local Option = require("../luau_packages/option") type Option = Option.Option local Result = require("../luau_packages/result") type Result = Result.Result local function stringStartsWith(str: string, sub: string) return string.sub(str, 1, #sub) == sub end local function hasLeadingZeros(num: string) return string.match(num, "^(0+)") ~= nil end local function doLeadingZeroesCheck(type: "major" | "minor" | "patch", component: string) -- We only do this check if each component has more than 1 digit as an optimization if #component > 1 and hasLeadingZeros(component) then return Result.Err({ msg = Option.Some(`Found disallowed leading zeros in {string.upper(type)} component`), kind = { id = "LeadingZerosPresent", component = type, } :: ParseError, } :: SemverError) end return Result.Ok(nil) end type InvalidTypes = "char" | "symbol" local function getInvalidTypeName(invalidComponent: string): InvalidTypes local typePatterns: { [InvalidTypes]: string } = { char = "%a", symbol = "%p", } local presentType: InvalidTypes for type: InvalidTypes, pattern in typePatterns do if string.match(invalidComponent, pattern) then presentType = type break end end return presentType end --[=[ @class Semver A Luau library to parse and compare [Semantic Versioning](https://semver.org) compatible version numbers. Semantic Versioning (Semver) is a versioning scheme for software that uses a three-part version number format, `MAJOR.MINOR.PATCH`. Additionally, Semver defines rules on when to increment each of these parts: - `MAJOR` version increments indicate incompatible API changes. - `MINOR` version increments indicate the addition of functionality in a backward-compatible manner. - `PATCH` version increments indicate backward-compatible bug fixes. Semver also allows for optional pre-release and build metadata tags. For a detailed set of guidelines that Semver version numbers follow, visit the previously linked website containing the full Semver specification. ]=] local Semver = {} export type SemverImpl = typeof(setmetatable({} :: Version, Semver)) --[=[ @type PreleaseType "alpha" | "beta" | "rc" @within Semver A type representing the different prerelease stages ]=] export type PreleaseType = "alpha" | "beta" | "rc" --[=[ @interface PrereleaseVersion @within Semver @field type PreleaseType -- The type of prerelease stage @field ordinal Option -- Optional ordinal number for the prerelease ]=] export type PrereleaseVersion = { type: PreleaseType, ordinal: Option, } --[=[ @interface Version @within Semver @field major number -- Major version number @field minor number -- Minor version number @field patch number -- Patch version number @field buildMetadata Option -- Optional build metadata @field prerelease Option -- Optional prerelease information ]=] export type Version = { major: number, minor: number, patch: number, buildMetadata: Option, prerelease: Option, } --[=[ @type SemverResult = Result @within Semver ]=] export type SemverResult = Result --[=[ @interface SemverError @within Semver @field msg Option -- Optional error message @field kind SemverErrorKind -- The kind of error that occurred ]=] export type SemverError = { msg: Option, kind: SemverErrorKind, } --[=[ @type SemverErrorKind ParseError | {} @within Semver All the possible error types that can be returned ]=] export type SemverErrorKind = ParseError | {} --[=[ @type ParseError { id: string, component: string?, expected: string?, got: string?, components: string?, type: string? } @within Semver All the possible error types that can occur during semver parsing: * `MandatoryComponentMissing`: When required version components are missing * `InvalidComponentType`: When a version component has an invalid type * `LeadingZerosPresent`: When a version component has leading zeros * `InvalidIdentifierCharacter`: When prerelease or metadata contains invalid characters * `InvalidPrereleaseType`: When prerelease type is not alpha, beta, or