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phonenumbers.go
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phonenumbers.go
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package phonenumbers
import (
"errors"
"fmt"
"reflect"
"regexp"
"strconv"
"strings"
"sync"
"unicode"
"github.com/nyaruka/phonenumbers/gen"
"golang.org/x/text/language"
"golang.org/x/text/language/display"
"google.golang.org/protobuf/proto"
)
const (
// MIN_LENGTH_FOR_NSN is the minimum and maximum length of the national significant number.
MIN_LENGTH_FOR_NSN = 2
// MAX_LENGTH_FOR_NSN: The ITU says the maximum length should be 15, but we have
// found longer numbers in Germany.
MAX_LENGTH_FOR_NSN = 17
// MAX_LENGTH_COUNTRY_CODE is the maximum length of the country calling code.
MAX_LENGTH_COUNTRY_CODE = 3
// MAX_INPUT_STRING_LENGTH caps input strings for parsing at 250 chars.
// This prevents malicious input from overflowing the regular-expression
// engine.
MAX_INPUT_STRING_LENGTH = 250
// UNKNOWN_REGION is the region-code for the unknown region.
UNKNOWN_REGION = "ZZ"
NANPA_COUNTRY_CODE = 1
// The prefix that needs to be inserted in front of a Colombian
// landline number when dialed from a mobile phone in Colombia.
COLOMBIA_MOBILE_TO_FIXED_LINE_PREFIX = "3"
// The PLUS_SIGN signifies the international prefix.
PLUS_SIGN = '+'
STAR_SIGN = '*'
RFC3966_EXTN_PREFIX = ";ext="
RFC3966_PREFIX = "tel:"
RFC3966_PHONE_CONTEXT = ";phone-context="
RFC3966_ISDN_SUBADDRESS = ";isub="
// Regular expression of acceptable punctuation found in phone
// numbers. This excludes punctuation found as a leading character
// only. This consists of dash characters, white space characters,
// full stops, slashes, square brackets, parentheses and tildes. It
// also includes the letter 'x' as that is found as a placeholder
// for carrier information in some phone numbers. Full-width variants
// are also present.
VALID_PUNCTUATION = "-x\u2010-\u2015\u2212\u30FC\uFF0D-\uFF0F " +
"\u00A0\u00AD\u200B\u2060\u3000()\uFF08\uFF09\uFF3B\uFF3D." +
"\\[\\]/~\u2053\u223C\uFF5E"
DIGITS = "\\p{Nd}"
// We accept alpha characters in phone numbers, ASCII only, upper
// and lower case.
VALID_ALPHA = "abcdefghijklmnopqrstuvwxyzABCDEFGHIJKLMNOPQRSTUVWXYZ"
PLUS_CHARS = "+\uFF0B"
// This is defined by ICU as the unknown time zone.
UNKNOWN_TIMEZONE = "Etc/Unknown"
)
var (
// Map of country calling codes that use a mobile token before the
// area code. One example of when this is relevant is when determining
// the length of the national destination code, which should be the
// length of the area code plus the length of the mobile token.
MOBILE_TOKEN_MAPPINGS = map[int]string{
52: "1",
54: "9",
}
// A map that contains characters that are essential when dialling.
// That means any of the characters in this map must not be removed
// from a number when dialling, otherwise the call will not reach
// the intended destination.
DIALLABLE_CHAR_MAPPINGS = map[rune]rune{
'1': '1',
'2': '2',
'3': '3',
'4': '4',
'5': '5',
'6': '6',
'7': '7',
'8': '8',
'9': '9',
'0': '0',
PLUS_SIGN: PLUS_SIGN,
'*': '*',
}
// Only upper-case variants of alpha characters are stored.
ALPHA_MAPPINGS = map[rune]rune{
'A': '2',
'B': '2',
'C': '2',
'D': '3',
'E': '3',
'F': '3',
'G': '4',
'H': '4',
'I': '4',
'J': '5',
'K': '5',
'L': '5',
'M': '6',
'N': '6',
'O': '6',
'P': '7',
'Q': '7',
'R': '7',
'S': '7',
'T': '8',
'U': '8',
'V': '8',
'W': '9',
'X': '9',
'Y': '9',
'Z': '9',
}
// For performance reasons, amalgamate both into one map.
