scuffed-code/icu4c/source/i18n/unicode/rbnf.h

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/*
*******************************************************************************
* Copyright (C) 1997-2001, International Business Machines Corporation and others. All Rights Reserved.
*******************************************************************************
*/
#ifndef RBNF_H
#define RBNF_H
#include "unicode/coll.h"
#include "unicode/dcfmtsym.h"
#include "unicode/fmtable.h"
#include "unicode/locid.h"
#include "unicode/numfmt.h"
#include "unicode/unistr.h"
#include "unicode/utypes.h"
U_NAMESPACE_BEGIN
class NFRuleSet;
/** Tags for the predefined rulesets. */
enum URBNFRuleSetTag {
URBNF_SPELLOUT,
URBNF_ORDINAL,
URBNF_DURATION,
URBNF_COUNT
};
/**
* \brief C++ API: RuleBasedNumberFormat
*
* <h2> Rule Based Number Format C++ API </h2>
*
* <p>A class that formats numbers according to a set of rules. This number formatter is
* typically used for spelling out numeric values in words (e.g., 25,3476 as
* &quot;twenty-five thousand three hundred seventy-six&quot; or &quot;vingt-cinq mille trois
* cents soixante-seize&quot; or
* &quot;f&uuml;nfundzwanzigtausenddreihundertsechsundsiebzig&quot;), but can also be used for
* other complicated formatting tasks, such as formatting a number of seconds as hours,
* minutes and seconds (e.g., 3,730 as &quot;1:02:10&quot;).</p>
*
* <p>The resources contain three predefined formatters for each locale: spellout, which
* spells out a value in words (123 is &quot;one hundred twenty-three&quot;); ordinal, which
* appends an ordinal suffix to the end of a numeral (123 is &quot;123rd&quot;); and
* duration, which shows a duration in seconds as hours, minutes, and seconds (123 is
* &quot;2:03&quot;).&nbsp; The client can also define more specialized <tt>RuleBasedNumberFormat</tt>s
* by supplying programmer-defined rule sets.</p>
*
* <p>The behavior of a <tt>RuleBasedNumberFormat</tt> is specified by a textual description
* that is either passed to the constructor as a <tt>String</tt> or loaded from a resource
* bundle. In its simplest form, the description consists of a semicolon-delimited list of <em>rules.</em>
* Each rule has a string of output text and a value or range of values it is applicable to.
* In a typical spellout rule set, the first twenty rules are the words for the numbers from
* 0 to 19:</p>
*
* <pre>zero; one; two; three; four; five; six; seven; eight; nine;
* ten; eleven; twelve; thirteen; fourteen; fifteen; sixteen; seventeen; eighteen; nineteen;</pre>
*
* <p>For larger numbers, we can use the preceding set of rules to format the ones place, and
* we only have to supply the words for the multiples of 10:</p>
*
* <pre> 20: twenty[-&gt;&gt;];
* 30: thirty[-&gt;&gt;];
* 40: forty[-&gt;&gt;];
* 50: fifty[-&gt;&gt;];
* 60: sixty[-&gt;&gt;];
* 70: seventy[-&gt;&gt;];
* 80: eighty[-&gt;&gt;];
* 90: ninety[-&gt;&gt;];</pre>
*
* <p>In these rules, the <em>base value</em> is spelled out explicitly and set off from the
* rule's output text with a colon. The rules are in a sorted list, and a rule is applicable
* to all numbers from its own base value to one less than the next rule's base value. The
* &quot;&gt;&gt;&quot; token is called a <em>substitution</em> and tells the fomatter to
* isolate the number's ones digit, format it using this same set of rules, and place the
* result at the position of the &quot;&gt;&gt;&quot; token. Text in brackets is omitted if
* the number being formatted is an even multiple of 10 (the hyphen is a literal hyphen; 24
* is &quot;twenty-four,&quot; not &quot;twenty four&quot;).</p>
*
* <p>For even larger numbers, we can actually look up several parts of the number in the
* list:</p>
*
* <pre>100: &lt;&lt; hundred[ &gt;&gt;];</pre>
*
* <p>The &quot;&lt;&lt;&quot; represents a new kind of substitution. The &lt;&lt; isolates
* the hundreds digit (and any digits to its left), formats it using this same rule set, and
* places the result where the &quot;&lt;&lt;&quot; was. Notice also that the meaning of
* &gt;&gt; has changed: it now refers to both the tens and the ones digits. The meaning of
