sq_AL.go 21 KB

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  1. package sq_AL
  2. import (
  3. "math"
  4. "strconv"
  5. "time"
  6. "github.com/go-playground/locales"
  7. "github.com/go-playground/locales/currency"
  8. )
  9. type sq_AL struct {
  10. locale string
  11. pluralsCardinal []locales.PluralRule
  12. pluralsOrdinal []locales.PluralRule
  13. pluralsRange []locales.PluralRule
  14. decimal string
  15. group string
  16. minus string
  17. percent string
  18. perMille string
  19. timeSeparator string
  20. inifinity string
  21. currencies []string // idx = enum of currency code
  22. currencyPositiveSuffix string
  23. currencyNegativePrefix string
  24. currencyNegativeSuffix string
  25. monthsAbbreviated []string
  26. monthsNarrow []string
  27. monthsWide []string
  28. daysAbbreviated []string
  29. daysNarrow []string
  30. daysShort []string
  31. daysWide []string
  32. periodsAbbreviated []string
  33. periodsNarrow []string
  34. periodsShort []string
  35. periodsWide []string
  36. erasAbbreviated []string
  37. erasNarrow []string
  38. erasWide []string
  39. timezones map[string]string
  40. }
  41. // New returns a new instance of translator for the 'sq_AL' locale
  42. func New() locales.Translator {
  43. return &sq_AL{
  44. locale: "sq_AL",
  45. pluralsCardinal: []locales.PluralRule{2, 6},
  46. pluralsOrdinal: []locales.PluralRule{2, 5, 6},
  47. pluralsRange: []locales.PluralRule{2, 6},
  48. decimal: ",",
  49. group: " ",
  50. minus: "-",
  51. percent: "%",
  52. perMille: "‰",
  53. timeSeparator: ":",
  54. inifinity: "∞",
  55. currencies: []string{"ADP", "AED", "AFA", "AFN", "ALK", "ALL", "AMD", "ANG", "AOA", "AOK", "AON", "AOR", "ARA", "ARL", "ARM", "ARP", "ARS", "ATS", "AUD", "AWG", "AZM", "AZN", "BAD", "BAM", "BAN", "BBD", "BDT", "BEC", "BEF", "BEL", "BGL", "BGM", "BGN", "BGO", "BHD", "BIF", "BMD", "BND", "BOB", "BOL", "BOP", "BOV", "BRB", "BRC", "BRE", "BRL", "BRN", "BRR", "BRZ", "BSD", "BTN", "BUK", "BWP", "BYB", "BYN", "BYR", "BZD", "CAD", "CDF", "CHE", "CHF", "CHW", "CLE", "CLF", "CLP", "CNH", "CNX", "CNY", "COP", "COU", "CRC", "CSD", "CSK", "CUC", "CUP", "CVE", "CYP", "CZK", "DDM", "DEM", "DJF", "DKK", "DOP", "DZD", "ECS", "ECV", "EEK", "EGP", "ERN", "ESA", "ESB", "ESP", "ETB", "EUR", "FIM", "FJD", "FKP", "FRF", "GBP", "GEK", "GEL", "GHC", "GHS", "GIP", "GMD", "GNF", "GNS", "GQE", "GRD", "GTQ", "GWE", "GWP", "GYD", "HKD", "HNL", "HRD", "HRK", "HTG", "HUF", "IDR", "IEP", "ILP", "ILR", "ILS", "INR", "IQD", "IRR", "ISJ", "ISK", "ITL", "JMD", "JOD", "JPY", "KES", "KGS", "KHR", "KMF", "KPW", "KRH", "KRO", "KRW", "KWD", "KYD", "KZT", "LAK", "LBP", "LKR", "LRD", "LSL", "LTL", "LTT", "LUC", "LUF", "LUL", "LVL", "LVR", "LYD", "MAD", "MAF", "MCF", "MDC", "MDL", "MGA", "MGF", "MKD", "MKN", "MLF", "MMK", "MNT", "MOP", "MRO", "MTL", "MTP", "MUR", "MVP", "MVR", "MWK", "MXN", "MXP", "MXV", "MYR", "MZE", "MZM", "MZN", "NAD", "NGN", "NIC", "NIO", "NLG", "NOK", "NPR", "NZD", "OMR", "PAB", "PEI", "PEN", "PES", "PGK", "PHP", "PKR", "PLN", "PLZ", "PTE", "PYG", "QAR", "RHD", "ROL", "RON", "RSD", "RUB", "RUR", "RWF", "SAR", "SBD", "SCR", "SDD", "SDG", "SDP", "SEK", "SGD", "SHP", "SIT", "SKK", "SLL", "SOS", "SRD", "SRG", "SSP", "STD", "STN", "SUR", "SVC", "SYP", "SZL", "THB", "TJR", "TJS", "TMM", "TMT", "TND", "TOP", "TPE", "TRL", "TRY", "TTD", "TWD", "TZS", "UAH", "UAK", "UGS", "UGX", "USD", "USN", "USS", "UYI", "UYP", "UYU", "UZS", "VEB", "VEF", "VND", "VNN", "VUV", "WST", "XAF", "XAG", "XAU", "XBA", "XBB", "XBC", "XBD", "XCD", "XDR", "XEU", "XFO", "XFU", "XOF", "XPD", "XPF", "XPT", "XRE", "XSU", "XTS", "XUA", "XXX", "YDD", "YER", "YUD", "YUM", "YUN", "YUR", "ZAL", "ZAR", "ZMK", "ZMW", "ZRN", "ZRZ", "ZWD", "ZWL", "ZWR"},
  56. currencyPositiveSuffix: " ",
  57. currencyNegativePrefix: "(",
  58. currencyNegativeSuffix: " )",
  59. monthsAbbreviated: []string{"", "jan", "shk", "mar", "pri", "maj", "qer", "korr", "gush", "sht", "tet", "nën", "dhj"},
  60. monthsNarrow: []string{"", "j", "sh", "m", "p", "m", "q", "k", "g", "sh", "t", "n", "dh"},
  61. monthsWide: []string{"", "janar", "shkurt", "mars", "prill", "maj", "qershor", "korrik", "gusht", "shtator", "tetor", "nëntor", "dhjetor"},
  62. daysAbbreviated: []string{"Die", "Hën", "Mar", "Mër", "Enj", "Pre", "Sht"},
  63. daysNarrow: []string{"D", "H", "M", "M", "E", "P", "Sh"},
  64. daysShort: []string{"Die", "Hën", "Mar", "Mër", "Enj", "Pre", "Sht"},
  65. daysWide: []string{"e diel", "e hënë", "e martë", "e mërkurë", "e enjte", "e premte", "e shtunë"},
  66. periodsAbbreviated: []string{"e paradites", "e pasdites"},
  67. periodsNarrow: []string{"e paradites", "e pasdites"},
  68. periodsWide: []string{"e paradites", "e pasdites"},
  69. erasAbbreviated: []string{"p.K.", "mb.K."},
  70. erasNarrow: []string{"p.K.", "mb.K."},
  71. erasWide: []string{"para Krishtit", "mbas Krishtit"},
  72. timezones: map[string]string{"HNCU": "Ora standarde e Kubës", "AWDT": "Ora verore e Australisë Perëndimore", "HEPMX": "Ora verore e Territoreve Meksikane të Bregut të Paqësorit", "AST": "Ora standarde e Atlantikut", "MEZ": "Ora standarde e Evropës Qendrore", "TMT": "Ora standarde e Turkmenistanit", "PST": "Ora standarde e Territoreve Amerikane të Bregut të Paqësorit", "CDT": "Ora verore e SHBA-së Qendrore", "WEZ": "Ora standarde e Evropës Perëndimore", "ACWDT": "Ora verore e Australisë Qendroro-Perëndimore", "EST": "Ora standarde e SHBA-së Lindore", "GFT": "Ora e Guajanës Franceze", "VET": "Ora e Venezuelës", "HNNOMX": "Ora standarde e Meksikës Veriperëndimore", "OESZ": "Ora verore e Evropës Lindore", "MYT": "Ora e Malajzisë", "BOT": "Ora e Bolivisë", "HEEG": "Ora verore e Grenlandës Lindore", "HNPM": "Ora standarde e Shën-Pier dhe Mikelon", "HNT": "Ora standarde e Njufaundlendit [Tokës së Re]", "WAT": "Ora standarde e Afrikës Perëndimore", "BT": "Ora e Butanit", "MESZ": "Ora verore e Evropës Qendrore", "LHST": "Ora standarde e Lord-Houit", "WARST": "Ora verore e Argjentinës Perëndimore", "UYT": "Ora standarde e Uruguait", "WESZ": "Ora verore e Evropës