ALPHA_PHONE_MAPPINGS = map[rune]rune{
'1': '1',
'2': '2',
'3': '3',
'4': '4',
'5': '5',
'6': '6',
'7': '7',
'8': '8',
'9': '9',
'0': '0',
PLUS_SIGN: PLUS_SIGN,
'*': '*',
'A': '2',
'B': '2',
'C': '2',
'D': '3',
'E': '3',
'F': '3',
'G': '4',
'H': '4',
'I': '4',
'J': '5',
'K': '5',
'L': '5',
'M': '6',
'N': '6',
'O': '6',
'P': '7',
'Q': '7',
'R': '7',
'S': '7',
'T': '8',
'U': '8',
'V': '8',
'W': '9',
'X': '9',
'Y': '9',
'Z': '9',
}
// Separate map of all symbols that we wish to retain when formatting
// alpha numbers. This includes digits, ASCII letters and number
// grouping symbols such as "-" and " ".
ALL_PLUS_NUMBER_GROUPING_SYMBOLS = map[rune]rune{
'1': '1',
'2': '2',
'3': '3',
'4': '4',
'5': '5',
'6': '6',
'7': '7',
'8': '8',
'9': '9',
'0': '0',
PLUS_SIGN: PLUS_SIGN,
'*': '*',
'A': 'A',
'B': 'B',
'C': 'C',
'D': 'D',
'E': 'E',
'F': 'F',
'G': 'G',
'H': 'H',
'I': 'I',
'J': 'J',
'K': 'K',
'L': 'L',
'M': 'M',
'N': 'N',
'O': 'O',
'P': 'P',
'Q': 'Q',
'R': 'R',
'S': 'S',
'T': 'T',
'U': 'U',
'V': 'V',
'W': 'W',
'X': 'X',
'Y': 'Y',
'Z': 'Z',
'a': 'A',
'b': 'B',
'c': 'C',
'd': 'D',
'e': 'E',
'f': 'F',
'g': 'G',
'h': 'H',
'i': 'I',
'j': 'J',
'k': 'K',
'l': 'L',
'm': 'M',
'n': 'N',
'o': 'O',
'p': 'P',
'q': 'Q',
'r': 'R',
's': 'S',
't': 'T',
'u': 'U',
'v': 'V',
'w': 'W',
'x': 'X',
'y': 'Y',
'z': 'Z',
'-': '-',
'\uFF0D': '-',
'\u2010': '-',
'\u2011': '-',
'\u2012': '-',
'\u2013': '-',
'\u2014': '-',
'\u2015': '-',
'\u2212': '-',
'/': '/',
'\uFF0F': '/',
' ': ' ',
'\u3000': ' ',
'\u2060': ' ',
'.': '.',
'\uFF0E': '.',
}
// Pattern that makes it easy to distinguish whether a region has a
// unique international dialing prefix or not. If a region has a
// unique international prefix (e.g. 011 in USA), it will be
// represented as a string that contains a sequence of ASCII digits.
// If there are multiple available international prefixes in a
// region, they will be represented as a regex string that always
// contains character(s) other than ASCII digits.
// Note this regex also includes tilde, which signals waiting for the tone.
UNIQUE_INTERNATIONAL_PREFIX = regexp.MustCompile("[\\d]+(?:[~\u2053\u223C\uFF5E][\\d]+)?")
PLUS_CHARS_PATTERN = regexp.MustCompile("[" + PLUS_CHARS + "]+")
SEPARATOR_PATTERN = regexp.MustCompile("[" + VALID_PUNCTUATION + "]+")
NOT_SEPARATOR_PATTERN = regexp.MustCompile("[^" + VALID_PUNCTUATION + "]+")
CAPTURING_DIGIT_PATTERN = regexp.MustCompile("(" + DIGITS + ")")
// Regular expression of acceptable characters that may start a
// phone number for the purposes of parsing. This allows us to
// strip away meaningless prefixes to phone numbers that may be
// mistakenly given to us. This consists of digits, the plus symbol
// and arabic-indic digits. This does not contain alpha characters,
// although they may be used later in the number. It also does not
// include other punctuation, as this will be stripped later during
// parsing and is of no information value when parsing a number.
VALID_START_CHAR = "[" + PLUS_CHARS + DIGITS + "]"
VALID_START_CHAR_PATTERN = regexp.MustCompile(VALID_START_CHAR)
// Regular expression of characters typically used to start a second
// phone number for the purposes of parsing. This allows us to strip
// off parts of the number that are actually the start of another
// number, such as for: (530) 583-6985 x302/x2303 -> the second
// extension here makes this actually two phone numbers,
// (530) 583-6985 x302 and (530) 583-6985 x2303. We remove the second
// extension so that the first number is parsed correctly.
SECOND_NUMBER_START = "[\\\\/] *x"
SECOND_NUMBER_START_PATTERN = regexp.MustCompile(SECOND_NUMBER_START)
// Regular expression of trailing characters that we want to remove.