* both substitutions depends on the rule's base value. The base value determines the rule's <em>divisor,</em>
* which is the highest power of 10 that is less than or equal to the base value (the user
* can change this). To fill in the substitutions, the formatter divides the number being
* formatted by the divisor. The integral quotient is used to fill in the &lt;&lt;
* substitution, and the remainder is used to fill in the &gt;&gt; substitution. The meaning
* of the brackets changes similarly: text in brackets is omitted if the value being
* formatted is an even multiple of the rule's divisor. The rules are applied recursively, so
* if a substitution is filled in with text that includes another substitution, that
* substitution is also filled in.</p>
*
* <p>This rule covers values up to 999, at which point we add another rule:</p>
*
* <pre>1000: &lt;&lt; thousand[ &gt;&gt;];</pre>
*
* <p>Again, the meanings of the brackets and substitution tokens shift because the rule's
* base value is a higher power of 10, changing the rule's divisor. This rule can actually be
* used all the way up to 999,999. This allows us to finish out the rules as follows:</p>
*
* <pre> 1,000,000: &lt;&lt; million[ &gt;&gt;];
* 1,000,000,000: &lt;&lt; billion[ &gt;&gt;];
* 1,000,000,000,000: &lt;&lt; trillion[ &gt;&gt;];
* 1,000,000,000,000,000: OUT OF RANGE!;</pre>
*
* <p>Commas, periods, and spaces can be used in the base values to improve legibility and
* are ignored by the rule parser. The last rule in the list is customarily treated as an
* &quot;overflow rule,&quot; applying to everything from its base value on up, and often (as
* in this example) being used to print out an error message or default representation.
* Notice also that the size of the major groupings in large numbers is controlled by the
* spacing of the rules: because in English we group numbers by thousand, the higher rules
* are separated from each other by a factor of 1,000.</p>
*
* <p>To see how these rules actually work in practice, consider the following example:
* Formatting 25,430 with this rule set would work like this:</p>
*
* <table border="0" width="630">
* <tr>
* <td width="21"></td>
* <td width="257" valign="top"><strong>&lt;&lt; thousand &gt;&gt;</strong></td>
* <td width="340" valign="top">[the rule whose base value is 1,000 is applicable to 25,340]</td>
* </tr>
* <tr>
* <td width="21"></td>
* <td width="257" valign="top"><strong>twenty-&gt;&gt;</strong> thousand &gt;&gt;</td>
* <td width="340" valign="top">[25,340 over 1,000 is 25. The rule for 20 applies.]</td>
* </tr>
* <tr>
* <td width="21"></td>
* <td width="257" valign="top">twenty-<strong>five</strong> thousand &gt;&gt;</td>
* <td width="340" valign="top">[25 mod 10 is 5. The rule for 5 is &quot;five.&quot;</td>
* </tr>
* <tr>
* <td width="21"></td>
* <td width="257" valign="top">twenty-five thousand <strong>&lt;&lt; hundred &gt;&gt;</strong></td>
* <td width="340" valign="top">[25,340 mod 1,000 is 340. The rule for 100 applies.]</td>
* </tr>
* <tr>
* <td width="21"></td>
* <td width="257" valign="top">twenty-five thousand <strong>three</strong> hundred &gt;&gt;</td>
* <td width="340" valign="top">[340 over 100 is 3. The rule for 3 is &quot;three.&quot;]</td>
* </tr>
* <tr>
* <td width="21"></td>
* <td width="257" valign="top">twenty-five thousand three hundred <strong>forty</strong></td>
* <td width="340" valign="top">[340 mod 100 is 40. The rule for 40 applies. Since 40 divides
* evenly by 10, the hyphen and substitution in the brackets are omitted.]</td>
* </tr>
* </table>
*
* <p>The above syntax suffices only to format positive integers. To format negative numbers,
* we add a special rule:</p>
*
* <pre>-x: minus &gt;&gt;;</pre>
*
* <p>This is called a <em>negative-number rule,</em> and is identified by &quot;-x&quot;
* where the base value would be. This rule is used to format all negative numbers. the
* &gt;&gt; token here means &quot;find the number's absolute value, format it with these
* rules, and put the result here.&quot;</p>
*
* <p>We also add a special rule called a <em>fraction rule </em>for numbers with fractional