Perëndimore", "AKST": "Ora standarde e Alaskës", "AKDT": "Ora verore e Alsaskës", "ACST": "Ora standarde e Australisë Qendrore", "HKT": "Ora standarde e Hong-Kongut", "LHDT": "Ora verore e Lord-Houit", "TMST": "Ora verore e Turkmenistanit", "HNOG": "Ora standarde e Grenlandës Perëndimore", "IST": "Ora standarde e Indisë", "WITA": "Ora e Indonezisë Qendrore", "HAST": "Ora standarde e Ishujve Hauai-Aleutian", "MST": "Ora standarde e Territoreve Amerikane të Brezit Malor", "ADT": "Ora verore e Atlantikut", "JDT": "Ora verore e Japonisë", "ACWST": "Ora standarde e Australisë Qendroro-Perëndimore", "SRT": "Ora e Surinamit", "GMT": "Ora e Grinuiçit", "HNPMX": "Ora standarde e Territoreve Meksikane të Bregut të Paqësorit", "AEDT": "Ora verore e Australisë Lindore", "ACDT": "Ora verore e Australisë Qendrore", "EDT": "Ora verore e SHBA-së Lindore", "WART": "Ora standarde e Argjentinës Perëndimore", "CLT": "Ora standarde e Kilit", "WIB": "Ora e Indonezisë Perëndimore", "NZST": "Ora standarde e Zelandës së Re", "NZDT": "Ora verore e Zelandës së Re", "ART": "Ora standarde e Argjentinës", "PDT": "Ora verore e Territoreve Amerikane të Bregut të Paqësorit", "HENOMX": "Ora verore e Meksikës Veriperëndimore", "EAT": "Ora e Afrikës Lindore", "COST": "Ora verore e Kolumbisë", "CHADT": "Ora verore e Katamit", "CAT": "Ora e Afrikës Qendrore", "OEZ": "Ora standarde e Evropës Lindore", "CST": "Ora standarde e SHBA-së Qendrore", "WAST": "Ora verore e Afrikës Perëndimore", "HNEG": "Ora standarde e Grenlandës Lindore", "HEOG": "Ora verore e Grenlandës Perëndimore", "HKST": "Ora verore e Hong-Kongut", "HEPM": "Ora verore e Shën-Pier dhe Mikelon", "UYST": "Ora verore e Uruguait", "CHAST": "Ora standarde e Katamit", "SGT": "Ora e Singaporit", "CLST": "Ora verore e Kilit", "COT": "Ora standarde e Kolumbisë", "ChST": "Ora e Kamorros", "HECU": "Ora verore e Kubës", "∅∅∅": "Ora verore e Brasilës", "AEST": "Ora standarde e Australisë Lindore", "ECT": "Ora e Ekuadorit", "AWST": "Ora standarde e Australisë Perëndimore", "MDT": "Ora verore e Territoreve Amerikane të Brezit Malor", "SAST": "Ora standarde e Afrikës Jugore", "JST": "Ora standarde e Japonisë", "HAT": "Ora verore e Njufaundlendit [Tokës së Re]", "WIT": "Ora e Indonezisë Lindore", "HADT": "Ora verore e Ishujve Hauai-Aleutian", "ARST": "Ora verore e Argjentinës", "GYT": "Ora e Guajanës"},
  73. }
  74. }
  75. // Locale returns the current translators string locale
  76. func (sq *sq_AL) Locale() string {
  77. return sq.locale
  78. }
  79. // PluralsCardinal returns the list of cardinal plural rules associated with 'sq_AL'
  80. func (sq *sq_AL) PluralsCardinal() []locales.PluralRule {
  81. return sq.pluralsCardinal
  82. }
  83. // PluralsOrdinal returns the list of ordinal plural rules associated with 'sq_AL'
  84. func (sq *sq_AL) PluralsOrdinal() []locales.PluralRule {
  85. return sq.pluralsOrdinal
  86. }
  87. // PluralsRange returns the list of range plural rules associated with 'sq_AL'
  88. func (sq *sq_AL) PluralsRange() []locales.PluralRule {