// We remove all characters that are not alpha or numerical characters.
// The hash character is retained here, as it may signify the previous
// block was an extension.
UNWANTED_END_CHARS = "[[\\P{N}&&\\P{L}]&&[^#]]+$"
UNWANTED_END_CHAR_PATTERN = regexp.MustCompile(UNWANTED_END_CHARS)
// We use this pattern to check if the phone number has at least three
// letters in it - if so, then we treat it as a number where some
// phone-number digits are represented by letters.
VALID_ALPHA_PHONE_PATTERN = regexp.MustCompile("^(?:.*?[A-Za-z]){3}.*$")
// Regular expression of viable phone numbers. This is location
// independent. Checks we have at least three leading digits, and
// only valid punctuation, alpha characters and digits in the phone
// number. Does not include extension data. The symbol 'x' is allowed
// here as valid punctuation since it is often used as a placeholder
// for carrier codes, for example in Brazilian phone numbers. We also
// allow multiple "+" characters at the start.
// Corresponds to the following:
// [digits]{minLengthNsn}|
// plus_sign*(
// ([punctuation]|[star])*[digits]
// ){3,}([punctuation]|[star]|[digits]|[alpha])*
//
// The first reg-ex is to allow short numbers (two digits long) to be
// parsed if they are entered as "15" etc, but only if there is no
// punctuation in them. The second expression restricts the number of
// digits to three or more, but then allows them to be in
// international form, and to have alpha-characters and punctuation.
//
// Note VALID_PUNCTUATION starts with a -, so must be the first in the range.
VALID_PHONE_NUMBER = DIGITS + "{" + strconv.Itoa(MIN_LENGTH_FOR_NSN) + "}" + "|" +
"[" + PLUS_CHARS + "]*(?:[" + VALID_PUNCTUATION + string(STAR_SIGN) +
"]*" + DIGITS + "){3,}[" +
VALID_PUNCTUATION + string(STAR_SIGN) + VALID_ALPHA + DIGITS + "]*"
// Default extension prefix to use when formatting. This will be put
// in front of any extension component of the number, after the main
// national number is formatted. For example, if you wish the default
// extension formatting to be " extn: 3456", then you should specify
// " extn: " here as the default extension prefix. This can be
// overridden by region-specific preferences.
DEFAULT_EXTN_PREFIX = " ext. "
// Pattern to capture digits used in an extension. Places a maximum
// length of "7" for an extension.
CAPTURING_EXTN_DIGITS = "(" + DIGITS + "{1,7})"
// Regexp of all possible ways to write extensions, for use when
// parsing. This will be run as a case-insensitive regexp match.
// Wide character versions are also provided after each ASCII version.
// There are three regular expressions here. The first covers RFC 3966
// format, where the extension is added using ";ext=". The second more
// generic one starts with optional white space and ends with an
// optional full stop (.), followed by zero or more spaces/tabs and then
// the numbers themselves. The other one covers the special case of
// American numbers where the extension is written with a hash at the
// end, such as "- 503#". Note that the only capturing groups should
// be around the digits that you want to capture as part of the
// extension, or else parsing will fail! Canonical-equivalence doesn't
// seem to be an option with Android java, so we allow two options
// for representing the accented o - the character itself, and one in
// the unicode decomposed form with the combining acute accent.
EXTN_PATTERNS_FOR_PARSING = RFC3966_EXTN_PREFIX + CAPTURING_EXTN_DIGITS + "|" + "[ \u00A0\\t,]*" +
"(?:e?xt(?:ensi(?:o\u0301?|\u00F3))?n?|\uFF45?\uFF58\uFF54\uFF4E?|" +
"[;,x\uFF58#\uFF03~\uFF5E]|int|anexo|\uFF49\uFF4E\uFF54)" +
"[:\\.\uFF0E]?[ \u00A0\\t,-]*" + CAPTURING_EXTN_DIGITS + "#?|" +
"[- ]+(" + DIGITS + "{1,5})#"
EXTN_PATTERNS_FOR_MATCHING = RFC3966_EXTN_PREFIX + CAPTURING_EXTN_DIGITS + "|" + "[ \u00A0\\t,]*" +
"(?:e?xt(?:ensi(?:o\u0301?|\u00F3))?n?|\uFF45?\uFF58\uFF54\uFF4E?|" +
"[x\uFF58#\uFF03~\uFF5E]|int|anexo|\uFF49\uFF4E\uFF54)" +
"[:\\.\uFF0E]?[ \u00A0\\t,-]*" + CAPTURING_EXTN_DIGITS + "#?|" +
"[- ]+(" + DIGITS + "{1,5})#"
// Regexp of all known extension prefixes used by different regions
// followed by 1 or more valid digits, for use when parsing.