* parts:</p>
*
* <pre>x.x: &lt;&lt; point &gt;&gt;;</pre>
*
* <p>This rule is used for all positive non-integers (negative non-integers pass through the
* negative-number rule first and then through this rule). Here, the &lt;&lt; token refers to
* the number's integral part, and the &gt;&gt; to the number's fractional part. The
* fractional part is formatted as a series of single-digit numbers (e.g., 123.456 would be
* formatted as &quot;one hundred twenty-three point four five six&quot;).</p>
*
* <p>To see how this rule syntax is applied to various languages, examine the resource data.</p>
*
* <p>There is actually much more flexibility built into the rule language than the
* description above shows. A formatter may own multiple rule sets, which can be selected by
* the caller, and which can use each other to fill in their substitutions. Substitutions can
* also be filled in with digits, using a DecimalFormat object. There is syntax that can be
* used to alter a rule's divisor in various ways. And there is provision for much more
* flexible fraction handling. A complete description of the rule syntax follows:</p>
*
* <hr>
*
* <p>The description of a <tt>RuleBasedNumberFormat</tt>'s behavior consists of one or more <em>rule
* sets.</em> Each rule set consists of a name, a colon, and a list of <em>rules.</em> A rule
* set name must begin with a % sign. Rule sets with names that begin with a single % sign
* are <em>public:</em> the caller can specify that they be used to format and parse numbers.
* Rule sets with names that begin with %% are <em>private:</em> they exist only for the use
* of other rule sets. If a formatter only has one rule set, the name may be omitted.</p>
*
* <p>The user can also specify a special &quot;rule set&quot; named <tt>%%lenient-parse</tt>.
* The body of <tt>%%lenient-parse</tt> isn't a set of number-formatting rules, but a <tt>RuleBasedCollator</tt>
* description which is used to define equivalences for lenient parsing. For more information
* on the syntax, see <tt>RuleBasedCollator</tt>. For more information on lenient parsing,
* see <tt>setLenientParse()</tt>.</p>
*
* <p>The body of a rule set consists of an ordered, semicolon-delimited list of <em>rules.</em>
* Internally, every rule has a base value, a divisor, rule text, and zero, one, or two <em>substitutions.</em>
* These parameters are controlled by the description syntax, which consists of a <em>rule
* descriptor,</em> a colon, and a <em>rule body.</em></p>
*
* <p>A rule descriptor can take one of the following forms (text in <em>italics</em> is the
* name of a token):</p>
*
* <table border="0" width="100%">
* <tr>
* <td width="5%" valign="top"></td>
* <td width="8%" valign="top"><em>bv</em>:</td>
* <td valign="top"><em>bv</em> specifies the rule's base value. <em>bv</em> is a decimal
* number expressed using ASCII digits. <em>bv</em> may contain spaces, period, and commas,
* which are ignored. The rule's divisor is the highest power of 10 less than or equal to
* the base value.</td>
* </tr>
* <tr>
* <td width="5%" valign="top"></td>
* <td width="8%" valign="top"><em>bv</em>/<em>rad</em>:</td>
* <td valign="top"><em>bv</em> specifies the rule's base value. The rule's divisor is the
* highest power of <em>rad</em> less than or equal to the base value.</td>
* </tr>
* <tr>
* <td width="5%" valign="top"></td>
* <td width="8%" valign="top"><em>bv</em>&gt;:</td>
* <td valign="top"><em>bv</em> specifies the rule's base value. To calculate the divisor,
* let the radix be 10, and the exponent be the highest exponent of the radix that yields a
* result less than or equal to the base value. Every &gt; character after the base value
* decreases the exponent by 1. If the exponent is positive or 0, the divisor is the radix
* raised to the power of the exponent; otherwise, the divisor is 1.</td>
* </tr>
* <tr>
* <td width="5%" valign="top"></td>
* <td width="8%" valign="top"><em>bv</em>/<em>rad</em>&gt;:</td>
* <td valign="top"><em>bv</em> specifies the rule's base value. To calculate the divisor,
* let the radix be <em>rad</em>, and the exponent be the highest exponent of the radix that