  89. return sq.pluralsRange
  90. }
  91. // CardinalPluralRule returns the cardinal PluralRule given 'num' and digits/precision of 'v' for 'sq_AL'
  92. func (sq *sq_AL) CardinalPluralRule(num float64, v uint64) locales.PluralRule {
  93. n := math.Abs(num)
  94. if n == 1 {
  95. return locales.PluralRuleOne
  96. }
  97. return locales.PluralRuleOther
  98. }
  99. // OrdinalPluralRule returns the ordinal PluralRule given 'num' and digits/precision of 'v' for 'sq_AL'
  100. func (sq *sq_AL) OrdinalPluralRule(num float64, v uint64) locales.PluralRule {
  101. n := math.Abs(num)
  102. nMod10 := math.Mod(n, 10)
  103. nMod100 := math.Mod(n, 100)
  104. if n == 1 {
  105. return locales.PluralRuleOne
  106. } else if nMod10 == 4 && nMod100 != 14 {
  107. return locales.PluralRuleMany
  108. }
  109. return locales.PluralRuleOther
  110. }
  111. // RangePluralRule returns the ordinal PluralRule given 'num1', 'num2' and digits/precision of 'v1' and 'v2' for 'sq_AL'
  112. func (sq *sq_AL) RangePluralRule(num1 float64, v1 uint64, num2 float64, v2 uint64) locales.PluralRule {
  113. start := sq.CardinalPluralRule(num1, v1)
  114. end := sq.CardinalPluralRule(num2, v2)
  115. if start == locales.PluralRuleOne && end == locales.PluralRuleOther {
  116. return locales.PluralRuleOther
  117. } else if start == locales.PluralRuleOther && end == locales.PluralRuleOne {
  118. return locales.PluralRuleOne
  119. }
  120. return locales.PluralRuleOther
  121. }
  122. // MonthAbbreviated returns the locales abbreviated month given the 'month' provided
  123. func (sq *sq_AL) MonthAbbreviated(month time.Month) string {
  124. return sq.monthsAbbreviated[month]
  125. }
  126. // MonthsAbbreviated returns the locales abbreviated months
  127. func (sq *sq_AL) MonthsAbbreviated() []string {
  128. return sq.monthsAbbreviated[1:]
  129. }
  130. // MonthNarrow returns the locales narrow month given the 'month' provided
  131. func (sq *sq_AL) MonthNarrow(month time.Month) string {
  132. return sq.monthsNarrow[month]
  133. }
  134. // MonthsNarrow returns the locales narrow months
  135. func (sq *sq_AL) MonthsNarrow() []string {
  136. return sq.monthsNarrow[1:]
  137. }
  138. // MonthWide returns the locales wide month given the 'month' provided
  139. func (sq *sq_AL) MonthWide(month time.Month) string {
  140. return sq.monthsWide[month]
  141. }
  142. // MonthsWide returns the locales wide months
  143. func (sq *sq_AL) MonthsWide() []string {
  144. return sq.monthsWide[1:]
  145. }
  146. // WeekdayAbbreviated returns the locales abbreviated weekday given the 'weekday' provided
  147. func (sq *sq_AL) WeekdayAbbreviated(weekday time.Weekday) string {
  148. return sq.daysAbbreviated[weekday]
  149. }
  150. // WeekdaysAbbreviated returns the locales abbreviated weekdays
  151. func (sq *sq_AL) WeekdaysAbbreviated() []string {
  152. return sq.daysAbbreviated
  153. }
  154. // WeekdayNarrow returns the locales narrow weekday given the 'weekday' provided
  155. func (sq *sq_AL) WeekdayNarrow(weekday time.Weekday) string {