EXTN_PATTERN = regexp.MustCompile("(?:" + EXTN_PATTERNS_FOR_PARSING + ")$")
// We append optionally the extension pattern to the end here, as a
// valid phone number may have an extension prefix appended,
// followed by 1 or more digits.
VALID_PHONE_NUMBER_PATTERN = regexp.MustCompile(
"^(" + VALID_PHONE_NUMBER + "(?:" + EXTN_PATTERNS_FOR_PARSING + ")?)$")
NON_DIGITS_PATTERN = regexp.MustCompile(`(\D+)`)
DIGITS_PATTERN = regexp.MustCompile(`(\d+)`)
// The FIRST_GROUP_PATTERN was originally set to $1 but there are some
// countries for which the first group is not used in the national
// pattern (e.g. Argentina) so the $1 group does not match correctly.
// Therefore, we use \d, so that the first group actually used in the
// pattern will be matched.
FIRST_GROUP_PATTERN = regexp.MustCompile(`(\$\d)`)
NP_PATTERN = regexp.MustCompile(`\$NP`)
FG_PATTERN = regexp.MustCompile(`\$FG`)
CC_PATTERN = regexp.MustCompile(`\$CC`)
// A pattern that is used to determine if the national prefix
// formatting rule has the first group only, i.e., does not start
// with the national prefix. Note that the pattern explicitly allows
// for unbalanced parentheses.
FIRST_GROUP_ONLY_PREFIX_PATTERN = regexp.MustCompile(`\(?\$1\)?`)
REGION_CODE_FOR_NON_GEO_ENTITY = "001"
// Regular expression of valid global-number-digits for the phone-context parameter, following the
// syntax defined in RFC3966.
RFC3966_VISUAL_SEPARATOR = "[\\-\\.\\(\\)]?"
RFC3966_PHONE_DIGIT = "(" + DIGITS + "|" + RFC3966_VISUAL_SEPARATOR + ")"
RFC3966_GLOBAL_NUMBER_DIGITS = "^\\" + string(PLUS_SIGN) + RFC3966_PHONE_DIGIT + "*" + DIGITS + RFC3966_PHONE_DIGIT + "*$"
RFC3966_GLOBAL_NUMBER_DIGITS_PATTERN = regexp.MustCompile(RFC3966_GLOBAL_NUMBER_DIGITS)
// Regular expression of valid domainname for the phone-context parameter, following the syntax
// defined in RFC3966.
ALPHANUM = VALID_ALPHA + DIGITS
RFC3966_DOMAINLABEL = "[" + ALPHANUM + "]+((\\-)*[" + ALPHANUM + "])*"
RFC3966_TOPLABEL = "[" + VALID_ALPHA + "]+((\\-)*[" + ALPHANUM + "])*"
RFC3966_DOMAINNAME = "^(" + RFC3966_DOMAINLABEL + "\\.)*" + RFC3966_TOPLABEL + "\\.?$"
RFC3966_DOMAINNAME_PATTERN = regexp.MustCompile(RFC3966_DOMAINNAME)
// Set of country codes that have geographically assigned mobile numbers (see GEO_MOBILE_COUNTRIES
// below) which are not based on *area codes*. For example, in China mobile numbers start with a
// carrier indicator, and beyond that are geographically assigned: this carrier indicator is not
// considered to be an area code.
GEO_MOBILE_COUNTRIES_WITHOUT_MOBILE_AREA_CODES = map[int32]bool{
86: true, // China
}
// Set of country codes that doesn't have national prefix, but it has area codes.
COUNTRIES_WITHOUT_NATIONAL_PREFIX_WITH_AREA_CODES = map[int32]bool{
52: true, // Mexico
}
)
// INTERNATIONAL and NATIONAL formats are consistent with the definition
// in ITU-T Recommendation E123. For example, the number of the Google
// Switzerland office will be written as "+41 44 668 1800" in
// INTERNATIONAL format, and as "044 668 1800" in NATIONAL format. E164
// format is as per INTERNATIONAL format but with no formatting applied,
// e.g. "+41446681800". RFC3966 is as per INTERNATIONAL format, but with
// all spaces and other separating symbols replaced with a hyphen, and
// with any phone number extension appended with ";ext=". It also will
// have a prefix of "tel:" added, e.g. "tel:+41-44-668-1800".