rc * `InvalidPrereleaseOrdinalType`: When prerelease ordinal is not a number ]=] export type ParseError = { id: "MandatoryComponentMissing", components: { string } } | { id: "InvalidComponentType", component: "major" | "minor" | "patch", expected: "number", got: "char" | "symbol" | "unknown", } | { id: "LeadingZerosPresent", component: "major" | "minor" | "patch" } | { id: "InvalidIdentifierCharacter", component: "prerelease" | "metadata" } | { id: "InvalidPrereleaseType", component: "prerelease", type: string } | { id: "InvalidPrereleaseOrdinalType", expected: "number", got: "char" | "symbol" } --[=[ @prop PRERELEASE_LEX_ORDER table @within Semver @private Lexicographical ordering for prerelease types ]=] local PRERELEASE_LEX_ORDER: { [PreleaseType]: number } = { alpha = 1, beta = 2, rc = 3, } --[=[ @within Semver @function parse Parses a version string into a Semver instance @param ver string -- The version string to parse @return SemverResult -- Result containing either the parsed Semver or an error ]=] function Semver.parse(ver: string): SemverResult local components = string.split(if stringStartsWith(ver, "v") then string.sub(ver, 2) else ver, ".") if #components < 3 then return Result.Err({ msg = Option.Some(`Expected MAJOR.MINOR.PATCH format, missing {#components} / 3 components`), kind = { id = "MandatoryComponentMissing", components = components, } :: ParseError, } :: SemverError) end local patchStr, ext = string.match(components[3], "(%d+)([-+]?.*)") if patchStr == nil then return Result.Err({ msg = Option.Some(`Expected patch to be only a number`), kind = { id = "InvalidComponentType", expected = "number", got = getInvalidTypeName(components[3]), component = "patch", } :: ParseError, } :: SemverError) end local major, minor, patch = tonumber(components[1]), tonumber(components[2]), tonumber(patchStr) if major == nil or minor == nil or patch == nil then local invalidComponentType: "major" | "minor" | "patch", invalidComponent: string if major == nil then invalidComponentType, invalidComponent = "major", components[1] elseif minor == nil then invalidComponentType, invalidComponent = "minor", components[2] elseif patch == nil then invalidComponentType, invalidComponent = "patch", patchStr :: string end local presentType: InvalidTypes = getInvalidTypeName(invalidComponent) return Result.Err({ msg = Option.Some( `Expected {string.upper(invalidComponentType)} to be only a number, but got {presentType}` ), kind = { id = "InvalidComponentType", expected = "number", got = presentType, component = invalidComponentType, } :: ParseError, } :: SemverError) end -- All components were valid numbers, but we check to see if they had any leading zeros -- Leading zeros are invalid in semver local majorLeadingZeros = doLeadingZeroesCheck("major", components[1]) if majorLeadingZeros:isErr() then return majorLeadingZeros end local minorLeadingZeros = doLeadingZeroesCheck("minor", components[2]) if minorLeadingZeros:isErr() then return minorLeadingZeros end local patchLeadingZeros = doLeadingZeroesCheck("patch", patchStr) if patchLeadingZeros:isErr() then return patchLeadingZeros end local parsed: Version = { major = major :: number, minor = minor :: number, patch = patch :: number, buildMetadata = Option.None :: Option, prerelease = Option.None :: Option, } if ext ~= nil then if stringStartsWith(ext, "-") then -- Prerelease information local prereleaseType = string.sub(ext, 2) if prereleaseType ~= "alpha" and prereleaseType ~= "beta" and prereleaseType ~= "rc" then return Result.Err({ msg = Option.Some(`Expected prerelease type to be alpha | beta | rc, but got {prereleaseType}`), kind = { id = "InvalidPrereleaseType", component = "prerelease", type = prereleaseType, } :: ParseError, } :: SemverError) end local function badPrereleaseType(prerelease: string): SemverResult local invalidType: InvalidTypes = getInvalidTypeName(prerelease) return Result.Err({ msg = Option.Some(`Expected