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 ﻿// *************************************************************************** // * // * Copyright (C) 2004, International Business Machines // * Corporation and others. All Rights Reserved. // * // *************************************************************************** // mt { // Spellout rules. Experimental. SpelloutRules { // This rule set shows the normal simple formatting rules for English "%simplified:\n" // negative number rule. This rule is used to format negative // numbers. The result of formatting the number's absolute // value is placed where the >> is. "-x: minus >>;\n" // faction rule. This rule is used for formatting numbers // with fractional parts. The result of formatting the // number's integral part is substituted for the <<, and // the result of formatting the number's fractional part // (one digit at a time, e.g., 0.123 is "zero punt one two // three") replaces the >>. "x.x: << punt >>;\n" // the rules for the values from 0 to 19 are simply the // words for those numbers "żero; wieħed; tnejn; tlieta; erbgħa; ħamsa; sitta; sebgħa; tmienja; disgħa;\n" "għaxra; ħdax; tnax; tlettax; erbatax; ħmistax; sittax;\n" " sbatax; tmintax; dsatax;\n" // beginning at 20, we use the >> to mark the position where // the result of formatting the number's ones digit. Thus, // we only need a new rule at every multiple of 10. Text in // backets is omitted if the value being formatted is an // even multiple of 10. "20: [>> u ]għoxrin;\n" "30: [>> u ]tletin;\n" "40: [>> u ]erbgħin;\n" "50: [>> u ]ħamsin;\n" "60: [>> u ]sittin;\n" "70: [>> u ]sebgħin;\n" "80: [>> u ]tmenin;\n" "90: [>> u ]disgħin;\n" // beginning at 100, we can use << to mark the position where // the result of formatting the multiple of 100 is to be // inserted. Notice also that the meaning of >> has shifted: // here, it refers to both the ones place and the tens place. // The meanings of the << and >> tokens depend on the base value // of the rule. A rule's divisor is (usually) the highest // power of 10 that is less than or equal to the rule's base // value. The value being formatted is divided by the rule's // divisor, and the integral quotient is used to get the text // for <<, while the remainder is used to produce the text // for >>. Again, text in brackets is omitted if the value // being formatted is an even multiple of the rule's divisor // (in this case, an even multiple of 100) "100: mija[ u >>];\n" "200: mitejn[ u >>];\n" // The rules for the higher numbers work the same way as the // rule for 100: Again, the << and >> tokens depend on the // rule's divisor, which for all these rules is also the rule's // base value. To group by thousand, we simply don't have any // rules between 1,000 and 1,000,000. "1000: << elf[ u >>];\n" "2000: << elfejn[ u >>];\n" "3000: tliet elef [ u >>];\n" "1,000,000: << miljun[ u >>];\n" "1,000,000,000: << biljun[ >>];\n" "1,000,000,000,000: << triljun[ >>];\n" // overflow rule. This rule specifies that values of a // quadrillion or more are shown in numerals rather than words. // The == token means to format (with new rules) the value // being formatted by this rule and place the result where // the == is. The #,##0 inside the == signs is a // DecimalFormat pattern. It specifies that the value should // be formatted with a DecimalFormat object, and that it // should be formatted with no decimal places, at least one // digit, and a thousands separator. "1,000,000,000,000,000: =#,##0=;\n" // %default is a more elaborate form of %simplified; It is basically // the same, except that it introduces "and" before the ones digit // when appropriate (basically, between the tens and ones digits) and // separates the thousands groups with commas in values over 100,000. "%default:\n" // negative-number and fraction rules. These are the same // as those for %simplified, but have to be stated here too // because this is an entry point "-x: minus >>;\n" "x.x: << punt >>;\n" // just use %simplified for values below 100 "=%simplified=;\n" // for values from 100 to 9,999 use %%and to decide whether or // not to interpose the "and" "100: mija[ >%%and>];\n" "200: mitejn[ >%%and>];\n" "300: tlett mija[ >%%and>];\n" "400: erbgħa mija[ >%%and>];\n" "500: ħames mija[ >%%and>];\n" "600: sitt mija[ >%%and>];\n" "700: sebgħa mija[ >%%and>];\n" "800: tmin mija[ >%%and>];\n" "900: disgħa mija[ >%%and>];\n" "1000: << elf[ >%%and>];\n" // for values of 100,000 and up, use %%commas to interpose the // commas in the right places (and also to interpose the "and") "100,000>>: << thousand[>%%commas>];\n" "1,000,000: << million[>%%commas>];\n" "1,000,000,000: << billion[>%%commas>];\n" "1,000,000,000,000: << trillion[>%%commas>];\n" "1,000,000,000,000,000: =#,##0=;\n" // if the value passed to this rule set is greater than 100, don't // add the "and"; if it's less than 100, add "and" before the last // digits "%%and:\n" "u =%default=;\n" "100: =%default=;\n" // this rule set is used to place the commas "%%commas:\n" // for values below 100, add "and" (the apostrophe at the // beginning is ignored, but causes the space that follows it // to be significant: this is necessary because the rules // calling %%commas don't put a space before it) "' and =%default=;\n" // put a comma after the thousands (or whatever preceded the // hundreds) "100: , =%default=;\n" // put a comma after the millions (or whatever precedes the // thousands) "1000: , <%default< thousand, >%default>;\n" // and so on... "1,000,000: , =%default=;" // %%lenient-parse isn't really a set of number formatting rules; // it's a set of collation rules. Lenient-parse mode uses a Collator // object to compare fragments of the text being parsed to the text // in the rules, allowing more leeway in the matching text. This set // of rules tells the formatter to ignore commas when parsing (it // already ignores spaces, which is why we refer to the space; it also // ignores hyphens, making "twenty one" and "twenty-one" parse // identically) "%%lenient-parse:\n" // "& ' ' , ',' ;\n" "&\u0000 << ' ' << ',' << '-'; \n" } DurationRules { // main rule set for formatting with words "%with-words:\n" // take care of singular and plural forms of "second" "0 sekondi; 1 sekonda; =0= sekondi;\n" // use %%min to format values greater than 60 seconds "60/60: <%%min<[, >>];\n" // use %%hr to format values greater than 3,600 seconds // (the ">>>" below causes us to see the number of minutes // when when there are zero minutes) "3600/60: <%%hr<[, >>>];\n" // this rule set takes care of the singular and plural forms // of "minute" "%%min:\n" "0 minuti; 1 minuta; =0= minuti;\n" // this rule set takes care of the singular and plural forms // of "hour" "%%hr:\n" "0 siegħat; 1 siegħa; =0= siegħat;\n" // main rule set for formatting in numerals "%in-numerals:\n" // values below 60 seconds are shown with "sec." "=0= sek.;\n" // higher values are shown with colons: %%min-sec is used for // values below 3,600 seconds... "60: =%%min-sec=;\n" // ...and %%hr-min-sec is used for values of 3,600 seconds // and above "3600: =%%hr-min-sec=;\n" // this rule causes values of less than 10 minutes to show without // a leading zero "%%min-sec:\n" "0: :=00=;\n" "60/60: <0<>>;\n" // this rule set is used for values of 3,600 or more. Minutes are always // shown, and always shown with two digits "%%hr-min-sec:\n" "0: :=00=;\n" "60/60: <00<>>;\n" "3600/60: <#,##0<:>>>;\n" // the lenient-parse rules allow several different characters to be used // as delimiters between hours, minutes, and seconds "%%lenient-parse:\n" "& ':' = '.' = ' ' = '-';\n" } }