* yields a result less than or equal to the base value. Every &gt; character after the radix
* decreases the exponent by 1. If the exponent is positive or 0, the divisor is the radix
* raised to the power of the exponent; otherwise, the divisor is 1.</td>
* </tr>
* <tr>
* <td width="5%" valign="top"></td>
* <td width="8%" valign="top">-x:</td>
* <td valign="top">The rule is a negative-number rule.</td>
* </tr>
* <tr>
* <td width="5%" valign="top"></td>
* <td width="8%" valign="top">x.x:</td>
* <td valign="top">The rule is an <em>improper fraction rule.</em></td>
* </tr>
* <tr>
* <td width="5%" valign="top"></td>
* <td width="8%" valign="top">0.x:</td>
* <td valign="top">The rule is a <em>proper fraction rule.</em></td>
* </tr>
* <tr>
* <td width="5%" valign="top"></td>
* <td width="8%" valign="top">x.0:</td>
* <td valign="top">The rule is a <em>master rule.</em></td>
* </tr>
* <tr>
* <td width="5%" valign="top"></td>
* <td width="8%" valign="top"><em>nothing</em></td>
* <td valign="top">If the rule's rule descriptor is left out, the base value is one plus the
* preceding rule's base value (or zero if this is the first rule in the list) in a normal
* rule set.&nbsp; In a fraction rule set, the base value is the same as the preceding rule's
* base value.</td>
* </tr>
* </table>
*
* <p>A rule set may be either a regular rule set or a <em>fraction rule set,</em> depending
* on whether it is used to format a number's integral part (or the whole number) or a
* number's fractional part. Using a rule set to format a rule's fractional part makes it a
* fraction rule set.</p>
*
* <p>Which rule is used to format a number is defined according to one of the following
* algorithms: If the rule set is a regular rule set, do the following:
*
* <ul>
* <li>If the rule set includes a master rule (and the number was passed in as a <tt>double</tt>),
* use the master rule.&nbsp; (If the number being formatted was passed in as a <tt>long</tt>,
* the master rule is ignored.)</li>
* <li>If the number is negative, use the negative-number rule.</li>
* <li>If the number has a fractional part and is greater than 1, use the improper fraction
* rule.</li>
* <li>If the number has a fractional part and is between 0 and 1, use the proper fraction
* rule.</li>
* <li>Binary-search the rule list for the rule with the highest base value less than or equal
* to the number. If that rule has two substitutions, its base value is not an even multiple
* of its divisor, and the number <em>is</em> an even multiple of the rule's divisor, use the
* rule that precedes it in the rule list. Otherwise, use the rule itself.</li>
* </ul>
*
* <p>If the rule set is a fraction rule set, do the following:
*
* <ul>
* <li>Ignore negative-number and fraction rules.</li>
* <li>For each rule in the list, multiply the number being formatted (which will always be
* between 0 and 1) by the rule's base value. Keep track of the distance between the result
* the nearest integer.</li>
* <li>Use the rule that produced the result closest to zero in the above calculation. In the
* event of a tie or a direct hit, use the first matching rule encountered. (The idea here is
* to try each rule's base value as a possible denominator of a fraction. Whichever
* denominator produces the fraction closest in value to the number being formatted wins.) If
* the rule following the matching rule has the same base value, use it if the numerator of
* the fraction is anything other than 1; if the numerator is 1, use the original matching
* rule. (This is to allow singular and plural forms of the rule text without a lot of extra
* hassle.)</li>
* </ul>
*
* <p>A rule's body consists of a string of characters terminated by a semicolon. The rule
* may include zero, one, or two <em>substitution tokens,</em> and a range of text in
* brackets. The brackets denote optional text (and may also include one or both
* substitutions). The exact meanings of the substitution tokens, and under what conditions
* optional text is omitted, depend on the syntax of the substitution token and the context.
