Copyright | Isaac Jones, Simon Marlow 2003-2004 Duncan Coutts 2008 |
---|---|
License | BSD3 |
Maintainer | cabal-devel@haskell.org |
Portability | portable |
Safe Haskell | Safe |
Language | Haskell98 |
Exports the Version
type along with a parser and pretty printer. A version
is something like "1.3.3"
. It also defines the VersionRange
data
types. Version ranges are like ">= 1.2 && < 2"
.
- data Version :: * = Version {
- versionBranch :: [Int]
- versionTags :: [String]
- data VersionRange
- anyVersion :: VersionRange
- noVersion :: VersionRange
- thisVersion :: Version -> VersionRange
- notThisVersion :: Version -> VersionRange
- laterVersion :: Version -> VersionRange
- earlierVersion :: Version -> VersionRange
- orLaterVersion :: Version -> VersionRange
- orEarlierVersion :: Version -> VersionRange
- unionVersionRanges :: VersionRange -> VersionRange -> VersionRange
- intersectVersionRanges :: VersionRange -> VersionRange -> VersionRange
- invertVersionRange :: VersionRange -> VersionRange
- withinVersion :: Version -> VersionRange
- betweenVersionsInclusive :: Version -> Version -> VersionRange
- withinRange :: Version -> VersionRange -> Bool
- isAnyVersion :: VersionRange -> Bool
- isNoVersion :: VersionRange -> Bool
- isSpecificVersion :: VersionRange -> Maybe Version
- simplifyVersionRange :: VersionRange -> VersionRange
- foldVersionRange :: a -> (Version -> a) -> (Version -> a) -> (Version -> a) -> (a -> a -> a) -> (a -> a -> a) -> VersionRange -> a
- foldVersionRange' :: a -> (Version -> a) -> (Version -> a) -> (Version -> a) -> (Version -> a) -> (Version -> a) -> (Version -> Version -> a) -> (a -> a -> a) -> (a -> a -> a) -> (a -> a) -> VersionRange -> a
- hasUpperBound :: VersionRange -> Bool
- hasLowerBound :: VersionRange -> Bool
- removeUpperBound :: VersionRange -> VersionRange
- asVersionIntervals :: VersionRange -> [VersionInterval]
- type VersionInterval = (LowerBound, UpperBound)
- data LowerBound = LowerBound Version !Bound
- data UpperBound
- data Bound
- data VersionIntervals
- toVersionIntervals :: VersionRange -> VersionIntervals
- fromVersionIntervals :: VersionIntervals -> VersionRange
- withinIntervals :: Version -> VersionIntervals -> Bool
- versionIntervals :: VersionIntervals -> [VersionInterval]
- mkVersionIntervals :: [VersionInterval] -> Maybe VersionIntervals
- unionVersionIntervals :: VersionIntervals -> VersionIntervals -> VersionIntervals
- intersectVersionIntervals :: VersionIntervals -> VersionIntervals -> VersionIntervals
- invertVersionIntervals :: VersionIntervals -> VersionIntervals
Package versions
A Version
represents the version of a software entity.
An instance of Eq
is provided, which implements exact equality
modulo reordering of the tags in the versionTags
field.
An instance of Ord
is also provided, which gives lexicographic
ordering on the versionBranch
fields (i.e. 2.1 > 2.0, 1.2.3 > 1.2.2,
etc.). This is expected to be sufficient for many uses, but note that
you may need to use a more specific ordering for your versioning
scheme. For example, some versioning schemes may include pre-releases
which have tags "pre1"
, "pre2"
, and so on, and these would need to
be taken into account when determining ordering. In some cases, date
ordering may be more appropriate, so the application would have to
look for date
tags in the versionTags
field and compare those.
The bottom line is, don't always assume that compare
and other Ord
operations are the right thing for every Version
.
Similarly, concrete representations of versions may differ. One
possible concrete representation is provided (see showVersion
and
parseVersion
), but depending on the application a different concrete
representation may be more appropriate.