PRERELEASE to only be a number, but got {invalidType}`), kind = { id = "InvalidPrereleaseOrdinalType", expected = "number", got = invalidType, } :: ParseError, } :: SemverError) end local prereleaseOrdinal = Option.None :: Option -- TODO: Cleanup this recovery logic of recomputing a bit more, maybe remove it entirely if components[4] ~= nil then local ordinalNum = tonumber(components[4]) if ordinalNum == nil then -- If it wasn't a valid number for the ordinal, that must mean one of two things: -- a) The PRERELEASE component was bad -- b) The component has build metadata after prerelease info -- Here, we handle both those cases local potentialOrdinalNumber, potentialBuildMetadata = string.match(components[4], "(%d)+(.*)") if potentialOrdinalNumber == nil then return badPrereleaseType(components[4]) end if potentialBuildMetadata ~= nil then local fullBuildMetadata = potentialBuildMetadata for i = 5, #components do fullBuildMetadata ..= "." .. components[i] end parsed.buildMetadata = Option.Some(fullBuildMetadata :: string) :: Option end if potentialOrdinalNumber ~= nil then ordinalNum = tonumber(potentialOrdinalNumber) if ordinalNum == nil then return badPrereleaseType(components[4]) end end end prereleaseOrdinal = Option.Some(ordinalNum :: number) :: Option end parsed.prerelease = Option.Some({ type = prereleaseType, ordinal = prereleaseOrdinal, } :: PrereleaseVersion) :: Option end if stringStartsWith(ext, "+") then -- Build metadata information; we remove the leading `+` symbol and add -- the rest of the components to the build metadata local fullBuildMetadata = string.sub(ext, 2) for i = 4, #components do fullBuildMetadata ..= "." .. components[i] end parsed.buildMetadata = Option.Some(fullBuildMetadata) :: Option end end return Result.Ok(setmetatable(parsed :: Version, Semver)) end local function prereleaseEq(leftPrerelease: PrereleaseVersion?, rightPrerelease: PrereleaseVersion?): boolean if leftPrerelease == nil and rightPrerelease == nil then return true end if leftPrerelease == nil or rightPrerelease == nil then return false end return leftPrerelease.type == rightPrerelease.type and leftPrerelease.ordinal == rightPrerelease.ordinal end local function prereleaseLt(leftPrerelease: PrereleaseVersion?, rightPrerelase: PrereleaseVersion?): boolean if not prereleaseEq(leftPrerelease, rightPrerelase) then if leftPrerelease ~= nil and rightPrerelase ~= nil then if leftPrerelease.type == rightPrerelase.type then return leftPrerelease.ordinal:unwrapOr(0) < rightPrerelase.ordinal:unwrapOr(0) end return PRERELEASE_LEX_ORDER[leftPrerelease.type] < PRERELEASE_LEX_ORDER[rightPrerelase.type] end return not (leftPrerelease == nil and rightPrerelase ~= nil) and (leftPrerelease ~= nil and rightPrerelase == nil) end return false end local function prereleaseLe(leftPrerelease: PrereleaseVersion?, rightPrerelase: PrereleaseVersion?): boolean return prereleaseLt(leftPrerelease, rightPrerelase) or prereleaseEq(leftPrerelease, rightPrerelase) end function Semver.__eq(left: SemverImpl, right: SemverImpl): boolean return left.major == right.major and left.minor == right.minor and left.patch == right.patch and prereleaseEq(left.prerelease:unwrapOrNil(), right.prerelease:unwrapOrNil()) end function Semver.__lt(left: SemverImpl, right: SemverImpl): boolean return if left.major ~= right.major then left.major < right.major elseif left.minor ~= right.minor then left.minor < right.minor elseif left.patch ~= right.patch then left.patch < right.patch else prereleaseLt(left.prerelease:unwrapOrNil(), right.prerelease:unwrapOrNil()) end function Semver.__le(left: SemverImpl, right: SemverImpl): boolean return if left.major ~= right.major then left.major <= right.major elseif left.minor ~= right.minor then left.minor <= right.minor elseif left.patch ~= right.patch then left.patch <= right.patch else prereleaseLe(left.prerelease:unwrapOrNil(), right.prerelease:unwrapOrNil()) end return Semver