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denoland-deno/cli/npm/semver/range.rs
David Sherret 10e4b2e140
chore: update copyright year to 2023 (#17247)
Yearly tradition of creating extra noise in git.
2023-01-02 21:00:42 +00:00

509 lines
13 KiB
Rust

// Copyright 2018-2023 the Deno authors. All rights reserved. MIT license.
use std::cmp::Ordering;
use serde::Deserialize;
use serde::Serialize;
use super::NpmVersion;
/// Collection of ranges.
#[derive(Debug, Clone, PartialEq, Eq, Hash)]
pub struct VersionRangeSet(pub Vec<VersionRange>);
impl VersionRangeSet {
pub fn satisfies(&self, version: &NpmVersion) -> bool {
self.0.iter().any(|r| r.satisfies(version))
}
}
#[derive(Debug, Clone, PartialEq, Eq, Hash, Serialize, Deserialize)]
pub enum RangeBound {
Version(VersionBound),
Unbounded, // matches everything
}
impl RangeBound {
pub fn inclusive(version: NpmVersion) -> Self {
Self::version(VersionBoundKind::Inclusive, version)
}
pub fn exclusive(version: NpmVersion) -> Self {
Self::version(VersionBoundKind::Exclusive, version)
}
pub fn version(kind: VersionBoundKind, version: NpmVersion) -> Self {
Self::Version(VersionBound::new(kind, version))
}
pub fn clamp_start(&self, other: &RangeBound) -> RangeBound {
match &self {
RangeBound::Unbounded => other.clone(),
RangeBound::Version(self_bound) => RangeBound::Version(match &other {
RangeBound::Unbounded => self_bound.clone(),
RangeBound::Version(other_bound) => {
match self_bound.version.cmp(&other_bound.version) {
Ordering::Greater => self_bound.clone(),
Ordering::Less => other_bound.clone(),
Ordering::Equal => match self_bound.kind {
VersionBoundKind::Exclusive => self_bound.clone(),
VersionBoundKind::Inclusive => other_bound.clone(),
},
}
}
}),
}
}
pub fn clamp_end(&self, other: &RangeBound) -> RangeBound {
match &self {
RangeBound::Unbounded => other.clone(),
RangeBound::Version(self_bound) => {
RangeBound::Version(match other {
RangeBound::Unbounded => self_bound.clone(),
RangeBound::Version(other_bound) => {
match self_bound.version.cmp(&other_bound.version) {
// difference with above is the next two lines are switched
Ordering::Greater => other_bound.clone(),
Ordering::Less => self_bound.clone(),
Ordering::Equal => match self_bound.kind {
VersionBoundKind::Exclusive => self_bound.clone(),
VersionBoundKind::Inclusive => other_bound.clone(),
},
}
}
})
}
}
}
pub fn has_pre_with_exact_major_minor_patch(
&self,
version: &NpmVersion,
) -> bool {
if let RangeBound::Version(self_version) = &self {
if !self_version.version.pre.is_empty()
&& self_version.version.major == version.major
&& self_version.version.minor == version.minor
&& self_version.version.patch == version.patch
{
return true;
}
}
false
}
}
#[derive(Debug, Clone, PartialEq, Eq, Hash, Serialize, Deserialize)]
pub enum VersionBoundKind {
Inclusive,
Exclusive,
}
#[derive(Debug, Clone, PartialEq, Eq, Hash, Serialize, Deserialize)]
pub struct VersionBound {
pub kind: VersionBoundKind,
pub version: NpmVersion,
}
impl VersionBound {
pub fn new(kind: VersionBoundKind, version: NpmVersion) -> Self {
Self { kind, version }
}
}
#[derive(Debug, Clone, PartialEq, Eq, Hash, Serialize, Deserialize)]
pub struct VersionRange {
pub start: RangeBound,
pub end: RangeBound,
}
impl VersionRange {
pub fn all() -> VersionRange {
VersionRange {
start: RangeBound::Version(VersionBound {
kind: VersionBoundKind::Inclusive,
version: NpmVersion::default(),
}),
end: RangeBound::Unbounded,
}
}
pub fn none() -> VersionRange {
VersionRange {
start: RangeBound::Version(VersionBound {
kind: VersionBoundKind::Inclusive,
version: NpmVersion::default(),
}),
end: RangeBound::Version(VersionBound {
kind: VersionBoundKind::Exclusive,
version: NpmVersion::default(),
}),
}
}
/// If this range won't match anything.