//
// Note: If you are considering storing the number in a neutral format,
// you are highly advised to use the PhoneNumber class.
type PhoneNumberFormat int
const (
E164 PhoneNumberFormat = iota
INTERNATIONAL
NATIONAL
RFC3966
)
type PhoneNumberType int
const (
// NOTES:
//
// FIXED_LINE_OR_MOBILE:
// In some regions (e.g. the USA), it is impossible to distinguish
// between fixed-line and mobile numbers by looking at the phone
// number itself.
// SHARED_COST:
// The cost of this call is shared between the caller and the
// recipient, and is hence typically less than PREMIUM_RATE calls.
// See // http://en.wikipedia.org/wiki/Shared_Cost_Service for
// more information.
// VOIP:
// Voice over IP numbers. This includes TSoIP (Telephony Service over IP).
// PERSONAL_NUMBER:
// A personal number is associated with a particular person, and may
// be routed to either a MOBILE or FIXED_LINE number. Some more
// information can be found here:
// http://en.wikipedia.org/wiki/Personal_Numbers
// UAN:
// Used for "Universal Access Numbers" or "Company Numbers". They
// may be further routed to specific offices, but allow one number
// to be used for a company.
// VOICEMAIL:
// Used for "Voice Mail Access Numbers".
// UNKNOWN:
// A phone number is of type UNKNOWN when it does not fit any of
// the known patterns for a specific region.
FIXED_LINE PhoneNumberType = iota
MOBILE
FIXED_LINE_OR_MOBILE
TOLL_FREE
PREMIUM_RATE
SHARED_COST
VOIP
PERSONAL_NUMBER
PAGER
UAN
VOICEMAIL
UNKNOWN
)
type MatchType int
const (
NOT_A_NUMBER MatchType = iota
NO_MATCH
SHORT_NSN_MATCH
NSN_MATCH
EXACT_MATCH
)
type ValidationResult int
const (
IS_POSSIBLE ValidationResult = iota
INVALID_COUNTRY_CODE
TOO_SHORT
TOO_LONG
IS_POSSIBLE_LOCAL_ONLY
INVALID_LENGTH
)
// TODO(ttacon): leniency comments?
type Leniency int
const (
POSSIBLE Leniency = iota
VALID
STRICT_GROUPING
EXACT_GROUPING
)
func (l Leniency) Verify(number *PhoneNumber, candidate string) bool {
switch l {
case POSSIBLE:
return IsPossibleNumber(number)
case VALID:
if !IsValidNumber(number) ||
!ContainsOnlyValidXChars(number, candidate) {
return false
}
return IsNationalPrefixPresentIfRequired(number)
case STRICT_GROUPING:
if !IsValidNumber(number) ||
!ContainsOnlyValidXChars(number, candidate) ||
ContainsMoreThanOneSlashInNationalNumber(number, candidate) ||
!IsNationalPrefixPresentIfRequired(number) {
return false
}
return CheckNumberGroupingIsValid(number, candidate,
func(number *PhoneNumber,
normalizedCandidate string,
expectedNumberGroups []string) bool {
return AllNumberGroupsRemainGrouped(
number, normalizedCandidate, expectedNumberGroups)
})
case EXACT_GROUPING:
if !IsValidNumber(number) ||
!ContainsOnlyValidXChars(number, candidate) ||
ContainsMoreThanOneSlashInNationalNumber(number, candidate) ||
!IsNationalPrefixPresentIfRequired(number) {
return false
}
return CheckNumberGroupingIsValid(number, candidate,
func(number *PhoneNumber,
normalizedCandidate string,
expectedNumberGroups []string) bool {
return AllNumberGroupsAreExactlyPresent(
number, normalizedCandidate, expectedNumberGroups)
})
}
return false
}
var (
// golang map is not go routine safe. Sometimes process exiting
// because of panic. So adding mutex to synchronize the operation.
// The set of regions that share country calling code 1.
// There are roughly 26 regions.
nanpaRegions = make(map[string]struct{})
// A mapping from a region code to the PhoneMetadata for that region.
// Note: Synchronization, though only needed for the Android version
// of the library, is used in all versions for consistency.
regionToMetadataMap = make(map[string]*PhoneMetadata)
// A mapping from a country calling code for a non-geographical
// entity to the PhoneMetadata for that country calling code.
// Examples of the country calling codes include 800 (International
// Toll Free Service) and 808 (International Shared Cost Service).
// Note: Synchronization, though only needed for the Android version
// of the library, is used in all versions for consistency.
countryCodeToNonGeographicalMetadataMap = make(map[int]*PhoneMetadata)
// A cache for frequently used region-specific regular expressions.
// The initial capacity is set to 100 as this seems to be an optimal
// value for Android, based on performance measurements.
regexCache = make(map[string]*regexp.Regexp)
regCacheMutex sync.RWMutex
// The set of regions the library supports.