Version | |
|
Version ranges
data VersionRange Source #
AnyVersion | Deprecated: Use |
ThisVersion Version | Deprecated: Use |
LaterVersion Version | Deprecated: Use |
EarlierVersion Version | Deprecated: Use |
WildcardVersion Version | Deprecated: Use |
UnionVersionRanges VersionRange VersionRange | Deprecated: Use |
IntersectVersionRanges VersionRange VersionRange | Deprecated: Use |
VersionRangeParens VersionRange |
Constructing
anyVersion :: VersionRange Source #
The version range -any
. That is, a version range containing all
versions.
withinRange v anyVersion = True
noVersion :: VersionRange Source #
The empty version range, that is a version range containing no versions.
This can be constructed using any unsatisfiable version range expression,
for example > 1 && < 1
.
withinRange v noVersion = False
thisVersion :: Version -> VersionRange Source #
The version range == v
withinRange v' (thisVersion v) = v' == v
notThisVersion :: Version -> VersionRange Source #
The version range || v
withinRange v' (notThisVersion v) = v' /= v
laterVersion :: Version -> VersionRange Source #
The version range > v
withinRange v' (laterVersion v) = v' > v
earlierVersion :: Version -> VersionRange Source #
The version range < v
withinRange v' (earlierVersion v) = v' < v
orLaterVersion :: Version -> VersionRange Source #
The version range >= v
withinRange v' (orLaterVersion v) = v' >= v
orEarlierVersion :: Version -> VersionRange Source #
The version range <= v
withinRange v' (orEarlierVersion v) = v' <= v
unionVersionRanges :: VersionRange -> VersionRange -> VersionRange Source #
The version range vr1 || vr2
withinRange v' (unionVersionRanges vr1 vr2) = withinRange v' vr1 || withinRange v' vr2
intersectVersionRanges :: VersionRange -> VersionRange -> VersionRange Source #
The version range vr1 && vr2
withinRange v' (intersectVersionRanges vr1 vr2) = withinRange v' vr1 && withinRange v' vr2
invertVersionRange :: VersionRange -> VersionRange Source #
The inverse of a version range
withinRange v' (invertVersionRange vr) = not (withinRange v' vr)
withinVersion :: Version -> VersionRange Source #
The version range == v.*
.
For example, for version 1.2
, the version range == 1.2.*
is the same as
>= 1.2 && < 1.3
withinRange v' (laterVersion v) = v' >= v && v' < upper v where upper (Version lower t) = Version (init lower ++ [last lower + 1]) t
betweenVersionsInclusive :: Version -> Version -> VersionRange Source #
Deprecated: In practice this is not very useful because we normally use inclusive lower bounds and exclusive upper bounds
The version range >= v1 && <= v2
.
In practice this is not very useful because we normally use inclusive lower bounds and exclusive upper bounds.
withinRange v' (laterVersion v) = v' > v
Inspection
withinRange :: Version -> VersionRange -> Bool Source #
Does this version fall within the given range?
This is the evaluation function for the VersionRange
type.
isAnyVersion :: VersionRange -> Bool Source #
Does this VersionRange
place any restriction on the Version
or is it
in fact equivalent to AnyVersion
.
Note this is a semantic check, not simply a syntactic check. So for example
the following is True
(for all v
).
isAnyVersion (EarlierVersion v `UnionVersionRanges` orLaterVersion v)
isNoVersion :: VersionRange -> Bool Source #
This is the converse of isAnyVersion
. It check if the version range is
empty, if there is no possible version that satisfies the version range.
For example this is True
(for all v
):
isNoVersion (EarlierVersion v `IntersectVersionRanges` LaterVersion v)
isSpecificVersion :: VersionRange -> Maybe Version Source #
Is this version range in fact just a specific version?
For example the version range ">= 3 && <= 3"
contains only the version
3
.
simplifyVersionRange :: VersionRange -> VersionRange Source #
Simplify a VersionRange
expression. For non-empty version ranges
this produces a canonical form. Empty or inconsistent version ranges
are left as-is because that provides more information.
If you need a canonical form use
fromVersionIntervals . toVersionIntervals
It satisfies the following properties:
withinRange v (simplifyVersionRange r) = withinRange v r
withinRange v r = withinRange v r' ==> simplifyVersionRange r = simplifyVersionRange r' || isNoVersion r || isNoVersion r'
:: a |
|
-> (Version -> a) | "== v" |
-> (Version -> a) | "> v" |
-> (Version -> a) | "< v" |
-> (a -> a -> a) |
|
-> (a -> a -> a) |
|
-> VersionRange | |
-> a |
Fold over the basic syntactic structure of a VersionRange
.