pub fn is_none(&self) -> bool {
if let RangeBound::Version(end) = &self.end {
end.kind == VersionBoundKind::Exclusive
&& end.version.major == 0
&& end.version.minor == 0
&& end.version.patch == 0
} else {
false
}
}
pub fn satisfies(&self, version: &NpmVersion) -> bool {
let satisfies = self.min_satisfies(version) && self.max_satisfies(version);
if satisfies && !version.pre.is_empty() {
// check either side of the range has a pre and same version
self.start.has_pre_with_exact_major_minor_patch(version)
|| self.end.has_pre_with_exact_major_minor_patch(version)
} else {
satisfies
}
}
fn min_satisfies(&self, version: &NpmVersion) -> bool {
match &self.start {
RangeBound::Unbounded => true,
RangeBound::Version(bound) => match version.cmp(&bound.version) {
Ordering::Less => false,
Ordering::Equal => bound.kind == VersionBoundKind::Inclusive,
Ordering::Greater => true,
},
}
}
fn max_satisfies(&self, version: &NpmVersion) -> bool {
match &self.end {
RangeBound::Unbounded => true,
RangeBound::Version(bound) => match version.cmp(&bound.version) {
Ordering::Less => true,
Ordering::Equal => bound.kind == VersionBoundKind::Inclusive,
Ordering::Greater => false,
},
}
}
pub fn clamp(&self, range: &VersionRange) -> VersionRange {
let start = self.start.clamp_start(&range.start);
let end = self.end.clamp_end(&range.end);
// clamp the start range to the end when greater
let start = start.clamp_end(&end);
VersionRange { start, end }
}
}
/// A range that could be a wildcard or number value.
#[derive(Debug, Clone, Copy, PartialEq, Eq)]
pub enum XRange {
Wildcard,
Val(u64),
}
/// A partial version.
#[derive(Debug, Clone)]
pub struct Partial {
pub major: XRange,
pub minor: XRange,
pub patch: XRange,
pub pre: Vec<String>,
pub build: Vec<String>,
}
impl Partial {
pub fn as_tilde_version_range(&self) -> VersionRange {
// tilde ranges allow patch-level changes
let end = match self.major {
XRange::Wildcard => return VersionRange::all(),
XRange::Val(major) => match self.minor {
XRange::Wildcard => NpmVersion {
major: major + 1,
minor: 0,
patch: 0,
pre: Vec::new(),
build: Vec::new(),
},
XRange::Val(minor) => NpmVersion {
major,
minor: minor + 1,
patch: 0,
pre: Vec::new(),
build: Vec::new(),
},
},
};
VersionRange {
start: self.as_lower_bound(),
end: RangeBound::exclusive(end),
}
}
pub fn as_caret_version_range(&self) -> VersionRange {
// partial ranges allow patch and minor updates, except when
// leading parts are < 1 in which case it will only bump the
// first non-zero or patch part
let end = match self.major {
XRange::Wildcard => return VersionRange::all(),
XRange::Val(major) => {
let next_major = NpmVersion {
major: major + 1,
..Default::default()
};
if major > 0 {
next_major
} else {
match self.minor {
XRange::Wildcard => next_major,
XRange::Val(minor) => {
let next_minor = NpmVersion {
minor: minor + 1,
..Default::default()
};
if minor > 0 {
next_minor
} else {
match self.patch {
XRange::Wildcard => next_minor,
XRange::Val(patch) => NpmVersion {
patch: patch + 1,
..Default::default()
},
}
}
}
}
}
}
};
VersionRange {
start: self.as_lower_bound(),
end: RangeBound::Version(VersionBound {
kind: VersionBoundKind::Exclusive,
version: end,
}),
}
}
pub fn as_lower_bound(&self) -> RangeBound {
RangeBound::inclusive(NpmVersion {
major: match self.major {
XRange::Val(val) => val,
XRange::Wildcard => 0,
},
minor: match self.minor {
XRange::Val(val) => val,
XRange::Wildcard => 0,
},
patch: match self.patch {
XRange::Val(val) => val,
XRange::Wildcard => 0,
},
pre: self.pre.clone(),
build: self.build.clone(),
})
}
pub fn as_upper_bound(&self) -> RangeBound {
let mut end = NpmVersion::default();
let mut kind = VersionBoundKind::Inclusive;
match self.patch {
XRange::Wildcard => {
end.minor += 1;
kind = VersionBoundKind::Exclusive;
}
XRange::Val(val) => {