* The rest of the text in a rule body is literal text that is output when the rule matches
* the number being formatted.</p>
*
* <p>A substitution token begins and ends with a <em>token character.</em> The token
* character and the context together specify a mathematical operation to be performed on the
* number being formatted. An optional <em>substitution descriptor </em>specifies how the
* value resulting from that operation is used to fill in the substitution. The position of
* the substitution token in the rule body specifies the location of the resultant text in
* the original rule text.</p>
*
* <p>The meanings of the substitution token characters are as follows:</p>
*
* <table border="0" width="100%">
* <tr>
* <td width="37"></td>
* <td width="23">&gt;&gt;</td>
* <td width="165" valign="top">in normal rule</td>
* <td>Divide the number by the rule's divisor and format the remainder</td>
* </tr>
* <tr>
* <td width="37"></td>
* <td width="23"></td>
* <td width="165" valign="top">in negative-number rule</td>
* <td>Find the absolute value of the number and format the result</td>
* </tr>
* <tr>
* <td width="37"></td>
* <td width="23"></td>
* <td width="165" valign="top">in fraction or master rule</td>
* <td>Isolate the number's fractional part and format it.</td>
* </tr>
* <tr>
* <td width="37"></td>
* <td width="23"></td>
* <td width="165" valign="top">in rule in fraction rule set</td>
* <td>Not allowed.</td>
* </tr>
* <tr>
* <td width="37"></td>
* <td width="23">&gt;&gt;&gt;</td>
* <td width="165" valign="top">in normal rule</td>
* <td>Divide the number by the rule's divisor and format the remainder,
* but bypass the normal rule-selection process and just use the
* rule that precedes this one in this rule list.</td>
* </tr>
* <tr>
* <td width="37"></td>
* <td width="23"></td>
* <td width="165" valign="top">in all other rules</td>
* <td>Not allowed.</td>
* </tr>
* <tr>
* <td width="37"></td>
* <td width="23">&lt;&lt;</td>
* <td width="165" valign="top">in normal rule</td>
* <td>Divide the number by the rule's divisor and format the quotient</td>
* </tr>
* <tr>
* <td width="37"></td>
* <td width="23"></td>
* <td width="165" valign="top">in negative-number rule</td>
* <td>Not allowed.</td>
* </tr>
* <tr>
* <td width="37"></td>
* <td width="23"></td>
* <td width="165" valign="top">in fraction or master rule</td>
* <td>Isolate the number's integral part and format it.</td>
* </tr>
* <tr>
* <td width="37"></td>
* <td width="23"></td>
* <td width="165" valign="top">in rule in fraction rule set</td>
* <td>Multiply the number by the rule's base value and format the result.</td>
* </tr>
* <tr>
* <td width="37"></td>
* <td width="23">==</td>
* <td width="165" valign="top">in all rule sets</td>
* <td>Format the number unchanged</td>
* </tr>
* <tr>
* <td width="37"></td>
* <td width="23">[]</td>
* <td width="165" valign="top">in normal rule</td>
* <td>Omit the optional text if the number is an even multiple of the rule's divisor</td>
* </tr>
* <tr>
* <td width="37"></td>
* <td width="23"></td>
* <td width="165" valign="top">in negative-number rule</td>
* <td>Not allowed.</td>
* </tr>
* <tr>
* <td width="37"></td>
* <td width="23"></td>
* <td width="165" valign="top">in improper-fraction rule</td>
* <td>Omit the optional text if the number is between 0 and 1 (same as specifying both an
* x.x rule and a 0.x rule)</td>
* </tr>
* <tr>
* <td width="37"></td>
* <td width="23"></td>
* <td width="165" valign="top">in master rule</td>
* <td>Omit the optional text if the number is an integer (same as specifying both an x.x
* rule and an x.0 rule)</td>
* </tr>
* <tr>
* <td width="37"></td>
* <td width="23"></td>
* <td width="165" valign="top">in proper-fraction rule</td>
* <td>Not allowed.</td>
* </tr>
* <tr>
* <td width="37"></td>
* <td width="23"></td>
* <td width="165" valign="top">in rule in fraction rule set</td>
* <td>Omit the optional text if multiplying the number by the rule's base value yields 1.</td>
* </tr>
* </table>
*
* <p>The substitution descriptor (i.e., the text between the token characters) may take one
* of three forms:</p>
*
* <table border="0" width="100%">
* <tr>
* <td width="42"></td>
* <td width="166" valign="top">a rule set name</td>