// There are roughly 240 of them and we set the initial capacity of
// the HashSet to 320 to offer a load factor of roughly 0.75.
supportedRegions = make(map[string]bool, 320)
// The set of calling codes that map to the non-geo entity
// region ("001"). This set currently contains < 12 elements so the
// default capacity of 16 (load factor=0.75) is fine.
countryCodesForNonGeographicalRegion = make(map[int]bool, 16)
// These are our onces and maps for our prefix to carrier maps
carrierOnces = make(map[string]*sync.Once)
carrierPrefixMap = make(map[string]*intStringMap)
// These are our onces and maps for our prefix to geocoding maps
geocodingOnces = make(map[string]*sync.Once)
geocodingPrefixMap = make(map[string]*intStringMap)
// All the calling codes we support
supportedCallingCodes = make(map[int]bool, 320)
// Our once and map for prefix to timezone lookups
timezoneOnce sync.Once
timezoneMap *intStringArrayMap
// Our map from country code (as integer) to two letter region codes
countryCodeToRegion map[int][]string
)
var ErrEmptyMetadata = errors.New("empty metadata")
func readFromRegexCache(key string) (*regexp.Regexp, bool) {
regCacheMutex.RLock()
v, ok := regexCache[key]
regCacheMutex.RUnlock()
return v, ok
}
func writeToRegexCache(key string, value *regexp.Regexp) {
regCacheMutex.Lock()
regexCache[key] = value
regCacheMutex.Unlock()
}
func regexFor(pattern string) *regexp.Regexp {
regex, found := readFromRegexCache(pattern)
if !found {
regex = regexp.MustCompile(pattern)
writeToRegexCache(pattern, regex)
}
return regex
}
func readFromNanpaRegions(key string) (struct{}, bool) {
v, ok := nanpaRegions[key]
return v, ok
}
func writeToNanpaRegions(key string, val struct{}) {
nanpaRegions[key] = val
}
func readFromRegionToMetadataMap(key string) (*PhoneMetadata, bool) {
v, ok := regionToMetadataMap[key]
return v, ok
}
func writeToRegionToMetadataMap(key string, val *PhoneMetadata) {
regionToMetadataMap[key] = val
}
func readFromCountryCodeToNonGeographicalMetadataMap(key int) (*PhoneMetadata, bool) {
v, ok := countryCodeToNonGeographicalMetadataMap[key]
return v, ok
}
func writeToCountryCodeToNonGeographicalMetadataMap(key int, v *PhoneMetadata) {
countryCodeToNonGeographicalMetadataMap[key] = v
}
func loadMetadataFromFile(
regionCode string,
countryCallingCode int) error {
metadataCollection, err := MetadataCollection()
if err != nil {
return err
} else if currMetadataColl == nil {
currMetadataColl = metadataCollection
}
metadataList := metadataCollection.GetMetadata()
if len(metadataList) == 0 {
return ErrEmptyMetadata
}
for _, meta := range metadataList {
region := meta.GetId()
if region == "001" {
// it's a non geographical entity
writeToCountryCodeToNonGeographicalMetadataMap(int(meta.GetCountryCode()), meta)
} else {
writeToRegionToMetadataMap(region, meta)
}
}
return nil
}
var (
currMetadataColl *PhoneMetadataCollection
reloadMetadata = true
)
func MetadataCollection() (*PhoneMetadataCollection, error) {
if !reloadMetadata {
return currMetadataColl, nil
}
rawBytes, err := decodeUnzipString(gen.NumberData)
if err != nil {
return nil, err
}
var metadataCollection = &PhoneMetadataCollection{}
err = proto.Unmarshal(rawBytes, metadataCollection)
reloadMetadata = false
return metadataCollection, err
}
// Attempts to extract a possible number from the string passed in.
// This currently strips all leading characters that cannot be used to
// start a phone number. Characters that can be used to start a phone
// number are defined in the VALID_START_CHAR_PATTERN. If none of these
// characters are found in the number passed in, an empty string is
// returned. This function also attempts to strip off any alternative
// extensions or endings if two or more are present, such as in the case
// of: (530) 583-6985 x302/x2303. The second extension here makes this
// actually two phone numbers, (530) 583-6985 x302 and (530) 583-6985 x2303.