end.patch = val;
}
}
match self.minor {
XRange::Wildcard => {
end.minor = 0;
end.major += 1;
kind = VersionBoundKind::Exclusive;
}
XRange::Val(val) => {
end.minor += val;
}
}
match self.major {
XRange::Wildcard => {
return RangeBound::Unbounded;
}
XRange::Val(val) => {
end.major += val;
}
}
if kind == VersionBoundKind::Inclusive {
end.pre = self.pre.clone();
}
RangeBound::version(kind, end)
}
pub fn as_equal_range(&self) -> VersionRange {
let major = match self.major {
XRange::Wildcard => {
return self.as_greater_range(VersionBoundKind::Inclusive)
}
XRange::Val(val) => val,
};
let minor = match self.minor {
XRange::Wildcard => {
return self.as_greater_range(VersionBoundKind::Inclusive)
}
XRange::Val(val) => val,
};
let patch = match self.patch {
XRange::Wildcard => {
return self.as_greater_range(VersionBoundKind::Inclusive)
}
XRange::Val(val) => val,
};
let version = NpmVersion {
major,
minor,
patch,
pre: self.pre.clone(),
build: self.build.clone(),
};
VersionRange {
start: RangeBound::inclusive(version.clone()),
end: RangeBound::inclusive(version),
}
}
pub fn as_greater_than(
&self,
mut start_kind: VersionBoundKind,
) -> VersionRange {
let major = match self.major {
XRange::Wildcard => match start_kind {
VersionBoundKind::Inclusive => return VersionRange::all(),
VersionBoundKind::Exclusive => return VersionRange::none(),
},
XRange::Val(major) => major,
};
let mut start = NpmVersion::default();
if start_kind == VersionBoundKind::Inclusive {
start.pre = self.pre.clone();
}
start.major = major;
match self.minor {
XRange::Wildcard => {
if start_kind == VersionBoundKind::Exclusive {
start_kind = VersionBoundKind::Inclusive;
start.major += 1;
}
}
XRange::Val(minor) => {
start.minor = minor;
}
}
match self.patch {
XRange::Wildcard => {
if start_kind == VersionBoundKind::Exclusive {
start_kind = VersionBoundKind::Inclusive;
start.minor += 1;
}
}
XRange::Val(patch) => {
start.patch = patch;
}
}
VersionRange {
start: RangeBound::version(start_kind, start),
end: RangeBound::Unbounded,
}
}
pub fn as_less_than(&self, mut end_kind: VersionBoundKind) -> VersionRange {
let major = match self.major {
XRange::Wildcard => match end_kind {
VersionBoundKind::Inclusive => return VersionRange::all(),
VersionBoundKind::Exclusive => return VersionRange::none(),
},
XRange::Val(major) => major,
};
let mut end = NpmVersion {
major,
..Default::default()
};
match self.minor {
XRange::Wildcard => {
if end_kind == VersionBoundKind::Inclusive {
end.major += 1;
}
end_kind = VersionBoundKind::Exclusive;
}
XRange::Val(minor) => {
end.minor = minor;
}
}
match self.patch {
XRange::Wildcard => {
if end_kind == VersionBoundKind::Inclusive {
end.minor += 1;
}
end_kind = VersionBoundKind::Exclusive;
}
XRange::Val(patch) => {
end.patch = patch;
}
}
if end_kind == VersionBoundKind::Inclusive {
end.pre = self.pre.clone();
}
VersionRange {
start: RangeBound::Unbounded,
end: RangeBound::version(end_kind, end),
}
}
pub fn as_greater_range(&self, start_kind: VersionBoundKind) -> VersionRange {
let major = match self.major {
XRange::Wildcard => return VersionRange::all(),
XRange::Val(major) => major,
};
let mut start = NpmVersion::default();
let mut end = NpmVersion::default();
start.major = major;
end.major = major;
match self.patch {
XRange::Wildcard => {
if self.minor != XRange::Wildcard {
end.minor += 1;
}
}
XRange::Val(patch) => {
start.patch = patch;
end.patch = patch;
}
}
match self.minor {
XRange::Wildcard => {
end.major += 1;
}
XRange::Val(minor) => {
start.minor = minor;
end.minor += minor;
}
}
let end_kind = if start_kind == VersionBoundKind::Inclusive && start == end
{
VersionBoundKind::Inclusive
} else {
VersionBoundKind::Exclusive
};
VersionRange {
start: RangeBound::version(start_kind, start),
end: RangeBound::version(end_kind, end),
}
}
}