* <td>Perform the mathematical operation on the number, and format the result using the
* named rule set.</td>
* </tr>
* <tr>
* <td width="42"></td>
* <td width="166" valign="top">a DecimalFormat pattern</td>
* <td>Perform the mathematical operation on the number, and format the result using a
* DecimalFormat with the specified pattern.&nbsp; The pattern must begin with 0 or #.</td>
* </tr>
* <tr>
* <td width="42"></td>
* <td width="166" valign="top">nothing</td>
* <td>Perform the mathematical operation on the number, and format the result using the rule
* set containing the current rule, except:<ul>
* <li>You can't have an empty substitution descriptor with a == substitution.</li>
* <li>If you omit the substitution descriptor in a &gt;&gt; substitution in a fraction rule,
* format the result one digit at a time using the rule set containing the current rule.</li>
* <li>If you omit the substitution descriptor in a &lt;&lt; substitution in a rule in a
* fraction rule set, format the result using the default rule set for this formatter.</li>
* </ul>
* </td>
* </tr>
* </table>
*
* <p>Whitespace is ignored between a rule set name and a rule set body, between a rule
* descriptor and a rule body, or between rules. If a rule body begins with an apostrophe,
* the apostrophe is ignored, but all text after it becomes significant (this is how you can
* have a rule's rule text begin with whitespace). There is no escape function: the semicolon
* is not allowed in rule set names or in rule text, and the colon is not allowed in rule set
* names. The characters beginning a substitution token are always treated as the beginning
* of a substitution token.</p>
*
* <p>See the resource data and the demo program for annotated examples of real rule sets
* using these features.</p>
*
* @author Richard Gillam
* @see NumberFormat
* @see DecimalFormat
* @draft ICU 2.0
*/
class U_I18N_API RuleBasedNumberFormat : public NumberFormat {
public:
//-----------------------------------------------------------------------
// constructors
//-----------------------------------------------------------------------
/**
* Creates a RuleBasedNumberFormat that behaves according to the rules
* passed in. The formatter uses the specified locale to determine the
* characters to use when formatting numerals, and to define equivalences
* for lenient parsing.
* @param rules The formatter rules.
* See the class documentation for a complete explanation of the rule
* syntax.
* @param locale A locale, that governs which characters are used for
* formatting values in numerals, and which characters are equivalent in
* lenient parsing.
* @param perror The parse error if an error was encountered.
* @param status The status indicating whether the constructor succeeded.
* @draft ICU 2.0
*/
RuleBasedNumberFormat(const UnicodeString& rules, const Locale& locale,
UParseError& perror, UErrorCode& status);
/**
* Creates a RuleBasedNumberFormat from a predefined ruleset. The selector
* code choosed among three possible predefined formats: spellout, ordinal,
* and duration.
* @param tag A selector code specifying which kind of formatter to create for that
* locale. There are three legal values: URBNF_SPELLOUT, which creates a formatter that
* spells out a value in words in the desired language, URBNF_ORDINAL, which attaches
* an ordinal suffix from the desired language to the end of a number (e.g. "123rd"),
* and URBNF_DURATION, which formats a duration in seconds as hours, minutes, and seconds.
* @param locale The locale for the formatter.
* @param status The status indicating whether the constructor succeeded.
* @draft ICU 2.0
*/
RuleBasedNumberFormat(URBNFRuleSetTag tag, const Locale& locale, UErrorCode& status);
//-----------------------------------------------------------------------
// boilerplate
//-----------------------------------------------------------------------
/**
* Copy constructor
*/
RuleBasedNumberFormat(const RuleBasedNumberFormat& rhs);
/**
* Assignment operator
*/
RuleBasedNumberFormat& operator=(const RuleBasedNumberFormat& rhs);
/**
* Release memory allocated for a RuleBasedNumberFormat when you are finished with it.
*/
virtual ~RuleBasedNumberFormat();
/**
* Clone this object polymorphically. The caller is responsible
* for deleting the result when done.