// We remove the second extension so that the first number is parsed correctly.
func extractPossibleNumber(number string) string {
if VALID_START_CHAR_PATTERN.MatchString(number) {
start := VALID_START_CHAR_PATTERN.FindIndex([]byte(number))[0]
number = number[start:]
// Remove trailing non-alpha non-numerical characters.
indices := UNWANTED_END_CHAR_PATTERN.FindIndex([]byte(number))
if len(indices) > 0 {
number = number[0:indices[0]]
}
// Check for extra numbers at the end.
indices = SECOND_NUMBER_START_PATTERN.FindIndex([]byte(number))
if len(indices) > 0 {
number = number[0:indices[0]]
}
return number
}
return ""
}
// Checks to see if the string of characters could possibly be a phone
// number at all. At the moment, checks to see that the string begins
// with at least 2 digits, ignoring any punctuation commonly found in
// phone numbers. This method does not require the number to be
// normalized in advance - but does assume that leading non-number symbols
// have been removed, such as by the method extractPossibleNumber.
// @VisibleForTesting
func isViablePhoneNumber(number string) bool {
if len(number) < MIN_LENGTH_FOR_NSN {
return false
}
return VALID_PHONE_NUMBER_PATTERN.MatchString(number)
}
// Normalizes a string of characters representing a phone number. This
// performs the following conversions:
//
// - Punctuation is stripped.
//
// - For ALPHA/VANITY numbers:
//
// - Letters are converted to their numeric representation on a telephone
// keypad. The keypad used here is the one defined in ITU Recommendation
// E.161. This is only done if there are 3 or more letters in the
// number, to lessen the risk that such letters are typos.
//
// - For other numbers:
//
// - Wide-ascii digits are converted to normal ASCII (European) digits.
//
// - Arabic-Indic numerals are converted to European numerals.
//
// - Spurious alpha characters are stripped.
func normalize(number string) string {
if VALID_ALPHA_PHONE_PATTERN.MatchString(number) {
return normalizeHelper(number, ALPHA_PHONE_MAPPINGS, true)
}
return NormalizeDigitsOnly(number)
}
// Normalizes a string of characters representing a phone number. This
// converts wide-ascii and arabic-indic numerals to European numerals,
// and strips punctuation and alpha characters.
func NormalizeDigitsOnly(number string) string {
return normalizeDigits(number, false /* strip non-digits */)
}
// ugly hack still, but fills out the functionality (sort of)
// TODO(ttacon): more completely/elegantly solve this
var arabicIndicNumberals = map[rune]rune{
'٠': '0',
'۰': '0',
'١': '1',
'۱': '1',
'٢': '2',
'۲': '2',
'٣': '3',
'۳': '3',
'٤': '4',
'۴': '4',
'٥': '5',
'۵': '5',
'٦': '6',
'۶': '6',
'٧': '7',
'۷': '7',
'٨': '8',
'۸': '8',
'٩': '9',
'۹': '9',
'\uFF10': '0',
'\uFF11': '1',
'\uFF12': '2',
'\uFF13': '3',
'\uFF14': '4',
'\uFF15': '5',
'\uFF16': '6',
'\uFF17': '7',
'\uFF18': '8',
'\uFF19': '9',
}
func normalizeDigits(number string, keepNonDigits bool) string {
buf := number
var normalizedDigits = NewBuilder(nil)
for _, c := range buf {
if unicode.IsDigit(c) {
if v, ok := arabicIndicNumberals[c]; ok {
normalizedDigits.WriteRune(v)
} else {
normalizedDigits.WriteRune(c)
}
} else if keepNonDigits {
normalizedDigits.WriteRune(c)
}
}
return normalizedDigits.String()
}
// Normalizes a string of characters representing a phone number. This
// strips all characters which are not diallable on a mobile phone
// keypad (including all non-ASCII digits).
func normalizeDiallableCharsOnly(number string) string {
return normalizeHelper(
number, DIALLABLE_CHAR_MAPPINGS, true /* remove non matches */)
}
// Converts all alpha characters in a number to their respective digits
// on a keypad, but retains existing formatting.
func ConvertAlphaCharactersInNumber(number string) string {
return normalizeHelper(number, ALPHA_PHONE_MAPPINGS, false)
}
// Gets the length of the geographical area code from the PhoneNumber
// object passed in, so that clients could use it to split a national
// significant number into geographical area code and subscriber number. It
// works in such a way that the resultant subscriber number should be
// diallable, at least on some devices. An example of how this could be used:
//
// number, err := Parse("16502530000", "US");
// // ... deal with err appropriately ...
