source/data/rbnf/en.txt - external/github.com/unicode-org/icu - Git at Google

 // ***************************************************************************
 // *
 // *   Copyright (C) 2004, International Business Machines
 // *   Corporation and others.  All Rights Reserved.
 // *
 // ***************************************************************************
 //

 en {


     //------------------------------------------------------------
     // Rule Based Number Format Support
     //------------------------------------------------------------

      // * Spellout rules for U.S. English.  This rule set has two variants:
      // * %simplified is a set of rules showing the simple method of spelling
      // * out numbers in English: 289 is formatted as "two hundred eighty-nine".
      // * %default uses a more complicated algorithm to format
      // * numbers in a more natural way: 289 is formatted as "two hundred AND
      // * eighty-nine" and commas are inserted between the thousands groups for
      // * values above 100,000.

      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 point one two
                // three") replaces the >>.
             "x.x: << point >>;\n"
                // the rules for the values from 0 to 19 are simply the
                // words for those numbers
             "zero; one; two; three; four; five; six; seven; eight; nine;\n"
             "ten; eleven; twelve; thirteen; fourteen; fifteen; sixteen;\n"
                 "seventeen; eighteen; nineteen;\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: twenty[->>];\n"
             "30: thirty[->>];\n"
             "40: forty[->>];\n"
             "50: fifty[->>];\n"
             "60: sixty[->>];\n"
             "70: seventy[->>];\n"
             "80: eighty[->>];\n"
             "90: ninety[->>];\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: << hundred[ >>];\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: << thousand[ >>];\n"
             "1,000,000: << million[ >>];\n"
             "1,000,000,000: << billion[ >>];\n"
             "1,000,000,000,000: << trillion[ >>];\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: << point >>;\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: << hundred[ >%%and>];\n"
             "1000: << thousand[ >%%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"
             "and =%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"
     }


 //         * This rule set adds an English ordinal abbreviation to the end of a
 //         * number.  For example, 2 is formatted as "2nd".  Parsing doesn't work with
 //         * this rule set.  To parse, use DecimalFormat on the numeral.
     OrdinalRules {
         // this rule set formats the numeral and calls %%abbrev to
         // supply the abbreviation
         "%main:\n"
             "=#,##0==%%abbrev=;\n"
         // this rule set supplies the abbreviation
         "%%abbrev:\n"
                // the abbreviations.  Everything from 4 to 19 ends in "th"
             "th; st; nd; rd; th;\n"
                // at 20, we begin repeating the cycle every 10 (13 is "13th",
                // but 23 and 33 are "23rd" and "33rd")  We do this by
                // ignoring all bug the ones digit in selecting the abbreviation
             "20: >>;\n"
                // at 100, we repeat the whole cycle by considering only the
                // tens and ones digits in picking an abbreviation
             "100: >>;\n"
     }

 //         * This rule set formats a number of seconds in sexagesimal notation
 //         * (i.e., hours, minutes, and seconds).  %with-words formats it with
 //         * words (3,740 is "1 hour, 2 minutes, 20 seconds") and %in-numerals
 //         * formats it entirely in numerals (3,740 is "1:02:20").
     DurationRules {
         // main rule set for formatting with words
         "%with-words:\n"
                // take care of singular and plural forms of "second"
             "0 seconds; 1 second; =0= seconds;\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 minutes; 1 minute; =0= minutes;\n"
         // this rule set takes care of the singular and plural forms
         // of "hour"
         "%%hr:\n"
             "0 hours; 1 hour; =0= hours;\n"

         // main rule set for formatting in numerals
         "%in-numerals:\n"
                // values below 60 seconds are shown with "sec."
             "=0= sec.;\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"
     }
 }
	// ***************************************************************************
	// *
	// * Copyright (C) 2004, International Business Machines
	// * Corporation and others. All Rights Reserved.
	// *
	// ***************************************************************************
	//

	en {


	//------------------------------------------------------------
	// Rule Based Number Format Support
	//------------------------------------------------------------

	// * Spellout rules for U.S. English. This rule set has two variants:
	// * %simplified is a set of rules showing the simple method of spelling
	// * out numbers in English: 289 is formatted as "two hundred eighty-nine".
	// * %default uses a more complicated algorithm to format
	// * numbers in a more natural way: 289 is formatted as "two hundred AND
	// * eighty-nine" and commas are inserted between the thousands groups for
	// * values above 100,000.

	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 point one two
	// three") replaces the >>.
	"x.x: << point >>;\n"
	// the rules for the values from 0 to 19 are simply the
	// words for those numbers
	"zero; one; two; three; four; five; six; seven; eight; nine;\n"
	"ten; eleven; twelve; thirteen; fourteen; fifteen; sixteen;\n"
	"seventeen; eighteen; nineteen;\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: twenty[->>];\n"
	"30: thirty[->>];\n"
	"40: forty[->>];\n"
	"50: fifty[->>];\n"
	"60: sixty[->>];\n"
	"70: seventy[->>];\n"
	"80: eighty[->>];\n"
	"90: ninety[->>];\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: << hundred[ >>];\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: << thousand[ >>];\n"
	"1,000,000: << million[ >>];\n"
	"1,000,000,000: << billion[ >>];\n"
	"1,000,000,000,000: << trillion[ >>];\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: << point >>;\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: << hundred[ >%%and>];\n"
	"1000: << thousand[ >%%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"
	"and =%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"
	}


	// * This rule set adds an English ordinal abbreviation to the end of a
	// * number. For example, 2 is formatted as "2nd". Parsing doesn't work with
	// * this rule set. To parse, use DecimalFormat on the numeral.
	OrdinalRules {
	// this rule set formats the numeral and calls %%abbrev to
	// supply the abbreviation
	"%main:\n"
	"=#,##0==%%abbrev=;\n"
	// this rule set supplies the abbreviation
	"%%abbrev:\n"
	// the abbreviations. Everything from 4 to 19 ends in "th"
	"th; st; nd; rd; th;\n"
	// at 20, we begin repeating the cycle every 10 (13 is "13th",
	// but 23 and 33 are "23rd" and "33rd") We do this by
	// ignoring all bug the ones digit in selecting the abbreviation
	"20: >>;\n"
	// at 100, we repeat the whole cycle by considering only the
	// tens and ones digits in picking an abbreviation
	"100: >>;\n"
	}

	// * This rule set formats a number of seconds in sexagesimal notation
	// * (i.e., hours, minutes, and seconds). %with-words formats it with
	// * words (3,740 is "1 hour, 2 minutes, 20 seconds") and %in-numerals
	// * formats it entirely in numerals (3,740 is "1:02:20").
	DurationRules {
	// main rule set for formatting with words
	"%with-words:\n"
	// take care of singular and plural forms of "second"
	"0 seconds; 1 second; =0= seconds;\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 minutes; 1 minute; =0= minutes;\n"
	// this rule set takes care of the singular and plural forms
	// of "hour"
	"%%hr:\n"
	"0 hours; 1 hour; =0= hours;\n"

	// main rule set for formatting in numerals
	"%in-numerals:\n"
	// values below 60 seconds are shown with "sec."
	"=0= sec.;\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"
	}
	}