This provides a syntactic view of the expression defining the version range.
The syntactic sugar ">= v"
, "<= v"
and "== v.*"
is presented
in terms of the other basic syntax.
For a semantic view use asVersionIntervals
.
:: a |
|
-> (Version -> a) | "== v" |
-> (Version -> a) | "> v" |
-> (Version -> a) | "< v" |
-> (Version -> a) | ">= v" |
-> (Version -> a) | "<= v" |
-> (Version -> Version -> a) |
|
-> (a -> a -> a) |
|
-> (a -> a -> a) |
|
-> (a -> a) |
|
-> VersionRange | |
-> a |
An extended variant of foldVersionRange
that also provides a view of the
expression in which the syntactic sugar ">= v"
, "<= v"
and "==
v.*"
is presented explicitly rather than in terms of the other basic
syntax.
hasUpperBound :: VersionRange -> Bool Source #
Does the version range have an upper bound?
Since: 1.24.0.0
hasLowerBound :: VersionRange -> Bool Source #
Does the version range have an explicit lower bound?
Note: this function only considers the user-specified lower bounds, but not the implicit >=0 lower bound.
Since: 1.24.0.0
Modification
removeUpperBound :: VersionRange -> VersionRange Source #
Given a version range, remove the highest upper bound. Example: (>= 1 && <
3) || (>= 4 && < 5)
is converted to (>= 1 && || (= 4)
.
Version intervals view
asVersionIntervals :: VersionRange -> [VersionInterval] Source #
View a VersionRange
as a union of intervals.
This provides a canonical view of the semantics of a VersionRange
as
opposed to the syntax of the expression used to define it. For the syntactic
view use foldVersionRange
.
Each interval is non-empty. The sequence is in increasing order and no
intervals overlap or touch. Therefore only the first and last can be
unbounded. The sequence can be empty if the range is empty
(e.g. a range expression like && 2
).
Other checks are trivial to implement using this view. For example:
isNoVersion vr | [] <- asVersionIntervals vr = True | otherwise = False
isSpecificVersion vr | [(LowerBound v InclusiveBound ,UpperBound v' InclusiveBound)] <- asVersionIntervals vr , v == v' = Just v | otherwise = Nothing
type VersionInterval = (LowerBound, UpperBound) Source #
data LowerBound Source #
data UpperBound Source #
VersionIntervals
abstract type
The VersionIntervals
type and the accompanying functions are exposed
primarily for completeness and testing purposes. In practice
asVersionIntervals
is the main function to use to
view a VersionRange
as a bunch of VersionInterval
s.
data VersionIntervals Source #
A complementary representation of a VersionRange
. Instead of a boolean
version predicate it uses an increasing sequence of non-overlapping,
non-empty intervals.
The key point is that this representation gives a canonical representation
for the semantics of VersionRange
s. This makes it easier to check things
like whether a version range is empty, covers all versions, or requires a
certain minimum or maximum version. It also makes it easy to check equality
or containment. It also makes it easier to identify 'simple' version
predicates for translation into foreign packaging systems that do not
support complex version range expressions.
toVersionIntervals :: VersionRange -> VersionIntervals Source #
Convert a VersionRange
to a sequence of version intervals.
fromVersionIntervals :: VersionIntervals -> VersionRange Source #
Convert a VersionIntervals
value back into a VersionRange
expression
representing the version intervals.
withinIntervals :: Version -> VersionIntervals -> Bool Source #
Test if a version falls within the version intervals.
It exists mostly for completeness and testing. It satisfies the following properties:
withinIntervals v (toVersionIntervals vr) = withinRange v vr withinIntervals v ivs = withinRange v (fromVersionIntervals ivs)
versionIntervals :: VersionIntervals -> [VersionInterval] Source #
Inspect the list of version intervals.
mkVersionIntervals :: [VersionInterval] -> Maybe VersionIntervals Source #
Directly construct a VersionIntervals
from a list of intervals.
Each interval must be non-empty. The sequence must be in increasing order
and no intervals may overlap or touch. If any of these conditions are not
satisfied the function returns Nothing
.