  156. return sq.daysNarrow[weekday]
  157. }
  158. // WeekdaysNarrow returns the locales narrow weekdays
  159. func (sq *sq_AL) WeekdaysNarrow() []string {
  160. return sq.daysNarrow
  161. }
  162. // WeekdayShort returns the locales short weekday given the 'weekday' provided
  163. func (sq *sq_AL) WeekdayShort(weekday time.Weekday) string {
  164. return sq.daysShort[weekday]
  165. }
  166. // WeekdaysShort returns the locales short weekdays
  167. func (sq *sq_AL) WeekdaysShort() []string {
  168. return sq.daysShort
  169. }
  170. // WeekdayWide returns the locales wide weekday given the 'weekday' provided
  171. func (sq *sq_AL) WeekdayWide(weekday time.Weekday) string {
  172. return sq.daysWide[weekday]
  173. }
  174. // WeekdaysWide returns the locales wide weekdays
  175. func (sq *sq_AL) WeekdaysWide() []string {
  176. return sq.daysWide
  177. }
  178. // Decimal returns the decimal point of number
  179. func (sq *sq_AL) Decimal() string {
  180. return sq.decimal
  181. }
  182. // Group returns the group of number
  183. func (sq *sq_AL) Group() string {
  184. return sq.group
  185. }
  186. // Group returns the minus sign of number
  187. func (sq *sq_AL) Minus() string {
  188. return sq.minus
  189. }
  190. // FmtNumber returns 'num' with digits/precision of 'v' for 'sq_AL' and handles both Whole and Real numbers based on 'v'
  191. func (sq *sq_AL) FmtNumber(num float64, v uint64) string {
  192. s := strconv.FormatFloat(math.Abs(num), 'f', int(v), 64)
  193. l := len(s) + 2 + 2*len(s[:len(s)-int(v)-1])/3
  194. count := 0
  195. inWhole := v == 0
  196. b := make([]byte, 0, l)
  197. for i := len(s) - 1; i >= 0; i-- {
  198. if s[i] == '.' {
  199. b = append(b, sq.decimal[0])
  200. inWhole = true
  201. continue
  202. }
  203. if inWhole {
  204. if count == 3 {
  205. for j := len(sq.group) - 1; j >= 0; j-- {
  206. b = append(b, sq.group[j])
  207. }
  208. count = 1
  209. } else {
  210. count++
  211. }
  212. }
  213. b = append(b, s[i])
  214. }
  215. if num < 0 {
  216. b = append(b, sq.minus[0])
  217. }
  218. // reverse
  219. for i, j := 0, len(b)-1; i < j; i, j = i+1, j-1 {
  220. b[i], b[j] = b[j], b[i]
  221. }
  222. return string(b)
  223. }
  224. // FmtPercent returns 'num' with digits/precision of 'v' for 'sq_AL' and handles both Whole and Real numbers based on 'v'
  225. // NOTE: 'num' passed into FmtPercent is assumed to be in percent already
  226. func (sq *sq_AL) FmtPercent(num float64, v uint64) string {
  227. s := strconv.FormatFloat(math.Abs(num), 'f', int(v), 64)
  228. l := len(s) + 3
  229. b := make([]byte, 0, l)
  230. for i := len(s) - 1; i >= 0; i-- {
  231. if s[i] == '.' {
  232. b = append(b, sq.decimal[0])
  233. continue
  234. }
  235. b = append(b, s[i])
  236. }
  237. if num < 0 {
  238. b = append(b, sq.minus[0])
  239. }
  240. // reverse
  241. for i, j := 0, len(b)-1; i < j; i, j = i+1, j-1 {
  242. b[i], b[j] = b[j], b[i]
  243. }
  244. b = append(b, sq.percent...)
