diff options
author | Boris Kolpackov <boris@codesynthesis.com> | 2022-07-11 07:17:31 +0200 |
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committer | Boris Kolpackov <boris@codesynthesis.com> | 2022-07-11 07:17:31 +0200 |
commit | 05cc639f63a88bc4fa335c974cd68ac665cd42b2 (patch) | |
tree | c1c632783e95d352634659002d92322435e11211 /doc | |
parent | d2a4682d868290f1a5e0e4c4aac91f6f900bb0ad (diff) |
Move details on $ translation to Package Version Constraint section in manual
Diffstat (limited to 'doc')
-rw-r--r-- | doc/manual.cli | 173 |
1 files changed, 92 insertions, 81 deletions
diff --git a/doc/manual.cli b/doc/manual.cli index 117891e..599b571 100644 --- a/doc/manual.cli +++ b/doc/manual.cli @@ -297,6 +297,92 @@ operators. While it is possible that the original manifest specified equality or shortucts as full ranges, it is acceptable to display/serialize them as simpler operators.| +Instead of a concrete value, the version in the constraint can be specified in +terms of the dependent package's version (that is, the version of the package +placing the constraint) using the special \c{$} value. For example: + +\ +libfoo == $ +\ + +A constraint that contains \c{$} is called incomplete. This mechanism is +primarily useful when developing related packages that should track each +other's versions exactly or closely. + +In comparison operators and ranges the \c{$} value is replaced with the +dependent version ignoring the revision. For shortcut operators, the dependent +version must be a standard version and the following additional processing is +applied depending on whether the version is a release, final pre-release, or a +snapshot pre-release. + +\ol| + +\li|For a release we set the min version patch to zero. For \c{^} we also set +the minor version to zero, unless the major version is zero (reduces to +\c{~}). The max version is set according to the standard shortcut logic. For +example, \c{~$} is completed as follows: + +\ +1.2.0 -> [1.2.0 1.3.0-) +1.2.1 -> [1.2.0 1.3.0-) +1.2.2 -> [1.2.0 1.3.0-) +\ + +And \c{^$} is completed as follows: + +\ +1.0.0 -> [1.0.0 2.0.0-) +1.1.1 -> [1.0.0 2.0.0-) +\ + +| + +\li|For a final pre-release the key observation is that if the patch +component for \c{~} or minor and patch components for \c{^} are not zero, then +that means there has been a compatible release and we treat this case the same +as release, ignoring the pre-release part. If, however, it/they are zero, then +that means there may yet be no final release and we have to start from the +first alpha. For example, for the \c{~$} case: + +\ +1.2.0-a.1 -> [1.2.0-a.1 1.3.0-) +1.2.0-b.2 -> [1.2.0-a.1 1.3.0-) +1.2.1-a.1 -> [1.2.0 1.3.0-) +1.2.2-b.2 -> [1.2.0 1.3.0-) +\ + +And for the \c{^$} case: + +\ +1.0.0-a.1 -> [1.0.0-a.1 2.0.0-) +1.0.0-b.2 -> [1.0.0-a.1 2.0.0-) +1.0.1-a.1 -> [1.0.0 2.0.0-) +1.1.0-b.2 -> [1.0.0 2.0.0-) +\ + +| + +\li|For a snapshot pre-release we distinguish two cases: a patch snapshot +(the patch component is not zero) and a major/minor snapshot (the patch +component is zero). For the patch snapshot case we assume that it is (most +likely) developed independently of the dependency and we treat it the same as +the final pre-release case. For example, if the dependent version is +\c{1.2.1-a.0.nnn}, the dependency could be \c{1.2.0} or \c{1.2.2} (or +somewhere in-between). + +For the major/minor snapshot we assume that all the packages are developed in +the lockstep and have the same \c{X.Y.0} version. In this case we make the +range start from the earliest possible version in this \"snapshot series\" and +end before the final pre-release. For example (in this case \c{~} and \c{^} +are treated the same): + +\ +1.2.0-a.0.nnn -> [1.2.0-a.0.1 1.2.0-a.1) +2.0.0-b.2.nnn -> [2.0.0-b.2.1 2.0.0-b.3) +\ + +|| + \h1#manifests|Manifests| @@ -1116,13 +1202,12 @@ It is recommended that you specify unconditional dependencies first with simple (no alternatives) dependencies leading each set. See \l{#package-version-constraint Package Version Constraint} for the format -and semantics of the optional version constraint. Instead of a concrete -value, it can also be specified in terms of the dependent package's version -(that is, its \l{#manifest-package-version \c{version}} value) using the -special \c{$} value. A \c{depends} value that contains \c{$} is called -incomplete. This mechanism is primarily useful when developing related -packages that should track each other's versions exactly or closely. For -example: +and semantics of the optional version constraint. Instead of a concrete value, +the version in the constraint can also be specified in terms of the dependent +package's version (that is, its \l{#manifest-package-version \c{version}} +value) using the special \c{$} value. This mechanism is primarily useful when +developing related packages that should track each other's versions exactly or +closely. For example: \ name: sqlite3 @@ -1130,80 +1215,6 @@ version: 3.18.2 depends: libsqlite3 == $ \ -In comparison operators and ranges the \c{$} value is replaced with the -dependent version ignoring the revision. For shortcut operators, the dependent -version must be a standard version and the following additional processing is -applied depending on whether the version is a release, final pre-release, or a -snapshot pre-release. - -\ol| - -\li|For a release we set the min version patch to zero. For \c{^} we also set -the minor version to zero, unless the major version is zero (reduces to -\c{~}). The max version is set according to the standard shortcut logic. For -example, \c{~$} is completed as follows: - -\ -1.2.0 -> [1.2.0 1.3.0-) -1.2.1 -> [1.2.0 1.3.0-) -1.2.2 -> [1.2.0 1.3.0-) -\ - -And \c{^$} is completed as follows: - -\ -1.0.0 -> [1.0.0 2.0.0-) -1.1.1 -> [1.0.0 2.0.0-) -\ - -| - -\li|For a final pre-release the key observation is that if the patch -component for \c{~} or minor and patch components for \c{^} are not zero, then -that means there has been a compatible release and we treat this case the same -as release, ignoring the pre-release part. If, however, it/they are zero, then -that means there may yet be no final release and we have to start from the -first alpha. For example, for the \c{~$} case: - -\ -1.2.0-a.1 -> [1.2.0-a.1 1.3.0-) -1.2.0-b.2 -> [1.2.0-a.1 1.3.0-) -1.2.1-a.1 -> [1.2.0 1.3.0-) -1.2.2-b.2 -> [1.2.0 1.3.0-) -\ - -And for the \c{^$} case: - -\ -1.0.0-a.1 -> [1.0.0-a.1 2.0.0-) -1.0.0-b.2 -> [1.0.0-a.1 2.0.0-) -1.0.1-a.1 -> [1.0.0 2.0.0-) -1.1.0-b.2 -> [1.0.0 2.0.0-) -\ - -| - -\li|For a snapshot pre-release we distinguish two cases: a patch snapshot -(the patch component is not zero) and a major/minor snapshot (the patch -component is zero). For the patch snapshot case we assume that it is (most -likely) developed independently of the dependency and we treat it the same as -the final pre-release case. For example, if the dependent version is -\c{1.2.1-a.0.nnn}, the dependency could be \c{1.2.0} or \c{1.2.2} (or -somewhere in-between). - -For the major/minor snapshot we assume that all the packages are developed in -the lockstep and have the same \c{X.Y.0} version. In this case we make the -range start from the earliest possible version in this \"snapshot series\" and -end before the final pre-release. For example (in this case \c{~} and \c{^} -are treated the same): - -\ -1.2.0-a.0.nnn -> [1.2.0-a.0.1 1.2.0-a.1) -2.0.0-b.2.nnn -> [2.0.0-b.2.1 2.0.0-b.3) -\ - -|| - \h2#manifest-package-requires|\c{requires}| |