*/
virtual Format* clone(void) const;
/**
* Return true if the given Format objects are semantically equal.
* Objects of different subclasses are considered unequal.
*/
virtual UBool operator==(const Format& other) const;
//-----------------------------------------------------------------------
// public API functions
//-----------------------------------------------------------------------
/**
* @return the rules that were provided to the RuleBasedNumberFormat.
* @return the result String that was passed in
* @draft ICU 2.0
*/
virtual UnicodeString getRules() const;
/**
* Return the name of the index'th public ruleSet. If index is not valid,
* the function returns null.
* @param index the index of the ruleset
* @return the name of the index'th public ruleSet.
* @draft ICU 2.0
*/
virtual UnicodeString getRuleSetName(int32_t index) const;
/**
* Return the number of public rule set names.
* @return the number of public rule set names.
* @draft ICU 2.0
*/
virtual int32_t getNumberOfRuleSetNames() const;
/**
* Formats the specified number using the default ruleset.
* @param number The number to format.
* @param toAppendTo the string that will hold the (appended) result
* @param pos the fieldposition
* @return A textual representation of the number.
* @draft ICU 2.0
*/
virtual UnicodeString& format(int32_t number,
UnicodeString& toAppendTo,
FieldPosition& pos) const;
/**
* Formats the specified number using the default ruleset.
* @param number The number to format.
* @param toAppendTo the string that will hold the (appended) result
* @param pos the fieldposition
* @return A textual representation of the number.
* @draft ICU 2.0
*/
virtual UnicodeString& format(double number,
UnicodeString& toAppendTo,
FieldPosition& pos) const;
/**
* Formats the specified number using the default ruleset.
* @param number The number to format.
* @param ruleSetName The name of the rule set to format the number with.
* This must be the name of a valid public rule set for this formatter.
* @param toAppendTo the string that will hold the (appended) result
* @param pos the fieldposition
* @param status the status
* @return A textual representation of the number.
* @draft ICU 2.0
*/
virtual UnicodeString& format(int32_t number,
const UnicodeString& ruleSetName,
UnicodeString& toAppendTo,
FieldPosition& pos,
UErrorCode& status) const;
/**
* Formats the specified number using the default ruleset.
* @param number The number to format.
* @param ruleSetName The name of the rule set to format the number with.
* This must be the name of a valid public rule set for this formatter.
* @param toAppendTo the string that will hold the (appended) result
* @param pos the fieldposition
* @param status the status
* @return A textual representation of the number.
* @draft ICU 2.0
*/
virtual UnicodeString& format(double number,
const UnicodeString& ruleSetName,
UnicodeString& toAppendTo,
FieldPosition& pos,
UErrorCode& status) const;
/**
* Formats the specified number using the default ruleset.
* @param obj The number to format.
* @param toAppendTo the string that will hold the (appended) result
* @param pos the fieldposition
* @param status the status
* @return A textual representation of the number.
* @draft ICU 2.0
*/
virtual UnicodeString& format(const Formattable& obj,
UnicodeString& toAppendTo,
FieldPosition& pos,
UErrorCode& status) const;
/**
* Redeclared Format method.
* @stable
*/
UnicodeString& format(const Formattable& obj,
UnicodeString& result,
UErrorCode& status) const;
/**
* Redeclared NumberFormat method.
* @stable
*/
UnicodeString& format(double number,
UnicodeString& output) const;
/**
* Redeclared NumberFormat method.
* @stable
*/
UnicodeString& format(int32_t number,
UnicodeString& output) const;
/**
* Parses the specfied string, beginning at the specified position, according
* to this formatter's rules. This will match the string against all of the
* formatter's public rule sets and return the value corresponding to the longest
* parseable substring. This function's behavior is affected by the lenient
* parse mode.
* @param text The string to parse
* @param result the result of the parse, either a double or a long.
* @param parsePosition On entry, contains the position of the first character
* in "text" to examine. On exit, has been updated to contain the position
* of the first character in "text" that wasn't consumed by the parse.
* @see #setLenientParseMode
* @draft ICU 2.0
*/
virtual void parse(const UnicodeString& text,
Formattable& result,
ParsePosition& parsePosition) const;
/**
* Redeclared Format method.
