package semver import ( "bytes" "encoding/json" "errors" "fmt" "regexp" "strconv" "strings" ) // The compiled version of the regex created at init() is cached here so it // only needs to be created once. var versionRegex *regexp.Regexp var validPrereleaseRegex *regexp.Regexp var ( // ErrInvalidSemVer is returned a version is found to be invalid when // being parsed. ErrInvalidSemVer = errors.New("Invalid Semantic Version") // ErrInvalidMetadata is returned when the metadata is an invalid format ErrInvalidMetadata = errors.New("Invalid Metadata string") // ErrInvalidPrerelease is returned when the pre-release is an invalid format ErrInvalidPrerelease = errors.New("Invalid Prerelease string") ) // SemVerRegex is the regular expression used to parse a semantic version. const SemVerRegex string = `v?([0-9]+)(\.[0-9]+)?(\.[0-9]+)?` + `(-([0-9A-Za-z\-]+(\.[0-9A-Za-z\-]+)*))?` + `(\+([0-9A-Za-z\-]+(\.[0-9A-Za-z\-]+)*))?` // ValidPrerelease is the regular expression which validates // both prerelease and metadata values. const ValidPrerelease string = `^([0-9A-Za-z\-]+(\.[0-9A-Za-z\-]+)*)` // Version represents a single semantic version. type Version struct { major, minor, patch int64 pre string metadata string original string } func init() { versionRegex = regexp.MustCompile("^" + SemVerRegex + "$") validPrereleaseRegex = regexp.MustCompile(ValidPrerelease) } // NewVersion parses a given version and returns an instance of Version or // an error if unable to parse the version. func NewVersion(v string) (*Version, error) { m := versionRegex.FindStringSubmatch(v) if m == nil { return nil, ErrInvalidSemVer } sv := &Version{ metadata: m[8], pre: m[5], original: v, } var temp int64 temp, err := strconv.ParseInt(m[1], 10, 32) if err != nil { return nil, fmt.Errorf("Error parsing version segment: %s", err) } sv.major = temp if m[2] != "" { temp, err = strconv.ParseInt(strings.TrimPrefix(m[2], "."), 10, 32) if err != nil { return nil, fmt.Errorf("Error parsing version segment: %s", err) } sv.minor = temp } else { sv.minor = 0 } if m[3] != "" { temp, err = strconv.ParseInt(strings.TrimPrefix(m[3], "."), 10, 32) if err != nil { return nil, fmt.Errorf("Error parsing version segment: %s", err) } sv.patch = temp } else { sv.patch = 0 } return sv, nil } // MustParse parses a given version and panics on error. func MustParse(v string) *Version { sv, err := NewVersion(v) if err != nil { panic(err) } return sv } // String converts a Version object to a string. // Note, if the original version contained a leading v this version will not. // See the Original() method to retrieve the original value. Semantic Versions // don't contain a leading v per the spec. Instead it's optional on // impelementation. func (v *Version) String() string { var buf bytes.Buffer fmt.Fprintf(&buf, "%d.%d.%d", v.major, v.minor, v.patch) if v.pre != "" { fmt.Fprintf(&buf, "-%s", v.pre) } if v.metadata != "" { fmt.Fprintf(&buf, "+%s", v.metadata) } return buf.String() } // Original returns the original value passed in to be parsed. func (v *Version) Original() string { return v.original } // Major returns the major version. func (v *Version) Major() int64 { return v.major } // Minor returns the minor version. func (v *Version) Minor() int64 { return v.minor } // Patch returns the patch version. func (v *Version) Patch() int64 { return v.patch } // Prerelease returns the pre-release version. func (v *Version) Prerelease() string { return v.pre } // Metadata returns the metadata on the version. func (v *Version) Metadata() string { return v.metadata } // originalVPrefix returns the original 'v' prefix if any. func (v *Version) originalVPrefix() string { // Note, only lowercase v is supported as a prefix by the parser. if v.original != "" && v.original[:1] == "v" { return v.original[:1] } return "" } // IncPatch produces the next patch version. // If the current version does not have prerelease/metadata information, // it unsets metadata and prerelease values, increments patch number. // If the current version has any of prerelease or metadata information, // it unsets both values and keeps curent patch value func (v Version) IncPatch() Version { vNext := v // according to http://semver.org/#spec-item-9 // Pre-release versions have a lower precedence than the associated normal version. // according to http://semver.org/#spec-item-10 // Build metadata SHOULD be ignored when determining version precedence. if v.pre != "" { vNext.metadata = "" vNext.pre = "" } else { vNext.metadata = "" vNext.pre = "" vNext.patch = v.patch + 1 } vNext.original = v.originalVPrefix() + "" + vNext.String() return vNext } // IncMinor produces the next minor version. // Sets patch to 0. // Increments minor number. // Unsets metadata. // Unsets prerelease status. func (v Version) IncMinor() Version { vNext := v vNext.metadata = "" vNext.pre = "" vNext.patch = 0 vNext.minor = v.minor + 1 vNext.original = v.originalVPrefix() + "" + vNext.String() return