  245. return string(b)
  246. }
  247. // FmtCurrency returns the currency representation of 'num' with digits/precision of 'v' for 'sq_AL'
  248. func (sq *sq_AL) FmtCurrency(num float64, v uint64, currency currency.Type) string {
  249. s := strconv.FormatFloat(math.Abs(num), 'f', int(v), 64)
  250. symbol := sq.currencies[currency]
  251. l := len(s) + len(symbol) + 4 + 2*len(s[:len(s)-int(v)-1])/3
  252. count := 0
  253. inWhole := v == 0
  254. b := make([]byte, 0, l)
  255. for i := len(s) - 1; i >= 0; i-- {
  256. if s[i] == '.' {
  257. b = append(b, sq.decimal[0])
  258. inWhole = true
  259. continue
  260. }
  261. if inWhole {
  262. if count == 3 {
  263. for j := len(sq.group) - 1; j >= 0; j-- {
  264. b = append(b, sq.group[j])
  265. }
  266. count = 1
  267. } else {
  268. count++
  269. }
  270. }
  271. b = append(b, s[i])
  272. }
  273. if num < 0 {
  274. b = append(b, sq.minus[0])
  275. }
  276. // reverse
  277. for i, j := 0, len(b)-1; i < j; i, j = i+1, j-1 {
  278. b[i], b[j] = b[j], b[i]
  279. }
  280. if int(v) < 2 {
  281. if v == 0 {
  282. b = append(b, sq.decimal...)
  283. }
  284. for i := 0; i < 2-int(v); i++ {
  285. b = append(b, '0')
  286. }
  287. }
  288. b = append(b, sq.currencyPositiveSuffix...)
  289. b = append(b, symbol...)
  290. return string(b)
  291. }
  292. // FmtAccounting returns the currency representation of 'num' with digits/precision of 'v' for 'sq_AL'
  293. // in accounting notation.
  294. func (sq *sq_AL) FmtAccounting(num float64, v uint64, currency currency.Type) string {
  295. s := strconv.FormatFloat(math.Abs(num), 'f', int(v), 64)
  296. symbol := sq.currencies[currency]
  297. l := len(s) + len(symbol) + 6 + 2*len(s[:len(s)-int(v)-1])/3
  298. count := 0
  299. inWhole := v == 0
  300. b := make([]byte, 0, l)
  301. for i := len(s) - 1; i >= 0; i-- {
  302. if s[i] == '.' {
  303. b = append(b, sq.decimal[0])
  304. inWhole = true
  305. continue
  306. }
  307. if inWhole {
  308. if count == 3 {
  309. for j := len(sq.group) - 1; j >= 0; j-- {
  310. b = append(b, sq.group[j])
  311. }
  312. count = 1
  313. } else {
  314. count++
  315. }
  316. }
  317. b = append(b, s[i])
  318. }
  319. if num < 0 {
  320. b = append(b, sq.currencyNegativePrefix[0])
  321. }
  322. // reverse
  323. for i, j := 0, len(b)-1; i < j; i, j = i+1, j-1 {
  324. b[i], b[j] = b[j], b[i]
  325. }
  326. if int(v) < 2 {
  327. if v == 0 {
  328. b = append(b, sq.decimal...)