* @stable
*/
virtual inline void parse(const UnicodeString& text,
Formattable& result,
UErrorCode& status) const;
/**
* Turns lenient parse mode on and off.
*
* When in lenient parse mode, the formatter uses a Collator for parsing the text.
* Only primary differences are treated as significant. This means that case
* differences, accent differences, alternate spellings of the same letter
* (e.g., ae and a-umlaut in German), ignorable characters, etc. are ignored in
* matching the text. In many cases, numerals will be accepted in place of words
* or phrases as well.
*
* For example, all of the following will correctly parse as 255 in English in
* lenient-parse mode:
* <br>"two hundred fifty-five"
* <br>"two hundred fifty five"
* <br>"TWO HUNDRED FIFTY-FIVE"
* <br>"twohundredfiftyfive"
* <br>"2 hundred fifty-5"
*
* The Collator used is determined by the locale that was
* passed to this object on construction. The description passed to this object
* on construction may supply additional collation rules that are appended to the
* end of the default collator for the locale, enabling additional equivalences
* (such as adding more ignorable characters or permitting spelled-out version of
* symbols; see the demo program for examples).
*
* It's important to emphasize that even strict parsing is relatively lenient: it
* will accept some text that it won't produce as output. In English, for example,
* it will correctly parse "two hundred zero" and "fifteen hundred".
*
* @param enabled If true, turns lenient-parse mode on; if false, turns it off.
* @see RuleBasedCollator
* @draft ICU 2.0
*/
virtual void setLenient(UBool enabled);
/**
* Returns true if lenient-parse mode is turned on. Lenient parsing is off
* by default.
* @return true if lenient-parse mode is turned on.
* @see #setLenientParseMode
* @draft ICU 2.0
*/
virtual inline UBool isLenient(void) const;
private:
void init(const UnicodeString& rules, UParseError& perror, UErrorCode& status);
void dispose();
void stripWhitespace(UnicodeString& src);
void setDefaultRuleSet();
void format(double number, NFRuleSet& ruleSet);
NFRuleSet* findRuleSet(const UnicodeString& name, UErrorCode& status) const;
/* friend access */
friend class NFSubstitution;
friend class NFRule;
friend class FractionalPartSubstitution;
inline NFRuleSet * getDefaultRuleSet() const;
Collator * getCollator() const;
DecimalFormatSymbols * getDecimalFormatSymbols() const;
private:
static const char fgClassID;
public:
static UClassID getStaticClassID(void) { return (UClassID)&fgClassID; }
virtual UClassID getDynamicClassID(void) const { return getStaticClassID(); }
private:
NFRuleSet **ruleSets;
NFRuleSet *defaultRuleSet;
Locale locale;
Collator* collator;
DecimalFormatSymbols* decimalFormatSymbols;
UBool lenient;
UnicodeString* lenientParseRules;
};
// ---------------
inline UnicodeString&
RuleBasedNumberFormat::format(const Formattable& obj,
UnicodeString& result,
UErrorCode& status) const
{
// Don't use Format:: - use immediate base class only,
// in case immediate base modifies behavior later.
// dlf - the above comment is bogus, if there were a reason to modify
// it, it would be virtual, and there's no reason because it is
// a one-line macro in NumberFormat anyway, just like this one.
return NumberFormat::format(obj, result, status);
}
inline UnicodeString&
RuleBasedNumberFormat::format(double number, UnicodeString& output) const {
FieldPosition pos(0);
return format(number, output, pos);
}
inline UnicodeString&
RuleBasedNumberFormat::format(int32_t number, UnicodeString& output) const {
FieldPosition pos(0);
return format(number, output, pos);
}
inline void
RuleBasedNumberFormat::parse(const UnicodeString& text, Formattable& result, UErrorCode& status) const
{
NumberFormat::parse(text, result, status);
}
inline UBool
RuleBasedNumberFormat::isLenient(void) const {
return lenient;
}
inline NFRuleSet*
RuleBasedNumberFormat::getDefaultRuleSet() const {
return defaultRuleSet;
}
U_NAMESPACE_END
/* RBNF_H */
#endif