// nationalSignificantNumber := GetNationalSignificantNumber(number);
// var areaCode, subscriberNumber;
//
// int areaCodeLength = GetLengthOfGeographicalAreaCode(number);
// if (areaCodeLength > 0) {
// areaCode = nationalSignificantNumber[0:areaCodeLength];
// subscriberNumber = nationalSignificantNumber[areaCodeLength:];
// } else {
// areaCode = "";
// subscriberNumber = nationalSignificantNumber;
// }
//
// N.B.: area code is a very ambiguous concept, so the I18N team generally
// recommends against using it for most purposes, but recommends using the
// more general national_number instead. Read the following carefully before
// deciding to use this method:
//
// - geographical area codes change over time, and this method honors those changes;
// therefore, it doesn't guarantee the stability of the result it produces.
// - subscriber numbers may not be diallable from all devices (notably mobile
// devices, which typically requires the full national_number to be dialled
// in most regions).
// - most non-geographical numbers have no area codes, including numbers from
// non-geographical entities
// - some geographical numbers have no area codes.
func GetLengthOfGeographicalAreaCode(number *PhoneNumber) int {
metadata := getMetadataForRegion(GetRegionCodeForNumber(number))
if metadata == nil {
return 0
}
numType := GetNumberType(number)
countryCallingCode := number.GetCountryCode()
// If a country doesn't use a national prefix, and this number doesn't have an Italian leading
// zero, we assume it is a closed dialling plan with no area codes.
// Note:this is our general assumption, but there are exceptions which are tracked in
// COUNTRIES_WITHOUT_NATIONAL_PREFIX_WITH_AREA_CODES.
if len(metadata.GetNationalPrefix()) == 0 && !number.GetItalianLeadingZero() && !COUNTRIES_WITHOUT_NATIONAL_PREFIX_WITH_AREA_CODES[countryCallingCode] {
return 0
}
// Note this is a rough heuristic; it doesn't cover Indonesia well, for example, where area
// codes are present for some mobile phones but not for others. We have no better way of
// representing this in the metadata at this point.
if numType == MOBILE && GEO_MOBILE_COUNTRIES_WITHOUT_MOBILE_AREA_CODES[countryCallingCode] {
return 0
}
if !isNumberGeographical(number) {
return 0
}
return GetLengthOfNationalDestinationCode(number)
}
// Gets the length of the national destination code (NDC) from the
// PhoneNumber object passed in, so that clients could use it to split a
// national significant number into NDC and subscriber number. The NDC of
// a phone number is normally the first group of digit(s) right after the
// country calling code when the number is formatted in the international
// format, if there is a subscriber number part that follows. An example
// of how this could be used:
//
// PhoneNumberUtil phoneUtil = PhoneNumberUtil.getInstance();
// PhoneNumber number = phoneUtil.parse("18002530000", "US");
// String nationalSignificantNumber = phoneUtil.GetNationalSignificantNumber(number);
// String nationalDestinationCode;
// String subscriberNumber;
//
// int nationalDestinationCodeLength =
// phoneUtil.GetLengthOfNationalDestinationCode(number);
// if nationalDestinationCodeLength > 0 {
// nationalDestinationCode = nationalSignificantNumber.substring(0,
// nationalDestinationCodeLength);
// subscriberNumber = nationalSignificantNumber.substring(
// nationalDestinationCodeLength);
// } else {
// nationalDestinationCode = "";
// subscriberNumber = nationalSignificantNumber;
// }
//
// Refer to the unittests to see the difference between this function and
// GetLengthOfGeographicalAreaCode().
func GetLengthOfNationalDestinationCode(number *PhoneNumber) int {
var copiedProto *PhoneNumber
if len(number.GetExtension()) > 0 {
// We don't want to alter the proto given to us, but we don't
// want to include the extension when we format it, so we copy
// it and clear the extension here.
copiedProto = &PhoneNumber{}
proto.Merge(copiedProto, number)
copiedProto.Extension = nil
} else {
copiedProto = number
}
nationalSignificantNumber := Format(copiedProto, INTERNATIONAL)
numberGroups := NON_DIGITS_PATTERN.Split(nationalSignificantNumber, -1)
// The pattern will start with "+COUNTRY_CODE " so the first group
// will always be the empty string (before the + symbol) and the
// second group will be the country calling code. The third group
// will be area code if it is not the last group.
if len(numberGroups) <= 3 {
return 0
}
if GetNumberType(number) == MOBILE {
// For example Argentinian mobile numbers, when formatted in
// the international format, are in the form of +54 9 NDC XXXX....
// As a result, we take the length of the third group (NDC) and
// add the length of the second group (which is the mobile token),
// which also forms part of the national significant number. This
// assumes that the mobile token is always formatted separately
// from the rest of the phone number.
mobileToken := GetCountryMobileToken(int(number.GetCountryCode()))
if mobileToken != "" {
return len(numberGroups[1]) + len(numberGroups[2])
}
}
return len(numberGroups[2])
}