  329. }
  330. for i := 0; i < 2-int(v); i++ {
  331. b = append(b, '0')
  332. }
  333. }
  334. if num < 0 {
  335. b = append(b, sq.currencyNegativeSuffix...)
  336. b = append(b, symbol...)
  337. } else {
  338. b = append(b, sq.currencyPositiveSuffix...)
  339. b = append(b, symbol...)
  340. }
  341. return string(b)
  342. }
  343. // FmtDateShort returns the short date representation of 't' for 'sq_AL'
  344. func (sq *sq_AL) FmtDateShort(t time.Time) string {
  345. b := make([]byte, 0, 32)
  346. b = strconv.AppendInt(b, int64(t.Day()), 10)
  347. b = append(b, []byte{0x2e}...)
  348. b = strconv.AppendInt(b, int64(t.Month()), 10)
  349. b = append(b, []byte{0x2e}...)
  350. if t.Year() > 9 {
  351. b = append(b, strconv.Itoa(t.Year())[2:]...)
  352. } else {
  353. b = append(b, strconv.Itoa(t.Year())[1:]...)
  354. }
  355. return string(b)
  356. }
  357. // FmtDateMedium returns the medium date representation of 't' for 'sq_AL'
  358. func (sq *sq_AL) FmtDateMedium(t time.Time) string {
  359. b := make([]byte, 0, 32)
  360. b = strconv.AppendInt(b, int64(t.Day()), 10)
  361. b = append(b, []byte{0x20}...)
  362. b = append(b, sq.monthsAbbreviated[t.Month()]...)
  363. b = append(b, []byte{0x20}...)
  364. if t.Year() > 0 {
  365. b = strconv.AppendInt(b, int64(t.Year()), 10)
  366. } else {
  367. b = strconv.AppendInt(b, int64(-t.Year()), 10)
  368. }
  369. return string(b)
  370. }
  371. // FmtDateLong returns the long date representation of 't' for 'sq_AL'
  372. func (sq *sq_AL) FmtDateLong(t time.Time) string {
  373. b := make([]byte, 0, 32)
  374. b = strconv.AppendInt(b, int64(t.Day()), 10)
  375. b = append(b, []byte{0x20}...)
  376. b = append(b, sq.monthsWide[t.Month()]...)
  377. b = append(b, []byte{0x20}...)
  378. if t.Year() > 0 {
  379. b = strconv.AppendInt(b, int64(t.Year()), 10)
  380. } else {
  381. b = strconv.AppendInt(b, int64(-t.Year()), 10)
  382. }
  383. return string(b)
  384. }
  385. // FmtDateFull returns the full date representation of 't' for 'sq_AL'
  386. func (sq *sq_AL) FmtDateFull(t time.Time) string {
  387. b := make([]byte, 0, 32)
  388. b = append(b, sq.daysWide[t.Weekday()]...)
  389. b = append(b, []byte{0x2c, 0x20}...)
  390. b = strconv.AppendInt(b, int64(t.Day()), 10)
  391. b = append(b, []byte{0x20}...)
  392. b = append(b, sq.monthsWide[t.Month()]...)
  393. b = append(b, []byte{0x20}...)
  394. if t.Year() > 0 {
  395. b = strconv.AppendInt(b, int64(t.Year()), 10)
  396. } else {
  397. b = strconv.AppendInt(b, int64(-t.Year()), 10)
  398. }
  399. return string(b)
  400. }
  401. // FmtTimeShort returns the short time representation of 't' for 'sq_AL'
  402. func (sq *sq_AL) FmtTimeShort(t time.Time) string {
  403. b := make([]byte, 0, 32)
  404. h := t.Hour()
  405. if h > 12 {
  406. h -= 12
  407. }
  408. b = strconv.AppendInt(b, int64(h), 10)
  409. b = append(b, sq.timeSeparator...)
  410. if t.Minute() < 10 {
  411. b = append(b, '0')
  412. }
  413. b = strconv.AppendInt(b, int64(t.Minute()), 10)
  414. b = append(b, []byte{0x20}...)
