return \fBtrue\fP if version is greater than all the
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versions possible in the range\.
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.IP \(bu 2
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\fBltr(version, range)\fP: Return \fBtrue\fP if version is less than all the
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versions possible in the range\.
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.IP \(bu 2
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\fBoutside(version, range, hilo)\fP: Return true if the version is outside
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the bounds of the range in either the high or low direction\. The
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\fBhilo\fP argument must be either the string \fB\|'>'\fP or \fB\|'<'\fP\|\. (This is
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the function called by \fBgtr\fP and \fBltr\fP\|\.)
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.RE
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.P
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Note that, since ranges may be non\-contiguous, a version might not be
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greater than a range, less than a range, \fIor\fR satisfy a range! For
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example, the range \fB1\.2 <1\.2\.9 || >2\.0\.0\fP would have a hole from \fB1\.2\.9\fP
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until \fB2\.0\.0\fP, so the version \fB1\.2\.10\fP would not be greater than the
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range (because \fB2\.0\.1\fP satisfies, which is higher), nor less than the
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range (since \fB1\.2\.8\fP satisfies, which is lower), and it also does not
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satisfy the range\.
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.P
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If you want to know if a version satisfies or does not satisfy a
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range, use the \fBsatisfies(version, range)\fP function\.
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