vNext } // IncMajor produces the next major version. // Sets patch to 0. // Sets minor to 0. // Increments major number. // Unsets metadata. // Unsets prerelease status. func (v Version) IncMajor() Version { vNext := v vNext.metadata = "" vNext.pre = "" vNext.patch = 0 vNext.minor = 0 vNext.major = v.major + 1 vNext.original = v.originalVPrefix() + "" + vNext.String() return vNext } // SetPrerelease defines the prerelease value. // Value must not include the required 'hypen' prefix. func (v Version) SetPrerelease(prerelease string) (Version, error) { vNext := v if len(prerelease) > 0 && !validPrereleaseRegex.MatchString(prerelease) { return vNext, ErrInvalidPrerelease } vNext.pre = prerelease vNext.original = v.originalVPrefix() + "" + vNext.String() return vNext, nil } // SetMetadata defines metadata value. // Value must not include the required 'plus' prefix. func (v Version) SetMetadata(metadata string) (Version, error) { vNext := v if len(metadata) > 0 && !validPrereleaseRegex.MatchString(metadata) { return vNext, ErrInvalidMetadata } vNext.metadata = metadata vNext.original = v.originalVPrefix() + "" + vNext.String() return vNext, nil } // LessThan tests if one version is less than another one. func (v *Version) LessThan(o *Version) bool { return v.Compare(o) < 0 } // GreaterThan tests if one version is greater than another one. func (v *Version) GreaterThan(o *Version) bool { return v.Compare(o) > 0 } // Equal tests if two versions are equal to each other. // Note, versions can be equal with different metadata since metadata // is not considered part of the comparable version. func (v *Version) Equal(o *Version) bool { return v.Compare(o) == 0 } // Compare compares this version to another one. It returns -1, 0, or 1 if // the version smaller, equal, or larger than the other version. // // Versions are compared by X.Y.Z. Build metadata is ignored. Prerelease is // lower than the version without a prerelease. func (v *Version) Compare(o *Version) int { // Compare the major, minor, and patch version for differences. If a // difference is found return the comparison. if d := compareSegment(v.Major(), o.Major()); d != 0 { return d } if d := compareSegment(v.Minor(), o.Minor()); d != 0 { return d } if d := compareSegment(v.Patch(), o.Patch()); d != 0 { return d } // At this point the major, minor, and patch versions are the same. ps := v.pre po := o.Prerelease() if ps == "" && po == "" { return 0 } if ps == "" { return 1 } if po == "" { return -1 } return comparePrerelease(ps, po) } // UnmarshalJSON implements JSON.Unmarshaler interface. func (v *Version) UnmarshalJSON(b []byte) error { var s string if err := json.Unmarshal(b, &s); err != nil { return err } temp, err := NewVersion(s) if err != nil { return err } v.major = temp.major v.minor = temp.minor v.patch = temp.patch v.pre = temp.pre v.metadata = temp.metadata v.original = temp.original temp = nil return nil } // MarshalJSON implements JSON.Marshaler interface. func (v *Version) MarshalJSON() ([]byte, error) { return json.Marshal(v.String()) } func compareSegment(v, o int64) int { if v < o { return -1 } if v > o { return 1 } return 0 } func comparePrerelease(v, o string) int { // split the prelease versions by their part. The separator, per the spec, // is a . sparts := strings.Split(v, ".") oparts := strings.Split(o, ".") // Find the longer length of the parts to know how many loop iterations to // go through. slen := len(sparts) olen := len(oparts) l := slen if olen > slen { l = olen } // Iterate over each part of the prereleases to compare the differences. for i := 0; i < l; i++ { // Since the lentgh of the parts can be different we need to create // a placeholder. This is to avoid out of bounds issues. stemp := "" if i < slen { stemp = sparts[i] } otemp := "" if i < olen { otemp = oparts[i] } d := comparePrePart(stemp, otemp) if d != 0 { return d } } // Reaching here means two versions are of equal value but have different // metadata (the part following a +). They are not identical in string form // but the version comparison finds them to be equal. return 0 } func comparePrePart(s, o string) int { // Fastpath if they are equal if s == o { return 0 } // When s or o are empty we can use the other in an attempt to determine // the response. if o == "" { _, n := strconv.ParseInt(s, 10, 64) if n != nil { return -1 } return 1 } if s == "" { _, n := strconv.ParseInt(o, 10, 64) if n != nil { return 1 } return -1 } // When comparing strings "99" is greater than "103". To handle // cases like this we need to detect numbers and compare them. oi, n1 := strconv.ParseInt(o, 10, 64) si, n2 := strconv.ParseInt(s, 10, 64) // The case where both are strings compare the strings if n1 != nil && n2 != nil { if s > o { return 1 } return -1 } else if n1 != nil { // o is a string and s is a number return -1 } else if n2 != nil { // s is a string and o is a number return 1 } // Both are numbers if si > oi { return 1 } return -1 }