  415. if t.Hour() < 12 {
  416. b = append(b, sq.periodsAbbreviated[0]...)
  417. } else {
  418. b = append(b, sq.periodsAbbreviated[1]...)
  419. }
  420. return string(b)
  421. }
  422. // FmtTimeMedium returns the medium time representation of 't' for 'sq_AL'
  423. func (sq *sq_AL) FmtTimeMedium(t time.Time) string {
  424. b := make([]byte, 0, 32)
  425. h := t.Hour()
  426. if h > 12 {
  427. h -= 12
  428. }
  429. b = strconv.AppendInt(b, int64(h), 10)
  430. b = append(b, sq.timeSeparator...)
  431. if t.Minute() < 10 {
  432. b = append(b, '0')
  433. }
  434. b = strconv.AppendInt(b, int64(t.Minute()), 10)
  435. b = append(b, sq.timeSeparator...)
  436. if t.Second() < 10 {
  437. b = append(b, '0')
  438. }
  439. b = strconv.AppendInt(b, int64(t.Second()), 10)
  440. b = append(b, []byte{0x20}...)
  441. if t.Hour() < 12 {
  442. b = append(b, sq.periodsAbbreviated[0]...)
  443. } else {
  444. b = append(b, sq.periodsAbbreviated[1]...)
  445. }
  446. return string(b)
  447. }
  448. // FmtTimeLong returns the long time representation of 't' for 'sq_AL'
  449. func (sq *sq_AL) FmtTimeLong(t time.Time) string {
  450. b := make([]byte, 0, 32)
  451. h := t.Hour()
  452. if h > 12 {
  453. h -= 12
  454. }
  455. b = strconv.AppendInt(b, int64(h), 10)
  456. b = append(b, sq.timeSeparator...)
  457. if t.Minute() < 10 {
  458. b = append(b, '0')
  459. }
  460. b = strconv.AppendInt(b, int64(t.Minute()), 10)
  461. b = append(b, sq.timeSeparator...)
  462. if t.Second() < 10 {
  463. b = append(b, '0')
  464. }
  465. b = strconv.AppendInt(b, int64(t.Second()), 10)
  466. b = append(b, []byte{0x20}...)
  467. if t.Hour() < 12 {
  468. b = append(b, sq.periodsAbbreviated[0]...)
  469. } else {
  470. b = append(b, sq.periodsAbbreviated[1]...)
  471. }
  472. b = append(b, []byte{0x2c, 0x20}...)
  473. tz, _ := t.Zone()
  474. b = append(b, tz...)
  475. return string(b)
  476. }
  477. // FmtTimeFull returns the full time representation of 't' for 'sq_AL'
  478. func (sq *sq_AL) FmtTimeFull(t time.Time) string {
  479. b := make([]byte, 0, 32)
  480. h := t.Hour()
  481. if h > 12 {
  482. h -= 12
  483. }
  484. b = strconv.AppendInt(b, int64(h), 10)
  485. b = append(b, sq.timeSeparator...)
  486. if t.Minute() < 10 {
  487. b = append(b, '0')
  488. }
  489. b = strconv.AppendInt(b, int64(t.Minute()), 10)
  490. b = append(b, sq.timeSeparator...)
  491. if t.Second() < 10 {
  492. b = append(b, '0')
  493. }
  494. b = strconv.AppendInt(b, int64(t.Second()), 10)
  495. b = append(b, []byte{0x20}...)
  496. if t.Hour() < 12 {
  497. b = append(b, sq.periodsAbbreviated[0]...)
  498. } else {
  499. b = append(b, sq.periodsAbbreviated[1]...)
  500. }
  501. b = append(b, []byte{0x2c, 0x20}...)
  502. tz, _ := t.Zone()
  503. if btz, ok := sq.timezones[tz]; ok {
  504. b = append(b, btz...)
  505. } else {
  506. b = append(b, tz...)
  507. }
  508. return string(b)
  509. }